CN216399502U

CN216399502U - Automatic rubber coating frock of conductive contact piece

Info

Publication number: CN216399502U
Application number: CN202123114374.0U
Authority: CN
Inventors: 李天杰; 林益锡
Original assignee: Shenzhen Fuchuang Superior Technology Co ltd
Current assignee: Shenzhen Fuchuang Superior Technology Co ltd
Priority date: 2021-12-10
Filing date: 2021-12-10
Publication date: 2022-04-29
Anticipated expiration: 2031-12-10

Abstract

The utility model discloses an automatic rubber coating tool for a conductive contact piece, which comprises a base, wherein a bearing plate is arranged on the base; the longitudinal pressing block assembly comprises two longitudinal pressing blocks and a longitudinal pressing block driving piece, the two longitudinal pressing blocks are respectively arranged on two sides of the bearing plate, and the longitudinal pressing block driving piece is used for driving the two longitudinal pressing blocks to move longitudinally; horizontal briquetting subassembly, including two horizontal briquettings and horizontal briquetting driving piece, the both sides of bearing the layer board are located respectively to two horizontal briquettings, and two horizontal briquettings are located the below of bearing the layer board, horizontal briquetting driving piece is used for driving two horizontal briquettings along transverse motion. The automatic encapsulation tool for the conductive contact piece can automatically carry out longitudinal encapsulation and transverse encapsulation of a workpiece.

Description

Automatic rubber coating frock of conductive contact piece

Technical Field

The utility model relates to the technical field of circuit accessories, in particular to an automatic rubber coating tool for a conductive contact piece.

Background

The conductive contact, also called gold finger, is generally applied to parts for transmitting electrical signals, such as a PCB board, a memory bank and a memory slot, a display card and a display card slot, and all signals are transmitted through the gold finger. The existing optical module products contain golden fingers, in order to avoid the occurrence of tinning, scratching and dirt of the golden fingers in the whole process flow, high-temperature adhesive paper is needed to be used for protecting the golden fingers in an adhesive coating mode, the current mode is manual adhesive coating, the efficiency is low, the adhesive coating quality is unstable, the adhesive is easy to open, and the golden fingers are abnormal.

The existing rubber coating operation is mainly that an operator places a bare PCB on a fixing clamp, cuts a certain length of high-temperature adhesive, covers the front golden finger by half the width of the high-temperature adhesive, and then covers the back golden finger by pressing the other half of the high-temperature adhesive; then the PCB is reversed, the actions are repeated, the golden fingers on the other side are wrapped, the whole process is manually completed, the efficiency is low, and the quality is different.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide an automatic encapsulating tool for conductive contact pieces, which can automatically carry out longitudinal encapsulating and transverse encapsulating actions on workpieces.

The purpose of the utility model is realized by adopting the following technical scheme:

an automatic encapsulation tool for a conductive contact piece comprises,

the base is provided with a bearing plate;

the longitudinal pressing block assembly comprises two longitudinal pressing blocks and a longitudinal pressing block driving piece, the two longitudinal pressing blocks are respectively arranged on two sides of the bearing plate, and the longitudinal pressing block driving piece is used for driving the two longitudinal pressing blocks to move longitudinally;

horizontal briquetting subassembly, including two horizontal briquettings and horizontal briquetting driving piece, the both sides of bearing the layer board are located respectively to two horizontal briquettings, and two horizontal briquettings are located the below of bearing the layer board, horizontal briquetting driving piece is used for driving two horizontal briquettings along transverse motion.

Furthermore, the longitudinal pressing block driving part comprises two first air cylinders, the two first air cylinders are both arranged on the base and positioned above the bearing plate, and piston rods of the first air cylinders extend longitudinally; the two longitudinal pressing blocks are respectively connected to the bottom ends of the piston rods of the two first cylinders.

Furthermore, first guide rails are arranged on two sides of the base, a first guide block is arranged on the longitudinal pressing block, and the first guide rails extend along the longitudinal direction; the first guide block is in sliding fit with the first guide rail.

Furthermore, a first T-shaped block is arranged at the end part of the first cylinder, and a first T-shaped groove is formed in the top end of the longitudinal pressing block; the first T-shaped block is embedded in the first T-shaped groove.

Furthermore, the transverse briquetting driving part comprises second air cylinders, the two second air cylinders are both arranged on the base and positioned at two sides of the bearing plate, and piston rods of the second air cylinders extend along the transverse direction; the two transverse pressing blocks are respectively connected to the end parts of the piston rods of the two second cylinders.

Furthermore, second guide rails are arranged on two sides of the base, a second guide block is arranged on the transverse pressing block, and the second guide rails extend along the transverse direction; and the second guide block is in sliding fit with the second guide rail.

