CN213690854U - Infrared remote tracking and diagnosing device for abnormal heating of charged equipment - Google Patents

Abstract

The utility model discloses an infrared remote tracking and diagnosing device for abnormal heating of a charged device, which comprises a box body, a cooling device, a heat radiating device, a protective device and an early warning device, wherein the early warning device diagnoses the temperature field change in the box body and controls the temperature in the cooling device and the heat radiating device to regulate and control the box body, and the protective device protects the cooling device and the early warning device, the utility model adopts the temperature regulating mode of combining the cooling device and the heat radiating device to realize the step regulation of the environment temperature of the charged device, ensure the environment temperature of the charged device to be in a stable state, greatly slow down the aging speed of the device and prolong the service life of the charged device, the utility model collects the temperature field change of the device in the device through the early warning device, establishes a characteristic model, collects real-time data to continuously carry out early warning analysis, and timely informs related personnel when the data is abnormal, the safety of the equipment is improved.

Description

Infrared remote tracking and diagnosing device for abnormal heating of charged equipment

Technical Field

The utility model belongs to the technical field of the electronic power, a electrified equipment infrared remote tracking and diagnostic device that generates heat unusually is related to.

Background

Along with the development of science and technology, the electric energy accounts for more and more high in energy, the electric power industry is a foundation stone of the whole industry, meanwhile, a plurality of industries rely on electric power, so that the detection on electric power faults is very important, and the purpose of real-time detection cannot be realized by detection personnel due to the complexity of circuits of the charged equipment and the inconvenience of installation positions of the charged equipment at present.

In addition, the electrified equipment has a plurality of circuits, the temperature field distribution is complex, the equipment is heated abnormally, the temperature is easy to cause the problems of combustion and the like, workers cannot know the problems in time and cannot prevent the problems before the problems occur, the economic loss is large, and the equipment effectively solves the problems.

Disclosure of Invention

The utility model discloses an overcome prior art not enough, provide a hot-line equipment infrared remote tracking and diagnostic device that generates heat unusually.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a hot-line equipment abnormal heating infrared remote tracking and diagnostic device which characterized in that: the temperature control box comprises a box body, a cooling device, a heat dissipation device, a protection device and an early warning device, wherein the early warning device diagnoses the temperature field change in the box body and controls the cooling device and the heat dissipation device to adjust the temperature in the control box body, and the protection device protects the cooling device and the early warning device.

Further, the method comprises the following steps of; the cooling device comprises a water inlet assembly and an air inlet assembly, the water inlet assembly comprises a water storage tank arranged in a tank body, a sensor module is fixedly arranged on the side face of the water storage tank and used for controlling the volume of water in the water storage tank, a first water inlet pipe is communicated with the upper side of the water storage tank, a first water inlet valve is communicated with the first water inlet pipe, the water inlet assembly further comprises a water inlet, a second water inlet pipe is communicated with the water storage tank between the water inlet and the water storage tank, a second water inlet valve is communicated with the second water inlet pipe, and the sensor module controls the opening and closing of the first water inlet valve and the second water inlet valve.

Further, the method comprises the following steps of; the air inlet subassembly includes the air inlet chamber, air inlet chamber side sets firmly the air vent that is used for balanced atmospheric pressure, air inlet chamber side sets firmly the air inlet motor, air inlet motor output shaft terminal surface sets firmly the flabellum, the rotation of air inlet motor control flabellum, be provided with the flow pipe in the air inlet chamber, the flow pipe includes the end of intaking, contacts pipe and play water end, intake end and storage water tank intercommunication, play water end and storage water tank upside intercommunication, the storage water tank forms the route with the flow pipe, circulates, contact the pipe and sets up to multilayer pipeline type structure, the air inlet direction is perpendicular to each other with contact pipe side, air inlet chamber side sets firmly the intercommunicating pore.

Further, the method comprises the following steps of; the utility model discloses a heat dissipation device, including box, power motor, transmission chamber, power motor output shaft, transmission chamber, power chamber, driven cone pulley, heat dissipation device, power motor, power cone pulley, power motor, heat dissipation device, the transmission chamber that sets firmly the symmetric position in the box, power motor output shaft and transmission chamber rotate to be connected, the power cone pulley that is located the drive intracavity has set firmly on the bull stick.

