CN210742305U - Full-automatic flexible circuit board precision finishing check out test set - Google Patents

Abstract

The utility model discloses a full-automatic flexible circuit board precision finishing detection equipment, when in use, firstly, a clamping spring extrudes a circuit block to clamp and fix the circuit board, a driving motor drives a meshing gear to rotate, the meshing gear drives a meshing toothed plate meshed with the meshing gear to move, thus a top plate can move longitudinally along with the meshing toothed plate, a moving motor drives a screw rod to rotate, the screw rod rotates and drives a connecting end at the lower end of a sliding block to move transversely, a lifting motor drives a threaded rod to rotate and further drives an embedding block to drive a lifting rod on an embedding cavity to lift, a detection device can be driven to move up and down, the detection device can move in multiple directions conveniently, the whole device can automatically detect the flexible circuit board on the circuit block, a worker does not need to hold a detection pen for detection, time and labor are saved, and omission is avoided, the efficiency of detection is improved.

Description

Full-automatic flexible circuit board precision finishing check out test set

Technical Field

The utility model relates to a circuit board repair technical field specifically is a full-automatic flexible circuit board precision finishing check out test set.

Background

The circuit board enables the circuit to be miniaturized and visualized, and plays an important role in batch production of fixed circuits and optimization of electric appliance layout. The circuit board can be called as a printed circuit board or a printed circuit board, the FPC circuit board (the FPC circuit board is also called as a flexible printed circuit board which is made of polyimide or polyester film as a base material and has high reliability and excellent flexibility and has the characteristics of high wiring density, light weight, thin thickness and good bending property) and a rigid-flexible printed circuit board, and the birth and development of the FPC and the PCB promote the new product of the rigid-flexible printed circuit board. Therefore, the rigid-flex circuit board is a circuit board with FPC (flexible printed circuit) characteristics and PCB (printed circuit board) characteristics, which is formed by combining a flexible circuit board and a rigid circuit board according to relevant process requirements through processes such as pressing and the like.

The circuit board is the indispensable electronic component in present many electronic equipment, generally when overhauing the circuit board, needs the staff to hold the test pen and touches node on the circuit board, however the node quantity on the circuit board is more, just makes can be very loaded down with trivial details when examining test, and not only detection efficiency is low, can have sometimes to omit moreover, leads to the testing result inaccurate.

Therefore, the technical personnel in the field provide a full-automatic flexible circuit board precision finishing detection device to solve the problems in the background technology.

Disclosure of Invention

An object of the utility model is to provide a full-automatic flexible circuit board precision finishing check out test set to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a full-automatic flexible circuit board precision finishing detection device comprises a base, a supporting block and a top plate, wherein supporting rods are arranged at two ends of the upper side of the base, the supporting block is arranged at the middle position of the upper end of the base, clamping rods are arranged at two ends of the supporting block, a circuit block is arranged at the end part of the upper side of the supporting block, clamping springs are arranged at the inner sides of the upper ends of the clamping rods, clamping blocks corresponding to the circuit board are arranged at the end parts, away from the clamping rods, of the clamping springs, moving grooves are arranged at the end parts, towards the upper side, of the supporting rod, a driving motor is arranged at the inner side of the upper end of the supporting rod, a driving shaft is arranged at the middle position of one end, away from the supporting rod, of the driving motor, a meshing gear is arranged at the end part, away from the driving motor, of the, and the inner sides of the lower ends of the top plates are provided with meshed toothed plates corresponding to the meshed gears;

a moving cavity is arranged at the middle position in the top plate, a moving motor is arranged at the left end of the moving cavity, a lead screw is arranged on the moving motor, one end part, far away from the moving motor, of the lead screw penetrates and extends into the moving cavity, a sliding block is connected to the lead screw in a sliding manner, a connecting end is arranged at the lower end part of the sliding block, mounting rods are arranged on two sides of the lower end of the connecting end, a mounting frame is arranged at the lower end part of the right mounting rod at the lower end of the connecting end, a lifting motor is arranged in the mounting frame, a threaded rod is arranged at the lower end part of the mounting rod, the right end part of the threaded rod penetrates and extends to the outer side of the mounting rod to be rotatably connected with the lifting motor, an embedding block is connected to the threaded rod in a threaded manner, a lifting rod is arranged at the middle position at the lower side of, and the lower side end part of the lifting rod is provided with a detection device, and the lower side end part of the detection device is provided with a detection tip.

As a further aspect of the present invention: the lower end of the moving cavity is hollow.

As a further aspect of the present invention: driving motor, elevator motor, moving motor and detection device all with external power source and outside singlechip electric connection, and the signal of outside singlechip is: and (STM).

