CN212600238U - Tooth relieving apparatus - Google Patents

Abstract

The present application provides a tooth forming apparatus. The relieving equipment comprises a rack, a slide rail, a slide seat, an adjusting base, a clamp plate, a translation driving mechanism, a shielding cover plate and a telescopic cover plate component, wherein the slide rail is arranged on the rack; the sliding seat is arranged on the sliding rail in a sliding manner; the adjusting base is arranged on the sliding seat; the clamp plate is arranged on the adjusting base and used for clamping and positioning the radiating fins; the translation driving mechanism comprises a fixed seat and a driving mechanism body, the fixed seat is arranged on the rack, and the power output end of the driving mechanism body is connected with the sliding seat; the shielding cover plate is positioned at one end of the sliding seat; shelter from the both sides that the slide was located respectively to cover plate and flexible cover body subassembly, in addition shelter from the cover plate and all cover of flexible cover body subassembly and locate on the slide rail, avoid adding the problem that the piece that produces scatters to the slide rail in man-hour to the fin on the clamp plate, solved the higher problem of the clastic clearance degree of difficulty of forming relieved tooth equipment in the use, and then improved clastic clearance effect and the convenient to use nature of forming relieved tooth equipment.

Description

Tooth relieving apparatus

Technical Field

The utility model relates to a technical field of fin processing especially relates to a forming relieved tooth equipment.

Background

The relieving equipment is used for processing the radiating fins of the radiating fins in a mode of digging up the radiating fins one by one. Before processing, the clamp plate of the radiating fin is adsorbed and fixed on the adjustable base in a vacuum adsorption mode, and then the radiating fin on the clamp plate is dug and processed by the shovel-tooth cutter. The driving mechanism of the relieving equipment comprises a translation mechanism and a lifting mechanism, wherein the translation mechanism drives the adjustable base to move horizontally relative to the rack, the lifting mechanism drives the relieving cutter to move up and down, and the adjustable base is adjusted in angle, so that the processing action of the relieving cutter is realized.

However, carry out the course of working at the spiller and can produce a lot of pieces to the fin, the piece can drop to translation mechanism's translation track on, need carry out periodic cleaning to the piece in the use, because the piece drops to translation mechanism's translation track on, the clearance degree of difficulty is higher, leads to clastic clearance effect relatively poor, makes the convenient to use nature of spiller tooth equipment relatively poor simultaneously.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, provide a relieving equipment of solving above-mentioned technical problem.

The purpose of the utility model is realized through the following technical scheme:

a tooth forming apparatus comprising:

a frame;

the sliding rail is arranged on the rack;

the sliding seat is arranged on the sliding rail in a sliding manner;

the adjusting base is arranged on the sliding seat;

the clamp plate is arranged on the adjusting base and used for clamping and positioning the radiating fins;

the translation driving mechanism comprises a fixed seat and a driving mechanism body, the fixed seat is arranged on the rack, and the power output end of the driving mechanism body is connected with the sliding seat;

the shielding cover plate is positioned at one end of the sliding seat and is in sliding connection with the rack, and the shielding cover plate is covered on the sliding rail;

the telescopic cover plate assembly, the one end of telescopic cover plate assembly with the fixing base is connected, the other end of telescopic cover plate assembly with the other end of slide is connected, telescopic cover plate assembly follows the slip direction concertina movement of slide, just telescopic cover plate assembly covers and is located the slide rail.

In one embodiment, the slide rail includes a first slide rail and a second slide rail, the first slide rail and the second slide rail are arranged in parallel, and the slide carriage is respectively connected to the first slide rail and the second slide rail in a sliding manner.

In one embodiment, the tooth relieving equipment further comprises a locking member, the sliding seat is provided with a plurality of fixing holes, the adjusting base is provided with a mounting hole, and the locking member is respectively arranged in the mounting hole and one of the fixing holes in a penetrating manner.

In one embodiment, the sliding seat is provided with a notch, the notch extends along the sliding direction of the sliding seat, the plurality of fixing holes are communicated with the notch, and the plurality of fixing holes are distributed at intervals along the extending direction of the notch.

In one embodiment, a plurality of the fixing holes are uniformly distributed along the extending direction of the notch.

In one embodiment, the adjusting base comprises a base body, a supporting seat and a mounting platform, the base body and the supporting seat are arranged on the sliding seat side by side, the mounting hole is formed in the supporting seat, the mounting platform is rotatably connected with the base body, and the supporting seat is supported on one surface, adjacent to the sliding seat, of the mounting platform; the clamp plate is detachably arranged on one surface, back to the sliding seat, of the mounting table.

In one embodiment, the base body comprises a base body, two fixing bosses and a rotating shaft, the base body is connected with the sliding seat, the number of the fixing bosses is two, the two fixing bosses are arranged on one surface of the base body, which is far away from the sliding seat, side by side, and two ends of the rotating shaft are respectively connected with the two fixing bosses in a rotating manner; the mounting table is provided with a through hole, and the rotating shaft penetrates through the through hole and is connected with the mounting table.

In one embodiment, the supporting seat comprises a supporting seat body and a rolling column, the mounting hole is formed in the supporting seat body, the supporting seat body is further provided with a tapered groove, the rolling column is located in the tapered groove, and the rolling column is abutted against one surface, adjacent to the sliding seat, of the mounting table to support the mounting table.

In one embodiment, a first inclined surface and a second inclined surface are arranged on one surface of the shielding cover plate, which is far away from the slide rail, and the first inclined surface and the second inclined surface are symmetrically arranged relative to the sliding direction of the sliding seat.

In one embodiment, the retractable cover plate assembly comprises a first cover plate and a second cover plate, the first cover plate is covered on the second cover plate and is in sliding connection with the second cover plate, the first cover plate and the second cover plate are covered on the sliding rail, the first cover plate is connected with the sliding seat, and the second cover plate is connected with the fixed seat.

