CN217992297U - Micro-gap switch equipment anchor clamps - Google Patents

Abstract

The utility model discloses a micro-gap switch assembles anchor clamps, including the anchor clamps body, the top of anchor clamps body is equipped with the recess, the left and right sides of recess is equipped with first lug, second lug respectively, be equipped with the elasticity in the middle of the bottom of recess and compress tightly the groove, be equipped with the brace table in the middle of the top of recess, the top of brace table is equipped with the spacing groove; be equipped with in the first lug along controlling the first movable chamber that link up, the first movable intracavity is equipped with the first actuating lever that can control the activity, be equipped with in the second lug along controlling the second movable chamber that link up, the second movable intracavity is equipped with the second actuating lever that can control the activity. The utility model has the advantages of reasonable design, through the cooperation the utility model discloses a micro-gap switch assembles anchor clamps to can realize micro-gap switch's equipment very easily, this micro-gap switch assembles anchor clamps simultaneously and can also cooperate other automation equipment together to assemble micro-gap switch, thereby improve the packaging efficiency greatly.

Description

Micro-gap switch equipment anchor clamps

Technical Field

The utility model relates to an equipment anchor clamps technical field especially relates to a micro-gap switch equipment anchor clamps.

Background

The micro switch is a contact mechanism having a minute contact interval and a snap action mechanism and performing a switching operation with a predetermined stroke and a predetermined force. The micro switch comprises a positioning rod (6), a com terminal (7), an elastic sheet (8) and a moving sheet (9), and the positioning rod (6), the com terminal (7), the elastic sheet (8) and the moving sheet (9) are required to be assembled together.

Referring to fig. 4 and 17, an insert block (601) is arranged at the left end of the positioning rod (6), the right end of the positioning rod (6) extends upwards, and a first clamping groove (602) is arranged at the right end of the positioning rod (6); the com terminal (7) comprises a downward extending first section, a rightward extending second section, a downward extending third section and a rightward extending fourth section which are sequentially connected, wherein a second clamping groove (702) is formed in the right side of the downward extending first section, and a left-right through inserting hole (701) is formed in the downward extending third section; the elastic sheet (8) inclines towards the upper right, the right end of the elastic sheet (8) inclines towards the lower right, and notches (801) are respectively arranged on the front side and the rear side of the right end of the elastic sheet (8); the moving plate (9) horizontally extends along the left and right sides, an opening is formed in the middle of the moving plate (9), and inserting plates (901) are arranged on the front side and the rear side of the right end of the opening respectively.

In the actual assembly, the following steps may be employed: firstly, placing a positioning rod (6); secondly, placing a second section of the com terminal (7) above the positioning rod (6), and placing a third section of the com terminal (7) on the right of the positioning rod (6); thirdly, driving the positioning rod (6) to move rightwards, so that the insertion block (601) of the positioning rod (6) is inserted rightwards into the insertion hole (701) of the com terminal (7); fourthly, the elastic sheet (8) is placed downwards above the second section of the com terminal (7), and the left end of the elastic sheet (8) is inserted into a second clamping groove (702) of the com terminal (7) in the downward movement process due to the elastic force of the elastic sheet (8); fifthly, placing the moving plate (9) above the elastic sheet (8), wherein the elastic sheet (8) is positioned in the opening of the moving plate (9); sixthly, driving the moving plate (9) to move leftwards, inserting an inserting plate (901) of the moving plate (9) into a gap (801) of the elastic sheet (8) leftwards in the moving process, and enabling the elastic sheet (8) to elastically deform; meanwhile, a driving cylinder (not shown in the figure) is additionally arranged above the moving plate (9), the driving cylinder is provided with a driving rod extending downwards, the driving rod is provided with a latch, a telescopic spring is connected between the driving rod and the latch, the driving rod moves downwards under the driving of the driving cylinder, the latch downwards applies a downward elastic force to the moving plate (9), and at the moment, the telescopic spring is in a compressed state; seventhly, after the moving plate (9) moves to a certain distance to the left, the opening left side edge of the moving plate (9) reaches the left side of the positioning rod, at the moment, the telescopic spring recovers, under the downward elastic acting force of the telescopic spring, the opening left side edge of the moving plate (9) moves downward, and meanwhile, the acting force on the moving plate (9) to the left is cancelled, so that under the elastic acting force of the elastic sheet (8), the opening left side edge of the moving plate (9) is clamped into the first clamping groove (602) of the positioning rod (6), and the micro switch is assembled.

