CN218275485U - Circuit assembly mechanism of insurance terminal - Google Patents

Abstract

The utility model relates to a circuit assembly mechanism of insurance terminal, include: the device comprises a feeding mechanism, a pre-assembling mechanism, a transplanting mechanism and an assembling mechanism, wherein the feeding mechanism is used for feeding a wire clamping body and a current bar and transferring the wire clamping body and the current bar to a pre-assembling station of the pre-assembling mechanism for pre-assembling; the transplanting mechanism transfers the pre-assembly of the wire clamping body and the current bar to an assembling mechanism for assembling; the transplanting mechanism comprises a material taking mechanism, and the material taking mechanism comprises a clamping jaw assembly so as to clamp the wire clamping body and the current bar pre-assembly; pre-positioning the assembly to achieve pre-positioning before assembly; and the rear positioning component realizes positioning after assembly, and during assembly, the pre-positioning component acts on the clamping jaw component in front of the clamping jaw component, and the rear positioning component acts on the clamping jaw component behind the clamping jaw component. Through the setting of pre-positioning assembly, back locating component, location earlier when the subassembly is assembled, the precision of equipment has been guaranteed to the mode that the back breaks away from, and the effectual clamping jaw that has avoided takes place the touching when breaking away from the built-up member, leads to shifting.

Description

Circuit assembly mechanism of insurance terminal

Technical Field

The utility model relates to the technical field, in particular to circuit assembly mechanism of insurance terminal.

Background

The circuit fuse terminal is an accessory product for realizing electrical connection, and can control the on-off of a circuit and protect the safety of a circuit board. With the higher and higher degree of industrial automation and the stricter and more precise industrial control requirements, the utilization rate of the circuit fuse terminal is higher and higher. The rapid development of the electronic industry, the application range of the circuit fuse terminal is more and more.

The existing circuit fuse terminal can not be completely assembled by automatic equipment, and the assembly of a current bar and a wire clamping body also needs manual auxiliary operation, so that the assembly efficiency is greatly influenced; during operation, the assembled current bar and the wire clamping body are placed completely, and touch is easily generated at the moment of separation, so that the assembly part is shifted, and the precision is influenced. The utility model discloses a research and development of the automatic kludge of short lesson of circuit insurance is carried out to solve the problem that exists among the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the purpose is: a circuit assembling mechanism of fuse terminal is provided to solve the problems in the background art.

The technical scheme of the utility model is that: a circuit assembly mechanism for a fuse terminal comprising: the device comprises a feeding mechanism, a pre-assembling mechanism, a transplanting mechanism and an assembling mechanism, wherein the feeding mechanism is used for feeding a wire clamping body and a current bar and transferring the wire clamping body and the current bar to a pre-assembling station of the pre-assembling mechanism for pre-assembling; the transplanting mechanism transfers the pre-assembly of the wire clamping body and the current bar to an assembling mechanism for assembling;

the transplanting mechanism comprises a material taking mechanism, and the material taking mechanism comprises a clamping jaw assembly so as to clamp the wire clamping body and the current bar pre-assembly; pre-positioning the assembly to realize pre-positioning before assembly; and the rear positioning component realizes positioning after assembly, and during assembly, the pre-positioning component acts on the clamping jaw component in front of the clamping jaw component, and the rear positioning component acts on the clamping jaw component behind the clamping jaw component.

Preferably, the feeding mechanism comprises a wire clamping body feeding mechanism and a current bar feeding mechanism, the wire clamping body feeding mechanism comprises a first support, the upper end of the first support is connected with a first material carrying plate through a first sliding rail, the first support is further provided with a first air cylinder, and the first material carrying plate and the first air cylinder are driven to reciprocate along the first sliding rail;

the first support is further provided with a first feeding hole and a second cylinder, the first material loading plate is provided with a first material storage groove, when the first material loading plate is at the ascending end of the first slide rail, the first material storage groove is connected with the first feeding hole, and when the first material loading plate is at the descending end of the first slide rail, the first material storage groove is connected with the piston end of the second cylinder.

