A feeding rack for the production and processing of terminal blocks

By designing a combined structure of T-shaped ring seat, groove, support rod, vertical shaft and T-shaped shaft, the problem of non-expandable capacity of the feed rack in the production and processing of terminal blocks is solved, realizing flexible capacity adjustment and stable connection, which facilitates the production of terminal blocks.

CN224336736UActive Publication Date: 2026-06-09JIAXING CHANGHONG COPPER CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIAXING CHANGHONG COPPER CO LTD
Filing Date
2025-06-14
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The existing feed racks for terminal block manufacturing have limited load-bearing surface, making them inconvenient to use and difficult to expand or reduce capacity.

Method used

A feeding rack structure including a T-shaped ring seat, a groove, a support rod, a vertical shaft, and a T-shaped shaft was designed. Through the cooperation of U-shaped rods, concave holes, arc grooves, and compression springs, the capacity of the feeding rack can be expanded and reduced, which facilitates the connection of multiple chassis and enhances stability.

Benefits of technology

It enables flexible expansion and reduction of the feed rack capacity, facilitates operation, improves the stability and convenience of the connection, and meets the needs of terminal block production.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of terminal block processing feeding rack technology, specifically a terminal block production and processing feeding rack, including a chassis. A T-shaped ring seat for support is rotatably mounted on the top surface of the chassis, and the outer circumferential surface of the T-shaped ring seat has grooves, with multiple sets of grooves. Support rods for support are hinged to the inner side of the grooves via rotating shafts. A vertical shaft rotatably connected to the ring seat is mounted on the top surface of the chassis, and a T-shaped shaft integrally formed on the top surface of the vertical shaft to fit the chassis. During the use of the feeding rack for terminal block production and processing, the support rods hinged in the outer circumferential grooves of the T-shaped ring seat can be opened to place the terminal block raw material strip, facilitating subsequent feeding. Simultaneously, the T-shaped shaft can be fitted with the chassis according to usage requirements, allowing multiple sets of chassis driving the T-shaped ring seats to be interconnected, facilitating the expansion of the feeding rack's capacity. The connection is simple and convenient, and the operation is easy.
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Description

Technical Field

[0001] This utility model relates to the technical field of terminal block processing feeder, specifically to a terminal block production and processing feeder. Background Technology

[0002] The raw materials for hardware parts are generally in the form of rolled strips or coils. Therefore, during processing, a feeding rack is usually provided at the feeding end of the hardware processing equipment to support and place the rolled strips. Patent No. CN202322956275.X discloses a feeding rack for the production and processing of copper hardware terminals, which provides a feeding rack mechanism for the raw material strips used in the processing of copper hardware terminals. It is equipped with a rotating mechanism that allows the strip support structure to be folded, so that multiple sets of strips can be supported on the whole rack at the same time. The rack can be directly stacked to reduce the floor space occupied by the rack and reduce the space cost of the processing site. However, in the process of using the feeding rack for terminal production and processing, the bearing surface on the feeding rack is limited, and it is inconvenient to add or remove strips, which leads to certain limitations in its use. Therefore, we propose a feeding rack for terminal production and processing. Utility Model Content

[0003] To address the problems in the existing technology, this utility model provides a feeding rack for the production and processing of terminal blocks.

[0004] The technical solution adopted by this utility model to solve its technical problem is a terminal block production and processing feeder, including a chassis. A T-shaped ring seat for support is rotatably installed on the top surface of the chassis, and the outer circumferential surface of the T-shaped ring seat has a groove, and there are multiple sets of grooves. The inner side of the groove is hinged to a support rod for support through a rotating shaft. A vertical shaft rotatably connected to the ring seat is assembled on the top surface of the chassis. The top surface of the vertical shaft has an integrally constructed T-shaped shaft that fits with the chassis, and the outer circumference of the T-shaped shaft has an arc-shaped groove for limiting the position, and there are multiple sets of arc-shaped grooves.