Further, a second T-shaped block is arranged at the end part of the piston rod of the second cylinder; and a second T-shaped groove is formed in the side part of the transverse pressing block, and the second T-shaped block is embedded in the second T-shaped groove.

Compared with the prior art, the utility model has the beneficial effects that: when the rubber coating action is carried out, the rubber paper can be coated on the edge of the workpiece; the work piece coated with the gummed paper can be placed on the bearing plate, the longitudinal pressing blocks on the two sides are driven by the longitudinal pressing block driving piece to simultaneously press downwards, and the gummed paper on the two sides of the work piece is pressed downwards; so that the gummed paper can be coated along the side edge of the workpiece; afterwards, the horizontal briquetting of both sides is close to the bearing board at the same time lateral motion under the drive of horizontal briquetting driving piece, and horizontal briquetting alright carry out the cladding with the adhesive tape along work piece bottom face, accomplishes the automatic cladding of work piece, raises the efficiency, and the rubber coating is efficient, and moves uniformly, and the rubber coating is of high quality, is difficult for opening the gum.

Drawings

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

fig. 2 is a partial structural schematic diagram of the present invention.

In the figure: 10. a support plate; 11. a first guide rail; 13. a second guide rail; 21. a first cylinder; 211. a first T-shaped block; 22. longitudinal briquetting; 221. a first guide block; 31. a second cylinder; 32. transversely pressing blocks; 321. and a second guide block.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and the detailed description below:

as shown in fig. 1 and 2, the automatic encapsulation tool for conductive contacts comprises a base, a longitudinal pressing block assembly and a transverse pressing block assembly, wherein a support plate 10 can be arranged on the base, and the support plate 10 can be used for placing a workpiece.

The longitudinal pressing block assembly comprises two longitudinal pressing blocks 22 and a longitudinal pressing block driving piece, the two longitudinal pressing blocks 22 are respectively arranged on two sides of the bearing plate 10, and the longitudinal pressing block driving piece is used for driving the two longitudinal pressing blocks 22 to move longitudinally. The transverse pressing block assembly comprises two transverse pressing blocks 32 and a transverse pressing block driving piece, the two transverse pressing blocks 32 are respectively arranged on two sides of the bearing plate 10, the two transverse pressing blocks 32 are located below the bearing plate 10, and the transverse pressing block driving piece can drive the two transverse pressing blocks 32 to move along the transverse direction.

On the basis of the structure, when the automatic encapsulation tool of the conductive contact piece is used, the encapsulation workpiece is taken as a PCB (printed Circuit Board), and before encapsulation, the golden fingers on two sides of the PCB can be coated with adhesive paper.

The PCB coated with the gummed paper can be placed on the bearing plate 10, the longitudinal pressing blocks 22 on the two sides are driven by the longitudinal pressing block driving part to simultaneously press downwards, and the gummed paper on the two sides of the PCB is pressed downwards; so that the gummed paper can be coated along the lateral side of the PCB board; afterwards, the horizontal briquetting 32 of both sides is close to the bearing board 10 at the same time lateral motion under the drive of horizontal briquetting driving piece, and horizontal briquetting 32 alright carry out the cladding with the adhesive tape along PCB board bottom end face, accomplishes the automatic cladding of PCB board, raises the efficiency, and the rubber coating is efficient, and moves uniformly, and the rubber coating is of high quality, is difficult for opening the glue.

It should be noted that the long sides of the longitudinal pressing block 22 and the transverse pressing block 32 are all the same as the long sides of the PCB, so that when the longitudinal pressing block 22 and the transverse pressing block 32 press the adhesive tape, the adhesive tape can be simultaneously coated on a plurality of gold fingers on the side of the PCB.

Further, the longitudinal pressing block driving member in this embodiment includes two first cylinders 21, the two first cylinders 21 are both installed on the base, the two first cylinders 21 are both located above the supporting plate 10, the piston rods of the first cylinders 21 extend longitudinally, and the two longitudinal pressing blocks 22 are respectively connected to the bottom ends of the piston rods of the two first cylinders 21.

On the basis of the structure, when the side edge of the PCB is coated, the piston rods of the two first cylinders 21 can extend downwards at the same time to drive the longitudinal pressing block 22 to move downwards, the longitudinal pressing block 22 can downwards press the adhesive tape, the adhesive tape is coated along the side edge of the PCB, and the driving structure is simple and stable.

