CN221042614U - Foot soaking machine for testing coil foot cutting - Google Patents

Abstract

The utility model relates to the technical field of tin dipping, in particular to a coil pin cutting testing pin dipping machine, which comprises a machine base, wherein the top of the machine base is provided with a transfer mechanism, the transfer mechanism comprises a transfer platform and a forward pushing mechanism for moving a coil forward along the transfer platform, a wire cutting mechanism and a tin dipping mechanism are arranged below the transfer platform, and a tin dipping die for positioning the coil is arranged between the two support bars; the front pushing mechanism comprises a fork pushing piece; the thread cutting mechanism comprises a thread cutting platform capable of lifting; the tin dipping mechanism comprises a tin dipping platform which moves up and down; the tin-dipping mould is put into a transfer platform, the tin-dipping mould is driven by a forward pushing mechanism to advance along the transfer platform, the tin-dipping mould sequentially passes through a tin-dipping mechanism and a wire shearing mechanism, a tin-dipping groove of the tin-dipping mechanism is lifted for the tin-dipping mould to be immersed, then the tin-dipping mould is moved forward through the wire shearing mechanism, a wire shearing platform of the wire shearing mechanism is lifted, and a wire shearing assembly is aligned with redundant pins to cut off the redundant pins; and the tin dipping and the wire cutting are finished simultaneously in the same equipment, so that the research and development cost and the labor cost are greatly reduced.

Description

Foot soaking machine for testing coil foot cutting

Technical Field

The utility model relates to the technical field of tin-dipping machines, in particular to a coil pin cutting test pin-dipping machine.

Background

In the manufacturing process of the servo motor, the connecting terminal of the servo motor coil needs to be subjected to tin immersion so as to improve the conductivity of the coil and the connection firmness. At present, the tin dipping process of the servo motor is finished in a manual operation mode, an operator clamps the coil and dips the connecting terminal into tin liquid, and the coil is taken out after the coil stays for a preset time. The manual tin-dipping mode has the defects of low working efficiency and high labor intensity, and in addition, the manual tin-dipping mode has more human factors, so that the tin-dipping quality of the coil cannot be effectively ensured.

To this end, the utility model of application number CN201710441782.6 discloses an automatic tin dipping device for coils, comprising: a bottom plate, a tin liquid groove arranged on the bottom plate; an execution unit positioned above the molten tin bath; the first driving unit is arranged on the bottom plate and used for driving the execution unit to do linear reciprocating motion in the up-down direction; the scrap recycling unit is positioned between the molten tin bath and the executing unit and is used for removing scraps in the molten tin bath; the second driving unit is arranged on the bottom plate and used for driving the waste recycling unit to move; and the cross beam is movably arranged on the execution unit. The coil tin dipping working efficiency is improved, the labor intensity of operators is reduced, and the tin dipping quality of the coil is ensured.

After the coil is tin-dipped, the conventional tin-dipping machine needs to be transferred to another wire cutting machine to cut and shear redundant pins, so that a large amount of time and cost are required to be consumed, and the efficiency is low.

Disclosure of utility model

The utility model aims to provide a coil pin cutting test pin dipping machine aiming at the defects of the prior art.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

The coil pin cutting test pin dipping machine comprises a machine base, wherein a transfer mechanism is arranged at the top of the machine base and comprises a transfer platform and a forward pushing mechanism for moving a coil forward along the transfer platform, a wire cutting mechanism and a tin dipping mechanism are arranged below the transfer platform, the transfer platform comprises a pair of support bars which are arranged in a clearance way, a tin dipping die for positioning the coil is arranged between the two support bars, and positioning blocks are formed at two ends of the tin dipping die; the front pushing mechanism comprises a fork pushing piece which can be clamped into the positioning block in a left-right and front-back moving manner and pushes the tin-immersing die forwards; the thread cutting mechanism comprises a thread cutting platform capable of moving up and down on the machine base, and the thread cutting platform is provided with a thread cutting assembly; the tin-dipping mechanism comprises a tin-dipping platform capable of moving up and down on the machine base, and the tin-dipping platform is provided with a tin-dipping tank for dipping the tin-dipping mould.

