CN210572401U - High-voltage line detection device - Google Patents

Abstract

The utility model relates to the technical field of high-voltage wire detection, and discloses a high-voltage wire detection device, which comprises a shell and a clamping structure, wherein the shell is internally provided with a control part; the clamping structure is provided with a temperature detection surface, the temperature detection surface is electrically connected with the control element, and a magnetic coil body is arranged in the shell; when the high-voltage line runs through the casing, the magnetosphere body is to surround along the high-voltage line periphery and closes the arrangement, and the temperature detects the surface and closes the high-voltage line surface. When the temperature monitoring device works, the temperature detection surface of the clamping structure is abutted against the high-voltage wire, the temperature information of the high-voltage wire is transmitted to the control part, the temperature of the high-voltage wire is monitored, and the magnetic coil body is induced by the magnetic coil to monitor the current change of the high-voltage wire; like this, when the temperature or the current value of high-voltage line and default deviation appear, the control in time receives the signal, realizes going on the quick investigation to the trouble of high-voltage line, greatly reduces the input of manpower, material resources, simultaneously, realizes managing each high-voltage line.

Description

High-voltage line detection device

Technical Field

The patent of the utility model relates to a technical field that high-voltage line detected particularly, relates to high-voltage line detection device.

Background

With the development and progress of society, electronic products and electric equipment influence the life of people; the power transmission plays an important role, and the power is continuously transmitted to high-rise buildings, factories, houses and the like through high-voltage wires, so that all places needing the power can be realized.

Because the power line is erected in a place far away from people in many cases, the working state of the high-voltage line is difficult to know in real time, and the high-voltage line is lack of management.

In the prior art, when a high-voltage line has a problem, a large amount of manpower is required to be used for checking the whole area, and time, labor and materials are consumed; there is a lack of real-time monitoring of the operating state of high voltage lines.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-voltage line detection device aims at solving prior art, the operating condition's of unable real time monitoring high-voltage line problem.

The utility model is realized in such a way that the high-voltage wire detection device comprises a shell with a control element inside and a clamping structure, wherein the clamping structure is arranged inside the shell; the clamping structure is provided with a temperature detection surface, the temperature detection connection is electrically connected with the control piece, and a magnetic coil body is arranged inside the shell; when the high-voltage line runs through when the casing, the magnetic ring body is followed the high-voltage line periphery is to encircle to close and arranges, just the temperature detects the face laminating the high-voltage line surface.

Furthermore, the clamping structure comprises a first claw body and a second claw body which is arranged opposite to the first claw body, one end of the first claw body is hinged, the other end of the first claw body is movably arranged, one end of the second claw body is hinged, and the other end of the second claw body is movably arranged; when one end of the first claw body is stressed, the other end of the first claw body swings towards the direction of the second claw body, when one end of the second claw body is stressed, the other end of the second claw body swings towards the direction of the first claw body, and when the first claw body and the second claw body are stressed, the high-voltage wire is clamped.

Further, the clamping structure comprises a cover plate, the cover plate is positioned above the first claw body and the second claw body, the cover plate is provided with a downward lower end face, and two ends of the lower end face of the cover plate form fixing parts respectively; one end of the first claw body extends to form a first claw plate along the direction away from the second claw body; one end of the second claw body extends to form a second claw plate along the direction departing from the first claw body; the fixing parts are respectively arranged opposite to the first claw plate and the second claw plate up and down, and when the first claw body is stressed, the fixing parts swing relative to the cover plate.

Furthermore, the high-voltage wire detection device comprises a screwing rod, a through hole is formed in the first claw plate, and the screwing rod penetrates through the through hole and the cover plate respectively; and the screwing rod is screwed to exert acting force on the first claw plate and the second claw plate, so that the first claw body and the second claw body swing relatively.

Further, the screwing rod comprises a large-diameter section and a small-diameter section, and the large-diameter section and the small-diameter section are in butt joint arrangement; when the small-diameter section penetrates through the penetrating hole, the first claw plate and the small-diameter section are movably arranged, and when the large-diameter section penetrates through the penetrating hole, the first claw plate and the large-diameter section are relatively fixedly arranged; and switching of the large-diameter section and the small-diameter section in the penetrating hole is realized by screwing the screwing rod.

Further, the first claw body and the second claw body form the temperature detection surface, respectively.

Furthermore, high-voltage line detection device includes a plurality of buffer spring, buffer spring's one end with the apron is fixed arrangement, buffer spring's the other end extends downwards and is fixed arrangement.

Further, the first claw body comprises a plurality of first claw teeth which are arranged, the second claw body comprises a plurality of second claw teeth which are arranged, and the first claw teeth and the second claw teeth are sequentially arranged in a staggered mode.

