CN220381250U - Telescopic jig for power detection circuit module - Google Patents

Abstract

The utility model discloses a power detection circuit module telescopic jig, wherein a sliding clamping block is clamped in a clamping groove in a front-back sliding manner, the middle part of an inner sliding core is arranged in a fixed sliding groove, a grabbing block nail hole is opposite to a locking screw hole of a middle sliding clamping block, a middle clamping block fixing screw penetrates through the grabbing block nail hole and is screwed and inserted into the locking screw hole of the middle sliding clamping block, end part outer sliding cylinders are respectively sleeved at the front side end and the rear side end of the inner sliding core, the end part outer sliding cylinder nail hole is opposite to the locking screw hole of the end part sliding clamping block, and end part clamping block fixing screws penetrate through the end part outer sliding cylinder nail hole and are screwed and inserted into the locking screw holes of the end part sliding clamping block, so that two end part outer sliding cylinders are respectively fixed at two side ends of the inner sliding core. The external sliding cylinders at the two ends can flexibly adjust the positions, can more conveniently adjust the distance between the two detection circuit modules, and meanwhile, the grabbing blocks are arranged, so that the automatic butt joint and plug between the circuits can be realized by the grabbing of the manipulator, and the detection efficiency is improved.

Description

Telescopic jig for power detection circuit module

Technical Field

The utility model relates to the field of circuit detection appliances, in particular to a power detection circuit module telescopic jig.

Background

The circuit manufacturing process often needs to detect power, for example, photovoltaic power generation circuit manufacturing, the power detection step is carried out through connecting power detection circuit, the current power detection circuit is generally accomplished through traditional wiring and is connected with photovoltaic power generation circuit electricity, after the detection is accomplished, need to disconnect the wiring again through the staff, this traditional connected mode complex operation, and therefore, in order to improve detection efficiency, make power detection realize automaticly becoming the development direction, and when power detection automation scheme designs, when combining the mechanical action, need to realize connected mode rigid grafting, power detection circuit can be designed into two modules, two modules are respectively through rigid joint with the corresponding butt joint of component to be tested, and the distance between two butt joints of component to be tested changes along with the size of component to be tested and the position that the butt joint set up, therefore, need a power detection circuit module flexible tool that can install power detection circuit, can nimble adjust the distance between two modules and be convenient for the manipulator snatchs in order to realize automatic plug.

Disclosure of Invention

The utility model aims to provide a power detection circuit module telescopic jig so as to solve the technical problems.

In order to achieve the above purpose, the technical scheme of the utility model is as follows: the utility model provides a flexible tool of power detection circuit module, including square interior slip core, the bottom offer the gripping block of square fixed spout, two square tip outer slide tube, a plurality of slide fixture block and a plurality of fixture block set screw, gripping block in the roof of fixed spout is offered and is run through from top to bottom gripping block nail hole of gripping block, the roof of tip outer slide tube is offered and is run through the outer slide tube nail hole of tip outer slide tube's top wall, the draw-in groove of front and back trend is offered at the top of interior slip core, slide fixture block fore-and-aft sliding card is located in the draw-in groove, slide fixture block's top is just right the draw-in groove department has been offered locking screw, slide fixture block is including arranging in middle slide fixture block in the middle part of draw-in groove and be located the tip slip fixture block front and back both sides's tip slip fixture block, fixture block set screw includes middle fixture block set screw and tip fixture block screw, the middle part of interior slip core install in the fixed spout, the gripping block hole is just to middle slide block nail hole is in the middle slide block tip outer slide tube's the draw-in screw hole is located the tip outer slide tube is just to the tip of slip core.