Further: the front pushing mechanism further comprises a front pushing support frame arranged on the outer side of the support bar, a transverse telescopic piece which is arranged perpendicular to the moving direction of the tin dipping die is arranged at the top of the front pushing support frame, a driving strip which is parallel to the support bar is arranged on the transverse telescopic piece, a front telescopic piece and a rear telescopic piece are arranged on the driving strip along the length direction of the driving strip, and the driving ends of the front telescopic piece and the rear telescopic piece are connected with the push fork piece.

Further: the inner side wall of the push fork piece is provided with a plurality of positioning grooves matched with the positioning blocks in an equidistant mode along the length direction.

Further: the tin-dipping mould is provided with a plurality of mould grooves for positioning coils at intervals along the length direction, and the bottom of the mould groove is provided with a through groove for exposing pins.

Further: the conveying platform is arranged above the transfer platform and comprises a pair of conveying plates which are arranged at intervals, conveying belts are arranged on the two conveying plates along the length of the conveying plates, and a through notch for the tin-immersing die to fall down to the transfer platform is formed in one end of each conveying plate.

Further: the fixed plates are respectively arranged at two ends between the two conveying plates, wherein a top expansion piece is arranged near the fixed plate passing through the notch, a stop plate is arranged at the driving end of the top expansion piece, a lifting rod capable of lifting is arranged on a supporting bar of the transfer platform, and the lifting rod is vertically aligned with the notch.

Further: the supporting bar is provided with a driving groove, the bottom of the driving groove is provided with a lifting cylinder, the bottom of the lifting rod is connected with the driving end of the lifting cylinder, and the top of the lifting rod is provided with a supporting block for supporting the tin-immersing die.

Further: the tin dipping mechanism comprises a pair of tin dipping lifting cylinders which are arranged in a gap, a tin dipping lifting table is arranged at the top of each tin dipping lifting cylinder, each tin dipping tank is arranged on the tin dipping lifting table, the tin scraping mechanism further comprises a tin scraping cutter and a tin scraping driving piece which drives the tin scraping cutter to move along the length direction of the tin dipping tank, each tin scraping driving piece comprises a tin scraping supporting upright column which is arranged longitudinally, each tin scraping supporting upright column is provided with a tin scraping telescopic piece which stretches along the length direction of the tin dipping tank, the driving end of each tin scraping telescopic piece is provided with a tin scraping seat, and each tin scraping cutter is arranged on each tin scraping seat.

Further: the wire cutting platform below is provided with the clamp line subassembly that can elevating movement, and the wire cutting subassembly includes first wire cutting board and slidable mounting at the second wire cutting board at first wire cutting board top, and a plurality of back cutters are installed along length direction interval to first wire cutting board side, and a plurality of preceding cutters are installed along length direction interval to second wire cutting board side, and back cutters and preceding cutter are staggered arrangement in vertical direction.

Further: the wire cutting platform is provided with a first telescopic piece, the telescopic direction of which is parallel to the moving direction of the tin-dipping mould, the driving end of the first telescopic piece is provided with a wire cutting bottom plate, the first wire cutting plate is arranged at the top of the wire cutting bottom plate, the wire cutting bottom plate is provided with a second telescopic piece, the telescopic direction of which is perpendicular to the first telescopic piece, and the driving end of the second telescopic piece is connected with the second wire cutting plate.

The utility model has the beneficial effects that: the coil needing to be tinned is placed into a tinning mould to be positioned, the tinning mould is placed into a transfer platform, a fork pushing piece capable of moving forwards and backwards and leftwards and rightwards by a forward pushing mechanism is clamped into a positioning block, the tinning mould is driven to advance along the transfer platform, the coil sequentially passes through a tinning mechanism and a wire cutting mechanism, a tinning groove of the tinning mechanism is lifted to be used for dipping the tinning mould, then the coil is advanced to pass through a wire cutting mechanism, a wire cutting platform of the wire cutting mechanism is lifted, a wire cutting assembly is aligned with redundant pins, and redundant pins are cut off; and the tin immersion and the wire cutting are finished simultaneously on the same equipment, so that the processing efficiency of the coil is higher, the research and development of the equipment are reduced, and the research and development cost and the labor cost are greatly reduced.

Drawings

Fig. 1 is a schematic structure diagram of a coil pin cutting and immersing machine.

Fig. 2 is a schematic structural view of a coil pin cutting and immersing machine, with a hidden conveying platform.

Fig. 3 is a schematic structural view of the wicking mechanism and the trimming mechanism.

