CN105823970A - Testing device used for insulating gloves or insulating boots - Google Patents

Abstract

The invention relates to the technical field of high-voltage detection and especially relates to a testing device used for insulating gloves or insulating boots. The testing device is composed of a testing device shell body, an opened container and a testing component of which most parts are located inside the testing device shell body, wherein the opened container is installed on the bottom or under the bottom of the testing device shell body. The testing device is characterized in that the testing component is composed of a high-voltage lead wire, a high-voltage connecting line, a microammeter, an insulating sleeve, an overcurrent release, an insulating rod, an overcurrent outgoing wire and an insulating object. The testing device provided by the invention mainly has the beneficial effects that insulation is visual; testing is convenient, safe and reliable; multiple experiments can be implemented simultaneously and do not influence each other; and the experiments are more accurate.

Description

A kind of test device for insulating glove or insulating boot

Technical field

The present invention relates to high-tension electricity detection technique field, especially relate to a kind of test device for insulating glove or insulating boot.

Background technology

In power industry, it is often necessary to the proof voltage performance of insulating glove or insulating boot, insulating glove or insulating boot directly influences the safety of electric operating personnel.In prior art, insulating boot, the test period of insulating glove are usually 6 months, and interval time is short, the boots of transformer station is brought back test chamber and does and waste time and energy, and especially some remote transformer station, extremely inconvenient.

And for electric operating, the insulating glove of 110kV transformer station, insulating boot are generally 4 pairs, if going to do experiment in each station, build interim trial platform, the most loaded down with trivial details.

Summary of the invention

In order to solve the problems referred to above, it is an object of the invention to disclose a kind of test device for insulating glove or insulating boot；It realizes by the following technical solutions.

A kind of test device for insulating glove or insulating boot, by test device case, open containers and be predominantly located in test device case within test component constitute；Open containers is arranged on bottom or the bottom part down of test device case；It is characterized in that, described test component is made up of high-voltage connection, at least high-pressure connection line, at least one microampere meter, at least one insulated sleeve, at least one overcurrent release, insulating bar, at least stream lead-out wire, at least one insulant excessively；One end of high-pressure connection line is attempted by high-voltage connection, and high-voltage connection is connected to one end of high-voltage connection terminal, and the other end of high-voltage connection terminal protrudes from the second upper surface of test device；What the other end of high-pressure connection line connected microampere meter enters table end；Microampere meter is arranged on inside test device case, and the surface of microampere meter protrudes from the second leading flank of test device；First leading flank of test device and the second leading flank of test device are coupled together by the first upper surface of test device；One end of drainage thread connect microampere meter go out table end, the other end of drainage thread connects the end of incoming cables of overcurrent release, drainage thread is through in insulated sleeve；Overcurrent release is fixed on insulating bar, and insulating bar is arranged on the inside of test device case；Cross stream lead-out wire and extend into open containers inside but tactile with the bottom connection of open containers.

The present invention has a following main beneficial effect: insulation visualization, test side's example, safe and reliable, can the most multiple tests be independent of each other, test more accurate.

Accompanying drawing explanation

Fig. 1 is the ultimate principle figure of embodiment 1 of the present invention.

Fig. 2 is the ultimate principle figure of embodiment 2 of the present invention.

Fig. 3 is the ultimate principle figure of embodiment 3 of the present invention.

Fig. 4 is the ultimate principle figure of embodiment 4 of the present invention.

Fig. 5 is the surface structure schematic diagram of embodiment 4 of the present invention.

Fig. 6 is the surface structure schematic diagram of embodiment 5 of the present invention.

Detailed description of the invention

For making those skilled in the art can understand the application more accurately and implement the application, in conjunction with accompanying drawing, detailed description of the invention is elaborated.nullIn figure，1 is high-voltage connection，21 is the first high-pressure connection line，22 is the second high-pressure connection line，23 is the 3rd high-pressure connection line，24 is the 4th high-pressure connection line，31 is the first microampere meter，32 is the second microampere meter，33 is the 3rd microampere meter，34 is the 4th microampere meter，35 is the 5th microampere meter，36 is the 6th microampere meter，37 is the 7th microampere meter，38 is the 8th microampere meter，41 is the first insulated sleeve，42 is the second insulated sleeve，43 is the 3rd insulated sleeve，44 is the 4th insulated sleeve，51 is the first overcurrent release，52 is the second overcurrent release，53 is the 3rd overcurrent release，54 is the 4th overcurrent release，6 is insulating bar，71 is the first mistake stream lead-out wire，72 is the second mistake stream lead-out wire，73 is the 3rd mistake stream lead-out wire，74 is the 4th mistake stream lead-out wire，81 is the first insulant，82 is the second insulant，83 is the 3rd insulant，84 is the 4th insulant，9 is open containers，11 is high-voltage connection terminal，The right flank that 10 is test device，The first leading flank that 101 is test device，The second leading flank that 102 is test device，The first upper surface that 103 is test device，The second upper surface that 104 is test device.

