CN119031612B - An electronic component assembly structure - Google Patents

Abstract

The invention relates to the technical field of electronic component assembly, in particular to an electronic component assembly structure. The electronic component comprises a supporting seat, wherein the supporting seat comprises a middle rod, a bottom plate, a top plate and a counterweight seat, the supporting seat carries out auxiliary support on a circuit board body and an electronic component body through a supporting component, an auxiliary component is arranged at the inner part of the upper end of the supporting component in a sliding manner, the auxiliary component can drive the electronic component body to be aligned to the surface of the circuit board body when the supporting seat is turned over, and an adjusting component is arranged at the inner part of the supporting component in a sliding manner. According to the invention, the circuit board body can be turned over by turning over the supporting seat, so that the pins can be welded conveniently, and meanwhile, the supporting component in the supporting seat can support the circuit board body and the electronic component body, so that the electronic component is prevented from falling off, and meanwhile, the auxiliary component is utilized, so that the electronic component body can be aligned on the surface of the circuit board body stably, and the assembly effect of the electronic component body is further improved.

Description

Electronic component assembly structure

Technical Field

The invention relates to the technical field of electronic component assembly, in particular to an electronic component assembly structure.

Background

The electronic component, the basic element in the electronic circuit, the electronic component must interconnect in order to form an electronic circuit with specific function, one of the common ways to connect electronic component is to assemble and weld to the printed circuit board, when the existing electronic component welds on the circuit board, need insert the pin of the electronic component on the circuit board first, then overturn the circuit board to another and weld and finish assembling to the pin facing electronic component, in the course of welding, in order to reduce the electronic component and drop when the circuit board overturns, can assist the fixed to the electronic component through the electronic component assembly structure, there are many to the electronic component assembly structure in the prior art:

An electronic component assembly structure of CN217721645U, for example, comprises an electronic component body, pins and a housing, wherein the electronic component body is located inside the housing, one end of each pin is connected with the electronic component body, the other end of each pin extends to the outside of the housing, a heat conducting layer is disposed between the electronic component body and the inner bottom wall of the housing, a heat dissipation mechanism is fixed on the lower surface of the housing, and an assembly fixing mechanism is fixed on the lower surface of the heat dissipation mechanism. According to the utility model, through the arrangement of the assembly fixing mechanism, before the electronic element is assembled and welded on the circuit board, the electronic element is primarily fixed by being adhered with the circuit board through the adhesive layer, so that the element cannot fall off when the pin is welded when the circuit board is turned to the other side, the pin is not required to be propped by hands, the stability of welding is ensured, and the welding and the assembly are more convenient;

When welding the assembly to electronic component, carry out preliminary fixed with electronic component and circuit board bonding through the viscose layer for electronic component can not drop when overturning the circuit board to the another side, and the welding is the process that fuses two or more articles together through heating power, when the circuit board upset welds the pin, the surface of circuit board contains heating power thereupon, the phenomenon that makes the viscose layer produce the heat to melt easily, if the viscose layer thermalizes, glue can flow along circuit board surface, on the one hand can influence electronic component's fixed effect, on the other hand can cause the condition of circuit board overall damage, in view of this, we propose an electronic component assembly structure.

Disclosure of Invention

The present invention is directed to an electronic component assembling structure, which solves the above-mentioned problems of the prior art.

In order to achieve the above object, the present invention provides an electronic component assembly structure, which comprises a supporting seat, wherein the supporting seat comprises a middle rod, a bottom plate, a top plate and a counterweight seat, the bottom plate and the top plate are respectively installed on the side wall of the middle rod, two counterweight seats are provided, the two counterweight seats are respectively installed at the upper end and the lower end of the middle rod, the supporting seat carries out auxiliary support on a circuit board body and an electronic component body through a supporting component, a plurality of bonding pads are provided at the middle part of the circuit board body, and a plurality of pins are fixedly installed at the end part of the electronic component body;

an auxiliary positive component is slidably arranged in the upper end of the supporting component, the auxiliary positive component can assist the electronic component body to straighten, and when the supporting seat is turned over, the auxiliary positive component can drive the electronic component body to be aligned on the surface of the circuit board body;

The inside slip of supporting component is equipped with adjusting component, adjusting component can assist in supporting component to extend the regulation.