Preferably, the current bar feeding mechanism comprises a second support, a feeding assembly and a rotating assembly are arranged at the upper end of the second support, the feeding assembly comprises a second material carrying plate and a first material pushing assembly, a second material inlet and a first channel are formed in the second material carrying plate, and the current bar enters the first channel through the second material inlet; the first material pushing assembly comprises a first material pushing rod matched with the first channel and a third cylinder for driving the first material pushing plate to move in the first channel;

the rotating assembly comprises a material loading block and a rotating cylinder for driving the material loading block to rotate; the second push rod and a fourth cylinder for driving the second push rod to move;

the material loading block is provided with a second material storage groove, and when the rotary cylinder drives the material loading block to move upwards, the second material storage groove is connected with the first channel; when the rotary cylinder drives the loading block to move downwards, the second material storage groove is connected with the second push rod.

Preferably, the preassembly mechanism comprises a third channel connected with the first material storage tank and a fourth channel connected with the second material storage tank, and the third channel and the fourth channel are intersected at the preassembly station;

the pre-installation mechanism further comprises a jacking assembly and a first positioning assembly, and the jacking assembly is arranged at the lower end of the pre-installation station; the first positioning assembly comprises a first positioning rod and a fifth cylinder for driving the first positioning rod to stretch into or be far away from the preassembly station.

Preferably, the upper end of the preassembly station is further provided with a third material loading plate, a first profiling groove is formed in the third material loading plate, and the jacking assembly can drive the preassembly of the current bar and the wire clamping body to enter the first profiling groove.

Preferably, the assembling mechanism comprises a carrying platform and a second positioning assembly, the second positioning assembly comprises a third support and a fourth support connected with the third support through a second sliding rail which is vertically arranged, and the fourth support is also connected with the third support through a return spring; and a fourth material loading plate is arranged on the fourth support, the fourth material loading plate is arranged right above the carrying platform, and a second profiling groove is formed in the fourth material loading plate.

Preferably, the transplanting mechanism further comprises a moving module, and the material taking mechanism is connected with the moving module.

Preferably, the material taking mechanism further comprises a fixing plate, and the clamping jaw assembly, the pre-positioning assembly and the rear positioning assembly are all arranged on the fixing plate;

the clamping jaw assembly comprises a first clamping jaw and a second clamping jaw, and the first clamping jaw and the second clamping jaw are used for clamping a wire clamping body and a current bar in the pre-assembly respectively;

the pre-positioning assembly comprises a second positioning rod, the upper end part of the second positioning rod penetrates through the fixing plate, and a first spring is sleeved on the second positioning rod;

the rear positioning assembly comprises a third positioning rod, and the upper end part of the third positioning rod penetrates through the fixed plate to be connected with a pressure sensor arranged at the upper end of the fixed plate; and the third positioning rod is also connected with a fourth positioning rod.

Compared with the prior art, the utility model has the advantages that:

(1) The automatic assembly of the wire clamping body and the current bar is realized, and the assembly efficiency and consistency are greatly improved;

(2) Through the setting of pre-positioning assembly, back locating component, earlier the location when the subassembly is assembled, the precision of equipment has been guaranteed to the mode that the back breaks away from, and the effectual clamping jaw that has avoided takes place the touching when breaking away from the assembly spare, leads to shifting.

Drawings

The invention will be further described with reference to the following drawings and examples:

fig. 1 is a schematic structural diagram of a circuit assembly mechanism of the fuse terminal of the present invention;

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

fig. 3 is a schematic structural view of the material taking mechanism of the present invention;

fig. 4 is a schematic structural view of the rear positioning assembly and the pre-positioning assembly of the present invention;

fig. 5 is a schematic structural diagram 1 of the feeding of the present invention;

FIG. 6 is an enlarged schematic view of the structure at A in FIG. 4;

fig. 7 is a schematic structural diagram 2 of the feeding mechanism of the present invention;

fig. 8 is a schematic structural view of the current bar feeding mechanism of the present invention;

fig. 9 is a schematic structural view of the first material carrying plate of the present invention;

fig. 10 is a schematic structural view of the first positioning assembly according to the present invention;

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

fig. 12 is a schematic view of the current bar and clamp package according to the present invention;

fig. 13 shows a schematic view of the assembly of the package with the housing.

