CN216584758U - T-shaped lamp tube exhaust pipe welding machine - Google Patents

Abstract

The utility model relates to a fluorescent tube processing field specifically discloses T type fluorescent tube blast pipe heat sealing machine, a serial communication port, including the station that can place T type fluorescent tube and the first feed mechanism that is used for feeding T type fluorescent tube to the station that sets gradually, be used for blast pipe feeding to the second feed mechanism of station, but clamping device and the unloading mechanism of rotation, be equipped with the flame projecting subassembly that is used for butt fusion T type fluorescent tube and blast pipe between clamping device and the station, each mechanism's cooperation has accomplished the butt fusion process to T type fluorescent tube and blast pipe, whole process degree of automation is high, the safe risk is little, work efficiency is high.

Description

T-shaped lamp tube exhaust pipe welding machine

Technical Field

The utility model relates to a fluorescent tube processing field, in particular to fluorescent tube butt fusion equipment.

Background

Some lamps, especially relate to its use and are the T type structure fluorescent tube that is formed by fluorescent tube and blast pipe combination, need to continue to connect a section blast pipe on the T type structure fluorescent tube to prolong its own T type fluorescent tube's blast pipe one end, and in the existing processing technology, to the joint between T type structure fluorescent tube and the blast pipe that is used for lengthening mostly adopting the manual butt fusion mode, the whole degree of automation and butt fusion efficiency are lower, and there is not a few safety risk.

The technical problem to be solved by the application is as follows: the technical problems of low automation degree and low welding efficiency of the joint between the T-shaped lamp tube and the exhaust tube are solved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a T-shaped lamp tube and exhaust pipe welding machine which can solve the technical problems that the joint between the T-shaped lamp tube and the exhaust pipe has low automation degree and welding efficiency.

The utility model discloses the technical scheme who adopts does: the T-shaped lamp tube exhaust pipe welding machine is characterized by comprising a station capable of placing a T-shaped lamp tube, and a first feeding mechanism, a second feeding mechanism, a clamping device and a discharging mechanism which are sequentially arranged and used for feeding the T-shaped lamp tube to the station, wherein the second feeding mechanism is used for feeding the exhaust pipe to the station;

the first feeding mechanism comprises a first feeding structure, a first clamping assembly and a first driving assembly, and the first driving assembly drives the first clamping assembly to move back and forth between the station and the first feeding structure;

the second feeding mechanism comprises a second feeding structure, a second clamping assembly and a second driving assembly, and the second driving assembly drives the second clamping assembly to reciprocate between the second feeding structure and the clamping device;

a flame spraying assembly for welding the T-shaped lamp tube and the exhaust pipe is arranged between the clamping device and the station;

the blanking mechanism is used for blanking the T-shaped lamp tube welded on the station.

The first feeding mechanism feeds the T-shaped lamp tube to the station, the exhaust pipe is fed to the clamping device through the second feeding mechanism, the fire head is arranged between the clamping device and the station, the clamping device drives the exhaust pipe to rotate, the fire head burns the rotating exhaust pipe and one end of the T-shaped lamp tube, then the exhaust pipe is jointed with the T-shaped lamp tube, and the blanking mechanism carries out blanking operation on the jointed exhaust pipe and the T-shaped lamp tube.

In some embodiments, the first clamping assembly includes a first pneumatic clamping jaw, the first pneumatic clamping jaw is provided with a dividing member and a hook claw connected with the first pneumatic clamping jaw, a fixed end of the first pneumatic clamping jaw is connected with the dividing member inserted into the gap between the T-shaped lamp tubes, an output end of the first pneumatic clamping jaw is connected with the hook claw capable of accommodating only one T-shaped lamp tube, and the dividing member and the hook claw are matched to complete the clamping operation. The scheme limits a structure of the first clamping assembly, the hook claws are matched with the dividing parts to divide the T-shaped lamp tubes one by one and clamp the T-shaped lamp tubes individually, and the process of clamping one T-shaped lamp tube at each time is completed.