Although the above steps can be easily realized, the prior art lacks a proper assembling clamp, so that the microswitch can be assembled only manually in most cases, thereby greatly reducing the assembling efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a micro-gap switch assembles anchor clamps to solve among the prior art because lack a suitable equipment anchor clamps, thereby make can only the manual work equipment micro-gap switch under most of circumstances, thereby greatly reduced the technical problem of packaging efficiency.

In order to achieve the purpose, the technical scheme of the utility model provides a micro-gap switch assembling clamp, which comprises a clamp body, wherein the top of the clamp body is provided with a groove, the left side and the right side of the groove are respectively provided with a first lug and a second lug, the middle of the bottom of the groove is provided with an elastic pressing groove, the middle of the top of the groove is provided with a supporting table, and the top of the supporting table is provided with a limiting groove; be equipped with in the first lug along controlling the first movable chamber that link up, the first movable intracavity is equipped with the first actuating lever that can control the activity, be equipped with in the second lug along controlling the second movable chamber that link up, the second movable intracavity is equipped with the second actuating lever that can control the activity.

Further, elasticity compresses tightly the groove and establishes to L type groove, elasticity compresses tightly the groove and includes the vertical section of downwardly extending and the horizontal segment that extends right, the left end of horizontal segment with the bottom of vertical section is connected, elasticity compresses tightly the front side or the rear side in groove and establishes to the opening.

Further, the left side wall of vertical section is equipped with first spring mounting hole, be equipped with elasticity in the first spring mounting hole and compress tightly the pole, elasticity compress tightly the pole with be equipped with pressure spring between the first spring mounting hole, pressure spring can drive elasticity compresses tightly the pole elastic motion right.

Furthermore, a first right limiting block is arranged after the right end of the first driving rod penetrates through the outside of the first movable cavity, and a positioning rod mounting groove is formed in one side, facing the groove, of the first right limiting block.

Furthermore, the left end of the first driving rod penetrates through the outside of the first movable cavity, a first left limiting block is arranged on the back of the outside of the first movable cavity, first inclined planes are respectively arranged on the left side and the right side of the bottom of the first left limiting block, and the first inclined planes on the left side and the right side are gradually separated from each other from bottom to top.

Further, the bottom of the first movable cavity is provided with a magnet mounting hole, a strong magnet is arranged in the magnet mounting hole, and the first driving rod is a metal rod capable of being magnetically fixed with the strong magnet.

Furthermore, a first limiting rod extending along the front and the back is arranged in the first movable cavity, a first limiting hole extending along the left and the right is formed in the middle of the first driving rod, and the first limiting rod is in left-right limiting fit with the first limiting hole.

Furthermore, the left end of the second driving rod penetrates through the outer portion of the first movable cavity, a second left limiting block is arranged on the rear portion of the left end of the second driving rod, and a moving piece accommodating groove is formed in one side, facing the groove, of the second left limiting block.

Furthermore, a second right limiting block is arranged after the right end of the second driving rod penetrates outside the second movable cavity, and a second inclined surface inclined towards the upper right side is arranged on the right side of the second right limiting block; the right side wall of second lug is equipped with second spring mounting hole, be equipped with reset spring in the second spring mounting hole, reset spring can drive second right stop block elastic motion right.

Furthermore, a second limiting rod extending along the front and the back is arranged in the second movable cavity, a second limiting hole extending along the left and the right is formed in the middle of the second driving rod, and the second limiting rod is in left-right limiting fit with the second limiting hole.