[0005] The inner side of the T-shaped shaft is slidably mounted with U-shaped rods for limiting the position, and there are two sets of U-shaped rods. The outer circumferential surface of the T-shaped shaft is slidably mounted with end caps bolted to the U-shaped rods, and there are two sets of end caps. Each set of U-shaped rods has a recessed hole on its opposite side, and there are multiple sets of recessed holes. A compression spring for pushing the U-shaped rods to move is assembled between the two sets of recessed holes.

[0006] By adopting the above technical solution, during the use of the feeding rack for the production and processing of terminals, the support rod hinged in the outer groove of the T-shaped ring seat can be opened to place the raw material strip of the terminals, which is convenient for subsequent feeding. At the same time, the T-shaped shaft can be matched with the chassis according to the needs of use, so that multiple sets of chassis can drive the T-shaped ring seats to be connected to each other, which is convenient for expanding the capacity of the feeding rack. The connection is simple and convenient, and easy to operate.

[0007] When the T-shaped shaft is connected to another chassis, pressing the end cap on the outer periphery of the T-shaped shaft causes the end cap to retract one end of the U-shaped rod extending from the T-shaped shaft into the T-shaped shaft. Then, the top part of the T-shaped shaft can stably connect with the hole at the bottom of the chassis. At the same time, the arc groove on the outer periphery of the T-shaped shaft can easily match its preset protrusion, which can improve the stability when the T-shaped shaft and the chassis are connected. Then, releasing the pressure applied to the end cap allows the compression spring between the two sets of U-shaped rods inside the T-shaped shaft to push the U-shaped rods back, causing the two sets of U-shaped rods to move in opposite directions and allow one end of the U-shaped rod to extend out of the T-shaped shaft. Then, the part of the T-shaped shaft extending out of the T-shaped shaft can connect with the preset hole inside the chassis, which can limit and fasten the connection between the T-shaped shaft and the chassis, improve the stability after the connection, facilitate disassembly and assembly, facilitate the expansion or reduction of the feeder capacity, and facilitate the assistance during the production of terminal blocks.

[0008] Specifically, the chassis has a base for auxiliary support attached to its outer periphery, and the chassis has multiple sets of pin holes. The base is screwed with multiple sets of locking pins that are screwed into the pin holes.

[0009] By adopting the above technical solution, the tray base can be easily connected to the chassis and can be fastened by the interlocking of the locking pins and pin holes, so that the tray base can provide auxiliary support for multiple chassis connected together, and the feeder can operate more stably.

[0010] Specifically, the outer peripheral surface of the T-shaped shaft is fitted with a pin that engages with the U-shaped rod.

[0011] By adopting the above technical solution, the pin can be easily installed on the outer periphery of the T-shaped shaft and can be inserted into the two sets of U-shaped rods inside it, so that the two sets of U-shaped rods inside the T-shaped shaft can slide and displace each other more stably.

[0012] Specifically, the outer circumferential surface of the T-shaped ring seat is fitted with an L-shaped rod that is inserted into the support rod, and there are multiple sets of L-shaped rods.

[0013] By adopting the above technical solution, the L-shaped rod can be easily inserted into the pre-set holes on the outer periphery of the T-shaped ring seat and can be interlocked with the support rod, which facilitates the auxiliary limiting of the position of the support rod that opens on the outer periphery of the T-shaped ring seat, so that multiple sets of support rods can more stably support the material roll, which is convenient for use when processing the terminal block.

[0014] Specifically, the outer periphery of the T-shaped ring seat near the L-shaped rod is equipped with a magnetic block that is magnetically connected to the L-shaped rod, and there are multiple sets of magnetic blocks.

[0015] By adopting the above technical solution, the magnetic block on the outer periphery of the T-shaped ring seat can be easily connected to the L-shaped rod by magnetic attraction, which helps to limit the position of the L-shaped rod and reduces the possibility of the L-shaped rod moving randomly.