Embodiment 1

Asking for an interview Fig. 1, and with reference to Fig. 5, a kind of test device for insulating glove or insulating boot, by test device case, open containers 9 and be predominantly located in the test component within test device case and constitute；Open containers is arranged on bottom or the bottom part down of test device case；It is characterized in that, described test component is crossed stream lead-out wire the 71, first insulant 81 by high-voltage connection the 1, first high-pressure connection line the 21, first microampere meter the 31, first insulated sleeve the 41, first overcurrent release 51, insulating bar 6, first and is constituted；One end of first high-pressure connection line 21 is attempted by high-voltage connection 1, and high-voltage connection is connected to one end of high-voltage connection terminal 11, and the other end of high-voltage connection terminal 11 protrudes from the second upper surface 104 of test device；What the other end of the first high-pressure connection line 21 connected the first microampere meter 31 enters table end；First microampere meter 31 is arranged on inside test device case, and the surface of the first microampere meter 31 protrudes from the second leading flank 102 of test device；First leading flank 101 of test device and the second leading flank 102 of test device are coupled together by the first upper surface 103 of test device；One end of first drainage thread connect the first microampere meter 31 go out table end, the other end of the first drainage thread connects the end of incoming cables of the first overcurrent release 51, the first drainage thread is through in the first insulated sleeve 41；First overcurrent release 51 is fixed on insulating bar 6, and insulating bar 6 is arranged on the inside of test device case；First crosses stream lead-out wire 71 extend into open containers 9 inside but tactile with the bottom connection of open containers 9.

In this embodiment, by the clip being fixed on insulating bar, the first insulant 81 is clamped, make first to cross stream lead-out wire 71 and be placed on the hollow space of the first insulant and do not contact with the first insulant；First insulant does not contacts with the inwall of open containers, during test, open containers built with water or little steel ball, open containers material be preferably aluminum or the metal such as steel or ferrum, it is simple to ground connection；During test, when the first insulant punctures or exceedes the electric current setting restriction, this test product will automatically disengage test；In this embodiment, the electromagnetic interference outside effect eliminating of insulated sleeve, reduces the environment impact on test Leakage Current, can test an insulant in this embodiment.

Embodiment 2

Asking for an interview Fig. 2, and with reference to Fig. 5, a kind of test device for insulating glove or insulating boot, by test device case, open containers 9 and be predominantly located in the test component within test device case and constitute；Open containers is arranged on bottom or the bottom part down of test device case；It is characterized in that, described test component is crossed stream lead-out wire the 72, first insulant 81 by high-voltage connection the 1, first high-pressure connection line the 21, second high-pressure connection line the 22, first microampere meter the 31, second microampere meter the 32, first insulated sleeve the 41, second insulated sleeve the 42, first overcurrent release the 51, second overcurrent release 52, insulating bar 6, first stream lead-out wire 71, second excessively and is constituted；One end of both first high-pressure connection line the 21, second high-pressure connection lines 22 is attempted by high-voltage connection 1, and high-voltage connection is connected to one end of high-voltage connection terminal 11, and the other end of high-voltage connection terminal 11 protrudes from the second upper surface 104 of test device；What the other end of the first high-pressure connection line 21 connected the first microampere meter 31 enters table end, and what the other end of the second high-pressure connection line 22 connected the second microampere meter 32 enters table end；Both first microampere meter the 31, second microampere meters 32 are arranged on inside test device case, and the surface of both first microampere meter the 31, second microampere meters 32 protrudes from the second leading flank 102 of test device；First leading flank 101 of test device and the second leading flank 102 of test device are coupled together by the first upper surface 103 of test device；One end of first drainage thread connect the first microampere meter 31 go out table end, the other end of the first drainage thread connects the end of incoming cables of the first overcurrent release 51, the first drainage thread is through in the first insulated sleeve 41, one end of the second drainage thread connect the second microampere meter 32 go out table end, the other end of the second drainage thread connects the end of incoming cables of the second overcurrent release 52, the second drainage thread is through in the second insulated sleeve 42；First overcurrent release the 51, second overcurrent release 52 is all fixed on insulating bar 6, and insulating bar 6 is arranged on the inside of test device case；First cross stream lead-out wire 71, second cross stream lead-out wire 72 all extend into open containers 9 internal but bottom connection with open containers 9 touch.

In this embodiment, by the clip being fixed on insulating bar, first insulant the 81, second insulant 82 is clamped, make first to cross stream lead-out wire 71 be placed on the hollow space of the first insulant and do not contact with the first insulant, make second to cross stream lead-out wire 72 and be placed on the hollow space of the second insulant and do not contact with the second insulant；First/second insulant does not contacts with the inwall of open containers, during test, open containers built with water or little steel ball, open containers material be preferably aluminum or the metal such as steel or ferrum, it is simple to ground connection；During test, if having certain insulant to puncture or exceed the electric current setting restriction, this test product will automatically disengage test, and not affect other test product normal assays；In this embodiment, the electromagnetic interference outside effect eliminating of insulated sleeve, reduces the environment impact on test Leakage Current, can test a secondary or two pieces insulant in this embodiment simultaneously.