In some embodiments, the second feeding structure comprises an inclined plane structure for placing the exhaust pipe, the inclined plane structure comprises a feeding end, a material placing area and a discharging end, a discharging driving assembly for driving the feeding end to ascend and descend is arranged below the feeding end, a connecting rod rotatably connected with the material placing area is arranged below the material placing area, the discharging end is provided with two discharging dividing pieces which are arranged in a staggered mode, and only one exhaust pipe is allowed to pass through a gap between the two discharging dividing pieces. This scheme has injectd a second feed structure's concrete structure, and ejection of compact drive assembly drive pan feeding end goes up and down, and when the pan feeding end descends, owing to there is the rotation to be connected between putting material district and the connecting rod, the discharge end can rise, and at this moment, a blast pipe that is located the discharge end carries out ejection of compact operation through the space between the ejection of compact partition piece.

In some embodiments, two opposite sides of the second clamping assembly are respectively provided with a pushing assembly and a positioning member, and the pushing assembly pushes the exhaust pipe discharged from the second feeding structure to the second clamping assembly until the exhaust pipe abuts against the positioning member. This embodiment defines a structure capable of specifying the position of the exhaust pipe on the second clamp assembly, and facilitates the subsequent welding process.

In some embodiments, a plurality of stations are arranged on the turntable, each station comprises a station seat and a fixing seat for pressing the T-shaped lamp tube on the station seat, and the fixing seats are rotatably connected with the station seats; the center of the turntable is provided with a firmware structure which is rotationally connected with the turntable, the firmware structure comprises a firmware driving component, a rotating firmware component which is in transmission connection with the firmware seat and a compressing firmware component which is used for compressing the firmware seat on the station seat, and the firmware driving component drives the rotating firmware component and the compressing firmware component to perform lifting motion. The scheme limits a specific structure of a station capable of accommodating the T-shaped lamp tube, when the firmware driving component descends, the rotating firmware component can drive the firmware seat to rotate, so that the connection relation between the T-shaped lamp tube and the firmware seat is changed; the pressing fastener component can press the fastener seat, so that the position of the T-shaped lamp tube on the station seat is pressed.

In some embodiments, a trimming assembly for trimming one end of the exhaust pipe is arranged between the flaming assembly and the blanking mechanism. In this aspect, it is preferable that a trimming unit for trimming the exhaust pipe is provided, and the trimming process is added to facilitate the process after welding.

In some embodiments, the clamping device is self-rotating by the cooperation of a belt and a gear. This solution defines a way of driving the gripping means to perform a rotation.

In some embodiments, a cooling assembly for rapidly cooling the welding position of the T-shaped lamp tube and the exhaust pipe is disposed at one side of the flame-out assembly. This scheme, preferably, has set for one kind and has been used for the subassembly to the welding position cooling fast, and the rapid cooling of welding position is favorable to the welding position to carry out quick design in order to avoid out of shape.

In some embodiments, a pushing assembly for pushing the T-shaped lamp tube to abut against the inner side of the station is arranged between the first feeding mechanism and the second feeding mechanism. This scheme, preferably, set for one and be used for promoting T type fluorescent tube and the inboard push assembly who butts of station, help fixing a position the T type fluorescent tube on the station, be favorable to follow-up welded process to go on.

In some embodiments, the blanking mechanism includes a blanking drive assembly, a second pneumatic clamping jaw, and a discharge area, the second pneumatic clamping jaw is configured to clamp the exhaust pipe, and the blanking drive assembly drives the second pneumatic clamping jaw to move to and from the station and the discharge area. The scheme limits the blanking structure and the matching mode of the blanking mechanism.

The beneficial effects of the utility model reside in that:

this T type fluorescent tube blast pipe heat sealing machine has designed its feed mechanism through the ejection of compact to T type fluorescent tube and blast pipe, has designed a series of mechanism's cooperation simultaneously and has realized the butt fusion mode between the two, and whole machinery can automize and has realized material loading, butt fusion and unloading operation, improves butt fusion efficiency, reduces the safety risk, and each mechanism position is compact moreover, and the occupy-place is little, saves space.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural view of the station of the present invention;

fig. 3 is a schematic structural view of the cooperation between the firmware structure and the station of the present invention;

fig. 4 is a schematic structural diagram of a first feeding mechanism of the present invention;

fig. 5 is a schematic structural view of a first clamping assembly of the present invention;

fig. 6 is a schematic structural view of a second feeding mechanism of the present invention;

fig. 7 is a schematic structural view of the second feeding mechanism after the baffle of the present invention is hidden;

fig. 8 is a schematic structural view of the clamping device of the present invention;

fig. 9 is a schematic cross-sectional view of the clamping device of the present invention;

fig. 10 is a schematic structural view of the position of the second feeding mechanism, the clamping device and the flaming assembly according to the present invention;

fig. 11 is a schematic structural view of the blanking mechanism of the present invention;

fig. 12 is a schematic structural view of the pushing assembly of the present invention;

fig. 13 is a schematic structural diagram of the T-shaped lamp tube of the present invention.