Compared with the prior art, the utility model discloses at least, following advantage has:

1. the slide seat is arranged on the slide rail in a sliding manner, the adjusting base is arranged on the slide seat, the clamp plate is arranged on the adjusting base, the clamp plate is arranged on the slide seat through the adjusting base, and further the clamp plate slides relative to the slide rail along with the slide seat;

2. because the telescopic cover plate component moves telescopically along the sliding direction of the sliding seat, the telescopic cover plate component stretches out and draws back in the sliding process of the driving mechanism body driving the sliding seat relative to the sliding rail, so that the telescopic cover plate component is ensured to be covered on the sliding rail all the time, and scraps can not scatter into the sliding rail.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic view of a tooth forming apparatus according to one embodiment;

FIG. 2 is a schematic view of another perspective of the tooth forming apparatus shown in FIG. 1;

FIG. 3 is a partial schematic view of the tooth forming apparatus shown in FIG. 2;

FIG. 4 is a partial schematic view of the tooth forming apparatus shown in FIG. 1;

FIG. 5 is an enlarged partial schematic view of the tooth forming apparatus shown in FIG. 4 at location A;

FIG. 6 is a schematic view of an adjustment base from another perspective of the tooth forming apparatus shown in FIG. 4;

FIG. 7 is another partial schematic view of the tooth apparatus shown in FIG. 1;

FIG. 8 is a partial cross-sectional view of the tooth forming apparatus shown in FIG. 1;

FIG. 9 is a partial schematic view of the tooth apparatus shown in FIG. 8;

FIG. 10 is a partial schematic view of the tooth apparatus shown in FIG. 9;

figure 11 is a schematic view of the abutment of the annular strip of sealant with the clamp plate of the mounting table of the adjustment base of the tooth forming apparatus of figure 8.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1-3, a tooth forming apparatus 10 of an embodiment includes a frame 100, a slide rail 200, a slide carriage 300, an adjustment base 400, a clamp plate 500, a translation drive mechanism 600, a shield plate 700, and a retractable plate assembly 800. The slide rail 200 is disposed on the frame 100, and the slide carriage 300 is slidably disposed on the slide rail 200. In this embodiment, the sliding rail 200 is welded to the rack 100, so that the sliding rail 200 is firmly connected to the rack 100. The adjustment base 400 is mounted on the slide carriage 300 such that the adjustment base 400 slides with the slide carriage 300 relative to the slide rail 200. The adjusting base 400 is provided with a clamp plate 500, and the clamp plate 500 is used for clamping and positioning the cooling fin so as to position and process the cooling fin.

As shown in fig. 4, in one embodiment, the translational driving mechanism 600 includes a fixing seat 610 and a driving mechanism body 620, the fixing seat 610 is disposed on the frame 100, and a power output end of the driving mechanism body 620 is connected to the sliding seat 300, so that the driving mechanism body 620 drives the sliding seat 300 to slide relative to the sliding rail 200. The shielding cover plate 700 is located at one end of the sliding base 300, and the shielding cover plate 700 is slidably connected to the frame 100. The shielding cover plate 700 covers the slide rail 200. One end of the retractable cover plate assembly 800 is connected to the fixing base 610, and the other end of the retractable cover plate assembly 800 is connected to the other end of the sliding base 300, so that the two ends of the sliding base 300 are respectively connected to the shielding cover plate 700 and the retractable cover plate assembly 800. The retractable cover plate assembly 800 extends and retracts along the sliding direction of the sliding base 300, and the retractable cover plate assembly 800 is covered on the sliding rail 200, so that the sliding base 300 drives the retractable cover plate assembly 800 to extend and retract when the driving mechanism body 620 drives the sliding base 300 to slide relative to the sliding rail 200, and the retractable cover plate assembly 800 is covered on the sliding rail 200.

In the above-mentioned tooth shoveling apparatus 10, since the retractable cover plate assembly 800 moves telescopically along the sliding direction of the sliding base 300, the retractable cover plate assembly 800 is made to extend and retract during the driving of the driving mechanism body 620 to the sliding base 300 relative to the sliding rail 200, so as to ensure that the retractable cover plate assembly 800 is always covered on the sliding rail 200, and the chippings are not scattered into the sliding rail 200. Since the slide carriage 300 is slidably disposed on the slide rail 200, the adjustment base 400 is mounted on the slide carriage 300, and the clamp plate 500 is disposed on the adjustment base 400, such that the clamp plate 500 is mounted on the slide carriage 300 through the adjustment base 400, and then make anchor clamps plate 500 slide for slide rail 200 along with slide 300, again because shelter from the one end that cover plate 700 is located slide 300 and with frame 100 sliding connection, the other end of the flexible cover body subassembly is connected with the other end of slide 300, make and shelter from cover plate 700 and the both sides that slide 300 was located respectively to the flexible cover body subassembly, in addition shelter from cover plate 700 and the flexible cover body subassembly all cover and locate on slide rail 200, avoid adding the problem that the piece that produces scatters to slide rail 200 in man-hour to the fin on anchor clamps plate 500, the higher problem of the clearance degree of difficulty of piece in the use of having solved forming relieved tooth equipment 10, and then improved the convenience in use of clastic clearance effect and forming relieved tooth equipment 10.

As shown in fig. 4, in one embodiment, the slide rail 200 includes a first slide rail 210 and a second slide rail 220, the first slide rail 210 is parallel to the second slide rail 220, and the slide carriage 300 is slidably connected to the first slide rail 210 and the second slide rail 220, so that the slide carriage 300 slides more smoothly relative to the rack 100.

As shown in fig. 4 and 5, in order to secure the adjustment base 400 to the slide carriage 300 by means of the locking member 900, in one embodiment, the tooth forming apparatus 10 further includes a locking member 900. The sliding base 300 is provided with a plurality of fixing holes (not shown), the adjusting base 400 is provided with a mounting hole 410, and the locking member 900 is respectively inserted into the mounting hole 410 and one of the fixing holes, so that the adjusting base 400 is fixed on the sliding base 300 through the locking member 900. In this embodiment, the locking member 900 is a screw or a bolt.

In one embodiment, as shown in fig. 4 and 5, the slider 300 is formed with a notch 310, and the notch 310 extends along the sliding direction of the slider 300. A plurality of fixed orificess all communicate with notch 310, and a plurality of fixed orificess are along the extending direction interval distribution of notch 310, like this, wear to locate mounting hole 410 and corresponding fixed orifices respectively with retaining member 900 as required, realize adjusting the fixed position of base 400 and slide 300 adjustable, have improved the suitability and the convenient to use nature of forming relieved tooth equipment 10.

Further, the plurality of fixing holes are uniformly distributed along the extending direction of the slot 310, so that the fixing position of the adjusting base 400 and the sliding base 300 is uniformly adjustable. In this embodiment, the plurality of fixing holes are spaced in a linear direction, and the distance between any two adjacent fixing holes is equal, so that the relative connection position between the adjusting base 400 and the sliding base 300 can be adjusted more uniformly.