Fig. 4 is a schematic structural view of a tin-dipping mold.

Fig. 5 is a schematic structural view of the wire cutting mechanism.

The reference numerals include:

1-machine base,

11-Transfer mechanism, 12-transfer platform, 13-support bar, 14-tin-dipping mould, 15-positioning block,

16-Mould groove, 17-pass groove,

A 2-push mechanism,

21-Push fork piece, 22-forward push support frame, 23-transverse telescopic piece, 24-driving bar,

25-Front and rear telescopic parts, 26-positioning slots,

A 3-conveying platform,

31-Conveying plate, 32-conveying belt, 33-passing notch, 34-fixing plate, 35-top telescopic part,

36-Stop plate, 37-lifting rod, 38-driving groove,

4-Tin dipping mechanism,

41-Tin-dipping lifting cylinder, 42-tin-dipping lifting table, 43-tin-dipping tank, 44-tin scraping knife,

45-Tin scraping supporting upright post, 46-tin scraping telescopic piece, 47-tin scraping seat,

5-Thread cutting mechanism,

50-Wire clamping assembly, 51-clamping plate 52-wire cutting platform, 53-wire cutting bottom plate, 54-first wire cutting plate,

55-A second thread cutting plate, 56-a front cutter, 57-a rear cutter, 58-a first telescopic member,

59-A second telescoping member.

Detailed Description

The present utility model will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-5, the coil pin cutting and soaking machine comprises a machine base 1, wherein a transfer mechanism 11 is arranged at the top of the machine base 1, the transfer mechanism 11 comprises a transfer platform 12 and a forward pushing mechanism 2 for moving a coil forward along the transfer platform 12, a wire cutting mechanism 5 and a tin soaking mechanism 4 are arranged below the transfer platform 12, the transfer platform 12 comprises a pair of support bars 13 which are arranged in a clearance way, a tin soaking die 14 for positioning the coil is arranged between the two support bars 13, and positioning blocks 15 are formed at two ends of the tin soaking die 14; the forward pushing mechanism 2 includes a fork 21 which is movably engaged to the positioning block 15 in the left-right direction and the forward-backward direction and pushes the tin-immersing die 14 forward;

The thread cutting mechanism 5 comprises a thread cutting platform 52 which can move up and down on the machine base 1, and the thread cutting platform 52 is provided with a thread cutting assembly; the wicking mechanism 4 includes a wicking platform capable of elevating and lowering the base 1, and the wicking platform is provided with a wicking bath 43 into which the wicking mold 14 is immersed.

The coil needing to be tinned is placed into a tinning mould 14 for positioning, the tinning mould 14 is placed into a transfer platform 12, and is clamped into a positioning block 15 by a fork piece 21 which can move forwards and backwards and leftwards of a front pushing mechanism 2, so that the tinning mould 14 is driven to advance along the transfer platform 12, and sequentially passes through a tinning mechanism 4 and a wire cutting mechanism 5, a tinning groove 43 of the tinning mechanism 4 is lifted for the tinning mould 14 to be immersed, and then moves forwards and passes through the wire cutting mechanism 5, a wire cutting platform 52 of the wire cutting mechanism 5 is lifted, a wire cutting assembly is aligned with redundant pins, and redundant pins are cut off; and the tin immersion and the wire cutting are finished simultaneously on the same equipment, so that the processing efficiency of the coil is higher, the research and development of the equipment are reduced, and the research and development cost and the labor cost are greatly reduced.

Specifically, the forward pushing mechanism 2 further comprises a forward pushing support frame 22 installed on the outer side of the support bar 13, a transverse expansion piece 23 which is arranged perpendicular to the moving direction of the tin-dipping die 14 is installed at the top of the forward pushing support frame 22, a driving strip 24 which is parallel to the support bar 13 is installed on the transverse expansion piece 23, a front expansion piece 25 and a rear expansion piece 25 are installed on the driving strip 24 along the length direction of the driving strip, the driving end of the front expansion piece 25 and the driving end of the rear expansion piece 25 are connected with the push fork piece 21, the transverse expansion piece 23 can drive the push fork piece 21 to be far away from or close to the tin-dipping die 14, the push fork piece 21 can be driven to clamp the tin-dipping die 14 through the positioning block 15 to drive the tin-dipping die 14 to push forwards, and the push wire cutting mechanism 5 passes through the tin-dipping mechanism 4 and the upper portion of the wire cutting mechanism 5 sequentially.