Wherein: the feeding mechanism 1, the wire clamping body feeding mechanism 11, the first support 111, the first feeding hole 1111, the second cylinder 1112, the first slide rail 112, the first material carrying plate 113, the first material storage groove 1131, the first cylinder 114, the current bar feeding mechanism 12, the second support 121, the feeding assembly 122, the second material carrying plate 1221, the second feeding hole 1222, the first channel 1223, the first material pushing assembly 1224, the first material pushing rod 1225, the third cylinder 1226, the rotating assembly 123, the material carrying block 1231, the rotating cylinder 1232, the second material pushing rod 1233, the fourth cylinder 1234 and the second material storage groove 1235;

the pre-assembling mechanism 2, a pre-assembling station 2a, a third channel 21, a fourth channel 22, a jacking assembly 23, a first positioning assembly 24, a first positioning rod 241, a fifth cylinder 242, a third material loading plate 25 and a first profiling groove 251;

the transplanting mechanism 3, a clamping jaw assembly 31, a first clamping jaw 311, a second clamping jaw 312, a pre-positioning assembly 32, a second positioning rod 321, a first spring 322, a rear positioning assembly 33, a third positioning rod 331, a fourth positioning rod 332, a pressure sensor 333, a fixing plate 34 and a moving module 35;

the assembling mechanism 4, the carrier 41, the second positioning assembly 42, the third support 421, the second slide rail 422, the fourth support 423, the return spring 424, the fourth material carrying plate 425 and the second contour groove 4251;

a wire clamping body 5 and a current bar 6.

Detailed Description

The following detailed description is made in conjunction with specific embodiments of the present invention:

as shown in fig. 1, a circuit assembling mechanism of a fuse terminal includes: the device comprises a feeding mechanism 1, a pre-assembling mechanism 2, a transplanting mechanism 3 and an assembling mechanism 4, wherein the feeding mechanism 1 is used for feeding a wire clamping body and a current bar and transferring the wire clamping body and the current bar to a pre-assembling station 2a of the pre-assembling mechanism 2 for pre-assembling; the transplanting mechanism 3 transfers the pre-assembly of the wire clamping body and the current bar to the assembling mechanism 4 for assembling.

As shown in fig. 5 to 10, the feeding mechanism 1:

the feeding mechanism 1 comprises a wire clamping body feeding mechanism 11 and a current bar feeding mechanism 12, the wire clamping body feeding mechanism 11 comprises a first support 111, the upper end of the first support 111 is connected with a first material carrying plate 113 through a first sliding rail 112, the first support 111 is further provided with a first air cylinder 114, and the first material carrying plate 113 and the first material carrying plate are driven by the first air cylinder 114 to reciprocate along a first sliding rail 112;

the first bracket 111 is further provided with a first feeding hole 1111 and a second cylinder 1112, the first material carrying plate 113 is provided with a first material storage groove 1131, when the first material carrying plate 113 is at the ascending end of the first slide rail 112, the first material storage groove 1131 is connected with the first feeding hole 1111, and when the first material carrying plate 113 is at the descending end of the first slide rail 112, the first material storage groove 1131 is connected with the piston end of the second cylinder 1112.

In this embodiment, the clamping body can be loaded through the vibrating disk, and the straight vibrating track of the vibrating disk is connected with the first feed port 1111. The first material carrying plate 113 is initially positioned at the ascending end of the first slide rail 112; the wire clamping body enters a first material storage groove 1131 through a first feeding hole 1111; the first cylinder 114 drives the first material carrying plate 113 to move to the descending end along the first slide rail 112; the second cylinder 1112 drives the wire clamp in the first storing groove 1131 to enter the pre-loading station 2a through the third channel.

When the first material carrying plate 113 runs to the descending end, the plate body of the first material carrying plate is located at the first feeding hole 1111, so that the first feeding hole 1111 can be blocked, and the wire clamping body is prevented from continuously entering.

The current bar feeding mechanism 12 comprises a second support 121, a feeding assembly 122 and a rotating assembly 123 are arranged at the upper end of the second support 121, the feeding assembly 122 comprises a second material loading plate 1221 and a first material pushing assembly 1224, a second material loading plate 1221 is provided with a second material inlet 1222 and a first channel 1223, and the current bar enters the first channel 1223 through the second material inlet 1222; the first pushing assembly 1224 includes a first pushing rod 1225 engaged with the first passage 1223, and a third cylinder 1226 for driving the first pushing rod 1225 to move in the first passage 1223;

the rotating assembly 123 comprises a material loading block 1231 and a rotating cylinder 1232 for driving the material loading block 1231 to rotate; a second push rod 1233, and a fourth cylinder 1234 for driving the second push rod 1233 to move;

the loading block 1231 is provided with a second material storage groove 1235, and when the rotating cylinder 1232 drives the loading block 1231 to move upwards, the second material storage groove 1235 is connected with the first passage 1223; when the rotating cylinder 1232 drives the material loading block 1231 to move downwards, the second material storage groove 1235 is connected to the second push rod 1233.