As shown in fig. 3 and 4, in one embodiment, the tooth apparatus 10 further includes a mounting post 1100, a lift mechanism (not shown), and a tooth assembly 1300. The mounting posts 1100 are coupled to the rack 100. The lifting mechanism is arranged on the mounting column 1100, and the power output end of the lifting mechanism is connected with the tine assembly 1300, so that the lifting mechanism drives the tine assembly 1300 to move up and down relative to the mounting column 1100. In this embodiment, the lifting mechanism is a cylinder or an electric cylinder. The tine assembly 1300 includes a mounting frame 1310 and a tine knife 1320, the mounting frame 1310 being disposed parallel to the frame 100. The mounting block 1310 is coupled to the power output of the lifting mechanism. The relieved tooth blade 1320 is fixed to the mounting frame 1310, and the relieved tooth blade 1320 is disposed parallel to the frame 100. The plane that spilled serrated knife 1320 and anchor clamps plate 500 belonged to has the contained angle, thus, at the spilled tooth in-process, translation actuating mechanism 600 drive slide 300 slides for frame 100 horizontal direction, make slide 300 drive adjust the base 400 and slide for frame 100, and then make the last fin raw materials of treating the spilled tooth machine-shaping of anchor clamps plate 500 for frame 100 horizontal motion, again because elevating system drive mounting bracket 1310 is for erection column 1100 elevating motion, make mounting bracket 1310 drive spilled serrated knife 1320 and the vertical elevating motion of horizontal direction, again because spilled serrated knife 1320 and the plane that anchor clamps plate 500 belonged to have the contained angle, thereby make spilled serrated knife 1320 can process the fin to fin raw materials spilled tooth.

As shown in fig. 3, in order to enable the relieved tooth cutter 1320 to perform a preferable relieved tooth processing operation on the heat sink material, an included angle between the relieved tooth cutter 1320 and a plane on which the jig plate 500 is located is 30 ° to 60 °, so that the relieved tooth cutter 1320 can perform a preferable relieved tooth processing operation on the heat sink material. In this embodiment, the angle between the relieved blade 1320 and the plane of the clamp plate 500 is 45 °.

As shown in fig. 3, further, the adjustment base 400 includes a base body 400a, a support seat 400b, and a mounting table 400 c. The base body 400a and the supporting seat 400b are disposed side by side on the slider 300. In this embodiment, the base body 400a and the supporting base 400b are both mounted on the frame. The mounting hole 410 is opened in the support base 400b so that the support base 400b is fixed to the frame by the locking member 900. The mount 400c is rotatably coupled to the base body 400 a. The support base 400b is supported on a surface of the mounting base 400c adjacent to the slider 300. The clamp plate 500 is detachably disposed on a side of the mounting platform 400c facing away from the slide 300, so that the clamp plate 500 can be maintained or replaced. In the present embodiment, the clamp plate 500 is disposed parallel to the mounting platform 400c, the mounting platform 400c is disposed obliquely with respect to the sliding base 300, that is, the mounting platform 400c is disposed obliquely with respect to the plane of the sliding base 300, and since the clamp plate 500 is disposed parallel to the mounting platform 400c, the clamp plate 500 is disposed obliquely with respect to the sliding base 300, and the plane of the clamp plate 500 forms an included angle with the sliding base 300. Specifically, in this embodiment, the tooth forming cutter 1320 is disposed parallel to the sliding base 300, so that an included angle exists between the tooth forming cutter 1320 and the plane where the clamp plate 500 is located, and the tooth forming operation is easily implemented. The relieved knife 1320 is secured to the mounting frame 1310.

It should be noted that the relieving cutter 1320 and the slide carriage 300 are not limited to be arranged in parallel, that is, the included angle of the relieving cutter 1320 relative to the slide carriage 300 is adjustable, and in addition, the included angle between the adjusting base 400 and the slide carriage 300 is adjustable, so that the relieving cutter 1320 has better flexibility in adjusting the relieving machining angle of the cooling fin clamped and positioned by the clamp plate 500. In order to provide the flexibility of adjusting the relief machining angle of the heat sink clamped and positioned by the relief cutter 1320 on the clamp plate 500, in one embodiment, the adjusting base 400 further includes an angle adjusting assembly (not shown), which includes an angle adjusting base, a fixing shaft, a fixing plate, and an adjusting knob. The recliner base is connected to the mounting bracket 1310, and the stationary shaft is connected to the recliner base. The fixed plate is provided with a connecting hole, and the fixed shaft penetrates through the connecting hole and is rotatably connected with the fixed plate. The end part of the fixed shaft, far away from the angle adjusting base, is provided with a screwed part, the adjusting knob is provided with a threaded hole matched with the screwed part, and the screwed part is positioned in the threaded hole and is in threaded connection with the adjusting knob. The adjusting knob is abutted against one side of the fixing plate. The relieved blade 1320 is connected to the fixed plate. When the included angle of the relieving cutter 1320 relative to the sliding seat 300 needs to be adjusted, the adjusting knob is loosened, the fixing plate is rotated to enable the fixing plate to rotate to a preset angle relative to the fixing shaft, and finally the adjusting knob is locked, so that the included angle of the relieving cutter 1320 relative to the sliding seat 300 can be adjusted. Because the angle of the relieving cutter 1320 relative to the slide carriage 300 is adjustable, and the included angle between the adjusting base 400 and the slide carriage 300 is adjustable, the flexibility of adjusting the relieving machining angle of the cooling fin clamped and positioned by the relieving cutter 1320 on the clamp plate 500 is better, and the convenience in use of the relieving equipment 10 is greatly improved.

In order to improve the adjustment precision of the included angle of the relieved tooth cutter 1320 relative to the slide carriage 300, further, the angle adjustment assembly further comprises an arc angle adjustment reference plate, the arc angle adjustment reference plate is sleeved on the fixed shaft, and the arc angle adjustment reference plate is respectively abutted to the angle adjustment base and the fixed plate. The axis line of the fixed shaft passes through the center of the arc angle modulation reference plate. In this embodiment, the arc angle modulation reference plate is provided with a fixing hole, and the fixing shaft is arranged in the fixing hole in a penetrating manner. The center of the arc angle modulation reference plate coincides with the circle center of the fixed hole. The arc angle modulation reference plate is a sector arc plate. The circumference of arc angle modulation reference plate evenly is equipped with a plurality of angle scales, and in the use, the angle scale of accessible arc angle modulation reference plate refers to carry out the accurate regulation to the contained angle of relieved tooth sword 1320 for slide 300, has improved the regulation precision of relieved tooth to the anchor clamps for slide 300 greatly. Specifically, the arc angle modulation reference plate is fixedly connected with the angle modulation base, one surface of the angle modulation base, which is adjacent to the arc angle modulation reference plate, is provided with an indication line slot, and the extension direction of the indication line slot corresponds to one angle scale, so that a user can read the angle of the fixed plate relative to the mounting frame 1310 quickly, that is, the angle of the relieving cutter 1320 relative to the mounting frame 1310, and the angle modulation efficiency of the arc angle modulation reference plate is improved.

