CN212329818U - Precision test probe processing equipment - Google Patents

Abstract

The utility model discloses a precision test probe processing device, when in use, firstly a conveying motor is started to drive a conveying guide wheel to rotate, so that the probe tube is driven to move by the conveying guide wheel by using friction force, the probe tube moves to the bottom of the cutting tool bit, and after the length of the probe tube exceeds the cutting tool bit, the driving motor is started to drive the rotating disc to rotate, and then the rotating column drives the swinging rod to swing up and down, so that the cutting rod goes up and down, the probe tube is cut by the cutting tool bit and the inclined cutting surface under the buffering of the buffer spring, so that the probe tube is cut off, the formed probe after falling is connected and held by the material box, the operation is simple, the use is convenient, the labor is saved, can effectively increase work efficiency, the iron fillings that drop during the cutting attract through the magnet piece to can effectively avoid iron fillings to splash everywhere, thereby make things convenient for the clearance of operator to iron fillings.

Description

Precision test probe processing equipment

Technical Field

The utility model relates to a probe processing technology field specifically is a precision test probe processing equipment.

Background

The probe is a contact medium for electrical test and is a high-end precise electronic hardware component. In the production process of producing the micro probe needle, manual operation is needed, so that the efficiency is low and the quality is poor.

Accordingly, those skilled in the art have provided a precision test probe fabrication apparatus to solve the problems set forth in the background art described above.

Disclosure of Invention

An object of the utility model is to provide a precision testing probe processing equipment 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 precision test probe processing device comprises a mounting rack, a cutting device, a conveying device and a driving device; the horizontal position department of the inside upper end of mounting bracket is equipped with the horizontal pole, and is equipped with the bending pole between the right side tip of horizontal pole and the being connected of mounting bracket, is equipped with the installation pole between the upside tip of horizontal pole and the being connected of mounting bracket, and the left side of the inside lower extreme of mounting bracket is equipped with the cutting bed, and the upside tip of cutting bed is equipped with the cutting board, and the terminal surface upside of cutting bed all is equipped with the magnet piece, and the left end downside of cutting bed is equipped with the material case.

As a further aspect of the present invention: the conveying equipment comprises a supporting seat, a conveying rod, a conveying motor and a conveying guide wheel; the right side of the inside lower extreme of mounting bracket is equipped with the supporting seat, and the upside tip of supporting seat is equipped with carries the pole, carries the inboard upper and lower both ends of pole and all rotates to connect and carry the guide pulley, and carries the pole lower extreme to carry the outside of guide pulley to be equipped with conveying motor, and carries and be equipped with the probe pipe between the guide pulley from top to bottom, and the one end of probe pipe runs through and extends to the inboard of carrying the guide pulley, and the end that runs through of probe pipe runs through and extends to on cutting bed and the cutting.

As a further aspect of the present invention: the cutting equipment comprises a cutting rod, a buffer spring, a sliding sleeve and a cutting tool bit; the inside both ends of horizontal pole and the pole of bending all are equipped with the sliding sleeve, and the inside upside of horizontal pole and the pole of bending is equipped with cuts the pole, and is equipped with buffer spring between the end wall connection of the upside tip of cutting pole and mounting bracket, and the downside tip of cutting the pole runs through the lower extreme outside that extends to the sliding sleeve, and the downside of cutting the pole runs through to serve and is equipped with the cutting tool bit.

As a further aspect of the present invention: the driving device comprises a swinging rod, a rotating disc, a driving motor and a connecting end; the left side tip of horizontal pole is equipped with the swinging arms, and is equipped with the pivot between the rotation of the left side tip of swinging arms and horizontal pole is connected, and the inboard of swinging arms has seted up the swing chamber, is equipped with driving motor between the connection of horizontal pole and installation pole, and is equipped with the drive shaft on the driving motor, is equipped with the rolling disc in the drive shaft, and the positive outer lane of rolling disc is equipped with the rotation post that corresponds the setting with swinging arms and swing chamber, and the right side tip of swinging arms is equipped with the link with cutting rod swing joint.

As a further aspect of the present invention: driving motor and conveying motor all with external power source and outside singlechip electric connection, and the model of outside singlechip is: PIC18F 4610-I/P.

As a further aspect of the present invention: the lower end of the cutting tool bit is provided with an inclined cutting surface.

