CN215678594U - High potential monitoring device and upper cover thereof - Google Patents

Abstract

The utility model discloses an upper cover of high-potential monitoring equipment, which comprises a cover body, a solar panel and a transparent cover, wherein the solar panel is placed on the outer side of the cover body, the transparent cover covers the outer side of the solar panel so that the solar panel can receive illumination, and a power supply end of the solar panel is led into the inner side of the cover body through a conductor. In the upper cover of this high potential check out test set, the integration has set up solar panel to for the equipment power supply of the inboard of lid body. And the solar panel can be effectively protected by the transparent cover. And the alternating current circuit can be powered by solar energy, so that the power supply reliability of the equipment in a low-load circuit environment is guaranteed. The utility model also discloses high potential monitoring equipment comprising the upper cover.

Description

High potential monitoring device and upper cover thereof

Technical Field

The utility model relates to the technical field of power equipment, in particular to an upper cover of high-potential monitoring equipment and the high-potential monitoring equipment comprising the upper cover.

Background

The power supply mode of the high-potential monitoring equipment is mainly CT power supply (current transformer power supply), and large primary side current is converted into small secondary side current according to the electromagnetic induction principle. The CT power supply is unreliable under the condition of low line load or unstable load. The CT power supply can be used only in an ac line, and the dc line cannot supply power through the CT.

In summary, how to effectively solve the problem of inconvenient power supply of the high-potential monitoring device is a problem that needs to be solved urgently by those skilled in the art at present.

SUMMERY OF THE UTILITY MODEL

In view of the above, a first object of the present invention is to provide an upper cover of a high-potential monitoring device, which can effectively solve the problem of inconvenient power supply of the high-potential monitoring device, and a second object of the present invention is to provide a high-potential monitoring device including the upper cover.

In order to achieve the first object, the utility model provides the following technical scheme:

the utility model provides a high potential monitoring facilities's upper cover, includes the lid body, still includes solar panel and transparent cover, place in the lid body outside solar panel, transparent cover covers the solar panel outside is so that solar panel can receive illumination, solar panel's power supply end passes through the conductor and introduces to lid body is inboard.

In the upper cover of this high potential check out test set, the integration has set up solar panel to for the equipment power supply of the inboard of lid body. And the solar panel can be effectively protected by the transparent cover. And the alternating current circuit can be powered by solar energy, so that the power supply reliability of the equipment in a low-load circuit environment is guaranteed. In conclusion, the upper cover of the high-potential monitoring equipment effectively solves the problem that the high-potential monitoring equipment is inconvenient to supply power.

Preferably, the cover body outside has the mounting groove that places solar panel, transparent cover covers the mounting groove notch setting.

Preferably, the positioning module is arranged in the mounting groove.

Preferably, the positioning module is mounted in the middle of the mounting groove, and the two solar panels are respectively mounted on two sides of the positioning module; the positioning module is a cylindrical piece, and a cylindrical positioning groove matched with the cylindrical piece is arranged in the mounting groove. .

Preferably, still include with the location wire that the orientation module bottom is connected, the tank bottom of cylinder type constant head tank has the groove of dodging of transversely extending, the location wire is followed dodge the groove and draw forth.

Preferably, the power supply wire connected with the solar panel and the positioning wire are both inserted into the inner side of the cover body from the threading through hole on one side of the mounting groove.

Preferably, a support protrusion is arranged in the middle of the mounting groove in the length direction, the cylindrical positioning groove is arranged in the middle of the support protrusion in the groove width direction of the mounting groove, and sink grooves for accommodating the power supply lead are arranged on the support protrusion on two sides of the mounting groove in the length direction; one side solar panel the power supply wire from corresponding one side sink the groove, penetrate to dodge the groove, then with the location wire collects to follow the opposite side sink the groove and wear out, then with the opposite side solar panel the power supply wire collects, move to extremely from the wire casing the threading through-hole.

Preferably, four corners of the cover body are round corners; the positioning module is connected with the cover body in a bonding mode, and the transparent cover is a colorless high-transparency toughened glass plate and is connected with the cover body in a bonding mode.

