CN213934258U - Integrated microclimate monitoring device for power transmission line - Google Patents

Abstract

The utility model aims at providing an integrated meteorological data collection, control, communication, mains operated and the functional module of installation to the design is integrated packaging structure, transports simple to operate and the little meteorological monitoring device of transmission line integration that the fault rate is low of long service life. The utility model discloses a microclimate sensor, control and communication module, power module, the new forms of energy device, still including encapsulation casing and installation leveling frame, through reasonable layout design, with control and communication module and power module integration to the encapsulation casing in, with microclimate sensor integration to the encapsulation casing on, reserve power source and be connected with the new forms of energy device bottom the encapsulation casing, also integrate the encapsulation casing lateral wall with installation leveling frame, integrated meteorological data acquisition has been realized, and control, communication, the package structure as an organic whole of power supply and the functional module of installation. The utility model discloses be applied to little meteorological monitoring device's technical field.

Description

Integrated microclimate monitoring device for power transmission line

Technical Field

The utility model relates to a little meteorological monitoring device, concretely relates to little meteorological monitoring device of transmission line integration.

Background

The micro-air is measured in a magic way, and the change condition of the micro-air cannot be analyzed and monitored by a human means basically, particularly for the transmission line, the power grid transmission line often has the disasters of icing, wire breaking and tower falling in the frozen weather, and the accidents of line windage deviation (galloping) caused by the strong wind weather so as to break the wire or deform and trip components and towers. The microclimate monitoring device for the power transmission line is a multi-element microclimate monitoring device designed for monitoring local meteorological environments of a power transmission line corridor, various collected meteorological parameters and change conditions of the meteorological parameters are transmitted to a central monitoring and analyzing system in real time through networks such as 3G/4G/GPRS/CDMA and the like, and when abnormal conditions occur, the system can send out pre-alarm information in various ways to prompt managers to pay attention to alarm points or take necessary preventive measures.

The meteorological data acquisition module (microclimate sensor), the control and communication module and the storage battery (power module) of the current transmission line microclimate monitoring device are of split structures, the layout is dispersed, the structure is complex, the transportation and installation difficulty is high, and the service life is short and the failure rate is high due to the fact that the service environment is in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, provide an integrated meteorological data collection, control, communication, mains operated and the functional module of installation to the design is integrated packaging structure, transports simple to operate and the little meteorological monitoring device of transmission line integration that the fault rate is low of long service life.

The utility model adopts the technical proposal that: the utility model comprises a microclimate sensor, a control and communication module, a power supply module, a new energy device, a packaging shell and an installation leveling frame; the packaging shell comprises a packaging cover and a packaging base which is hermetically connected with the bottom opening of the packaging cover; the microclimate sensor is fixed to the top of the packaging cover; the power module comprises a power panel, a storage battery and a power interface, wherein the storage battery and the power interface are respectively electrically connected with the power panel; the control and communication module comprises a control communication board which is fixed on the battery fixing support and arranged below the power board and an antenna which is fixed below the packaging base, the control communication board is respectively connected with the microclimate sensor, and the power board is electrically connected with the antenna; the new energy device is electrically connected with the power panel through the power interface; the installation leveling frame comprises a support cantilever fixed on the side wall of the packaging cover and an installation cantilever hinged with the support cantilever, and the installation cantilever is fixedly connected with an external installation structure.

Furthermore, a first sealing ring is arranged between the bottom opening of the packaging cover and the packaging base and is in sealing connection with the packaging base through a first bolt.

Further, microclimate sensor's below is provided with protruding tang, the top of encapsulation cover is provided with concave tang, concave tang bottom is provided with the second sealing washer, microclimate sensor with the encapsulation cover passes through protruding tang with concave tang is counterpointed sealedly to seal up the fastening through the second bolt.

