CN116449160A - Insulation property detection device for insulation rod - Google Patents

Abstract

The application relates to an insulating rod insulating property detection device, and relates to the technical field of insulator detection, comprising a detection frame, a cross rod, a rod section clamping mechanism, a rod end fixing mechanism and an electrifying test mechanism; the transverse rods are vertically arranged on the detection frame, and each transverse rod is horizontally arranged on the detection frame; the rod section clamping mechanisms are arranged in a plurality along the length direction of the transverse rod; the rod end fixing mechanism is arranged above the plurality of cross rods on the detection frame and is used for fixing the top ends of the insulating rods clamped on the rod section clamping mechanisms; the power-on testing mechanism is used for simultaneously touching and powering on two ends of all the insulating rods. This application has the effect of improving the problem of measurement inefficiency when measuring insulating rod insulating nature.

Description

Insulation property detection device for insulation rod

Technical Field

The application relates to the field of insulator detection technology, in particular to an insulator spindle insulativity detection device.

Background

At present, an insulating rod is a uniform name of an insulating tool component special for an electric power system, can be used for live-line work, live working tools for maintenance and live working are mainly insulating tools made of insulating tubes or insulating rods and containing end fittings. Because of the special use of the insulating rod, the insulating property of the insulating rod needs to be clearly detected before use, otherwise, serious safety accidents occur. And when generally detecting insulating properties of insulator spindle, generally all lead to the electrode through the manual work respectively at the both ends of insulator spindle, then measure whether there is the electric current to pass through on the insulator spindle, if there is then surface insulator spindle can normal use, if there is then surface insulator spindle is the substandard product.

With respect to the above related art, the inventor believes that since the manual measurement can only test one insulating rod at a time, and the measurement is time-consuming and laborious, the measurement efficiency is low, and the measurement work is inconvenient to develop.

Disclosure of Invention

In order to solve the problem that measurement efficiency is low when measuring insulation property of an insulation rod, the application aims to provide an insulation property detection device of the insulation rod.

The application provides an insulating rod insulating property detection device adopts following technical scheme:

an insulation property detection device of an insulation rod comprises a detection frame, a cross rod, a rod section clamping mechanism, a rod end fixing mechanism and an electrifying test mechanism; the transverse rods are vertically arranged on the detection frame, and each transverse rod is horizontally arranged on the detection frame; the rod section clamping mechanisms are arranged in a plurality along the length direction of the transverse rod; the rod end fixing mechanism is arranged above the plurality of cross rods on the detection frame and is used for fixing the top ends of the insulating rods clamped on the rod section clamping mechanisms; the power-on testing mechanism is used for simultaneously touching and powering on two ends of all the insulating rods.

By adopting the technical scheme, when the insulation detection is carried out on the insulation rods, a plurality of insulation rods can be sequentially clamped on the rod section clamping mechanism, then the insulation rods are fixed through the rod end fixing mechanism, and at the moment, the plurality of insulation rods are simultaneously fixed on the detection frame; the arrangement of the multiple cross bars can be adapted to the insulating bars of different types, so that the applicability of the application is improved; after the insulating rods are fixed, the fixed insulating rods can be detected simultaneously directly through the power-on testing mechanism; after this arrangement, the measurement efficiency in detecting the insulation property of the insulation rod can be improved.

Optionally, the pole section fixture includes installation piece and grip ring, installation piece demountable installation is on the horizontal pole, the grip ring sets up on the installation piece, leave the clamping groove on the grip ring, the clamping groove is used for supplying the insulating rod card to go into.

By adopting the technical scheme, when the insulating rod is fixed, firstly, the insulating rod to be measured is put into the clamping groove in the clamping ring, so that the periphery of the insulating rod is positioned in the clamping groove; at this time, the displacement of the insulating rod in the circumferential direction is limited, so that the insulating rod is clamped more conveniently.

Optionally, the clamping groove is filled with conductive sponge, and the conductive sponge is used for clamping the insulating rod in the clamping groove.

Through adopting above-mentioned technical scheme, can make the insulating rod joint more stable after filling conductive sponge.

Optionally, rod end fixed establishment includes hanging coupling assembling and clip coupling assembling, hanging coupling assembling and clip coupling assembling all install at the top of detecting the frame, hanging coupling assembling is used for being connected with the insulator spindle that has the string type of detaining, clip coupling assembling is used for being connected with the insulator spindle that does not have the string type of detaining.

