CN211879638U - BTB connector pressing mechanism and electronic equipment - Google Patents

Abstract

The utility model relates to a mobile electronic equipment technical field discloses a BTB connector pressing mechanism for the fixed FPC module that contains the reinforcement steel sheet contains: the device comprises a slot capable of containing the reinforced steel sheet and a pushing and withdrawing device for fixing the reinforced steel sheet, wherein the pushing and withdrawing device is arranged in the slot. The utility model also provides an electronic equipment who contains BTB connector pressing mechanism. The utility model provides a BTB connector pressing mechanism for greatly reduce equipment operation procedure and time cost, promote the operating efficiency of electronic equipment assembly.

Description

BTB connector pressing mechanism and electronic equipment

Technical Field

The utility model relates to a mobile electronic equipment technical field, in particular to BTB connector pressing mechanism and contain this pressing mechanism's electronic equipment.

Background

With the trend of integrated assembly of electronic devices, Board-to-Board (BTB) connectors for connecting a motherboard with a flexible Circuit Board (FPC) are a common and important component in the assembly and production of electronic devices. In order to ensure the stability of the connection between the flexible circuit board and the motherboard, the stability of the BTB connector is particularly important.

At present, in order to ensure the stability of the BTB connector after being buckled, the BTB connector connected with the FPC is buckled with a main board device, a steel sheet is additionally adopted to fix and press the BTB connector, and a screw and a nut are needed to fix the steel sheet.

The inventor finds that at least the following problems exist in the prior art: the BTB connector is fixed and pressed through the additional steel sheets, the screws and the nuts, and therefore assembly operation procedures and time cost are increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a BTB connector pressing mechanism and electronic equipment for greatly reduce equipment operation procedure and time cost, promote the operating efficiency of electronic equipment assembly.

In order to solve the technical problem, the utility model provides an embodiment provides a BTB connector pressing mechanism for the fixed FPC module that contains the reinforcement steel sheet and is located the BTB connector of reinforcement steel sheet below, its characterized in that contains: the device comprises a slot capable of containing the reinforced steel sheet and a pushing and withdrawing device for fixing the reinforced steel sheet, wherein the pushing and withdrawing device is arranged in the slot.

The utility model discloses embodiment still provides an electronic equipment, including casing and the BTB connector pressing mechanism of setting on the casing.

Compared with the prior art, the embodiment of the utility model, based on the FPC who adopts BTB connector structure now and being equipped with the reinforcement steel sheet, improve current structure, be provided with push away device and slot on the base, push away the device and set up in the slot, when the both sides of reinforcement steel sheet insert the slot, press once and can lock fixed reinforcement steel sheet, because the BTB connector is located the below of reinforcement steel sheet, press the steel sheet and press the BTB connector to the direction of mainboard device, thereby when the steel sheet is locked fixedly, the BTB connector then with the fixed pressfitting of mainboard device; when the steel sheet is pressed again, the steel sheet is popped out by the pushing and withdrawing device, at the moment, the BTB connector is separated from the fixation of the steel sheet and then can be taken out, the whole installation and disassembly process is simple and convenient, the assembly operation procedure and the time cost are reduced, and the operation efficiency of the electronic equipment assembly is improved.

In addition, the pushing and withdrawing device comprises an elastic component, a movable device and a movable rod; one end of the elastic component is fixed in the slot, and the other end of the elastic component is connected with the movable device; the movable device is provided with a buckling piece buckled with the steel sheet and a stop flange abutted against the steel sheet, and is provided with a sliding chute which comprises a first sliding chute for enabling one end of the movable rod to slide in a reciprocating manner and a limiting chute for fixing one end of the movable rod; the other end of the movable rod is hinged in the slot. In the pressing stage, the steel sheet is abutted and buckled with the movable device through the buckling piece and the stopping flange of the movable device to form a relatively stable position state; the steel sheet is smoothly pushed by arranging the sliding chute on the movable device and moving in opposite matching with the movable rod; the limiting groove is arranged to be matched with the movable rod and the elastic part to lock the movable device (namely the steel sheet) so as to press the BTB connector; when the movable rod reaches the limiting groove in the sliding groove, the movable device (steel sheet) is locked by the movable rod, the limiting groove and the elastic part; when the steel sheet withdraws, the movable device slides forwards, the head of the movable rod is separated from the limiting groove in the sliding groove and is scratched into the first sliding groove, the steel sheet is loosened, and the elastic part provides restoring force, so that the movable device moves towards the opening of the slot to drive the steel sheet to withdraw.

