CN217727677U - Flexible pressing positioning mechanism and flexible pressing positioning device - Google Patents

Abstract

The utility model provides a flexible pressing positioning mechanism, which is suitable for elastic pressing and positioning of workpieces, and comprises a base, a force application module and a pressing component, wherein the force application module and the pressing component are arranged on the base; the workpiece is placed on the base, and the force application module is stressed to drive the pressing component to move up and down, so that the pressing component is close to and elastically pressed on the workpiece. The utility model also provides a flexible pressfitting positioner, include flexible pressfitting positioning mechanism and can dismantle the carrier that sets up on flexible pressfitting positioning mechanism.

Description

Flexible pressing positioning mechanism and flexible pressing positioning device

Technical Field

The utility model relates to an electronic product production technical field especially relates to a flexible pressfitting positioning mechanism and flexible pressfitting positioner.

Background

The motherboard is one of the most basic and important components of an electronic product. Many components on the motherboard need to be fixed by glue dispensing, soldering, and the like. In the TWS earphone, the main board needs to be positioned in the process of dispensing and welding the main board, so that dispensing, welding and the like can be better performed. The positioning of the TWS earphone main board is generally performed through a pressing mechanism, and the existing pressing mechanism cannot effectively adjust the pressing force or the force is too large to crush the main board; or the force is too light, the pressing is not in place, and the mainboard is easy to shift in the processes of dispensing and welding, so that the defects are caused. In addition, the existing pressing mechanism has large impact force when pressing down, and the product mainboard is easily crushed to cause defects.

Therefore, it is necessary to provide a flexible pressing and positioning mechanism capable of flexibly pressing and positioning a motherboard.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can flexible pressfitting in mainboard in order to carry out the flexible pressfitting positioning mechanism who fixes a position to the mainboard.

Another object of the present invention is to provide a flexible pressing positioning device, which is matched with a flexible pressing positioning mechanism through a carrier, so as to better place and position a workpiece, and facilitate flexible pressing on the flexible pressing positioning mechanism to the workpiece in the carrier.

In order to achieve the purpose, the utility model provides a flexible pressing and positioning mechanism which is suitable for elastic pressing and positioning of workpieces, and comprises a base, a force application module and a pressing component, wherein the force application module and the pressing component are arranged on the base; the workpiece is placed on the base, and the force application module is stressed to drive the pressing component to move up and down, so that the pressing component is close to and elastically pressed on the workpiece.

Preferably, the force application module comprises a guide assembly, a mounting seat and an operating element, the guide assembly is elastically mounted on the base, the mounting seat is mounted on the guide assembly, the operating element and the elastic assembly are mounted on the mounting seat, and the elastic assembly is connected to the material pressing assembly.

Preferably, the guide assembly includes the guide arm and the first elastic component of cover on locating the guide arm, and on the guide arm all was fixed in the base with the one end of first elastic component, the guide arm passed the mount pad, and the mount pad is connected in the other end of first elastic component, and operating parts atress is in order to drive the mount pad and slide and can press first elastic component along the guide arm, and first elastic component constantly has the trend that drives the mount pad and reset.

Preferably, the elastic assembly comprises at least one second elastic member, one end of the second elastic member is connected with the mounting seat, and the other end of the second elastic member is connected with the pressing assembly.

Preferably, the clamping device further comprises a clamping component, wherein the clamping component is used for enabling the pressing component to be elastically pressed on the workpiece; the clamping assembly comprises a first clamping piece, the first clamping piece is installed on the base through a fixing piece, a sliding assembly is installed on the fixing piece, the pressing assembly is installed on the sliding assembly in a sliding mode, and the force application module moves to enable the pressing assembly to slide up and down along the sliding assembly.

