CN216848059U - High-low voltage switchgear monitoring device based on wireless sensor network - Google Patents

Abstract

The application provides a high-low voltage switchgear monitoring device based on a wireless sensing network, which comprises a monitoring device main body; the wireless regulation and control cooling assembly comprises a first flow dividing pipe arranged on the left side and the right side of the inner wall of the bottom of the monitoring device main body respectively, a plurality of groups of water-cooled pipes II are arranged between the tops of the two groups of first flow dividing pipes, the bottom of the right side of the monitoring device main body is provided with a second flow dividing pipe, and the right side of the first flow dividing pipe on the left side is provided with a plurality of groups of communicated first water-cooled pipes; a pipeline assembly disposed at a rear side of the monitoring device body. This technical scheme is through being provided with wireless regulation and control cooling subassembly, and user of service accessible remote control terminal and wireless module make induced air fan device open, and induced air fan device makes outside air blow into the monitoring devices main part after the cooling liquid cooling that gets into through the water storage shell from the air-supply line, assists the cooling to the monitoring devices main part, improves the life and the stability in use of monitoring devices main part.

Description

High-low voltage switchgear monitoring device based on wireless sensor network

Technical Field

The utility model discloses high-low voltage switchgear monitoring devices technical field, concretely relates to high-low voltage switchgear monitoring devices based on wireless sensor network.

Background

At present, in order to guarantee high low voltage switchgear's safety in utilization, can monitor it through monitoring devices mostly, traditional high low voltage switchgear monitoring devices is its inside heat gathering when using, and the heat can't be effluvium fast, leads to inside electrical component to damage easily, and it can be connected with the partial sensor element who monitors high low voltage switchgear through the wire in order to monitor high low voltage switchgear simultaneously.

The existing high-low voltage switchgear monitoring device based on a wireless sensing network in the prior art has the following principle: the heat radiation structure can not be regulated and controlled according to the internal temperature of the user at the internal temperature of the remote control monitoring device, the wires connected with the heat radiation structure can not be controlled, the wires can be wound with each other, and the monitoring device is interfered when the normal use of the monitoring device is influenced.

Disclosure of Invention

In view of the above-mentioned drawbacks and deficiencies of the prior art, the present application is directed to a high-low voltage switchgear monitoring device based on a wireless sensor network.

In a first aspect, a high-low voltage switchgear monitoring device based on a wireless sensor network comprises,

a monitoring device main body;

the wireless temperature-regulating and controlling assembly comprises first flow dividing pipes which are respectively arranged on the left side and the right side of the inner wall of the bottom of the monitoring device main body, a plurality of groups of water-cooling pipes are arranged between the tops of the two groups of first flow dividing pipes, a second flow dividing pipe is arranged at the bottom of the right side of the monitoring device main body, a plurality of groups of communicated first water cooling pipes are arranged on the right side of the first flow dividing pipe on the left side, the other end of the water-cooling pipe penetrates through the right side flow dividing pipe I and the right side of the monitoring device main body and is communicated with the flow dividing pipe II, the right side of the monitoring device main body is provided with a water storage shell, the rear side of the water storage shell is provided with a micro pump, the input end of the micro pump is communicated with the water storage shell through a pipeline, the output end of the micro pump is provided with a liquid pumping pipe, the other end of the liquid pumping pipe penetrates through the second flow dividing pipe and the right side of the monitoring device body and is communicated with the first flow dividing pipe on the right side, and the top of the second flow dividing pipe is communicated with the water storage shell through a circulating pipe;

a pipeline assembly disposed at a rear side of the monitoring device body.

According to the technical scheme that this application embodiment provided, one side inner wall of monitoring devices main part sets up temperature sensor, temperature sensor electric connection wireless module, wireless module electric connection controller.

According to the technical scheme that this application embodiment provided, the induced air fan device is inlayed on the right side of monitoring devices main part, the piece that ventilates is inlayed in the left side of monitoring devices main part.

According to the technical scheme that this application embodiment provided, induced air fan device's input runs through water storage shell bottom through the air-supply line and runs through water storage shell top again.

According to the technical scheme that this application embodiment provided, the pipeline subassembly is including setting up the pipeline board at monitoring devices main part rear side, pipeline board top evenly sets up the multiunit locating plate, locating plate top laminating fly leaf, the equal integrated into one piece lug in the outer wall bottom in the side of the left and right sides of fly leaf, the lug bottom sets up the elasticity telescopic link, elasticity telescopic link bottom and pipeline board top connection.