Further, the method comprises the following steps of; the heat dissipation device also comprises a second sliding cavity fixedly arranged on the upper side of the driving cavity on one side, a second communicating cavity penetrating through the upper side of the second sliding cavity and communicating the outside with the inner cavity, the rotating rod extends upwards into a second sliding cavity, the outer surface of the rotating rod is spirally connected with a second sealing plate which is in sliding connection with the second communicating cavity, the second sealing plate is in a state of communicating the lifting control outer part in the second communicating cavity with the inner cavity, a first sliding cavity is fixedly arranged at the upper side of the driving cavity at the other side, a first communicating cavity which penetrates through the side surface of the inner cavity is fixedly arranged, the rotating rod extends upwards into the first sliding cavity, the outer surface of the rotating rod is spirally connected with a first sealing plate in sliding connection with the first communicating cavity, the first sealing plate is in the communicating state with the inner cavity outside the lifting control of the first sliding cavity, and the rotating rod controls the lifting states of the second sealing plate and the first sealing plate.

Further, the method comprises the following steps of; the utility model discloses a protection device, including the protection piece of being connected with the box sets firmly, protection piece upper end extends to the exterior space, and the lower extreme extends to the inner chamber, protection piece up end sets firmly the humidity transducer who is used for detecting air humidity, humidity transducer is provided with the humidity value of formulating, the protection piece has set firmly the protection motor, the protection piece rotates and is provided with second guard plate and the first guard plate that is located both sides, the protection motor draws in and expandes and protects cooling device and early warning device through control second guard plate and first guard plate.

Further, the method comprises the following steps of; the early warning device collects the temperature field change of each instrument in the equipment, establishes a characteristic model, collects real-time data and continuously carries out early warning analysis, and timely informs related personnel when the data is abnormal, the early warning device comprises a data processing module, a power supply module, a data storage module, a warning module, an auxiliary module, a control module, a remote control center, an infrared sensor module, a temperature sensor and a warning module, the infrared sensor module is fixedly arranged on the lower end surface of a protective block, the infrared sensor module measures the thermal image of the surface temperature of the equipment and finds out the abnormal part of the temperature, the temperature sensor is provided with a plurality of groups for detecting the temperature value of the environment in an inner cavity, the real-time data collected by the infrared sensor module and the temperature sensor is transmitted to the data processing module and is compared with historical data in the data storage module, if the real-time data tends to abnormal data, data processing module is with this data storage to with data signal transmission to alarm module, warning module and control module, warning module sets firmly in the box upside, warning module includes warning light warning and pronunciation warning, after warning module received the signal, warns the periphery through warning light scintillation and pronunciation broadcast, alarm module carries out the information interaction through wireless or wired communication mode with remote control center, remote control center includes server or portable terminal, remote control center receives all data in the control module to file.

Further, the method comprises the following steps of; the early warning device also comprises a power supply module, wherein the power supply module supplies power to the early warning device, and an internal power supply or a direct-current power supply is adopted as a power supply mode; the early warning device comprises a data storage module, a control module and an auxiliary module, wherein the data storage module is arranged as a hard disk or a memory card and is used for storing programs and data in the early warning device and data collected by an infrared sensor module and a temperature sensor, the control module is used for controlling the whole action of the early warning device, and the early warning device further comprises the auxiliary module which comprises a device with an auxiliary function.

Further, the method comprises the following steps of; the sensor module comprises a first liquid level sensor positioned on the upper side, a third liquid level sensor positioned on the lower side and a second liquid level sensor positioned between the first liquid level sensor and the third liquid level sensor, when the liquid level is lower than the second liquid level sensor and higher than the third liquid level sensor, the second liquid level sensor does not detect a liquid level signal, the third liquid level sensor detects a liquid level signal, the water storage tank is in water shortage, a second water inlet valve is opened, rainwater flows into the water storage tank through a second water inlet pipe until the first liquid level sensor detects the liquid level signal, the second water inlet valve is closed, when the liquid level is lower than the third liquid level sensor, the water storage tank is in a serious water shortage state, the first water inlet valve is opened, water flows into the water storage tank through the first water inlet pipe until the.

