CN213579494U - Secondary water supply intelligent pump room temperature and humidity early warning regulation and control system - Google Patents

Abstract

A secondary water supply intelligent pump room temperature and humidity early warning regulation and control system belongs to the field of security protection of secondary water supply pump rooms in municipal water supply and comprises an intelligent controller, an outdoor humidity sensor, an indoor temperature sensor and an indoor humidity sensor, wherein the outdoor humidity sensor and the indoor humidity sensor respectively transmit detected humidity information outside the pump room and in the pump room to the intelligent controller, and the intelligent controller starts an air exhaust mechanism to work according to the information, so that the humidity in the pump room is reduced; indoor temperature sensor gives intelligent control ware with temperature information transfer in the pump house, and intelligent control ware starts water-cooling system work in view of the above to lower the temperature in the pump house. The utility model discloses utilize intelligent control ware and temperature and humidity sensor's combination, ensure the real time monitoring and the timely adjustment to temperature and humidity in the pump house, avoided because the humiture is too high to lead to water supply equipment's damage, life's reduction, cause bigger economic loss even.

Description

Secondary water supply intelligent pump room temperature and humidity early warning regulation and control system

Technical Field

The utility model relates to the security protection field in the secondary water supply pump house of municipal water supply, specific secondary water supply intelligent pump house humiture early warning regulation and control system that says so.

Background

The water supply pump room can improve the working environment of the pump room and strengthen safety management on the basis of intelligent water supply, and ensure that the water for residents is relieved.

However, the working environment of the existing pump room equipment is not good, remote control of temperature and humidity is lost in general pump room management, and when the temperature of the pump room is too high or the humidity of the pump room is too high, water supply equipment is easily damaged, accidents are caused, and the service life of the equipment is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve current pump house because the too high temperature or the too big problem that leads to equipment damage, cause accident and influence life of humidity, the utility model provides a secondary water supply intelligent pump house humiture early warning regulation and control system, this system utilizes intelligent control ware and temperature and humidity sensor's combination, ensures the real time monitoring and the timely adjustment to temperature and humidity in the pump house, has avoided leading to water supply equipment's damage, life's reduction because the humiture is too high, causes bigger economic loss even.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted and be: a secondary water supply intelligent pump room temperature and humidity early warning regulation and control system comprises an intelligent controller, an outdoor humidity sensor arranged outside a pump room, an indoor temperature sensor and an indoor humidity sensor arranged in the pump room, wherein the outdoor humidity sensor and the indoor humidity sensor respectively transmit detected humidity information outside the pump room and in the pump room to the intelligent controller, and the intelligent controller starts an exhaust mechanism arranged in the pump room to work according to the humidity and the humidity difference of the outdoor humidity sensor and the indoor humidity sensor, so that the humidity in the pump room is reduced; indoor temperature sensor transmits the temperature information in the pump room that detects for intelligent control ware, and intelligent control ware is according to this temperature information, starts the work of the water-cooling system that sets up in the pump room to cool down in the pump room.

As a scheme of above-mentioned intelligent pump house humiture early warning regulation and control system, exhaust mechanism includes a ventilator, and through the tee junction to the first exhaust pipe of airing exhaust outside the pump house and the second exhaust pipe of the interior work heating equipment of orientation pump house on the air exit of this ventilator, is provided with first solenoid valve and second solenoid valve on first exhaust pipe and second exhaust pipe respectively, just intelligent control decides opening or closing of first solenoid valve and second solenoid valve according to indoor humidity transducer and outdoor humidity transducer's difference.

As another scheme of the above intelligent pump room temperature and humidity early warning and control system, the water-cooling system comprises a water conduit connected to a tap water supply pipeline through a flange and at least two thin-wall water tanks suspended on the wall of the pump room and connected in series through a pipeline, the water conduit is connected with a diversion water pipe controlled by a valve control assembly, the diversion water pipe introduces tap water in the tap water supply pipeline into the thin-wall water tanks connected in series to carry out water-cooling in the pump room, each thin-wall water tank is a closed box body formed by welding steel plates with the thickness of 2-3mm and is attached to the wall of the pump room, the whole thickness of the thin-wall water tank is 2-3cm, the area of the thin-wall water tank accounts for at least 1/4 of the wall of the pump room, the thin-wall water tank located in the series structure and farthest from the diversion water pipe is provided with a drain pipe, and the tail end, to form flowing water.

As another scheme of the temperature and humidity early warning and control system for the intelligent pump room, the valve control assembly is a valve bank formed by connecting a water pressure reducing valve, a manual control valve and an electromagnetic valve in series, the water pressure reducing valve and the manual control valve are in a normally open state, and the electromagnetic valve is controlled to be opened and closed by an intelligent controller.

As another scheme of the intelligent pump room temperature and humidity early warning and control system, a liquid level sensor for monitoring the water storage height in the water storage tank is arranged in the water storage tank, the liquid level sensor is connected with an intelligent controller, and the intelligent controller controls a drainage pump to discharge water in the water storage tank to the outside for garden irrigation.