Preferably, the lateral expansion member 23 and the front-rear expansion member 25 are expansion cylinders.

Preferably, the inner side wall of the push fork member 21 is equidistantly formed with a plurality of positioning grooves 26 matched with the positioning blocks 15 along the length direction, the positioning grooves 26 are aligned with the positioning blocks 15, and after the positioning grooves 26 of the push fork member 21 are matched with the positioning blocks 15 of the tin-dipping mold 14 to be clamped, the tin-dipping mold 14 can be driven to advance along the transfer platform 12.

Preferably, the number of the tin-dipping dies 14 is a plurality, two adjacent tin-dipping dies 14 are equidistantly arranged, when the positioning grooves 26 of the fork members 21 are matched with the positioning blocks 15 of the tin-dipping dies 14, all tin-dipping dies 14 are simultaneously matched with the fork members 21, after the fork members 21 advance by the distance of one tin-dipping die 14, the corresponding tin-dipping dies 14 correspond to the tin-dipping mechanism 4 and the wire cutting mechanism 5, correspondingly tin-dipping and wire cutting are carried out, then the fork members 21 are withdrawn, and the next procedure is carried out, and the process is repeated.

The tin-dipping mold 14 is provided with a plurality of mold grooves 16 for positioning coils at intervals along the length direction, the bottom of the mold groove 16 is provided with a through groove 17 for exposing pins, the coils needing tin-dipping are put into the mold groove 16 of the tin-dipping mold 14, and the pins needing tin-dipping pass through the through groove 17 to be exposed downwards and can be aligned with the tin-dipping groove 43.

The conveying platform 3 is arranged above the conveying platform 12, the conveying platform 3 comprises a pair of conveying plates 31 which are arranged at intervals, conveying belts 32 are arranged on the two conveying plates 31 along the length, a through notch 33 for the tin-dipping dies 14 to drop to the conveying platform 12 is arranged at one end of the conveying plates 31, a plurality of tin-dipping dies 14 are placed into the conveying platform 3, and the conveying plates are supported by the two conveying belts 32 and are conveyed to the through notch 33 at one end, so that the tin-dipping dies can drop to the conveying platform 12 one by one.

The fixed plates 34 are respectively installed at two ends between the two conveying plates 31, wherein the fixed plates 34 close to the through notch 33 are provided with top telescopic members 35, the driving ends of the top telescopic members 35 are provided with stop plates 36, the supporting bars 13 of the transfer platform 12 are provided with lifting rods 38 capable of lifting, the lifting rods 38 are vertically aligned with the through notch 33, when the tin-immersing mould 14 is prevented from entering the transfer platform 12 through the notch 33, the top telescopic members 35 drive the stop plates 36 to extend out, the tin-immersing mould 14 is shielded through the notch 33, and the time for entering the transfer platform 12 can be controlled.

The top telescoping member 35 is a telescoping cylinder.

The supporting bar 13 is provided with a driving groove 38, the bottom of the driving groove 38 is provided with a lifting cylinder, the bottom of the lifting rod 38 is connected with the driving end of the lifting cylinder, the top of the lifting rod 38 is provided with a supporting block for supporting the tin-dipping mould 14, when the tin-dipping mould 14 is required to enter the transferring platform 12, the top telescopic piece 35 drives the stop plate 36 to retract, then the lifting rod 38 passes through the driving groove 38 and props against the tin-dipping mould 14 through the notch 33 and then descends to the transferring platform 12, so that the tin-dipping mould 14 enters the transferring platform 12 from the conveying platform 3, collision of the tin-dipping mould 14 can be prevented, and the transferring stability is improved.

