CN218908928U

CN218908928U - Terminal feeding machine

Info

Publication number: CN218908928U
Application number: CN202222999610.XU
Authority: CN
Inventors: 陈韬
Original assignee: Kunshan Maofeng Electric Co ltd
Current assignee: Kunshan Maofeng Electric Co ltd
Priority date: 2022-11-11
Filing date: 2022-11-11
Publication date: 2023-04-25
Anticipated expiration: 2032-11-11

Abstract

The utility model discloses a terminal feeding machine, which comprises: the feeding machine frame is provided with a workbench above; at least one group of sliding rail components, wherein the sliding rail components are arranged on the workbench; the feeding tool is connected with the sliding rail assembly in a sliding mode through a group of sliding blocks, and a placing seat for placing the terminal is arranged on the feeding tool. According to the terminal feeding machine, terminals are placed in the placing seat in batches, so that the feeding tool moves to the designated position along the sliding rail assembly on the workbench, batch feeding of the terminals is realized, the feeding speed of the terminals in the die is effectively ensured, the workload of workers is reduced, and the production requirement is better met.

Description

Terminal feeding machine

Technical Field

The utility model belongs to the technical field of injection mold processing, and particularly relates to a terminal feeding machine.

Background

Along with the increasing requirements of automobile electronic products on water resistance and air tightness, the traditional pin assembly mode is eliminated by steps, an Insert-molding process is adopted instead, and the metal terminal mating side and the PCB side of the common automobile electronic molding product are required to be implanted with mold cores and then to participate in molding.

The background art 0002 section of the automatic terminal implantation in-mold molding equipment of the patent name of Chinese patent No. 201821658230.7 clearly records that in the current production process of injection molding terminals, most of terminals are manually placed in a mold, so that people can see that the manual feeding does exist in the prior art, however, because the number of the terminals required to be installed in the mold is large, the terminals are manually placed in the mold, only one terminal can be placed each time, the workload of workers is increased, and the terminal feeding speed is influenced, so that the existing terminal feeding technology still needs to be improved.

Disclosure of Invention

The utility model aims to: in order to overcome the defects, the utility model aims to provide the terminal feeding machine, which is characterized in that terminals are placed in the placing seat in batches, so that the feeding tool moves to a designated position along the sliding rail assembly on the workbench, batch feeding is realized on the terminals, the feeding speed of the terminals in the die is effectively ensured, and the workload of workers is reduced.

The technical scheme is as follows: in order to achieve the above object, the present utility model provides a terminal feeding machine comprising:

the feeding machine frame is provided with a workbench above;

at least one group of sliding rail components, wherein the sliding rail components are arranged on the workbench;

the feeding tool is connected with the sliding rail assembly in a sliding mode through a group of sliding blocks, and a placing seat for placing the terminal is arranged on the feeding tool. According to the terminal feeding machine, terminals are placed in the placing seat in batches, so that the feeding tool moves to the designated position along the sliding rail assembly on the workbench, batch feeding of the terminals is realized, the feeding speed of the terminals in the die is effectively ensured, the workload of workers is reduced, and the production requirement is better met.

Still include drive arrangement, drive arrangement includes a set of mount pad, belt pulley, conveyer belt and actuating mechanism, the mount pad is fixed in slide rail assembly both ends, just be equipped with the drive shaft on the mount pad, the belt pulley is located in the drive shaft, the conveyer belt winds on two belt pulleys, actuating mechanism locates one side of conveyer belt to be connected with the conveyer belt through the drive frame assembly.

The driving frame assembly comprises a driving frame body, an upper clamping plate is arranged on the driving frame body, a gap is formed between the upper clamping plate and the driving frame body, a conveyor belt below the belt pulley penetrates through the gap, and the feeding tool is close to one side of the driving device and connected with the conveyor belt above the belt pulley through a connecting assembly.

Further, the coupling assembling includes upper junction plate and lower grip block, the below of upper junction plate is located to lower grip block, and the screw fixation is passed through at both ends, and is equipped with the space between upper junction plate and the lower grip block, and the conveyer belt that is located the belt pulley top wears in the clearance.