Embodiment 3

Asking for an interview Fig. 3, and with reference to Fig. 5, a kind of test device for insulating glove or insulating boot, by test device case, open containers 9 and be predominantly located in the test component within test device case and constitute；Open containers is arranged on bottom or the bottom part down of test device case；It is characterized in that, described test component is crossed stream lead-out wire the 72, the 3rd stream lead-out wire the 73, first insulant 81 excessively by high-voltage connection the 1, first high-pressure connection line the 21, second high-pressure connection line the 22, the 3rd high-pressure connection line the 23, first microampere meter the 31, second microampere meter the 32, the 3rd microampere meter the 33, first insulated sleeve the 41, second insulated sleeve the 42, the 3rd insulated sleeve the 43, first overcurrent release the 51, second overcurrent release the 52, the 3rd overcurrent release 53, insulating bar 6, first stream lead-out wire 71, second excessively and is constituted；One end of first high-pressure connection line the 21, second high-pressure connection line the 22, the 3rd high-pressure connection line 23 three is attempted by high-voltage connection 1, high-voltage connection is connected to one end of high-voltage connection terminal 11, and the other end of high-voltage connection terminal 11 protrudes from the second upper surface 104 of test device；What the other end of the first high-pressure connection line 21 connected the first microampere meter 31 enters table end, and what the other end of the second high-pressure connection line 22 connected the second microampere meter 32 enters table end, and what the other end of the 3rd high-pressure connection line 23 connected the 3rd microampere meter 33 enters table end；First microampere meter the 31, second microampere meter the 32, the 3rd microampere meter 33 three is arranged on inside test device case, and the surface of first microampere meter the 31, second microampere meter the 32, the 3rd microampere meter 33 three protrudes from the second leading flank 102 of test device；First leading flank 101 of test device and the second leading flank 102 of test device are coupled together by the first upper surface 103 of test device；What one end of the first drainage thread connected the first microampere meter 31 goes out table end, the other end of the first drainage thread connects the end of incoming cables of the first overcurrent release 51, first drainage thread is through in the first insulated sleeve 41, what one end of the second drainage thread connected the second microampere meter 32 goes out table end, the other end of the second drainage thread connects the end of incoming cables of the second overcurrent release 52, second drainage thread is through in the second insulated sleeve 42, what one end of the 3rd drainage thread connected the 3rd microampere meter 33 goes out table end, the other end of the 3rd drainage thread connects the end of incoming cables of the 3rd overcurrent release 53, 3rd drainage thread is through in the 3rd insulated sleeve 43；First overcurrent release the 51, second overcurrent release the 52, the 3rd overcurrent release 53 is all fixed on insulating bar 6, and insulating bar 6 is arranged on the inside of test device case；First cross stream lead-out wire 71, second cross stream lead-out wire the 72, the 3rd cross stream lead-out wire 73 all extend into open containers 9 internal but bottom connection with open containers 9 touch.

In this embodiment, by the clip being fixed on insulating bar, first insulant the 81, second insulant the 82, the 3rd insulant 83 is clamped, make first to cross stream lead-out wire 71 be placed on the hollow space of the first insulant and do not contact with the first insulant, make second to cross stream lead-out wire 72 be placed on the hollow space of the second insulant and do not contact with the second insulant, make the 3rd to cross stream lead-out wire 73 and be placed on the hollow space of the 3rd insulant and do not contact with the 3rd insulant；First/second/the 3rd insulant does not contacts with the inwall of open containers, during test, open containers built with water or little steel ball, open containers material be preferably aluminum or the metal such as steel or ferrum, it is simple to ground connection；During test, if having certain insulant to puncture or exceed the electric current setting restriction, this test product will automatically disengage test, and not affect other test product normal assays；In this embodiment, the electromagnetic interference outside effect eliminating of insulated sleeve, reduces the environment impact on test Leakage Current, can test three insulants in this embodiment simultaneously.