Preferably, the mounting groove is arc, solar panel and transparent cover are outer convex arc board and between parallel arrangement.

In order to achieve the second object, the utility model further provides a high-potential monitoring device, which comprises any one of the upper covers of the high-potential monitoring device, a box body and a detection device arranged in the box cavity of the box body, wherein the upper cover covers the opening of the box cavity of the box body. Since the above-mentioned upper cover has the above-mentioned technical effects, the high-potential monitoring device with the upper cover should also have corresponding technical effects.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is an exploded schematic view of an upper cover of a high-potential monitoring device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an outer top of an upper cover of a high-potential monitoring device according to an embodiment of the present invention.

The drawings are numbered as follows:

the solar energy water heater cover comprises a cover body 1, a solar panel 2, a transparent cover 3, a positioning module 4, a positioning wire 5, a power supply wire 6, a mounting groove 11, a cylindrical positioning groove 12, an avoiding groove 13, a threading through hole 14, a supporting protrusion 15, a sinking groove 16 and a wire groove 17.

Detailed Description

The embodiment of the utility model discloses an upper cover of high-potential monitoring equipment, which is used for effectively solving the problem of inconvenience in power supply of the high-potential monitoring equipment.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, fig. 1 is a schematic diagram illustrating an explosion structure of an upper cover of a high-voltage monitoring apparatus according to an embodiment of the present invention; fig. 2 is a schematic structural diagram of an outer top of an upper cover of a high-potential monitoring device according to an embodiment of the present invention.

In a specific example, the present embodiment provides an upper cover of a high potential monitoring apparatus, specifically, the upper cover includes a cover body 1, a solar panel 2 and a transparent cover 3.

Wherein the cover body 1 refers to the main component of the upper cover, that is, when only the cover body 1 exists, the function of the upper cover can still be realized, that is, the upper cover covers the box cavity opening of the box body, so as to seal the box cavity opening of the box body. Wherein the concrete structure of lid body 1 corresponds the setting according to box chamber mouth size, and the border is provided with the buckle or is provided with the bolt perforation all around at lid body 1 generally to realize through joint or bolted connection and the fixed connection between the box body. Generally, the lid body 1 may be a flat plate type, an arc plate type, or a semi-cylindrical groove type, and may be specifically configured and arranged as needed. Wherein the four corners of the cover body 1 are preferably rounded to avoid corona discharge, and other sharp corners are also preferably rounded.

Wherein the outside of the cover body 1 is provided with a mounting groove 11 for placing the solar panel 2, wherein the outside of the cover body 1 refers to the side far away from the box cavity, and the opposite side is the inside. As for the groove-type cover body 1, the mounting groove 11 may be provided outside the groove bottom of the cover body 1. The mounting groove 11 is preferably shaped to fit the solar panel 2 such that the solar panel 2 is stacked outside the cover body 1. If the cover body 1 of the semi-cylindrical groove type, an installation groove 11 which is inward convex at the groove bottom can be arranged at the outer side of the cover body 1, and the groove walls at two ends of the installation groove 11 are correspondingly arc-shaped, so that the installation groove 11 is matched with an arc-shaped panel piece which is a cylindrical side surface type.

Wherein transparent cover 3 covers at the 11 notches of mounting groove to seal mounting groove 11, can carry out waterproof, dustproof protection to the equipment in the mounting groove 11. And the transparent cover 3 should be transparent so that the sunlight can pass through the transparent cover 3, and then the solar panel 2 in the installation groove 11 can receive the sunlight to convert the sunlight into electric energy. That is, when installing, it should be ensured that the illumination surface of the solar panel 2 faces outward, and specifically, the surfaces of the solar panel 2 opposite to the transparent cover 3 may be all illumination surfaces. The transparent cover 3 may be a transparent resin plate or a transparent glass plate, and is preferably a colorless high-transparency tempered glass plate.

The power supply end of the solar panel 2 is led into the inner side of the cover body 1 through a conductor, and supplies power for the monitoring equipment which is positioned on the inner side of the cover body 1 and in the cavity of the box body box. The conductor may be a wire, or may be a guide post or a guide block disposed through the cover body 1. Specifically, a through hole may be formed in the bottom or wall of the limiting groove 11 to facilitate the conductor to pass through, so that the through hole may be protected from water and dust by the transparent cover 3.