As shown in fig. 6, the base body 400a further includes a seat body 420, a fixing boss 430 and a rotation shaft 440. The base 420 is connected to the slider 300. The number of the fixing bosses 430 is two, and the two fixing bosses 430 are arranged side by side on one surface of the base body 420 which is far away from the sliding base 300. Two ends of the rotating shaft 440 are rotatably connected to the two fixing bosses 430, respectively. The mounting table 400c is provided with a through hole, the rotating shaft 440 penetrates through the through hole and is connected with the mounting table 400c, so that the mounting table 400c is respectively connected with the two fixing bosses 430 through the rotating shaft 440 in a rotating manner, and the mounting table 400c is further connected to the base body 400a in a rotating manner. In the present embodiment, the two fixing bosses 430 are disposed in parallel, and the fixing bosses 430 are located at opposite sides of the mounting table 400 c. The two fixing bosses 430 are perpendicular to the extending direction of the rotation shaft 440.

Referring again to fig. 5, further, the support seat 400b includes a support seat body 450 and rolling posts 460. The mounting hole 410 is opened in the support base body 450. The supporting seat body 450 further defines a tapered groove 452, and the rolling post 460 is disposed in the tapered groove 452, such that the rolling post 460 is movably disposed in the tapered groove 452. In this embodiment, the rolling post 460 can roll relative to the support seat body 450. The rolling post 460 abuts a face of the mount table 400c adjacent to the slider 300 to support the mount table 400 c. When the inclination angle of the mounting table 400c relative to the base body 420 is adjusted, the mounting table 400c rolls relative to the rolling column 460, and the rolling column 460 can roll in the tapered groove 452 at the same time, so that the rolling column 460 abuts against different positions of the mounting table 400c, and the quick adjustment of the inclination angle of the mounting table 400c is realized at the same time.

In order to prevent the mounting platform 400c from easily separating from the rolling column 460 during the rolling process relative to the rolling column 460 and prevent the mounting platform 400c from deviating from the sliding seat 300 during the rolling process relative to the rolling column 460, a first limiting plate (not shown) and a second limiting plate (not shown) are further respectively disposed on two sides of the supporting seat body 450, and the first limiting plate and the second limiting plate are disposed in parallel. First limiting plate and second limiting plate respectively with the both sides butt of mount table 400c, and the axial of rolling post 460 is perpendicular with first limiting plate and second limiting plate respectively, and first limiting plate and second limiting plate all play limiting displacement, have avoided mount table 400c to break away from the problem of rolling post 460 for the rolling in-process of rolling post 460 easily, avoid mount table 400c to be at the skew slide 300 of the in-process of rolling for rolling post 460 simultaneously.

As shown in fig. 7, in one embodiment, a side of the shielding cover plate 700 facing away from the slide rail 200 includes a top surface 730, a first inclined surface 710, and a second inclined surface 720, and two sides of the top surface extend to the first inclined surface 710 and the second inclined surface 720, respectively. The first inclined surface 710 and the second inclined surface 720 are symmetrically arranged with respect to the sliding direction of the sliding base 300, so that the fragments falling to the shielding cover plate 700 can respectively slide to the two sides of the shielding cover plate 700 through the first inclined surface 710 and the second inclined surface 720, and the fragments are prevented from falling to the position of the sliding rail 200. When the tooth forming apparatus 10 is in operation, the chippings are vibrated and slide off the shield plate 700 by the first inclined surface 710 or the second inclined surface 720, and the workload of manually cleaning the shield plate 700 is reduced. In the present embodiment, the first inclined surface 710 and the second inclined surface 720 are respectively disposed at positions adjacent to both sides of the shadow mask plate 700.

In this embodiment, the first inclined plane 710 and the second inclined plane 720 are respectively disposed on two sides of the top surface, and two sides of the top surface respectively extend to the first inclined plane 710 and the second inclined plane 720, and the first inclined plane 710 and the second inclined plane 720 are both inclined and disposed at positions lower than the top surface, so as to clean the debris on the top surface.

In order to avoid the problem that part of the debris on the shielding cover plate 700 slides to the slide rail 200 along the sliding direction of the slide carriage 300 and is not easy to clean in time and quickly, and even causes large abrasion of the guide rail, further, the shielding cover plate 700 is provided with a chip sliding groove (not shown), and the chip sliding groove is arranged at a position close to the end part of the shielding cover plate 700 far away from the slide carriage 300. The chip groove comprises a first sliding groove, a second sliding groove and a third sliding groove, and the first sliding groove is communicated with the second sliding groove and the third sliding groove respectively. The first sliding groove is formed in the top surface, the second sliding groove is formed in the second inclined surface 720, and the third sliding groove is formed in the third inclined surface. The cross section defined by the extending direction of the first sliding chute, the extending direction of the second sliding chute and the extending direction of the third sliding chute is perpendicular to the sliding direction of the sliding seat 300, a sliding chute is formed at a position close to the end part of the shielding cover plate 700 far away from the sliding seat 300, and the debris moves to the first inclined surface 710 or the second inclined surface 720 or the sliding chute in the sliding process of the shielding cover plate 700, so that the debris slides away from the shielding cover plate 700, and the problem that part of the debris of the shielding cover plate 700 slides to the sliding rail 200 along the sliding direction of the sliding seat 300 is solved. In this embodiment, the cross section of the chip groove is in a circular arc shape.

Further, the top surface of the shadow mask 700 is spaced apart from the housing 100 by a first distance, and the bottom of the slot 310 is spaced apart from the housing 100 by a second distance. The first distance is smaller than the second distance, so that the debris in the notch 310 is easily cleaned to the top surface of the shielding cover plate 700 for cleaning, and the cleaning convenience is improved.