Embodiment 4

Asking for an interview Fig. 4 and Fig. 5, a kind of test device for insulating glove or insulating boot, by test device case, open containers 9 and be predominantly located in the test component within test device case and constitute；Open containers is arranged on bottom or the bottom part down of test device case；It is characterized in that, described test component is by high-voltage connection 1, first high-pressure connection line 21, second high-pressure connection line 22, 3rd high-pressure connection line 23, 4th high-pressure connection line 24, first microampere meter 31, second microampere meter 32, 3rd microampere meter 33, 4th microampere meter 34, first insulated sleeve 41, second insulated sleeve 42, 3rd insulated sleeve 43, 4th insulated sleeve 44, first overcurrent release 51, second overcurrent release 52, 3rd overcurrent release 53, 4th overcurrent release 54, insulating bar 6, first crosses stream lead-out wire 71, second crosses stream lead-out wire 72, 3rd crosses stream lead-out wire 73, 4th crosses stream lead-out wire 74, first insulant 81 is constituted；One end of first high-pressure connection line the 21, second high-pressure connection line the 22, the 3rd high-pressure connection line 23 and the 4th high-pressure connection line 24 4 is attempted by high-voltage connection 1, high-voltage connection is connected to one end of high-voltage connection terminal 11, and the other end of high-voltage connection terminal 11 protrudes from the second upper surface 104 of test device；What the other end of the first high-pressure connection line 21 connected the first microampere meter 31 enters table end, what the other end of the second high-pressure connection line 22 connected the second microampere meter 32 enters table end, what the other end of the 3rd high-pressure connection line 23 connected the 3rd microampere meter 33 enters table end, and what the other end of the 4th high-pressure connection line 24 connected the 4th microampere meter 34 enters table end；First microampere meter the 31, second microampere meter the 32, the 3rd microampere meter the 33, the 4th microampere meter 34 4 is arranged on inside test device case, and the surface of first microampere meter the 31, second microampere meter the 32, the 3rd microampere meter the 33, the 4th microampere meter 34 4 protrudes from the second leading flank 102 of test device；First leading flank 101 of test device and the second leading flank 102 of test device are coupled together by the first upper surface 103 of test device；What one end of the first drainage thread connected the first microampere meter 31 goes out table end, the other end of the first drainage thread connects the end of incoming cables of the first overcurrent release 51, first drainage thread is through in the first insulated sleeve 41, what one end of the second drainage thread connected the second microampere meter 32 goes out table end, the other end of the second drainage thread connects the end of incoming cables of the second overcurrent release 52, second drainage thread is through in the second insulated sleeve 42, what one end of the 3rd drainage thread connected the 3rd microampere meter 33 goes out table end, the other end of the 3rd drainage thread connects the end of incoming cables of the 3rd overcurrent release 53, 3rd drainage thread is through in the 3rd insulated sleeve 43, what one end of the 4th drainage thread connected the 4th microampere meter 34 goes out table end, the other end of the 4th drainage thread connects the end of incoming cables of the 4th overcurrent release 54, 4th drainage thread is through in the 4th insulated sleeve 44；First overcurrent release the 51, second overcurrent release the 52, the 3rd overcurrent release the 53, the 4th overcurrent release 54 is all fixed on insulating bar 6, and insulating bar 6 is arranged on the inside of test device case；First cross stream lead-out wire 71, second cross stream lead-out wire the 72, the 3rd cross stream lead-out wire 73 and the 4th cross stream lead-out wire 74 extend into open containers 9 internal but bottom connection with open containers 9 touch.

In this embodiment, by the clip being fixed on insulating bar, by the first insulant 81, second insulant 82, 3rd insulant 83 is clamped, 4th insulant 84 is clamped, make first to cross stream lead-out wire 71 be placed on the hollow space of the first insulant and do not contact with the first insulant, make second to cross stream lead-out wire 72 be placed on the hollow space of the second insulant and do not contact with the second insulant, make the 3rd to cross stream lead-out wire 73 be placed on the hollow space of the 3rd insulant and do not contact with the 3rd insulant, make the 4th to cross stream lead-out wire 74 be placed on the hollow space of the 4th insulant and do not contact with the 4th insulant；First/second/the 3rd/the 4th insulant does not contacts with the inwall of open containers, during test, open containers built with water or little steel ball, open containers material be preferably aluminum or the metal such as steel or ferrum, it is simple to ground connection；During test, if having certain insulant to puncture or exceed the electric current setting restriction, this test product will automatically disengage test, and not affect other test product normal assays；In this embodiment, the electromagnetic interference outside effect eliminating of insulated sleeve, reduces the environment impact on test Leakage Current, can test four or two set insulants in this embodiment simultaneously.

