CN211047766U

CN211047766U - Manual plug-in components platform of circuit board

Info

Publication number: CN211047766U
Application number: CN201922418809.7U
Authority: CN
Inventors: 郑超
Original assignee: Wuhan Rongyang Express Circuit Board Co ltd
Current assignee: Wuhan Rongyang Express Circuit Board Co ltd
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2020-07-17
Anticipated expiration: 2029-12-30

Abstract

The utility model relates to a manual plug-in components platform of circuit board, include: the device comprises a sliding support and a bearing tool, wherein a plurality of plug-in stations are arranged on one side or two sides of the sliding support at intervals; the support that slides includes: the device comprises two sleepers arranged in parallel, two sliding rails arranged in parallel and four supporting columns, wherein the bottoms of the supporting columns are fixed on the ground, and the tops of the supporting columns are respectively fixed at two ends of the bottom of each sleeper; the slide rail is arranged on the top surface of the sleeper; a sliding table horizontally extends from the opposite inner sides of the two slide rails; two sides of the bearing tool are respectively pressed on the corresponding sliding tables, so that the bearing tool can longitudinally slide along the sliding rail; the bearing tool is provided with a groove for placing the circuit board, and the groove is provided with a through hole for the pin of the electronic component to pass through. The manual plug-in components platform of this circuit board can realize that the circuit board is set level the plug-in components, avoids electronic components pin damage risk, and many people's multistation divides the work of a project plug-in components, improves plug-in components efficiency.

Description

Manual plug-in components platform of circuit board

Technical Field

The utility model relates to a circuit board makes technical field, in particular to manual plug-in components platform of circuit board.

Background

Printed Circuit Boards (PCBs), which are the basic electronic components, are carriers for supporting and electrically connecting electronic components, and almost every electronic device, as small as electronic watches, calculators, as large as computers, communication electronics, and military weapon systems, requires the use of a printed circuit board as long as there are electronic components such as integrated circuits.

The manufacturing process of the printed circuit board can involve manual insertion, namely, the components processed by the paster are inserted into the corresponding positions of the PCB, and preparation is made for wave soldering.

The manual plug-in components of the prior art are completed on the traditional manual workbench by a plurality of workers, when pins of the direct-plug components are too high, the circuit board cannot be laid flat, the pins and the table board are easily extruded and rubbed to be damaged in the manual PCB transmission process of the workers, and the plurality of workers are in different stations, so that the PCB is low in efficiency in the manual transmission process and the production efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

The application provides a manual plug-in components platform of circuit board has solved or has partly solved prior art and has used artifical plug-in components workstation can't put the circuit board flat, and manual transmission circuit board efficiency is lower technical problem has realized that the circuit board puts the plug-in components flat, improves the technological effect of plug-in components efficiency.

The application provides a manual plug-in components platform of circuit board includes: a sliding support and a bearing tool, wherein,

a plurality of plug-in stations are arranged on one side or two sides of the sliding support at intervals; the sliding support comprises: the device comprises two sleepers arranged in parallel, two sliding rails arranged in parallel and four supporting columns, wherein the bottoms of the supporting columns are fixed on the ground, and the tops of the supporting columns are respectively fixed at two ends of the bottom of each sleeper; the slide rail is arranged on the top surface of the sleeper; a sliding table horizontally extends from the opposite inner sides of the two slide rails;

two sides of the bearing tool are respectively pressed on the corresponding sliding tables, so that the bearing tool can longitudinally slide along the sliding rail; the bearing tool is provided with a groove for placing the circuit board, and the groove is provided with a through hole for the pin of the electronic component to pass through.

Preferably, the slide rail is arranged on the top surface of the sleeper in a sliding manner; the sliding direction of the sliding rails is perpendicular to the sliding rails, and the distance between the two sliding rails is adjusted through sliding.