The reference numerals and names in the drawings correspond to the following: 1. a first feeding mechanism; 2. a second feeding mechanism; 3. a clamping device; 4. a flame projecting assembly; 5. a blanking mechanism; 6. a turntable; 61. a station; 7. a work table; 8. a pushing assembly; 9. a trimming assembly; 10. a center console; 11. a first feeding structure; 12. a first clamping assembly; 13. A first drive assembly; 111. a T-shaped long slot; 112. a restriction seat; 121. cutting the parts; 122. hooking claws; 21. a second feeding structure; 22. a second clamping assembly; 23. a second drive assembly; 24. a material pushing assembly; 25. A material receiving assembly; 211. a bevel structure; 212. a feeding seat; 2111. a bevel seat; 2112. a bevel; 21111, a connecting rod; 21112. a baffle plate; 21121. a feeding end; 21122. a material placing area; 21123. a discharge end; 2113. discharging and cutting into pieces; 251. a material receiving groove; 221. a positioning member; 31. a holder; 311. a first through hole; 312. a first chute; 32. a clamping block; 33. a sliding shaft; 331. a vent hole; 34. centering sleeve; 35. an air outlet pipe; 36. a clamping cylinder; 37. a clamping seat; 371. a stepping motor; 51. a blanking driving component; 52. a second pneumatic jaw; 53. a discharge area; 611. a station seat; 612. a fastener seat; 613. a T-shaped groove; 62. a firmware structure; 621. a firmware driver component; 622. rotating the fastener assembly; 623. compressing the fastener assembly; 81. a push cylinder; 82. a pusher head; 01. a first lamp tube; 02. a first exhaust pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: the T-shaped lamp tube exhaust pipe welding machine comprises a workbench 7, a rotary table 6, a first feeding mechanism 1, a second feeding mechanism 2, a clamping device 3 and a blanking mechanism 5, wherein the outer edge of the rotary table 6 is provided with a plurality of stations 61 capable of placing T-shaped lamp tubes, the first feeding mechanism 1 is sequentially arranged around the rotary table 6 and used for feeding the T-shaped lamp tubes to the stations 61, the second feeding mechanism 2 is used for feeding the exhaust pipes to the stations 61, and the clamping device 3 and the blanking mechanism 5 can rotate; the rotary table 6, the first feeding mechanism 1, the second feeding mechanism 2, the clamping device 3 and the blanking mechanism 5 are respectively arranged on the workbench 7; as shown in fig. 13, the T-shaped lamp is formed by combining a first lamp 01 and a first exhaust pipe 02; a cam divider driving the turntable to rotate intermittently is arranged below the turntable 6.

As shown in fig. 2, the station 61 includes a station seat 611 and a fixing seat 612 for pressing the T-shaped lamp tube on the station 61 seat, a T-shaped groove 613 capable of transversely accommodating the T-shaped lamp tube is disposed on the station seat 611, one end of the fixing seat 612 is rotatably connected to the station seat 611, and the other end is disposed above the T-shaped groove 613; as shown in fig. 3, the center of the turntable 6 is provided with a fixing member structure 62 rotatably connected therewith, the fixing member structure 62 includes a fixing member driving assembly 621, a rotating fixing member assembly 622 drivingly connected with the fixing member base 612 and a pressing fixing member assembly 623 for pressing the fixing member base 612 on the station base 611, the fixing member driving assembly 621 is a motor, an output end thereof is fixedly connected with the lifting plate, a fixed end thereof is fixedly connected with the workbench 7 through a mounting rod, and the rotating fixing member assembly 622 and the pressing fixing member assembly 623 are fixedly connected with the lifting plate; the firmware driving component 621 drives the rotating firmware component 622 and the pressing firmware component 623 to perform lifting movement; when the output end of the firmware driving component 621 is pressed down, the firmware component 622 is rotated to drive the firmware seat 612 to rotate, so that the opening and closing actions of the firmware seat 612 are realized, and the connection relationship between the T-shaped lamp tube and the firmware seat 612 is changed; the pressing fastener assembly 623 can press the fastener seat 612, so as to press and fix the position of the T-shaped lamp on the station seat 611. The two rotating fastener assemblies 622 are respectively arranged at one end of the lifting plate close to the first feeding mechanism 1 and the blanking mechanism 5, and the pressing fastener assembly 623 is arranged at one end of the lifting plate close to the clamping device 3.

