CN217037570U

CN217037570U - Opposite-insertion type socket PCB assembly structure

Info

Publication number: CN217037570U
Application number: CN202220557421.4U
Authority: CN
Inventors: 程兴旺; 葛剑; 吴传斌
Original assignee: Jinyao Intelligent Precision Manufacturing Suzhou Co ltd
Current assignee: Jinyao Intelligent Precision Manufacturing Suzhou Co ltd
Priority date: 2022-03-15
Filing date: 2022-03-15
Publication date: 2022-07-22
Anticipated expiration: 2032-03-15

Abstract

The utility model discloses an oppositely-inserted type socket PCB assembly structure, which comprises a platform substrate, a carrier plate, a movable seat and a driving assembly, wherein the carrier plate is limited above the platform substrate and used for copying and positioning a PCB, the movable seat is embedded into the carrier plate and close to the side edge of the PCB and used for copying and positioning a socket, and the driving assembly is used for driving the movable seat to stretch; the support plate is internally provided with a limiting space for accommodating the movable seat to stretch, and the movable seat is used for moving the corresponding position of the socket in the limiting space, which is in butt joint with the PCB. The utility model realizes the accurate lateral assembly of the power strip and the PCB, and has no damage to assembly.

Description

Opposite-insertion type socket PCB assembly structure

Technical Field

The utility model belongs to the technical field of PCB assembly, and particularly relates to an oppositely-inserted type socket PCB assembly structure.

Background

When a PCB product is produced and processed, the PCB product is often required to be combined and assembled with other components, and an assembly fixture is usually used for auxiliary positioning during assembly, and the conventional LCD rapid assembly fixture with the patent number of CN202111427245.9 discloses that a fixture seat is fixed on a base firstly when the fixture seat is used, so that the position of a first profiling cavity at the bottom is accurately matched with a second profiling cavity at the upper part, and the product quality is ensured; firstly, placing the first profiling cavity of the LCD, and then placing the PCB in the second profiling cavity, so that the corner of the metal outer frame of the LCD is butted with the groove on the PCB in one step; and the lifting driving handle is pressed down, the fixing seat descends, and the fixing pressing block compresses the product to realize the complete attachment of the LCD and the PCB. Current equipment anchor clamps need set up the lift drive handle and be used for fixed product, and LCD and PCB assemble through the mode of coincide from top to bottom, but insert row and PCB's assembly to thin piece and be not suitable for, and thin piece inserts row and inserts the cooperation with PCB's side, if directly utilize translation drive handle to carry out the side push, very easily cause the PIN foot of inserting the row to take place the damage.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems and provides an opposite-insertion type socket PCB assembly structure, so that the socket and the PCB are accurately assembled in a side direction without damage during assembly. In order to achieve the purpose, the technical scheme of the utility model is as follows:

the opposite-insertion type power strip PCB assembly structure comprises a platform substrate, a support plate, a moving seat and a driving assembly, wherein the support plate is arranged above the platform substrate in a limiting mode and used for copying and positioning a PCB, the moving seat is embedded into the support plate and close to the side edge of the PCB and used for copying and positioning a power strip, and the driving assembly drives the moving seat to stretch; a limiting space for accommodating the movable base to stretch is arranged in the carrier plate, and the movable base moves corresponding positions of the socket in the limiting space to be in butt joint with the PCB.

Specifically, the top of the platform substrate is located the apex angle position all around of support plate and all is equipped with the locating piece, and the inboard of locating piece is right angle bending structure.

Specifically, a first groove for profiling and positioning the PCB is formed in the middle of the carrier plate, and limiting spaces communicated with two sides of the first groove are respectively formed in positions, close to edges of two sides of the carrier plate, of the carrier plate.

Specifically, be equipped with the second recess of profile modeling location row of inserting in the removal seat, the PIN foot side of inserting the row is placed towards PCB's side.

Specifically, the driving assembly comprises a movable plate connected with the movable seat, a bearing rod support arranged below the carrier plate, a bearing rod arranged on the bearing rod support, and a bearing seat sleeved outside the bearing rod.

Specifically, the movable plate is detachably mounted at the top of the bearing seat, a push rod is connected to the side edge of the bearing seat, and a handle is mounted at the outer end of the push rod.

Specifically, a linear bearing sleeved on the bearing rod is arranged in the bearing seat.

Specifically, the bearing rod supports are arranged at intervals in groups, one bearing rod support is arranged below the carrier plate, and the other bearing rod support is arranged on the outer side of the carrier plate and limits the bearing seat.

Specifically, the support plate, the movable seat and the movable plate are all made of aluminum.

Compared with the prior art, the oppositely-inserted type socket PCB assembly structure has the beneficial effects that:

through setting up first recess location PCB in the support plate, set up the second recess location row of inserting in the support plate, will insert the row accurate location to PCB through the mode that the level promoted, insert the row and remove the distance in spacing space and be convenient for control, insert row and PCB assembly swiftly, avoid inserting row and PCB assembly damage problem.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of the present embodiment;

FIG. 3 is a second enlarged view of the partial structure of the present embodiment;

the figures in the drawings represent:

the device comprises a platform substrate 1, a positioning block 11, a PCB2, a power strip 21, a carrier plate 3, a limiting space 31, a first groove 32, a moving seat 4, a second groove 41, a driving assembly 5, a moving plate 51, a bearing rod bracket 52, a bearing rod 53, a bearing seat 54, a push rod 55 and a handle 56.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The embodiment is as follows:

referring to fig. 1-3, the present embodiment is an opposite-insertion type socket PCB assembly structure, which includes a platform substrate 1, a carrier plate 3 disposed above the platform substrate 1 for positioning a PCB2, a movable base 4 embedded in the carrier plate 3 and close to a side edge of a PCB2 for positioning a socket 21, and a driving assembly 5 for driving the movable base 4 to extend and retract; the carrier board 3 is provided with a limiting space 31 for accommodating the extension and contraction of the movable seat 4, and the movable seat 4 moves the corresponding position of the socket 21 in the limiting space 31 to match with the PCB 2.