Preferably, the engaging assembly further includes a second engaging member rotatably disposed on the force application module, the second engaging member includes a second guiding portion and a second engaging portion, and the first engaging member includes a first guiding portion and a first engaging portion; the force application module drives the second clamping piece to enable the second clamping piece to move to the second guide part and slide along the first guide part, so that the second clamping part is clamped with the first clamping part; the second clamping part is rotated to enable the second clamping part to be separated from the first clamping part, so that the force application module can drive the pressing component to reset.

Preferably, the elastic component further comprises a limiting member arranged on the fixing member, the limiting member is adjustably mounted on the fixing member, and the limiting member can control the pressing stroke of the elastic component.

Preferably, the pressing assembly comprises an installation block, a connecting block and a pressing piece, the installation block is arranged on the base in a sliding manner, the connecting block is arranged on the installation block, and the pressing piece is arranged on the connecting block and protrudes out of the connecting block so as to be pressed on the workpiece; the end part of the pressing piece for pressing the workpiece is provided with a soft pressing part.

Preferably, a first adjusting hole is formed in one end, matched with the mounting block, of the connecting block, a second adjusting hole is formed in one end, used for mounting the pressing piece, of the connecting block, the mounting position of the pressing piece in the first direction is adjusted through the first adjusting hole, the mounting position of the pressing piece in the second direction is adjusted through the second adjusting hole, and the first direction is perpendicular to the second direction.

In order to achieve the above another object, the utility model provides a flexible pressfitting positioner, including carrier and flexible pressfitting positioning mechanism, the carrier is the dismantlement and places in flexible pressfitting positioning mechanism, be provided with on the base with carrier complex locating piece and first magnetic part, the carrier passes through the locating piece in order to place on the predetermined position of base, be provided with on the carrier with first magnetic part complex second magnetic part, the mutual absorption of first magnetic part and second magnetic part is in order to consolidate the placing of carrier on the base.

After the technical scheme above the adoption, the utility model discloses a flexible pressfitting positioning mechanism can carry out elasticity pressfitting and location to the work piece, and the work piece can be for the mainboard of TWS earphone. The flexible pressing positioning mechanism comprises a base, a force application module and a pressing assembly, wherein the force application module and the pressing assembly are arranged on the base. The force application module is elastically arranged on the base in a telescopic mode, and the pressing component is elastically connected to the force application module through the elastic component. The workpiece is placed on the base, and the force application module is stressed to drive the pressing component to move up and down, so that the pressing component is close to and elastically pressed on the workpiece. Due to the elastic connection of the force application module and the base, the material pressing component and the force application module are elastically connected, and the multiple elastic structure enables the material pressing component to be flexibly pressed on the workpiece, so that great impact force is avoided, and the workpiece can be more effectively protected. The pressing device further comprises a limiting part capable of limiting the pressing stroke of the elastic component, the force applied to the workpiece by pressing the pressing component through the limiting part is adjustable, and the application range is wider. The clamping component can also enable the pressing component to keep elastic pressing on the workpiece. On the other hand, the utility model also discloses a flexible pressfitting positioner, flexible pressfitting positioner include flexible pressfitting positioning mechanism and can dismantle the carrier that sets up on flexible pressfitting positioning mechanism, and the carrier is used for placing the work piece, and flexible pressfitting positioning mechanism is used for the work piece on the elasticity pressfitting carrier to fix a position the work piece. Through the carrier, the flexible pressing positioning mechanism can more accurately press the workpiece on the carrier, the operation is more convenient, and the pressing effect is better. The utility model discloses a flexible pressfitting positioning mechanism and flexible pressfitting positioner can be elastic pressfitting on the work piece to fix a position the work piece, fix a position effectually, can avoid crushing the work piece.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without any creative effort.

Fig. 1 is a structural diagram of a flexible pressing and positioning mechanism according to an embodiment of the present invention.

Fig. 2 is a structural diagram of a flexible pressing and positioning device according to an embodiment of the present invention.

Figure 3 is a view of the flexible press fit positioning mechanism of figure 1 in a starting position.