As shown in fig. 4, the first feeding mechanism 1 includes a first feeding structure 11, a first clamping assembly 12, and a first driving assembly 13, wherein the first driving assembly 13 drives the first clamping assembly 12 to move between the station 61 and the first feeding structure 11; the first feeding structure 11 comprises a T-shaped long groove 111 capable of accommodating the first exhaust pipe 02, the T-shaped long groove 111 inclines towards the first clamping component 12, the first lamp tubes 01 cross over the T-shaped long groove 111, the T-shaped lamp tubes are arranged in the T-shaped long groove 111 one by one, and one end of the T-shaped long groove 111 close to the first clamping component 12 is provided with a row limiting seat 112 higher than the T-shaped long groove 111; as shown in fig. 5, the first clamping assembly 12 includes a first pneumatic clamping jaw, the first pneumatic clamping jaw is provided with a dividing member 121 and a hook claw 122 connected thereto, a fixed end of the first pneumatic clamping jaw is connected with the dividing member 121 for inserting into a gap between T-shaped lamp tubes, an output end of the first pneumatic clamping jaw is connected with the hook claw 122 capable of accommodating only one T-shaped lamp tube, the gap between the dividing member 121 and the limiting seat 112 is equal to the thickness of one first lamp tube, and two hook claws 122 are provided and are respectively connected with two ends of the first exhaust tube 02 in the clamping process; the separating member 121 and the hook claw 122 cooperate to complete the clamping operation, and the hook claw 122 and the separating member 121 cooperate to separate the T-shaped lamps one by one and clamp the T-shaped lamps individually, thereby completing the procedure of clamping one T-shaped lamp at a time. The first driving assembly 13 includes two air cylinders, and the two air cylinders are cooperatively operated to complete the lifting and the transverse movement of the first clamping assembly 12.

As shown in fig. 6-7, the second feeding mechanism 2 includes a second feeding structure 21, a second clamping assembly 22, a second driving assembly 23 and a pushing assembly 24, wherein the second driving assembly 23 drives the second clamping assembly 22 to move back and forth between the second feeding structure 21 and the clamping device 3; the second feeding structure 21 comprises a slope structure 211 for placing the exhaust pipe and a feeding seat 212, the feeding seat 212 is arranged below the slope structure 211, the slope structure 211 comprises a slope seat 2111 and a slope 2112, and the slope 2112 comprises a feeding end 21121, a material placing area 21122 and a discharging end 21123; a discharging driving component for driving the feeding end 21121 to lift is arranged below the feeding end 21121, the discharging driving component is an air cylinder, and the fixed end of the discharging driving component is fixedly connected with the inclined surface seat 2111; a connecting rod 21111 rotatably connected with the material placing area 21122 is arranged below the material placing area 21122, the connecting rod 21111 is fixedly connected with the inclined plane seat 2111, namely, the inclined plane 2112 is rotatably connected with the inclined plane seat 2111 through the connecting rod 21111; secondly, baffles 21112 which are helpful for stacking the exhaust pipes are arranged on two sides of the material placing area 21122, and the material placing area 21122 can stack multiple layers of exhaust pipes; the gap between the discharge end 21123 and the inclined surface seat 2111 is smaller than the thickness of two exhaust pipes, one end of the discharge end 21123 is provided with two staggered discharge dividing plates 2113, one discharge dividing plate 2113 is used for abutting against the exhaust pipe of the discharge end 21123, the other discharge dividing plate 2113 is arranged above the discharge end 21123, and the gap between the two discharge dividing plates 2113 only allows one exhaust pipe to pass through. The discharging driving assembly drives the feeding end 21121 to ascend and descend, when the feeding end 21121 descends, the discharging end 21123 ascends due to the fact that the inclined surface 2112 is rotationally connected with the inclined surface seat 2111, at the moment, a discharging pipe located at the discharging end 21123 conducts discharging operation through gaps among the discharging dividing pieces 2113, and the discharging pipes located in the material placing area 21122 enter the discharging end 21123 one by one along the inclined surface 2112.