Further, the magnetic ring body is arranged in a circular ring shape; the magnetic ring is characterized in that a magnetic ring cover is sleeved outside the magnetic ring body, a middle hole is formed in the middle of the magnetic ring cover, and a high-voltage wire penetrates through the middle hole.

Furthermore, the cover plate, the magnetic ring body and the control piece are sequentially arranged from top to bottom.

Compared with the prior art, the high-voltage wire detection device provided by the utility model realizes the relative fixation of the high-voltage wire and the shell through the clamping structure, thereby realizing the installation of the high-voltage wire detection device; when the high-voltage wire detection device works, the temperature detection surface of the clamping structure is abutted against the high-voltage wire, so that the temperature information of the high-voltage wire is transmitted to the control part, the temperature of the high-voltage wire is monitored, and the magnetic coil body is induced by the magnetic coil to monitor the current change of the high-voltage wire; like this, carry out fault monitoring to the high-voltage line, when the temperature or the current value of high-voltage line and default deviation appear, the control in time receives the signal, realizes going on troubleshooting fast to the trouble of high-voltage line, greatly reduces the input of manpower, material resources, simultaneously, realizes managing each high-voltage line.

Drawings

Fig. 1 is an exploded schematic view of a high-voltage line detection device provided by the present invention;

fig. 2 is a schematic perspective view of a clamping structure of the high-voltage wire detection device provided by the present invention;

fig. 3 is a schematic perspective view of a clamping structure of the high-voltage wire detection device according to the present invention in a clamping state;

fig. 4 is a schematic perspective view of the clamping structure of the high-voltage wire detection device according to the present invention in a relaxed state;

fig. 5 is a schematic perspective view of the first claw body and the second claw body of the high-voltage wire detection device provided by the present invention;

fig. 6 is a schematic perspective view of a magnetic ring body of the high-voltage line detection device provided by the present invention;

fig. 7 is a schematic perspective view of a screw rod of the high-voltage wire detection device according to the present invention;

fig. 8 is a schematic perspective view of the high-voltage line detection device provided by the present invention;

fig. 9 is a schematic circuit connection diagram of the high-voltage line detection device provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

Referring to fig. 1-9, the preferred embodiment of the present invention is shown.

The utility model provides a high-voltage wire detection device, which comprises a shell 100 and a clamping structure 200, wherein a control part is arranged in the shell 100, and the clamping structure 200 is arranged in the shell 100; the clamping structure 200 has a temperature detection surface, the temperature detection surface is electrically connected with the control element, and a magnetic coil body 300 is arranged in the shell 100; when the high voltage line 400 penetrates the housing 100, the magnetic coil body 300 is disposed around the periphery of the high voltage line 400, and the temperature detection surface is attached to the outer surface of the high voltage line 400.

The high-voltage wire 400 detection device realizes the relative fixation of the high-voltage wire 400 and the shell 100 through the clamping structure 200, thereby realizing the installation of the high-voltage wire 400 detection device; when the high-voltage wire 400 detection device works, the temperature detection surface of the clamping structure 200 is abutted against the high-voltage wire 400, so that the temperature information of the high-voltage wire 400 is transmitted to the control part, the temperature monitoring of the high-voltage wire 400 is realized, and the magnetic coil body 300 realizes the monitoring of the current change of the high-voltage wire 400 through the induction of the magnetic coil; like this, carry out fault monitoring to high-voltage line 400, when the temperature or the current value of high-voltage line 400 and default deviation appear, the control piece in time receives the signal, realizes carrying out quick investigation to high-voltage line 400's trouble, greatly reduces the input of manpower, material resources, simultaneously, realizes managing each high-voltage line 400.

In this embodiment, the clamping structure 200 includes a first claw body 210 and a second claw body 220, the second claw body 220 is arranged opposite to the first claw body 210, one end of the first claw body 210 is hinged, the other end of the first claw body 210 is movably arranged, one end of the second claw body 220 is hinged, and the other end of the second claw body 220 is movably arranged; when one end of the first claw body 210 is stressed, the other end of the first claw body 210 swings towards the second claw body 220, when one end of the second claw body 220 is stressed, the other end of the second claw body 220 swings towards the first claw body 210, and when the first claw body 210 and the second claw body 220 are stressed, the high-voltage wire 400 is clamped.

Thus, through the cooperation of the first claw body 210 and the second claw body 220, the high-voltage wire 400 is clamped and fixed, and the subsequent monitoring is facilitated; meanwhile, the detection device is convenient to install.