Further, the method comprises the following steps of; the water inlet is of a funnel-shaped structure, a latticed filter screen is arranged on the upper side of the water inlet and used for filtering large sundries, filter cotton is fixedly arranged on the lower side of the water inlet and used for filtering small sundries, the distance between the lower side surface of the second protection plate and the upper end surface of the box body is larger than the distance between the upper end surface of the water inlet and the upper end surface of the box body, the water inlet can be completely covered by the second protection plate, a lifting cavity is fixedly arranged in the protection plate, the protection motor is fixedly arranged in the lifting cavity, a connecting rod rotatably connected with the upper end surface of the lifting cavity is fixedly arranged on an output shaft of the protection motor, guide rods positioned on the left side and the right side of the connecting rod are fixedly arranged between the upper end surface and the lower end surface of the lifting cavity, a second moving block and a first moving block which are slidably connected with the, the second protection plate is located on the upper side of the first protection plate and connected with the second moving block through a second connecting rod, the first moving block is connected with the first protection plate through a first connecting rod, the humidity sensor controls the starting of the protection motor according to the detected air humidity value, and then controls the second moving block and the first moving block to move up and down, so that the second protection plate is folded or unfolded under the action of the second moving block and the second connecting rod, the water inlet is controlled to be in a communicated or covered state, the first protection plate is unfolded or folded under the action of the first moving block and the first connecting rod, and the early warning device is protected.

To sum up, the utility model discloses an useful part lies in:

1) the utility model discloses a temperature regulation mode that cooling device and heat abstractor combined has realized adjusting the ladder of electrified equipment ambient temperature, guarantees that electrified equipment ambient temperature is in stable state, has slowed down equipment ageing speed greatly, has improved electrified equipment's life.

2) The utility model discloses a sensor module controls the capacity of water, has improved the accuracy of control.

3) The utility model discloses well water pipe adopts multilayer pipeline type structure, has strengthened the contact surface of wind with the water pipe, greatly reduced the temperature of wind to improve the regulation dynamics to the temperature.

4) The utility model discloses a protector protects cooling device and heat abstractor, has improved cooling device and heat abstractor's life greatly.

5) The utility model discloses a temperature field of equipment changes in the early warning device collection equipment, establishes characteristic model to collect real-time data and constantly carry out early warning analysis, in time inform relevant personnel when data are unusual, improved the security of equipment.

Drawings

Fig. 1 is a schematic view of the device of the present invention.

Fig. 2 is a schematic sectional view of a-a in fig. 1.

Fig. 3 is a schematic view in the direction B in fig. 1.

Fig. 4 is a schematic view in the direction C in fig. 1.

Fig. 5 is a schematic view of the flow of the middle warning device of the present invention.

The labels in the figure are: the water inlet device comprises a box body 100, a first water inlet valve 101, a sensor module 103, a water storage tank 104, a water flowing pipe 105, a vent hole 106, an air inlet motor 107, fan blades 108, an air inlet cavity 109, a communication hole 111, a driven cone pulley 112, a transmission cavity 113, a driving cone pulley 114, a rotating shaft 115, a driving cone pulley 116, a rotating rod 117, a driving cavity 118, a power cone pulley 119, a first sliding cavity 120, a first sealing plate 121, an infrared sensor module 122, a warning module 125, a first protective plate 128, a first connecting rod 129, a protective motor 130, a first moving block 131, a guide rod 132, a second moving block 133, a lifting cavity 134, a protective block 135, a humidity sensor 136, a second protective plate 137, a second connecting rod 139, filter cotton 140, a filter screen 141, a water inlet 142, a second 143, a second water inlet pipe 144, a first water inlet pipe 145, a connecting rod 146, a temperature sensor 147, an inner cavity water inlet valve 148, a first communication, The device comprises a second sliding cavity 161, a second communicating cavity 162, a contact pipe 200, a water inlet end 201, a water outlet end 202, a first liquid level sensor 300, a second liquid level sensor 301, a third liquid level sensor 302, a data processing module 400, a power supply module 401, a data storage module 402, an alarm module 403, an auxiliary module 404, a control module 405 and a remote control center 406.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The present invention can also be implemented or applied through other different specific embodiments, and various details in the present specification can be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic concept of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the form, amount and ratio of the components in actual implementation may be changed at will, and the layout of the components may be more complicated.

All directional indicators (such as upper, lower, left, right, front, rear, horizontal, vertical … …) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture, if the specific posture changes, the directional indicator changes accordingly.