As a further improvement of the technical scheme, the supporting component comprises a middle partition plate arranged between the bottom plate and the top plate, a first clamping bin used for supporting the electronic element body is formed between the middle partition plate and the top plate, and a second clamping bin used for supporting the circuit board body is formed between the middle partition plate and the bottom plate.

As a further improvement of the technical scheme, the adjusting assembly comprises two inner grooves formed in the middle rod, the top plate consists of a fixed plate and an adjusting plate, the fixed plate is fixedly connected to the surface of the middle rod, and the adjusting plate is positioned on one side, close to the first clamping bin, of the fixed plate;

The middle partition board is composed of a fixed partition board and a sliding partition board, the sliding partition board is located on one side, close to the first clamping bin, of the fixed partition board, the two inner grooves are respectively extended to the inner portions of the fixed partition board and the fixed partition board, the two inner grooves are respectively provided with screw rods in a rotating mode, sliding blocks are fixedly connected to one sides, far away from the first clamping bin, of the adjusting board and the sliding partition board, and the two sliding blocks respectively slide on the surfaces of the screw rods.

As the further improvement of this technical scheme, assist positive subassembly including installing two curb plates in regulating plate keep away from fixed plate one side, two the elastic component group is all installed to the inside of curb plate, two the elastic component group is kept away from one side of curb plate and is all installed and is used for assisting the positive supplementary positive board to the electronic component body, and the equal fixedly connected with balance plate in top of two supplementary positive boards, two balance grooves with balance plate surface laminating have been seted up to the bottom of regulating plate.

As a further improvement of the technical scheme, one side of each screw rod, which is close to the middle rod, is fixedly provided with an extension shaft, one end of each extension shaft, which extends out of the middle rod, is fixedly connected with a gear piece, the surfaces of the two gear pieces are in meshed connection with a meshing belt, and one side, which is far away from the extension shaft, of one gear piece is fixedly connected with a starting turntable.

As a further improvement of the technical scheme, the U-shaped holes are formed in the bottom plate.

As a further improvement of the technical scheme, the inner wall of the second clamping bin is provided with a reinforcing base plate, and the reinforcing base plate is made of elastic materials.

As a further improvement of the technical scheme, the two auxiliary positive plates are provided with inclined angles on one sides far away from the middle rod, and the two inclined angles incline towards the middle part of the auxiliary positive plates.

Compared with the prior art, the invention has the beneficial effects that:

1. In the electronic element assembly structure, through the supporting component arranged between the bottom plate and the top plate, the circuit board body and the electronic element body can be respectively supported in an auxiliary clamping manner, meanwhile, the circuit board body and the electronic element body can be isolated, the condition that the electronic element body is attached to the circuit board body during welding assembly is reduced, and before the supporting component clamps, pins arranged at the end part of the electronic element body are required to be inserted into bonding pads formed in the surface of the circuit board body;

2. in the electronic element assembly structure, as the inner diameter of the bonding pad is larger than the diameter of the pin, when the electronic element body is inserted into the support assembly through the auxiliary positive assembly arranged in the upper end of the support assembly, the electronic element body can be aligned, so that the deflection of the electronic element body when the pin is welded is reduced, and the service condition of the subsequent circuit board body is influenced;

3. In the electronic element assembly structure, the circuit board body can be turned over by turning over the supporting seat, so that the pins can be welded conveniently, and the supporting component in the supporting seat can support the circuit board body and the electronic element body when the pins are turned over, so that the electronic element is prevented from falling off, and meanwhile, the auxiliary positive component is utilized, so that the electronic element body can be stably aligned on the surface of the circuit board body, and the assembly effect of the electronic element body is further improved;

4. In this electronic component assembly structure, because the mounted position of different circuit board body surface electronic component bodies is different, through setting up the inside adjusting part of supporting component, can adjust the supporting range of supporting seat, can extend the supporting range of electronic component body then, be applicable to the circuit board body of different specifications and use.