To sum up, the application the technical scheme of the utility model, following beneficial effect has: the utility model has the advantages of reasonable design, 1, the top through the anchor clamps body is equipped with the recess, and the left and right sides of recess is equipped with first lug, second lug respectively, is equipped with elasticity in the middle of the bottom of recess and compresses tightly the groove to can carry out following step: firstly, placing a positioning rod on the left side of a groove; secondly, placing a second section of the com terminal above the positioning rod, placing a third section of the com terminal to the right of the positioning rod, and placing the third section and the fourth section of the com terminal into the elastic pressing groove for elastic pressing so as to prevent the com terminal from shaking in the assembling process; 2. be equipped with the brace table in the middle of the top through the recess, the top of brace table is equipped with the spacing groove, is equipped with in the first lug along controlling the first movable chamber that link up, and the first movable intracavity is equipped with the first actuating lever of activity about can controlling, is equipped with in the second lug along controlling the second movable chamber that link up, and the second movable intracavity is equipped with the second actuating lever of activity about can controlling to can continue to carry out following step: thirdly, the first driving rod moves rightwards, so that the positioning rod is driven to move rightwards, and the insertion block of the positioning rod is inserted into the socket of the com terminal rightwards; fourthly, the left end of the elastic sheet is placed above the second section of the com terminal, the right end of the elastic sheet is placed in the limiting groove of the supporting table, and the elastic sheet has elastic force, so that in the downward movement process, the left end of the elastic sheet is deformed and then is reset to be inserted into the second clamping groove of the com terminal; fifthly, placing the moving plate above the elastic sheet, wherein the elastic sheet is positioned in the opening of the moving plate, and the front side and the rear side of the top of the support platform respectively support the front side and the rear side of the moving plate; sixthly, the second driving rod moves leftwards to drive the moving piece to move leftwards, the inserting plate of the moving piece is inserted into the gap of the elastic piece leftwards in the moving process, the elastic piece is elastically deformed, the left end of the elastic piece is in limit fit with the second clamping groove at the moment, and the right end of the elastic piece is in limit fit with the limiting groove at the moment, so that the elastic piece can be prevented from shaking; meanwhile, a driving cylinder (not shown in the figure) is additionally arranged above the moving plate, the driving cylinder is provided with a driving rod extending downwards, the driving rod is provided with a latch, a telescopic spring is connected between the driving rod and the latch, the driving rod moves downwards under the driving of the driving cylinder, the latch downwards applies a downward elastic force to the moving plate, and at the moment, the telescopic spring is in a compressed state; the seventh step, after the rotor moved the certain distance left, the opening left side edge of rotor arrived the left of locating lever, but telescopic spring resumes this moment, under telescopic spring's downward elastic force, the opening left side edge downstream of rotor, cancel the effort left of second actuating lever simultaneously, thereby cancel the effort to the rotor left, thereby under the elastic force of shell fragment, the opening left side edge card of rotor goes into in the first draw-in groove of locating lever, this moment the micro-gap switch equipment is accomplished. Can know by the above-mentioned analysis, through the cooperation the utility model discloses a micro-gap switch equipment anchor clamps to can realize micro-gap switch's equipment very easily, this micro-gap switch equipment anchor clamps can also cooperate other automation equipment together to assemble micro-gap switch simultaneously, thereby improve the packaging efficiency greatly.

Drawings

Fig. 1 is a schematic perspective view of a first viewing angle of the present invention;

fig. 2 is a schematic perspective view of a second viewing angle of the present invention;

fig. 3 is a schematic cross-sectional view of a first view angle of the microswitch of the invention when assembled;

FIG. 4 is an enlarged view of a portion of area A of FIG. 3;

fig. 5 is a schematic cross-sectional view of a second view angle when the micro switch is assembled according to the present invention;

fig. 6 is a schematic cross-sectional view of a third viewing angle when the micro-switch of the present invention is assembled;

fig. 7 is a schematic perspective view of a first viewing angle when the positioning rod is installed according to the present invention;

fig. 8 is a schematic perspective view of a second viewing angle when the positioning rod is installed according to the present invention;

fig. 9 is a schematic perspective view of a first view angle when the com terminal is mounted according to the present invention;

fig. 10 is a schematic perspective view of a second viewing angle when the com terminal is mounted according to the present invention;

fig. 11 is a schematic perspective view of a third viewing angle when the com terminal is mounted;

fig. 12 is a schematic perspective view of a first viewing angle when the elastic sheet is mounted according to the present invention;

fig. 13 is a schematic perspective view of a second viewing angle when the elastic sheet is mounted according to the present invention;

fig. 14 is a schematic perspective view of a third viewing angle when the elastic sheet is mounted according to the present invention;

fig. 15 is a schematic perspective view of a first viewing angle when the rotor is mounted according to the present invention;

fig. 16 is a schematic perspective view of a second viewing angle when the moving plate is mounted according to the present invention;