Furthermore, an elastic insulating pad is arranged between the storage battery and the packaging base, the battery fixing support comprises an upper cover tightly attached to the upper portion of the storage battery and four vertically downward L-shaped connecting plates which are symmetrically distributed on two sides of the upper cover and tightly attached to two sides of the storage battery, and the four L-shaped connecting plates are fixedly connected with four first threaded stud bolts arranged on the packaging base respectively.

Furthermore, the upper cover is provided with four second screw hole columns, and the power panel is fixed on the four second screw hole columns through bolts.

Furthermore, the upper cover is provided with four third screw hole columns which are shorter than the second screw hole columns, and the control communication board is fixed on the four third screw hole columns through bolts.

Furthermore, the power interface adopts an aviation plug, the aviation plug is fixed below the packaging base, the top of the packaging cover is further provided with a wire passing hole and a wire passing sealing ring matched with the wire passing hole, and a cable of the microclimate sensor passes through the wire passing sealing ring and is electrically connected with the control communication board.

Further, the antenna include all with first antenna and second antenna that the control communication board electricity is connected, first antenna is used for long-range receiving and dispatching signal, the second antenna is used for GPS location and wifi to connect the maintenance and repair.

Further, the new energy device is a solar panel.

Furthermore, the cantilever plates on two sides of the supporting cantilever are symmetrically provided with first circular through holes which are distributed up and down, one end of the mounting cantilever is clamped on two sides of the supporting cantilever and is provided with fan-shaped through holes and second circular through holes which are connected with the first circular through holes through bolts and distributed up and down, the other end of the mounting cantilever is of a groove steel structure with a downward opening, a cylinder which is matched with the groove is arranged in the groove of the groove steel structure, and corresponding third circular through holes are arranged on the upper portion, the lower portion, the front portion and the rear portion of the groove steel structure after combination and can be connected with an external mounting structure through bolt fastening, and the horizontal angle of the integrated microclimate monitoring device for the power transmission line can be adjusted through the fan-shaped through holes.

The utility model has the advantages that: the utility model discloses a reasonable layout design will control and communication module with power module is integrated to arrive in the encapsulation casing, will microclimate sensor is integrated to on the encapsulation casing reserve bottom the power source with the new forms of energy device is connected, will installation leveling frame is also integrated to the encapsulation casing lateral wall. The integrated meteorological data acquisition, control, communication, power supply and installation function module integrated packaging structure is realized, and due to the fact that all function modules are packaged in an integrated mode, the integrated meteorological data acquisition, control, communication, power supply and installation function module integrated packaging structure is compact in structure, convenient to transport and install, not prone to being corroded by the external natural environment, long in service life and low in failure rate.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a front exploded view of the structure of the present invention.

Fig. 3 is an exploded perspective view of the present invention.

Fig. 4 is a schematic block diagram of the present invention.

Detailed Description

As shown in fig. 1 to 4, in the present embodiment, the integrated microclimate monitoring device for a power transmission line includes a microclimate sensor 1, a control and communication module 2, a power module 3, a new energy device 4, an encapsulating shell 5 and a mounting leveling frame 6;

the package housing 5 comprises a package cover 51 and a package base 52 hermetically connected with a bottom opening of the package cover 51;

the microclimate sensor 1 is fixed to the top of the packaging cover 51;

the power module 3 comprises a power panel 31, a storage battery 32 and a power interface 33 which are respectively and electrically connected with the power panel 31, wherein the storage battery 32 is packaged in the packaging shell 5 and is fixed on the packaging base 52 through a battery fixing support 34, the power panel 31 is fixed on the battery fixing support 34, and the power interface 33 is fixed below the packaging base 52;

the control and communication module 2 comprises a control communication board 21 fixed on the battery fixing bracket 34 and arranged below the power board 31 and an antenna 22 fixed below the packaging base 52, wherein the control communication board 21 is electrically connected with the microclimate sensor 1, the power board 31 and the antenna 22 respectively;

the new energy device 4 is electrically connected with the power panel 31 through the power interface 33;

the installation leveling frame 6 comprises a supporting cantilever 61 fixed on the side wall of the packaging cover 51 and an installation cantilever 62 hinged with the supporting cantilever 61, and the installation cantilever 62 is fixedly connected with an external installation structure.