In this embodiment, the current bar can be loaded through the vibration plate, and the straight vibration track of the vibration plate is connected to the second feeding hole 1222. Initially, the loading block 1231, the second storage groove 1235 is connected to the first passage 1223; the current bar enters the first passage 1223 via the second feed opening 1222; the third cylinder 1226 drives the first pushing rod 1225 to push the current bar in the first channel 1223 into the second storage groove 1235; the rotating cylinder 1232 drives the material loading block 1231 to rotate 90 degrees until the second material storage groove 1235 is connected with the second push rod 1233; the fourth cylinder 1234 drives the second push rod 1233 to push the current bar in the second storage groove 1235 into the preassembly station 2a through the fourth channel, and the preassembly with the wire clamping body is completed.

When the first pushing rod 1225 pushes the current bars in the first passage 1223 to enter the second storage groove 1235, the rod body of the first pushing rod 1225 is located at the second feed port 1222 to block the second feed port 1222, so that the current bars are prevented from being continuously fed. When the wire clamping body and the current bar are preassembled, one end of the current bar is inserted into the wire clamping body, and therefore, when the wire clamping body is arranged at the preassembly station 2a, the fourth cylinder 1234 is started to drive the second push rod to push the current bar into the preassembly station 2a. This operation can be achieved by providing sensors at corresponding positions in the pre-assembly station 2a.

As shown in fig. 5 to 7, the preassembly mechanism 2:

the pre-assembly mechanism 2 comprises a third channel 21 connected with the first material storage groove 1131 and a fourth channel 22 connected with the second material storage groove 1235, and the third channel 21 and the fourth channel 22 are intersected at a pre-assembly station 2a;

the pre-assembling mechanism 2 further comprises a jacking assembly 23 and a first positioning assembly 24, wherein the jacking assembly 23 is arranged at the lower end of the pre-assembling station 2a; the first positioning member 24 includes a first positioning rod 241 and a fifth cylinder 242 that drives the first positioning rod 241 to extend into or away from the preassembly station 2a.

The upper end of the preassembly station 2a is further provided with a third material loading plate 25, the third material loading plate 25 is provided with a first contour groove 251, and the jacking assembly 23 can drive the preassembly of the current bar and the wire clamping body to enter the first contour groove 251.

In this embodiment, when the current bar enters the preassembly station 2a, the first positioning rod 241 is in an extended state, which guides the current bar to ensure that the current bar and the wire clamping body are accurately preassembled, and after the preassembly is completed, the first positioning rod 241 is driven by the fifth cylinder 242 to retract; the jacking assembly 23 drives the package up until the package enters the first contour groove 251.

Wherein the jacking assembly 23 can be driven by an air cylinder; the first profile groove 251 is in the shape of a pre-assembly of the profile current bar and the wire clamping body, so that the assembly state of the pre-assembly cannot be changed when the pre-assembly is jacked into the first profile groove 251, and the accuracy of subsequent assembly is ensured.

As shown in fig. 11, the assembly mechanism 4:

the assembling mechanism 4 comprises a carrier 41 and a second positioning assembly 42, the second positioning assembly 42 comprises a third support 421, and a fourth support 423 connected through a second slide rail 422 arranged vertically, and the fourth support 423 is further connected with the third support 421 through a return spring 424; the fourth support 423 is provided with a fourth material carrying plate 425, the fourth material carrying plate 425 is arranged right above the carrier 41, and the fourth material carrying plate 425 is provided with a second contour groove 4251.

In this embodiment, the safety terminal housing with assembly is disposed on the carrier 41, and the carrier 41 may be provided with corresponding clamping jaws and positioning pins to fix the housing. The fourth material carrying plate 425 can move vertically downwards along with the fourth support 423 until just pressing against the shell, which further prevents the shell from deviating during assembly; the return spring 424 generates an upward moving driving force to the fourth supporter 423 so that the fourth material loading plate 425 moves away from the housing.