Embodiment 5

Asking for an interview Fig. 6, and with reference to Fig. 4 and Fig. 5, a kind of test device for insulating glove or insulating boot, by test device case, open containers 9 and be predominantly located in the test component within test device case and constitute；Open containers is arranged on bottom or the bottom part down of test device case；It is characterized in that, described test component is by high-voltage connection 1, first high-pressure connection line 21, second high-pressure connection line 22, 3rd high-pressure connection line 23, 4th high-pressure connection line 24, first microampere meter 31, second microampere meter 32, 3rd microampere meter 33, 4th microampere meter 34, 5th microampere meter 35, 6th microampere meter 36, 7th microampere meter 37, 8th microampere meter 38, first insulated sleeve 41, second insulated sleeve 42, 3rd insulated sleeve 43, 4th insulated sleeve 44, first overcurrent release 51, second overcurrent release 52, 3rd overcurrent release 53, 4th overcurrent release 54, insulating bar 6, first crosses stream lead-out wire 71, second crosses stream lead-out wire 72, 3rd crosses stream lead-out wire 73, 4th crosses stream lead-out wire 74, first insulant 81 is constituted；One end of first high-pressure connection line the 21, second high-pressure connection line the 22, the 3rd high-pressure connection line 23 and the 4th high-pressure connection line 24 4 is attempted by high-voltage connection 1, high-voltage connection is connected to one end of high-voltage connection terminal 11, and the other end of high-voltage connection terminal 11 protrudes from the second upper surface 104 of test device；What the other end of the first high-pressure connection line 21 connected the first microampere meter 31 enters table end, what the other end of the second high-pressure connection line 22 connected the second microampere meter 32 enters table end, what the other end of the 3rd high-pressure connection line 23 connected the 3rd microampere meter 33 enters table end, and what the other end of the 4th high-pressure connection line 24 connected the 4th microampere meter 34 enters table end；First microampere meter the 31, second microampere meter the 32, the 3rd microampere meter the 33, the 4th microampere meter 34 4 is arranged on inside test device case, the surface of first microampere meter the 31, second microampere meter the 32, the 3rd microampere meter the 33, the 4th microampere meter 34 4 protrudes from the second leading flank 102 of test device, and the surface of the 5th microampere meter the 35, the 6th microampere meter the 36, the 7th microampere meter the 37, the 8th microampere meter 38 4 protrudes from the first leading flank 101 of test device；First leading flank 101 of test device and the second leading flank 102 of test device are coupled together by the first upper surface 103 of test device；What one end of the first drainage thread connected the first microampere meter 31 goes out table end, the other end of the first drainage thread connects the end of incoming cables of the first overcurrent release 51, first drainage thread is through in the first insulated sleeve 41, what one end of the second drainage thread connected the second microampere meter 32 goes out table end, the other end of the second drainage thread connects the end of incoming cables of the second overcurrent release 52, second drainage thread is through in the second insulated sleeve 42, what one end of the 3rd drainage thread connected the 3rd microampere meter 33 goes out table end, the other end of the 3rd drainage thread connects the end of incoming cables of the 3rd overcurrent release 53, 3rd drainage thread is through in the 3rd insulated sleeve 43, what one end of the 4th drainage thread connected the 4th microampere meter 34 goes out table end, the other end of the 4th drainage thread connects the end of incoming cables of the 4th overcurrent release 54, 4th drainage thread is through in the 4th insulated sleeve 44；First overcurrent release the 51, second overcurrent release the 52, the 3rd overcurrent release the 53, the 4th overcurrent release 54 is all fixed on insulating bar 6, and insulating bar 6 is arranged on the inside of test device case；First cross stream lead-out wire 71, second cross stream lead-out wire the 72, the 3rd cross stream lead-out wire 73 and the 4th cross stream lead-out wire 74 extend into open containers 9 internal but bottom connection with open containers 9 touch.

Also having and the first high-pressure connection line, the first microampere meter, the first drainage thread, the first insulated sleeve, the first overcurrent release, the first parts that stream lead-out wire is similar excessively in this embodiment, the 5th microampere meter to the 8th microampere meter is made to may be installed at the first upper surface 103 of test device, owing to its circuit is simpler, therefore the most additionally map, place technical field personnel can implement according to pattern after having seen Fig. 4,5,6 completely.

In this embodiment, by the clip being fixed on insulating bar, by the first insulant 81, second insulant 82, 3rd insulant 83 is clamped, 4th insulant 84 is clamped, make first to cross stream lead-out wire 71 be placed on the hollow space of the first insulant and do not contact with the first insulant, make second to cross stream lead-out wire 72 be placed on the hollow space of the second insulant and do not contact with the second insulant, make the 3rd to cross stream lead-out wire 73 be placed on the hollow space of the 3rd insulant and do not contact with the 3rd insulant, make the 4th to cross stream lead-out wire 74 be placed on the hollow space of the 4th insulant and do not contact with the 4th insulant；First/second/the 3rd/the 4th insulant does not contacts with the inwall of open containers, during test, open containers built with water or little steel ball, open containers material be preferably aluminum or the metal such as steel or ferrum, it is simple to ground connection；During test, if having certain insulant to puncture or exceed the electric current setting restriction, this test product will automatically disengage test, and not affect other test product normal assays；In this embodiment, the electromagnetic interference outside effect eliminating of insulated sleeve, reduces the environment impact on test Leakage Current.Other insulant and first to fourth has similar structure, can test fourth officer insulant in this embodiment simultaneously.

A kind of test device for insulating glove or insulating boot described in above-mentioned embodiment, it is characterised in that described first insulant, the second insulant, the 3rd insulant, the 4th insulant and other insulant can be all insulating glove or insulating boot.

A kind of test device for insulating glove or insulating boot described in any of the above-described embodiment, it is characterised in that the bed-plate dimension of described test device case is (100 ± 2) cm × (100 ± 2) cm.

A kind of test device for insulating glove or insulating boot described in any of the above-described embodiment, it is characterised in that the length, width and height size of described open containers: (90 ± 2) cm × (40 ± 2) cm × (40 ± 2) cm.

A kind of test device for insulating glove or insulating boot described in above-mentioned embodiment 4 and 5, it is characterised in that front-seat overcurrent release is 15cm with the distance of microampere meter, heel row 35cm.

A kind of test device for insulating glove or insulating boot described in above-mentioned embodiment 2-5, it is characterised in that described overcurrent release spacing (20 ± 2) cm.

In the figure of above-mentioned embodiment, dotted line represents the insulated conductor being connected on clip, and clip jaws is clipped on insulating bar.

Microampere meter described in any of the above-described embodiment, the maximum range of any one is 50mA.

Insulated sleeve described in any of the above-described embodiment, it can be following structure: have three layers, and intermediate layer is the screen layer of metal mesh shaped structure or other structure, and both sides are non-conductive layer.