In addition, the movable device comprises a sliding block provided with a sliding chute, the buckling piece comprises a strip-shaped elastic piece with one end fixedly connected with the sliding block and a clamping head arranged at one end of the elastic piece, which is relatively far away from the sliding block, and the clamping head is arc-shaped; the stop flange is arranged on one side, close to the buckling piece, of the sliding block. When the steel sheet is pushed, a clamping head in the buckling piece is matched with a notch of the steel sheet, and the abutting part of the steel sheet is abutted against the upper stop flange of the sliding block, so that the steel sheet is fixed and pushed together; when the steel sheet is withdrawn, the notch can easily overcome the resistance of the clamping head and be easily taken out by setting the buckle into an arc shape and setting the connecting part of the buckling piece and the sliding block into an elastic sheet.

In addition, the buckling piece is pivoted with the sliding block; be equipped with the gliding slider groove of confession slider in the slot, the slider groove is laid along the direction that the steel sheet inserted the slot, and the slider groove contains the first slider groove of keeping away from the movable rod relatively and the second slider groove of being close to the movable rod relatively, and wherein, the degree of depth in first slider groove diapire reduces along the direction that the steel sheet inserted the slot gradually, and the diapire in second slider groove has invariable degree of depth and is close to the diapire degree of depth on one side of the movable rod with first slider groove and the same. Through setting up the buckling piece into with the slider pin joint, the degree of depth of first slider slot diapire sets up to the direction that inserts in the slot along the steel sheet and reduces gradually to when the steel sheet withdraws from, leave the space of letting out of buckling piece, change and make the steel sheet withdraw from.

In addition, the first sliding groove is a reciprocating sliding groove, the reciprocating sliding groove is provided with an advancing groove and a retreating groove which are communicated with each other, and the advancing groove and the retreating groove are obliquely arranged relative to the direction of inserting the steel sheet into the inserting groove; the limiting groove is positioned at the intersection of the forward groove and the backward groove which is relatively close to the opening side of the slot; the first sliding groove is provided with a guide side wall opposite to the limiting groove, and the guide side wall is used for leading one end of the movable rod into the limiting groove. Through setting up the spout into the form of reciprocal spout for the movable rod is more smooth and easy in the trend of spout, and spacing recess relatively is provided with the direction lateral wall, when the movable rod head was close the lead groove end, more easily introduces the movable rod in the spacing recess.

In addition, the depth of the bottom wall of the advancing groove gradually increases along the direction close to the limiting groove, the depth of the bottom wall of the retreating groove gradually increases along the direction far away from the limiting groove, and the depth of the limiting groove gradually increases from one side adjacent to the advancing groove to one side adjacent to the retreating groove. Through the arrangement, the respective bottom walls of the advancing groove, the limiting groove and the retreating groove are in smooth transition, so that the movable rod can slide more smoothly.

In addition, a first step for sliding one end of the movable rod into the limiting groove from the advancing groove is arranged at the intersection of the advancing groove and the limiting groove; a second step for sliding one end of the movable rod into the retreating groove from the limiting groove is arranged at the intersection of the limiting groove and the retreating groove; and a third transposition step for enabling one end of the movable rod to slide into the advancing groove from the retreating groove is arranged at the intersection of the retreating groove and the advancing groove. Steps are formed between the advancing groove and the limiting groove, between the limiting groove and the retreating groove, and between the retreating groove and the advancing groove, so that the movable rod can move along a given track.

In addition, a pressure rod piece is arranged in the slot, the pressure rod piece has elasticity, and the pressure rod piece is pressed on the movable rod and keeps the movable rod in the reciprocating chute. The pressure rod piece is arranged on the inner wall of the slot, and when the movable rod slides through the transposition step, the pressure rod piece presses the movable rod, so that the movable rod cannot be separated from the sliding groove to slide, and the movable rod is further ensured to slide along the set track.

Drawings

Fig. 1 is a schematic view of an FPC reinforced steel sheet fixing BTB connector according to a first embodiment of the present invention;

fig. 2 is a schematic structural view of a BTB connector press-fit mechanism according to a first embodiment of the present invention;

fig. 3 is a partial schematic structural view of a push-back device according to a second embodiment of the present invention;

fig. 4 is a schematic structural view of a reciprocating chute according to a third embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the following will explain in detail each embodiment of the present invention with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that in various embodiments of the invention, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solutions claimed in the claims of the present application can be implemented without these technical details and with various changes and modifications based on the following embodiments.