The first embodiment is as follows:

as shown in fig. 1 to 5, an infrared remote tracking and diagnosing apparatus for abnormal heating of a charged device includes a box 100, a cooling device, a heat dissipation device, a protection device and an early warning device, the early warning device diagnoses a temperature field change in the box 100 and controls the cooling device and the heat dissipation device to adjust and control a temperature in the box 100, and the protection device protects the cooling device and the early warning device.

As shown in fig. 1 and 4, the cooling device includes a water inlet assembly and an air inlet assembly, the water inlet assembly includes a water storage tank 104 located in the box 100, a sensor module 103 is fixedly disposed on a side surface of the water storage tank 104, the sensor module 103 controls a volume of water in the water storage tank 104, the sensor module 103 includes a first liquid level sensor 300 located on an upper side, a third liquid level sensor 302 located on a lower side, and a second liquid level sensor 301 located therebetween, a first water inlet pipe 145 is disposed on an upper side of the water storage tank 104 in a communicating manner, a first water inlet valve 101 located in an external space is disposed on the first water inlet pipe 145 in a communicating manner, the water inlet assembly further includes a water inlet 142, the water inlet 142 is located on the upper side of the box 100, the water inlet 142 is set to be in a funnel-shaped structure, a grid-shaped filter screen 141 is, the lower side of the water inlet 142 is fixedly provided with filter cotton 140 for filtering small impurities such as stones and the like, so as to avoid damaging the pipeline and further prolong the service life of the pipeline, a second water inlet pipe 144 is communicated between the water inlet 142 and the water storage tank 104, the second water inlet pipe 144 is communicated with a second water inlet valve 143 positioned on the outer side, in the implementation process, when the liquid level is lower than the second liquid level sensor 301 and higher than the third liquid level sensor 302, namely the second liquid level sensor 301 does not detect a liquid level signal, and the third liquid level sensor 302 detects a liquid level signal and indicates that the water storage tank 104 is in a water shortage state, at the moment, the second water inlet valve 143 is opened, rainwater flows into the water storage tank 104 through the second water inlet pipe 144 until the first liquid level sensor 300 detects the liquid level signal, the second water inlet valve 143 is closed, and when the liquid level is lower than the third liquid level, at this time, the first water inlet valve 101 is opened, and water flows into the water storage tank 104 through the first water inlet pipe 145 until the first liquid level sensor 300 detects a liquid level signal, so that the first water inlet valve 101 is closed.

From the above, the water inlet manner of the water storage tank 104 includes two types, the first type is to feed water through the first water inlet pipe 145, the first water inlet pipe 145 is connected with an external water inlet device, the circulation of water is controlled by the opening and closing of the first feed valve 101, the second is fed through the second feed pipe 144, the method utilizes rainwater, specifically, the rainwater falls into the water inlet 142, is filtered by the filter screen 141 and the filter cotton 140 and then flows into the water storage tank 104, when the level of water in the storage tank 104 is between the second level sensor 301 and the third level sensor 302, adopts the second mode, collects rainwater to adjust the liquid level height, saves water, relieves the pressure of water resources, when the liquid level of the water in the water storage tank 104 is lower than the third liquid level sensor 302, the water is in a serious water shortage state, and the first scheme is started at the moment, so that the purpose of quickly storing water is achieved.

The air inlet component is positioned at the lower side of the water inlet component, the air inlet component comprises an air inlet cavity 109, an air vent 106 is fixedly arranged on the side surface of the air inlet cavity 109 and used for balancing air pressure in the air inlet cavity 109, an air inlet motor 107 is fixedly arranged on the side surface of the air inlet cavity 109, a fan blade 108 is fixedly arranged on the end surface of an output shaft of the air inlet motor 107, the air inlet motor 107 controls the rotation of the fan blade 108, a water flowing pipe 105 is arranged in the air inlet cavity 109, the water flowing pipe 105 comprises a water inlet end 201, a contact pipe 200 and a water outlet end 202, the water inlet end 201 is communicated with the water storage tank 104, the water outlet end 202 is communicated with the upper side of the water storage tank 104, the water storage tank 104 and the water flowing pipe 105 form a passage, water flows to the contact pipe 200 from the water inlet end 201 and flows into the water storage tank 104 through the water outlet end 202, so, the side is the position with the largest area of the side of the contact pipe 200, the contact surface of the wind and the pipeline is enhanced, the side of the air inlet cavity 109 is fixedly provided with a plurality of communicating holes 111, in the implementation process, the air inlet motor 107 is started to drive the fan blades 108 to rotate, the wind contacts the contact pipe 200 when passing through the water flowing pipe 105, the temperature of the wind is greatly reduced, and therefore the adjusting force of the temperature is improved.