[0016] Compared with the prior art, the present invention has the following beneficial effects:

[0017] 1. The technical solution of this application, through the design of T-shaped ring seat, groove, support rod, vertical shaft and T-shaped shaft, allows the support rod hinged in the groove on the outer periphery of the T-shaped ring seat to be opened during the use of the feeding rack for the production and processing of terminals, so that the raw material strip of the terminals can be placed, which is convenient for subsequent feeding. At the same time, the T-shaped shaft can be matched with the chassis according to the needs of use, so that multiple sets of chassis drive T-shaped ring seats can be connected to each other, which is convenient for expanding the capacity of the feeding rack. Moreover, the connection is simple and convenient, and easy to operate.

[0018] 2. The technical solution of this application, through the design of a U-shaped rod, a concave hole, an arc-shaped groove, a compression spring, and an end cap, allows the end cap on the outer periphery of the T-shaped shaft to be pressed when the T-shaped shaft is inserted into another set of chassis. This causes the end cap to retract one end of the U-shaped rod that extends out of the T-shaped shaft into the T-shaped shaft. Then, the top part of the T-shaped shaft can stably insert into the hole at the bottom of the chassis. Simultaneously, the arc-shaped groove on the outer periphery of the T-shaped shaft facilitates its matching with a pre-set protrusion, improving the stability of the connection between the T-shaped shaft and the chassis. Subsequently, the applied pressure is released... The pressure of the end cap causes the compression spring between the two sets of U-shaped rods inside the T-shaped shaft to push the U-shaped rods in the opposite direction, allowing one end of the U-shaped rod to extend out of the T-shaped shaft. The part of the T-shaped shaft extending out of the T-shaped shaft can then be inserted into a pre-set hole inside the chassis. This facilitates the limiting and fastening of the connection between the T-shaped shaft and the chassis, improving the stability of the connection. It also facilitates disassembly and assembly, allows for expansion or reduction of the feeder capacity, and provides assistance during the production of terminal blocks. Attached Figure Description

[0019] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0020] Figure 1 This is an isometric view of the present invention;

[0021] Figure 2 This is a schematic diagram of the inner structure of the T-shaped shaft of this utility model;

[0022] Figure 3 This is a schematic diagram of the overall structure of this utility model at point A.

[0023] In the diagram: 1. Chassis; 2. T-shaped ring seat; 3. Groove; 4. Support rod; 5. Vertical shaft; 6. T-shaped shaft; 7. U-shaped rod; 8. Concave hole; 9. Compression spring; 10. End cap; 11. Pin; 12. Arc groove; 13. Pin hole; 14. Disc seat; 15. Locking pin; 16. Magnetic block; 17. L-shaped rod. Detailed Implementation

[0024] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0025] Please see Figure 1-3 This utility model provides a technical solution: a feeding rack for manufacturing and processing terminals, including a chassis 1. A T-shaped ring seat 2 for support is rotatably mounted on the top surface of the chassis 1, and the outer circumferential surface of the T-shaped ring seat 2 has grooves 3, and there are multiple sets of grooves 3. A support rod 4 for support is hinged to the inner side of the groove 3 through a rotating shaft. A vertical shaft 5 rotatably connected to the ring seat is assembled on the top surface of the chassis 1, and the top surface of the vertical shaft 5 has an integrally constructed T-shaped shaft that fits into the chassis 1. 6. The outer periphery of the T-shaped shaft 6 is provided with an arc-shaped groove 12 for limiting, and there are multiple sets of arc-shaped grooves 12; the inner side of the T-shaped shaft 6 is slidably installed with a U-shaped rod 7 for limiting, and there are two sets of U-shaped rods 7; the outer periphery of the T-shaped shaft 6 is slidably installed with an end cap 10 bolted to the U-shaped rod 7, and there are two sets of end caps 10; each of the two sets of U-shaped rods 7 has a concave hole 8 on its opposite side, and there are multiple sets of concave holes 8; a compression spring 9 for pushing the U-shaped rod 7 to move is assembled between the two sets of concave holes 8.

[0026] When in use, during the feeding rack for the production and processing of terminals, the support rod 4 hinged in the outer groove 3 of the T-shaped ring seat 2 can be opened to place the raw material strip of the terminal, which is convenient for subsequent feeding. At the same time, according to the needs of use, the T-shaped shaft 6 can be matched with the chassis 1, so that multiple sets of chassis 1 can drive the T-shaped ring seat 2 to be connected to each other, which is convenient for expanding the capacity of the feeding rack. The connection is simple and convenient, and easy to operate.