By adopting the technical scheme, when the insulating rod with the hanging buckle needs to be detected, the hanging buckle on the insulating rod can be connected with the hanging connecting component; when the insulating rod without the hanging buckle needs to be detected, the insulating rod can be clamped on the detection frame through the clamp type connecting assembly, and the applicability of the detection frame is improved.

Optionally, the hanging type connecting component comprises a first ejector rod and an L-shaped hanging rod; the first ejector rod is arranged on the detection frame and is consistent with the length direction of the transverse rod, a plurality of L-shaped hanging rods are arranged along the length direction of the first ejector rod, and the L-shaped hanging rods are in one-to-one correspondence with the rod section clamping mechanisms on the transverse rod.

Through adopting above-mentioned technical scheme, directly with the string knot end lock joint of the insulating rod that has string knot on the horizontal pole section of L shape peg, the pole section part of insulating rod is clamped by the clamping groove at this moment, and then the rod end lock joint is then not whereabouts on L shape peg, just realizes the fixed to the insulating rod that has string knot, reaches the insulating rod that the fixed string knot of having and comparatively conveniently effect.

Optionally, the clip-type connecting assembly comprises a second ejector rod, an installation seat and a clamping piece, wherein the second ejector rod is arranged below the first ejector rod and above the plurality of cross rods on the detection frame, the second ejector rod is consistent with the first ejector rod in length direction, a plurality of installation seats are arranged along the length direction of the second ejector rod, and the installation seats are in one-to-one correspondence with the L-shaped hanging rods; the clamping piece is rotatably arranged on the mounting seat, a clamping groove matched with the rod wall of the insulating rod in a clamping mode is reserved on the clamping piece, and a rubber layer is covered in the clamping groove.

Through adopting above-mentioned technical scheme, when the insulator spindle that does not have to hang and detain needs to be fixed, overturn the joint piece on the mount pad for the draw-in groove on the joint piece is in the clamp groove directly over, then from down and go up the insulator spindle that does not have to hang and detain step by step, perhaps will not have to hang the insulator spindle that detains earlier and deliberately lower in clamp groove below, then vertical upward shift, make the rod end chucking of insulator spindle that does not have to hang detain in the rubber layer of clamp groove, thereby realize fixing, also reach the insulator spindle that does not have to hang to detain comparatively convenient effect.

Optionally, the power-on testing mechanism comprises a distribution box, a wire, an upper power clamp and a lower power clamp; the distribution box is arranged on the detection frame, the upper electric clamp and the lower electric clamp are electrically connected with the distribution box through wires, and the number of the upper electric clamp and the lower electric clamp is the same as that of the rod section clamping mechanisms on one cross rod.

Through adopting above-mentioned technical scheme, press from both sides the centre gripping in the upper end of insulator spindle with the electricity clamp, press from both sides the centre gripping in the lower extreme of insulator spindle down, then start the block terminal, observe whether have the electric current to pass through on the insulator spindle can.

Optionally, the detection frame is further provided with a quick unloading mechanism, and the quick unloading mechanism is used for taking down all insulating rods with hanging buckle types hung on the plurality of L-shaped hanging rods at one time.

Through adopting above-mentioned technical scheme, the setting of quick uninstallation mechanism can let have the insulator spindle of hanging the knot type to collect fast after the measurement finishes, also does not need the manual touching insulator spindle of workman and avoids the condition emergence of electric shock.

Optionally, the rapid unloading mechanism comprises a collecting box, a pressing starting assembly, a transmission assembly and a pushing assembly; the collecting box is internally provided with a rubber pad and is arranged below the plurality of hung insulating rods of the detection frame, the pressing starting assembly is arranged on the collecting box, and the transmission assembly and the pushing assembly are both arranged on the detection frame; when the pressing starting assembly is extruded by external force, the transmission assembly transmits extrusion force to the pushing assembly so as to synchronously push all the hung insulating rods from the L-shaped hanging rods into the collecting box.

Through adopting above-mentioned technical scheme, direct external force extrusion presses and starts the subassembly, gives the pushing component with pressure transmission through drive assembly, lets pushing component produce horizontal thrust, will have the insulating rod of hanging knot from L shape peg and clamp the inslot level release, have the insulating rod of hanging knot in this time can directly fall into the collecting box under the action of gravity, stably store under the cushioning effect of rubber pad to reach the effect of quick uninstallation has the insulating rod of hanging knot.