As shown in fig. 1-3, an inner cavity 148 located at one side of the cooling device and communicated with the communication hole 111 is fixedly disposed on the box 100, the heat dissipation device includes a power motor 150 located at the lower side of the inner cavity 148, according to the visual angle shown in fig. 3, a transmission cavity 113 located at a vertically symmetrical position of the power motor 150 is fixedly disposed in the box 100, output shafts at two sides of the power motor 150 are rotatably connected with the transmission cavity 113, a driving cone pulley 114 located in the transmission cavity 113 is fixedly disposed on an output shaft of the power motor 150, a driving cavity 118 is symmetrically disposed at left and right of the transmission cavity 113, a rotating rod 117 is rotatably disposed in the driving cavity 118, a power cone pulley 119 located in the driving cavity 118 is fixedly disposed on the rotating rod 117, a rotating shaft 115 is rotatably disposed between the transmission cavity 113 and the driving cavity 118, a driven cone pulley 112 located in the transmission cavity 113 and engaged with the driving cone pulley 114 is fixedly disposed on the rotating shaft, the driving cone pulley 116 which is positioned in the driving cavity 118 and is engaged with the power cone pulley 119 is fixedly arranged on the rotating shaft 115, wherein the upper side of the driving cavity 118 positioned on the left side is fixedly provided with a second sliding cavity 161, the upper side of the second sliding cavity 161 is fixedly provided with a through second communicating cavity 162, the outside is communicated with the inner cavity 148 through the second communicating cavity 162, the rotating rod 117 extends upwards into the second sliding cavity 161, the outer surface of the rotating rod 117 is spirally connected with a second sealing plate 160 which is slidably connected with the second communicating cavity 162, the outer surface of the rotating rod 117 is lifted in the second communicating cavity 162 through the second sealing plate 160 so as to control the communication state between the outside and the inner cavity 148, the upper side of the driving cavity 118 positioned on the right side is fixedly provided with a first sliding cavity 120, the side surface of the inner cavity 148 is fixedly provided with a through first communicating cavity 149, the rotating rod 117 extends upwards into the first sliding cavity 120, the outer surface of the rotating rod 117 is spirally connected with a first sealing plate 121 which is slidably connected, by the structure, the power motor 150 is started to synchronously control the first sealing plate 121 and the second sealing plate 160 to lift, when the first sealing plate 121 and the second sealing plate 160 fall, two sides of the inner cavity 148 are communicated with the outside, so that the air circulation flow is realized, the cooling effect of equipment in the inner cavity 148 is improved, when the first sealing plate 121 and the second sealing plate 160 rise, the inner cavity 148 forms a closed space, the equipment is prevented from being splashed by rainwater, and the safety is improved.