The clamping structure 200 includes a cover plate 230, the cover plate 230 is located above the first claw body 210 and the second claw body 220, the cover plate 230 has a downward lower end surface, and two ends of the lower end surface of the cover plate 230 form fixing portions 231, respectively; one end of the first claw body 210 extends to form a first claw plate 211 along the direction away from the second claw body 220; one end of the second claw body 220 extends to form a second claw plate 221 in the direction away from the first claw body 210; the fixing portion 231 is respectively arranged opposite to the first claw plate 211 and the second claw plate 221 up and down, and swings relative to the cover plate 230 when the first claw body 210 is stressed; thereby achieving the clamping fixation of the high voltage wire 400.

The fixing portion 231 is disposed obliquely upward, and the first claw plate 211 and the second claw plate 221 are disposed obliquely, so that the cover plate 230 applies an acting force to the first claw body 210 and the second claw body 220, the first claw body 210 and the second claw body 220 are convenient to swing, and the high-voltage wire 400 is convenient to be clamped or released.

The high-voltage line 400 detection device comprises a screw rod 240, a through hole 212 is formed on the first claw plate 211, and the screw rod 240 respectively penetrates through the through hole 212 and the cover plate 230; by screwing the screw rod 240, acting force is applied to the first claw plate 211 and the second claw plate 221, and relative swing of the first claw body 210 and the second claw body 220 is realized; when the high-voltage wire 400 is clamped, the first claw plate 211 is attached to the fixing portion 231 by screwing the screw rod 240, so that an acting force is applied to the first claw plate 211, the cover plate 230 is applied to the second claw plate 221, so that the first claw body 210 and the second claw body 220 swing relatively to each other, and the high-voltage wire 400 is clamped; the first claw body 210 and the second claw body 220 withdraw the clamping force of the high-voltage wire 400 through the unscrewing of the screwing rod 240, so that the withdrawal of the device is realized.

The temperature detection surface of the clamping structure 200 may be a temperature sensor, and the first jaw body 210 and the second jaw body 220 are respectively provided with a temperature sensor, so as to detect the operating temperature of the high voltage wire 400.

The temperature sensor and the control element are communicated with each other through a wire, the wires are arranged along the inner parts of the first claw body 210 and the second claw body 220 in a penetrating manner, or the shell 100 is provided with a plurality of wire channels, the wires are arranged through the wire channels, and the circuit is communicated.

Temperature sensors may be disposed on the first and second prongs 213 and 222 to facilitate temperature monitoring and sensing with the high voltage wire 400.

The screw rod 240 comprises a large-diameter section 242 and a small-diameter section 241, wherein the large-diameter section 242 and the small-diameter section 241 are in butt joint arrangement; when the small-diameter section 241 is penetrated by the penetrating hole 212, the first claw plate 211 and the small-diameter section 241 are movably arranged, and when the large-diameter section 242 is penetrated by the penetrating hole 212, the first claw plate 211 and the large-diameter section 242 are relatively fixedly arranged; by screwing the screw rod 240, the large-diameter section 242 and the small-diameter section 241 are switched to penetrate the through hole 212.

Thus, by screwing the screw rod 240, the screw rod 240 is displaced, so that the large-diameter section 242 and the small-diameter section 241 are switched to penetrate through the through hole 212; the screwing or unscrewing of the device is realized.

The first claw body 210 and the second claw body 220 form temperature detection surfaces, respectively, so that the high-voltage wire 400 is clamped by the first claw body 210 and the second claw body 220, and temperature detection of the high-voltage wire 400 is realized.

The high-voltage wire 400 detection device comprises a plurality of buffer springs, wherein one ends of the buffer springs are fixedly arranged with the cover plate 230, and the other ends of the buffer springs extend downwards and are fixedly arranged; when the device clamps high-voltage line 400, under the effect of each buffer spring, play the cushioning effect to between apron 230 and first claw 210 and the second claw 220, will be to the interact power to improve life, in addition, under buffer spring's effect, be convenient for revolve the reseing of screw 240.

The first claw body 210 comprises a plurality of first claw teeth 213 arranged in a row, the second claw body 220 comprises a plurality of second claw teeth 222 arranged in a row, and each first claw tooth 213 and each second claw tooth 222 are sequentially arranged in a staggered manner; under the action of the cover plate 230, each first claw tooth 213 and each second claw tooth 222 synchronously swing; because each first claw tooth 213 and each second claw tooth 222 are sequentially arranged in a staggered manner, the first claw body 210 and the second claw body 220 have better matching effect, and when the high-voltage wire 400 is screwed, the clamping force applied to the whole high-voltage wire 400 is more uniform.