Fig. 4 is a structural diagram of the flexible press-fit positioning mechanism in fig. 1 with a carrier placed therein to assume the state of fig. 2.

Fig. 5 is a state diagram of the pressing assembly of the flexible pressing and positioning mechanism in fig. 2 approaching to the carrier.

Fig. 6 is a state diagram of the pressing assembly of the flexible pressing and positioning mechanism in fig. 1 continuously acting on the carrier.

Fig. 7 is a block diagram of the bottom of the carrier of fig. 1.

Fig. 8 is a structural diagram of the force application module, the pressing assembly and the clamping assembly in fig. 1.

Fig. 9 is a structural view of the forcing module in fig. 8.

Fig. 10 is a block diagram of the press assembly of fig. 8.

Fig. 11 is a structural view from another angle of fig. 10.

Fig. 12 is a block diagram of the snap assembly and the slide assembly of fig. 8.

Description of reference numerals:

1000. a flexible pressing and positioning device; 100. a flexible pressing and positioning mechanism; 101. a material pressing structure; 102. a base; 103. positioning blocks; 104. a first magnetic member;

10. a force application module; 11. a mounting seat; 12. an operating member; 13. a guide assembly; 131. a guide bar; 132. a first elastic member; 14. an elastic component; 141. a second elastic member; 15. a limiting member;

20. a material pressing component; 21. mounting blocks; 22. connecting blocks; 221. a first adjustment aperture; 222. a second adjustment aperture; 23. pressing the material part; 231. a material pressing part;

30. clamping the assembly; 31. a first engaging member; 311. a first guide portion; 312. a first engaging portion; 32. a second engaging member; 321. a second guide portion; 322. a second engaging portion; 33. a rotating shaft; 34. a fixing member; 35. a fixed seat;

40. a sliding assembly;

200. a carrier; 201. a second magnetic member.

Detailed Description

In order to explain the technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings.

Referring to fig. 1 and 2, the present invention provides a flexible pressing and positioning device 1000, which is suitable for pressing and positioning a workpiece, wherein the workpiece can be a main board of a TWS headset. The flexible pressing and positioning device 1000 includes a flexible pressing and positioning mechanism 100 and a carrier 200 detachably disposed on the flexible pressing and positioning mechanism 100. The flexible pressing and positioning mechanism 100 can directly perform elastic pressing and positioning on various workpieces. The flexible pressing positioning mechanism 100 can also be matched with various carriers 200, the carriers 200 are used for placing workpieces, and the carriers 200 are used for positioning the workpieces, so that the flexible pressing positioning mechanism 100 can better perform elastic pressing positioning on the workpieces on the carriers 200 for subsequent dispensing, welding and other processing. The flexible pressing and positioning mechanism 100 includes a base 102, and a force application module 10 and a pressing assembly 20 disposed on the base 102. The base 102 is provided with a placing position on which the carrier 200 is detachably placed or on which a workpiece is placed. The carrier 200 is detachable, so that a workpiece can be conveniently placed in the carrier 200, and the flexible pressing and positioning mechanism 100 can be matched with carriers 200 of different types for pressing materials. Specifically, the force application module 10 is elastically and telescopically disposed on the base 102, and the pressing assembly 20 is connected to the force application module 10. An elastic component 14 is disposed between the force application module 10 and the pressing component 20, and the pressing component 20 is elastically connected to the force application module 10 by the elastic component 14. The force application module 10 is forced to drive the pressing component 20 to move up and down, so that the pressing component 20 can approach the workpiece or approach the workpiece on the carrier 200, and the pressing component 20 is elastically pressed on the workpiece.