Of course, the installation groove 11 may not be provided, and the solar panel 2 is placed outside the cover body 1, so that the solar panel 2 is directly stacked outside the cover body 1. And the transparent cover 3 covers in the solar panel 2 outside so that solar panel 2 can receive illumination, and transparent cover 3 border all around and lid body 1 between sealing connection this moment to above-mentioned solar panel 2 of better sealed protection. And set up mounting groove 11, can be better the above-mentioned solar panel 2 of installation. Wherein the solar panels 2 are preferably flexible solar panels.

In the upper cover of this high potential detection device, a solar panel 2 is integrally provided so as to supply power to the device inside the cover body 1. And the solar panel 2 can be effectively protected by the transparent cover 3. And the alternating current circuit can be powered by solar energy, so that the power supply reliability of the equipment in a low-load circuit environment is guaranteed. In conclusion, the upper cover of the high-potential monitoring equipment effectively solves the problem that the high-potential monitoring equipment is inconvenient to supply power.

Further, can also install the orientation module 4 that is used for fixing a position this high potential monitoring facilities position in this mounting groove 11, cover body 1 this moment and can be the metalwork, and install orientation module 4 in mounting groove 11, can effectual assurance orientation module 4's signal transmission effect, transparent cover 3 can also carry out waterproof dustproof protection to orientation module 4 simultaneously. Wherein orientation module 4 generally is GPS orientation module, for convenient fixed, generally makes orientation module 4 and cover bonding connection between the body 1, and is corresponding, can make transparent cover 3 and cover bonding connection between the body 1, specifically can make transparent cover 3 all around along with 11 notch along between bonding connection of mounting groove.

In order to make the positioning module 4 have better signal emission effect, it is preferable that the positioning module 4 is installed in the middle of the installation groove 11, and the two solar panels 2 are respectively installed at two sides of the positioning module 4, and specifically, the positioning module 4 can be located in the middle of the cover body 1 in the length direction. The positioning module 4 is exposed between the solar panels 2 on both sides to better transmit signals outwards.

For better installation of the positioning module 4, the bottom of the installation groove 11 may have a positioning groove matching with the positioning module 4 to better fix the positioning module 4. The positioning module 4 can be a cylindrical member, and the installation groove 11 has therein a cylindrical positioning groove 12 matching with the cylindrical member, wherein the depth direction of the cylindrical positioning groove 12 is the same as the depth direction of the installation groove 11, and the notches face outward. When the positioning module 4 is installed, the positioning module can be inserted into the cylindrical positioning groove 12, so that the wall and the bottom of the cylindrical positioning groove 12 are adhered to the peripheral edges and the bottom of the positioning module 4.

It is further considered that the positioning module 4 and the corresponding device in the box body need to transmit signals and power through the positioning wires 5, and the signals and power can be transmitted through the guide blocks or the guide posts. For the convenience of routing the positioning wire 5, it is preferable that the positioning wire 5 is connected to the bottom of the positioning module 4, and the bottom of the cylindrical positioning groove 12 has an avoiding groove 13 extending transversely, wherein the positioning wire 5 can be led out from the avoiding groove 13. Specifically, the conductor that links to each other with solar panel 2 power supply section is power supply wire 6, can make power supply wire 6 and location wire 5 all penetrate to the inboard of lid body 1 from the threading through-hole 14 of mounting groove 11 one side this moment.

Specifically, it is possible to provide the mounting groove 11 with a support protrusion 15 at the middle in the length direction thereof, wherein the support protrusion 15 has the above-mentioned cylindrical positioning groove 12 at the middle in the width direction of the mounting groove 11, and the support protrusion 15 has sinking grooves 16 for receiving the power supply wires 6 at both sides in the length direction of the mounting groove 11. During the specific installation, the power supply wire 6 that one side solar panel 2 links to each other penetrates to dodging the groove 13 from corresponding one side sunken groove 16, then collects with location wire 5 to wear out from the other side sunken groove 16, then collects with the power supply wire 6 of other side solar panel 2 again, in order to move towards to threading through-hole 14 from wire casing 17. After installation, one solar panel 2 covers the sink 16 on that side, while the other solar panel 2 covers the sink 16, the wire groove 17 and the threading through hole 14 on that side. Wherein the supporting protrusion 15 abuts against the inner side surface of the transparent cover 3 to support the middle of the transparent cover 3.