The present invention mainly has the advantage that equipped with microampere meter, can directly observe the Leakage Current value of insulating glove or insulating boot, and test is convenient；It is mounted with overcurrent release, when any one road punctures or exceedes setting value (boots are less than 10mA, and glove are less than 9mA), and this road test product will automatically disengage test, and not affect other test product normal assays, improve bulk testing speed；Bottom two open containers can pull out, it is simple to test fashionable dress water or test steels pearl, and available aluminium etc. is the lightest, and can be as earthing pole；Overcurrent release is connected high-voltage line with microampere meter and entangles with insulation tube, reduces environmental disturbances, improves the accuracy of test；Between insulation between housing upper and base plate detachably, convenient transportation；Overcurrent release is other installs clip, facilitates insulating glove etc. to fix, can improve the accuracy of test.

The present invention is not limited to above-mentioned preferred forms, it will be appreciated that the design of the present invention can be implemented to use by other various forms, and they also fall within protection scope of the present invention.

Claims (10)

1. for insulating glove or a test device for insulating boot, by test device case, open containers and be predominantly located in the test component within test device case and constitute；Open containers is arranged on bottom or the bottom part down of test device case；It is characterized in that, described test component is made up of high-voltage connection, the first high-pressure connection line, the first microampere meter, the first insulated sleeve, the first overcurrent release, insulating bar, the first stream lead-out wire, the first insulant excessively；One end of first high-pressure connection line is attempted by high-voltage connection, and high-voltage connection is connected to one end of high-voltage connection terminal, and the other end of high-voltage connection terminal protrudes from the second upper surface of test device；What the other end of the first high-pressure connection line connected the first microampere meter enters table end；First microampere meter is arranged on inside test device case, and the surface of the first microampere meter protrudes from the second leading flank of test device；First leading flank of test device and the second leading flank of test device are coupled together by the first upper surface of test device；One end of first drainage thread connect the first microampere meter go out table end, the other end of the first drainage thread connects the end of incoming cables of the first overcurrent release, the first drainage thread is through in the first insulated sleeve；First overcurrent release is fixed on insulating bar, and insulating bar is arranged on the inside of test device case；First crosses stream lead-out wire extend into open containers inside but tactile with the bottom connection of open containers；Described first insulated sleeve is that non-conductive layer, middle shield and outer layer non-conductive layer are constituted by internal layer.

2. for insulating glove or a test device for insulating boot, by test device case, open containers and be predominantly located in the test component within test device case and constitute；Open containers is arranged on bottom or the bottom part down of test device case；It is characterized in that, described test component is made up of high-voltage connection, the first high-pressure connection line, the second high-pressure connection line, the first microampere meter, the second microampere meter, the first insulated sleeve, the second insulated sleeve, the first overcurrent release, the second overcurrent release, insulating bar, the first stream lead-out wire, the second stream lead-out wire, the first insulant excessively excessively；First high-pressure connection line, one end of both the second high-pressure connection lines are attempted by high-voltage connection, and high-voltage connection is connected to one end of high-voltage connection terminal, and the other end of high-voltage connection terminal protrudes from the second upper surface of test device；What the other end of the first high-pressure connection line connected the first microampere meter enters table end, and what the other end of the second high-pressure connection line connected the second microampere meter enters table end；First microampere meter, both the second microampere meters are arranged on inside test device case, and the first microampere meter, the surface of both the second microampere meters protrude from the second leading flank of test device；First leading flank of test device and the second leading flank of test device are coupled together by the first upper surface of test device；One end of first drainage thread connect the first microampere meter go out table end, the other end of the first drainage thread connects the end of incoming cables of the first overcurrent release, the first drainage thread is through in the first insulated sleeve, one end of the second drainage thread connect the second microampere meter go out table end, the other end of the second drainage thread connects the end of incoming cables of the second overcurrent release, the second drainage thread is through in the second insulated sleeve；First overcurrent release, the second overcurrent release are all fixed on insulating bar, and insulating bar is arranged on the inside of test device case；First cross stream lead-out wire, second cross stream lead-out wire all extend into open containers internal but bottom connection with open containers touch；First and second insulated sleeve described is all that non-conductive layer, middle shield and outer layer non-conductive layer are constituted by internal layer.