Further, the material loading frock includes material loading frock board, thimble subassembly and jacking actuating mechanism, just be equipped with the opening on the material loading frock board, place the seat and locate the opening part to it is fixed with material loading frock board through the base, jacking actuating mechanism locates the below of material loading frock board, and through a set of spliced pole and material loading frock board fixed connection, the thimble subassembly is located between material loading frock board and the jacking actuating mechanism, just but the thimble subassembly is slideable with the spliced pole through a set of axle sleeve, just the thimble subassembly cooperatees with placing the seat. The jacking driving mechanism can drive the thimble assembly to move upwards, the terminal in the placing seat is ejected out through the thimble assembly, the terminal is ejected into the terminal clamping mechanism, and the terminal clamping mechanism is convenient to cooperate with the terminal clamping mechanism (the terminal clamping mechanism is not shown in the scheme).

Preferably, the thimble assembly comprises a thimble mounting plate and two groups of thimbles, the thimble mounting plate is connected with the connecting column through a group of shaft sleeves, and the thimbles are arranged on the thimble mounting plate.

Still further, place the seat and including placing seat body and locating plate, one side of placing the seat body is equipped with the recess, the locating plate is located in the recess perpendicularly, one side of placing the seat body is echelonment, and is equipped with first broach on it, locating plate upper portion is equipped with the second broach, first broach and second broach cooperate, be equipped with a set of first jacking hole and a set of second jacking hole on placing seat body and the locating plate respectively, two sets of thimble are relative with first jacking hole and second jacking hole respectively. The first jacking holes and the second jacking holes can play a certain guiding role on the two groups of ejector pins, so that the two groups of ejector pins can accurately and synchronously eject corresponding terminals.

Further preferably, the sliding rail assemblies are arranged in two groups, one side, far away from the upper clamping plate, of the driving frame body is provided with a vertical rotating plate, and one side of the vertical rotating plate is provided with a driving wheel.

Preferably, a groove is formed in one side, close to the driving frame assembly, of the feeding tool plate, and the driving wheel is arranged in the groove.

Still further preferably, the sliding rail assembly comprises a group of supporting seats, supporting sectional materials and sliding rails, the lower parts of the supporting seats are fixed with the workbench, two ends of the supporting sectional materials are arranged on the corresponding supporting seats, the sliding rails are arranged on the supporting sectional materials, a mounting frame is arranged between the two supporting sectional materials, a limiting column and a positioning column are arranged on the mounting frame, and the limiting column and the positioning column are matched with the feeding tooling plate. The setting of spacing post can inject the position that the material loading frock board removed on the slide rail, and the reference column inserts in the material loading frock board, can fix a position the material loading frock board, improves the stability of its feed.

The technical scheme can be seen that the utility model has the following beneficial effects:

1. according to the terminal feeding machine, terminals are placed in the placing seat in batches, so that the feeding tool moves to the designated position along the sliding rail assembly on the workbench, batch feeding of the terminals is realized, the feeding speed of the terminals in the die is effectively ensured, the workload of workers is reduced, and the production requirement is better met.

2. The feeding tool comprises a feeding tool plate, a thimble assembly and a jacking driving mechanism, wherein the jacking driving mechanism can drive the thimble assembly to move upwards, the terminal in the placing seat is ejected out through the thimble assembly, the terminal can smoothly enter the terminal taking mechanism, and meanwhile, the arrangement of the first jacking holes and the second jacking holes can play a certain guiding role on the two groups of thimbles, so that the terminal can accurately and synchronously eject the corresponding terminal.

3. According to the utility model, the position of the feeding tooling plate moving on the sliding rail can be limited by the arrangement of the limiting column, and the positioning column is inserted into the feeding tooling plate, so that the feeding tooling plate can be positioned, and the feeding stability of the feeding tooling plate is improved.

Drawings

FIG. 1 is a schematic view of a terminal feeder according to the present utility model;

FIG. 2 is a top view of the feeder of the present utility model;

FIG. 3 is a schematic installation diagram of a slide rail assembly, a loading tool and a driving device in the utility model;

FIG. 4 is a side view of a loading tool of the present utility model;

FIG. 5 is a schematic structural view of a feeding tooling in the present utility model;

FIG. 6 is a schematic view of a partial structure of a placement base according to the present utility model;

FIG. 7 is a schematic view of a drive rack assembly according to the present utility model;