Specifically, it is preferable here that solar panel 2 and transparent lid 3 are outer convex arc plates and parallel arrangement therebetween, and wherein mounting groove 11 is preferably arc to adapt to solar panel 2 and transparent lid 3 structure. Wherein the solar panel 2 and the transparent cover 3 are preferably coaxially arranged and are all arc plates. Specifically, the solar panel 2 and the transparent cover 3 may be in a spherical arc shape or a cylindrical arc shape. The cambered surface solar panel 2 can adapt to all angles of sunlight, and the high-altitude operation does not need to adjust the angle of equipment, so that the operation is simple and convenient.

Based on the upper cover of the high-potential monitoring device provided in the above embodiment, the utility model further provides a high-potential monitoring device, which comprises the upper cover of any one of the high-potential monitoring devices provided in the above embodiments, a box body and a detection device arranged in a box cavity of the box body, wherein the upper cover covers an opening of the box cavity of the box body. Since the upper cover of the high-potential monitoring device in the above embodiment is adopted, please refer to the above embodiment for the beneficial effect of the high-potential monitoring device.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a high potential monitoring facilities's upper cover, includes and covers the body, its characterized in that still includes solar panel and transparent cover, cover the body outside and placed solar panel, transparent cover covers the solar panel outside is so that solar panel can receive illumination, solar panel's power supply end passes through the conductor and introduces to cover the body inboard.

2. The upper cover of high potential monitoring equipment according to claim 1, wherein the cover body has a mounting groove for placing the solar panel on the outside, and the transparent cover is arranged to cover the opening of the mounting groove.

3. The upper cover of the high potential monitoring device according to claim 2, further comprising a positioning module installed in the installation groove.

4. The upper cover of the high potential monitoring equipment according to claim 3, wherein the positioning module is installed in the middle of the installation groove, and the two solar panels are respectively installed on two sides of the positioning module; the positioning module is a cylindrical piece, and a cylindrical positioning groove matched with the cylindrical piece is arranged in the mounting groove.

5. The upper cover of the high potential monitoring device according to claim 4, further comprising a positioning wire connected to the bottom of the positioning module, wherein the bottom of the cylindrical positioning groove has a laterally extending avoidance groove, and the positioning wire is led out from the avoidance groove.

6. The upper cover of high potential monitoring equipment according to claim 5, wherein the power supply wires connected with the solar panel and the positioning wires are all threaded from the threading through hole at one side of the mounting groove to the inner side of the cover body.

7. The upper cover of the high potential monitoring device according to claim 6, wherein a supporting protrusion is provided at the middle part of the mounting groove in the length direction, the supporting protrusion is provided with the cylindrical positioning groove at the middle part of the mounting groove in the width direction, and the supporting protrusion is provided with sinking grooves for accommodating the power supply lead at two sides of the mounting groove in the length direction; one side solar panel the power supply wire from corresponding one side sink the groove, penetrate to dodge the groove, then with the location wire collects to follow the opposite side sink the groove and wear out, then with the opposite side solar panel the power supply wire collects, move to extremely from the wire casing the threading through-hole.

8. The upper cover of the high potential monitoring device according to claim 7, wherein four corners of the cover body are rounded; the positioning module is connected with the cover body in a bonding mode, and the transparent cover is a colorless high-transparency toughened glass plate and is connected with the cover body in a bonding mode.

9. The upper cover of high potential monitoring equipment according to any one of claims 2 to 8, wherein the mounting groove is arc-shaped, and the solar panel and the transparent cover are both outer arc-shaped plates and are arranged in parallel.

10. A high potential monitoring device, comprising a box body and a detection device arranged in a box cavity of the box body, characterized by comprising the upper cover as claimed in any one of claims 1 to 9, wherein the upper cover covers the opening of the box cavity of the box body.

Images