3. for insulating glove or a test device for insulating boot, by test device case, open containers and be predominantly located in the test component within test device case and constitute；Open containers is arranged on bottom or the bottom part down of test device case；It is characterized in that, described test component is made up of high-voltage connection, the first high-pressure connection line, the second high-pressure connection line, the 3rd high-pressure connection line, the first microampere meter, the second microampere meter, the 3rd microampere meter, the first insulated sleeve, the second insulated sleeve, the 3rd insulated sleeve, the first overcurrent release, the second overcurrent release, the 3rd overcurrent release, insulating bar, the first stream lead-out wire, the second stream lead-out wire, the 3rd stream lead-out wire, the first insulant excessively excessively excessively；First high-pressure connection line, the second high-pressure connection line, one end of the 3rd high-pressure connection line three are attempted by high-voltage connection, and high-voltage connection is connected to one end of high-voltage connection terminal, and the other end of high-voltage connection terminal protrudes from the second upper surface of test device；What the other end of the first high-pressure connection line connected the first microampere meter enters table end, and what the other end of the second high-pressure connection line connected the second microampere meter enters table end, and what the other end of the 3rd high-pressure connection line connected the 3rd microampere meter enters table end；First microampere meter, the second microampere meter, the 3rd microampere meter three are arranged on inside test device case, and the first microampere meter, the second microampere meter, the surface of the 3rd microampere meter three protrude from the second leading flank testing device；First leading flank of test device and the second leading flank of test device are coupled together by the first upper surface of test device；One end of first drainage thread connect the first microampere meter go out table end, the other end of the first drainage thread connects the end of incoming cables of the first overcurrent release, the first drainage thread is through in the first insulated sleeve, one end of second drainage thread connect the second microampere meter go out table end, the other end of the second drainage thread connects the end of incoming cables of the second overcurrent release, the second drainage thread is through in the second insulated sleeve, one end of the 3rd drainage thread connect the 3rd microampere meter go out table end, the other end of the 3rd drainage thread connects the end of incoming cables of the 3rd overcurrent release, the 3rd drainage thread is through in the 3rd insulated sleeve；First overcurrent release, the second overcurrent release, the 3rd overcurrent release are all fixed on insulating bar, and insulating bar is arranged on the inside of test device case；First cross stream lead-out wire, second cross stream lead-out wire, the 3rd cross stream lead-out wire all extend into open containers internal but bottom connection with open containers touch；Described first, second and third insulated sleeve is all that non-conductive layer, middle shield and outer layer non-conductive layer are constituted by internal layer.

4. for insulating glove or a test device for insulating boot, by test device case, open containers and be predominantly located in the test component within test device case and constitute；Open containers is arranged on bottom or the bottom part down of test device case；It is characterized in that, described test component is by high-voltage connection, first high-pressure connection line, second high-pressure connection line, 3rd high-pressure connection line, 4th high-pressure connection line, first microampere meter, second microampere meter, 3rd microampere meter, 4th microampere meter, first insulated sleeve, second insulated sleeve, 3rd insulated sleeve, 4th insulated sleeve, first overcurrent release, second overcurrent release, 3rd overcurrent release, 4th overcurrent release, insulating bar, first crosses stream lead-out wire, second crosses stream lead-out wire, 3rd crosses stream lead-out wire, 4th crosses stream lead-out wire, first insulant is constituted；One end of first high-pressure connection line, the second high-pressure connection line, the 3rd high-pressure connection line and the 4th high-pressure connection line is attempted by high-voltage connection, high-voltage connection is connected to one end of high-voltage connection terminal, and the other end of high-voltage connection terminal protrudes from the second upper surface of test device；What the other end of the first high-pressure connection line connected the first microampere meter enters table end, what the other end of the second high-pressure connection line connected the second microampere meter enters table end, what the other end of the 3rd high-pressure connection line connected the 3rd microampere meter enters table end, and what the other end of the 4th high-pressure connection line connected the 4th microampere meter enters table end；First microampere meter, the second microampere meter, the 3rd microampere meter, the 4th microampere meter are arranged on inside test device case, and the first microampere meter, the second microampere meter, the 3rd microampere meter, the surface of the 4th microampere meter protrude from the second leading flank testing device；First leading flank of test device and the second leading flank of test device are coupled together by the first upper surface of test device；What one end of the first drainage thread connected the first microampere meter goes out table end, the other end of the first drainage thread connects the end of incoming cables of the first overcurrent release, first drainage thread is through in the first insulated sleeve, what one end of the second drainage thread connected the second microampere meter goes out table end, the other end of the second drainage thread connects the end of incoming cables of the second overcurrent release, second drainage thread is through in the second insulated sleeve, what one end of the 3rd drainage thread connected the 3rd microampere meter goes out table end, the other end of the 3rd drainage thread connects the end of incoming cables of the 3rd overcurrent release, 3rd drainage thread is through in the 3rd insulated sleeve, what one end of the 4th drainage thread connected the 4th microampere meter goes out table end, the other end of the 4th drainage thread connects the end of incoming cables of the 4th overcurrent release, 4th drainage thread is through in the 4th insulated sleeve；First overcurrent release, the second overcurrent release, the 3rd overcurrent release, the 4th overcurrent release are all fixed on insulating bar, and insulating bar is arranged on the inside of test device case；First cross stream lead-out wire, second cross stream lead-out wire, the 3rd cross stream lead-out wire and the 4th cross stream lead-out wire extend into open containers internal but bottom connection with open containers touch；Described first, second, third and the 4th insulated sleeve be all that non-conductive layer, middle shield and outer layer non-conductive layer are constituted by internal layer.