Optionally, the pressing starting assembly comprises a pedal, a sliding block and a first spring; the side wall of the collecting box is vertically provided with a sliding groove, the sliding block is arranged at one end of the pedal and is arranged in the sliding groove in a sliding manner, the first spring is arranged between the inner wall of the sliding groove and the sliding block, and the pedal always has a trend of moving vertically upwards;

the pushing component comprises a sliding rod, a sleeve, a second spring, a pull rope and a rolling sleeve; the sleeve is horizontally arranged on two sides of the plurality of hung insulating rods on the detection frame, one end of the sliding rod is inserted into the sleeve in a sliding manner, and the second spring is arranged in the sleeve and enables the sliding rod to always have a trend of moving into the sleeve; the pull rope is arranged between the two sliding rods and is in a horizontal stretching state, and a plurality of pull ropes are rotatably sleeved on the rolling sleeve;

the transmission assembly comprises a first steering wheel, a second steering wheel and a traction rope, a sliding bar hole is formed in the side wall of the sleeve, and a connecting rod extending out of the sliding bar hole is arranged on the sliding rod; the first steering wheel is rotatably arranged on the detection frame, and the second steering wheel is rotatably arranged on the detection frame and positioned below the first steering wheel; the side wall of the collecting box is further rotatably provided with a guide wheel, one end of the traction rope is connected with the connecting rod, and the other end of the traction rope is connected with the side wall of the pedal after sequentially passing through the upper wheel surface of the first steering wheel, the lower wheel surface of the second steering wheel and the upper wheel surface of the guide wheel.

Through adopting above-mentioned technical scheme, at first the vertical downward extrusion pedal of workman, pedal drives the slider and vertically moves down in the spout, and then let the haulage rope receive pedal downwardly moving's influence and produce the pulling force, under the direction effect of first steering wheel, second steering wheel and leading wheel, pedal downwardly moving's action can finally convert into the pulling force to the connecting rod along the slider hole orientation, thereby can order about the slide bar to move in the sleeve, be in the stay cord between two slide bars can be close to the insulator spindle side this moment, and the cover is established on the stay cord can the butt on the insulator spindle lateral wall and is applyed horizontal thrust to the insulator spindle, finally let the insulator spindle follow L shape peg and clamp inslot level break away from, and fall into the collecting box under the effect of gravity, finally reach the insulator spindle that the load is unloaded and is hung and detained comparatively directly perceivedly and convenient effect.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the insulation detection is carried out on the insulation rods, a plurality of insulation rods can be sequentially clamped on the rod section clamping mechanism, then the insulation rods are fixed through the rod end fixing mechanism, and at the moment, the plurality of insulation rods are simultaneously fixed on the detection frame; the arrangement of the multiple cross bars can be adapted to the insulating bars of different types, so that the applicability of the application is improved; after the insulating rods are fixed, the fixed insulating rods can be detected simultaneously directly through the power-on testing mechanism; after the arrangement, the measurement efficiency when the insulativity of the insulating rod is detected can be improved;

2. when the insulating rod with the hanging buckle needs to be detected, the hanging buckle on the insulating rod can be connected with the hanging connecting component; when the insulating rod without the hanging buckle needs to be detected, the insulating rod can be clamped on the detection frame through the clamp type connecting assembly, so that the applicability of the detection frame is improved;

3. at first the vertical downward extrusion pedal of workman, pedal drives the slider and moves down in the spout vertically, and then let the haulage rope receive pedal downwardly moving's influence and produce pulling force, under the direction effect of first steering wheel, second steering wheel and leading wheel, pedal downwardly moving's action can finally be converted into the pulling force to the connecting rod along slip strip hole orientation, thereby can order about the slide bar to move in the sleeve, be in the stay cord between two slide bars can be close to the insulator spindle side this moment, and the cover is established on the stay cord can the butt on the insulator spindle lateral wall and is applyed horizontal thrust to the insulator spindle, finally let the insulator spindle break away from L shape peg and clamp inslot level, and fall into the collecting box under the effect of gravity, finally reach the comparatively directly perceived and convenient effect of the insulator spindle that unloads the link.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present application;

FIG. 2 is a schematic view of a structure of an embodiment of the present application after concealing an insulating rod;

fig. 3 is an enlarged view of a portion a in fig. 2;

fig. 4 is an enlarged view of a portion B in fig. 2;

FIG. 5 is a schematic diagram showing the structure of an energizing test mechanism according to an embodiment of the present application;

FIG. 6 is a partial cross-sectional view of an embodiment of the present application after concealing an insulating rod;

fig. 7 is an enlarged view of a portion C in fig. 6.