FIG. 17 is a partial enlarged view of area B of FIG. 16;

fig. 18 is a perspective view of a third viewing angle of the present invention when the rotor is mounted;

description of the reference numerals: 1-a clamp body, 101-a groove, 102-a first bump, 1021-a first movable cavity, 1022-a magnet mounting hole, 1023-a first limiting rod, 103-a second bump, 1031-a second movable cavity, 1032-a second spring mounting hole, 1033-a second limiting rod, 104-an elastic pressing groove, 1041-a vertical section, 1042-a horizontal section, 1043-a first spring mounting hole, 105-a supporting table, 1051-a limiting groove and 106-a fixed table; 2-a first driving rod, 201-a first right limiting block, 2011-a positioning rod mounting groove, 202-a first left limiting block, 2021-a first inclined surface, 203-a first limiting hole; 3-a second driving rod, 301-a second left limiting block, 3011-a moving piece accommodating groove, 302-a second right limiting block, 3021-a second inclined surface, 303-a second limiting hole; 4-elastic compression bar, 5-strong magnet; 6-a positioning rod, 601-an inserting block, 602-a first clamping groove; 7-com terminal, 701-jack, 702-second card slot; 8-shrapnel, 801-notch; 9-moving plate, 901-plug board.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, but the technical solution does not limit the scope of the present invention.

In the present invention, for the sake of clearer description, the following explanation is made: an observer views the attached drawing 1, the left rear side of the observer is set as the left side, the right front side of the observer is set as the right side, the left front side of the observer is set as the front side, the right rear side of the observer is set as the rear side, the upper side of the observer is set as the upper side, and the lower side of the observer is set as the lower side, it should be noted that the terms "front end", "rear end", "left side", "right side", "middle part", "upper part", "lower part", and the like in the text indicate the orientation or positional relationship set based on the drawings, and it is only for the convenience of clearly describing the present invention, but not to indicate or suggest that the structure or component referred to must have a specific orientation, be configured with a specific orientation, and therefore, cannot be understood as a limitation to the present invention. Furthermore, the terms "first," "second," "third," and "fourth" are used merely for purposes of clarity or simplicity of description and are not to be construed as indicating or implying relative importance or quantity.