The utility model discloses a first embodiment relates to a BTB connector pressing mechanism for the fixed FPC module that contains the reinforcement steel sheet and is located the BTB connector of reinforcement steel sheet below contains: the slot can contain the reinforcing steel sheet and the pushing and withdrawing device of the fixed steel sheet, wherein the pushing and withdrawing device is arranged in the slot. The BTB connector pressing mechanism provided in this embodiment is based on the existing FPC adopting the BTB connector structure provided with a reinforcing steel sheet, the existing structure is improved, the base is provided with a pushing device and a slot, the pushing device is arranged in the slot, as shown in fig. 1, when two sides of the reinforcing steel sheet are inserted into the slot (the direction is shown by an arrow in the figure), the reinforcing steel sheet can be locked and fixed by pressing once, because the BTB connector is located below the reinforcing steel sheet, the pressing steel sheet presses the BTB connector towards the direction of the main board device, so that when the steel sheet is locked and fixed, the BTB connector is then fixed and pressed with the main board device; when the steel sheet is pressed again, the steel sheet is popped up by the pushing and withdrawing device, and at the moment, the BTB connector is separated from the fixation of the steel sheet and can be taken out, so that the whole installation and disassembly process is simple and convenient, the assembly operation procedure and time cost are reduced, and the operation efficiency of electronic equipment assembly is improved; in addition, additional steel sheets, screws and nuts are not needed for assembly, the assembly space is saved, and the possibility of swinging other devices is provided.

Specifically, as shown in fig. 2: the pushing and withdrawing device 2 comprises an elastic part 2-1, a movable device 2-2 and a movable rod 2-3; one end of the elastic component 2-1 is fixed in the slot 1, and the other end is connected with the movable device 2-2; the movable device 2-2 is provided with a buckling piece 2-21 buckled with the steel sheet 3 and a stop flange 2-22 abutted against the steel sheet 3, the movable device 2-2 is provided with a sliding chute 2-23, and the sliding chute 2-23 comprises a first sliding chute 2-231 for enabling one end of the movable rod 2-3 to slide in a reciprocating manner and a limiting chute 2-232 for fixing one end of the movable rod 2-3; the other end of the movable rod 2-3 is hinged in the slot 1.

This arrangement provides a particularly simple construction of the push-and-pull device. In the pressing stage, the steel sheet 3 is abutted and buckled with the movable device 2-2 through the buckling pieces 2-21 and the stopping flanges 2-22 of the movable device 2-2 to form a relatively stable position state; the steel sheet 3 is smoothly pushed by arranging the sliding grooves 2-23 on the movable device 2-2 and moving in opposite direction in a matching way with the movable rods 2-3; the limiting grooves 2-232 are matched with the movable rods 2-3 and the elastic parts 2-1 to lock the movable device 2-2 (namely the steel sheet 3) so as to press the BTB connector; when the movable rod 2-3 reaches the limiting groove 2-232 in the sliding groove 2-23, the movable device 2-2 (the steel sheet 3) is locked by the movable rod 2-3, the limiting groove 2-232 and the elastic component 2-1; when the steel sheet 3 exits, the movable device 2-2 slides forwards, the head of the movable rod 2-3 is separated from the limiting groove 2-232 in the sliding groove 2-23 and is scratched into the first sliding groove 2-231, the steel sheet 3 is loosened, and the elastic component 2-1 provides restoring force, so that the movable device 2-2 moves towards the opening of the slot 1 to drive the steel sheet 3 to exit.

In practical application, the movable device 2-2 comprises a sliding block 2-24 provided with a sliding groove 2-23, the fastener 2-21 comprises a strip-shaped elastic sheet 2-211 with one end fixedly connected with the sliding block and a chuck 2-212 arranged at one end of the elastic sheet 2-211 relatively far away from the sliding block 2-24, and the chuck 2-212 is arc-shaped; the stop flange 2-22 is disposed on the slider 2-24 on a side thereof adjacent to the fastener 2-21. When the steel sheet 3 is pushed to the bottom of the slot from the slot opening, the clamping heads 2-212 in the buckling pieces 2-21 fall into the notch of the steel sheet 3, the abutting part of the steel sheet 3 abuts against the stop flanges 2-23 on the sliding blocks 2-24 so as to jointly fix the steel sheet 3, and the movable device 2-2 is pushed together with the steel sheet 3; when the locking piece is withdrawn, the clamping head 2-212 is arc-shaped, the part of the locking piece 2-21 connected with the sliding block 2-24 is set to be the elastic sheet 2-211, and the notch of the steel sheet 3 can easily overcome the resistance of the clamping head 2-212 and be easily taken out as long as a slight force is applied to the elastic sheet 2-211.