In the figure, 1, a detection frame; 2. a cross bar; 3. a pole segment clamping mechanism; 31. a mounting block; 32. a clamping ring; 321. a clamping groove; 4. a rod end fixing mechanism; 41. a hanging-type connecting component; 411. a first ejector rod; 412. an L-shaped hanging rod; 42. a clip-on connection assembly; 421. a second ejector rod; 422. a mounting base; 423. a clamping piece; 4231. a clamping groove; 5. electrifying a testing mechanism; 51. a distribution box; 52. a wire; 53. a power-on clamp; 54. a power down clamp; 6. a quick unloading mechanism; 7. pressing the starting assembly; 71. stepping on the pedal; 72. a slide block; 73. a first spring; 8. a transmission assembly; 81. a first steering wheel; 82. a second steering wheel; 83. a traction rope; 9. a pushing assembly; 91. a slide bar; 911. a connecting rod; 92. a sleeve; 921. a sliding bar hole; 93. a second spring; 94. a pull rope; 95. a rolling sleeve; 10. a collection box; 101. a chute; 102. and a guide wheel.

Detailed Description

The present application is described in further detail below with reference to fig. 1-7.

An insulation property detection device of an insulation rod, referring to fig. 1 and 2, comprises a detection frame 1, a cross rod 2, a rod section clamping mechanism 3, a rod end fixing mechanism 4 and an electrifying test mechanism 5; the detection frame 1 is formed by connecting a plurality of transverse pipes and a plurality of vertical pipes, and the lower end of the detection frame 1 is provided with universal wheels which can be pushed at will; the cross bars 2 are arranged in a plurality along the vertical direction of the detection frame 1, namely, the cross bars 2 are arranged between two cross tubes, and each cross bar 2 is horizontally arranged and parallel; a plurality of rod section clamping mechanisms 3 are arranged on each cross rod 2, the intervals of the rod section clamping mechanisms 3 on each cross rod 2 are the same, and the rod sections on two adjacent cross rods 2 are clamped in a one-to-one correspondence in the vertical direction; the rod end fixing mechanism 4 is arranged above the plurality of cross rods 2 on the detection frame 1, and the rod end fixing mechanism 4 is used for fixing the top ends of the insulating rods clamped on the plurality of rod section clamping mechanisms 3; the power-on test mechanism 5 is used for simultaneously touching and powering on the two ends of all the insulating rods.

Namely, when the insulation performance of the insulation rod is detected, a plurality of insulation rods can be simultaneously installed on the detection frame 1, when the insulation rod is installed, the rod side wall of the insulation rod is clamped and fixed through the rod section clamping mechanism 3, and the rod end fixing mechanism 4 can clamp and fix the top end of the insulation rod, so that the simultaneous clamping of a plurality of insulation rods is realized; and the plurality of cross bars 2 can clamp insulating rods with different lengths, so that the adaptability of the insulating rods is improved; after the insulating rods are fixed, the insulating property of a plurality of insulating rods is measured simultaneously directly through the power-on testing mechanism 5, so that the measuring efficiency in the process of detecting the insulating property of the insulating rods is improved.

Referring to fig. 2 and 3, the rod segment clamping mechanism 3 includes a mounting block 31 and a clamping ring 32, the mounting block 31 is detachably mounted on the cross rod 2, in this embodiment, the mounting block 31 is provided with a threaded hole, and the cross rod 2 is also provided with a threaded hole, that is, the mounting block 31 is connected with the cross rod 2 through a bolt; in other embodiments, a pinned connection may also be employed; the clamping ring 32 is arranged on the mounting block 31, a clamping groove 321 is reserved on the clamping ring 32, and the clamping groove 321 is used for clamping the insulating rod; the clamping ring 32 is U-shaped, and the clamping groove 321 is also U-shaped, so that the insulating rod can be placed in the clamping ring 32 and the horizontal movement of the insulating rod can be limited; in order to improve the clamping effect of the clamping groove 321, when the insulating rod is positioned in the clamping groove 321, a conductive sponge is filled between the insulating rod and the clamping groove 321.

When the insulating rod is fixed, the insulating rod to be measured is firstly placed into the clamping groove 321 in the clamping ring 32, so that the periphery of the insulating rod is positioned in the clamping groove 321; at this time, the displacement of the insulating rod in the circumferential direction is limited, so that the insulating rod is clamped more conveniently; and after the conductive sponge is filled, the insulating rod can be clamped and connected more stably.