5. for insulating glove or a test device for insulating boot, by test device case, open containers and be predominantly located in the test component within test device case and constitute；Open containers is arranged on bottom or the bottom part down of test device case；It is characterized in that, described test component is by high-voltage connection, first high-pressure connection line, second high-pressure connection line, 3rd high-pressure connection line, 4th high-pressure connection line, first microampere meter, second microampere meter, 3rd microampere meter, 4th microampere meter, 5th microampere meter, 6th microampere meter, 7th microampere meter, 8th microampere meter, first insulated sleeve, second insulated sleeve, 3rd insulated sleeve, 4th insulated sleeve, first overcurrent release, second overcurrent release, 3rd overcurrent release, 4th overcurrent release, insulating bar, first crosses stream lead-out wire, second crosses stream lead-out wire, 3rd crosses stream lead-out wire, 4th crosses stream lead-out wire, first insulant is constituted；One end of first high-pressure connection line, the second high-pressure connection line, the 3rd high-pressure connection line and the 4th high-pressure connection line is attempted by high-voltage connection, high-voltage connection is connected to one end of high-voltage connection terminal, and the other end of high-voltage connection terminal protrudes from the second upper surface of test device；What the other end of the first high-pressure connection line connected the first microampere meter enters table end, what the other end of the second high-pressure connection line connected the second microampere meter enters table end, what the other end of the 3rd high-pressure connection line connected the 3rd microampere meter enters table end, and what the other end of the 4th high-pressure connection line connected the 4th microampere meter enters table end；First microampere meter, the second microampere meter, the 3rd microampere meter, the 4th microampere meter are arranged on inside test device case, first microampere meter, the second microampere meter, the 3rd microampere meter, the surface of the 4th microampere meter protrude from the second leading flank testing device, and the 5th microampere meter, the 6th microampere meter, the 7th microampere meter, the surface of the 8th microampere meter protrude from the first leading flank testing device；First leading flank of test device and the second leading flank of test device are coupled together by the first upper surface of test device；What one end of the first drainage thread connected the first microampere meter goes out table end, the other end of the first drainage thread connects the end of incoming cables of the first overcurrent release, first drainage thread is through in the first insulated sleeve, what one end of the second drainage thread connected the second microampere meter goes out table end, the other end of the second drainage thread connects the end of incoming cables of the second overcurrent release, second drainage thread is through in the second insulated sleeve, what one end of the 3rd drainage thread connected the 3rd microampere meter goes out table end, the other end of the 3rd drainage thread connects the end of incoming cables of the 3rd overcurrent release, 3rd drainage thread is through in the 3rd insulated sleeve, what one end of the 4th drainage thread connected the 4th microampere meter goes out table end, the other end of the 4th drainage thread connects the end of incoming cables of the 4th overcurrent release, 4th drainage thread is through in the 4th insulated sleeve；First overcurrent release, the second overcurrent release, the 3rd overcurrent release, the 4th overcurrent release are all fixed on insulating bar, and insulating bar is arranged on the inside of test device case；First cross stream lead-out wire, second cross stream lead-out wire, the 3rd cross stream lead-out wire and the 4th cross stream lead-out wire extend into open containers internal but bottom connection with open containers touch；Described first, second, third and the 4th insulated sleeve be all that non-conductive layer, middle shield and outer layer non-conductive layer are constituted by internal layer.

6. for insulating glove or a test device for insulating boot, by test device case, open containers and be predominantly located in the test component within test device case and constitute；Open containers is arranged on bottom or the bottom part down of test device case；It is characterized in that, described test component is made up of high-voltage connection, at least high-pressure connection line, at least one microampere meter, at least one insulated sleeve, at least one overcurrent release, insulating bar, at least stream lead-out wire, at least one insulant excessively；One end of high-pressure connection line is attempted by high-voltage connection, and high-voltage connection is connected to one end of high-voltage connection terminal, and the other end of high-voltage connection terminal protrudes from the second upper surface of test device；What the other end of high-pressure connection line connected microampere meter enters table end；Microampere meter is arranged on inside test device case, and the surface of microampere meter protrudes from the second leading flank of test device；First leading flank of test device and the second leading flank of test device are coupled together by the first upper surface of test device；One end of drainage thread connect microampere meter go out table end, the other end of drainage thread connects the end of incoming cables of overcurrent release, drainage thread is through in insulated sleeve；Overcurrent release is fixed on insulating bar, and insulating bar is arranged on the inside of test device case；Cross stream lead-out wire and extend into open containers inside but tactile with the bottom connection of open containers；Described insulated sleeve is that non-conductive layer, middle shield and outer layer non-conductive layer are constituted by internal layer.

7. according to a kind of test device for insulating glove or insulating boot described in claim 1-6 any one, it is characterised in that described first insulant is insulating glove or insulating boot.

8. according to a kind of test device for insulating glove or insulating boot described in claim 1-6 any one, it is characterised in that the bed-plate dimension of described test device case is (100 ± 2) cm × (100 ± 2) cm.

9. according to a kind of test device for insulating glove or insulating boot described in claim 1-6 any one, it is characterised in that the length, width and height size of described open containers: (90 ± 2) cm × (40 ± 2) cm × (40 ± 2) cm.

10. according to a kind of test device for insulating glove or insulating boot described in claim 1-6 any one, it is characterised in that described microampere meter, any one maximum range be 50mA.