Referring to fig. 1 to 6, the present embodiment provides a microswitch assembling jig, including a jig body 1, a groove 101 is provided at the top of the jig body 1, a first bump 102 and a second bump 103 are respectively provided at the left and right sides of the groove 101, an elastic pressing groove 104 is provided in the middle of the bottom of the groove 101, a support table 105 is provided in the middle of the top of the groove 101, a limit groove 1051 is provided at the top of the support table 105, preferably, a fixed table 106 is provided at the front side of the groove 101, and the front side of the support table 105 is provided at the rear side of the fixed table 106; a first movable cavity 1021 which is through along the left and right is arranged in the first bump 102, a first driving rod 2 which can move left and right is arranged in the first movable cavity 1021, a second movable cavity 1031 which is through along the left and right is arranged in the second bump 103, and a second driving rod 3 which can move left and right is arranged in the second movable cavity 1031. The working principle is as follows: 1. be equipped with recess 101 through the top of anchor clamps body 1, the left and right sides of recess 101 is equipped with first lug 102, second lug 103 respectively, is equipped with elasticity in the middle of the bottom of recess 101 and compresses tightly groove 104 to can carry out following step: firstly, referring to fig. 7 to 8, a positioning rod 6 is firstly placed at the left side of a groove 101; secondly, referring to fig. 9 to 11, a second section of the com terminal 7 is placed above the positioning rod 6, a third section of the com terminal 7 is placed on the right side of the positioning rod 6, and the third section and the fourth section of the com terminal 7 are placed in the elastic pressing groove 104 for elastic pressing so as to prevent the com terminal 7 from shaking in the assembling process; 2. be equipped with brace table 105 in the middle of the top through recess 101, the top of brace table 105 is equipped with spacing groove 1051, is equipped with in the first lug 102 along controlling the first movable chamber 1021 that link up, is equipped with the first actuating lever 2 that can control the activity in the first movable chamber 1021, is equipped with the second movable chamber 1031 that link up about following in the second lug 103, is equipped with the second actuating lever 3 that can control the activity in the second movable chamber 1031 to can continue to carry out following step: third, the first driving lever 2 is moved rightward, thereby driving the positioning lever 6 to move rightward, so that the insertion block 601 of the positioning lever 6 is inserted rightward into the insertion hole 701 of the com terminal 7; fourthly, referring to fig. 12 to 14, the left end of the elastic sheet 8 is placed above the second section of the com terminal 7, the right end of the elastic sheet 8 is placed in the limiting groove 1051 of the support table 105, and the elastic sheet 8 has elastic force, so that the left end of the elastic sheet 8 is deformed and then reset to be inserted into the second slot 702 of the com terminal 7 in the downward movement process; fifthly, referring to fig. 15 to 18, the moving plate 9 is placed above the elastic sheet 8, the elastic sheet 8 is positioned in the opening of the moving plate 9, and the front side and the rear side of the top of the support platform 105 respectively support the front side and the rear side of the moving plate 9; sixthly, the second driving rod 3 moves leftwards so as to drive the moving plate 9 to move leftwards, the plug board 901 of the moving plate 9 is inserted into the notch 801 of the elastic plate 8 leftwards in the moving process, the elastic plate 8 is elastically deformed, at the moment, the left end of the elastic plate 8 is in limit fit with the second clamping groove 702, and the right end of the elastic plate 8 is in limit fit with the limit groove 1051, so that the elastic plate 8 can be prevented from shaking; meanwhile, a driving cylinder (not shown in the figure) is additionally arranged above the moving plate 9, the driving cylinder is provided with a driving rod extending downwards, the driving rod is provided with a latch, a telescopic spring is connected between the driving rod and the latch, the driving rod moves downwards under the driving of the driving cylinder, the latch downwards applies a downward elastic force to the moving plate 9, and at the moment, the telescopic spring is in a compressed state; seventhly, after the moving plate 9 moves to a certain distance to the left, the opening left side edge of the moving plate 9 reaches the left side of the positioning rod 6, at the moment, the telescopic spring recovers, under the downward elastic acting force of the telescopic spring, the opening left side edge of the moving plate 9 moves downward, and meanwhile, the leftward acting force of the second driving rod is cancelled, so that the leftward acting force of the moving plate 9 is cancelled, so that under the elastic acting force of the elastic sheet 8, the opening left side edge of the moving plate 9 is clamped into the first clamping groove 602 of the positioning rod 6, and the micro switch is assembled. Can know by the above-mentioned analysis, through the cooperation the utility model discloses a micro-gap switch equipment anchor clamps to can realize micro-gap switch's equipment very easily, this micro-gap switch equipment anchor clamps can also cooperate other automation equipment together to assemble micro-gap switch simultaneously, thereby improve the packaging efficiency greatly.

Specifically, elasticity compresses tightly groove 104 and establishes to L type groove, and elasticity compresses tightly groove 104 and includes vertical section 1041 of downwardly extending and horizontal section 1042 of right extension, and the left end of horizontal section 1042 is connected with the bottom of vertical section 1041, and in actual operation: the vertical section 1041 may be used for placing the third section of the com terminal 7, and the horizontal section 1042 may be used for placing the fourth section of the com terminal 7, thereby facilitating the installation of the com terminal. The front or rear side of the resilient compression slots 104 is provided as an opening, preferably the rear side is provided as an opening, which may facilitate insertion of the com terminals into the L-shaped slots either rearwardly or forwardly.

Specifically, vertical section 1041's left side wall is equipped with first spring mounting hole 1043, is equipped with elasticity compression bar 4 in first spring mounting hole 1043, and elasticity compression bar 4 and first spring mounting hole 1043 are equipped with pressure spring between, and pressure spring can drive elasticity compression bar 4 elastic movement right, and the effect: and after the com terminal is placed in the L-shaped groove, the elastic acting force of the compression spring drives the elastic compression rod to apply the compression acting force to the third section of the com terminal, so that the com terminal is fixed.

Specifically, the right-hand member of first actuating lever 2 is equipped with first right stopper 201 after wearing the outside in first activity chamber 1021, and first right stopper 201 is equipped with locating lever mounting groove 2011, effect towards one side of recess 101: first right spacing block can restrict the range of first actuating lever left motion, and the locating lever mounting groove then can carry out the positioning action to the locating lever.