According to the technical scheme that this application embodiment provided, the rear side of pipeline board has evenly seted up the multiunit notch, be provided with the bunch roller in the notch.

In summary, the present application discloses a high-low voltage switchgear monitoring device based on wireless sensor network.

In the technical scheme, the wireless regulation and control cooling component is arranged, when in use, the liquid in the water storage shell can be injected into the liquid pumping pipe by opening the micro pump, so that the cooling liquid flows in the flow dividing pipe II, the flow dividing pipe I, the water cooling pipe II and the water cooling pipe I, the heat generated by the monitoring device main body is taken out of the monitoring device main body, the damage of internal electric elements caused by the high-temperature accumulation in the monitoring device main body is avoided, meanwhile, the temperature sensor monitors the heat in the monitoring device body in real time, when the heat in the monitoring device body can not be effectively cooled by a water cooling mode, the user can open the induced draft fan device through the remote control terminal and the wireless module, the induced draft fan device enables outside air to enter from the air inlet pipe and blow into the monitoring device main body after being cooled by the cooling liquid in the water storage shell, carry out supplementary cooling to the monitoring devices main part, improve the life and the stability in use of monitoring devices main part.

Further, on above-mentioned structural design's basis, this application is still through setting up the pipeline subassembly, through making the pulling fly leaf upwards, the locating plate resets under the effect of elasticity telescopic link after loosening, arc wall through on locating plate and the fly leaf realizes spacing to the wire, spacing back, when discovering the wire overlength, can pass the wire between the right-hand member of bunch roller and the notch inner wall twine at bunch roller outer wall again, realize the use length control of wire, avoid the wire overlength to influence the use, effectual realization wire regulation and control, make things convenient for the wire management and control when avoiding the wire winding.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

fig. 1 is a perspective view of a monitoring device for high-low voltage switchgear based on a wireless sensor network according to the present application;

fig. 2 is a perspective view of a wireless temperature-reducing control component in a high-low voltage switchgear monitoring device based on a wireless sensor network according to the present application;

fig. 3 is a perspective view of a pipeline assembly in a high-low voltage switchgear monitoring device based on a wireless sensor network according to the present application.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example 1

Referring to fig. 1-3, a monitoring device for high and low voltage switch devices based on wireless sensor network, the electrical components of the present invention are connected to an external power source through wires, including,

the monitoring device comprises a monitoring device main body 1 for monitoring high-voltage and low-voltage switch equipment, wherein one side of the monitoring device main body 1 is provided with a display screen, a button and other structures, the rear side of the monitoring device main body is provided with a lead interface and the like which are connected with an external monitoring sensor through leads, and the monitoring device for the high-voltage and low-voltage switch equipment belongs to the prior art and is not detailed herein;

in order to avoid the influence of high temperature generated in the wireless regulation cooling assembly 2 when the wireless regulation cooling assembly is used normally, the wireless regulation cooling assembly 2 comprises a first diversion pipe 21 which is respectively arranged on the left side and the right side of the inner wall of the bottom of a monitoring device main body 1 and has a rectangular vertical section, a plurality of groups of U-shaped water-cooling pipes 23 are arranged between the tops of the first two groups of flow pipes 21 from front to back so that the first two groups of flow pipes 21 are communicated with each other, a second diversion pipe 29 which can collect the entering cooling liquid when the cooling liquid flows back is arranged at the bottom of the right side of the monitoring device main body 1, a plurality of groups of communicated water-cooling pipes 22 are arranged on the right side of the first left side diversion pipe 21 from front to back, the other end of the first water-cooling pipe 22 penetrates through the first right diversion pipe 21 and the right side of the monitoring device main body 1 and is communicated with the second diversion pipe 29, a water storage shell 25 for storing the cooling liquid is arranged on the right side of the monitoring device main body 1, and the liquid in the first right side diversion pipe 21 is pumped by a micro pump 26 and a liquid pumping pipe 28, and the cooling liquid after circulating flows back to the water storage shell 25 again through the circulating pipe at the top of the second shunt pipe 29. In practical situations, in order to ensure that the temperature of the cooling liquid in the water storage shell 25 is always low, a micro refrigerator which is widely applied in the prior art can be arranged in the water storage shell 25;

in order to avoid the winding of the wires at the wire interface of the monitoring device body 1, the pipeline component 3 is arranged at the rear side of the monitoring device body 1 corresponding to the position of the wire interface.