As shown in fig. 2 to 4, the transplanting mechanism 3:

the transplanting mechanism 3 comprises a material taking mechanism which comprises a clamping jaw assembly 31 so as to clamp a wire clamping body and a current bar pre-assembly; pre-positioning assembly 32 to achieve pre-positioning prior to assembly; and the rear positioning component 33 realizes positioning after assembly, and during assembly, the pre-positioning component 32 acts in front of the clamping jaw component 31, and the rear positioning component 33 acts behind the clamping jaw component 31. Transplanting mechanism 3 still includes removal module 35, and material taking mechanism is connected with removal module 35.

The material taking mechanism comprises a fixing plate 34, and the clamping jaw assembly 31, the pre-positioning assembly 32 and the rear positioning assembly 33 are all arranged on the fixing plate 34;

the clamping jaw assembly 31 comprises a first clamping jaw 311 and a second clamping jaw 312, and the first clamping jaw and the second clamping jaw respectively clamp a wire clamping body and a current bar in the pre-assembly; the pre-positioning assembly 32 comprises a second positioning rod 321 with an upper end part penetrating through the fixing plate 34, and a first spring 322 is sleeved on the second positioning rod 321; the rear positioning assembly 33 comprises a third positioning rod 331, the upper end part of the third positioning rod 331 penetrates through the fixing plate 34 and is connected with a pressure sensor 333 arranged at the upper end of the fixing plate 34; the third positioning rod 331 is also connected to a fourth positioning rod 332.

In this embodiment, when the pre-assembly is clamped, the movable module 35 drives the material taking mechanism to move downward, the third positioning rod 331 and the fourth positioning rod 332 respectively abut against the wire clamping body and the current bar at the same time and then stop, the material taking mechanism continues to move downward, at this time, the third positioning rod 331 and the fourth positioning rod 332 move upward relative to the fixed plate 34, and the pressure sensor is touched by the third positioning rod 331, so that the material taking mechanism stops when the third positioning rod 331 senses the material taking mechanism; the first clamping jaw 311 and the second clamping jaw 312 simultaneously clamp the wire clamping body and the current bar respectively; the moving module 35 drives the material taking mechanism to move upwards, translate to the position right above the fourth material carrying plate 425, and then move downwards;

during assembly, the second positioning rod 321 firstly abuts against the fourth support 423 and drives the fourth support 423 to move downwards until the lower end of the fourth material carrying plate 425 abuts against the shell; the material taking mechanism continues to move downwards, at this time, the second positioning rod 321 moves upwards relative to the fixing plate 34, and the first spring 322 is compressed; the jaw assembly 31 continues downwards and through the second cam 4251 the subassembly stops after assembly with the housing; first jaw 311 and second jaw 312 open, releasing the package;

after the assembly is completed, the moving module 35 drives the material taking mechanism to move upwards, and the clamping jaw assembly 31 is separated from the pre-assembly firstly; the third positioning rod 331 and the fourth positioning rod 332 move downwards relative to the fixing plate 34 to be reset and are separated from the pre-assembly; accordingly, the first spring 322 drives the second positioning rod 321 to return, the fourth support 423 moves upward to return under the action of the return spring 424, and the fourth material carrying plate 425 is separated from the housing.

Wherein, the pressure sensor 333 may also have an elastic connection between the third positioning rod, and the third positioning rod has a downward elastic driving force when moving upward relative to the fixing plate; the pre-positioning assembly 32 may be positioned at 2 to ensure stability when it is pressed down on the fourth stent.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable those skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. It is obvious to a person skilled in the art that the invention is not limited to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention, and that the embodiments are therefore to be considered in all respects as exemplary and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (8)

1. The utility model provides a circuit assembly mechanism of insurance terminal which characterized in that: the method comprises the following steps: the device comprises a feeding mechanism, a pre-assembling mechanism, a transplanting mechanism and an assembling mechanism, wherein the feeding mechanism is used for feeding a wire clamping body and a current bar and transferring the wire clamping body and the current bar to a pre-assembling station of the pre-assembling mechanism for pre-assembling; the transplanting mechanism transfers the pre-assembly of the wire clamping body and the current bar to an assembling mechanism for assembling;

the transplanting mechanism comprises a material taking mechanism, and the material taking mechanism comprises a clamping jaw assembly so as to clamp the wire clamping body and the current bar pre-assembly; pre-positioning the assembly to achieve pre-positioning before assembly; and the rear positioning component realizes positioning after assembly, and during assembly, the pre-positioning component acts on the clamping jaw component in front of the clamping jaw component, and the rear positioning component acts on the clamping jaw component behind the clamping jaw component.

