CN212572688U - Transmission line icing monitoring camera - Google Patents

Abstract

The utility model discloses a transmission line icing monitoring camera, including sealed epitheca subassembly and sealed inferior valve subassembly, the epitheca subassembly can be dismantled with the inferior valve subassembly and be connected, and the faying face of epitheca subassembly and inferior valve subassembly is equipped with the electric wire way that supplies transmission line to pass, and epitheca subassembly and/or inferior valve subassembly include the camera, the utility model provides a pair of transmission line icing monitoring camera waterproof leakproofness is good, is formed by sealed epitheca subassembly and the assembly of sealed inferior valve subassembly, does benefit to quick installation on high tension transmission line, has reduced the volume of whole device and has also promoted holistic seal performance simultaneously, greatly reduced the device cost, simplified the structure, and be convenient for install and maintain.

Description

Transmission line icing monitoring camera

Technical Field

The utility model relates to a camera supervisory equipment technical field especially relates to a power transmission line icing monitoring camera.

Background

Along with the rapid development of economy, the demand of various industries on electric power is increasing, people pay more and more attention to the safety of long-distance high-voltage transmission lines, therefore, video monitoring equipment can be loaded in a power transmission system, a monitored area can be oriented and tracked in real time through the video monitoring equipment, but the video monitoring equipment is usually installed and fixed on an iron tower, so that the installation and maintenance cost is too high, the installation is inconvenient to operate, only part of area monitoring can be carried out, a blind area exists in the monitoring of the specific condition of a line, particularly in ice and snow weather, due to ice coating of the line, the video monitoring equipment cannot timely carry out detailed monitoring and judgment on the specific condition of the line, and the operation of the transmission line is unstable.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: provided is a power transmission line icing monitoring camera.

In order to solve the technical problem, the utility model discloses a technical scheme be: the utility model provides a transmission line icing monitoring camera, includes sealed epitheca subassembly and sealed inferior valve subassembly, the epitheca subassembly can be dismantled with the inferior valve subassembly and be connected, the faying face of epitheca subassembly and inferior valve subassembly is equipped with the wire passage that supplies transmission line to pass, epitheca subassembly and/or inferior valve subassembly include the camera.

Furthermore, the upper shell assembly comprises an upper cover and a base arranged at the bottom of the upper cover, the lower shell assembly comprises a lower cover and a mounting seat arranged at the top of the lower cover, and the wire channel is located on the joint surface of the base and the mounting seat.

Furthermore, the junction of upper cover with the base is equipped with first waterproof pad, the lower cover with the junction of mount pad is equipped with the waterproof pad of second.

Furthermore, a power taking assembly is arranged between the upper shell assembly and the lower shell assembly.

Furthermore, a third waterproof cushion is arranged at the joint of the electricity taking assembly and the upper shell assembly.

Furthermore, the lower shell assembly is provided with a first drainage hole corresponding to the position of the bottom of the power taking assembly.

Further, the top of the upper shell assembly is provided with a radome and an antenna assembly located in the radome.

Furthermore, a fourth waterproof cushion is arranged at the joint of the antenna housing and the upper shell assembly.

Furthermore, still be equipped with the protection casing on the inferior valve subassembly and be located microclimate subassembly in the protection casing.

Furthermore, a second drain hole is formed in the bottom of the protective cover.

The beneficial effects of the utility model reside in that: the utility model provides a pair of transmission line icing monitoring camera waterproof sealing nature is good, is formed by the assembly of sealed epitheca subassembly and sealed inferior valve subassembly, does benefit to quick installation on high tension transmission line, has reduced the volume of whole device and has also promoted holistic seal performance simultaneously, greatly reduced the device cost, simplified the structure, and be convenient for install and maintain.

Drawings

Fig. 1 is an assembly structure diagram of a power transmission line icing monitoring camera according to a first embodiment of the present invention;

fig. 2 is an explosion diagram of the transmission line icing monitoring camera according to the first embodiment of the present invention.

