CN219169588U - Cutting tool for locking sleeve - Google Patents

Abstract

The utility model provides a cutting tool for a locking sleeve, and belongs to the technical field of cutting equipment. It has solved the inconvenient problem of current locking sleeve cutting. The utility model relates to a cutting tool for a locking sleeve, which comprises a base, a moving assembly, a supporting assembly and a clamping assembly. In the utility model, in the process of cutting the locking sleeve, people need to adjust the position of the moving assembly firstly, then limit the moving assembly on the base so that the supporting assembly can be positioned right below the cutter, then place the locking sleeve on the supporting assembly, and press the bottom ring of the locking sleeve on the moving assembly through the clamping assembly, so that when people cut the cap from the casting body, the locking sleeve can not move in a dislocation way relative to the moving assembly, thereby ensuring that the cap and the casting body can be cut smoothly.

Description

Cutting tool for locking sleeve

Technical Field

The utility model belongs to the technical field of cutting equipment, and relates to a cutting tool for a locking sleeve.

Background

The riser is a cavity for storing molten metal in the casting mould, and is used for replenishing metal during the formation of castings, and has the effects of preventing shrinkage porosity, shrinkage cavity, exhaust and slag collection. In the solidification process of the casting, the liquid shrinkage and the volume reduced in the solidification shrinkage stage cannot be supplemented, so that the casting has the defects of shrinkage cavity, shrinkage porosity and the like.

In order to avoid the result, a liquid feeding riser is usually required to be placed at the position, close to a hot junction, of the top surface of the locking sleeve casting, when the casting is solidified, shrinkage of molten iron is supplemented, so that the integrity of the casting is guaranteed, therefore, after the locking sleeve casting is cast out, the riser and the locking sleeve casting are always bonded or directly connected together, and therefore, people need to cut the riser and the locking sleeve casting, in the cutting process, people always place the locking sleeve casting on the ground directly, no tool is adopted to limit the locking sleeve casting, and when the cutting is caused, the locking sleeve casting moves due to dislocation, and the cutting fails.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provides a cutting tool which can stably cut a riser and is suitable for a locking sleeve.

The aim of the utility model can be achieved by the following technical scheme: a cutting tool for a locking sleeve, comprising:

a base;

the moving assembly is arranged on the base and can move relative to the base;

the support component is arranged on the moving component and is used for supporting the locking sleeve;

the clamping assembly is arranged on the moving assembly and presses the locking sleeve on the moving assembly.

In the cutting tool for the locking sleeve, the moving assembly comprises a moving frame, a pair of vertical plates are arranged on the moving frame, and each vertical plate is perpendicular to the plane where the moving frame is located.

In the cutting tool for the locking sleeve, the supporting component comprises a cross rod, two ends of the cross rod are respectively connected with corresponding vertical plates, a cutting table with the supporting locking sleeve is arranged on the cross rod, and the top surface of the cutting table is inwards recessed to form an arc-shaped groove.

In the cutting tool for the locking sleeve, the number of the clamping assemblies is the same as that of the vertical plates, each clamping assembly comprises an anti-falling frame with a U-shaped transverse section, and an anti-falling bolt is arranged on the anti-falling frame in a penetrating mode.

In the cutting tool for the locking sleeve, one side edge of the vertical plate is embedded into the anti-falling frame, and the anti-falling bolt can press the locking sleeve on the corresponding vertical plate.

In the cutting tool for the locking sleeve, each extension rod is arranged on one side edge of the top of the vertical plate, each extension rod is provided with an anti-falling rod, the anti-falling rods are parallel to the vertical plate, and the anti-falling rods are perpendicular to the extension rods.

In the cutting tool for the locking sleeve, fixing frames with the vertical cross sections in a U shape are arranged on two side edges of the base, limiting bolts used for limiting the moving frame to move relative to the base are arranged on the fixing frames in a penetrating mode, the side edges of the base are embedded into the fixing frames, and the limiting bolts are used for pressing the moving frame on the base.