FIG. 8 is a schematic view of the installation of the shield of the present utility model;

in the figure: the feeding machine comprises a feeding machine frame 41, a workbench 411, a sliding rail assembly 42, a feeding tool 43, a placing seat 44, a driving device 45, a connecting assembly 46, a terminal discharging box 48 and a protective cover 49;

the upper connecting plate 461, the lower clamping plate 462, the supporting seat 421, the supporting section 422, the sliding rail 423, the mounting frame 424, the limiting column 425, the positioning column 426, the feeding tooling plate 431, the thimble assembly 432, the jacking driving mechanism 433, the shaft sleeve 434, the groove 4311, the thimble mounting plate 4321, the thimble 4322, the placing seat body 441, the positioning plate 442, the driving mounting seat 4541, the cylinder 4542 and the sliding block 4543;

mount 451, pulley 452, conveyor 453, drive mechanism 454, drive shaft 455, drive frame assembly 456, drive wheel 457, drive frame body 4561, upper clamp plate 4562, vertical hinge plate 4563.

Detailed Description

The utility model is further elucidated below in connection with the drawings and the specific embodiments.

Example 1

A terminal feeder as in the drawings, comprising:

a feeding frame 41, wherein a workbench 411 is arranged above the feeding frame 41;

at least one set of slide rail assemblies 42, the slide rail assemblies 42 being disposed on the table 411;

the feeding tool 43, the feeding tool 43 is connected with the sliding rail assembly 42 in a sliding manner through a group of sliding blocks, and the feeding tool 43 is provided with a placing seat 44 for placing the terminal.

Still include drive arrangement 45, drive arrangement 45 includes a set of mount pad 451, belt pulley 452, conveyer belt 453 and actuating mechanism 454, mount pad 451 is fixed in slide rail assembly 42 both ends, just be equipped with drive shaft 455 on the mount pad 451, belt pulley 452 is located on drive shaft 455, the conveyer belt 453 winds on two belt pulleys 452, actuating mechanism 454 locates one side of conveyer belt 453 to be connected with conveyer belt 453 through drive frame assembly 456.

The driving frame assembly 456 comprises a driving frame body 4561, an upper clamping plate 4562 is arranged on the driving frame body 4561, a gap is arranged between the upper clamping plate 4562 and the driving frame body 4561, a conveying belt 453 positioned below a belt pulley 452 penetrates through the gap, the feeding tool 43 is close to one side of the driving device 45 and is connected with the conveying belt 453 positioned above the belt pulley 452 through a connecting assembly 46, and one side of the feeding tool 43 away from the driving device 45 is connected with a driving chain.

The connecting assembly 46 comprises an upper connecting plate 461 and a lower clamping plate 462, the lower clamping plate 462 is arranged below the upper connecting plate 461, two ends of the lower clamping plate 462 are fixed by screws, a gap is arranged between the upper connecting plate 461 and the lower clamping plate 462, and a conveying belt 453 above the belt pulley 452 penetrates through the gap.

The feeding tool 43 comprises a feeding tool plate 431, a thimble assembly 432 and a jacking driving mechanism 433, an opening is formed in the feeding tool plate 431, the placement seat 44 is arranged at the opening and fixed with the feeding tool plate 431 through a base, the jacking driving mechanism 433 is arranged below the feeding tool plate 431 and fixedly connected with the feeding tool plate 431 through a group of connecting columns, the thimble assembly 432 is arranged between the feeding tool plate 431 and the jacking driving mechanism 433, the thimble assembly 432 is slidably connected with the connecting columns through a group of shaft sleeves 434, and the thimble assembly 432 is matched with the placement seat 44.

The thimble assembly 432 includes a thimble mounting plate 4321 and two groups of thimbles 4322, the thimble mounting plate 4321 is connected with the connecting column through a group of shaft sleeves, and the thimbles 4322 are arranged on the thimble mounting plate 4321.

The placing seat 44 comprises a placing seat body 441 and a positioning plate 442, a groove is formed in one side of the placing seat body 441, the positioning plate 442 is vertically arranged in the groove, one side of the placing seat body 441 is in a stepped shape, first comb teeth are arranged on the positioning plate 442, second comb teeth are arranged on the upper portion of the positioning plate 442, the first comb teeth and the second comb teeth are matched, a group of first jacking holes and a group of second jacking holes are respectively arranged on the placing seat body 441 and the positioning plate 442, and two groups of ejector pins 4322 are respectively arranged opposite to the first jacking holes and the second jacking holes.

Example 2

In this embodiment, two sets of the sliding rail assemblies 42 are preferably provided.