As shown in fig. 1, the protection device includes a protection block 135, the protection block 135 is fixedly disposed on the box 100, an upper end of the protection block extends to an external space, a lower end of the protection block extends into the inner cavity 148, a humidity sensor 136 is fixedly disposed on an upper end surface of the protection block 135, the humidity sensor 136 detects air humidity, the humidity sensor 136 is provided with a set humidity value, a lifting cavity 134 is fixedly disposed in the protection block 135, a protection motor 130 is fixedly disposed on a lower side surface of the lifting cavity 134, a connecting rod 146 rotatably connected to an upper end surface of the lifting cavity 134 is fixedly disposed on an output shaft of the protection motor 130, guide rods 132 disposed on left and right sides of the connecting rod 146 are fixedly disposed between the upper and lower end surfaces of the lifting cavity 134, a second moving block 133 and a first moving block 131 slidably connected to the guide rods 132 are spirally connected to an outer surface of the connecting rod, in this embodiment, opposite threads are disposed on upper and lower sides of an outer surface of the connecting rod 146, after the protection motor 130 is started, the second moving block 133 and the first moving block 131 move in opposite movement directions, the second protection plate 137 and the first protection plate 128 are rotatably disposed on left and right sides of the lifting cavity 134, the second protection plate 137 is located on an upper side of the first protection plate 128, a distance between a lower side surface of the second protection plate 137 and an upper end surface of the tank 100 is greater than a distance between an upper end surface of the water inlet 142 and an upper end surface of the tank 100, the water inlet 142 can be completely covered by the second protection plate 137, the second protection plate 137 and the second moving block 133 are connected by the second connecting rod 139, the first moving block 131 and the first protection plate 128 are connected by the first connecting rod 129, and when the humidity sensor 136 detects that the humidity in the air is greater than a predetermined value, the protection motor, the second moving block 133 and the first moving block 131 move up and down, so that the second protection plate 137 rotates to a vertical state under the action of the second moving block 133 and the second connecting rod 139, the second protection plate is separated from a state of covering the water inlet 142, the water inlet 142 is directly communicated with an external space to collect rainwater, and the first protection plate 128 rotates to a horizontal state under the action of the first moving block 131 and the first connecting rod 129 to protect the early warning device, so that the problems that the early warning device is wetted by rainwater, the equipment rusts and the like are avoided.

As shown in fig. 1 and 5, the early warning apparatus collects temperature field changes of each device in the device, establishes a characteristic model, collects real-time data, and continuously performs early warning analysis, and timely notifies related personnel when the data is abnormal, in this embodiment, the early warning apparatus includes a data processing module 400, a power supply module 401, a data storage module 402, an alarm module 403, an auxiliary module 404, a control module 405, a remote control center 406, an infrared sensor module 122, a temperature sensor 147, and an alarm module 125, the infrared sensor module 122 is fixedly disposed on a lower end surface of the protection block 135, the infrared sensor module 122 measures a thermal image of a surface temperature of the device, and finds a part with abnormal temperature, the temperature sensor 147 is provided with multiple groups for detecting a temperature value of an environment in the cavity 148, and the real-time data collected by the infrared sensor module 122 and the temperature sensor 147 is transmitted to the data processing module 400, and compare with historical data in the data storage module 402, if real-time data when tending to the abnormal data, data processing module 400 is with this data storage to transmit data signal to alarm module 403, warning module 125 and control module 405, warning module 125 sets firmly in the box 100 upside, warning module 125 includes warning light warning and pronunciation warning, works as after warning module 125 receives the signal, warns the periphery through warning light scintillation and pronunciation broadcast, reminds relevant personnel this place live equipment temperature anomaly on the one hand. On the other hand, the alarm module 403 performs information interaction with the remote control center 406 in a wireless or wired communication manner, the remote control center 406 includes a server or a portable terminal, and the remote control center 406 receives and archives all data in the control module 405.

The early warning device further comprises a power supply module 401, the power supply module 401 supplies power to the early warning device, and an internal power supply such as a storage battery or a direct-current power supply can be adopted as the power supply mode; the data storage module 402 is configured to be a storage medium such as a hard disk and a memory card and a related interface, stores programs and data in the warning device and data collected by the infrared sensor module 122 and the temperature sensor 147, and the control module 405 controls the overall actions of the warning device.

The early warning device further comprises an auxiliary module 404, and the auxiliary module 404 may comprise a device with auxiliary function, such as a device with air drying function, to further improve the functionality of the device.

To sum up, in the implementation process of this embodiment, the humidity sensor 136 detects the humidity value of the air, when the humidity value is higher than the predetermined value, the first protection plate 128 is unfolded to cover the warning module 125, so as to prevent the warning module 125 from being wetted by the rain water, the second protection plate 137 is folded, the water inlet 142 collects the rain water, when the humidity value is lower than the predetermined value, the first protection plate 128 is folded, the second protection plate 137 is unfolded to cover the water inlet 142, so as to prevent the direct sunlight and reduce the accumulation of the sundries, when the temperature sensor 147 detects that the ambient temperature is higher than the predetermined value, the power motor 150 is started to drive the first sealing plate 121 and the second sealing plate 160 to move downward, so as to communicate the left and right of the inner cavity 148, adjust the temperature through the flow of the wind, when the temperature sensor 147 detects that the ambient temperature reaches the predetermined value, the air inlet motor 107 is started, the temperature of the environment is greatly reduced by the inlet air cooled by the contact pipe 200, so that the purpose of rapid cooling is realized.