Description of reference numerals:

1. a transmission line; 2. an upper cover; 21. a PCB assembly; 3. a lower cover; 31. a capacitive component; 4. a camera; 41. a lens mount; 42. a camera head base; 43. a fifth waterproof pad; 5. an antenna cover; 51. a fourth waterproof pad; 6. a protective cover; 61. an inner cover; 62. a microclimate component; 7. a mounting seat; 71. a second waterproof pad; 8. a base; 81. a first waterproof pad; 9. taking a power ring; 91. covering the electricity taking ring; 92. and a third water cushion.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

The utility model discloses the most crucial design lies in: the high-voltage transmission line sealing device is formed by assembling the sealed upper shell component and the sealed lower shell component, is favorable for being quickly installed on a high-voltage transmission line, reduces the volume of the whole device, and simultaneously improves the whole sealing performance.

Referring to fig. 1 and 2, the power transmission line icing monitoring camera comprises a sealed upper shell assembly and a sealed lower shell assembly, wherein the upper shell assembly and the lower shell assembly are detachably connected, a wire channel for a power transmission line 1 to pass through is arranged on a joint surface of the upper shell assembly and the lower shell assembly, and the upper shell assembly and/or the lower shell assembly comprises a camera 4.

From the above description, the beneficial effects of the present invention are: the upper casing subassembly with the lower casing subassembly is sealed respectively, and its inside wire rod of avoiding exposes, has strengthened the weatherability of equipment, has ensured the stability of its functional performance, has promoted the convenience of installation to can carry out reasonable setting according to the application demand of reality to camera 4's position.

Further, the upper shell assembly comprises an upper cover 2 and a base 8 installed at the bottom of the upper cover 2, the lower shell assembly comprises a lower cover 3 and an installation seat 7 installed at the top of the lower cover 3, and the wire channel is located at a joint surface of the base 8 and the installation seat 7.

As can be seen from the above description, the base 8 facilitates the encapsulation of the components inside the upper cover 2, and the mounting seat 7 facilitates the encapsulation of the components inside the lower cover 3, further enhancing the sealing performance of the device.

Furthermore, a first waterproof pad 81 is arranged at the joint of the upper cover 2 and the base 8, and a second waterproof pad 71 is arranged at the joint of the lower cover 3 and the mounting seat 7.

As can be seen from the above description, the first waterproof pad 81 is convenient for waterproof sealing of the inside of the upper cover 2, and the second waterproof pad 71 is convenient for sealing of the inside of the lower cover 3, which is beneficial to the improvement of waterproof performance.

Furthermore, a power taking assembly is arranged between the upper shell assembly and the lower shell assembly.

As can be seen from the above description, the power taking assembly is beneficial to the power taking of the equipment, and the equipment can be ensured to stably and effectively operate.

Furthermore, a third waterproof cushion 92 is arranged at the joint of the electricity taking assembly and the upper shell assembly.

As can be seen from the above description, the third waterproof pad 92 can prevent water seepage at the installation position of the power taking assembly, and the sealing performance of the device is further improved.

Furthermore, the lower shell assembly is provided with a first drainage hole corresponding to the position of the bottom of the power taking assembly.

Known from the above description, first drainage hole can prevent the mounted position ponding of getting the electric subassembly of inferior valve subassembly has ensured the stability of equipment operation.

Further, the top of the upper shell assembly is provided with a radome 5 and an antenna assembly located in the radome 5.

As can be seen from the above description, the antenna assembly facilitates transmission of equipment signals, and the antenna radome 5 can protect the antenna assembly.

Further, a fourth waterproof pad 51 is arranged at the joint of the radome 5 and the upper shell assembly.

As can be seen from the above description, the fourth waterproof pad 51 can ensure the waterproof performance of the installation position of the antenna assembly, and is beneficial to improving the working stability of the device.

Further, a shield 6 and a microclimate component 62 positioned in the shield 6 are also arranged on the lower shell component.

As can be seen from the above description, the protection cover 6 can protect the microclimate component 62, and is beneficial to improving the working stability of the microclimate component 62.

Further, a second drain hole is formed at the bottom of the protective cover 6.

As can be seen from the above description, the second drain hole can prevent water from accumulating inside the protective cover 6, and further improves the stability of the operation of the device.