Compared with the prior art, the beneficial effects of the utility model are that: the device is suitable for various probe processing occasions, when in use, firstly the conveying motor is started to drive the conveying guide wheel to rotate, so that the probe tube is driven to move by the conveying guide wheel by using friction force, the probe tube moves to the bottom of the cutting tool bit, and after the length of the probe tube exceeds the cutting tool bit, the driving motor is started to drive the rotating disc to rotate, and then the rotating column drives the swinging rod to swing up and down, so that the cutting rod goes up and down, the probe tube is cut by the cutting tool bit and the inclined cutting surface under the buffering of the buffer spring, so that the probe tube is cut off, the formed probe after falling is connected and held by the material box, the operation is simple, the use is convenient, the labor is saved, can effectively increase work efficiency, the iron fillings that drop during the cutting attract through the magnet piece to can effectively avoid iron fillings to splash everywhere, thereby make things convenient for the clearance of operator to iron fillings.

Drawings

Fig. 1 is a schematic structural diagram of a precision test probe processing apparatus.

Fig. 2 is a schematic structural diagram of a precision test probe processing apparatus a.

In the figure: 1-mounting frame, 2-material box, 3-cutting table, 4-magnet block, 5-cutting plate, 6-probe tube, 7-cutting tool bit, 8-cross bar, 9-rotating shaft, 10-oscillating bar, 11-oscillating cavity, 12-mounting bar, 13-sliding sleeve, 14-cutting bar, 15-connecting end, 16-buffer spring, 17-bending bar, 18-conveying guide wheel, 19-conveying motor, 20-conveying bar, 21-supporting seat, 22-rotating disc, 23-driving shaft, 24-rotating column and 25-driving motor.

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 an embodiment of the present invention, a precision test probe processing apparatus includes a mounting frame, a cutting apparatus, a conveying apparatus, and a driving device; horizontal position department of the inside upper end of mounting bracket 1 is equipped with horizontal pole 8, and is equipped with bending rod 17 between the right side tip of horizontal pole 8 and mounting bracket 1's being connected, is equipped with installation pole 12 between the upside tip of horizontal pole 8 and mounting bracket 1's being connected, and the left side of the inside lower extreme of mounting bracket 1 is equipped with cutting bed 3, and the upside tip of cutting bed 3 is equipped with cutting board 5, and the terminal surface upside of cutting bed 3 all is equipped with magnet piece 4, and the left end downside of cutting bed 3 is equipped with material case 2.

The conveying equipment comprises a supporting seat 21, a conveying rod 20, a conveying motor 19 and a conveying guide wheel 18; the right side of the inside lower extreme of mounting bracket 1 is equipped with supporting seat 21, and the upside tip of supporting seat 21 is equipped with carries pole 20, and the upper and lower both ends of carrying pole 20 inboard are all rotated and are connected and carry guide pulley 18, and the outside that carries guide pulley 18 to the 20 lower extremes of carrying pole is equipped with conveying motor 19, and carry and be equipped with probe tube 6 between pole 20's the upper and lower transport guide pulley 18, and the one end of probe tube 6 runs through the inboard that extends to carrying guide pulley 18, and the end that runs through of probe tube 6 runs through and extends to on cutting bed 3 and cutting board 5.

The cutting device comprises a cutting rod 14, a buffer spring 16, a sliding sleeve 13 and a cutting knife head 7; horizontal pole 8 and the inboard both ends of bending pole 17 all are equipped with sliding sleeve 13, and the inside upside of horizontal pole 8 and bending pole 17 is equipped with cutting rod 14, and is equipped with buffer spring 16 between cutting rod 14's the upside tip and the end wall connection of mounting bracket 1, and cutting rod 14's downside tip runs through the lower extreme outside that extends to sliding sleeve 13, and cutting rod 14's downside runs through to serve and is equipped with cutting tool bit 7.

The driving device comprises a swing rod 10, a rotating disc 22, a driving motor 25 and a connecting end 15; the left side tip of horizontal pole 8 is equipped with swinging arms 10, and be equipped with pivot 9 between the left side tip of swinging arms 10 and the rotation of horizontal pole 8 are connected, and swing chamber 11 has been seted up to the inboard of swinging arms 10, be equipped with driving motor 25 between the connection of horizontal pole 8 and installation pole 12, and be equipped with drive shaft 23 on the driving motor 25, be equipped with rolling disc 22 on the drive shaft 23, and the front outer lane of rolling disc 22 is equipped with the rotation post 24 that corresponds the setting with swinging arms 10 and swing chamber 11, and the right side tip of swinging arms 10 is equipped with the link 15 with 14 swing joint of cutting rod.

Driving motor 25 and conveying motor 19 all with external power source and outside singlechip electric connection, and the model of outside singlechip is: PIC18F 4610-I/P.

The lower end of the cutting tool bit 7 is provided with an inclined cutting surface.