It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts shall belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a hot-line equipment abnormal heating infrared remote tracking and diagnostic device which characterized in that: the temperature control box comprises a box body, a cooling device, a heat dissipation device, a protection device and an early warning device, wherein the early warning device diagnoses the temperature field change in the box body and controls the cooling device and the heat dissipation device to adjust the temperature in the control box body, and the protection device protects the cooling device and the early warning device.

2. The infrared remote tracking and diagnosing device for abnormal heating of a charged device according to claim 1, wherein: the cooling device comprises a water inlet assembly and an air inlet assembly, the water inlet assembly comprises a water storage tank arranged in a tank body, a sensor module is fixedly arranged on the side face of the water storage tank and used for controlling the volume of water in the water storage tank, a first water inlet pipe is communicated with the upper side of the water storage tank, a first water inlet valve is communicated with the first water inlet pipe, the water inlet assembly further comprises a water inlet, a second water inlet pipe is communicated with the water storage tank between the water inlet and the water storage tank, a second water inlet valve is communicated with the second water inlet pipe, and the sensor module controls the opening and closing of the first water inlet valve and the second water inlet valve.

3. The infrared remote tracking and diagnosing device for abnormal heating of a charged device according to claim 2, wherein: the air inlet subassembly includes the air inlet chamber, air inlet chamber side sets firmly the air vent that is used for balanced atmospheric pressure, air inlet chamber side sets firmly the air inlet motor, air inlet motor output shaft terminal surface sets firmly the flabellum, the rotation of air inlet motor control flabellum, be provided with the flow pipe in the air inlet chamber, the flow pipe includes the end of intaking, contacts pipe and play water end, intake end and storage water tank intercommunication, play water end and storage water tank upside intercommunication, the storage water tank forms the route with the flow pipe, circulates, contact the pipe and sets up to multilayer pipeline type structure, the air inlet direction is perpendicular to each other with contact pipe side, air inlet chamber side sets firmly the intercommunicating pore.

4. The infrared remote tracking and diagnosing device for abnormal heating of a charged device according to claim 1, wherein: the utility model discloses a heat dissipation device, including box, power motor, transmission chamber, power motor output shaft, transmission chamber, power chamber, driven cone pulley, heat dissipation device, power motor, power cone pulley, power motor, heat dissipation device, the transmission chamber that sets firmly the symmetric position in the box, power motor output shaft and transmission chamber rotate to be connected, the power cone pulley that is located the drive intracavity has set firmly on the bull stick.

5. The infrared remote tracking and diagnosing device for abnormal heating of charged equipment according to claim 4, wherein: the heat dissipation device also comprises a second sliding cavity fixedly arranged on the upper side of the driving cavity on one side, a second communicating cavity penetrating through the upper side of the second sliding cavity and communicating the outside with the inner cavity, the rotating rod extends upwards into a second sliding cavity, the outer surface of the rotating rod is spirally connected with a second sealing plate which is in sliding connection with the second communicating cavity, the second sealing plate is in a state of communicating the lifting control outer part in the second communicating cavity with the inner cavity, a first sliding cavity is fixedly arranged at the upper side of the driving cavity at the other side, a first communicating cavity which penetrates through the side surface of the inner cavity is fixedly arranged, the rotating rod extends upwards into the first sliding cavity, the outer surface of the rotating rod is spirally connected with a first sealing plate in sliding connection with the first communicating cavity, the first sealing plate is in the communicating state with the inner cavity outside the lifting control of the first sliding cavity, and the rotating rod controls the lifting states of the second sealing plate and the first sealing plate.

6. The infrared remote tracking and diagnosing device for abnormal heating of a charged device according to claim 2, wherein: the utility model discloses a protection device, including the protection piece of being connected with the box sets firmly, protection piece upper end extends to the exterior space, and the lower extreme extends to the inner chamber, protection piece up end sets firmly the humidity transducer who is used for detecting air humidity, humidity transducer is provided with the humidity value of formulating, the protection piece has set firmly the protection motor, the protection piece rotates and is provided with second guard plate and the first guard plate that is located both sides, the protection motor draws in and expandes and protects cooling device and early warning device through control second guard plate and first guard plate.