Example one

Referring to fig. 1 and fig. 2, a first embodiment of the present invention is: the utility model provides a transmission line 1 icing monitoring camera, includes sealed epitheca subassembly and sealed inferior valve subassembly, the epitheca subassembly with the inferior valve subassembly can be dismantled and link together, and is concrete, the epitheca subassembly with the inferior valve subassembly passes through the screw and connects, the faying face of epitheca subassembly and inferior valve subassembly is equipped with the wire channel that power transmission line 1 passed, epitheca subassembly and/or inferior valve subassembly include camera 4, that is to say, camera 4 can set up in also can set up on the epitheca subassembly on the inferior valve subassembly, can carry out reasonable setting according to the application demand of reality, specifically in this embodiment, the quantity of camera 4 is two, and set up respectively in the both ends of epitheca subassembly.

Preferably, the upper shell assembly comprises an upper cover 2 and a base 8 mounted at the bottom of the upper cover 2, the lower shell component comprises a lower cover 3 and a mounting seat 7 arranged at the top of the lower cover 3, the wire channel is positioned at the joint surface of the base 8 and the mounting seat 7, a first waterproof pad 81 is arranged at the joint of the upper cover 2 and the base 8, a second waterproof pad 71 is arranged at the joint of the lower cover 3 and the mounting seat 7, specifically, the base 8 is provided with a first groove for mounting the first waterproof pad 81, the mounting seat 7 is provided with a second groove for mounting the second waterproof pad 71, which is easy to understand, first waterproof pad 81 is convenient for right the inside waterproof sealing that carries on of upper cover 2, second waterproof pad 71 is convenient for the inside sealing that carries on of lower cover 3 does benefit to waterproof performance's promotion.

In this embodiment, a PCB assembly 21 and an antenna assembly are installed in the upper cover 2, the PCB assembly 21 is electrically connected to the camera 4 through the wire passage, an antenna port is opened at the top of the upper cover 2, one end of the antenna assembly is exposed at the antenna port, an antenna cover 5 for protecting the antenna assembly is further disposed at the antenna port, and a capacitor assembly 31 is installed in the lower cover 3; specifically, the antenna house 5 with 2 junctions of upper cover are equipped with fourth waterproof pad 51, upper cover 2 corresponds the position of fourth waterproof pad 51 has still been seted up and has been used for the installation the fourth recess of fourth waterproof pad 51, upper cover 2 with 5 junctions of antenna house still are equipped with location structure, and are concrete, location structure is including locating the reference column at the antenna port edge of upper cover 2 and locating on the antenna house 5 locating hole, the material of fourth waterproof pad 51 is silica gel, be equipped with the mounting hole on the fourth waterproof pad 51, the material of antenna house 5 is the combination plastic, and this combination plastic material has easy shaping, mechanical property is excellent, impact strength is high, temperature resistant, ultraviolet resistance performance etc. It can be understood, the antenna house 5 does benefit to right the antenna port on the 2 tops of upper cover protects, encircles the waterproof pad of silica gel and the fourth recess that the antenna port set up and has strengthened the leakproofness at antenna house 5 and 2 tops of upper cover, antenna house 5 with the detachable connection in 2 tops of upper cover is so that the dismouting and the maintenance of antenna, and the combination plastic can not produce electromagnetic interference simultaneously, has good mechanical properties and weatherability again, is applicable to outdoor installation operation.

Preferably, the cameras 4 are respectively installed at two end portions of the upper cover 2, the cameras 4 are respectively installed at the two end portions of the upper cover 2, the cameras 4 comprise a lens mount 41 and a camera mount 42 which are connected, the base 8 is connected with the upper cover 2, and a wire channel which communicates the inside of the upper cover 2 and the inside of the lens mount 41 is further formed at the connection position of the base 8 and the upper cover 2, so that the cameras 4 can be connected with components inside the upper cover 2; camera base 42 with the lens mount 41 junction is equipped with fifth waterproof pad 43, still offer on the camera base 42 and be used for placing the fifth recess of fifth waterproof pad 43, it is easy to understand, fifth waterproof pad 43 with fifth waterproof groove can ensure camera 4's waterproof nature, the problem of wire rod infiltration can be avoided to the wire rod passageway.

