CN221552256U - Branching module for IO wiring of numerical control system - Google Patents

Abstract

The utility model discloses a branching module for IO wiring of a numerical control system, which comprises a circuit board, wherein installation matching frames are symmetrically sleeved on two sides of the circuit board, a fixing component for fixing the position of the installation matching frames is arranged at the joint of the circuit board and the installation matching frames, the fixing component comprises a through hole formed in the middle of the installation matching frames, and clamping grooves are horizontally and symmetrically formed in the inner walls of the front face and the back face of the through hole. According to the branching module for the IO wiring of the numerical control system, when the circuit board and the installation matching frame are required to be fixed, the two clamping blocks are moved to the opposite sides through the moving assembly, then the installation matching frame is sleeved on one side of the circuit board, so that the clamping blocks penetrate into the through holes, when the inner wall of one side of the installation matching frame is moved to be attached to one side of the circuit board, the clamping blocks are moved to the clamping grooves through the moving assembly, and the positions of the installation matching frame are fixed, so that the use of screws is avoided.

Description

Branching module for IO wiring of numerical control system

Technical Field

The utility model relates to the field of machine tool motors and numerical control, in particular to a branching module for IO wiring of a numerical control system.

Background

A wire-splitting module is an electrical connection device for connecting a plurality of electrical wires together and providing a reliable wire-connection interface. In a numerical control system, a branching module is generally used for connecting input/output (IO) signals to achieve communication and control with external devices.

The existing defects are that:

the traditional installation cooperation frame is the both sides that set up at the circuit board, when installing the line module, be through installation cooperation frame slip joint on the guide rail of equipment, when fixing the installation cooperation frame on the circuit board, establish two installation cooperation frame cover in the both sides of circuit board earlier, the rethread screws are screwed in between installation cooperation frame and circuit board, pass the position of both with the two through the screw and fix, thereby when making to installing and dismantling between the two, need constantly to install and dismantle it through the continuous screw of screwing of peripheral tool such as screwdriver, when the staff forgets to carry the instrument, will not realize the operation, thereby result in receiving the restriction at the in-process of using.

Disclosure of utility model

The utility model aims to provide a branching module for IO wiring of a numerical control system, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a branching module for numerical control system IO wiring, includes the circuit board, the bilateral symmetry cover of circuit board is equipped with the installation cooperation frame, the junction of circuit board and installation cooperation frame is provided with the fixed subassembly that is used for fixed mounting cooperation frame position, fixed subassembly is including seting up the through-hole at installation cooperation frame middle part, the draw-in groove has been seted up with the inner wall horizontal symmetry on back to the through-hole openly, the inside joint of draw-in groove has the fixture block, one side of fixture block is provided with the removal subassembly that is used for removing the fixture block position.

Preferably, the limit grooves are symmetrically formed in two sides of the circuit board, the sliding blocks are symmetrically connected in a penetrating mode in the horizontal center of the limit grooves, one side, opposite to the clamping blocks, of each clamping block is fixedly connected with a driving block, and the driving blocks are fixedly connected to one side of the sliding blocks.

Preferably, the driving block is connected in a penetrating manner in the through hole, and a pulling groove for moving the position of the driving block is formed in one side of the driving block.

Preferably, the cross section of the pulling groove is arranged in a triangle.

Preferably, a guide rod for fixing the position of the sliding block is fixedly connected between the inner walls of the front face and the back face of the limiting groove, and the guide rod is connected to the middle of the sliding block in a penetrating mode.

Preferably, the opposite sides of the two sliding blocks are fixedly connected with springs for moving the sliding blocks, and the guide rods are connected to the middle parts of the springs in a penetrating mode.

Preferably, the top fixedly connected with binding post platform of circuit board, the horizontal central symmetry in top of circuit board is provided with a plurality of wiring marks, the top of circuit board just is located the positive fixedly connected with connector of binding post platform.

The utility model has the technical effects and advantages that:

This branching module for numerical control system IO wiring, when needs are fixed between circuit board and the installation cooperation frame, remove two fixture blocks to opposite one side through moving the subassembly earlier, establish installation cooperation frame cover in circuit board one side again for the fixture block penetrates in the through-hole, when the inner wall of installation cooperation frame one side remove to one side subsides with the circuit board, the rethread moving the subassembly removes the fixture block to the draw-in groove in, fixes the position of installation cooperation frame, thereby avoided the use of screw.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is an enlarged schematic view of a portion a in fig. 1 according to the present utility model.