A terminal feeder as in the drawings, comprising:

two sets of slide rail assemblies 42, the slide rail assemblies 42 being disposed on the table 411;

The placing seat 44 comprises a placing seat body 441 and a positioning plate 442, a groove is formed in one side of the placing seat body 441, the positioning plate 442 is vertically arranged in the groove, one side of the placing seat body 441 is in a stepped shape, first comb teeth are arranged on the positioning plate 442, second comb teeth are arranged on the upper portion of the positioning plate 442, the first comb teeth and the second comb teeth are matched, a group of first jacking holes and a group of second jacking holes are respectively arranged on the placing seat body 441 and the positioning plate 442, and two groups of ejector pins 4322 are respectively arranged opposite to the first jacking holes and the second jacking holes. The structure of the placement base 44 can be adjusted according to the actual production requirement, so long as the terminal mounting requirement of the required mounting is satisfied. The first comb teeth and the second comb teeth are matched, so that the terminals can be separated, and clamping and feeding of the subsequent process are more convenient.

In this embodiment, it is preferable that two sets of slide rail assemblies 42 are provided, a vertical turning plate 4563 is provided on a side of the driving frame body 4561 away from the upper clamping plate 4562, and a driving wheel 457 is provided on a side of the vertical turning plate 4563.

The feeding tooling plate 431 is provided with a groove 4311 at one side close to the driving frame assembly 456, and the driving wheel 457 is provided with a groove 4311. When the two sets of slide rail assemblies 42 are arranged, the cylinder 4542 drives the sliding block 4543 positioned on the cylinder 4542 to drive the driving frame body 4561 to move along the cylinder 4542, the feeding tooling plates 431 are driven to move to the designated positions together in the moving process of the driving frame body 4561, and when the two sets of slide rail assemblies 42 are arranged, the driving wheels 457 on the vertical rotating plate 4563 drive the feeding tooling plates 431 on the other set of slide rail assemblies 42 to move together. It should be noted that, the driving wheel may be adjusted according to actual needs, and may be a driving block or may be other capable of meeting the moving requirement of the feeding tooling plate 431.

The sliding rail assembly 42 comprises a group of supporting seats 421, supporting profiles 422 and sliding rails 423, the lower portions of the supporting seats 421 are fixed to the workbench 411, two ends of the supporting profiles 422 are arranged on the corresponding supporting seats 421, the sliding rails 423 are arranged on the supporting profiles 422, a mounting frame 424 is arranged between the two supporting profiles 422, limiting columns 425 and positioning columns 426 are arranged on the mounting frame 424, and the limiting columns 425 and the positioning columns 426 are matched with the feeding tooling plate 431.

The driving mechanism 454 includes a set of driving mounting seats 4541, a cylinder 4542 and a sliding block 4543, the driving mounting seats 4541 are relatively arranged on the workbench 411, the cylinder 4542 is arranged between the mounting seats 121, the sliding block 4543 is arranged on the cylinder 4542, and the driving frame body 4561 is connected with the sliding block 4543.

In this embodiment, the workbench 411 is further provided with a terminal discharging box 48, and the workbench 411 is further provided with a protective cover 49.

The working principle of the terminal feeding machine in this embodiment is as follows: firstly, a worker puts a terminal to be installed in a placing seat 44 on a loading tooling plate 431, a driving device 45 drives the loading tooling plate 431 to move towards one end of a manipulator 24, namely a cylinder 4542 drives a sliding block 4543 positioned on the feeding tooling plate 431 to drive a driving frame body 4561 to move along the cylinder 4542, and the driving frame body 4561 drives the loading tooling plate 431 to move to a designated position together in the moving process; when the terminal clamping mechanism needs to take the terminal, the lifting driving mechanism 433 drives the feeding thimble assembly 432 to move upwards, and the two groups of thimbles 4322 drive the terminal in the placing seat 44 to move upwards until the terminal is jacked into the terminal clamping mechanism. The terminal clamping mechanism adopts an elastic clamping assembly, and the ejector pins 4322 squeeze the terminals into the elastic clamping assembly of the terminal clamping mechanism in the terminal ejection process.

The foregoing is merely a preferred embodiment of the utility model, and it should be noted that modifications could be made by those skilled in the art without departing from the principles of the utility model, which modifications would also be considered to be within the scope of the utility model.

