CN113953405A - Electronic component pre-welding treatment equipment for laboratory equipment maintenance and treatment method - Google Patents

Abstract

The invention provides electronic component pre-welding treatment equipment for laboratory equipment maintenance, which comprises a sheet support, a servo motor and a blanking groove, wherein the servo motor and the blanking groove are respectively arranged on two sides of the sheet support, a rotating shaft is arranged on the servo motor, penetrates through the sheet support and is positioned below the blanking groove, a sector rotary disc and two sector drive plates are fixedly arranged on the rotating shaft, the sector rotary disc is positioned between the two sector drive plates, the end surfaces, close to the sector rotary disc, of the two sector drive plates are respectively in sliding contact with two sides of the blanking groove, two arc-shaped guide rails are fixedly arranged below the blanking groove, the circle centers of the arc-shaped guide rails are superposed with the axis of the rotating shaft, and bending blocks are arranged on the arc-shaped guide rails.

Description

Electronic component pre-welding treatment equipment for laboratory equipment maintenance and treatment method

Technical Field

The invention relates to the field of laboratory equipment maintenance, in particular to electronic element pre-welding treatment equipment and a treatment method for laboratory equipment maintenance.

Background

Electronic components, which are basic elements in electronic circuits, are usually individually packaged, and include a main body and metal connectors disposed at two ends of the main body. Electronic components are interconnected to form an electronic circuit having a specific function, and one of the common ways of connecting electronic components is soldering to a printed circuit board.

Laboratory facilities contain a large amount of printed circuit boards inside, and laboratory facilities generally are that electronic component damages when breaking down, therefore, laboratory facilities maintains and needs to use a large amount of electronic component, and electronic component is before welding printed circuit board, need first buckle 90 with two metal joint of electronic component, welds it to printed circuit board's relevant position again.

The existing processing mode is that a maintainer uses a vice to manually bend metal joints at two ends of an electronic element, the mode wastes time, the bending angle is not easy to control, and inexperienced maintainers can damage the electronic element in the manual bending process.

Disclosure of Invention

The invention aims to provide electronic element pre-welding treatment equipment for laboratory equipment maintenance, which solves the problems that the existing mode of bending a metal joint of an electronic element is slow in speed and easy to damage a resistor.

The second purpose of the present invention is to provide a method for pre-welding electronic components for laboratory equipment maintenance, so as to solve the problems of low speed and easy damage to resistors in the current manner of bending metal joints of electronic components.

One of the objects of the invention is achieved by:

the utility model provides a laboratory is electronic component before welding treatment equipment for equipment maintenance, include the sheet metal support with set up respectively in the servo motor and the feed chute of sheet metal support both sides, the last pivot that is provided with of servo motor, the pivot is passed the sheet metal support is located silo below down, fixed fan-shaped carousel and two fan-shaped driver plates of being provided with in the pivot, fan-shaped carousel is located two in the middle of the fan-shaped driver plate, two being close to of fan-shaped driver plate the terminal surface of fan-shaped carousel respectively with the both sides sliding contact of silo down, the below of silo is fixed and is provided with two arc guide rails down, the centre of a circle of arc guide rail with the axis coincidence of pivot, be provided with the bending piece on the arc guide rail.

The material guide device is characterized in that a material guide groove is fixedly arranged at the bottom of the material discharge groove, a material stirring hole is formed in the bottom of the material guide groove, and the position of the material stirring hole corresponds to that of the fan-shaped rotary table.

The fan-shaped driving plate is provided with a clamping groove, and the surface of the fan-shaped driving plate adjacent to the clamping groove is provided with a feeding inclined surface which is convenient for a metal joint of an electronic element to enter the clamping groove.

First guide way and second guide way have been seted up to the arc guide rail inboard, the piece of buckling slide set up in the first guide way, be provided with first spring in the first guide way, first spring coupling the piece of buckling with the arc guide rail, it is provided with the steady piece to slide in the second guide way, the length of steady piece is less than the length of the piece of buckling, be provided with the second spring in the second guide way, the second spring coupling the steady piece with the arc guide rail.

And an arc-shaped surface is arranged at one end of the bending block close to the discharging groove.

And the upper end surface of the outlet of the guide chute is rotatably provided with a discharging plate.