Referring to fig. 2 and 4, the rod end fixing mechanism 4 includes a hanging connection assembly 41 and a clip connection assembly 42, wherein the hanging connection assembly 41 and the clip connection assembly 42 are both mounted on the top of the detection frame 1, the hanging connection assembly 41 is used for connecting with an insulating rod with a hanging buckle type, and the clip connection assembly 42 is used for connecting with an insulating rod without a hanging buckle type; that is, when the insulating rod with the hanging buckle needs to be detected, the hanging buckle on the insulating rod can be connected with the hanging connecting component 41; when the insulating rod without the hanging buckle needs to be detected, the insulating rod can be clamped on the detection frame 1 through the clamp type connecting assembly 42, so that the applicability of the application is improved.

Referring to fig. 2 and 4, specifically, the hanging connection assembly 41 includes a first push rod 411 and an L-shaped hanging rod 412, the first push rod 411 is horizontally installed at the top of the detection frame 1, the length direction of the first push rod 411 is parallel to the length direction of the cross rod 2, and the first push rod 411 is located right above the cross rod 2; the L-shaped hanging rod 412 comprises a vertical hanging rod and a transverse hanging rod, and the shape of the vertical hanging rod and the transverse hanging rod is L-shaped; the L-shaped hanging rods 412 are provided in plurality along the length direction of the first ejector rod 411, and the number of the L-shaped hanging rods 412 is the same as the number of the rod section clamping mechanisms 3 on one cross rod 2, and a single L-shaped hanging rod 412 is also right above the single rod section clamping mechanism 3, that is, one L-shaped hanging rod 412 corresponds to one rod section clamping mechanism 3 on one cross rod 2.

The hanging buckle end of the insulating rod with the hanging buckle is directly buckled on the transverse rod section of the L-shaped hanging rod 412, at the moment, the rod section part of the insulating rod is clamped by the clamping groove 321, the rod end is buckled on the L-shaped hanging rod 412 and cannot fall down, so that the insulating rod with the hanging buckle is fixed, and the insulating rod with the hanging buckle is fixed conveniently.

Referring to fig. 2 and 4, specifically, the clip-on connection assembly 42 includes a second ejector 421, a mounting seat 422, and a clip piece 423; the second ejector rod 421 is arranged below the first ejector rod 411 and above the plurality of cross rods 2 on the detection frame 1, the second ejector rod 421 is consistent with the length direction of the first ejector rod 411, a plurality of mounting seats 422 are arranged along the length direction of the second ejector rod 421, and the mounting seats 422 are in one-to-one correspondence with the L-shaped hanging rods 412; in the present embodiment, the mounting seat 422 is detachably connected to the second ejector 421 through a bolt; the clamping piece 423 is rotatably arranged on the mounting seat 422, a clamping groove 4231 which is in clamping fit with the rod wall of the insulating rod is reserved on the clamping piece 423, namely, a notch is reserved in the clamping groove 4231, and the insulating rod can be inserted into the clamping groove 4231 from the notch; a rubber layer is covered in the clamping groove 4231, namely, after the insulating rod is clamped in the clamping groove 4231, the insulating rod and the rubber layer can be tightly clamped together; it should be noted that, in the present embodiment, the locking piece 423 can only rotate 180 ° on the mounting seat 422, that is, 180 ° above the mounting seat 422, so that after the locking piece 423 is rotated, the locking piece 423 can be stably oriented to the horizontal front direction, and the end portion of the insulating rod can be normally locked.

When the insulating rod without the hanging buckle needs to be fixed, the clamping piece 423 is turned over on the mounting seat 422, so that the clamping groove 4231 on the clamping piece 423 is positioned right above the clamping groove 321, then the insulating rod without the hanging buckle is gradually penetrated from bottom to top, or the insulating rod without the hanging buckle is deliberately lowered below the clamping groove 321, and then the insulating rod is vertically moved upwards, so that the rod end of the insulating rod without the hanging buckle is clamped in the rubber layer of the clamping groove 321, and the effect of fixing the insulating rod without the hanging buckle is achieved conveniently.