As shown in fig. 7, in order to make the sliding process of the mounting frame 1310 and the mounting post 1100 smooth, further, the mounting frame 1310 is sleeved on the mounting post 1100 and slidably connected to the mounting post 1100, so that the lifting mechanism drives the mounting frame 1310 to move up and down and slide relative to the mounting post 1100, and the sliding process of the mounting frame 1310 and the mounting post 1100 is smooth. Because the sliding process of the mounting frame 1310 and the mounting column 1100 is stable, the sliding process of the relieving cutter 1320 along with the mounting frame 1310 relative to the mounting column 1100 is stable, so that the relieving cutter 1320 shakes less in the relieving machining process, and the tooth digging precision of the relieving cutter 1320 is improved.

However, since the tine cutter 1320 is connected to the mounting post 1100 by the mounting frame 1310 in a cantilever manner, under the gravity of the tine cutter 1320 and the mounting frame 1310, the force applied to the sliding connection between the mounting frame 1310 and the mounting post 1100 is not uniform, and for example, when the mounting post 1100 is slidably connected to the mounting frame 1310 at a position away from the tine cutter 1320, the sliding fit between the mounting frame 1310 and the mounting post 1100 has a problem of being worn seriously, especially after long-term use. To avoid the problem of severe wear at the location where the mounting post 1100 is slidably coupled to the mounting frame 1310 away from the cutting edge 1320, the tooth forming apparatus 10 further includes a counterbalance (not shown) coupled to the mounting frame 1310 away from the cutting edge 1320 for balancing the weight of the cutting edge 1320. In this embodiment, the balance block and the tooth scraper 1320 are respectively installed on two sides of the mounting frame 1310, and the balance block balances the weight of the tooth scraper 1320, so as to avoid the problem of side abrasion caused by a large force applied on one side of the mounting frame 1310. Specifically, the weight of the counterbalance is equal to the weight of the relieved blade 1320.

In one embodiment, the mounting portion is provided at a position of the mounting frame 1310 away from the tooth forming cutter 1320, the mounting portion is provided with a clamping groove, and the balance block is clamped to the mounting frame 1310 through the clamping groove, so that the balance block is rapidly mounted on the mounting frame 1310, and the quick replacement of the balance block is facilitated, so that the balance blocks with different weights can be adapted to different types of tooth forming cutters 1320, and the convenience in use of the tooth forming equipment 10 is improved.

As shown in fig. 7, further, the mounting post 1100 is provided with a guide boss 1110 at an outer side thereof, and the guide boss 1110 extends along the extending direction of the mounting post 1100. A sliding groove 1312 is formed in the inner wall of the mounting frame 1310 in sliding connection with the mounting column 1100, and the guide convex column 1110 is located in the sliding groove 1312, so that the mounting frame 1310 is in sliding connection with the mounting column 1100, and the sliding guidance of the mounting frame 1310 and the mounting column 1100 is improved. In this embodiment, the number of the guiding studs 1110 is multiple, and the multiple guiding studs 1110 are distributed at intervals along the peripheral wall of the mounting stud 1100. Accordingly, the number of the sliding grooves 1312 is multiple, the plurality of guiding bosses 1110 are correspondingly located in the plurality of sliding grooves 1312 one by one, and under the common guiding action of the plurality of guiding bosses 1110, the mounting frame 1310 can better guide and slide relative to the mounting column 1100, and meanwhile, the problem that the mounting frame 1310 is large in sliding abrasion relative to the mounting column 1100 is avoided.

As shown in fig. 7, in order to improve the guiding performance of the guiding studs 1110, further, the cross section of each guiding stud 1110 is a semicircular arc, and the sliding groove 1312 is adapted to the cross section of the guiding stud 1110, so that the sliding between the guiding stud 1110 and the mounting bracket 1310 is more stable, and the sliding of the mounting bracket 1310 along the guiding stud 1110 has better guiding performance, i.e., the guiding performance of the guiding stud 1110 is improved.

However, the contact area between the guiding convex column 1110 and the sliding groove 1312 is small, and the guiding convex column 1110 and the sliding groove 1312 are dry in the relative sliding process, so that the friction is large, the temperature is high, and the burning and abrasion are caused. In order to better reduce friction of the guiding convex column 1110 relative to the sliding groove 1312 in the sliding process, the mounting column 1100 is further provided with a liquid injection channel along the extending direction, the guiding convex column 1110 is provided with a plurality of liquid outlet holes, and the liquid outlet holes are communicated with the liquid injection channel uniformly. The liquid injection channel is used for injecting lubricant, so that the lubricant flows into the liquid outlet holes through the liquid injection channel and flows out of the liquid outlet holes, the lubricant is filled between the guide convex column 1110 and the inner wall of the sliding groove 1312, the matching part of the guide convex column 1110 and the inner wall of the sliding groove 1312 has a better lubricating function, and the sliding abrasion of the guide convex column 1110 relative to the inner wall of the sliding groove 1312 is further reduced. Because a plurality of play liquid holes are along the interval distribution on the periphery wall of direction projection column 1110, make emollient evenly distributed on the outer wall of direction projection column 1110, avoid the situation of the local lack of emollient of direction projection column 1110.

In order to reduce the possibility of liquid outlet hole blockage, furthermore, the included angle between the extending direction of each liquid outlet hole and the extending direction of the liquid injection channel is 15-60 degrees, so that the lubricant can flow out quickly through the liquid outlet holes, and the possibility of liquid outlet hole blockage caused by slow flowing of the lubricant is avoided. In this embodiment, an angle between the extending direction of each liquid outlet hole and the extending direction of the liquid filling channel is 45 °.

In order to reduce the consumption of lubricant, an annular stop plate is further disposed on the mounting post 1100 adjacent to the rack 100, and the annular stop plate is protruded from the peripheral wall of the mounting post 1100. An annular liquid storage tank is formed between the annular baffle plate and the rack 100 in an enclosing mode and is used for collecting lubricant, namely the lubricant used at the matching position of the mounting column 1100 and the sliding groove 1312 is collected, the lubricant in the annular liquid storage tank can be recycled, and the use consumption of the lubricant is reduced. In this embodiment, the annular stopper has a parabolic cross-section, which allows the annular reservoir to have a larger reservoir volume.

Further, the tooth forming equipment 10 further includes a reflux pump and a pipeline, and the pipeline is respectively communicated with the annular liquid storage tank and the liquid injection channel. The reflux pump is arranged on the pipeline so as to pump the lubricant recovered from the annular liquid storage tank into the liquid injection channel for recycling, and the use efficiency of the lubricant is improved. In this embodiment, the annular stop plate is provided with a connecting hole communicated with the annular liquid storage tank, and the pipeline is arranged in the connecting hole in a penetrating manner and is connected with the annular stop plate, so that the pipeline is communicated with the annular liquid storage tank. In order to tightly connect the pipe and the annular stop plate, the relieving device 10 further includes a sealing ring, the end of the pipe is sleeved with the sealing ring, and the sealing ring is elastically abutted against the inner wall of the connecting hole, so that the pipe is tightly connected with the inner wall of the connecting hole.