As another scheme of the above-mentioned intelligent pump room temperature and humidity early warning and control system, the drain pipe on the thin-wall water tank farthest from the diversion water pipe in the series structure is connected with a water-cooled storage rack arranged in the pump room, the intelligent controller is arranged on the water-cooled storage rack, the water-cooled commodity shelf is arranged close to the wall of the pump room and comprises at least one layer of commodity shelf supported by a plurality of upright posts, a commodity space for placing heating equipment is formed between the commodity shelf and the ground or between the commodity shelf and the commodity shelf, one side of the water-cooled commodity shelf, which is close to the wall of the pump room, is provided with a heat radiation steel plate which is contacted with the wall of the pump room, and wall-attached water-cooling pipes are distributed on the surface of the heat dissipation steel plate from top to bottom, the upper ends of the wall-attached water-cooling pipes are provided with cooling water inlet pipes connected with the water discharge pipe of the thin-wall water tank, the lower ends of the wall-attached water-cooling pipes penetrate out of the bottom of the water-cooled storage rack to form cooling water discharge pipes, and the tail ends of the cooling water discharge pipes extend into the water storage tank.

As another scheme of the intelligent pump room temperature and humidity early warning and control system, the object placing plate is composed of two horizontal supporting plates, a containing cavity is formed between the two horizontal supporting plates, a supporting water-cooling tube is distributed in the containing cavity, the supporting water-cooling tube is distributed in a winding mode in the containing cavity and is connected into the wall-attached water-cooling tube in series, and therefore a through cooling water flow channel is formed between the supporting water-cooling tube and the wall-attached water-cooling tube.

As another scheme of the above intelligent pump room temperature and humidity early warning and control system, the temperature and humidity early warning and control system further comprises a display and alarm device connected with the intelligent controller, wherein the display and alarm device comprises a liquid crystal display screen for displaying temperature and humidity information and an audible and visual alarm controlled by the intelligent controller.

Compared with the prior art, the utility model has the advantages of as follows:

1) the utility model utilizes the combination of the intelligent controller and the temperature and humidity sensor to ensure the real-time monitoring and timely adjustment of the temperature and the humidity in the pump room, thereby avoiding the damage of water supply equipment and the reduction of the service life caused by overhigh temperature and humidity, and even causing greater economic loss;

2) the utility model discloses in through setting up two indoor outdoor humidity transducer, set up two different directional exhaust pipes on the air exit with the exhaust fan simultaneously, intelligent control ware is according to the data of two humidity transducer inside and outside the pump room, judge whether outdoor humidity is suitable for airing exhaust, if outdoor humidity is low, then to outdoor air exhaust, if outdoor humidity is higher than pump room humidity, continue to the outdoor effect of airing exhaust and can not be very ideal, then increased the pump room inner loop this moment, make the interior air of pump room discharge towards the equipment that generates heat, when utilizing and blowing to cool down equipment, increased the interior air flow of pump room and dehumidified;

3) the utility model discloses a water-cooling system utilizes the thin wall water tank to cool down in the pump room in injecting into the thin wall water tank on the pump room wall through drawing forth some water from the running water supply channel in, and the running water in the thin wall water tank cools down through the electronic equipment that generates heat on the water-cooled supporter opposition thing frame again in addition, has prevented extra loss and the accident hidden danger that spare part operation produced under the high temperature condition.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a control schematic diagram of the intelligent controller of the present invention;

FIG. 3 is a schematic side view of a water-cooled rack;

FIG. 4 is a schematic view of the internal structure of a thin-walled water tank;

reference numerals: 1. an intelligent controller, 101, an indoor temperature sensor, 102, an indoor humidity sensor, 103, an outdoor humidity sensor, 2, a water-cooled storage rack, 201, a vertical column, 202, a storage plate, 203, a storage space, 204, a heat dissipation steel plate, 205, an adherence water cooling pipe, 206, a cooling water inlet pipe, 207, a cooling water discharge pipe, 208, a support water cooling pipe, 3, a water-cooled cooling system, 301, a water diversion pipe, 302, a valve control component, 303, a diversion water pipe, 304, a thin-wall water tank, 305, a reservoir, 306, a liquid level sensor, 307, a drainage pump, 4, an exhaust mechanism, 401, a first exhaust pipe, 402, a first electromagnetic valve, 403, a second exhaust pipe, 404, a second electromagnetic valve, 5, a tap water supply pipeline, 6, a display and alarm device.

Detailed Description

The technical solution of the present invention will be further explained in detail with reference to the following embodiments, and the sensors, controllers, etc. not described in the following embodiments of the present invention are all conventional components in the art, and the assembling and connecting manner thereof is well known to those skilled in the art, and therefore will not be described in detail. The utility model discloses in outdoor humidity transducer 102 in outdoor to and exhaust mechanism 4 in first blast pipe 401 outside the pump room, all refer to the above-ground external spacious environment, and underground environment such as non-underground garage.