Drawings

FIG. 1 is a schematic diagram of an overall split structure of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1A according to the present invention;

FIG. 3 is a schematic view of a socket structure of the present invention;

fig. 4 is a schematic diagram of a flip-welding structure of a circuit board body according to the present invention;

FIG. 5 is a schematic diagram of an auxiliary structure of an electronic component body according to the present invention;

FIG. 6 is a schematic diagram of the structure of FIG. 5B according to the present invention;

fig. 7 is a side view of the invention in full section.

The meaning of each reference sign in the figure is:

1. a circuit board body; 11, an electronic element body, 12, a bonding pad, 13 and a pin;

2. a support base; 21, a middle rod, 22, a bottom plate, 221, U-shaped holes, 23, a top plate, 231, a fixed plate, 232, an adjusting plate, 24 and a counterweight seat;

3. the device comprises a supporting component, 31, a middle partition plate, 311, a fixed partition plate, 312, a sliding partition plate, 32, a first clamping bin, 33 and a second clamping bin;

4. auxiliary positive components, 41, side plates, 42, elastic piece groups, 43, balance plates, 44, balance grooves, 45 and auxiliary positive plates;

5. the device comprises an adjusting component, an inner groove, a 52, a screw rod, a 53 and a sliding block;

6. Reinforcing the backing plate;

7. an inclination angle;

8. An extension shaft 81, a gear member 82, an engagement belt 83 and an actuation dial.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples

Referring to fig. 1-7, an electronic component assembling structure is provided, the electronic component assembling structure comprises a supporting seat 2, the supporting seat 2 comprises a middle rod 21, a bottom plate 22, a top plate 23 and a counterweight seat 24, the bottom plate 22 and the top plate 23 are respectively installed on the side wall of the middle rod 21, the counterweight seats 24 are provided with two, the two counterweight seats 24 are respectively installed at the upper end and the lower end of the middle rod 21, the supporting seat 2 is used for supporting a circuit board body 1 and an electronic component body 11 in an auxiliary manner through a supporting component 3, a plurality of bonding pads 12 are provided in the middle of the circuit board body 1, a plurality of pins 13 are fixedly installed at the end part of the electronic component body 11, an auxiliary positive component 4 is slidably arranged at the upper end of the supporting component 3, the auxiliary positive component 4 can assist the electronic component body 11 in straightening operation, when the supporting seat 2 is turned over, the auxiliary positive component 4 can drive the electronic component body 11 to be aligned on the surface of the circuit board body 1, an adjusting component 5 is slidably arranged in the supporting component 3, and the adjusting component 3 can assist in extending and adjusting the supporting component 3.

First, a specific structure of the support assembly 3 will be disclosed, where the support assembly 3 includes a middle partition 31 disposed between the bottom plate 22 and the top plate 23, a first clamping chamber 32 for supporting the electronic component body 11 is formed between the middle partition 31 and the top plate 23, and a second clamping chamber 33 for supporting the circuit board body 1 is formed between the middle partition 31 and the bottom plate 22. The middle partition plate 31 between the top plate 23 and the bottom plate 22 is utilized, the other end of the middle partition plate 31 is connected with the side wall of the middle rod 21, a first clamping bin 32 and a second clamping bin 33 can be formed between the top plate 23 and the bottom plate 22, the electronic element body 11 and the circuit board body 1 are respectively positioned in the first clamping bin 32 and the second clamping bin 33, when the electronic element body 11 is assembled, the electronic element body 11 and the circuit board body 1 can be stably supported, and when the electronic element body 11 is assembled, the condition of assembling and attaching between the electronic element body 11 and the circuit board body 1 is avoided through the middle partition plate 31, and the assembling effect of the electronic element body 11 is effectively improved.