Preferably, the power detection circuit module telescopic jig further comprises two buffering elastic components, front end cover fixing screws and rear end cover screws, the buffering elastic components comprise end buffering blocks, a sliding cylinder end cover, two spring sleeve rods and two buffering springs, the sliding cylinder end cover is provided with two sleeve rod insertion holes, the top of the sliding cylinder end cover is provided with front end cover locking screw holes between the two sleeve rod insertion holes, one ends of the two spring sleeve rods are fixedly inserted into the corresponding sleeve rod insertion holes, the other ends of the two spring sleeve rods are fixedly connected with the end buffering blocks, the buffering springs are sleeved between the spring sleeve rods and the end buffering blocks and the sliding cylinder end cover, the two buffering elastic components are respectively front buffering elastic components and rear buffering elastic components which are symmetrical in front and rear, the two end outer sliding cylinders are respectively a front end outer sliding cylinder and a rear end outer sliding cylinder, the front end part screw holes are formed in the front end cover of the top of the front end outer sliding cylinder, one end of the front buffering elastic component is fixedly connected with the end buffering elastic components, the other ends of the two buffering elastic components are fixedly connected with the end buffering elastic components, the front end cover locking screw holes are formed in the front end cover locking screw holes are opposite to the front end cover locking screw holes, the front end cover locking screw holes are formed in the front end cover and the front end cover locking screw holes, the front end cover locking screw holes are opposite to the front end locking screw holes, the front end cover locking screw holes are fixedly connected with the front end locking screw, the rear end cover fixing screw penetrates through the rear end part nail hole and is inserted into the end cover locking screw hole of the rear buffering elastic assembly in a screwing mode, so that the sliding cylinder end cover of the rear buffering elastic assembly is locked at the rear end of the rear end part outer sliding cylinder.

Preferably, anti-skid patterns are arranged on the outer wall of the grabbing block.

Preferably, the sliding clamping block comprises a sliding clamping part with a shape of an isosceles trapezoid and a screw connecting part protruding in the middle of the top of the sliding clamping part, the shape and the size of the lower part of the clamping groove are matched with those of the sliding clamping part, the width of the upper end of the clamping groove is larger than or equal to that of the screw connecting part, the sliding clamping part is clamped at the lower part of the clamping groove in a front-back sliding manner, the screw connecting part extends out from the upper end of the clamping groove, and the locking screw hole is formed in the top of the screw connecting part.

Preferably, one end of the sliding cylinder end cover, which is opposite to the end buffer block, is convexly provided with an end cover limiting boss along the periphery, and the limiting boss is abutted with the corresponding end of the end part outer sliding cylinder.

Compared with the prior art, the two-end external sliding cylinder can flexibly adjust the position, can more conveniently adjust the distance between two detection circuit modules, and is provided with the grabbing block, so that the manipulator is convenient to grab to realize automatic butt joint and plug between circuits, and the detection efficiency is improved.

The utility model will become more apparent from the following description taken in conjunction with the accompanying drawings which illustrate embodiments of the utility model.

Drawings

Fig. 1 is a block diagram of an angle of a power detection circuit module telescopic jig according to the present utility model.

Fig. 2 is an exploded view of fig. 1.

Fig. 3 is a block diagram of another angle of the power detection circuit module telescopic jig of the present utility model.

Fig. 4 is an exploded view of fig. 3.

Fig. 5 is an enlarged view of a portion a in fig. 4.

Fig. 6 is a connection structure diagram of a sliding fixture block and a fixture block fixing screw of the power detection circuit module telescopic fixture of the present utility model.

Detailed Description

Referring to fig. 1 to 6, the power detection circuit module telescopic jig 100 of the present utility model includes a square inner slide 10, a grabbing block 20 with a square fixed chute 21 at the bottom, two square end outer slide barrels 30, a plurality of sliding clamping blocks 40 and a plurality of clamping block fixing screws 50. The outer wall of the grabbing block 20 is provided with anti-skid patterns 23. In this embodiment, the anti-skid patterns 23 are disposed on the left and right sidewalls of the gripping block 20.

The gripping block 20 is provided with a gripping block nail hole (not shown) penetrating the gripping block 20 up and down on the top wall of the fixed chute 21, the top wall of the end part outer sliding barrel 30 is provided with an end part outer sliding barrel nail hole 31 penetrating the top wall of the end part outer sliding barrel 30 up and down, the top of the inner sliding core 10 is provided with a clamping groove 11 running forwards and backwards, the sliding clamping block 40 is clamped in the clamping groove 11 in a front-back sliding way, the top of the sliding clamping block 40 is opposite to the clamping groove 11 and is provided with a locking screw hole 41, and the sliding clamping block 40 comprises a middle sliding clamping block 401 arranged in the middle of the clamping groove 11 and end part sliding clamping blocks 402 positioned on the front side and the rear side of the middle sliding clamping block 401. The fixture block fixing screw 50 comprises a middle fixture block fixing screw 501 and an end fixture block fixing screw 502, the middle part of the inner slide core 10 is installed in the fixing chute 21, the grabbing block nail hole is opposite to the locking screw hole 41 of the middle slide fixture block 401, the middle fixture block fixing screw 501 penetrates through the grabbing block nail hole and is screwed and inserted into the locking screw hole 41 of the middle slide fixture block 401, so that the grabbing block 20 is fixed in the middle part of the inner slide core 10, the end outer slide cylinders 30 are respectively sleeved at the front side end and the rear side end of the inner slide core 10, the end outer slide cylinder nail hole 31 is opposite to the locking screw hole 41 of the end slide fixture block 402, and the end fixture block fixing screw 502 penetrates through the end outer slide cylinder nail hole 31 and is screwed and inserted into the locking screw hole 41 of the end slide fixture block 402, so that the two end outer slide cylinders 30 are respectively fixed at the two side ends of the inner slide core 10.