One side of the material supply seat 212 close to the discharge end 21123 is provided with a material receiving assembly 25 for receiving materials from the exhaust pipe discharged from the discharge end 21123, the material receiving assembly 25 is composed of a material receiving cylinder and a material receiving groove 251, the output end of the material receiving cylinder is fixedly connected with the material receiving groove 251, and the material receiving cylinder drives the material receiving groove 251 to be connected with the discharge partition piece 2113.

The second driving assembly 23 is a cylinder, the output end of the second driving assembly is fixedly connected with the second clamping assembly 22, the second clamping assembly 22 is a pneumatic clamping jaw, and the second clamping assembly 22 can clamp the exhaust pipe.

The second clamping component 22 and the pushing component 24 are respectively arranged at two sides of the receiving groove 251; the material pushing assembly 24 is formed by combining a material pushing cylinder and a material pushing head, the material pushing assembly 24 pushes the exhaust pipe of the material receiving groove 251 to the second clamping assembly 22, the second clamping assembly 22 clamps the exhaust pipe, a positioning piece 221 used for being abutted to the exhaust pipe is arranged on one side, away from the material pushing assembly 24, of the second clamping assembly 22, and the position, clamped by the second clamping assembly 22, of the exhaust pipe is regulated by the matching of the material pushing assembly 24 and the positioning piece 221, so that the subsequent welding process is facilitated.

The second clamping assembly 22 clamps the exhaust pipe and is driven to the front of the clamping device 3 by the second driving assembly 23.

As shown in fig. 8-9, a clamping device 3, the structure is substantially the same as that of the utility model with application number 202023134059.X, and includes a holder 31, a clamping block 32, a sliding shaft 33 and a centering sleeve 34, the holder 31 is sleeved on one end of the centering sleeve 34 and fixedly connected with the same, the centering sleeve 34 is sleeved on the sliding shaft 33 and slidably connected with the same, a first through hole 311 is formed in the middle of the holder 31, the axis direction of the first through hole 311 is set to be a-a 'direction, three first sliding grooves 312 are formed in the holder 31, and the extending direction of the first sliding grooves 312 is inclined from a to a' toward the direction away from the first through hole 311. The number of the clamping blocks 32 is three, the clamping blocks 32 are in sliding connection with the corresponding first sliding grooves 312, the sliding shaft 33 is arranged in the first through hole 311, the sliding shaft 33 is in sliding connection with the first through hole 311, the sliding shaft 33 is in transmission connection with all the clamping blocks 32, and the sliding shaft 33 drives the clamping blocks 32 to approach or move away from each other; the center of the sliding shaft 33 is provided with a vent hole 331, one end of the air outlet pipe 35 is communicated with the vent hole 331, and the other end is communicated with the external nitrogen.

One end of the centering sleeve 34 is provided with a gear fixedly connected with the centering sleeve, the clamping seat 31 and the centering sleeve 34 rotate by matching a belt with the gear, and a motor for driving the gear to rotate is arranged above the clamping device 3. And a clamping cylinder 36 fixedly connected with the sliding shaft 33 is arranged on one side of the clamping device 3, and the clamping cylinder 36 drives the sliding shaft 33 to slide left and right in the centering sleeve 34, so that the clamping and releasing functions of the clamping block 32 are realized. The gripping device 3 is rotatably mounted on a gripping seat 37, the gripping seat 37 being provided with a stepper motor 371 for driving it towards and away from the station 61.

As shown in fig. 10, a flame spraying component 4 for welding the T-shaped lamp tube and the exhaust pipe is arranged between the clamping device 3 and the station 61; 4 one side of flame projecting subassembly is equipped with the cooling module who is used for the butt fusion position rapid cooling to T type fluorescent tube and blast pipe, and cooling module includes the air nozzle, and the air nozzle is to the splice position blowout inert clean gas of T type fluorescent tube and blast pipe, avoids leading to the splice position to warp because of the cool time overlength.