Fig. 3 is a schematic top view of the present utility model.

Fig. 4 is an enlarged view of part B of fig. 3 according to the present utility model.

In the figure: 1. a circuit board; 2. installing a matching frame; 3. a through hole; 4. a clamping groove; 5. a clamping block; 6. a limit groove; 7. a slide block; 8. a driving block; 9. a spring; 10. a guide rod; 11. pulling the groove; 12. a terminal block; 13. a wiring identifier; 14. a connector.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a branching module for IO wiring of a numerical control system, which is shown in figures 1-4, and comprises a circuit board 1, wherein installation matching frames 2 are symmetrically sleeved on two sides of the circuit board 1, a fixing component for fixing the position of the installation matching frames 2 is arranged at the joint of the circuit board 1 and the installation matching frames 2, the fixing component comprises a through hole 3 arranged in the middle of the installation matching frames 2, clamping grooves 4 are horizontally and symmetrically arranged on the inner walls of the front surface and the back surface of the through hole 3, clamping blocks 5 are clamped in the clamping grooves 4, and a moving component for moving the positions of the clamping blocks 5 is arranged on one side of each clamping block 5.

It should be noted that, the circuit board 1 is a carrier for connecting and supporting electronic components in an electronic device, and is made of an insulating material, and its surface is coated with a conductive material to form a circuit, and the wire structure on the circuit board 1 connects various electronic components, connectors and other connection points together to form a circuit; the installation cooperation frame 2 is a plastic rack for supporting and fixing the circuit board 1, and its main function is to provide physical support and protection for the circuit board, provides convenient installation and dismantlement mode simultaneously, and fixture block 5 that sets up is connected on circuit board 1 through moving the subassembly, when fixture block 5 interlude in draw-in groove 4 on the installation cooperation frame 2, through fixture block 5 restriction installation cooperation frame 2 removal to fix installation cooperation frame 2 position, the cross section of fixture block 5 that sets up to trapezium.

Further, when fixing the circuit board 1 and the installation matching frame 2, the two clamping blocks 5 are moved to opposite sides through the moving assembly, and then the installation matching frame 2 is sleeved on one side of the circuit board 1, so that the clamping blocks 5 penetrate into the through holes 3, when the inner wall on one side of the installation matching frame 2 is moved to be attached to one side of the circuit board 1, the clamping blocks 5 are moved to the clamping grooves 4 through the moving assembly, and the position of the installation matching frame 2 is fixed.

Specifically, the limiting grooves 6 are symmetrically formed in two sides of the circuit board 1, the sliding blocks 7 are symmetrically connected in a penetrating mode in the horizontal center of the limiting grooves 6, the driving blocks 8 are fixedly connected to one side, opposite to the clamping blocks 5, of the driving blocks 8, and the driving blocks 8 are fixedly connected to one side of the sliding blocks 7.

Further, when the position of the clamping block 5 needs to be moved, the clamping block 5 is driven to move by the movement of the driving block 8.

Specifically, the driving block 8 is connected in a penetrating manner in the through hole 3, and a pulling groove 11 for moving the driving block 8 is formed in one side of the driving block 8.

Specifically, the cross section of the pulling groove 11 is arranged in a triangle.

It should be noted that, the triangular pulling groove 11 is used for inserting a finger into the pulling groove 11 when the position of the clamping block 5 is required to be moved, the inner wall of the pulling groove 11 is pushed by the finger to move the position of the driving block 8, and the clamping block 5 is driven to move by the driving block 8.

Specifically, a guide rod 10 for fixing the position of the sliding block 7 is fixedly connected between the inner walls of the front surface and the back surface of the limiting groove 6, and the guide rod 10 is connected to the middle part of the sliding block 7 in a penetrating manner.

The guide bar 10 is fixed inside the limit groove 6, so that the position of the slider 7 is limited by the guide bar 10 at the fixed position.