Preferably, the power detection circuit module telescopic jig further comprises two buffering elastic assemblies 60, a front end cover fixing screw 71 and a rear end cover screw 72. The buffering elastic assembly 60 comprises an end buffering block 61, a slide cylinder end cover 62, two spring sleeve rods 63 and two buffering springs 64. Two sleeve rod insertion holes 621 are formed in the sleeve rod end cover 62, an end cover locking screw hole 622 is formed in the top of the sleeve rod end cover 62 between the two sleeve rod insertion holes 621, one end of the two spring sleeve rods 63 is fixedly inserted into the corresponding sleeve rod insertion holes 621, the other ends of the two spring sleeve rods 63 are fixedly connected with the end buffering blocks 61, and the buffering springs 64 are sleeved between the spring sleeve rods 63 and the end buffering blocks 61 and the sleeve rod end cover 62. The two elastic buffer modules 60 are respectively a front elastic buffer module 601 and a rear elastic buffer module 602 which are symmetrical in front-back direction. The two end outer slide barrels 30 are respectively a front end outer slide barrel 301 and a rear end outer slide barrel 302, a front end nail hole 32 is formed in the front end of the top of the front end outer slide barrel 301, a slide barrel end cover 62 of a front buffer elastic assembly 601 is inserted into the front end of the front end outer slide barrel 301, an end cover locking screw hole 622 of the front buffer elastic assembly 601 is opposite to the front end nail hole 32, a front end cover fixing screw 71 passes through the front end nail hole 32 and is screwed into the end cover locking screw hole 622 of the front buffer elastic assembly 601, so that a slide barrel end cover 62 of the front buffer elastic assembly 601 is locked to the front end of the front end outer slide barrel 301, a rear end nail hole 33 is formed in the rear end of the top of the rear end outer slide barrel 302, the slide barrel end cover 62 of the rear buffer elastic assembly 602 is inserted into the rear end of the rear end outer slide barrel 302, the end cover locking screw hole 622 of the rear buffer elastic assembly 602 is opposite to the front end nail hole 32, and the rear end cover locking screw hole 622 of the rear buffer elastic assembly 602 is screwed into the rear end cover locking screw hole 33 of the rear end cover elastic assembly 602, and the rear end cover locking screw hole 62 is screwed into the rear end cover locking screw hole 33 of the rear end cover elastic assembly 602.

Specifically, the sliding clamping block 40 includes a sliding clamping portion 42 with a shape of an isosceles trapezoid and a screw connection portion 43 protruding in the middle of the top of the sliding clamping portion 42, the shape and size of the lower portion of the clamping groove 11 are matched with those of the sliding clamping portion 42, the width of the upper end of the clamping groove 11 is greater than or equal to that of the screw connection portion 43, the sliding clamping portion 42 is clamped to the lower portion of the clamping groove 11 in a front-back sliding manner, the screw connection portion 43 extends from the upper end of the clamping groove 11, and the locking screw hole 41 is formed in the top of the screw connection portion 43.

Preferably, an end cover limiting boss 623 is formed by protruding the end of the slide cylinder end cover 62 opposite to the end buffer block 61, and the limiting boss 623 abuts against the corresponding end of the end outer slide cylinder 30.

When the power detection circuit module telescopic jig is used, when the distance between the two end part outer sliding drums 30 is required to be adjusted, the end part clamping block fixing screw 502 is unscrewed, and after the position of the end part outer sliding drum 30 is adjusted forwards and backwards, the end part clamping block fixing screw 502 is screwed. Two detection circuit modules with butt joints are respectively fixedly installed on the end part outer sliding cylinders 30, and in the detection process, the distance between the two detection circuit modules is adjusted by adjusting the distance between the two end part outer sliding cylinders 30 according to the distance between the two butt joints of the component to be detected. And then the manipulator grabs the grabbing block 20 to realize automatic plugging and butting.