In the cutting tool for the locking sleeve, a plurality of upper positioning holes for clamping corresponding limit bolts are formed in the edge of the movable frame.

In the cutting tool for the locking sleeve, at least two limiting parts for limiting the moving frame to move on the base are arranged at the edges of opposite sides of the base, and the base is provided with the receivers at the positions of the limiting parts.

In the cutting tool for the locking sleeve, a plurality of jacks for clamping corresponding limiting parts are arranged on the side face of the movable frame, the movable frame is provided with transmitters at the positions of the corresponding jacks, each limiting part comprises a cylinder body arranged on the base, a cylinder rod is arranged on each cylinder body, the cylinders are electrically connected with the receiver, and a switch for controlling the opening or closing of the receiver is arranged on the base.

Compared with the prior art, the utility model has the following beneficial effects:

1. in the utility model, in the process of cutting the locking sleeve, people need to adjust the position of the moving assembly firstly, then limit the moving assembly on the base so that the supporting assembly can be positioned right below the cutter, then place the locking sleeve on the supporting assembly, and press the bottom ring of the locking sleeve on the moving assembly through the clamping assembly, so that when people cut the cap from the casting body, the locking sleeve can not move in a dislocation way relative to the moving assembly, thereby ensuring that the cap and the casting body can be cut smoothly.

2. When the locking sleeve is cut, people need to place the side face of the casting body on the arc-shaped groove, and the shape of the arc-shaped groove is the same as that of the side face of the casting body, so that the casting body can be stably supported by the arc-shaped groove.

3. In the second embodiment, after people move the movable frame to the designated position, people can screw the limit bolt so that the limit bolt can be clamped into the upper positioning hole right below the limit bolt, and therefore the connection strength between the limit bolt and the movable frame is further improved.

Drawings

Fig. 1 is an assembly view of a cutting tool and a locking sleeve.

Fig. 2 is a schematic structural diagram of the cutting tool of the present utility model.

Fig. 3 is a top view of the assembled movable frame and base of the second and third embodiments.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

Example 1

As shown in fig. 1-2, a cutting tool for a locking sleeve according to the present utility model includes a base 100, a moving assembly 200, a supporting assembly 300, and a clamping assembly 400.

In the utility model, the locking sleeve comprises a casting body 520 and a riser 510, wherein the casting body 520 is connected with the riser 510, and a bottom ring 521 is arranged at one end of the casting body 520 far away from the riser 510; the cutter of the present utility model is located above the base 100.

The moving assembly 200 is arranged on the base 100, and the moving assembly 200 can move relative to the base 100; the support assembly 300 is arranged on the moving assembly 200, and the support assembly 300 is used for supporting the locking sleeve; the clamping assembly 400 is arranged on the moving assembly 200, the clamping assembly 400 presses the locking sleeve on the moving assembly 200, in the process of cutting the locking sleeve, people need to adjust the position of the moving assembly 200 first, then the moving assembly 200 is limited on the base 100, so that the supporting assembly 300 can be positioned right below a cutter (not marked in the drawing), then people place the locking sleeve on the supporting assembly 300, and the bottom ring 521 of the locking sleeve is pressed on the moving assembly 200 through the clamping assembly 400, so that when people cut the cap 510 from the casting 520, the locking sleeve cannot move in a dislocation manner relative to the moving assembly 200, and the cap 510 and the casting 520 can be cut smoothly.

The moving assembly 200 includes a moving frame 210, where a pair of risers 220 are disposed on the moving frame 210, each riser 220 is perpendicular to a plane of the moving frame 210, and the moving frame 210 is fixedly connected to two risers 220, so that when the moving frame 210 moves relative to the base 100, the risers 220 can also move relative to the base 100.

The supporting component 300 comprises a cross rod 310, two ends of the cross rod 310 are respectively connected with corresponding vertical plates 220, a cutting table 320 with a supporting locking sleeve is arranged on the cross rod 310, the top surface of the cutting table 320 is inwards recessed to form an arc-shaped groove 321, when the locking sleeve is cut, people need to place the side surface of the casting body 520 on the arc-shaped groove 321, and the shape of the arc-shaped groove 321 is the same as the shape of the side surface of the casting body 520, so that the arc-shaped groove 321 can stably support the casting body 520.