Referring to fig. 1 to fig. 6, in some alternative embodiments, a plurality of pressing structures 101 are disposed on a base 102 of the flexible pressing and positioning mechanism 100, and each pressing structure 101 includes a force application module 10, a pressing assembly 20, and a clamping assembly 30. The multiple pressing structures 101 can flexibly position multiple workpieces at the same time, so that the multiple workpieces can be subjected to glue dispensing welding and the like at the same time. The multiple pressing structures 101 can be operated singly or in linkage. As shown in fig. 2, the force application module 10 is located at an initial position, and the pressing assembly 20 is away from the base 102, so that the carrier 200 is placed in the placing position of the base 102. As shown in fig. 3, the carrier 200 is placed in a predetermined position in the receiving position of the base 102. It can be understood that the flexible pressing and positioning mechanism 100 can be used in cooperation with a corresponding machine, so that the force application module 10 can automatically drive the pressing assembly 20 to press on the workpiece. Or, the flexible pressing and positioning mechanism 100 is used alone, and the force application module 10 is provided with a power member such as an air cylinder, and the power member drives the force application module 10 to move and keep the elastic pressing on the workpiece. In addition, a force can be manually applied to the force application module 10, so that the force application module 10 drives the pressing component 20 to be pressed on the workpiece, and the pressing component 20 can keep elastic pressing on the workpiece through the clamping component 30. As shown in fig. 4, the force application module 10 is forced to drive the pressing assembly 20 to approach the carrier 200, and at this time, the second engaging member 32 is not engaged with the first engaging member 31. As shown in fig. 5, the second engaging member 32 is engaged with the first engaging member 31, and the force application module 10 is fixed at a certain position, so that the swaging assembly 20 can keep elastically pressing on the workpiece on the carrier 200.

Referring to fig. 1 and 7, in some alternative embodiments, the placement position is provided with a positioning block 103 and a first magnetic member 104, which are matched with the carrier 200, and both the positioning block 103 and the first magnetic member 104 are used for being matched with the carrier 200, so that the carrier 200 can be better placed on the placement position. The carrier 200 is placed at a predetermined position of the material placement position through the positioning block 103. The positioning block 103 is L-shaped, and two right-angle sides of the positioning block 103 are matched with the carrier 200. The predetermined position is a position where the carrier 200 is placed on the base 102 by the positioning block 103. On the other hand, the carrier 200 is provided with a second magnetic member 201 cooperating with the first magnetic member 104, so that the carrier 200 is placed on the base 102 by the mutual attraction between the first magnetic member 104 and the second magnetic member 201. The number of the first magnetic members 104 and the second magnetic members 201 can be set according to actual needs. For example, the first magnetic member 104 and the second magnetic member 201 are both magnets, and the first magnetic member 104 and the second magnetic member 201 may be stacked together. Or the base 102 and the carrier 200 are both made of magnetic materials, and the first magnetic member 104 and the second magnetic member 201 are arranged in a staggered manner, so that more adsorption force bearing points can be provided, and the carrier 200 can be placed on the base 102 more stably.

Referring to fig. 8 and 9, in some alternative embodiments, the force application module 10 includes a guide assembly 13, a mounting seat 11, an operating member 12, and an elastic assembly 14. Wherein, the guiding component 13 is elastically installed on the base 102, and the installation seat 11 is installed on the guiding component 13. Specifically, the guiding assembly 13 includes a guide rod 131 and a first elastic member 132 sleeved on the guide rod 131, and one end of each of the guide rod 131 and the first elastic member 132 is fixed on the base 102. The guide rod 131 passes through the mounting base 11, the mounting base 11 is connected to the other end of the first elastic member 132, the operating element 12 and the elastic component 14 are mounted on the mounting base 11, as shown in fig. 3 and 4, the operating element 12 is forced to drive the mounting base 11 to press the first elastic member 132, and the mounting base 11 and the first elastic member 132 can slide along the guide rod 131. The first elastic member 132 has a tendency of bringing the mounting base 11 to reset. When the second engaging member 32 is disengaged from the first engaging member 31, the first elastic member 132 can drive the mounting seat 11 to reset. The operating element 12 can be used for an operator to manually press the force application module 10, or the operating element 12 is connected to a power element of a corresponding device and can enable the force application module 10 to act under the action of the power element.