Secondly, the concrete structure of the adjusting component 5 is disclosed, the adjusting component 5 comprises two inner grooves 51 formed in the middle rod 21, the top plate 23 is composed of a fixing plate 231 and an adjusting plate 232, the fixing plate 231 is fixedly connected to the surface of the middle rod 21, the adjusting plate 232 is located on one side, close to the first clamping bin 32, of the fixing plate 231, the middle partition 31 is composed of a fixing partition 311 and a sliding partition 312, the sliding partition 312 is located on one side, close to the first clamping bin 32, of the fixing partition 311, the two inner grooves 51 respectively extend to the interiors of the fixing plate 231 and the fixing partition 311, screw rods 52 are respectively arranged in the interiors of the two inner grooves 51 in a rotating mode, sliding blocks 53 are fixedly connected to one sides, far from the first clamping bin 32, of the adjusting plate 232 and the sliding partition 312, and the two sliding blocks 53 respectively slide on the surface of the screw rods 52. Because the positions of the electronic component bodies 11 on the surfaces of the different circuit board bodies 1 are different, in order to improve the applicability of the supporting seat 2, the two screw rods 52 are rotated, so that the sliding blocks 53 sliding on the surfaces of the screw rods 52 can slide in the inner grooves 51, wherein the outer walls of the sliding blocks 53 are attached to the inner walls of the inner grooves 51, the sliding blocks 53 can be limited, the sliding of the two sliding blocks 53 is utilized to drive the adjusting plates 232 and the sliding partition plates 312 connected with the sliding blocks to attach and slide on the surfaces of the fixing plates 231 and the fixing partition plates 311, and then the first clamping bin 32 can be extended and adjusted, so that the electronic component bodies 11 can be installed at different positions on the surfaces of the circuit board bodies 1, and the overall applicability of the supporting seat 2 is improved.

And finally, the specific structure of the auxiliary positive component 4 is disclosed, the auxiliary positive component 4 comprises two side plates 41 arranged on one side of the adjusting plate 232, which is far away from the fixed plate 231, the elastic element groups 42 are arranged in the two side plates 41, the auxiliary positive plates 45 for assisting the electronic element body 11 are arranged on one side of the two elastic element groups 42, which is far away from the side plates 41, the top parts of the two auxiliary positive plates 45 are fixedly connected with the balance plate 43, and two balance grooves 44 which are attached to the surfaces of the balance plate 43 are formed in the bottom part of the adjusting plate 232. When the supporting seat 2 is slidably inserted between the electronic component body 11 and the circuit board body 1, the two auxiliary positive plates 45 connected through the elastic member group 42 can perform correction operation on the electronic component body 11 while sliding, so that the pins 13 connected with the side walls of the electronic component body 11 can be inserted in the central part of the bonding pad 12, wherein the elastic member group 42 is composed of a plurality of spiral spring members, and the two auxiliary positive plates 45 are in a parallel state by the balance plate 43 arranged at the top of the auxiliary positive plate 45 and the balance groove 44 arranged at the bottom end of the adjusting plate 232, so that the auxiliary positive effect on the electronic component body 11 is further improved.

Considering that the electronic component body 11 needs to be supported and fixed by the sliding partition plate 312 and the adjusting plate 232, in order to ensure that the sliding partition plate 312 and the adjusting plate 232 are synchronously adjusted during adjustment, one sides of the two screw rods 52 close to the middle rod 21 are fixedly provided with the extension shafts 8, one ends of the two extension shafts 8 extending out of the middle rod 21 are fixedly connected with the gear members 81, the surfaces of the two gear members 81 are in meshed connection with the meshing belt 82, and one side of one gear member 81 away from the extension shaft 8 is fixedly connected with the starting turntable 83.

The improvement is that when the sliding partition plate 312 and the adjusting plate 232 need to be adjusted, a worker holds the supporting seat 2 by hand, rotates the starting turntable 83 by hand, drives the gear members 81 connected with the starting turntable 83 to rotate, and uses the meshing belts 82 meshed with the surfaces of the two gear members 81 to enable the other gear member 81 to synchronously rotate, so that the extending shafts 8 respectively connected with the end parts of the two gear members 81 synchronously rotate, and then the sliding partition plate 312 and the adjusting plate 232 can be assisted to simultaneously adjust the positions, thereby further improving the supporting effect on the electronic element body 11.

Because the bottom end of the circuit board body 1 is attached to the surface of the bottom plate 22 when the circuit board body 1 is fixed, the influence of the bottom plate 22 attached to the bottom end of the circuit board body 1 on the welding of the pins 13 is considered, so that the bottom plate 22 supports the circuit board body 1 without influencing the influence on the insertion and extension of the pins 13, and the U-shaped holes 221 are formed in the bottom plate 22.