When the transfer mold moves transversely to be vertically aligned with the tin dipping mechanism 4, the tin dipping mechanism 4 works, the tin dipping mechanism 4 comprises a pair of tin dipping lifting cylinders 41 which are arranged in a gap, tin dipping lifting tables 42 are arranged at the tops of the tin dipping lifting cylinders 41, tin dipping grooves 43 are arranged on the tin dipping lifting tables 42, the tin dipping lifting tables 42 are tin dipping platforms, the tin dipping mechanism 4 further comprises tin scraping cutters 44 and tin scraping driving pieces for driving the tin scraping cutters 44 to move along the length direction of the tin dipping grooves 43, the tin scraping driving pieces comprise tin scraping supporting columns 45 which are arranged longitudinally, tin scraping telescopic pieces 46 which are telescopic along the length direction of the tin dipping grooves 43 are arranged on the tin scraping supporting columns 45, tin scraping bases 47 are arranged on driving ends of the tin scraping telescopic pieces 46, and the tin scraping cutters 44 are arranged on the tin scraping bases 47. In this embodiment, the tin scraping driving member works, the tin scraping telescopic member 46 drives the tin scraping seat 47 to move along the length direction of the tin scraping groove, the tin scraping knife 44 installed on the tin scraping seat 47 scrapes the tin liquid level in the tin dipping groove 43, and then the tin dipping bottom lifting table is lifted under the driving of the lifting cylinder until the tin water in the tin dipping groove 43 is over the position where the coil needs tin dipping, so that tin dipping is completed.

Preferably, the tin scraping telescopic piece 46 is a telescopic cylinder, and the lifting table at the bottom of the tin dipping is driven by a lifting cylinder arranged on the machine base 1 to realize lifting.

The wicking mould 14 after wicking is completed moves to the upper side of the thread cutting mechanism 5 under the drive of the forward pushing mechanism 2, a thread clamping assembly 50 capable of lifting is arranged below the thread cutting platform 52, the thread clamping assembly comprises a first thread cutting plate 54 and a second thread cutting plate 55 slidably mounted on the top of the first thread cutting plate 54, a plurality of rear cutters 57 are mounted on the side edge of the first thread cutting plate 54 at intervals along the length direction, a plurality of front cutters 56 are mounted on the side edge of the second thread cutting plate 55 at intervals along the length direction, and the rear cutters 57 and the front cutters 56 are staggered in the vertical direction. The thread cutting platform 52 is lifted under the driving of the lifting air cylinder, so that the stitch to be cut is positioned between the front cutters 56 and the rear cutters 57 which are arranged in a staggered manner, the bottom of the stitch is clamped by the thread clamping assembly 50, and then the second thread cutting plate 55 moves to drive the front cutters 56 to be close to the rear cutters 57, so that the redundant stitch positioned between the front cutters 56 and the rear cutters 57 is cut.

Preferably, the thread clamping assembly 50 comprises a thread clamping platform driven by a lifting cylinder to move up and down, a pair of clamping plates 51 capable of moving open and close are arranged on the thread clamping platform, and the clamping plates 51 are driven by a finger cylinder to open and close so as to clamp the bottoms of the stitches.

The wire cutting platform 52 is provided with a first telescopic piece 58 with the telescopic direction parallel to the moving direction of the tin-dipping mould 14, the driving end of the first telescopic piece 58 is provided with a wire cutting bottom plate 53, the first wire cutting bottom plate 54 is arranged at the top of the wire cutting bottom plate 53, the wire cutting bottom plate 53 is provided with a second telescopic piece 59 with the telescopic direction perpendicular to the first telescopic piece 58, and the driving end of the second telescopic piece 59 is connected with the second wire cutting bottom plate 55; the first telescopic piece 58 can drive the first thread trimming plate 54 to transversely move so as to adjust the transverse positions of the rear cutter 57 and the front cutter 56 to align the stitch; the second telescopic driving piece drives the front cutter 56 to move close to the rear cutter 57, so that stitch cutting is realized.

In view of the above, the present utility model has the above-mentioned excellent characteristics, so that it can be used to improve the performance and practicality of the prior art, and is a product with great practical value.

The foregoing is merely exemplary of the present utility model, and those skilled in the art should not be considered as limiting the utility model, since modifications may be made in the specific embodiments and application scope of the utility model in light of the teachings of the present utility model.

Claims (10)

1. The coil pin cutting test pin dipping machine comprises a machine base, wherein a transfer mechanism is arranged at the top of the machine base and comprises a transfer platform and a forward pushing mechanism for moving the coil forward along the transfer platform, and the coil pin cutting test pin dipping machine is characterized in that: a wire cutting mechanism and a tin dipping mechanism are arranged below the transfer platform, the transfer platform comprises a pair of supporting bars which are arranged in a clearance way, a tin dipping die for positioning the coil is arranged between the two supporting bars, and positioning blocks are formed at two ends of the tin dipping die; the front pushing mechanism comprises a fork pushing piece which can be clamped into the positioning block in a left-right and front-back moving manner and pushes the tin-immersing die forwards;

The thread cutting mechanism comprises a thread cutting platform capable of moving up and down on the machine base, and the thread cutting platform is provided with a thread cutting assembly; the tin-dipping mechanism comprises a tin-dipping platform capable of moving up and down on the machine base, and the tin-dipping platform is provided with a tin-dipping tank for dipping the tin-dipping mould.