Please refer to fig. 2, in order to facilitate the external personnel to know the operating temperature of the monitoring device body 1 remotely, a temperature sensor 24 with a model number DS18B20 is disposed on an inner wall of one side of the monitoring device body 1, the temperature sensor 24 can be connected to a remote control terminal of a user through a wireless module in the prior art, the wireless module is electrically connected to the controller, and the controller controls the electrical components of the utility model, the remote control terminal can be connected to a mobile device such as a mobile phone or a tablet computer, the heat information of the monitoring device body 1 can be detected by the temperature sensor 24 and transmitted to the remote control terminal of the user through the wireless module, so that the user can know the heat information remotely, and the user can control the induced draft fan device 27 or the micro pump 26 to be turned on through the remote control terminal and the wireless module;

referring to fig. 2, in order to further enhance the cooling effect on the monitoring device body 1, a fan device 27 is embedded and connected to the right side of the monitoring device body 1. In this embodiment, this induced air fan device 27 comprises casing, motor, fan and filter screen for in the outside air is guided to monitoring devices main part 1, in order to avoid inside monitoring devices main part 1 atmospheric pressure increase to cause monitoring devices main part 1 to damage, the left side of monitoring devices main part 1 inlays and is equipped with the ventilative piece that can exhaust air. In this embodiment, the ventilation member is composed of an assembly frame, a filter screen and a waterproof breathable film layer, so that dust, liquid and the like in the outside air are not easy to enter the monitoring device main body 1, and meanwhile, the inside air and the outside air can be normally communicated;

referring to fig. 2, in order to efficiently cool the monitoring device main body 1 by the air drawn by the induced draft fan device 27, the input end of the induced draft fan device 27 penetrates the bottom of the water storage shell 25 through the air inlet pipe 210 and then penetrates the top of the water storage shell 25, and in order to improve the cooling quality of the air, the portion of the air inlet pipe 210 in the water storage shell 25 is distributed in a serpentine shape.

When the monitoring device is used, liquid in the water storage shell 25 can be injected into the liquid pumping pipe 28 by opening the micropump 26, so that cooling liquid flows in the shunt pipe II 29, the shunt pipe I21, the water cooling pipe II 23 and the water cooling pipe I22, heat generated by the monitoring device main body 1 is taken out of the monitoring device main body 1, internal high-temperature accumulation is avoided, internal electric elements are prevented from being damaged, meanwhile, the temperature sensor 24 monitors heat in the monitoring device main body 1 in real time, when the internal heat cannot be effectively cooled through a water cooling mode, a user can open the induced air fan device 27 through the remote control terminal and the wireless module, the induced air fan device 27 enables external air to enter the monitoring device main body 1 from the air inlet pipe 210 after cooling through the cooling liquid in the water storage shell 25, and auxiliary cooling is carried out on the monitoring device main body 1.

Example 2

Referring to fig. 3, in order to facilitate the management and control of the wires connected to the wire connectors, the pipeline assembly 3 includes a pipeline plate 31 disposed at the rear side of the monitoring device main body 1 and below the wire connectors, a plurality of sets of positioning plates 34 are uniformly disposed at positions of the top of the pipeline plate 31 corresponding to the wire connectors, the top of the positioning plates 34 is attached to the movable plate 35, a protrusion for being pushed by a user is disposed at the rear side of the movable plate 35, an arc-shaped groove contacting with the outer wall of the inserted wire is formed at one side of the movable plate 35 opposite to the positioning plates 34, an arc-shaped rubber pad is disposed on the outer wall of the arc-shaped groove for reducing the contact damage to the outer wall of the wire, and at the same time, in order to facilitate the movable plate 35 to closely contact with the positioning plates 34, the outer walls at the left and right sides of the movable plate 35 are contacted with the top of the pipeline plate 31 through an elastic telescopic rod 36, so that the upward movable plate 35 can be reset downward, and the elastic telescopic rod 36 belongs to the prior art, consists of a loop bar, a movable bar and a spring;

referring to fig. 3, in order to avoid the excessive interference of the wires connected to the wire interface, a notch 32 of an assembly structure is formed at a position corresponding to the positioning plate 34 on the rear side of the pipeline plate 31, a wire-tying roller 33 for the wires to wind is disposed in the notch 32, the wire-tying roller 33 is fixed and does not rotate, in order to avoid the wires from being wound around the outer wall of the wire-tying roller 33 and damaged, a rubber sleeve with anti-slip threads may be disposed on the outer wall of the wire-tying roller 33, and a certain distance exists between the right end of the wire-tying roller 33 and the right inner wall of the notch 32 for the wires to wind around the outer wall of the wire-tying roller 33.