As shown in fig. 11, the blanking mechanism 5 is used for blanking the T-shaped lamp tube welded at the station 61. The blanking mechanism 5 comprises a blanking driving component 51, a second pneumatic clamping jaw 52 and a discharging area 53, the second pneumatic clamping jaw 52 is used for clamping the exhaust pipe, and the blanking driving component 51 drives the second pneumatic clamping jaw 52 to move back and forth between the station 61 and the discharging area 53. The blanking driving assembly 51 comprises two air cylinders, and the two air cylinders are matched to complete the lifting and the transverse movement of the second pneumatic clamping jaw 52. Two output ends of the second pneumatic clamping jaw 52 are respectively and fixedly connected with the corresponding clamping heads, and the two clamping heads can be matched to clamp an exhaust pipe.

In order to better position the T-shaped lamp tube on the station 61, in this embodiment, preferably, as shown in fig. 12, a pushing assembly 8 for pushing the T-shaped lamp tube to abut against the inner side of the T-shaped groove 613 of the station 61 is arranged between the first feeding mechanism 1 and the second feeding mechanism 2, the pushing assembly 8 includes a pushing cylinder 81 and a pushing head 82, an output end of the pushing cylinder 81 is fixedly connected to the pushing head 82, the pushing head 82 is driven by the pushing cylinder 81 to abut against one end of the T-shaped lamp tube, and pushes the T-shaped lamp tube toward the station 61 until the T-shaped lamp tube abuts against the inner side of the T-shaped groove 613.

In order to facilitate the process after welding, in the present embodiment, it is preferable that a trimming assembly 9 for trimming one end of the exhaust pipe is provided between the flame projecting assembly 4 and the blanking mechanism 5, and the trimming assembly 9 is a flame projecting head whose nozzle faces a nozzle of one end of the exhaust pipe.

In order to control the action speed of each mechanism in a centralized manner, in this embodiment, preferably, a central console 10 is further provided, the first feeding mechanism 1, the second feeding mechanism 2, the clamping device 3 and the discharging mechanism 5 are respectively in communication connection with the central console 10, and the central console 10 can control the action speed of the first feeding mechanism 1, the second feeding mechanism 2, the clamping device 3 and the discharging mechanism 5.

The utility model discloses a theory of operation and use flow: the station 61 passes through the first feeding mechanism 1, the pushing assembly 8, the clamping device 3, the trimming assembly 9 and the blanking mechanism 5 in sequence along with the turntable 6;

s1, the fixing seat 612 on the station 61 is rotated to be opened, the first feeding mechanism 1 feeds the T-shaped lamp tube to the station 61, and the fixing seat 612 is closed; the second feeding mechanism discharges the exhaust pipe to the receiving assembly 25, and the pushing assembly 24 pushes the exhaust pipe to the second clamping assembly 22;

s2, the pushing component 8 pushes the T-shaped lamp tube to abut against the inner side of the T-shaped groove 613; the second driving assembly 23 drives the second clamping assembly 22 to the front of the clamping device 3, the clamping seat 37 is driven to move forward towards the station 61, the clamping block 32 clamps the exhaust pipe, and the second clamping assembly 22 is reset;

s3, the fixing seat 612 is pressed, the T-shaped lamp tube is pressed, the clamping device 3 drives the exhaust tube to rotate, at the moment, the tube opening of the first exhaust tube 02 of the T-shaped lamp tube and the tube opening of the exhaust tube are on the same straight line, and the flame spraying assembly 4 simultaneously burns and melts the first exhaust tube 02 and the exhaust tube of the T-shaped lamp tube;

s4, when the set temperature is reached, the clamping device 3 stops rotating, the clamping seat 37 is driven to move forward towards the station 61, and the T-shaped lamp tube is jointed with the exhaust tube;

s5, the cooling component blows air to the joint position of the exhaust pipe and the T-shaped lamp tube for cooling, and deformation caused by overlong cooling time is avoided;

s6, after cooling, loosening the exhaust pipe and resetting the clamping device 3, blowing clean gas to the clamping block 32 through the vent hole 331 of the clamping device 3 to avoid residual glass fragments;

s7, trimming the pipe orifice at the end of the exhaust pipe which is not burnt by the trimming component 9;

and S8, the blanking mechanism 5 clamps and blanks the welded T-shaped lamp tube.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The T-shaped lamp tube exhaust pipe fusion splicer is characterized by comprising a station (61) capable of placing a T-shaped lamp tube and a first feeding mechanism (1) which is arranged on the station (61) in sequence and used for feeding the T-shaped lamp tube to the station (61), a second feeding mechanism (2) used for feeding the exhaust pipe to the station (61), a clamping device (3) capable of rotating and a blanking mechanism (5);