The scheme of this embodiment is through reasonable layout design, will control and communication module 2 with power module 3 is integrated to in the encapsulation casing 5, will microclimate sensor 1 is integrated to on the encapsulation casing 5 reserve the power source with new forms of energy device 4 is connected, will installation levelling arm 6 also is integrated to encapsulation casing 5 lateral wall. The integrated meteorological data acquisition, control, communication, power supply, installation and other functional modules integrated packaging structure is realized, and due to the fact that the functional modules are packaged in an integrated mode, the integrated meteorological data acquisition, control, communication, power supply, installation and other functional modules are compact in structure, convenient to transport and install, not prone to being corroded by the external natural environment, long in service life and low in failure rate.

In this embodiment, a first sealing ring 53 is disposed between the bottom opening of the package cover 51 and the package base 52 and is hermetically connected by a first bolt 54. Through effective dustproof and waterproof of first sealing washer 53, increase of service life reduces the fault rate.

In this embodiment, a male spigot 11 is arranged below the microclimate sensor 1, a female spigot 511 is arranged at the top of the packaging cover 51, a second sealing ring 512 is arranged at the bottom of the female spigot 511, and the microclimate sensor 1 and the packaging cover 51 are aligned and sealed through the male spigot 11 and the female spigot 511 and are sealed and fastened through a second bolt 12. Through protruding tang 11 with concave tang 511 and the second sealing washer 512 that concave tang 511 bottom set up, when easy to assemble counterpoint, can also effectively dustproof and waterproof, increase of service life reduces the fault rate.

In this embodiment, an elastic insulating pad 521 is disposed between the battery 32 and the package base 52, the battery fixing bracket 34 includes an upper cover 341 tightly attached to the upper side of the battery 32, and four L-shaped connecting plates 342 symmetrically disposed on two sides of the upper cover 341 and vertically downward tightly attached to two sides of the battery 32, and the four L-shaped connecting plates 342 are respectively and fixedly connected to four first screw posts 522 disposed on the package base 52 by bolts. The battery fixing bracket 34 firmly fixes the battery on the package base 52 by means of the bolt connection with the first screw hole column 522.

In this embodiment, four second screw holes 343 are provided on the upper cover 341, and the power board 31 is fixed to the four second screw holes 343 by bolts. Through with the bolted connection of second screw post 343 will power strip 31 is fixed battery fixed bolster 34 on upper cover 341, optimized the structure space, make the utility model discloses an encapsulation structure is reasonable compact more.

In this embodiment, the upper cover 341 is provided with four third screw holes 344 shorter than the second screw holes 343, and the control communication board 21 is fixed to the four third screw holes 344 by bolts. Through with the bolted connection of third screw post 344 will control communication board 21 is fixed battery fixed bolster 34 on the upper cover 341, place in the below of power strip 31 has optimized the structure space through range upon range of design, makes the utility model discloses an encapsulation structure is reasonable compact more.

In this embodiment, the power interface 33 adopts an aviation plug 331, the aviation plug 331 is fixed below the package base 52, the top of the package cover 51 is further provided with a wire through hole 513 and a wire through sealing ring 514 matched with the wire through hole 513, and a cable of the microclimate sensor 1 is electrically connected with the control communication board 21 through the wire through sealing ring 514. Because new energy device 4 is external module, through adopting aviation plug 331 electricity is connected new energy device 4 with power strip 31, on the one hand the erection joint is convenient, and on the other hand has ensured the dustproof waterproof high reliability of electricity connection between the inside and outside parts of encapsulation casing 5 has prolonged life, has reduced the fault rate. The microclimate sensor 1 and the cable arranged in the packaging shell 5 and electrically connected with the control communication board 21 are connected with each other through the wire passing sealing ring 514, so that the dustproof and waterproof high reliability of the electrical connection between the internal and external parts of the packaging shell 5 is ensured, the service life is prolonged, and the failure rate is reduced.