As a further aspect of the present invention: and the upper end part of the circuit block is provided with a flexible circuit board.

As a further aspect of the present invention: the driving motor is fixedly embedded at the inner side of the upper end of the supporting rod.

Compared with the prior art, the beneficial effects of the utility model are that: when the device is used, firstly, the clamping spring extrudes the circuit block to clamp and fix the circuit board, the driving motor drives the meshing gear to rotate, the meshing gear drives the meshing toothed plate meshed with the meshing gear to move, so that the top plate can move longitudinally along with the meshing toothed plate, the moving motor drives the screw rod to rotate, the screw rod rotates to drive the connecting end at the lower end of the sliding block to move transversely, the lifting motor drives the threaded rod to rotate so as to drive the embedding block to drive the lifting rod on the embedding cavity to lift, can drive detection device and reciprocate, just so make things convenient for detection device to carry out diversified removal, whole device can carry out automated inspection to the flexible circuit board on the circuit block, does not need the staff to hold the test pen and detects, and labour saving and time saving not only can not exist moreover and omit, improves the efficiency that detects.

Drawings

Fig. 1 is a schematic structural diagram of a full-automatic flexible circuit board precision machining detection device.

Fig. 2 is a schematic structural diagram of what in the full-automatic flexible circuit board precision finishing detection equipment.

In the figure: 1-base, 2-supporting rod, 3-clamping rod, 4-supporting block, 5-clamping spring, 6-clamping block, 7-circuit block, 8-driving motor, 9-driving shaft, 10-meshing gear, 11-moving groove, 12-moving rod, 13-top plate, 14-meshing toothed plate, 15-moving motor, 16-moving cavity, 17-lead screw, 18-sliding block, 19-connecting end, 20-detecting tip, 21-detecting device, 22-lifting rod, 23-mounting rod, 24-embedded block, 25-threaded rod, 26-connecting spring, 27-mounting rack, 28-lifting motor and 29-embedded cavity.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, in the embodiment of the present invention, a full-automatic flexible printed circuit precision machining and detecting apparatus includes a base 1, a supporting block 4 and a top plate 13, wherein supporting rods 2 are disposed at both ends of the upper side of the base 1, the supporting block 4 is disposed at the middle position of the upper end of the base 1, supporting rods 3 are disposed at both ends of the supporting block 4, a circuit block 7 is mounted at the upper end of the supporting block 4, clamping springs 5 are disposed at the inner sides of the upper ends of the supporting rods 3, clamping blocks 6 corresponding to the circuit block 7 are disposed at the end portions of the clamping springs 5 far away from the supporting rods 3, moving grooves 11 are disposed at the upper end portions of the supporting rods 2, driving motors 8 are disposed at the inner sides of the upper ends of the supporting rods 2, driving shafts 9 are disposed at the middle positions of the ends of the driving motors 8 far away from the supporting rods, a top plate 13 is arranged at the upper end part of the moving groove 11, moving rods 12 are arranged on two sides of the lower end of the top plate 13, the lower end part of each moving rod 12 penetrates through and extends into the moving groove 11, and a meshing toothed plate 14 corresponding to the meshing gear 10 is arranged on the inner side of the lower end of the top plate 13;

a movable cavity 16 is arranged at the middle position in the top plate 13, a movable motor 15 is arranged at the left end of the movable cavity 16, a lead screw 17 is arranged on the movable motor 15, one side end part of the lead screw 17 far away from the movable motor 15 penetrates and extends into the movable cavity 16, a sliding block 18 is connected on the lead screw 17 in a sliding manner, a connecting end 19 is arranged at the lower side end part of the sliding block 18, mounting rods 23 are arranged on two sides of the lower end of the connecting end 19, a mounting frame 27 is arranged at the lower side end part of the right side mounting rod 23 at the lower end of the connecting end 19, a lifting motor 28 is arranged in the mounting frame 27, a threaded rod 25 is arranged at the lower side end part of the mounting rod 23, the right side end part of the threaded rod 25 penetrates and extends to the outer side of the mounting rod 23 to be rotatably connected with the lifting motor 28, an embedded block 24 is connected to the threaded rod 25 in a threaded manner, and the lifting rod 22 is provided with an embedding cavity 29 corresponding to the embedding block 24, the lower end part of the lifting rod 22 is provided with a detection device 21, and the lower end part of the detection device 21 is provided with a detection tip 20.

The lower end of the moving chamber 16 is hollow.

Driving motor 8, elevator motor 28, moving motor 15 and detection device 21 all with external power source and outside singlechip electric connection, and the signal of outside singlechip is: STM 32.