Preferably, the device also comprises a positioning block, a bolt and a fastening nut,

the sleeper is provided with a strip-shaped through hole vertical to the slide rail;

the positioning block is fixed on the outer side of the slide rail; the positioning block is provided with a round hole corresponding to the strip-shaped through hole;

the bolt penetrates through the round hole and the strip-shaped through hole and then is matched with the fastening nut; the bolt slides along the strip-shaped through hole, so that the slide rail slides relative to the sleeper;

after the fastening nut is screwed down, the sliding rail is fixed on the sleeper.

Preferably, the sliding rails change the distance through sliding to adapt to the width of the bearing tool, and then the transverse sliding of the bearing tool is limited.

Preferably, the bearing tool is rectangular, and handles are arranged at two ends of the bearing tool respectively.

Preferably, the groove for carrying the tool is rectangular, and the size of the groove is adapted to the size of the circuit board so as to limit the horizontal displacement of the circuit board.

Preferably, the through hole of the groove is rectangular; the width of the through holes is not larger than the distance between the sliding rails.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

the manual plug-in platform consisting of the sliding support and the bearing tool is arranged, and a plurality of plug-in stations are arranged on one side or two sides of the sliding support at intervals, so that multi-station work division plug-in is realized; the support that slides includes: the device comprises two sleepers arranged in parallel, two sliding rails arranged in parallel and four supporting columns, wherein the bottoms of the supporting columns are fixed on the ground, and the tops of the supporting columns are respectively fixed at two ends of the bottom of each sleeper; the slide rail is arranged on the top surface of the sleeper; a sliding table horizontally extends from the opposite inner sides of the two slide rails; two sides of the bearing tool are respectively pressed on the corresponding sliding tables, so that the bearing tool can longitudinally slide along the sliding rail, the circuit board can be quickly transferred at different stations, and the efficiency is improved; the bearing tool is provided with a groove for placing the circuit board, and the groove is provided with a through hole for the pin of the electronic component to pass through, so that the circuit board is kept flat in the bearing tool all the time in the process of inserting the circuit board, and meanwhile, the risk of extrusion and friction damage of the pin of the electronic component and the table top is avoided. Therefore, the technical problems that in the prior art, a manual plug-in workbench cannot be used for flatly placing the circuit board and the efficiency of manually transferring the circuit board is low are effectively solved, the circuit board is flatly placed, the risk of damaging pins of electronic components is avoided, multi-person multi-station work-sharing plug-ins are adopted, and the technical effect of plug-in efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of a circuit board manual card platform according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural view of the sliding support in FIG. 1;

fig. 3 is a schematic structural diagram of the bearing tool in fig. 1.

(wherein, the parts represented by each reference number are 1 sliding support, 11 sleepers, 12 sliding rails, 13 pillars, 14 sliding tables, 15 positioning blocks, 2 bearing tools, 21 grooves, 22 through holes and 23 handles in sequence)

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1, the present application provides a circuit board manual card platform comprising: a sliding support 1 and a bearing tool 2, wherein,

a plurality of plug-in stations are arranged on one side or two sides of the sliding support 1 at intervals; referring to fig. 2, the roll stand 1 includes: the device comprises two sleepers 11 arranged in parallel, two sliding rails 12 arranged in parallel and four supporting columns 13, wherein the bottoms of the supporting columns 13 are fixed on the ground, and the tops of the supporting columns 13 are respectively fixed at two ends of the bottom of each sleeper 11; the slide rail 12 is arranged on the top surface of the sleeper 11; a sliding table 14 horizontally extends from the opposite inner sides of the two slide rails 12;

two sides of the bearing tool 2 are respectively pressed on the corresponding sliding tables 14, so that the bearing tool 2 can longitudinally slide along the sliding rail 12; referring to fig. 3, the bearing tool 2 is provided with a groove 21 for placing a circuit board, and the groove 21 is provided with a through hole 22 for a pin of an electronic component to pass through.