In this embodiment, the antenna 22 includes a first antenna 221 and a second antenna 222 both electrically connected to the control communication board 21, the first antenna 221 is used for remote signal transmission and reception, and the second antenna 222 is used for GPS positioning and wifi connection maintenance and repair. Little meteorological sensor 1 gathers meteorological data to transmit meteorological data through the data cable control communication board 21, control communication board 21 storage meteorological data and pass through first antenna 221 sends meteorological data and gives long-range backstage terminal, also accepts simultaneously long-range backstage terminal's instruction information, second antenna 222 is used for sending GPS positioning signal, can provide specific position for maintenance personnel, simultaneously second antenna 222 can send the wifi signal and make things convenient for maintenance personnel field connection to carry out troubleshooting.

In this embodiment, the new energy device 4 is a solar panel 41. Solar panel 41 passes through power cable 42 and connects power source 33, and pass through power source 33 with power strip 31 electricity is connected, through power strip 31 does battery 32 charges, battery 32 passes through power strip 31 does control and communication module 2 with microclimate sensor 1 supplies power.

In this embodiment, the cantilever plates of the two sides of the supporting cantilever 61 are symmetrically provided with first circular through holes 611 distributed up and down, one end of the mounting cantilever 62 is clamped on the two sides of the supporting cantilever 61 and is provided with fan-shaped through holes 621 and second circular through holes 622 which are connected with the first circular through holes 611 through bolts and distributed up and down, the other end of the mounting cantilever 62 is a channel steel structure 623 with a downward opening, a cylinder 624 matched with the inside of the groove is arranged in the groove of the channel steel structure 623, the cylinder 624 and the upper and lower parts of the channel steel structure 623 after being combined are respectively provided with corresponding third circular through holes 625 in front and at the back, the third circular through holes 625 can be connected with an external mounting structure through bolt fastening, and the horizontal angle of the integrated microclimate monitoring device for the power transmission line can be adjusted through the fan-shaped through holes 621. Through the structure, the channel steel structure 623 and the cylinder 624 of the installation cantilever 62 can be used as an installation connector to be in bolt fastening connection with an external installation support, the installation cantilever 62 is in hinged connection with the support cantilever 61 through the bolt connection of the first round through hole 611 and the second round through hole 622, and meanwhile, the horizontal angle is adjusted through the bolt connection of the first round through hole 611 and the fan-shaped through hole 621, so that the installation and adjustment are more convenient.

The utility model discloses be applied to little meteorological monitoring device's technical field.

While the embodiments of the present invention have been described in terms of practical embodiments, they are not intended to limit the scope of the invention, and modifications of the embodiments and combinations with other embodiments will be apparent to those skilled in the art in light of the present description.

Claims (10)

1. The utility model provides a little meteorological monitoring device of transmission line integration, includes little meteorological sensor (1), control and communication module (2), power module (3), new forms of energy device (4), its characterized in that: the device also comprises a packaging shell (5) and a mounting leveling frame (6); wherein,

the packaging shell (5) comprises a packaging cover (51) and a packaging base (52) which is hermetically connected with the bottom opening of the packaging cover (51);

the microclimate sensor (1) is fixed to the top of the packaging cover (51);

the power module (3) comprises a power panel (31), a storage battery (32) and a power interface (33) which are respectively electrically connected with the power panel (31), the storage battery (32) is packaged in the packaging shell (5) and is fixed on the packaging base (52) through a battery fixing support (34), the power panel (31) is fixed on the battery fixing support (34), and the power interface (33) is fixed below the packaging base (52);

the control and communication module (2) comprises a control communication board (21) which is fixed on the battery fixing support (34) and is arranged below the power supply board (31) and an antenna (22) which is fixed below the packaging base (52), the control communication board (21) is respectively connected with the microclimate sensor (1), and the power supply board (31) is electrically connected with the antenna (22);

the new energy device (4) is electrically connected with the power panel (31) through the power interface (33);

the installation leveling frame (6) comprises a support cantilever (61) fixed on the side wall of the packaging cover (51) and an installation cantilever (62) hinged to the support cantilever (61), and the installation cantilever (62) is fixedly connected with an external installation structure.