The improvement is that the U-shaped hole 221 arranged in the bottom plate 22 is utilized to make the middle part of the bottom plate 22 be in a hollow state, so that the bottom plate 22 can support the circuit board body 1 without influencing the penetration extension of the pins 13 and then the welding of the pins 13.

Considering the storage stability of the circuit board body 1 in the second clamping bin 33, in order to further improve the storage stability of the circuit board body 1, the situation that the circuit board body 1 is shifted when the pins 13 are subjected to overturn welding is reduced, and the reinforcing backing plate 6 is mounted on the inner wall of the second clamping bin 33, and the reinforcing backing plate 6 is made of elastic materials.

The improvement is that the reinforcing base plate 6 arranged on the inner wall of the second clamping bin 33 is utilized, the reinforcing base plate 6 is made of elastic materials, when the circuit board body 1 is inserted into the second clamping bin 33, the reinforcing base plate 6 can fill the space between the circuit board body 1 and the inner wall of the second clamping bin 33, and the supporting stability of the circuit board body 1 is improved, wherein the reinforcing base plate 6 can be made of rubber materials.

Because the supporting seat 2 slides between the two auxiliary positive plates 45 when the electronic element body 11 is clamped in a sliding manner, the electronic element body 11 slides between the two auxiliary positive plates 45, so that the two auxiliary positive plates 45 are provided with the inclined angles 7 on one sides of the two auxiliary positive plates 45 far away from the middle rod 21 for more facilitating the electronic element body 11 to enter between the two auxiliary positive plates 45, and the two inclined angles 7 incline towards the middle part of the auxiliary positive plates 45.

The improvement is that the two inclined angles 7 are inclined towards the middle part of the auxiliary positive plate 45 through the inclined angles 7 arranged at the end parts of the two auxiliary positive plates 45, so that the opening of the auxiliary positive chamber between the two auxiliary positive plates 45 can be amplified, and the electronic element body 11 can more conveniently enter the inside of the auxiliary positive chamber to perform auxiliary positive operation.

In summary, the working principle of the scheme is that when the electronic element body 11 needs to be welded and assembled on the surface of the circuit board body 1, pins 13 mounted on the side wall of the electronic element body 11 are respectively inserted into bonding pads 12 formed on the surface of the circuit board body 1, wherein the electronic element body 11 and the circuit board body 1 are in a non-bonding state;

Then determining the mounting position of the electronic component body 11 on the surface of the circuit board body 1, manually rotating the starting turntable 83 to drive the gear piece 81 connected with the starting turntable 83 to rotate, using the meshing belts 82 meshed on the surfaces of the two gear pieces 81 to enable the other gear piece 81 to synchronously rotate, enabling the extension shafts 8 respectively connected to the end parts of the two gear pieces 81 to synchronously rotate, then assisting the sliding partition plate 312 and the adjusting plate 232 to simultaneously perform position adjustment, enabling the position of the first clamping bin 32 to follow the mounting position of the electronic component body 11 to adjust, then sliding the adjusted supporting seat 2 towards the direction of the circuit board body 1, enabling the electronic component body 11 and the circuit board body 1 to be respectively positioned in the first clamping bin 32 and the second clamping bin 33, and enabling the electronic component body 11 to avoid the condition of mounting and bonding between the electronic component body 11 and the circuit board body 1 during assembly through the middle partition plate 31;