Specifically, the left end of the first driving rod 2 is equipped with the first left stopper 202 after passing through the outside of the first movable chamber 1021, the left and right sides of the bottom of the first left stopper 202 are respectively equipped with the first inclined plane 2021, and the first inclined planes 2021 of the left and right sides are gradually separated from each other by the lower to the upper, and the function is: first left stopper can restrict the range that first actuating lever moved to the right, and in the during operation, can set up two third actuating levers that can up-and-down motion (not drawn in the figure) in the below of equipment anchor clamps, and one of them third actuating lever upwards cooperates with left first inclined plane to make first actuating lever move to the right, and another third actuating lever upwards cooperates with the first inclined plane on right side, thereby makes first actuating lever move to the left.

Specifically, the bottom of first activity chamber 1021 is equipped with magnet mounting hole 1022, is equipped with powerful magnet 5 in the magnet mounting hole 1022, and first actuating lever 2 establishes to carry out the metal pole that magnetism is fixed, the effect with powerful magnet 5: the strong magnet and the metal rod have a magnetic fixing function, so that the first driving rod can be prevented from moving when not receiving the acting force of the third driving rod, and the assembling stability is ensured.

Specifically, be equipped with in the first activity chamber 1021 along the first gag lever post 1023 of extending around, the middle part of first actuating lever 2 is equipped with length along controlling the first spacing hole 203 that extends, and spacing cooperation, effect are controlled with first spacing hole 203 to first gag lever post 1023: the left and right limiting matching of the first limiting rod and the first limiting hole can limit the left and right movement amplitude of the first driving rod.

Specifically, the left end of second actuating lever 3 is equipped with left stopper 301 of second after wearing the outside in first activity chamber 1021, and left stopper 301 of second is equipped with rotor piece holding tank 3011 towards one side of recess 101, effect: the left limiting block of the second can limit the amplitude of rightward movement of the second driving rod, and the moving piece accommodating groove can accommodate the right end of the moving piece so as to drive the moving piece leftward.

Specifically, a second right stopper 302 is disposed after the right end of the second driving rod 3 passes through the outside of the second movable chamber 1031, and a second inclined surface 3021 inclined toward the upper right is disposed on the right side of the second right stopper 302; the right side wall of second lug 103 is equipped with second spring mounting hole 1032, is equipped with reset spring in the second spring mounting hole 1032, and reset spring can drive the right stopper 302 of second elastic motion of right side, effect: the second right limit block can limit the amplitude of leftward movement of the second driving rod, a fourth driving rod (not shown in the drawing) capable of moving up and down can be arranged below the microswitch assembling clamp during actual work, when the fourth driving rod is upwards matched with the second inclined plane, the second driving rod moves leftward, and when the fourth driving rod resets downwards, the reset spring drives the second right limit block rightward, so that the second driving rod resets rightward.

Specifically, be equipped with in the second activity chamber 1031 along the second gag lever post 1033 that extends around, the middle part of second drive lever 3 is equipped with the spacing hole 303 of second that length extended about along, and spacing cooperation, effect about spacing hole 303 are controlled to second gag lever post 1033 and second are carried out: the left and right limiting matching of the second limiting rod and the second limiting hole is achieved, so that the left and right movement amplitude of the second driving rod is limited.

When the assembled microswitch needs to be removed: the first and the return springs drive the second right limiting block 302 to elastically move rightwards, the second driving rod 3 moves rightwards, and at the moment, the moving piece is not limited by the moving piece accommodating groove 3011 any more; secondly, the first driving rod 2 is driven to move leftwards, and at the moment, the positioning rod is not limited by the positioning rod mounting groove 2011 any more; thirdly, in order to more conveniently adjust the front and rear positions of the supporting platform 105, a driving cylinder (not shown in the figure) can be arranged on the front side surface of the fixing platform 106, a through hole extending along the front and rear direction is communicated in the fixing platform 106, a driving rod of the driving cylinder can penetrate through the through hole backwards to drive the supporting platform 105 to move forwards and backwards, therefore, the final step when the microswitch needs to be taken down is that the mechanical arm of the external equipment assists in clamping the assembled microswitch and moves backwards together with the supporting platform 105, the whole microswitch is pushed out from the rear opening of the elastic pressing groove 104 backwards together, at the moment, the mechanical arm of the external equipment directly lifts up the assembled microswitch, so that the elastic sheet is not limited by the supporting platform any more, and finally the elastic sheet is taken away.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (10)