It should be noted that, in this embodiment, the elastic component 2-1 may be a spring, the movable device, and the movable rod may be in the layout form shown in fig. 1, and one end of the movable rod 2-3 may also be hinged to the inner wall of the opening of the slot 1, and correspondingly, one end of the spring is fixed to the bottom wall of the slot 1.

It is not difficult to find that, in the first embodiment of the utility model, a BTB connector pressing mechanism matched with a slot by a pushing device is adopted, the pushing device and the slot are arranged on a base, the pushing device is arranged in the slot, when two sides of a reinforcing steel sheet are inserted into the slot, the reinforcing steel sheet can be locked and fixed by pressing once, and because the BTB connector is positioned below the reinforcing steel sheet, the pressing steel sheet presses the BTB connector towards the direction of a mainboard device, when the steel sheet is locked and fixed, the BTB connector is then fixed and pressed with the mainboard device; when the steel sheet is pressed again, the steel sheet is popped up by the pushing and withdrawing device, and at the moment, the BTB connector is separated from the fixation of the steel sheet and can be taken out, so that the whole installation and disassembly process is simple and convenient, the assembly operation procedure and time cost are reduced, and the operation efficiency of electronic equipment assembly is improved; in addition, additional steel sheets, screws and nuts are not needed for assembly, the assembly space is saved, and the possibility of swinging other devices is provided.

The utility model discloses a second embodiment relates to a BTB connector pressing mechanism. The second embodiment is substantially the same as the first embodiment, and mainly differs therefrom in that: the utility model discloses in the second embodiment, the mode of pin joint is adopted with the slider to the buckling piece in the device that pushes away, and has set up in the slot and supply the gliding slider groove of slider to the space of letting back of buckling piece has been left in the slider groove.

Specifically, as shown in fig. 3: the fastener 2-21 is pivoted with the slider 2-24; the slot 1 is provided with a slider groove 1-1 for the slider 2-24 to slide, the slider groove 1-1 is arranged along the direction of inserting the steel sheet into the slot 1 (as shown by the arrow in figure 2), the slider groove 1-1 comprises a first slider groove 1-11 relatively far away from the movable rod 2-3 and a second slider groove 1-12 relatively close to the movable rod, wherein the depth of the bottom wall of the first slider groove 1-11 is gradually reduced along the direction of inserting the steel sheet 3 into the slot 1, and the depth of the bottom wall of the second slider groove 1-12 is constant and is the same as the depth of the bottom wall of the first slider groove 1-11 on the side close to the movable rod 2-3.

The arrangement of other components in the ejector is as in the first embodiment and will not be described here.

It can be seen that, in the second embodiment of the present invention, by disposing the fasteners 2-21 to be pivotally connected to the sliders 2-24, the bottom walls of the first slider grooves 1-11 are disposed to gradually decrease in depth in the direction of insertion of the steel sheet 3 into the slot 1, so as to leave room for the escape of the fasteners 2-21 when the steel sheet 3 is withdrawn. By adopting the BTB connector pressing mechanism with the structure, when the steel sheet is pressed to withdraw the steel sheet, the operation is smoother and simpler.

The utility model discloses a third embodiment relates to a BTB connector pressing mechanism, and the third embodiment is roughly the same with the second embodiment, and the main difference lies in: the utility model discloses in the third embodiment, first sliding tray is reciprocal spout, and reciprocal spout is provided with the forward groove that communicates each other, retreats the groove, and is provided with the transposition step between forward groove, retreating groove and the spacing groove to guarantee that the movable rod can slide according to established movement track.