Referring to fig. 8 and 9, in some alternative embodiments, the elastic component 14 is connected to the pressing component 20, so that the pressing component 20 can be elastically pressed on the workpiece, and the rigid impact between the pressing component 20 and the workpiece can be avoided, thereby avoiding the workpiece from being crushed. Specifically, the elastic assembly 14 includes at least one second elastic member 141, one end of the second elastic member 141 is connected to the mounting seat 11, and the other end of the second elastic member 141 is connected to the pressing assembly 20. The second elastic member 141 may be a spring.

Referring to fig. 10 and 11, in some alternative embodiments, the swaging assembly 20 includes a mounting block 21, a connecting block 22, and a swaging member 23. The mounting block 21 is slidably disposed on the base 102, the connecting block 22 is mounted on the mounting block 21, and the pressing member 23 is mounted on the connecting block 22 and protrudes out of the connecting block 22 to press the workpiece on the carrier 200. The end of the pressing member 23 contacting the workpiece is provided with a soft pressing portion 231, and the pressing portion 231 is used for pressing the workpiece. Specifically, the mounting block 21 is L-shaped, one end of the mounting block 21 is slidably connected to the fixing element 34 on the base 102, the fixing element 34 is provided with a sliding assembly 40, the sliding assembly 40 is a guide rail and a slider, and one end of the mounting block 21 is slidably mounted on the guide rail on the fixing element 34 through the slider. The other end of the mounting block 21 is fitted with a connecting block 22. On the other hand, a first adjusting hole 221 is formed at one end of the connecting block 22, which is matched with the mounting block 21, and a second adjusting hole 222 is formed at one end of the connecting block 22, which is used for mounting the material pressing piece 23. The first adjustment hole 221 is used to adjust the position of the blanking member 23 in a first direction, and the second adjustment hole 222 is used to adjust the position of the blanking member 23 in a second direction, the first direction being perpendicular to the second direction. It is understood that the first adjustment hole 221 is used to adjust the direction of the ram 23 moving left and right on the horizontal plane. The second adjusting hole 222 is used for adjusting the forward and backward movement direction of the blanking member 23 on the horizontal plane. The first adjusting hole 221 and the second adjusting hole 222 are arranged to adjust the position of the material pressing piece 23 in the front, rear, left and right directions, so that the material pressing piece 23 can be suitable for different workpieces, and the application range is wider.

Referring to fig. 3 and 12, in some alternative embodiments, the flexible pressing and positioning mechanism 100 further includes a clamping assembly 30, and the clamping assembly 30 is used for keeping the pressing assembly 20 elastically pressed on the workpiece. The snap assembly 30 includes a first snap member 31 and a second snap member 32. The first engaging member 31 is mounted on the base 102 by a fixing member 34. The fixed part 34 is provided with a sliding component 40, and the pressing component 20 is slidably arranged on the sliding component 40. The force application module 10 acts to make the pressing component 20 move up and down along the sliding component 40. Namely, when the force application module 10 slides along the guide rod 131, the pressing assembly 20 slides along the sliding assembly 40. The fixing member 34 is further provided with a limiting member 15, and the limiting member 15 can limit the pressing stroke of the force application module 10, so as to prevent the pressing member 20 from directly impacting the workpiece. It can be understood that when the force application module 10 slides along the guide assembly 13 until the mounting base 11 touches the limiting member 15, the mounting base 11 and the swaging assembly 20 connected to the mounting base 11 stop descending, so as to prevent the swaging assembly 20 from crushing the workpiece. The height of the limiting piece 15 on the fixing piece 34 can be adjusted, and the pressing stroke of the elastic assembly 14 can be limited by adjusting the height of the limiting piece 15 on the fixing piece 34. And then can adjust and press material subassembly 20 to push down the dynamics that acts on the work piece, can be applicable to the work piece that various pressfitting dynamics demands are different, application scope is wider. The second engaging member 32 is engaged with the first engaging member 31, so that the pressing assembly 20 can be pressed against the workpiece in a constant state. On the other hand, the second engaging piece 32 is rotatably provided on the biasing module 10, the fixing seat 35 is attached to the mounting seat 11 of the biasing module 10, and the second engaging piece 32 is rotatably attached to the fixing seat 35 via the rotating shaft 33. Specifically, the second engaging piece 32 includes a second guide portion 321 and a second engaging portion 322. The first engaging member 31 includes a first guide portion 311 and a first engaging portion 312. The force application module 10 drives the second engaging member 32 to move until the second guiding portion 321 slides along the first guiding portion 311, so that the second engaging portion 322 is engaged with the first engaging portion 312. The second engaging portion 322 is disengaged from the first engaging portion 312 by rotating the second engaging member 32, so that the force applying module 10 can drive the pressing assembly 20 to reset. It is understood that the swaging assembly 20 may be held in compression against the workpiece by a power member on the force application module 10; alternatively, the swaging assembly 20 may be held in compression against the workpiece by hand; alternatively, the pressing assembly 20 may be held in compression against the workpiece by the engaging assembly 30.