The magnetic ring body 300 is arranged in a circular ring shape, so that the high-voltage wire 400 can be conveniently enclosed, and the accuracy of detecting the current change of the high-voltage wire 400 by the magnetic ring body 300 is improved; the magnetic ring cover 500 is sleeved outside the magnetic ring body 300, a middle hole is formed in the middle of the magnetic ring cover 500, and the high-voltage wire 400 penetrates through the middle hole; under the action of the magnetic ring cover 500, the high-voltage wire 400 is protected.

The cover plate 230, the magnetic ring body 300 and the control piece are sequentially arranged up and down; because the detection device is arranged outdoors and the control panel is arranged at the lower part, the insolation and the rain are reduced; the control member is protected.

The magnetic field detection device comprises two groups of coil bodies 300, wherein the two groups of coil bodies 300 are arranged at intervals, a high-voltage wire 400 penetrates through the two groups of coil bodies 300 respectively, the two groups of coil bodies 300 form two magnetic fields, parameters are different, and different current detection is realized.

One end of the screw rod 240 extends to the outside of the casing 100 to form a screw portion 243, and the screw portion 243 is arranged in a flat shape for operation.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The high-voltage wire detection device is characterized by comprising a shell and a clamping structure, wherein the shell is internally provided with a control part; the clamping structure is provided with a temperature detection surface, the temperature detection connection is electrically connected with the control piece, and a magnetic coil body is arranged inside the shell; when the high-voltage line runs through when the casing, the magnetic ring body is followed the high-voltage line periphery is to encircle to close and arranges, just the temperature detects the face laminating the high-voltage line surface.

2. The high voltage wire detection device as claimed in claim 1, wherein the clamping structure comprises a first jaw body and a second jaw body disposed opposite to the first jaw body, wherein one end of the first jaw body is hinged, the other end of the first jaw body is movably disposed, one end of the second jaw body is hinged, and the other end of the second jaw body is movably disposed; when one end of the first claw body is stressed, the other end of the first claw body swings towards the direction of the second claw body, when one end of the second claw body is stressed, the other end of the second claw body swings towards the direction of the first claw body, and when the first claw body and the second claw body are stressed, the high-voltage wire is clamped.

3. The device according to claim 2, wherein the clamping structure comprises a cover plate, the cover plate is located above the first claw body and the second claw body, the cover plate has a downward lower end surface, and two ends of the lower end surface of the cover plate form fixing parts respectively; one end of the first claw body extends to form a first claw plate along the direction away from the second claw body; one end of the second claw body extends to form a second claw plate along the direction departing from the first claw body; the fixing parts are respectively arranged opposite to the first claw plate and the second claw plate up and down; when the first claw body is stressed, the first claw body swings relative to the cover plate.

4. The high voltage wire detection device as claimed in claim 3, wherein the high voltage wire detection device comprises a screw rod, the first claw plate forms a through hole, and the screw rod penetrates through the through hole and the cover plate respectively; and the screwing rod is screwed to exert acting force on the first claw plate and the second claw plate, so that the first claw body and the second claw body swing relatively.

5. The high voltage wire detection device of claim 4, wherein the turnbuckle comprises a large diameter section and a small diameter section, the large diameter section and the small diameter section being in a butt joint arrangement; when the small-diameter section penetrates through the penetrating hole, the first claw plate and the small-diameter section are movably arranged, and when the large-diameter section penetrates through the penetrating hole, the first claw plate and the large-diameter section are relatively fixedly arranged; and switching of the large-diameter section and the small-diameter section in the penetrating hole is realized by screwing the screwing rod.

6. The high voltage wire detection device according to any one of claims 2-5, wherein the first and second claw bodies form the temperature detection surface, respectively.

7. The device according to any of claims 3-5, wherein the device comprises a plurality of buffer springs, one end of each buffer spring being fixedly arranged with respect to the cover plate, and the other end of each buffer spring extending downwards and being fixedly arranged.

8. The device according to any of claims 3-5, wherein the first pawl body comprises a plurality of first pawl teeth arranged in a row, and the second pawl body comprises a plurality of second pawl teeth arranged in a row, and each of the first pawl teeth is sequentially staggered with each of the second pawl teeth.

9. The high voltage wire detection device according to any one of claims 1 to 5, wherein the coil body is arranged in a circular ring shape; the magnetic ring is characterized in that a magnetic ring cover is sleeved outside the magnetic ring body, a middle hole is formed in the middle of the magnetic ring cover, and a high-voltage wire penetrates through the middle hole.

10. The high voltage wire detection device according to any one of claims 3-5, wherein the cover plate, the coil body and the control member are sequentially arranged from top to bottom.

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