Further, the tooth forming apparatus 10 further includes a sensor and a controller, both the sensor and the reflux pump are in communication with the controller, and the sensor is used for sensing the height of the liquid level. In this embodiment, the sensor is a ranging sensor. When the liquid level of the lubricant in the annular liquid storage tank rises to a preset height, the sensor generates a sensing signal, the controller controls the reflux pump to work continuously for a preset time, the reflux pump automatically pumps the lubricant into the liquid injection channel, and the use convenience of the relieving equipment 10 is improved.

In order to ensure the smoothness of the liquid injection channel, namely, avoid the possibility of blocking the liquid injection channel, further, the end part of the mounting column 1100 far away from the frame 100 is provided with a placing groove communicated with the liquid injection channel, the placing groove is used for accommodating a filter element assembly, the filter element assembly is used for filtering impurities or large granular substances in the lubricant, and the problem that the liquid injection channel is blocked by the impurities or the large granular substances is avoided. In this embodiment, the cartridge assembly is removably attached to the mounting post 1100 for periodic cleaning or replacement of the mounting post 1100. Specifically, filter element assembly snap-fit connection is in erection column 1100, is favorable to filter element assembly quick assembly disassembly in erection column 1100.

In order to improve the filtering effect and the service cycle of the filter element assembly, the filter element assembly further comprises a fixing frame, a first filter screen, a second filter screen and a third filter screen. The outer contour of the fixing frame is cylindrical. The mount has been seted up and has been held the chamber, crossed liquid hole, first constant head tank, second constant head tank and third constant head tank, holds the chamber respectively with cross liquid hole, first constant head tank, second constant head tank and third constant head tank intercommunication. The first filter screen is positioned in the first positioning groove and connected with the fixed frame. The second filter screen is positioned in the second positioning groove and connected with the fixed frame, and the third filter screen is positioned in the third positioning groove and connected with the fixed frame. The filtration pore size of first filter screen, second filter screen and third filter screen steadilys decrease in proper order for filter the granule of different diameters size in the emollient, avoid disposable filtration to make the easy situation of blockking up of filter element group spare, in order to ensure that filter element group spare has better filter effect.

In this embodiment, the cross section of the first filter screen is U-shaped, so that the contact area between the first filter screen and the lubricant is large, and the problem of blockage of the first filter screen is avoided. Furthermore, the cross section of the second filter screen is in a trapezoid shape, and after the lubricant passes through the first filter screen and is filtered by the second filter screen with a smaller contact area with the lubricant, the impurities in the lubricant are further removed, and meanwhile, the filter efficiency is higher. Furthermore, the cross section of the third filter screen is V-shaped, so that the third filter screen can better filter the lubricant, the contact area of the third filter screen and the lubricant is reduced, and the filtering efficiency of the lubricant is improved.

As shown in fig. 7, in one embodiment, the retractable cover plate assembly 800 includes a first cover plate 810 and a second cover plate 820, the first cover plate 810 is covered on the second cover plate 820, and the first cover plate 810 is slidably connected with the second cover plate 820. The first cover plate 810 and the second cover plate 820 are respectively covered on the slide rail 200, and the first cover plate 810 is connected with the end of the slide carriage 300 far away from the shielding cover plate 700. The second cover plate 820 is connected with the fixed seat 610, when the sliding seat 300 slides relative to the rack 100, the sliding seat 300 drives the first cover plate 810 to slide relative to the second cover plate 820, so that the retractable cover plate assembly 800 extends and retracts, and the retractable cover plate assembly 800 is always covered on the sliding rail 200, thereby avoiding the problem that the scraps on the surface of the sliding seat 300 or the retractable cover plate assembly 800 fall to the sliding rail 200 during the sliding process of the sliding seat 300 relative to the rack 100. In the present embodiment, the cross section of the first cover plate 810 and the cross section of the second cover plate 820 are both U-shaped, and the end of the first cover plate 810 is tightly connected to the sliding base 300, i.e. there is no gap at the connection between the first cover plate 810 and the sliding base 300, so that the problem of debris leakage from the connection between the first cover plate 810 and the sliding base 300 is avoided. Specifically, an end of the first cover plate 810 is welded or glued to the slider 300.

As shown in fig. 7, further, a cleaning groove 812 communicated with the notch 310 is formed in a surface, facing away from the second cover plate 820, of the first cover plate 810, so that the chips in the notch 310 can be cleaned through the cleaning groove 812, and convenience and efficiency of chip cleaning are improved. In the present embodiment, the extension direction of the cleaning groove 812 is the same as the extension direction of the notch 310, which further reduces the difficulty of cleaning the debris. Further, the bottom of the notch 310 and the bottom of the cleaning groove 812 are in arc transition, so that the possibility of debris residue at the communication position of the notch 310 and the cleaning groove 812 is avoided, and meanwhile, the difficulty in cleaning the debris is reduced.

As shown in fig. 4, 8 and 9, in one embodiment, the mounting station 400c includes an adjustment base body 402, a connection tube 406, and an annular bead 408. Referring to fig. 10, a mesh positioning groove 402a is formed on one surface of the adjustment base body 402. Referring again to FIG. 9, the adjustment base body 402 is further formed with a vent 402b and an exhaust channel 402c, the vent 402b communicating with the exhaust channel 402 c. The ventilation holes 402b are distributed avoiding the mesh positioning grooves 402 a. The relieving device further includes a vacuum pump (not shown), a connecting pipe 406 is protruded from the adjusting base body 402, and the connecting pipe 406 is respectively communicated with the air draft channel 402c and the vacuum pump. An annular bead 408 is disposed within the grid positioning slot 402a, and the annular bead 408 is disposed around the vent 402 b. The clamp plate 500 is arranged on one surface of the adjusting base body 402, which is provided with the grid positioning groove 402a, and the annular sealing rubber strip 408 is respectively and elastically abutted against the clamp plate 500 and the adjusting base body 402, so that the sealing performance between the clamp plate 500 and the adjusting base body 402 is improved.