Specifically, as shown in fig. 4, the first sliding grooves 2 to 231 are reciprocating sliding grooves, the reciprocating sliding grooves are provided with forward grooves 2 to 2311 and backward grooves 2 to 2312 which are communicated with each other, and the forward grooves 2 to 2311 and the backward grooves 2 to 2312 are arranged obliquely relative to the direction in which the steel sheet 3 is inserted into the slot; the limiting grooves 2-232 are positioned at the intersection of the forward grooves 2-2311 and the backward grooves 2-2312 which are relatively close to the opening side of the slot 1; the first sliding groove 2-231 is provided with a guide side wall 2-2313 opposite to the limiting groove 2-232, and the guide side wall 2-2313 is used for leading one end of the movable rod 2-3 into the limiting groove 2-232. In this embodiment, the first sliding groove 2-231 is configured as a reciprocating sliding groove, so that the moving rod 2-3 moves more smoothly in the sliding groove, and the guide side wall 2-2313 is provided opposite to the limit groove 2-232, so that when the moving rod head 2-3 approaches the end of the forward groove 2-2311, the moving rod 2-3 is more easily guided into the limit groove 2-232.

In practical application, the depth of the bottom wall of the forward groove 2-2311 is gradually increased along the direction close to the limiting groove 2-232, the depth of the bottom wall of the backward groove 2-2312 is gradually increased along the direction far away from the limiting groove 2-232, and the depth of the limiting groove 2-232 is gradually increased from the side adjacent to the forward groove 2-2311 to the side adjacent to the backward groove 2-2312. Through the arrangement, the bottom walls of the forward grooves 2-2311, the limiting grooves 2-232 and the backward grooves 2-2312 are in smooth transition, so that the sliding of the movable rod 2-3 is smoother.

Furthermore, a first step 2-2314 for enabling one end of the movable rod to slide into the limiting groove 2-232 from the advancing groove 2-2311 is arranged at the junction of the advancing groove 2-2311 and the limiting groove 2-232; a second step 2-2315 for enabling one end of the movable rod to slide into the retreating groove 2-2312 from the limiting groove 2-232 is arranged at the intersection of the limiting groove 2-232 and the retreating groove 2-2312; and a third transposition step 2-2316 for enabling one end of the movable rod to slide into the forward groove 2-2311 from the backward groove 2-2312 is arranged at the intersection of the backward groove 2-2312 and the forward groove 2-2311. In the embodiment, steps are formed between the forward grooves 2-2311 and the limiting grooves 2-232, between the limiting grooves 2-232 and the backward grooves 2-2312, and between the backward grooves 2-2312 and the forward grooves 2-2311, so that the movable rod 2-3 can move along a given track.

In practical application, a pressing rod piece (not shown in the figure) can be arranged in the slot, the pressing rod piece has elasticity, and the pressing rod piece is pressed on the movable rod and keeps the movable rod in the reciprocating chute. The pressure rod piece is arranged on the inner wall of the slot, and when the movable rod slides through the transposition step, the pressure rod piece presses the movable rod, so that the movable rod cannot be separated from the sliding groove to slide, and the sliding along the set track is further ensured.

It should be noted that, in the third embodiment of the present invention, the first sliding groove 2-231 is a reciprocating sliding groove, the reciprocating sliding groove includes an advancing groove 2-2311 and a retreating groove 2-2312 that are communicated with each other, and a shifting step is provided between the advancing groove 2-2311, the retreating groove 2-2312 and the limiting groove 2-232 to ensure that the movable rod 2-3 can slide according to a predetermined movement track. By adopting the BTB connector pressing mechanism with the structure, the operation process of locking once when pressed and taking out once when pressed is smoother.

The utility model discloses fourth embodiment relates to an electronic equipment is provided with a BTB connector pressing mechanism among this electronic equipment to be used for the fixed FPC module that contains the reinforcement steel sheet, specifically contain: the slot can contain the reinforced steel sheet and the pushing and withdrawing device of the fixed steel sheet, and the pushing and withdrawing device is arranged in the slot.

It should be noted that the BTB connector pressing mechanism in this embodiment may be any BTB connector pressing mechanism provided in the first to fourth embodiments of the present invention, so as to fix the FPC module.

It is not difficult to find that, in the fourth embodiment of the present invention, the electronic device including any one of the BTB connector pressing mechanisms provided in the above embodiments is provided with a pushing device and a slot on the base of the electronic device, the pushing device is disposed in the slot, when the two ends of the reinforcing steel sheet are inserted into the slot, the reinforcing steel sheet is pressed once for locking and fixing, because the BTB connector is located below the reinforcing steel sheet, in the process of pressing the steel sheet, the BTB connector is indirectly pressed towards the direction of the main board device, and when the steel sheet is locked and fixed, the BTB connector is then fixed and pressed with the main board device; when the steel sheet is pressed again, the steel sheet is ejected by the pushing and withdrawing device, and at the moment, the BTB connector is separated from the fixation of the steel sheet and can be easily taken out. The whole installation and disassembly process of the BTB connector in the electronic equipment is simple and convenient, so that the assembly operation procedure and time cost of the electronic equipment are correspondingly reduced, and the assembly operation efficiency of the electronic equipment is improved; in addition, additional steel sheets, screws and nuts are not needed for assembly, the assembly space in the electronic equipment is saved, and the possibility of swinging other devices is provided. It will be understood by those skilled in the art that the foregoing embodiments are specific examples of the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in its practical application.