A plurality of plug-in stations are arranged on one side or two sides of the sliding support 1 at intervals to realize multi-station work division plug-in; the bearing tool 2 longitudinally slides relative to the sliding rail 12, so that the circuit board can be quickly transferred at different stations, and the efficiency is improved; the bearing tool 2 is provided with a groove 21 for placing the circuit board, the groove 21 is provided with a through hole 22 for the pin of the electronic component to pass through, so that the circuit board is kept flat in the bearing tool 2 all the time in the process of inserting the circuit board, and meanwhile, the risk of extrusion and friction damage of the pin of the electronic component and the table top is avoided. The manual plug-in components platform of this application can realize that the circuit board is set level the plug-in components, avoids electronic components pin damage risk, and many people's multistation divides the work piece, improves plug-in components efficiency.

Further, the slide rail 12 is slidably disposed on the top surface of the sleeper 11; the sliding direction of the sliding rail 12 is perpendicular to the sliding rail 12, and the distance between the two sliding rails 12 is adjusted through sliding; the specific implementation mode is as follows: the manual plug-in platform further comprises a positioning block 15, a bolt and a fastening nut.

The sleeper 11 is provided with a strip-shaped through hole vertical to the slide rail 12; the positioning block 15 is fixed on the outer side of the slide rail 12; the positioning block 15 is provided with a round hole corresponding to the strip-shaped through hole; the bolt is matched with the fastening nut after penetrating through the round hole and the strip-shaped through hole; the bolt slides along the strip-shaped through hole, so that the slide rail 12 slides relative to the sleeper 11.

After the fastening nut is screwed down, the sliding rail 12 is fixed on the sleeper 11, and after the fastening nut is unscrewed, the distance between the sliding rails 12 can be adjusted to adapt to the bearing tools 2 with different widths.

Further, because the size of the circuit board is different, the bearing tool 2 with different sizes is needed to be matched, and the sliding rail 12 can change the interval to adapt to the width of the bearing tool 2 through sliding. Meanwhile, the transverse sliding of the bearing tool 2 can be limited.

As a preferred embodiment, the bearing tool 2 is rectangular, the handles 23 are respectively arranged at the two ends of the bearing tool 2, and the bearing tool 2 is lifted up or put down through the handles 23, so that the assembly and the separation of the bearing tool 2 and the sliding support 1 are rapidly realized; meanwhile, the bearing tool 2 slides along the sliding rail 12 by pushing the lifting handle 23, so that the circuit board can be conveniently transferred backwards by a plug-in worker. The groove 21 for carrying the tool 2 is rectangular, and the size of the groove 21 is adapted to the size of the circuit board so as to limit the horizontal displacement of the circuit board. The through hole 22 of the groove 21 is rectangular; the width of the through holes 22 is not greater than the distance between the slide rails 12, so that the pins of the electronic component passing through the through holes are prevented from touching the sliding table 14 of the slide rails 12 and being damaged.

The above-mentioned embodiments further describe the objects, technical solutions and advantages of the present invention in detail, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A circuit board manual card platform, comprising: a sliding support and a bearing tool, wherein,

2. The circuit board manual card platform of claim 1, wherein said slide rails are slidably disposed on a top surface of said tie; the sliding direction of the sliding rails is perpendicular to the sliding rails, and the distance between the two sliding rails is adjusted through sliding.

3. The circuit board manual card platform of claim 2, further comprising a positioning block, a bolt, and a fastening nut,

4. The circuit board manual card platform of claim 3, wherein the slide rails change a pitch by sliding to accommodate a width of the load fixture, thereby limiting lateral sliding of the load fixture.

5. The manual circuit board plug-in platform of claim 1, wherein the carrying tool is rectangular, and handles are respectively arranged at two ends of the carrying tool.

6. The manual circuit board card platform of claim 5, wherein the tool-carrying groove is rectangular, and the size of the groove is adapted to the size of the circuit board so as to limit the horizontal displacement of the circuit board.

7. The circuit board manual card platform of claim 6, wherein the through-hole of the recess is rectangular; the width of the through holes is not larger than the distance between the sliding rails.