In order to ensure that the equipment can continuously and effectively operate, an electricity taking assembly is further arranged between the upper shell assembly and the lower shell assembly, specifically, a first installation port is formed in the base 8, a second installation port is formed in the installation seat 7, the first installation port and the second installation port are combined to form an installation position of the electricity taking assembly, the electricity taking assembly comprises an electricity taking ring 9 and an electricity taking ring upper cover 91 which is located in the first installation groove and connected with the base 8, and specifically, a third water prevention pad 92 is further arranged at the connection position of the electricity taking ring upper cover 91 and the base 8; a third groove for mounting the third waterproof pad 92 is further formed in the power taking ring upper cover 91, so that the third waterproof pad 92 is prevented from falling off or deviating to influence the overall sealing performance; the third water-proofing cushion 92 and the third groove completely seal the SIM bayonet and the switch in the PCB component 21 in the upper cover 2, so that the running stability of the equipment is ensured; first drainage hole has been seted up to second installation port bottom, and is easy to understand, first drainage hole can prevent the mounted position ponding of the electricity subassembly of getting of inferior valve subassembly has ensured the stability of equipment operation.

Preferably, still be equipped with protection casing 6 on the inferior valve subassembly and be located microclimate subassembly 62 in the protection casing 6, it is specific, still be equipped with inner cover 61 in the protection casing 6, microclimate subassembly 62 is located in the inner cover 61, the second wash port has still been seted up to protection casing 6 bottom, easy understanding, protection casing 6 can be right microclimate subassembly 62 protects, does benefit to microclimate subassembly 62 job stabilization's promotion, the second wash port can prevent the inside ponding of protection casing 6 has further promoted equipment job stabilization nature.

To sum up, the utility model provides a pair of transmission line icing monitoring camera equipment has simple structure, small in size, the quality is light, waterproof performance is good, the weatherability is strong, can be on the transmission line advantage of convenient installation dismantlement of optional position point.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a transmission line icing monitoring camera which characterized in that: the camera comprises a sealed upper shell assembly and a sealed lower shell assembly, wherein the upper shell assembly is detachably connected with the lower shell assembly, a wire channel for a power transmission line to pass through is arranged on the joint surface of the upper shell assembly and the lower shell assembly, and the upper shell assembly and/or the lower shell assembly comprises a camera.

2. The power transmission line icing monitoring camera according to claim 1, wherein the upper shell assembly comprises an upper cover and a base installed at the bottom of the upper cover, the lower shell assembly comprises a lower cover and a mounting seat installed at the top of the lower cover, and the wire channel is located at a joint surface of the base and the mounting seat.

3. The power transmission line icing monitoring camera according to claim 2, wherein a first waterproof pad is arranged at the joint of the upper cover and the base, and a second waterproof pad is arranged at the joint of the lower cover and the mounting seat.

4. The power transmission line icing monitoring camera according to claim 1, wherein a power taking assembly is further arranged between the upper shell assembly and the lower shell assembly.

5. The power transmission line icing monitoring camera according to claim 4, wherein a third waterproof pad is arranged at the joint of the power taking assembly and the upper shell assembly.

6. The power transmission line icing monitoring camera according to claim 4, wherein a first drainage hole is formed in the lower shell assembly at a position corresponding to the bottom of the power taking assembly.

7. The power transmission line icing monitoring camera according to claim 1, wherein a radome and an antenna assembly located inside the radome are arranged on the top of the upper shell assembly.

8. The power transmission line icing monitoring camera according to claim 7, wherein a fourth waterproof cushion is arranged at the joint of the antenna housing and the upper shell assembly.

9. The power transmission line icing monitoring camera according to claim 1, wherein a protective cover and a microclimate assembly located in the protective cover are further arranged on the lower shell assembly.

10. The power transmission line icing monitoring camera according to claim 9, wherein a second drain hole is formed at the bottom of the protective cover.

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