The second purpose of the invention is realized by the following steps:

a method for processing electronic components before welding for laboratory equipment maintenance comprises the following steps:

A. preparing a blanking groove, a sheet support and a guide groove, fixedly connecting the blanking groove with the sheet support, and fixedly installing the guide groove at the bottom of the blanking groove;

B. preparing a rotating shaft and a servo motor, and rotatably installing the rotating shaft on the thin plate bracket, wherein two ends of the rotating shaft are respectively arranged at two sides of the thin plate bracket; fixedly mounting a servo motor on one side of the thin plate support, which is different from the blanking groove, and connecting the servo motor with the rotating shaft;

C. preparing a fan-shaped rotary table and two fan-shaped drive plates, fixedly mounting the fan-shaped rotary table and the two fan-shaped drive plates on the rotating shaft, arranging material stirring holes at the bottom of the material guide groove, wherein the fan-shaped rotary table corresponds to the material stirring holes, the fan-shaped drive plates are symmetrically mounted on two sides of the fan-shaped rotary table, and the fan-shaped drive plates are in sliding contact with the side surface of the discharging groove;

D. preparing two arc-shaped guide rails, symmetrically and fixedly installing the two arc-shaped guide rails on two sides of the blanking groove, wherein the circle center of each arc-shaped guide rail is overlapped with the axis of the rotating shaft, a bending block and a stabilizing block are installed in the arc-shaped guide rails in a sliding mode, a first spring is installed between the bending block and the arc-shaped guide rails, a second spring is installed between the stabilizing block and the arc-shaped guide rails, and a discharging plate is installed on the upper end face of the outlet of the guide chute in a rotating mode;

E. electronic components are sequentially placed in the feeding groove, the servo motor is started to rotate in a positive and negative alternating mode, and the fan-shaped rotary disc and the fan-shaped drive plate are matched with the bending block to bend the electronic components.

In step E, the specific steps of bending the electronic component by the fan-shaped turntable and the fan-shaped dial matching with the bending block are as follows:

s01, the servo motor rotates forwards, the fan-shaped rotary disc and the fan-shaped drive plate are driven to rotate forwards through the rotating shaft, one of the electronic elements is driven to move along the material guide groove from the material discharging groove, and bending work is finished under the action of the bending block;

s02, after the bending work is finished, the servo motor rotates reversely, the fan-shaped rotary disc and the fan-shaped drive disc are driven to rotate reversely through the rotating shaft, the electronic element is driven to return in the original way, the discharge plate is touched on the way, the electronic element is separated from the fan-shaped drive disc and the fan-shaped rotary disc under the action of the discharge plate, the blanking is finished, and the fan-shaped rotary disc and the fan-shaped drive disc continue to rotate until the electronic element in the blanking groove is contacted with the fan-shaped rotary disc;

and S03, repeating the steps S01 and S02.

The invention has the beneficial effects that:

the invention can automatically feed materials through the fan-shaped turntable and the fan-shaped drive plate, and can finish the bending work of a large number of electronic elements in a short time.

According to the invention, the stable block is matched with the bending block, so that the bending position and the bending angle can be controlled, and the practicability is strong.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the rear portion of the present invention;

FIG. 3 is a schematic diagram of the structure of the present invention during operation;

FIG. 4 is an enlarged schematic view of portion A of FIG. 2;

FIG. 5 is an enlarged schematic view of portion B of FIG. 1;

fig. 6 is a schematic structural diagram of the sector rotary table of the invention.

In the above drawings: 1. a sheet support; 2. a discharging groove; 3. an electronic component; 4. a sector dial; 5. a rotating shaft; 6. a sector turntable; 7. a servo motor; 8. an arc-shaped guide rail; 9. a bending block; 10. a stabilizing block; 11. a stripper plate; 21. a material poking hole; 22. a material guide chute; 41. a card slot; 42. feeding an inclined plane; 61. a lifting groove; 81. a first guide groove; 82. a second guide groove; 83. a first spring; 84. a second spring; 85. a stop surface; 91. an arc-shaped surface.

Detailed Description

The invention is further illustrated by the following examples, which are given by way of illustration only and are not intended to limit the scope of the invention in any way.

The first embodiment is as follows:

a electronic component pre-welding treatment device for laboratory equipment maintenance is disclosed, as shown in fig. 1 and fig. 2, comprising a square thin plate support 1, the thin plate support 1 can be fixed on the ground or other places through bolts or other ways, a blanking slot 2 and a servo motor 7 are sequentially fixed on the thin plate support 1 from top to bottom, an output shaft of the servo motor 7 is perpendicular to the thin plate support 1 and points to the thin plate support 1, a rotating shaft 5 is arranged on the output shaft of the servo motor 7 through a coupler, the rotating shaft 5 penetrates through the thin plate support 1, a sector rotary disc 6 and two sector drive discs 4 are fixedly arranged on the rotating shaft 5, the sector rotary disc 6 and the sector drive discs 4 are both arranged on one side of the thin plate support 1 different from the servo motor 7, the sector rotary disc 6 is arranged in the middle of the two sector drive discs 4, as shown in fig. 6, a lifting slot 61 is arranged on the sector rotary disc 6, the lifting slot 61 is used for supporting the main body of the electronic component 3, conveniently carry out bending work, as shown in fig. 5, the draw-in groove 41 has been seted up on the fan-shaped dial 4, the entrance of draw-in groove 41 is provided with pan feeding inclined plane 42, help electronic component 3's metal joint more smoothly get into in the draw-in groove 41, when electronic component 3's main part was lifted by lifting slot 61, electronic component 3's metal joint gets into draw-in groove 41, reach the tip of draw-in groove 41, draw-in groove 41 and lifting slot 61 together drive electronic component 3 and remove promptly, lower silo 2 is located pivot 5 top, wherein the terminal surface that is close to fan-shaped tray of two fan-shaped dials 4 and the both sides face sliding contact of lower silo 2, the fixed baffle box 22 that is provided with in lower silo 2 bottom, baffle box 22 bottom is provided with material shifting hole 21, fan-shaped tray can be pushed out electronic component 3 in lower silo 2 along baffle box 22 through material shifting hole 21.

As shown in fig. 2 and 4, a first guide groove 81 and a second guide groove 82 are formed along the arc-shaped track in the arc-shaped track, a bending block 9 is slidably disposed in the first guide groove 81, a stabilizing block 10 is slidably disposed in the second guide groove 82, the arc length of the bending block 9 is longer than the arc length of the stabilizing block 10, a stop surface 85 is disposed in each of the first guide groove 81 and the second guide groove 82, so that the bending block 9 stops moving when moving to a certain position, a first spring 83 is further disposed in the first guide groove 81, two ends of the first spring 83 are respectively connected with the arc-shaped guide rail 8 and the bending block 9, a second spring 84 is disposed in the second guide groove 82, two ends of the second spring 84 are respectively connected with the arc-shaped guide rail 8 and the stabilizing block 10, when the electronic element 3 moves under the driving of the sector dial 4 and the sector dial 6, bending block 9 and stabilizing block 10 are touched to electronic component 3's metal joint, electronic component 3 continues to move this moment, bending block 9 touches when backstop face 85, because the length of stabilizing block 10 is less than bending block 9's length, stopping face 85 has not been touched to stabilizing block 10 this moment, electronic component 3 continues to move, thereby bending block buckles electronic component 3's metal joint, stabilizing block 10 contacts with electronic component 3's metal joint through second spring 84 always, produce certain effort to the metal joint portion that contacts with it, can effectively control metal joint's bending part, as shown in fig. 5, bending block 9's the one end with electronic component 3's metal joint butt is provided with arcwall face 91, can effectively control metal joint's bending angle.

As shown in fig. 1 and 3, the upper end of the outlet of the guide chute is rotatably provided with a discharging plate 11, the discharging plate 11 allows the electronic component 3 to only come out of the guide chute 22, the electronic component 3 is stopped by the discharging plate 11 when returning, when the electronic component 3 moves from the position shown in fig. 1 to the position shown in fig. 3, the discharging plate 11 contacts with the electronic component 3, the electronic component 3 smoothly passes through as the electronic component 3 swings along the rotation center of the discharging plate 11, after the electronic component 3 passes through, the discharging plate 11 returns to the position shown in fig. 1 under the action of gravity, and when the electronic component 3 returns to contact with the discharging plate 11, the discharging plate 11 cannot continuously tilt towards the inside of the guide chute due to the thickness of the guide chute, so that the electronic component 3 with resistance returns to the guide chute 22.

The working principle of the invention is as follows:

starting a servo motor 7 to continuously rotate in a forward and reverse alternating manner, driving a sector rotary disc 6 and a sector drive disc 4 to continuously rotate in a forward and reverse alternating manner through a rotating shaft 5, wherein the initial position is as shown in fig. 1, when the sector rotary disc 6 and the sector drive disc 4 rotate in a forward direction, the sector rotary disc 6 and the sector drive disc 4 drive an electronic element 3 to move along a guide chute 22, touch a stabilizing block 10 and a bending block 9 on the way and move together, after the stabilizing block 10 touches a stop surface 85, the stabilizing block 10 stops moving, the electronic element 3 continues to move under the driving of the sector rotary disc 6 and the sector drive disc 4, so as to achieve the purpose of bending a metal joint, after the bending is completed, the servo motor 7 starts to rotate in a reverse direction, the stabilizing block 10 and the bending block 9 respectively return together with the electronic element 3 under the thrust of a second spring 84 and a first spring 83, when the electronic element 3 moves to contact with a discharge plate 11, the electronic element 3 stops moving, the sector drive disc 4 and the sector rotary disc 6 continue to rotate under the driving of the rotating shaft 5, when the electronic component 3 is separated from the lifting groove 61 of the fan-shaped rotary disc 6, the electronic component 3 falls down under the action of gravity, and then the fan-shaped rotary disc 6 and the fan-shaped drive disc 4 drive the next electronic component 3 in the blanking groove 2, and the operation is circulated.