The upper end of the circuit block 7 is provided with a flexible circuit board.

The driving motor 8 is fixedly embedded at the inner side of the upper end of the supporting rod 2.

The utility model discloses a theory of operation is:

the utility model relates to a full-automatic flexible circuit board precision finishing check out test set, this device is applicable to many flexible circuit board detection occasions, when using, at first, clamping spring 5 extrudes circuit block 7 to carry out the centre gripping fixed with the circuit board, and driving motor 8 drives meshing gear 10 and rotates, meshing gear 10 drives meshing pinion rack 14 with it meshing again and moves, just so can make roof 13 along with meshing pinion rack 14 longitudinal movement, and moving motor 15 drives lead screw 17 and rotates, lead screw 17 rotates and drives connecting end 19 of slider 18 lower extreme and carry out lateral shifting, and elevator motor 28 drives threaded rod 25 and rotates and then drives inlay piece 24 and drive lifter 22 on inlay chamber 29 and go up and down, can drive detection device 21 and reciprocate, just so make things convenient for detection device 21 to carry out diversified movement, whole device can carry out automated inspection to the flexible circuit board on the circuit block 7, the detection pen does not need to be held by a worker for detection, time and labor are saved, omission does not exist, and detection efficiency is improved.

It is obvious to a person skilled in the art that the invention is not restricted 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. The present embodiments are therefore to be considered in all respects as illustrative 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. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. A full-automatic flexible circuit board precision finishing detection device comprises a base (1), supporting blocks (4) and a top plate (13), and is characterized in that supporting rods (2) are arranged at two ends of the upper side of the base (1), the supporting blocks (4) are arranged at the middle position of the upper end of the base (1), clamping rods (3) are arranged at two ends of each supporting block (4), a circuit block (7) is installed at the end part of the upper side of each supporting block (4), clamping springs (5) are arranged on the inner sides of the upper ends of the clamping rods (3), clamping blocks (6) which correspond to the circuit block (7) are arranged at the end parts, far away from the clamping rods (3), of the clamping springs (5), moving grooves (11) are arranged at the end parts of the upper sides of the supporting rods (2), driving motors (8) are arranged on the inner sides of the upper ends of the supporting rods (2), and driving shafts (9) are arranged at the, a meshing gear (10) is arranged at one side end part of the driving shaft (9) far away from the driving motor (8), a top plate (13) is arranged at the upper side end part of the moving groove (11), moving rods (12) are arranged at two sides of the lower end of the top plate (13), the lower side end part of each moving rod (12) penetrates through the moving groove (11) and extends to the inside of the moving groove, and a meshing toothed plate (14) corresponding to the meshing gear (10) is arranged on the inner side of the lower end of the top plate (13);

a movable cavity (16) is formed in the middle of the inner portion of the top plate (13), a movable motor (15) is arranged at the left end of the movable cavity (16), a lead screw (17) is arranged on the movable motor (15), one side end portion, far away from the movable motor (15), of the lead screw (17) penetrates through the movable cavity (16), a sliding block (18) is connected onto the lead screw (17) in a sliding mode, a connecting end (19) is arranged at the lower side end portion of the sliding block (18), mounting rods (23) are arranged on two sides of the lower end of the connecting end (19), a mounting frame (27) is arranged at the lower side end portion of the mounting rod (23) on the right side of the lower end of the connecting end (19), a lifting motor (28) is arranged inside the mounting frame (27), a threaded rod (25) is arranged at the lower side end portion of the mounting rod (23), the right side end portion of the threaded rod (, and threaded connection has set block (24) on threaded rod (25), the downside intermediate position of link (19) is equipped with lifter (22), and be equipped with connecting spring (26) between the upside tip of lifter (22) and the connection of link (19), and be equipped with on lifter (22) and set up with set block (24) correspond set up inlay and establish chamber (29), and the downside tip of lifter (22) is equipped with detection device (21), the downside tip of detection device (21) is equipped with detects most advanced (20).

2. The full-automatic flexible circuit board precision machining detection equipment of claim 1, characterized in that the lower side end of the moving cavity (16) is hollow.

3. The full-automatic flexible circuit board precision machining detection equipment of claim 1, wherein the driving motor (8), the lifting motor (28), the moving motor (15) and the detection device (21) are electrically connected with an external power supply and an external singlechip, and the external singlechip has signals as follows: STM 32.

4. The full-automatic flexible circuit board precision finishing detection device of claim 1, characterized in that the upper side end of the circuit block (7) is provided with a flexible circuit board.

5. The full-automatic flexible circuit board precision machining detection equipment of claim 1, characterized in that the driving motor (8) is fixedly embedded inside the upper end of the support rod (2).

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