As shown in fig. 5, an air exhaust hole 510 is formed on one side of the clamp plate 500 adjacent to the adjusting base body 402, and at least one air vent 402b is communicated with the air exhaust hole 510. Positioning groove 520 is opened in the one side of anchor clamps plate 500 that deviates from adjustment base main part 402, and positioning groove 520 and exhaust hole 510 intercommunication, positioning groove 520 are used for the location fin. When the evacuation pump during operation, the evacuation pump carries out the evacuation through connecting pipe 406 to convulsions passageway 402c, because convulsions passageway 402c and ventilation hole 402b intercommunication, and an at least ventilation hole 402b and positioning groove 520 all communicate with convulsions hole 510, annular joint strip 408 encircles ventilation hole 402b and sets up, and then make the evacuation pump pass through convulsions passageway 402c, ventilation hole 402b and positioning groove 520 carry out the evacuation reliably, make anchor clamps plate 500 firmly be located regulation base main part 402, make the fin reliably be located on anchor clamps plate 500 simultaneously, avoid the fin for the gliding problem of anchor clamps plate 500, so that tine sword 1320 carries out the accurate tine operation to the fin.

As shown in fig. 5, in one embodiment, the number of the plurality of ventilation holes 402b is multiple, the plurality of ventilation holes 402b are all communicated with the ventilation channel 402c, the annular sealing rubber strip 408 is disposed around at least one ventilation hole 402b, so that the vacuum pump can simultaneously evacuate the plurality of ventilation holes 402b through the ventilation channel 402c, and since the annular sealing rubber strip 408 is disposed around at least one ventilation hole 402b, when the vacuum pump works, a space surrounded by the adjustment base main body 402, the clamp plate 500 and the annular sealing rubber strip 408 can be evacuated, so that the adjustment base main body 402 is firmly connected with the clamp plate 500.

As shown in fig. 5, in one embodiment, the number of the air exhaust holes 510 and the positioning grooves 520 is multiple, and the air exhaust holes 510 are in one-to-one correspondence with the positioning grooves 520. The at least one ventilation hole 402b is respectively communicated with the plurality of pumping holes 510. Annular joint strip 408 still encircles a plurality of holes 510 that ventilates setting, when evacuation pump during operation, evacuation pump is to adjusting base main part 402, the space evacuation that anchor clamps plate 500 and annular joint strip 408 enclose, because at least one ventilation hole 402b communicates with a plurality of holes 510 that ventilates respectively, in order to the evacuation simultaneously of a plurality of holes 510 that ventilates, again because a plurality of holes 510 and a plurality of positioning groove 520 one-to-one intercommunication of ventilating, and then carry out the evacuation to a plurality of positioning groove 520, make a plurality of fin location dress clamp simultaneously in anchor clamps plate 500, be favorable to tine equipment 10 can a plurality of fin simultaneously carry out the tine processing.

As shown in fig. 8 and 11, in one embodiment, the plurality of ventilation holes 402b are in one-to-one communication with the plurality of air exhaust holes 510, and the plurality of air exhaust holes 510 are in communication with each other, which is beneficial to performing a rapid vacuum operation on the plurality of air exhaust holes 510 at the same time, and improves the efficiency of positioning the plurality of cooling fins on the jig plate 500 at the same time.

As shown in fig. 9 and 11, in one embodiment, a mesh ventilation groove 501 is formed in a surface of the clamp plate 500 adjacent to the adjusting base body 402, the mesh ventilation groove 501 is respectively communicated with the plurality of air exhaust holes 510, so that the plurality of air exhaust holes 510 are communicated with each other, when the vacuum pump works, a space surrounded by the adjusting base body 402, the clamp plate 500 and the annular sealant strip 408 can be vacuumized, because the annular sealant strip 408 is disposed around the plurality of air exhaust holes 510, and the mesh ventilation groove 501 is respectively communicated with the plurality of air exhaust holes 510, the efficiency of the vacuuming operation of the plurality of air exhaust holes 510 is improved, and the plurality of heat dissipation fins can be quickly positioned in the corresponding positioning grooves 520 of the clamp plate 500.

In one embodiment, as shown in fig. 11, the annular bead 408 is further disposed around a grid vent slot 501 to allow a vacuum pump to better evacuate the space enclosed by the conditioning base body 402, the clamp plate 500, and the annular bead 408. When the evacuation pump during operation, can be to the space evacuation operation that adjustment base main part 402, anchor clamps plate 500 and annular joint strip 408 enclose, because annular joint strip 408 encircles the setting of net ventilation groove 501, and annular joint strip 408 encircles a plurality of ventilation holes 510, be favorable to making anchor clamps plate 500 more firmly be located adjustment base main part 402, make a plurality of fin better be located anchor clamps plate 500 corresponding positioning groove 520 simultaneously.

As shown in fig. 9, in one embodiment, the adjusting base 400 further includes a first clamping block 403 and a second clamping block 405, the first clamping block 403 and the second clamping block 405 are both disposed on the adjusting base body 402, and the first clamping block 403 and the second clamping block 405 are respectively clamped on two sides of the clamp plate 500, so that the clamp plate 500 is more reliably positioned on the adjusting base body 402. In this embodiment, the first clamping block 403 and the second clamping block 405 are oppositely disposed on two opposite sides of the adjustment base body 402.

As shown in fig. 9, in one embodiment, the first clamping block 403 and the second clamping block 405 are both movably connected to the adjusting base main body 402, and since the first clamping block 403 is movably connected to the adjusting base main body 402, the connection position of the first clamping block 403 and the adjusting base main body 402 is adjustable, so that the convenience of the first clamping block 403 is improved; similarly, the connection position of the second clamping block 405 and the adjusting base body 402 is adjustable, so that the use convenience of the second clamping block 405 is improved.

As shown in fig. 9 and 10, specifically, the first clamping block 403 includes a first clamping block main body 403a and a first fixing member 403b, the first clamping block main body 403a has a first kidney-shaped hole 4032, the adjustment base main body 402 has a first connecting hole (not shown), and the first fixing member 403b is respectively inserted into the first kidney-shaped hole 4032 and the first connecting hole, so that the connecting position between the first clamping block main body 403a and the adjustment base main body 402 is adjustable, and the first clamping block 403 is movably connected to the adjustment base main body 402. The first clamp block main body 403a is clamped to the clamp plate 500.