7. The infrared remote tracking and diagnosing device for abnormal heating of a charged device according to claim 1, wherein: the early warning device collects the temperature field change of each instrument in the equipment, establishes a characteristic model, collects real-time data and continuously carries out early warning analysis, and timely informs related personnel when the data is abnormal, the early warning device comprises a data processing module, a power supply module, a data storage module, a warning module, an auxiliary module, a control module, a remote control center, an infrared sensor module, a temperature sensor and a warning module, the infrared sensor module is fixedly arranged on the lower end surface of a protective block, the infrared sensor module measures the thermal image of the surface temperature of the equipment and finds out the abnormal part of the temperature, the temperature sensor is provided with a plurality of groups for detecting the temperature value of the environment in an inner cavity, the real-time data collected by the infrared sensor module and the temperature sensor is transmitted to the data processing module and is compared with historical data in the data storage module, if the real-time data tends to abnormal data, data processing module is with this data storage to with data signal transmission to alarm module, warning module and control module, warning module sets firmly in the box upside, warning module includes warning light warning and pronunciation warning, after warning module received the signal, warns the periphery through warning light scintillation and pronunciation broadcast, alarm module carries out the information interaction through wireless or wired communication mode with remote control center, remote control center includes server or portable terminal, remote control center receives all data in the control module to file.

8. The infrared remote tracking and diagnosing device for abnormal heating of a charged device according to claim 7, wherein: the early warning device also comprises a power supply module, wherein the power supply module supplies power to the early warning device, and an internal power supply or a direct-current power supply is adopted as a power supply mode; the early warning device comprises a data storage module, a control module and an auxiliary module, wherein the data storage module is arranged as a hard disk or a memory card and is used for storing programs and data in the early warning device and data collected by an infrared sensor module and a temperature sensor, the control module is used for controlling the whole action of the early warning device, and the early warning device further comprises the auxiliary module which comprises a device with an auxiliary function.

9. The infrared remote tracking and diagnosing device for abnormal heating of a charged device according to claim 2, wherein: the sensor module comprises a first liquid level sensor positioned on the upper side, a third liquid level sensor positioned on the lower side and a second liquid level sensor positioned between the first liquid level sensor and the third liquid level sensor, when the liquid level is lower than the second liquid level sensor and higher than the third liquid level sensor, the second liquid level sensor does not detect a liquid level signal, the third liquid level sensor detects a liquid level signal, the water storage tank is in water shortage, a second water inlet valve is opened, rainwater flows into the water storage tank through a second water inlet pipe until the first liquid level sensor detects the liquid level signal, the second water inlet valve is closed, when the liquid level is lower than the third liquid level sensor, the water storage tank is in a serious water shortage state, the first water inlet valve is opened, water flows into the water storage tank through the first water inlet pipe until the.

10. The infrared remote tracking and diagnosing device for abnormal heating of charged equipment according to claim 6, wherein: the water inlet is of a funnel-shaped structure, a latticed filter screen is arranged on the upper side of the water inlet and used for filtering large sundries, filter cotton is fixedly arranged on the lower side of the water inlet and used for filtering small sundries, the distance between the lower side surface of the second protection plate and the upper end surface of the box body is larger than the distance between the upper end surface of the water inlet and the upper end surface of the box body, the water inlet can be completely covered by the second protection plate, a lifting cavity is fixedly arranged in the protection plate, the protection motor is fixedly arranged in the lifting cavity, a connecting rod rotatably connected with the upper end surface of the lifting cavity is fixedly arranged on an output shaft of the protection motor, guide rods positioned on the left side and the right side of the connecting rod are fixedly arranged between the upper end surface and the lower end surface of the lifting cavity, a second moving block and a first moving block which are slidably connected with the, the second protection plate is located on the upper side of the first protection plate and connected with the second moving block through a second connecting rod, the first moving block is connected with the first protection plate through a first connecting rod, the humidity sensor controls the starting of the protection motor according to the detected air humidity value, and then controls the second moving block and the first moving block to move up and down, so that the second protection plate is folded or unfolded under the action of the second moving block and the second connecting rod, the water inlet is controlled to be in a communicated or covered state, the first protection plate is unfolded or folded under the action of the first moving block and the first connecting rod, and the early warning device is protected.

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