The number of the clamping assemblies 400 is the same as that of the risers 220, each clamping assembly 400 comprises a drop-preventing frame 410 with a U-shaped transverse cross section, drop-preventing bolts 420 are arranged on the drop-preventing frames 410 in a penetrating mode, one side edge of each riser 220 is embedded into each drop-preventing frame 410, the drop-preventing bolts 420 can press bottom rings 521 of the casting body 520 on the corresponding risers 220, when people need to cut the locking sleeve, the side faces of the casting body 520 are required to be placed on the arc-shaped surface of the cutting table 320, the bottom rings 521 are clamped between one end, close to the drop-preventing bolts 420, of each drop-preventing frame 410 and the corresponding riser 220, and then people can screw the drop-preventing bolts 420 so that the bottom rings 521 can be pressed on the corresponding risers 220, and therefore the locking sleeve is stably arranged on the moving assembly 200.

Each of the extending rods 222 is provided on one side of the top of the riser 220, each of the extending rods 222 is provided with a release preventing rod 221, the release preventing rods 221 are parallel to the riser 220, the release preventing rods 221 are perpendicular to the extending rods 222, when the moving assembly 200 is transferred, a user can separate the moving frame 210 from the base 100, then the ropes are sleeved on the two extending rods 222, and then the moving assembly 200 can be removed from the base 100 by lifting upwards, and in the process, the release preventing rods 221 can prevent the ropes from being separated from the release preventing rods 221, so that the ropes can be ensured to stably transfer the moving assembly 200.

The both sides edge of base 100 all is equipped with the mount 110 that vertical cross-section is the U font, wear to be equipped with on the mount 110 and be used for restricting the spacing bolt 111 that removes the frame 210 and remove relative to base 100, the side of base 100 is embedded into in the mount 110, spacing bolt 111 will remove the frame 210 and suppress on base 100, and in the use, the side of removing the frame 210 is embedded into corresponding mount 110 all the time to remove the frame 210 and be located the top of base 100, so, when people screw up spacing bolt 111, spacing bolt 111 just will remove the frame 210 suppression on base 100, in order to restrict to remove the frame 210 and remove relative to base 100.

Example two

As shown in fig. 3, this embodiment is based on the first embodiment, in which the connection structure of the movable frame 210 and the stopper bolt 111 is improved.

The edge of the movable frame 210 is provided with a plurality of upper positioning holes 211 for clamping corresponding limit bolts 111, when people move the movable frame 210 to a specified position, people can screw the limit bolts 111, so that the limit bolts 111 can be clamped into the upper positioning holes 211 right below the movable frame, and the connection strength between the limit bolts 111 and the movable frame 210 is further improved.

Example III

As shown in fig. 3, in this embodiment, a plurality of limiting members 130 are additionally provided on the basis of the second embodiment.

The opposite side edges of the base 100 are respectively provided with at least two limiting pieces 130 for limiting the movement of the movable frame 210 on the base 100, the base 100 is provided with a receiver 140 at each limiting piece 130, the side surface of the movable frame 210 is provided with a plurality of jacks 212 for clamping the corresponding limiting pieces 130, each movable frame 210 is provided with a transmitter 213 at each jack 212, each limiting piece 130 comprises a cylinder 131 arranged on the base 100, each cylinder 131 is provided with a cylinder rod 132, each cylinder 131 is electrically connected with the corresponding receiver 140, the base 100 is provided with a switch 120 for controlling the corresponding receiver 140 to be opened or closed, when a person adjusts the movable frame 210 to a proper position, after the limiting bolts 111 are clamped in the corresponding upper positioning holes 211, the person can open the switch 120, so that the receiver 140 is electrified, signals sent by the corresponding transmitters 213 are received, the cylinders 131 are controlled to push out the cylinders 131, the movable frame 210 can be further limited to move in the horizontal direction relative to the base 100, and the locking sleeve can be cut stably; when the cut is completed, one can turn off the switch 120, de-energizing the receiver 140, and allowing the cylinder rod 132 to retract back into the cylinder 131.