As shown in fig. 9, specifically, the second clamping block 405 includes a second clamping block main body 405a and a second fixing member 405b, the second clamping block main body 405a has a second kidney-shaped hole 4052, the adjusting base main body 402 has a second connecting hole (not shown), and the second fixing member 405b is respectively inserted into the second kidney-shaped hole 4052 and the second connecting hole, so that the connecting position between the second clamping block main body 405a and the adjusting base main body 402 is adjustable, and the second clamping block 405 is movably connected to the adjusting base main body 402. The second clamping block main body 405a is clamped to the clamp plate 500, so that the first clamping block 403 and the second clamping block 405 are movably connected to the adjusting base main body 402.

As shown in fig. 9, in one embodiment, two sides of the clamp plate 500 are respectively provided with a first clamping groove 530 and a second clamping groove 540, the first clamping block 403 is partially located in the first clamping groove 530 and abuts against the clamp plate 500, and the second clamping block 405 is partially located in the second clamping groove 540 and abuts against the clamp plate 500, so that the first clamping block 403 and the second clamping block 405 are both better clamped on the clamp plate 500. In this embodiment, the first clamping block main body 403a is located in the first clamping groove 530 and abuts against the clamp plate 500, and the second clamping block main body 405a is located in the second clamping groove and abuts against the clamp plate 500, so that the first clamping block main body 403a and the second clamping block main body 405a can be better clamped and abutted against the clamp plate 500.

As shown in fig. 9, in one embodiment, a surface of the first clamping block 403 abutting against the clamp plate 500 is a first clamping inclined surface 4034, and a bottom surface of the first clamping groove 530 is matched with the first clamping inclined surface 4034, so that the first clamping block 403 is reliably clamped on an inner wall of the first clamping groove 530, and a tool such as an iron hammer is not required to be used for striking and clamping, thereby improving the convenience of the tooth forming apparatus 10. In this embodiment, the first clamping inclined surface 4034 is provided on the first clamp block main body 403 a. The one side of second clamp splice 405 and anchor clamps plate 500 butt is second centre gripping inclined plane 4054, and the bottom surface and the second centre gripping inclined plane of second centre gripping groove 540 suit, make second clamp splice 405 centre gripping on second centre gripping groove 540 inner wall reliably, need not to adopt the instrument to beat like the hammer and press from both sides tightly, avoided pressing from both sides the situation of damaging the anchor clamps plate in the positioning process, improved the convenient to use nature of forming relieved tooth equipment 10. In this embodiment, the second clamping slope is disposed on the second clamping block main body 405 a.

Compared with the prior art, the utility model discloses at least, following advantage has:

1. the slide seat is arranged on the slide rail in a sliding manner, the adjusting base is arranged on the slide seat, the clamp plate is arranged on the adjusting base, the clamp plate is arranged on the slide seat through the adjusting base, and further the clamp plate slides relative to the slide rail along with the slide seat;

2. because the telescopic cover plate component moves telescopically along the sliding direction of the sliding seat, the telescopic cover plate component stretches out and draws back in the sliding process of the driving mechanism body driving the sliding seat relative to the sliding rail, so that the telescopic cover plate component is ensured to be covered on the sliding rail all the time, and scraps can not scatter into the sliding rail.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A tooth forming apparatus, comprising:

a frame;

the sliding rail is arranged on the rack;

the sliding seat is arranged on the sliding rail in a sliding manner;

the adjusting base is arranged on the sliding seat;

the clamp plate is arranged on the adjusting base and used for clamping and positioning the radiating fins;

the translation driving mechanism comprises a fixed seat and a driving mechanism body, the fixed seat is arranged on the rack, and the power output end of the driving mechanism body is connected with the sliding seat;

the shielding cover plate is positioned at one end of the sliding seat and is in sliding connection with the rack, and the shielding cover plate is covered on the sliding rail;

the telescopic cover plate assembly, the one end of telescopic cover plate assembly with the fixing base is connected, the other end of telescopic cover plate assembly with the other end of slide is connected, telescopic cover plate assembly follows the slip direction concertina movement of slide, just telescopic cover plate assembly covers and is located the slide rail.

2. The tooth forming apparatus according to claim 1, wherein the slide rails include a first slide rail and a second slide rail, the first slide rail being disposed parallel to the second slide rail, the slides being slidably connected to the first slide rail and the second slide rail, respectively.

3. The relieved tooth device of claim 1 further comprising a retaining member, wherein the slide defines a plurality of securing holes, the adjustment base defines a mounting hole, and the retaining member is disposed through the mounting hole and one of the securing holes, respectively.

4. The tooth forming apparatus according to claim 3, wherein the slide base is formed with a notch extending in a sliding direction of the slide base, and a plurality of the fixing holes are communicated with the notch and are spaced apart from each other in the extending direction of the notch.

5. The tooth relieved apparatus of claim 4 wherein the plurality of securing holes are evenly distributed along the direction of extent of the slot.

6. The tooth forming apparatus according to claim 3, wherein the adjustment base includes a base body, a support seat and a mounting platform, the base body and the support seat are disposed side by side on the slide, the mounting hole is opened in the support seat, the mounting platform is rotatably connected to the base body, and the support seat is supported on a surface of the mounting platform adjacent to the slide; the clamp plate is detachably arranged on one surface, back to the sliding seat, of the mounting table.

7. The relieving equipment according to claim 6, wherein the base body comprises a base body, two fixing bosses and a rotating shaft, the base body is connected with the sliding seat, the two fixing bosses are arranged side by side on one surface of the base body, which is far away from the sliding seat, and two ends of the rotating shaft are respectively connected with the two fixing bosses in a rotating manner; the mounting table is provided with a through hole, and the rotating shaft penetrates through the through hole and is connected with the mounting table.

8. The tooth forming apparatus according to claim 6, wherein the support base includes a support base body and a rolling post, the mounting hole is opened in the support base body, the support base body is further opened with a tapered groove, the rolling post is located in the tapered groove, and the rolling post abuts against a surface of the mounting table adjacent to the slide base to support the mounting table.

9. The tooth relieving apparatus according to any of claims 1 to 8, wherein a face of the shield cover plate facing away from the slide rail is provided with a first inclined face and a second inclined face, the first inclined face and the second inclined face being symmetrically arranged with respect to a sliding direction of the slide.

10. The relieved tooth device of any one of claims 1 to 8 wherein the retractable cover plate assembly comprises a first cover plate and a second cover plate, the first cover plate is covered on the second cover plate, the first cover plate is connected with the second cover plate in a sliding mode, the first cover plate and the second cover plate are covered on the sliding rail, the first cover plate is connected with the sliding seat, and the second cover plate is connected with the fixed seat.

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