As shown in fig. 1 and 5, the power-on test mechanism 5 includes a distribution box 51, a wire 52, an upper power clamp 53, and a lower power clamp 54; the distribution box 51 is arranged on the detection frame 1, the upper electric clamp 53 and the lower electric clamp 54 are electrically connected with the distribution box 51 through wires 52, and the number of the upper electric clamp 53 and the lower electric clamp 54 is the same as that of the rod section clamping mechanisms 3 on one cross rod 2; the upper electric clamp 53 is clamped at the upper end of the insulating rod, the lower electric clamp 54 is clamped at the lower end of the insulating rod, then the distribution box 51 is started, and whether current passes through the insulating rod or not is observed. It should be noted that, the power-on testing mechanism 5 is an existing device equipped with a general insulation detecting device, that is, after two ends of an insulation rod are clamped by the upper power clamp 53 and the lower power clamp 54, the power-on testing mechanism is powered on, and the resistance change corresponding to each clamping insulation rod is observed on the display screen of the distribution box 51; if the measured resistance is very large, the insulation rod can be normally used.

As shown in fig. 1 and 6, the detection frame 1 is further provided with a quick unloading mechanism 6, and the quick unloading mechanism 6 is used for completely removing the insulating rods with hanging buckle types, which are hung on the plurality of L-shaped hanging rods 412 at one time; the quick unloading mechanism 6 comprises a collecting box 10, a pressing starting assembly 7, a transmission assembly 8 and a pushing assembly 9; the inside of the collecting box 10 is provided with a rubber pad and is arranged below a plurality of hung insulating rods of the detection frame 1, the pressing starting assembly 7 is arranged on the collecting box 10, and the transmission assembly 8 and the pushing assembly 9 are both arranged on the detection frame 1; when the pressing starting assembly 7 is pressed by external force, the transmission assembly 8 transmits the pressing force to the pushing assembly 9 so as to synchronously push all the hung insulating rods from the L-shaped hanging rods 412 into the collecting box 10.

The direct external force extrudes and presses the starting component 7, the pressure is transmitted to the pushing component 9 through the transmission component 8, the pushing component 9 generates horizontal thrust, the insulating rod with the hanging buckle is horizontally pushed out from the L-shaped hanging rod 412 and the clamping groove 321, the insulating rod with the hanging buckle can directly fall into the collecting box 10 under the action of gravity, and the insulating rod is stably stored under the buffering action of the rubber pad, so that the effect of rapidly unloading the insulating rod with the hanging buckle is achieved.

As shown in fig. 6 and 7, specifically, the push start assembly 7 includes a pedal 71, a slider 72, and a first spring 73; a chute 101 is vertically formed in the side wall of the collecting box 10, a slide block 72 is arranged at one end of a pedal 71 and is arranged in the chute 101 in a sliding manner, a first spring 73 is arranged between the inner wall of the chute 101 and the slide block 72, and the pedal 71 always has a tendency of moving vertically upwards by the first spring 73, namely, one end of the first spring 73 is connected with the slide block 72, and the other end of the first spring 73 is connected with the inner top wall of the chute 101; the pushing assembly 9 comprises a sliding rod 91, a sleeve 92, a second spring 93, a pull rope 94 and a rolling sleeve 95; the sleeve 92 is horizontally arranged on two sides of the plurality of hung insulating rods on the detection frame 1, one end of the sliding rod 91 is slidably inserted into the sleeve 92, and the second spring 93 is arranged in the sleeve 92, so that the sliding rod 91 always has a trend of moving into the sleeve 92. One end of the second spring 93 is connected to the inner end wall of the sleeve 92, and the other end is connected to the end wall of the slide rod 91 located in the sleeve 92; the pull ropes 94 are arranged between the two sliding rods 91, the pull ropes 94 are in a horizontal stretching state, and a plurality of rolling sleeves 95 are rotatably sleeved on the pull ropes 94; the transmission assembly 8 comprises a first steering wheel 81, a second steering wheel 82 and a traction rope 83, a sliding bar hole 921 is formed in the side wall of the sleeve 92, and a connecting rod 911 extending out of the sliding bar hole 921 is arranged on the sliding rod 91; the first steering wheel 81 is rotatably arranged on the detection frame 1, and the second steering wheel 82 is rotatably arranged on the detection frame 1 and positioned below the first steering wheel 81; the sidewall of the collecting box 10 is further rotatably provided with a guide wheel 102, and one end of the traction rope 83 is connected to the connecting rod 911, and the other end is connected to the sidewall of the pedal 71 after passing through the upper wheel surface of the first steering wheel 81, the lower wheel surface of the second steering wheel 82, and the upper wheel surface of the guide wheel 102 in order.