Claims (10)

1. The utility model provides a BTB connector pressing mechanism for the fixed FPC module that contains the reinforcement steel sheet and is located the BTB connector of reinforcement steel sheet below, its characterized in that contains: the steel sheet pushing and withdrawing device comprises a slot capable of containing the reinforcing steel sheet and a pushing and withdrawing device for fixing the steel sheet, wherein the pushing and withdrawing device is arranged in the slot.

2. A BTB connector press fit mechanism according to claim 1,

the pushing device comprises an elastic part, a movable device and a movable rod; one end of the elastic component is fixed in the slot, and the other end of the elastic component is connected with the movable device; the movable device is provided with a buckling piece buckled with the steel sheet and a stop flange abutted against the steel sheet, and is provided with a sliding chute which comprises a first sliding groove for one end of the movable rod to slide in a reciprocating manner and a limiting groove for fixing one end of the movable rod; the other end of the movable rod is hinged in the slot.

3. A BTB connector pressing mechanism according to claim 2, wherein the movable device comprises a slider having the sliding slot, the fastener comprises a strip-shaped spring piece having one end fixedly connected to the slider and a clip disposed at an end of the spring piece opposite to the slider, the clip being arc-shaped; the stop flange is arranged on one side, close to the buckling piece, of the sliding block.

4. The BTB connector stitching mechanism of claim 3, wherein the clasp is pivotally connected to the slider; the steel sheet sliding device is characterized in that a sliding block groove for sliding the sliding block is formed in the slot, the sliding block groove is arranged along the direction in which the steel sheet is inserted into the slot, the sliding block groove comprises a first sliding block groove relatively far away from the movable rod and a second sliding block groove relatively close to the movable rod, the depth of the bottom wall of the first sliding block groove is gradually reduced along the direction in which the steel sheet is inserted into the slot, and the bottom wall of the second sliding block groove has constant depth and is the same as the depth of the bottom wall of one side of the movable rod, wherein the first sliding block groove is close to the movable rod.

5. A BTB connector press-fit mechanism according to any of claims 2 to 4, wherein the first sliding groove is a reciprocating sliding groove provided with an advancing groove and a retreating groove which are communicated with each other, the advancing groove and the retreating groove being provided obliquely with respect to the direction in which the steel piece is inserted into the insertion groove;

the limiting groove is positioned at the intersection of the forward groove and the backward groove which is relatively close to the opening side of the slot;

the first sliding groove is provided with a limiting groove, and a guide side wall is arranged in the first sliding groove and opposite to the limiting groove and used for leading one end of the movable rod into the limiting groove.

6. A BTB connector press-fit mechanism according to claim 5, wherein the advancing groove bottom wall depth gradually increases in a direction approaching the retainer groove, the receding groove bottom wall depth gradually increases in a direction away from the retainer groove, and the retainer groove depth gradually increases from a side adjacent to the advancing groove to a side adjacent to the receding groove.

7. A BTB connector press fit mechanism according to claim 6,

a first step for enabling one end of the movable rod to slide into the limiting groove from the forward groove is arranged at the intersection of the forward groove and the limiting groove; a second step for enabling one end of the movable rod to slide into the retreating groove from the limiting groove is arranged at the intersection of the limiting groove and the retreating groove; and a third transposition step for enabling one end of the movable rod to slide into the advancing groove from the retreating groove is arranged at the intersection of the retreating groove and the advancing groove.

8. A BTB connector press fit mechanism according to claim 7, wherein a compression bar tab is provided within the slot, the compression bar tab having a resiliency, the compression bar tab pressing against the movable bar and maintaining the movable bar within the reciprocating chute.

9. A BTB connector press-fit mechanism according to claim 2, wherein the resilient member is a spring.

10. An electronic device comprising a housing and the BTB connector press-fit mechanism of any of claims 1-9 disposed on the housing.

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