   the first feeding mechanism (1) comprises a first feeding structure (11), a first clamping assembly (12) and a first driving assembly (13), and the first driving assembly (13) drives the first clamping assembly (12) to move back and forth between the station (61) and the first feeding structure (11);

   the second feeding mechanism (2) comprises a second feeding structure (21), a second clamping assembly (22) and a second driving assembly (23), and the second driving assembly (23) drives the second clamping assembly (22) to move back and forth between the second feeding structure (21) and the clamping device (3);

   a flame spraying assembly (4) for welding the T-shaped lamp tube and the exhaust pipe is arranged between the clamping device (3) and the station (61);

   and the blanking mechanism (5) is used for blanking the T-shaped lamp tube welded on the station (61).
2. 2. The T-shaped lamp tube fusion splicer according to claim 1, wherein the first clamping assembly (12) comprises a first pneumatic clamping jaw, the first pneumatic clamping jaw is provided with a dividing member (121) and a hook claw (122) connected with the first pneumatic clamping jaw, a fixed end of the first pneumatic clamping jaw is connected with the dividing member (121) inserted into a gap between the T-shaped lamp tubes, an output end of the first pneumatic clamping jaw is connected with the hook claw (122) capable of accommodating only one T-shaped lamp tube, and the dividing member (121) and the hook claw (122) are matched to complete the clamping operation.
3. 3. The T-shaped lamp tube fusion splicer according to claim 1, wherein the second feeding structure (21) comprises a slope structure (211) for placing the exhaust tube, the slope structure (211) comprises a feeding end (21121), a material placing area (21122) and a discharging end (21123), a discharging driving component for driving the feeding end (21121) to ascend and descend is arranged below the feeding end, a connecting rod (21111) rotatably connected with the material placing area (21122) is arranged below the discharging end (21123), two discharging dividing pieces (2113) are arranged in a staggered manner, and a gap between the two discharging dividing pieces (2113) only allows one exhaust tube to pass through.
4. 4. The T-shaped lamp tube fusion splicer according to claim 3, wherein a pushing assembly (24) and a positioning member (221) are respectively disposed on two opposite sides of the second clamping assembly (22), and the pushing assembly (24) pushes the exhaust tube discharged from the second feeding structure (21) to the second clamping assembly (22) until the exhaust tube abuts against the positioning member (221).
5. 5. The T-shaped lamp tube and exhaust pipe fusion splicer of claim 1, wherein a plurality of stations (61) are arranged on the turntable (6), the stations (61) comprise station seats (611) and fastener seats (612) for pressing the T-shaped lamp tubes on the station seats (611), and the fastener seats (612) are rotatably connected with the station seats (611); the center of the rotary disc (6) is provided with a firmware structure (62) which is rotationally connected with the rotary disc, the firmware structure (62) comprises a firmware driving component (621), a rotary firmware component (622) which is in transmission connection with the firmware seat (612) and a pressing firmware component (623) which is used for pressing the firmware seat (612) on the station seat (611), and the firmware driving component (621) drives the rotary firmware component (622) and the pressing firmware component (623) to move up and down.
6. 6. The T-shaped lamp tube fusion splicer according to claim 5, wherein a trimming component (9) for trimming one end of the exhaust tube is arranged between the flaming component (4) and the blanking mechanism (5).
7. 7. The T-type lamp tube fusion splicer of claim 1, wherein the clamping means (3) is self-rotated by the cooperation of a belt and a gear.
8. 8. The T-shaped lamp tube and exhaust pipe fusion splicer of claim 1, wherein a cooling component for rapidly cooling the fusion splice position of the T-shaped lamp tube and the exhaust pipe is arranged at one side of the flame projecting component (4).
9. 9. The T-shaped lamp tube fusion splicer according to claim 1, wherein a pushing assembly (8) for pushing the T-shaped lamp tube to abut against the inner side of the station (61) is arranged between the first feeding mechanism (1) and the second feeding mechanism (2).
10. 10. The T-shaped lamp tube fusion splicer according to claim 1, wherein the blanking mechanism (5) comprises a blanking driving component (51), a second pneumatic clamping jaw (52) and a discharge area (53), the second pneumatic clamping jaw (52) is used for clamping the exhaust tube, and the blanking driving component (51) drives the second pneumatic clamping jaw (52) to move to and fro between the working position (61) and the discharge area (53).

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