Example two:

a method for processing electronic components before welding for laboratory equipment maintenance comprises the following steps:

A. preparing a blanking groove 2, a thin plate support 1 and a guide chute 22, fixedly connecting the blanking groove 2 with the thin plate support 1, and fixedly installing the guide chute 22 at the bottom of the blanking groove 2;

B. preparing a rotating shaft 5 and a servo motor 7, rotatably installing the rotating shaft 5 on the thin plate bracket 1, wherein two ends of the rotating shaft 5 are respectively arranged at two sides of the thin plate bracket 1; fixedly installing a servo motor 7 on one side of the thin plate support 1, which is different from the blanking groove 2, and connecting the servo motor 7 with the rotating shaft 5;

C. preparing a fan-shaped rotary table 6 and two fan-shaped drive plates 4, fixedly installing the fan-shaped rotary table 6 and the two fan-shaped drive plates 4 on a rotating shaft 5, arranging material stirring holes 21 at the bottom of a material guide groove 22, enabling the fan-shaped rotary table 6 to correspond to the material stirring holes 21, symmetrically installing the fan-shaped drive plates 4 on two sides of the fan-shaped rotary table 6, and enabling the fan-shaped drive plates 4 to be in sliding contact with the side surface of a discharging groove 2;

D. preparing two arc-shaped guide rails 8, symmetrically and fixedly installing the two arc-shaped guide rails 8 at two sides of the blanking chute 2, enabling the circle centers of the arc-shaped guide rails 8 to coincide with the axis of the rotating shaft 5, installing a bending block 9 and a stabilizing block 10 in the arc-shaped guide rails 8 in a sliding manner, installing a first spring 83 between the bending block 9 and the arc-shaped guide rails 8, installing a second spring 84 between the stabilizing block 10 and the arc-shaped guide rails 8, and rotatably installing a blanking plate 11 on the upper end face of an outlet of the material guide chute 22;

E. electronic components 3 are sequentially placed into the discharging groove 2, the servo motor 7 is started to rotate in a positive and negative alternating mode, and the electronic components 3 are bent through the fan-shaped rotary disc 6 and the fan-shaped drive disc 4 which are matched with the bending block 9.

In step E, the specific steps of bending the electronic component 3 by the fan-shaped rotary disc 6 and the fan-shaped dial 4 in cooperation with the bending block 9 are as follows:

s01, the servo motor 7 rotates forward, the fan-shaped rotary disc 6 and the fan-shaped drive plate 4 are driven to rotate forward through the rotating shaft 5, one of the electronic elements 3 is driven to move along the material guide groove 22 from the blanking groove 2, and the bending work is finished under the action of the bending block 9;

s02, after the bending work is finished, the servo motor 7 rotates reversely, the fan-shaped rotary disc 6 and the fan-shaped drive disc 4 are driven to rotate reversely through the rotating shaft 5, the electronic element 3 is driven to return in the original way, the discharge plate 11 is touched on the way, the electronic element 3 is separated from the fan-shaped drive disc 4 and the fan-shaped rotary disc 6 under the action of the discharge plate 11, the blanking is finished, and the fan-shaped rotary disc 6 and the fan-shaped drive disc 4 continue to rotate until the electronic element 3 in the blanking groove 2 is contacted with the fan-shaped rotary disc 6;

and S03, repeating the steps S01 and S02.

The above description of the present invention is intended to be illustrative. Various modifications, additions and substitutions for the specific embodiments described may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (8)

1. The utility model provides a laboratory is electronic component before welding treatment equipment for equipment maintenance, its characterized in that, include the sheet metal support with set up respectively in the servo motor and the lower silo of sheet metal support both sides, the last pivot that is provided with of servo motor, the pivot is passed the sheet metal support is located silo below down, fixed fan-shaped carousel and two fan-shaped driver plates of being provided with in the pivot, fan-shaped carousel is located two in the middle of the fan-shaped driver plate, two be close to of fan-shaped driver plate the terminal surface of fan-shaped carousel respectively with the both sides sliding contact of silo down, the below of silo is fixed and is provided with two arc guide rails down, the centre of a circle of arc guide rail with the axis coincidence of pivot, be provided with the bending piece on the arc guide rail.