When the electronic element body 11 enters the first clamping bin 32, the two auxiliary positive plates 45 connected through the elastic piece group 42 can correct the electronic element body 11, so that the pins 13 connected with the side wall of the electronic element body 11 can be inserted into the center part of the bonding pad 12, after the electronic element body 11 and the circuit board body 1 are fixed, the supporting seat 2 is integrally turned over, after the electronic element body 11 is turned over, the electronic element body 11 can be stably aligned to the mounting position on the surface of the circuit board body 1 by utilizing the first clamping bin 32 and the auxiliary positive plates 45, and the welding assembly effect of the electronic element body 11 is improved.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The electronic component assembling structure comprises a supporting seat (2) and is characterized in that the supporting seat (2) comprises a middle rod (21), a bottom plate (22), a top plate (23) and a counterweight seat (24), the bottom plate (22) and the top plate (23) are respectively arranged on the side wall of the middle rod (21), the counterweight seats (24) are arranged at two, the two counterweight seats (24) are respectively arranged at the upper end and the lower end of the middle rod (21), the supporting seat (2) is used for carrying out auxiliary support on a circuit board body (1) and an electronic component body (11) through a supporting component (3), a plurality of bonding pads (12) are arranged in the middle of the circuit board body (1), and a plurality of pins (13) are fixedly arranged at the end part of the electronic component body (11);

An auxiliary positive component (4) is slidably arranged in the upper end of the supporting component (3), the auxiliary positive component (4) can assist the electronic component body (11) to straighten, and when the supporting seat (2) is turned over, the auxiliary positive component (4) can drive the electronic component body (11) to be aligned on the surface of the circuit board body (1);

an adjusting assembly (5) is slidably arranged in the supporting assembly (3), and the adjusting assembly (5) can assist the supporting assembly (3) in extending and adjusting;

The supporting component (3) comprises a middle partition plate (31) arranged between the bottom plate (22) and the top plate (23), a first clamping bin (32) used for supporting the electronic component body (11) is formed between the middle partition plate (31) and the top plate (23), and a second clamping bin (33) used for supporting the circuit board body (1) is formed between the middle partition plate (31) and the bottom plate (22).

2. The electronic component mounting structure according to claim 1, wherein the adjusting assembly (5) comprises two inner grooves (51) formed in the middle rod (21), the top plate (23) is composed of a fixing plate (231) and an adjusting plate (232), the fixing plate (231) is fixedly connected to the surface of the middle rod (21), and the adjusting plate (232) is located on one side of the fixing plate (231) close to the first clamping bin (32);

the middle partition plate (31) is composed of a fixed partition plate (311) and a sliding partition plate (312), the sliding partition plate (312) is located on one side, close to the first clamping bin (32), of the fixed partition plate (311), two inner grooves (51) extend to the fixed plate (231) and the inside of the fixed partition plate (311) respectively, screw rods (52) are arranged in the inner grooves (51) in a rotating mode, one side, far away from the first clamping bin (32), of the adjusting plate (232) and the sliding partition plate (312) is fixedly connected with sliding blocks (53), and the two sliding blocks (53) slide on the surfaces of the screw rods (52) respectively.

3. The electronic component assembling structure according to claim 2, wherein the auxiliary positive component (4) comprises two side plates (41) arranged on one side, far away from the fixed plate (231), of the adjusting plate (232), elastic piece groups (42) are arranged in the two side plates (41), auxiliary positive plates (45) for assisting the electronic component body (11) are arranged on one side, far away from the side plates (41), of the two elastic piece groups (42), balancing plates (43) are fixedly connected to the tops of the two auxiliary positive plates (45), and two balancing grooves (44) attached to the surfaces of the balancing plates (43) are formed in the bottoms of the adjusting plate (232).

4. The electronic component assembling structure according to claim 2, wherein the two screw rods (52) are fixedly provided with extension shafts (8) on the sides close to the middle rod (21), one ends of the two extension shafts (8) extending out of the middle rod (21) are fixedly connected with gear members (81), the surfaces of the two gear members (81) are in meshed connection with meshing belts (82), and one side, away from the extension shafts (8), of one gear member (81) is fixedly connected with a starting turntable (83).

5. The electronic component mounting structure according to claim 1, wherein the bottom plate (22) is provided with a U-shaped hole (221) inside.

6. The electronic component mounting structure according to claim 1, wherein the reinforcing pad (6) is mounted on the inner wall of the second clamping chamber (33), and the reinforcing pad (6) is made of an elastic material.

7. The electronic component mounting structure according to claim 3, wherein the two auxiliary positive plates (45) are each provided with an inclination angle (7) on a side thereof away from the center bar (21), and the two inclination angles (7) are inclined toward the middle of the auxiliary positive plates (45).