Specifically, a spring 9 for moving the position of the slide block 7 is fixedly connected to the opposite side of the two slide blocks 7, and a guide rod 10 is connected to the middle of the spring 9 in a penetrating manner.

The spring 9 is provided to push the slider 7 to a side away from the spring 9.

Further, when the position of the mounting matching frame 2 needs to be fixed, the mounting matching frame 2 is moved to one side of the circuit board 1, when the mounting matching frame 2 moves to be matched with the clamping block 5, the inclined edge of the triangular clamping block 5 is matched with the through hole 3 on the mounting matching frame 2, the clamping block 5 is pushed to the opposite side through the inner wall of the through hole 3, when the clamping block 5 moves to the opposite side, the driving block 8 and the sliding block 7 move to the opposite side along with the clamping block 5, so that the spring 9 between the sliding blocks 7 is extruded and deformed, when the clamping block 5 moves to one side of the clamping groove 4, the spring 9 is restored to deform, so that the two sliding blocks 7 move to the opposite side, and the driving block 8 and the clamping block 5 move to the far side through the sliding block 7, so that the clamping block 5 moves to the clamping groove 4.

Specifically, the top fixedly connected with binding post platform 12 of circuit board 1, the top horizontal central symmetry of circuit board 1 is provided with a plurality of wiring labels 13, the top of circuit board 1, and be located the positive fixedly connected with connector 14 of binding post platform 12.

The terminal block 12 is a device for circuit connection, mounted on the top of the wiring board 1, and has a plurality of terminals through which wires can be connected; the wiring mark 13 is an identification system for marking different wires on the wiring terminal, so that workers can be helped to correctly identify and connect the wires; the connector 14 is provided for connecting various wire or cable elements of power, signals, data, etc., for wired connection between devices.

Finally, it should be noted that: the foregoing description of the preferred embodiments of the present utility model is not intended to be limiting, but rather, although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. The utility model provides a branching module for numerical control system IO wiring, includes circuit board (1), the bilateral symmetry cover of circuit board (1) is equipped with installation cooperation frame (2), its characterized in that, the junction of circuit board (1) and installation cooperation frame (2) is provided with the fixed subassembly that is used for fixed mounting cooperation frame (2) position, fixed subassembly is including seting up through-hole (3) at installation cooperation frame (2) middle part, draw-in groove (4) have been seted up to the inner wall horizontal symmetry of through-hole (3) openly and back, the inside joint of draw-in groove (4) has fixture block (5), one side of fixture block (5) is provided with the removal subassembly that is used for removing fixture block (5) position.

2. The branching module for IO wiring of a numerical control system according to claim 1, wherein limiting grooves (6) are symmetrically formed in two sides of the circuit board (1), sliding blocks (7) are symmetrically connected in a penetrating mode in the horizontal center of the inside of the limiting grooves (6), driving blocks (8) are fixedly connected to one side, opposite to the clamping blocks (5), of the plurality of clamping blocks, and the driving blocks (8) are fixedly connected to one side of the sliding blocks (7).

3. The branching module for IO wiring of a numerical control system according to claim 2, wherein the driving block (8) is connected in the through hole (3) in a penetrating way, and a pulling groove (11) for moving the driving block (8) is formed in one side of the driving block (8).

4. A branching module for IO wiring of a numerical control system according to claim 3, wherein the cross section of the pulling groove (11) is arranged in a triangle.

5. The branching module for IO wiring of the numerical control system according to claim 2, wherein a guide rod (10) for fixing the position of the sliding block (7) is fixedly connected between the inner walls of the front face and the back face of the limiting groove (6), and the guide rod (10) is connected to the middle of the sliding block (7) in a penetrating mode.

6. The branching module for IO wiring of a numerical control system according to claim 5, wherein springs (9) for moving the positions of the sliding blocks (7) are fixedly connected to opposite sides of the two sliding blocks (7), and the guide rods (10) are connected to the middle parts of the springs (9) in a penetrating mode.

7. The branching module for IO wiring of a numerical control system according to claim 1, wherein the top end of the circuit board (1) is fixedly connected with a wiring terminal block (12), a plurality of wiring marks (13) are symmetrically arranged at the horizontal center of the top end of the circuit board (1), and a connector (14) is fixedly connected to the front surface of the wiring terminal block (12).