2. The electronic component pre-welding treatment equipment for laboratory equipment maintenance according to claim 1, wherein a material guide chute is fixedly arranged at the bottom of the material guide chute, a material poking hole is formed at the bottom of the material guide chute, and the position of the material poking hole corresponds to the fan-shaped turntable.

3. The electronic component pre-welding treatment equipment for laboratory equipment maintenance according to claim 2, wherein a clamping groove is formed in the fan-shaped driving plate, and a feeding inclined surface for facilitating a metal joint of the electronic component to enter the clamping groove is arranged on a surface of the fan-shaped driving plate adjacent to the clamping groove.

4. The electronic component pre-welding treatment equipment for laboratory equipment maintenance according to claim 3, wherein a first guide groove and a second guide groove are formed in the inner side of the arc-shaped guide rail, the bending block is slidably disposed in the first guide groove, a first spring is disposed in the first guide groove, the first spring is connected with the bending block and the arc-shaped guide rail, a stabilizing block is slidably disposed in the second guide groove, the length of the stabilizing block is smaller than that of the bending block, a second spring is disposed in the second guide groove, and the second spring is connected with the stabilizing block and the arc-shaped guide rail.

5. The pre-weld processing apparatus for electronic components for laboratory equipment maintenance according to claim 4, wherein an arc-shaped surface is provided at an end of the bending block adjacent to the blanking chute.

6. The electronic component before welding treatment equipment for laboratory equipment maintenance according to claim 5, wherein a discharging plate is rotatably provided on an upper end surface of the outlet of the material guide chute.

7. A method for pre-soldering treatment of electronic components for laboratory equipment maintenance, which is characterized in that the electronic components for laboratory equipment maintenance pre-soldering treatment equipment as claimed in any one of claims 1 to 6 is used, and the method comprises the following steps:

A. preparing a blanking groove, a sheet support and a guide groove, fixedly connecting the blanking groove with the sheet support, and fixedly installing the guide groove at the bottom of the blanking groove;

B. preparing a rotating shaft and a servo motor, and rotatably installing the rotating shaft on the thin plate bracket, wherein two ends of the rotating shaft are respectively arranged at two sides of the thin plate bracket; fixedly mounting a servo motor on one side of the thin plate support, which is different from the blanking groove, and connecting the servo motor with the rotating shaft;

C. preparing a fan-shaped rotary table and two fan-shaped drive plates, fixedly mounting the fan-shaped rotary table and the two fan-shaped drive plates on the rotating shaft, arranging material stirring holes at the bottom of the material guide groove, wherein the fan-shaped rotary table corresponds to the material stirring holes, the fan-shaped drive plates are symmetrically mounted on two sides of the fan-shaped rotary table, and the fan-shaped drive plates are in sliding contact with the side surface of the discharging groove;

D. preparing two arc-shaped guide rails, symmetrically and fixedly installing the two arc-shaped guide rails on two sides of the blanking groove, wherein the circle center of each arc-shaped guide rail is overlapped with the axis of the rotating shaft, a bending block and a stabilizing block are installed in the arc-shaped guide rails in a sliding mode, a first spring is installed between the bending block and the arc-shaped guide rails, a second spring is installed between the stabilizing block and the arc-shaped guide rails, and a discharging plate is installed on the upper end face of the outlet of the guide chute in a rotating mode;

E. electronic components are sequentially placed in the feeding groove, the servo motor is started to rotate in a positive and negative alternating mode, and the fan-shaped rotary disc and the fan-shaped drive plate are matched with the bending block to bend the electronic components.

8. The method for processing electronic components before welding for laboratory equipment maintenance according to claim 7, wherein in step E, the specific steps of bending the electronic components by the fan-shaped rotary table and the fan-shaped dial fitting bending block are as follows:

s01, the servo motor rotates forwards, the fan-shaped rotary disc and the fan-shaped drive plate are driven to rotate forwards through the rotating shaft, one of the electronic elements is driven to move along the material guide groove from the material discharging groove, and bending work is finished under the action of the bending block;

s02, after the bending work is finished, the servo motor rotates reversely, the fan-shaped rotary disc and the fan-shaped drive disc are driven to rotate reversely through the rotating shaft, the electronic element is driven to return in the original way, the discharge plate is touched on the way, the electronic element is separated from the fan-shaped drive disc and the fan-shaped rotary disc under the action of the discharge plate, the blanking is finished, and the fan-shaped rotary disc and the fan-shaped drive disc continue to rotate until the electronic element in the blanking groove is contacted with the fan-shaped rotary disc;

and S03, repeating the steps S01 and S02.

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