2. The integrated microclimate monitoring device for power transmission lines according to claim 1, characterized in that: a first sealing ring (53) is arranged between the bottom opening of the packaging cover (51) and the packaging base (52) and is in sealing connection with the packaging base through a first bolt (54).

3. The integrated microclimate monitoring device for power transmission lines according to claim 1, characterized in that: the below of microclimate sensor (1) is provided with protruding tang (11), the top of encapsulation cover (51) is provided with concave tang (511), concave tang (511) bottom is provided with second sealing washer (512), microclimate sensor (1) with encapsulation cover (51) passes through protruding tang (11) with concave tang (511) are counterpointed sealedly to seal up through second bolt (12).

4. The integrated microclimate monitoring device for power transmission lines according to claim 1, characterized in that: an elastic insulating pad (521) is arranged between the storage battery (32) and the packaging base (52), the battery fixing support (34) comprises an upper cover (341) tightly attached to the upper portion of the storage battery (32) and four L-shaped connecting plates (342) which are symmetrically distributed on two sides of the upper cover (341) and tightly attached to two sides of the storage battery (32) and vertically downward, and the four L-shaped connecting plates (342) are fixedly connected with four first threaded columns (522) arranged on the packaging base (52) through bolts.

5. The integrated microclimate monitoring device for power transmission lines according to claim 4, characterized in that: four second screw hole columns (343) are arranged on the upper cover (341), and the power panel (31) is fixed on the four second screw hole columns (343) through bolts.

6. The integrated microclimate monitoring device for power transmission lines according to claim 5, characterized in that: the upper cover (341) is provided with four third screw hole columns (344) which are shorter than the second screw hole columns (343), and the control communication board (21) is fixed on the four third screw hole columns (344) through bolts.

7. The integrated microclimate monitoring device for power transmission lines according to claim 1, characterized in that: power source (33) adopt aviation plug (331), aviation plug (331) are fixed encapsulation base (52) below, the top of encapsulation cover (51) still be provided with cross line hole (513) and with cross line hole (513) complex and cross line sealing washer (514), the cable of microclimate sensor (1) passes through cross line sealing washer (514) with control communication board (21) electricity is connected.

8. The integrated microclimate monitoring device for power transmission lines according to claim 1, characterized in that: the antenna (22) comprises a first antenna (221) and a second antenna (222) which are electrically connected with the control communication board (21), the first antenna (221) is used for transmitting and receiving signals remotely, and the second antenna (222) is used for GPS positioning and wifi connection maintenance and repair.

9. The integrated microclimate monitoring device for power transmission lines according to claim 1, characterized in that: the new energy device (4) is a solar panel (41).

10. The integrated microclimate monitoring device for power transmission lines according to claim 1, characterized in that: the cantilever plates at the two sides of the supporting cantilever (61) are symmetrically provided with first round through holes (611) which are distributed up and down, one end of the mounting cantilever (62) is clamped at two sides of the supporting cantilever (61) and is provided with a fan-shaped through hole (621) and a second circular through hole (622) which are connected with the first circular through hole (611) through bolts and distributed up and down, the other end of the mounting cantilever (62) is a channel steel structure (623) with a downward opening, a cylinder (624) matched with the groove is arranged in the groove of the channel steel structure (623), the upper part, the lower part, the front part and the rear part of the combined cylinder (624) and the channel steel structure (623) are provided with corresponding third round through holes (625), the third round through hole (625) can be tightly connected with an external mounting structure by a bolt, the horizontal angle of the integrated microclimate monitoring device for the power transmission line can be adjusted through the fan-shaped through hole (621).

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