Further, the positions of the cylinder 131 and the fixing frame 110 on the base 100 are unchanged, only one upper positioning hole 211 is arranged between two adjacent jacks 212, the distances between two adjacent upper positioning holes 211 are the same, that is, the distances between two adjacent jacks 212 and the upper positioning holes 211 between the two adjacent jacks are the same, so that when people adjust the movable frame 210 to a proper position, after the limit bolts 111 are clamped into the corresponding upper positioning holes 211, the movable frame 210 is preliminarily positioned, so that the cylinder rod 132 can be aligned with one of the jacks 212, the receiver 140 can be aligned with the generator adjacent to the jack 212, and the cylinder rod 132 can be smoothly inserted into the jack 212.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, descriptions such as those referred to herein as "first," "second," "a," and the like are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or an implicit indication of the number of features being indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the present utility model, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In addition, the technical solutions of the embodiments of the present utility model may be combined with each other, but it is necessary to be based on the fact that those skilled in the art can implement the technical solutions, and when the technical solutions are contradictory or cannot be implemented, the combination of the technical solutions should be considered as not existing, and not falling within the scope of protection claimed by the present utility model.

Claims (10)

1. Cutting frock of locking cover, its characterized in that includes:

a base;

the moving assembly is arranged on the base and can move relative to the base;

the support component is arranged on the moving component and is used for supporting the locking sleeve;

the clamping assembly is arranged on the moving assembly and presses the locking sleeve on the moving assembly.

2. The locking sleeve cutting tool of claim 1 wherein the movable assembly includes a movable frame having a pair of risers, each riser being perpendicular to a plane of the movable frame.

3. The cutting tool for the locking sleeve according to claim 2, wherein the supporting component comprises a cross rod, two ends of the cross rod are respectively connected with corresponding vertical plates, a cutting table with the supporting locking sleeve is arranged on the cross rod, and the top surface of the cutting table is inwards recessed to form an arc-shaped groove.

4. The cutting tool for the locking sleeve according to claim 1, wherein the number of the clamping assemblies is the same as the number of the vertical plates, each clamping assembly comprises an anti-falling frame with a U-shaped transverse section, and anti-falling bolts are arranged on the anti-falling frames in a penetrating mode.

5. The tool for cutting the locking sleeve according to claim 4, wherein one side edge of the vertical plate is embedded into the anti-falling frame, and the anti-falling bolt can press the locking sleeve on the corresponding vertical plate.

6. The cutting tool for the locking sleeve according to claim 2, wherein an extension rod is arranged on one side edge of the top of each vertical plate, an anti-falling rod is arranged on each extension rod, the anti-falling rods are parallel to the vertical plates, and the anti-falling rods are perpendicular to the extension rods.

7. The cutting tool for the locking sleeve according to claim 1, wherein fixing frames with vertical cross sections in a U shape are arranged on two side edges of the base, limiting bolts used for limiting the moving frame to move relative to the base are arranged on the fixing frames in a penetrating mode, the side edges of the base are embedded into the fixing frames, and the limiting bolts are used for pressing the moving frame on the base.

8. The cutting tool for the locking sleeve according to claim 7, wherein a plurality of upper positioning holes for clamping corresponding limit bolts are formed in the edge of the movable frame.

9. The cutting tool for the locking sleeve according to claim 2, wherein at least two limiting members for limiting the movement of the movable frame on the base are arranged at opposite side edges of the base, and the base is provided with receivers at the positions of the limiting members.

10. The cutting tool for the locking sleeve according to claim 9, wherein a plurality of insertion holes for clamping corresponding limiting pieces are formed in the side face of the movable frame, the movable frame is provided with transmitters at the positions of the insertion holes, each limiting piece comprises a cylinder body arranged on the base, a cylinder rod is arranged on the cylinder body, the cylinder body is electrically connected with the receiver, and a switch for controlling the receiver to be opened or closed is arranged on the base.

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