[0027] When the T-shaped shaft 6 is inserted into another set of chassis 1, the end cap 10 on the outer periphery of the T-shaped shaft 6 can be pressed, causing the end cap 10 to drive the U-shaped rod 7 to retract into the T-shaped shaft 6. Then, the top part of the T-shaped shaft 6 can be stably inserted into the hole at the bottom of the chassis 1. At the same time, the arc groove 12 on the outer periphery of the T-shaped shaft 6 can easily match its preset protrusion, which can improve the stability of the connection between the T-shaped shaft 6 and the chassis 1. Then, the pressure applied to the end cap 10 is released, allowing the T-shaped shaft 6 to retract into the chassis 1. The compression spring 9 between the two sets of U-shaped rods 7 can push the U-shaped rods 7 in the opposite direction, causing the two sets of U-shaped rods 7 to extend out of the T-shaped shaft 6. Then, the part of the T-shaped shaft 6 that extends out of the T-shaped shaft 6 can be inserted into the pre-set hole inside the chassis 1, which facilitates the limiting and fastening of the connection between the T-shaped shaft 6 and the chassis 1, improves the stability of the connection, facilitates disassembly and assembly, facilitates the expansion or reduction of the capacity of the feeder, and facilitates the assistance in the production of terminal blocks.

[0028] like Figure 1 and Figure 3 As shown, a base 14 for auxiliary support is snapped onto the outer periphery of the chassis 1, and pin holes 13 are opened on the outer periphery of the chassis 1, and there are multiple sets of pin holes 13. A locking pin 15 that is screwed into the pin holes 13 is screwed onto the outer periphery of the base 14, and there are multiple sets of locking pins 15.

[0029] In use, the disc base 14 can be easily connected to the chassis 1 and can be fastened by the interlocking of the locking pin 15 and the pin hole 13, so that the disc base 14 can provide auxiliary support for multiple chassis 1 connected together, and the feeder can operate more stably.

[0030] like Figure 1 and Figure 2 As shown, a pin 11 that is engaged with and connected to the U-shaped rod 7 is snapped onto the outer circumferential surface of the T-shaped shaft 6.

[0031] In use, the pin 11 can be easily installed on the outer periphery of the T-shaped shaft 6 and can be inserted into the two sets of U-shaped rods 7 inside it, so that the two sets of U-shaped rods 7 inside the T-shaped shaft 6 can slide and displace each other more stably.

[0032] like Figure 1 and Figure 3 As shown, an L-shaped rod 17 that is inserted into the outer circumferential surface of the T-shaped ring seat 2 and is connected to the support rod 4, and there are multiple sets of L-shaped rods 17.

[0033] In use, the L-shaped rod 17 can be easily inserted into the pre-set holes on the outer periphery of the T-shaped ring seat 2 and can be interlocked with the support rod 4. This facilitates the auxiliary limiting of the position of the support rod 4 that is open on the outer periphery of the T-shaped ring seat 2, so that multiple sets of support rods 4 can more stably support the material roll, which is convenient for use when processing the terminal block.

[0034] like Figure 1 and Figure 3 As shown, the outer periphery of the T-shaped ring seat 2 near the end of the L-shaped rod 17 is equipped with a magnetic block 16 that is magnetically connected to the L-shaped rod 17, and there are multiple sets of magnetic blocks 16.

[0035] In use, the magnetic block 16 on the outer periphery of the T-shaped ring seat 2 can be magnetically connected with the L-shaped rod 17, which helps to limit the position of the L-shaped rod 17 and reduces the possibility of the L-shaped rod 17 moving freely.