2. The circuit assembling mechanism of an insurance terminal of claim 1, wherein: the feeding mechanism comprises a wire clamping body feeding mechanism and a current bar feeding mechanism, the wire clamping body feeding mechanism comprises a first support, the upper end of the first support is connected with a first material carrying plate through a first sliding rail, the first support is also provided with a first air cylinder, and the first material carrying plate and the first air cylinder are driven to reciprocate along the first sliding rail;

the first support is further provided with a first feeding hole and a second cylinder, the first material loading plate is provided with a first material storage groove, when the first material loading plate is at the ascending end of the first slide rail, the first material storage groove is connected with the first feeding hole, and when the first material loading plate is at the descending end of the first slide rail, the first material storage groove is connected with the piston end of the second cylinder.

3. The circuit assembling mechanism of an arming terminal of claim 2, wherein: the current bar feeding mechanism comprises a second support, a feeding assembly and a rotating assembly are arranged at the upper end of the second support, the feeding assembly comprises a second material carrying plate and a first material pushing assembly, a second feeding hole and a first channel are formed in the second material carrying plate, and a current bar enters the first channel through the second feeding hole; the first material pushing assembly comprises a first material pushing rod matched with the first channel and a third cylinder for driving the first material pushing plate to move in the first channel;

the rotating assembly comprises a material loading block and a rotating cylinder for driving the material loading block to rotate; the second push rod and a fourth cylinder for driving the second push rod to move;

a second material storage groove is formed in the material loading block, and when the rotating cylinder drives the material loading block to move upwards, the second material storage groove is connected with the first channel; when the rotary cylinder drives the loading block to move downwards, the second material storage groove is connected with the second push rod.

4. The circuit assembling mechanism of an insurance terminal of claim 3, wherein: the preassembly mechanism comprises a third channel connected with the first material storage groove and a fourth channel connected with the second material storage groove, and the third channel and the fourth channel are intersected at a preassembly station;

the pre-installation mechanism further comprises a jacking assembly and a first positioning assembly, and the jacking assembly is arranged at the lower end of the pre-installation station; the first positioning assembly comprises a first positioning rod and a fifth cylinder for driving the first positioning rod to stretch into or be far away from the preassembly station.

5. The circuit assembling mechanism of an insurance terminal of claim 4, wherein: the upper end of the preassembly station is further provided with a third material loading plate, a first profile groove is formed in the third material loading plate, and the jacking assembly can drive the current bar and the preassembled part of the wire clamping body to enter the first profile groove.

6. The circuit assembling mechanism of an insurance terminal of claim 1, wherein: the assembling mechanism comprises a carrying platform and a second positioning assembly, the second positioning assembly comprises a third support and a fourth support connected through a second sliding rail which is vertically arranged, and the fourth support is also connected with the third support through a return spring; and a fourth material carrying plate is arranged on the fourth support, the fourth material carrying plate is arranged right above the carrying platform, and a second profiling groove is formed in the fourth material carrying plate.

7. The circuit assembling mechanism of an insurance terminal of claim 2, wherein: the transplanting mechanism further comprises a moving module, and the material taking mechanism is connected with the moving module.

8. The circuit assembling mechanism of an insurance terminal of claim 7, wherein: the material taking mechanism further comprises a fixed plate, and the clamping jaw assembly, the pre-positioning assembly and the rear positioning assembly are all arranged on the fixed plate;

the clamping jaw assembly comprises a first clamping jaw and a second clamping jaw, and the first clamping jaw and the second clamping jaw are used for clamping a wire clamping body and a current bar in the pre-assembly respectively;

the pre-positioning assembly comprises a second positioning rod, the upper end part of the second positioning rod penetrates through the fixing plate, and a first spring is sleeved on the second positioning rod;

the rear positioning assembly comprises a third positioning rod, and the upper end part of the third positioning rod penetrates through the fixed plate to be connected with a pressure sensor arranged at the upper end of the fixed plate; and the third positioning rod is also connected with a fourth positioning rod.

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