1. The utility model provides a micro-gap switch assembles anchor clamps, includes anchor clamps body (1), its characterized in that: a groove (101) is formed in the top of the clamp body (1), a first bump (102) and a second bump (103) are respectively arranged on the left side and the right side of the groove (101), an elastic pressing groove (104) is formed in the middle of the bottom of the groove (101), a supporting table (105) is arranged in the middle of the top of the groove (101), and a limiting groove (1051) is formed in the top of the supporting table (105); a first movable cavity (1021) which is through along the left and right is arranged in the first bump (102), a first driving rod (2) which can move left and right is arranged in the first movable cavity (1021), a second movable cavity (1031) which is through along the left and right is arranged in the second bump (103), and a second driving rod (3) which can move left and right is arranged in the second movable cavity (1031).

2. The microswitch assembly jig of claim 1, wherein: the elastic pressing groove (104) is arranged to be an L-shaped groove, the elastic pressing groove (104) comprises a vertical section (1041) extending downwards and a horizontal section (1042) extending rightwards, the left end of the horizontal section (1042) is connected with the bottom end of the vertical section (1041), and the front side or the rear side of the elastic pressing groove (104) is arranged to be an opening.

3. The microswitch assembly jig of claim 2, wherein: the left side wall of vertical section (1041) is equipped with first spring mounting hole (1043), be equipped with elasticity compression bar (4) in first spring mounting hole (1043), elasticity compression bar (4) with be equipped with pressure spring between first spring mounting hole (1043), pressure spring can drive elasticity compression bar (4) right elastic motion.

4. The microswitch assembly jig of claim 2, wherein: the right end of first actuating lever (2) is worn be equipped with first right stopper (201) behind the outside of first activity chamber (1021), first right stopper (201) orientation one side of recess (101) is equipped with locating lever mounting groove (2011).

5. The microswitch assembly jig according to claim 4, wherein: the left end of the first driving rod (2) penetrates the outside of the first movable cavity (1021) and then is provided with a first left limiting block (202), the left side and the right side of the bottom of the first left limiting block (202) are respectively provided with a first inclined plane (2021), and the first inclined planes (2021) on the left side and the right side are gradually separated from each other from bottom to top.

6. The microswitch assembly jig of claim 4, wherein: a magnet mounting hole (1022) is formed in the bottom of the first movable cavity (1021), a strong magnet (5) is arranged in the magnet mounting hole (1022), and the first driving rod (2) is a metal rod capable of being magnetically fixed with the strong magnet (5).

7. The microswitch assembly jig according to any one of claims 1 to 6, wherein: be equipped with in first activity chamber (1021) along first gag lever post (1023) of extending around, the middle part of first actuating lever (2) is equipped with length along controlling first spacing hole (203) that extend, first gag lever post (1023) with spacing cooperation is controlled in first spacing hole (203).

8. The microswitch assembly jig according to any one of claims 1 to 6, wherein: the left end of the second driving rod (3) penetrates to the outside of the first movable cavity (1021), a second left limiting block (301) is arranged, and a moving piece accommodating groove (3011) is arranged on one side, facing the groove (101), of the second left limiting block (301).

9. The microswitch assembly fixture of claim 8, wherein: a second right limiting block (302) is arranged after the right end of the second driving rod (3) penetrates through the outside of the second movable cavity (1031), and a second inclined surface (3021) which inclines towards the upper right is arranged on the right side of the second right limiting block (302); the right side wall of the second bump (103) is provided with a second spring mounting hole (1032), a return spring is arranged in the second spring mounting hole (1032), and the return spring can drive the second right limiting block (302) to elastically move rightwards.

10. A microswitch assembling jig according to any one of claims 1 to 6, 9, wherein: be equipped with in second activity chamber (1031) along second gag lever post (1033) that extend around, the middle part of second actuating lever (3) is equipped with length along controlling spacing hole of second (303) that extend, second gag lever post (1033) with spacing hole of second (303) are controlled spacing cooperation.

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