Firstly, a worker vertically presses the pedal 71 downwards, the pedal 71 drives the sliding block 72 to vertically move downwards in the sliding groove 101, and then the traction rope 83 is influenced by the downward movement of the pedal 71 to generate tension, and the first spring 73 is in a stretched state; under the guiding action of the first steering wheel 81, the second steering wheel 82 and the guiding wheel 102, the downward movement of the pedal 71 is finally converted into the pulling force of the connecting rod 911 in the direction along the sliding bar hole 921, so that the sliding bar 91 is driven to move into the sleeve 92, the second spring 93 is in a stretched state, the pull rope 94 between the two sliding bars 91 is close to the insulating bar side at this time, the pull rope 94 is sleeved on the rolling sleeve 95 and is abutted against the side wall of the insulating bar, and applies horizontal pushing force to the insulating bar, finally, the insulating bar is horizontally separated from the L-shaped hanging bar 412 and the clamping groove 321, falls into the collecting box 10 under the action of gravity, and finally achieves the effect that the insulating bar with the hanging buckle unloaded is more visual and convenient; when the pedal 71 is released, the first spring 73 drives the slider 72 to vertically recover upwards, so that the pedal 71 vertically moves upwards, at this time, the traction rope 83 slowly recovers under the action of the second spring 93, and the sliding rod 91 also partially slides out of the sleeve 92, so that the pull rope 94 also recovers to the original position again, and the quick unloading mechanism 6 can automatically recover after unloading the insulating rod.

The implementation principle of the embodiment of the application is as follows: when the insulation performance of the insulation rods is detected, a plurality of insulation rods can be sequentially clamped in the clamping grooves 321, and then the insulation rods are directly hung and buckled on the L-shaped hanging rods 412 if the insulation rods are hung and buckled; if the surface of the insulating rod is smooth and is not provided with a hanging buckle, the insulating rod is directly clamped into the clamping groove 4231; then clamping the upper electric clamp 53 and the lower electric clamp 54 at the upper end and the lower end of the insulating rod, and then opening the distribution box 51 for testing; after the test is finished, if the insulating rod is provided with a hanging buckle, the pedal 71 is directly pressed downwards with force, and the pull rope 94 can automatically push the insulating rod horizontally and finally enter the collecting box 10; it should be noted that, in this embodiment, the pull cord 94 may be located at a position in the middle of the insulating rod, so that the insulating rod may be normally pushed to move horizontally; in this embodiment, an inclined baffle is arranged at the front end of the collecting box, so that the insulating rod can be prevented from falling out of the collecting box.

The embodiments of this embodiment are all preferred embodiments of the present application, and are not intended to limit the scope of the present application, in which like parts are denoted by like reference numerals. Therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (10)

1. The insulation property detection device of the insulating rod is characterized by comprising a detection frame (1), a cross rod (2), a rod section clamping mechanism (3), a rod end fixing mechanism (4) and an electrifying test mechanism (5); the cross bars (2) are vertically arranged on the detection frame (1), and each cross bar (2) is horizontally arranged on the detection frame (1); the rod section clamping mechanisms (3) are arranged in a plurality along the length direction of the cross rod (2); the rod end fixing mechanism (4) is arranged above the plurality of cross rods (2) on the detection frame (1), and the rod end fixing mechanism (4) is used for fixing the top ends of the insulating rods clamped on the plurality of rod section clamping mechanisms (3); the power-on testing mechanism (5) is used for simultaneously touching and powering on the two ends of all the insulating rods.

2. The insulation rod insulation property detection device according to claim 1, wherein the rod segment clamping mechanism (3) comprises a mounting block (31) and a clamping ring (32), the mounting block (31) is detachably mounted on the cross rod (2), the clamping ring (32) is arranged on the mounting block (31), a clamping groove (321) is reserved on the clamping ring (32), and the clamping groove (321) is used for clamping an insulation rod.

3. The insulation property detection device for the insulation rod according to claim 2, wherein the clamping groove (321) is filled with a conductive sponge, and the conductive sponge is used for clamping the insulation rod in the clamping groove (321).

4. Insulation rod insulation detection device according to claim 1, characterized in that the rod end fixing mechanism (4) comprises a hanging connection assembly (41) and a clip connection assembly (42), wherein the hanging connection assembly (41) and the clip connection assembly (42) are both installed at the top of the detection frame (1), the hanging connection assembly (41) is used for being connected with an insulation rod with a hanging buckle type, and the clip connection assembly (42) is used for being connected with an insulation rod without a hanging buckle type.

5. The insulation rod insulation property detection device according to claim 4, wherein the hanging connection assembly (41) comprises a first ejector rod (411) and an L-shaped hanging rod (412); the first ejector rod (411) is arranged on the detection frame (1) and is consistent with the length direction of the cross rod (2), a plurality of L-shaped hanging rods (412) are arranged along the length direction of the first ejector rod (411), and the L-shaped hanging rods (412) are in one-to-one correspondence with the rod section clamping mechanisms (3) on the cross rod (2).