As shown in fig. 1 to 12, the flexible pressing positioning device 1000 of the present invention includes a flexible pressing positioning mechanism 100 and a carrier 200 detachably disposed on the flexible pressing positioning mechanism 100. The flexible compression positioning mechanism 100 can be used alone or in conjunction with the carrier 200. The flexible pressing and positioning mechanism 100 can perform pressing and positioning on a workpiece, and the workpiece can be a main board of a TWS earphone. The flexible pressing and positioning mechanism 100 includes a base 102, and a force application module 10, a pressing assembly 20 and a clamping assembly 30 disposed on the base 102. A material placing position for placing the carrier 200 is arranged on the base 102, and the material placing position can be used for placing a workpiece; or the carrier 200 can be detachably placed on the placing position. The force application module 10 is elastically and telescopically disposed on the base 102, and the pressing assembly 20 is elastically connected to the force application module 10. The force application module 10 can drive the pressing component 20 to elastically press down, and can also drive the pressing component 20 to reset. An elastic component 14 and a limiting component 15 are arranged between the pressing component 20 and the force application module 10. The force application module 10 is forced to drive the swaging component 20 to move up and down, so that the swaging component 20 approaches the carrier 200 and is elastically pressed on the workpiece on the carrier 200, so as to swage and position the workpiece. Under the action of the first elastic member 132 and the elastic assembly 14, the pressing assembly 20 is flexibly pressed on the workpiece, so that the workpiece can be prevented from being crushed. The limiting member 15 is mounted on the base 102 through the fixing member 34. The installation height of the limiting member 15 on the fixing member 34 can be adjusted to limit the pressing stroke of the elastic assembly 14, so that the force of the pressing assembly 20 on the workpiece can be controlled. On the other hand, the engaging assembly 30 includes a second engaging member 32 and a first engaging member 31, the second engaging member 32 is rotatably disposed on the force application module 10, and the first engaging member 31 is fixed on the base 102. The second engaging member 32 can move up and down along with the force application module 10 and can engage with the first engaging member 31, and the engagement between the second engaging member 32 and the first engaging member 31 can keep the pressing assembly 20 pressed on the workpiece. The second engaging member 32 rotates to disengage from the first engaging member 31, so that the force application module 10 can be automatically reset. The utility model discloses a flexible pressfitting positioner 1000 presses material subassembly 20 can be elastic pressfitting on the work piece to fix a position the work piece, fix a position effectually, and can avoid crushing the work piece.

The above disclosure is only a preferred embodiment of the present invention, and the scope of the claims of the present invention should not be limited thereby, and all the equivalent changes made in the claims of the present invention are intended to be covered by the present invention.