2. The coil pin cutting test pin dipping machine according to claim 1, wherein: the front pushing mechanism further comprises a front pushing support frame arranged on the outer side of the support bar, a transverse expansion piece which is arranged perpendicular to the moving direction of the tin-dipping die is arranged at the top of the front pushing support frame, a driving bar which is parallel to the support bar is arranged on the transverse expansion piece, a front expansion piece and a rear expansion piece are arranged on the driving bar along the length direction of the driving bar, and the driving ends of the front expansion piece and the rear expansion piece are connected with the push fork piece.

3. The coil pin cutting test pin dipping machine according to claim 2, wherein: the inner side wall of the push fork piece is provided with a plurality of positioning grooves matched with the positioning blocks in an equidistant mode along the length direction.

4. A coil pin cutting test pin dipping machine according to claim 3 wherein: the tin-dipping die is provided with a plurality of die grooves for positioning coils at intervals along the length direction, and the bottom of the die groove is provided with a through groove for exposing pins.

5. The coil pin cutting test pin dipping machine according to claim 1, wherein: the conveying platform is arranged above the transfer platform and comprises a pair of conveying plates which are arranged at intervals, conveying belts are arranged on the two conveying plates along the length of the conveying plates, and a through notch for the tin-immersing die to fall down to the transfer platform is formed in one end of each conveying plate.

6. The coil pin cutting test pin dipping machine according to claim 5, wherein: the fixed plates are respectively arranged at two ends between the two conveying plates, wherein a top expansion piece is arranged near the fixed plate passing through the notch, a stop plate is arranged at the driving end of the top expansion piece, a lifting rod capable of lifting is arranged on a supporting bar of the transfer platform, and the lifting rod is vertically aligned with the notch.

7. The coil pin cutting test pin dipping machine according to claim 6, wherein: the supporting bar is provided with a driving groove, the bottom of the driving groove is provided with a lifting cylinder, the bottom of the lifting rod is connected with the driving end of the lifting cylinder, and the top of the lifting rod is provided with a supporting block for supporting the tin-immersing die.

8. The coil pin cutting test pin dipping machine according to claim 1, wherein: the tin dipping mechanism comprises a pair of tin dipping lifting cylinders which are arranged in a gap, a tin dipping lifting table is arranged at the top of each tin dipping lifting cylinder, each tin dipping tank is arranged on the tin dipping lifting table, the tin scraping mechanism further comprises a tin scraping knife and a tin scraping driving piece which drives the tin scraping knife to move along the length direction of the tin dipping tank, each tin scraping driving piece comprises a tin scraping supporting upright column which is arranged longitudinally, each tin scraping supporting upright column is provided with a tin scraping telescopic piece which stretches along the length direction of the tin dipping tank, the driving end of each tin scraping telescopic piece is provided with a tin scraping seat, and each tin scraping knife is arranged on each tin scraping seat.

9. The coil pin cutting test pin dipping machine according to claim 8, wherein: the utility model discloses a wire cutting machine, including cutting line platform, cutting line platform below is provided with the clamp line subassembly that can elevating movement, cuts line subassembly and includes first cutting line board and slidable mounting at the second cutting line board at first cutting line board top, and first cutting line board side is along length direction interval installation a plurality of back cutters, and second cutting line board side is along length direction interval installation a plurality of preceding cutters, back cutter and preceding cutter staggered arrangement in vertical direction.

10. The coil pin cutting test pin dipping machine according to claim 9, wherein: the wire cutting platform is provided with a first telescopic piece, the telescopic direction of which is parallel to the moving direction of the tin-dipping mould, the driving end of the first telescopic piece is provided with a wire cutting bottom plate, the first wire cutting bottom plate is arranged at the top of the wire cutting bottom plate, the wire cutting bottom plate is provided with a second telescopic piece, the telescopic direction of which is perpendicular to the first telescopic piece, and the driving end of the second telescopic piece is connected with the second wire cutting bottom plate.