6. The insulation rod insulation property detection device according to claim 5, wherein the clip type connection assembly (42) comprises a second ejector rod (421), a mounting seat (422) and a clamping piece (423), the second ejector rod (421) is arranged below the first ejector rod (411) on the detection frame (1) and above the cross rods (2), the second ejector rod (421) is consistent with the length direction of the first ejector rod (411), the mounting seat (422) is provided with a plurality of mounting seats along the length direction of the second ejector rod (421), and the mounting seats (422) are in one-to-one correspondence with the L-shaped hanging rods (412); the clamping piece (423) is rotatably arranged on the mounting seat (422), a clamping groove (4231) which is in clamping fit with the rod wall of the insulating rod is reserved on the clamping piece (423), and a rubber layer is covered in the clamping groove (4231).

7. The insulation rod insulation property detection device according to claim 1, wherein the energizing test mechanism (5) comprises a distribution box (51), a wire (52), an upper power clamp (53) and a lower power clamp (54); the distribution box (51) is arranged on the detection frame (1), the upper electric clamp (53) and the lower electric clamp (54) are electrically connected with the distribution box (51) through wires (52), and the number of the upper electric clamp (53) and the lower electric clamp (54) is the same as the number of the rod section clamping mechanisms (3) on one cross rod (2).

8. The insulation rod insulation property detection device according to claim 5, wherein the detection frame (1) is further provided with a quick unloading mechanism (6), and the quick unloading mechanism (6) is used for taking down all insulation rods with hanging buckles, which are hung on the plurality of L-shaped hanging rods (412) at one time.

9. The insulation rod insulation property detection device according to claim 8, wherein the quick unloading mechanism (6) comprises a collecting box (10), a pressing starting assembly (7), a transmission assembly (8) and a pushing assembly (9); the collecting box (10) is internally provided with a rubber pad and is arranged below a plurality of hung insulating rods of the detection frame (1), the pressing starting assembly (7) is arranged on the collecting box (10), and the transmission assembly (8) and the pushing assembly (9) are both arranged on the detection frame (1); when the pressing starting assembly (7) is extruded by external force, the transmission assembly (8) transmits extrusion force to the pushing assembly (9) so as to synchronously push all the hung insulating rods from the L-shaped hanging rods (412) into the collecting box (10).

10. The insulation rod insulation property detection device according to claim 9, wherein the pressing start assembly (7) comprises a pedal (71), a slider (72) and a first spring (73); a chute (101) is vertically formed in the side wall of the collecting box (10), the sliding block (72) is arranged at one end of the pedal (71) and is arranged in the chute (101) in a sliding manner, the first spring (73) is arranged between the inner wall of the chute (101) and the sliding block (72), and the first spring (73) enables the pedal (71) to always have a trend of moving vertically upwards;

the pushing assembly (9) comprises a sliding rod (91), a sleeve (92), a second spring (93), a pull rope (94) and a rolling sleeve (95); the sleeve (92) is horizontally arranged on two sides of the plurality of hung insulating rods on the detection frame (1), one end of the sliding rod (91) is inserted into the sleeve (92) in a sliding manner, and the second spring (93) is arranged in the sleeve (92) and enables the sliding rod (91) to always have a trend of moving towards the sleeve (92); the pull ropes (94) are arranged between the two sliding rods (91), the pull ropes (94) are in a horizontal stretching state, and a plurality of rolling sleeves (95) are rotatably sleeved on the pull ropes (94);

the transmission assembly (8) comprises a first steering wheel (81), a second steering wheel (82) and a traction rope (83), a sliding bar hole (921) is formed in the side wall of the sleeve (92), and a connecting rod (911) extending out of the sliding bar hole (921) is arranged on the sliding rod (91); the first steering wheel (81) is rotatably arranged on the detection frame (1), and the second steering wheel (82) is rotatably arranged on the detection frame (1) and is positioned below the first steering wheel (81); the side wall of the collecting box (10) is further rotatably provided with a guide wheel (102), one end of the traction rope (83) is connected with the connecting rod (911), and the other end of the traction rope sequentially passes through the upper wheel surface of the first steering wheel (81), the lower wheel surface of the second steering wheel (82) and the upper wheel surface of the guide wheel (102) and then is connected with the side wall of the pedal (71).