Claims

1. A terminal feeder, its characterized in that: comprising the following steps:

a workbench (411) is arranged above the feeding frame (41);

at least one set of sliding rail components (42), wherein the sliding rail components (42) are arranged on a workbench (411);

the feeding tool (43), the feeding tool (43) is connected with the sliding rail assembly (42) in a sliding mode through a group of sliding blocks, and a placing seat (44) for placing the terminal is arranged on the feeding tool (43).

2. The terminal feed machine of claim 1, wherein: still include drive arrangement (45), drive arrangement (45) include a set of mount pad (451), belt pulley (452), conveyer belt (453) and actuating mechanism (454), mount pad (451) are fixed in slide rail assembly (42) both ends, just be equipped with drive shaft (455) on mount pad (451), on drive shaft (455) are located to belt pulley (452), conveyer belt (453) are around on two belt pulleys (452), one side of conveyer belt (453) is located to actuating mechanism (454) to be connected with conveyer belt (453) through drive frame assembly (456).

3. The terminal feed machine of claim 2, wherein: the driving frame assembly (456) comprises a driving frame body (4561), an upper clamping plate (4562) is arranged on the driving frame body (4561), a gap is formed between the upper clamping plate (4562) and the driving frame body (4561), a conveying belt (453) located below a belt pulley (452) penetrates through the gap, and the feeding tool (43) is close to one side of the driving device (45) and connected with the conveying belt (453) located above the belt pulley (452) through a connecting assembly (46).

4. A terminal feeder according to claim 3, wherein: the connecting assembly (46) comprises an upper connecting plate (461) and a lower clamping plate (462), the lower clamping plate (462) is arranged below the upper connecting plate (461), two ends of the lower clamping plate are fixed through screws, a gap is formed between the upper connecting plate (461) and the lower clamping plate (462), and a conveying belt (453) above the belt pulley (452) is penetrated in the gap.

5. The terminal feed machine of claim 4, wherein: the feeding tool (43) comprises a feeding tool plate (431), a thimble assembly (432) and a jacking driving mechanism (433), an opening is formed in the feeding tool plate (431), a placement seat (44) is arranged at the opening and fixed with the feeding tool plate (431) through a base, the jacking driving mechanism (433) is arranged below the feeding tool plate (431) and fixedly connected with the feeding tool plate (431) through a group of connecting columns, the thimble assembly (432) is arranged between the feeding tool plate (431) and the jacking driving mechanism (433), the thimble assembly (432) is connected with the connecting columns in a sliding mode through a group of shaft sleeves (434), and the thimble assembly (432) is matched with the placement seat (44).

6. The terminal feed machine of claim 5, wherein: the thimble assembly (432) comprises a thimble mounting plate (4321) and two groups of thimbles (4322), wherein the thimble mounting plate (4321) is connected with the connecting column through a group of shaft sleeves, and the thimbles (4322) are arranged on the thimble mounting plate (4321).

7. The terminal feed machine of claim 6, wherein: place seat (44) including placing seat body (441) and locating plate (442), one side of placing seat body (441) is equipped with the recess, locating plate (442) are located in the recess perpendicularly, one side of placing seat body (441) is echelonment, and is equipped with first broach on it, locating plate (442) upper portion is equipped with the second broach, first broach and second broach cooperate, be equipped with a set of first jacking hole and a set of second jacking hole on placing seat body (441) and locating plate (442) respectively, two sets of thimble (4322) set up with first jacking hole and second jacking hole are relative respectively.

8. The terminal feed machine of claim 5, wherein: the sliding rail assemblies (42) are arranged in two groups, one side, far away from the upper clamping plate (4562), of the driving frame body (4561) is provided with a vertical rotating plate (4563), and one side of the vertical rotating plate (4563) is provided with a driving wheel (457).

9. The terminal feed machine of claim 8, wherein: one side of the feeding tooling plate (431) close to the driving frame assembly (456) is provided with a groove (4311), and the driving wheel (457) is provided with the groove (4311).

10. The terminal feed machine of claim 1, wherein: the sliding rail assembly (42) comprises a group of supporting seats (421), supporting profiles (422) and sliding rails (423), the lower parts of the supporting seats (421) are fixed with a workbench (411), two ends of the supporting profiles (422) are arranged on the corresponding supporting seats (421), the sliding rails (423) are arranged on the supporting profiles (422), a mounting frame (424) is arranged between the two supporting profiles (422), a limiting column (425) and a positioning column (426) are arranged on the mounting frame (424), and the limiting column (425) and the positioning column (426) are matched with a feeding tooling plate (431).