The utility model discloses a theory of operation is:

the utility model relates to a precision test probe processing device, the device is suitable for a plurality of probe processing occasions, when in use, firstly, a conveying motor 19 is started to drive a conveying guide wheel 18 to rotate, so that the conveying guide wheel 18 drives a probe tube 6 to move by utilizing friction force, the probe tube 6 moves to the bottom of a cutting tool bit 7, after the length of the probe tube 6 exceeds the cutting tool bit 7, a driving motor 25 is started to drive a rotating disc 22 to rotate, and then a swinging rod 10 is driven to swing up and down by a rotating column 24, so that a cutting rod 14 goes up and down, the probe tube 6 is cut by the cutting tool bit 7 and an inclined cutting surface under the buffering of a buffer spring 16, so that the probe tube 6 is cut off, the falling formed probe is held by a material box 2, the operation is simple, the use is convenient and labor-saving, the working efficiency can be effectively increased, the iron chips are attracted by a magnet block 4 during cutting, thereby effectively avoiding iron filings from splashing everywhere, and facilitating the cleaning of the iron filings by an operator.

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 (6)

1. A precision test probe processing device comprises a mounting rack, a cutting device, a conveying device and a driving device; the cutting table is characterized in that a transverse position of the upper end inside the mounting frame (1) is provided with a transverse rod (8), a bending rod (17) is arranged between the right side end of the transverse rod (8) and the mounting frame (1), an installation rod (12) is arranged between the upper side end of the transverse rod (8) and the mounting frame (1), a cutting table (3) is arranged on the left side of the lower end inside the mounting frame (1), a cutting plate (5) is arranged at the upper side end of the cutting table (3), magnet blocks (4) are arranged on the upper side of the end face of the cutting table (3), and a material box (2) is arranged on the lower side of the left end of the cutting table.

2. The precision test probe machining apparatus of claim 1, wherein the conveying apparatus comprises a support base (21), a conveying rod (20), a conveying motor (19) and a conveying guide wheel (18); the right side of the inside lower extreme of mounting bracket (1) is equipped with supporting seat (21), and the upside tip of supporting seat (21) is equipped with transport pole (20), transport pole (20) inboard upper and lower both ends all rotate and connect and carry guide pulley (18), and the outside of carrying pole (20) lower extreme to carry guide pulley (18) is equipped with conveying motor (19), and carry and be equipped with between upper and lower transport guide pulley (18) of pole (20) probe pipe (6), the one end of probe pipe (6) runs through the inboard that extends to carry guide pulley (18), and the end that runs through of probe pipe (6) runs through to on cutting bed (3) and cutting board (5).

3. A precision test probe machining apparatus according to claim 1, characterized in that the cutting apparatus comprises a cutting bar (14), a buffer spring (16), a sliding sleeve (13) and a cutting head (7); horizontal pole (8) and the inboard both ends of bending pole (17) all are equipped with sliding sleeve (13), and the inside upside of horizontal pole (8) and bending pole (17) is equipped with cutting pole (14), and is equipped with buffer spring (16) between the end wall connection of the upside tip of cutting pole (14) and mounting bracket (1), and the downside tip of cutting pole (14) runs through the lower extreme outside that extends to sliding sleeve (13), and the downside of cutting pole (14) runs through to serve and is equipped with cutting tool bit (7).

4. A precision test probe machining apparatus according to claim 1, characterized in that the drive means comprises a swing lever (10), a rotating disc (22), a drive motor (25) and a connecting end (15); the utility model discloses a cutting rod, including horizontal pole (8), swing rod (10) and installation pole (12), the left side tip of horizontal pole (8) is equipped with swinging arms (10), and be equipped with pivot (9) between the rotation of the left side tip of swinging arms (10) and horizontal pole (8) is connected, and swing chamber (11) have been seted up to the inboard of swinging arms (10), be equipped with driving motor (25) between the connection of horizontal pole (8) and installation pole (12), and be equipped with drive shaft (23) on driving motor (25), be equipped with rolling disc (22) on drive shaft (23), and the front outer lane of rolling disc (22) is equipped with rotation post (24) that correspond the setting with swinging arms (10) and swing chamber (11), and the right side tip of swinging arms (10) is equipped with link (.

5. The precision test probe machining apparatus of claim 4, wherein the driving motor (25) and the conveying motor (19) are electrically connected to an external power supply and an external single chip microcomputer, and the external single chip microcomputer is of a type: PIC18F 4610-I/P.

6. A precision test probe machining apparatus according to claim 3, characterized in that the lower end of the cutting head (7) is provided with an inclined cutting surface.

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