Claims (10)

1. A flexible pressing and positioning mechanism is suitable for elastic pressing and positioning of workpieces and is characterized by comprising a base, a force application module and a pressing assembly, wherein the force application module and the pressing assembly are arranged on the base; the workpiece is placed on the base, and the force application module is stressed to drive the pressing component to move up and down, so that the pressing component is close to and elastically pressed on the workpiece.

2. A flexible press-fit positioning mechanism according to claim 1, wherein the force application module includes a guide assembly, a mounting seat and an operating member, the guide assembly is elastically mounted on the base, the mounting seat is mounted on the guide assembly, the operating member and the elastic assembly are mounted on the mounting seat, and the elastic assembly is connected to the swaging assembly.

3. A flexible press-fit positioning mechanism according to claim 2, wherein the guide assembly includes a guide rod and a first elastic member sleeved on the guide rod, one end of the guide rod and one end of the first elastic member are fixed to the base, the guide rod passes through the mounting seat, the mounting seat is connected to the other end of the first elastic member, the operating member is forced to drive the mounting seat to slide along the guide rod and press the first elastic member, and the first elastic member has a tendency of driving the mounting seat to return.

4. A flexible press fit positioning mechanism according to claim 2, wherein the elastic assembly comprises at least one second elastic member, one end of the second elastic member is connected to the mounting base, and the other end of the second elastic member is connected to the pressing assembly.

5. The flexible pressing and positioning mechanism according to claim 1, further comprising a clamping component for maintaining the pressing component elastically pressed on the workpiece; the clamping assembly comprises a first clamping piece, the first clamping piece is installed on the base through a fixing piece, a sliding assembly is installed on the fixing piece, the pressing assembly is installed on the sliding assembly in a sliding mode, and the force application module acts to enable the pressing assembly to slide along the sliding assembly in a lifting mode.

6. A flexible press positioning mechanism according to claim 5, wherein said engaging assembly further comprises a second engaging member, said second engaging member being pivotally mounted to said force application module, said second engaging member comprising a second guide portion and a second engaging portion, said first engaging member comprising a first guide portion and a first engaging portion; the force application module drives the second clamping piece to enable the second clamping piece to move to the second guide part and slide along the first guide part, so that the second clamping part is clamped with the first clamping part; by rotating the second clamping piece, the second clamping part is separated from the first clamping part, so that the force application module can drive the pressing component to reset.

7. The flexible press-fit positioning mechanism of claim 5, further comprising a limiting member disposed on the fixing member, wherein the limiting member is adjustably mounted on the fixing member, and the pressing stroke of the elastic member can be controlled by the limiting member.

8. A flexible press-fit positioning mechanism according to claim 1, wherein the pressing assembly comprises a mounting block, a connecting block and a pressing member, the mounting block is slidably disposed on the base, the connecting block is mounted on the mounting block, and the pressing member is mounted on the connecting block and protrudes out of the connecting block so as to be press-fitted on the workpiece; the pressing piece is used for pressing the end part of the workpiece and is provided with a soft pressing part.

9. A flexible press fit positioning mechanism according to claim 8, wherein the end of the connecting block engaged with the mounting block is provided with a first adjusting hole, the end of the connecting block for mounting the pressing member is provided with a second adjusting hole, the first adjusting hole is used to adjust the mounting position of the pressing member in a first direction, and the second adjusting hole is used to adjust the mounting position of the pressing member in a second direction, the first direction being perpendicular to the second direction.

10. A flexible press-fit positioning device, comprising a carrier and the flexible press-fit positioning mechanism of any one of claims 1 to 9, wherein the carrier is detachably placed on the flexible press-fit positioning mechanism, the base is provided with a positioning block and a first magnetic member which are matched with the carrier, the carrier is placed on a preset position of the base through the positioning block, the carrier is provided with a second magnetic member which is matched with the first magnetic member, and the placement of the carrier on the base is reinforced by mutual adsorption of the first magnetic member and the second magnetic member.

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