The top of the platform substrate 1 is provided with a plurality of positioning blocks 11, the carrier plate 3 is a square plate structure in this embodiment, the positioning blocks 11 are arranged at the top of the platform substrate 1 at the peripheral apex angles of the carrier plate 3, and the inner sides of the positioning blocks 11 are of right-angle bending structures for limiting and supporting the carrier plate 3.

The middle part of the carrier plate 3 is provided with a first groove 32 for profiling and positioning the PCB2, the positions of the carrier plate 3 near the two side edges thereof are respectively provided with a limiting space 31 communicating the two sides of the first groove 32, the movable seat 4 is embedded into the limiting space 31, the length dimension of the movable seat 4 is correspondingly matched with the limiting space 31, and the movable seat 4 can freely move in the limiting space 31.

Remove and be equipped with the second recess 41 of profile modeling location row 21 of inserting in the seat 4, insert row 21 embedding second recess 41 in, the side of the PIN foot of inserting row 21 is placed towards PCB 2's side, when removing seat 4 and remove in spacing space 31, will have the row 21 of inserting of PIN foot to insert the side of joining in marriage to PCB2 for insert row 21 and the accurate location of PCB2, no deviation problem.

In this embodiment, the driving assembly 5 is a handle moving assembly, and includes a moving plate 51 connected to the moving base 4, a bearing rod support 52 disposed below the carrier plate 3, a bearing rod 53 disposed on the bearing rod support 52, and a bearing seat 54 sleeved outside the bearing rod 53; the moving plate 51 is detachably mounted at the top of the bearing seat 54, a push rod 55 is connected to the side edge of the bearing seat 54, a handle 56 is mounted at the outer end of the push rod 55, the push rod 55 is driven to horizontally move by rotating the handle 56, so that the bearing seat 54 slides along the bearing rod 53, and a linear bearing sleeved on the bearing rod 53 is arranged in the bearing seat 54. The moving plate 51 is pushed horizontally to move the moving seat 4 in the limiting space 31. The bearing rod supports 52 are arranged in groups at intervals, one side of the bearing rod support 52 is arranged below the carrier plate 3, and the other side of the bearing rod support 52 is arranged outside the carrier plate 3 and limits the bearing seat 54.

In this embodiment, the carrier plate 3, the moving base 4 and the moving plate 51 are made of aluminum, and the surfaces thereof are subjected to hard oxidation treatment.

When the embodiment is applied, the first groove 32 is arranged in the carrier plate 3 to position the PCB2, the second groove 41 is arranged in the carrier plate 3 to position the power strip 21, the power strip 21 is accurately positioned to the PCB2 in a horizontal pushing manner, the moving distance of the power strip 21 in the limiting space 31 is convenient to control, the power strip 21 and the PCB2 are assembled quickly, and the problem of damage to the power strip 21 and the PCB2 during assembly is avoided.

What has been described above are merely some embodiments of the present invention. It will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the utility model.

Claims

1. To inserting formula row PCB assembly structure of inserting, its characterized in that: the PCB copying positioning device comprises a platform substrate, a carrier plate, a moving seat and a driving assembly, wherein the carrier plate is limited above the platform substrate and used for copying and positioning a PCB, the moving seat is embedded in the carrier plate and close to the side edge of the PCB and used for copying and positioning a socket, and the driving assembly is used for driving the moving seat to stretch; the support plate is internally provided with a limiting space for accommodating the movable seat to stretch, and the movable seat is used for moving the corresponding position of the socket in the limiting space, which is in butt joint with the PCB.

2. The assembly structure of a plug-in type socket PCB according to claim 1, wherein: the top of the platform substrate is located at the peripheral apex angles of the carrier plate and is provided with a positioning block, and the inner side of the positioning block is of a right-angle bending structure.

3. The opposite-inserting type socket PCB assembly structure of claim 1, wherein: the middle part of the carrier plate is provided with a first groove for profiling and positioning the PCB, and the positions, close to the edges of the two sides of the carrier plate, of the carrier plate are respectively provided with a limiting space communicated with the two sides of the first groove.

4. The opposite-inserting type socket PCB assembly structure of claim 1, wherein: be equipped with the second recess of profile modeling location row of inserting in the removal seat, the PIN foot side of inserting the row is placed towards PCB's side.

5. The opposite-inserting type socket PCB assembly structure of claim 1, wherein: the driving assembly comprises a movable plate connected with the movable seat, a bearing rod support arranged below the carrier plate, a bearing rod arranged on the bearing rod support, and a bearing seat sleeved outside the bearing rod.

6. The assembly structure of a plug-in socket PCB according to claim 5, wherein: the movable plate is detachably mounted at the top of the bearing seat, a push rod is connected to the side edge of the bearing seat, and a handle is mounted at the outer end of the push rod.

7. The opposite-inserting type socket PCB assembly structure of claim 5, wherein: and a linear bearing sleeved on the bearing rod is arranged in the bearing seat.

8. The assembly structure of a plug-in socket PCB according to claim 5, wherein: the bearing rod supports are arranged at intervals in groups, one bearing rod support is arranged below the carrier plate, and the other bearing rod support is arranged on the outer side of the carrier plate and limits the bearing seat.

9. The assembly structure of a plug-in socket PCB according to claim 5, wherein: the support plate, the movable seat and the movable plate are all made of aluminum materials.