More specifically, in order to make the encapsulation process more stable and prevent the adhesive paper from being coated obliquely, the two sides of the base may be provided with the first guide rails 11, the longitudinal pressing block 22 is provided with the first guide blocks 221 correspondingly, and the first guide rails 11 extend longitudinally; the first guide block 221 is in sliding fit with the first guide rail 11, that is, when the longitudinal pressing block 22 moves downward, the first guide block 221 may be in sliding fit with the first guide rail 11 to guide the longitudinal pressing block 22 to move up and down stably, so as to drive the adhesive paper to cover the side surface of the PCB plate perpendicular to the top end surface.

Further, in order to facilitate the connection between the piston rod of the first cylinder 21 and the longitudinal pressing block 22, a first T-shaped block 211 may be disposed at an end of the first cylinder 21, and a first T-shaped groove may be disposed at a top end of the longitudinal pressing block 22, and the first T-shaped block 211 is embedded in the first T-shaped groove.

Further, the transverse pressing block driving member in this embodiment includes two second cylinders 31, the two second cylinders 31 are both installed on the base, the two second cylinders 31 are both located at two sides of the supporting plate 10, the piston rods of the second cylinders 31 extend in the transverse direction, and the two transverse pressing blocks 32 are respectively connected to the end portions of the piston rods of the two second cylinders 31.

On the basis of the structure, when the bottom end face of the PCB is coated, the piston rods of the two second cylinders 31 can transversely extend out simultaneously, the transverse pressing block 32 is driven to transversely move close to the PCB, the transverse pressing block 32 can forwardly press the adhesive tape, the adhesive tape is coated along the bottom edge of the PCB, and the driving structure is simple and stable.

More specifically, in order to make the encapsulation process more stable and prevent the adhesive paper from being coated obliquely, the two sides of the base may be provided with the second guide rails 13, the transverse pressing block 32 is correspondingly provided with the second guide blocks 321, and the second guide rails 13 extend along the transverse direction; the second guide block 321 is in sliding fit with the second guide rail 13, that is, when the transverse press block 32 moves forward, the second guide block 321 can be in sliding fit with the second guide rail 13 to guide the transverse press block 32 to move forward and backward, so that the side surface of the adhesive tape perpendicular to the PCB is driven to be coated on the bottom end surface of the adhesive tape.

Further, in order to facilitate the connection between the piston rod of the second cylinder 31 and the transverse pressing block 32, a second T-shaped block may be disposed at an end of the second cylinder 31, and a second T-shaped groove may be disposed at a top end of the transverse pressing block 32, and the second T-shaped block is embedded in the second T-shaped groove.

It should be noted that the longitudinal pressing block driving member and the transverse pressing block driving member may also be implemented by other linear motion output structures such as an electric push rod, a screw rod transmission mechanism and the like in the prior art.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims

1. An automatic encapsulation tool for a conductive contact piece is characterized by comprising,

the base is provided with a bearing plate;

2. The tooling for automatically encapsulating conductive contacts as claimed in claim 1, wherein the longitudinal press block driving member comprises two first cylinders, both of which are mounted on the base and located above the support plate, the piston rods of the first cylinders extending in the longitudinal direction; the two longitudinal pressing blocks are respectively connected to the bottom ends of the piston rods of the two first cylinders.

3. The tooling for automatically encapsulating the conductive contact blades as claimed in claim 2, wherein the base is provided with first guide rails on both sides thereof, the longitudinal pressing block is provided with a first guide block, and the first guide rails extend in the longitudinal direction; the first guide block is in sliding fit with the first guide rail.

4. The tooling for automatically encapsulating the conductive contact blades as claimed in claim 2, wherein the end of the first cylinder is provided with a first T-shaped block, and the top end of the longitudinal pressing block is provided with a first T-shaped groove; the first T-shaped block is embedded in the first T-shaped groove.

5. The tooling for automatically encapsulating conductive contacts according to claim 1, wherein the transverse press block driving member comprises second air cylinders, two of the second air cylinders are mounted on the base and located on both sides of the support plate, and piston rods of the second air cylinders extend in the transverse direction; the two transverse pressing blocks are respectively connected to the end parts of the piston rods of the two second cylinders.

6. The tooling for automatically encapsulating the conductive contact blades as claimed in claim 5, wherein the base is provided with second guide rails on both sides thereof, the transverse pressing block is provided with second guide blocks thereon, and the second guide rails extend in the transverse direction; and the second guide block is in sliding fit with the second guide rail.

7. The tooling for automatically encapsulating the conductive contact blades as claimed in claim 5, wherein the end of the piston rod of the second cylinder is provided with a second T-shaped block; and a second T-shaped groove is formed in the side part of the transverse pressing block, and the second T-shaped block is embedded in the second T-shaped groove.