[0036] The working principle and usage process of this utility model are as follows: In use, first, install the corresponding structural components in suitable positions. During the use of the feeding rack for terminal block production, the support rod 4 hinged in the outer groove 3 of the T-shaped ring seat 2 can be opened to place the terminal block raw material strip, facilitating subsequent feeding. Simultaneously, according to usage requirements, the T-shaped shaft 6 can be engaged with the base plate 1, allowing multiple sets of base plates 1 to drive the T-shaped ring seats 2 to connect, facilitating the expansion of the feeding rack's capacity. The connection is simple and convenient, and easy to operate. When the T-shaped shaft 6 is inserted into another set of base plates 1, the end cap 10 on the outer periphery of the T-shaped shaft 6 can be pressed, causing the end cap 10 to drive the U-shaped rod 7, extending from one end of the T-shaped shaft 6, to retract into the T-shaped shaft 6. Then, the T-shaped shaft 6... The top part can stably connect with the hole at the bottom of the chassis 1. At the same time, the arc groove 12 on the outer periphery of the T-shaped shaft 6 can easily fit with its preset protrusion, which can improve the stability when the T-shaped shaft 6 is connected to the chassis 1. Then, the pressure applied to the end cover 10 is released, so that the compression spring 9 between the two sets of U-shaped rods 7 inside the T-shaped shaft 6 can push the U-shaped rods 7 in the opposite direction, so that one end of the U-shaped rods 7 can extend out of the T-shaped shaft 6. Then, the part of the T-shaped shaft 6 that extends out of the T-shaped shaft 6 can connect with the preset hole inside the chassis 1, which can facilitate the limiting and fastening when the T-shaped shaft 6 is connected to the chassis 1, which can improve the stability after the connection between the two, and facilitate disassembly and assembly. It can also facilitate the expansion or reduction of the capacity of the feeder, and facilitate the assistance in the production of the terminal block.

[0037] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The descriptions of the above embodiments and specifications are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of protection claimed by this utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A feeding rack for manufacturing and processing terminal blocks, characterized in that, The chassis (1) includes a T-shaped ring seat (2) for support, which is rotatably mounted on the top surface of the chassis (1). The outer circumferential surface of the T-shaped ring seat (2) is provided with a groove (3), and there are multiple sets of grooves (3). The inner side of the groove (3) is hinged with a support rod (4) for support through a rotating shaft. The top surface of the chassis (1) is equipped with a vertical shaft (5) that is rotatably connected to the ring seat. The top surface of the vertical shaft (5) is integrally constructed with a T-shaped shaft (6) that fits with the chassis (1). The outer circumference of the T-shaped shaft (6) is provided with an arc groove (12) for limiting the position, and there are multiple sets of arc grooves (12). The T-shaped shaft (6) is slidably mounted on the inner side with a U-shaped rod (7) for limiting the position, and there are two sets of U-shaped rods (7). The outer circumferential surface of the T-shaped shaft (6) is slidably mounted with an end cap (10) bolted to the U-shaped rod (7), and there are two sets of end caps (10). Each of the two sets of U-shaped rods (7) has a recessed hole (8) on its opposite side, and there are multiple sets of recessed holes (8). A compression spring (9) for pushing the U-shaped rod (7) to move is assembled between the two sets of recessed holes (8).

2. The terminal block manufacturing feeder according to claim 1, characterized in that, The chassis (1) is fitted with a plate base (14) for auxiliary support on its outer periphery, and the chassis (1) has pin holes (13) on its outer periphery, and there are multiple sets of pin holes (13). The plate base (14) is screwed with a locking pin (15) that is screwed into the pin hole (13), and there are multiple sets of locking pins (15).

3. The terminal block manufacturing and processing feeder according to claim 1, characterized in that, The outer circumferential surface of the T-shaped shaft (6) is fitted with a pin (11) that is connected to the U-shaped rod (7).

4. The terminal block manufacturing and processing feeder according to claim 1, characterized in that, The outer circumferential surface of the T-shaped ring seat (2) is fitted with an L-shaped rod (17) that is inserted into the support rod (4), and there are multiple sets of L-shaped rods (17).

5. A feeding rack for manufacturing and processing terminal blocks according to claim 1, characterized in that, The T-shaped ring seat (2) is equipped with a magnetic block (16) that is magnetically connected to the L-shaped rod (17) at one end of its outer periphery. There are multiple sets of magnetic blocks (16).