Through make pulling fly leaf 35 upwards make external wire and wire interface connection after, loosen the back and reset locating plate 34 under the effect of elastic telescopic rod 36, realize spacing to the wire through the arc wall on locating plate 34 and the fly leaf 35, spacing back, when finding the wire overlength, can pass the wire between the right-hand member of bundling roller 33 and the notch 32 inner wall and twine the bundling roller 33 outer wall again, realize the use length control of wire, avoid the wire overlength to influence the use.

The rest of the structure was the same as in example 1

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the invention herein disclosed is not limited to the particular combination of features described above, but also encompasses other arrangements formed by any combination of the above features or their equivalents without departing from the inventive concept. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (6)

1. The utility model provides a high-low voltage switchgear monitoring devices based on wireless sensor network which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

a monitoring device main body (1);

the wireless regulation and control cooling assembly (2), the wireless regulation and control cooling assembly (2) comprises a first shunt pipe (21) which is arranged on the left side and the right side of the inner wall at the bottom of a monitoring device main body (1) respectively, two groups of water-cooling pipes (23) are arranged between the tops of the first shunt pipes (21), a second shunt pipe (29) is arranged at the bottom of the right side of the monitoring device main body (1), a plurality of groups of first water-cooling pipes (22) communicated with each other are arranged on the right side of the first shunt pipe (21), the other end of the first water-cooling pipe (22) penetrates through the first shunt pipe (21) on the right side and the right side of the monitoring device main body (1) and is communicated with the second shunt pipe (29), a water storage shell (25) is arranged on the right side of the monitoring device main body (1), a micro pump (26) is arranged on the rear side of the water storage shell (25), the input end of the micro pump (26) is communicated with the water storage shell (25) through a pipeline, and a liquid pumping pipe (28) is arranged at the output end of the micro pump (26), the other end of the liquid pumping pipe (28) penetrates through the second shunt pipe (29) and the right side of the monitoring device main body (1) and is communicated with the first shunt pipe (21) on the right side, and the top of the second shunt pipe (29) is communicated with the water storage shell (25) through a circulating pipe;

a pipeline assembly (3), wherein the pipeline assembly (3) is arranged at the rear side of the monitoring device main body (1).

2. The high-low voltage switchgear monitoring device based on the wireless sensor network according to claim 1, characterized in that: the temperature sensor (24) is arranged on the inner wall of one side of the monitoring device main body (1), and the temperature sensor (24) is electrically connected with the wireless module which is electrically connected with the controller.

3. The high-low voltage switchgear monitoring device based on the wireless sensor network according to claim 2, characterized in that: the right side of monitoring device main part (1) inlays establishes and draws fan device (27), the left side of monitoring device main part (1) is inlayed and is equipped with the ventilation piece.

4. The high-low voltage switchgear monitoring device based on the wireless sensor network according to claim 3, characterized in that: the input end of the induced draft fan device (27) penetrates through the bottom of the water storage shell (25) through the air inlet pipe (210) and then penetrates through the top of the water storage shell (25).

5. The high-low voltage switchgear monitoring device based on the wireless sensor network according to claim 4, wherein: pipeline subassembly (3) are including setting up pipeline board (31) at monitoring devices main part (1) rear side, pipeline board (31) top evenly sets up multiunit locating plate (34), locating plate (34) top laminating fly leaf (35), the equal integrated into one piece lug in side outer wall bottom about fly leaf (35), lug bottom set up elastic telescopic rod (36), elastic telescopic rod (36) bottom is connected with pipeline board (31) top.

6. The high-low voltage switchgear monitoring device based on the wireless sensor network according to claim 5, characterized in that: the rear side of the pipeline plate (31) is uniformly provided with a plurality of groups of notches (32), and the notches (32) are internally provided with wire bundling rollers (33).

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