According to the power detection circuit module telescopic jig, the outer sliding barrels at the two ends of the power detection circuit module telescopic jig can flexibly adjust positions, the distance between the two detection circuit modules can be adjusted more conveniently, meanwhile, the grabbing blocks are arranged, so that the power detection circuit module telescopic jig is convenient for a manipulator to grab to realize automatic butt joint and plug between circuits, and therefore detection efficiency is improved.

The present utility model has been described above in connection with the preferred embodiments, but the present utility model is not limited to the embodiments disclosed above, but it is intended to cover various modifications, equivalent combinations according to the essence of the present embodiments.

Claims (5)

1. A power detection circuit module telescoping jig, its characterized in that: including square interior slip core, the top wall of the outer slip section of thick bamboo of tip is seted up snatch piece, two square tip outer slip section of thick bamboo, a plurality of sliding fixture blocks and a plurality of fixture block set screw of square, the middle part of interior slip core sets up the portion of snatching, snatch the piece in the roof of fixed spout is seted up and is run through from top to bottom snatch the outer slip section of thick bamboo of tip the outer slip section of thick bamboo nail hole of tip, the draw-in groove of the front and back trend is seted up at the top of interior slip core, sliding fixture block front and back gliding card is located in the draw-in groove, sliding fixture block is including arranging in the middle slip fixture block in the middle part of draw-in groove and be located the tip slip fixture block front and back both sides's tip slip fixture block, fixture block set screw includes middle fixture block set screw and tip fixture block set screw, the middle part of interior slip core install in the fixed spout, snatch block hole is just to middle slip fixture block in the outer slip core nail hole of tip, thereby the slip core is located the tip is just to the slip core is located the tip is drawn in the tip is fixed.

2. The power detection circuit module telescoping jig of claim 1, wherein: the front end cover fixing screw and the rear end cover screw are fixedly inserted into the corresponding sleeve rod inserting holes, the other ends of the two spring sleeve rods are fixedly connected with the end part buffer blocks, the buffer springs are sleeved between the spring sleeve rods and the end part buffer blocks, the front buffer elastic components and the rear buffer elastic components are respectively symmetrical front buffer elastic components and rear buffer elastic components, the two end part outer sliding cylinders are respectively a front end part outer sliding cylinder and a rear end part outer sliding cylinder, the front end part nail holes are formed in the front end of the top part of the front end part outer sliding cylinder, the front buffer elastic component is inserted into the front end of the front end outer slide, the end cover locking screw hole of the front buffer elastic component is opposite to the front end nail hole, the front end cover fixing screw penetrates through the front end nail hole and is screwed into the end cover locking screw hole of the front buffer elastic component, so that the slide end cover of the front buffer elastic component is locked at the front end of the front end outer slide, the rear end of the top of the rear end outer slide is provided with a rear end nail hole, the slide end cover of the rear buffer elastic component is inserted into the rear end of the rear end outer slide, the end cover locking screw hole of the rear buffer elastic component is opposite to the rear end nail hole, the rear end cover fixing screw penetrates through the rear end nail hole and is screwed into the end cover locking screw hole of the rear buffer elastic component, thereby locking the slide end cap of the rear cushion spring assembly to the rear end of the rear end outer slide.

3. The power detection circuit module telescoping jig of claim 1, wherein: the outer wall of the grabbing block is provided with anti-skid patterns.

4. The power detection circuit module telescoping jig of claim 1, wherein: the sliding clamping block comprises a sliding clamping portion and a screw connecting portion, wherein the sliding clamping portion is in a shape of an isosceles trapezoid, the screw connecting portion is arranged in the middle of the top of the sliding clamping portion in a protruding mode, the shape and the size of the lower portion of the clamping groove are matched with those of the sliding clamping portion, the width of the upper end of the clamping groove is larger than or equal to that of the screw connecting portion, the sliding clamping portion is clamped to the lower portion of the clamping groove in a front-back sliding mode, the screw connecting portion extends out of the upper end of the clamping groove, and the locking screw hole is formed in the top of the screw connecting portion.

5. The power detection circuit module telescoping jig of claim 2, wherein: and one end of the end cover of the sliding cylinder, which is opposite to the end buffer block, is convexly provided with an end cover limiting boss along the periphery, and the limiting boss is abutted with the corresponding end of the end part outer sliding cylinder.