Example 1

As shown in fig. 1 and 2, the secondary water supply intelligent pump room temperature and humidity early warning and regulation system comprises an intelligent controller 1, an outdoor humidity sensor 103 arranged outside the pump room, an indoor temperature sensor 101 and an indoor humidity sensor 102 arranged in the pump room, wherein the outdoor humidity sensor 103 and the indoor humidity sensor 102 respectively transmit detected humidity information outside the pump room and in the pump room to the intelligent controller 1, and the intelligent controller 1 starts an exhaust mechanism 4 arranged in the pump room to work according to the humidity and the humidity difference of the two, so that the humidity in the pump room is reduced; indoor temperature sensor 101 transmits the temperature information in the pump room that detects for intelligent control ware 1, and intelligent control ware 1 is according to this temperature information, starts the work of the water-cooling system 3 that sets up in the pump room to cool down in the pump room.

The basic embodiments of the present invention are described above, and further improvements, optimizations and limitations can be made on the above basis, so as to obtain the following embodiments:

example 2

This embodiment is an improved scheme based on embodiment 1, and the main structure thereof is the same as embodiment 1, and the improvement point is that: as shown in fig. 1, the exhaust mechanism 4 includes an exhaust fan, and a first exhaust pipe 401 for exhausting air to the outside of the pump room and a second exhaust pipe 403 for operating the heat generating device in the pump room are connected to an exhaust outlet of the exhaust fan through a tee joint, a first electromagnetic valve 402 and a second electromagnetic valve 404 are respectively disposed on the first exhaust pipe 401 and the second exhaust pipe 403, and the intelligent controller 1 determines the opening or closing of the first electromagnetic valve 402 and the second electromagnetic valve 404 according to the difference between the indoor humidity sensor 102 and the outdoor humidity sensor 103.

In this embodiment, the exhaust fan may be replaced by an exhaust fan, and the drawn air is directly discharged to a place on the ground through a hose, and the outdoor humidity sensor 103 is also used to monitor the humidity of the air near the discharge port.

In this embodiment, the working heat generating device refers to a device that generates heat in a working state, such as a motor, an intelligent controller, and the like.

This embodiment is at specific during operation: the intelligent controller 1 firstly judges the humidity value in the pump room detected by the indoor humidity sensor 102, and if the humidity value is higher than a set threshold value, the humidity in the pump room is over high, and dehumidification is needed; at this time, the intelligent controller 1 subtracts the value of the outdoor humidity sensor 103 from the value of the indoor humidity sensor 102 to obtain a difference value between the two values, and if the difference value is greater than or equal to a certain threshold value, it indicates that the humidity in the pump room is much greater than the outdoor humidity, and the air can be exhausted outwards, at this time, the intelligent controller 1 controls the first electromagnetic valve 402 to be opened, and the second electromagnetic valve 404 to be closed, so that the air is exhausted outdoors through the first exhaust pipe 401; if the difference is smaller than a certain threshold value, it indicates that the humidity in the pump room is close to the outdoor humidity, or even smaller than the outdoor humidity, and at this time, the dehumidification effect of the air exhausted to the outside is not obvious, the intelligent controller 1 controls the first electromagnetic valve 402 to be closed, and the second electromagnetic valve 404 is opened, so that when the exhaust fan works, the air in the pump room is blown to the electrical equipment which generates heat during working through the second exhaust pipe 403, so that the air circulation in the pump room is promoted, and the humidity in the pump room is reduced while the equipment is cooled.

Example 3

The present embodiment is another modified scheme based on embodiment 1, and the main structure of the present embodiment is the same as that of embodiment 1, and the improvement point is that: as shown in fig. 1, the water-cooling system 3 includes a water conduit 301 connected to a tap water supply pipeline 5 through a flange, and at least two thin-wall water tanks 304 suspended on the wall of the pump room and connected in series through a pipeline, the water conduit 301 is connected to a diversion water pipe 303 controlled by a valve control assembly 302, the diversion water pipe 303 guides tap water in the tap water supply pipeline 5 into the thin-wall water tanks 304 connected in series to perform water-cooling in the pump room, each thin-wall water tank 304 is a closed box welded by steel plates with a thickness of 2-3mm and attached to the wall of the pump room, the whole thickness of the thin-wall water tank 304 is 2-3cm, the area of the thin-wall water tank occupies at least 1/4 of the wall of the pump room, the thin-wall water tank 304 located in the series structure farthest from the diversion water pipe 303 has a drain pipe, and the end of the drain pipe extends into a reservoir 305 located below the, to form flowing water.

In this embodiment, the thin-wall water tank 304 is mainly arranged to increase the contact area between the air in the pump room and the thin-wall water tank 304, so as to realize heat transfer and reduce the temperature in the pump room, and certainly, in order to improve the heat dissipation efficiency, the surface of the thin-wall water tank 304 may be designed to be similar to a protrusion on a radiator, so as to further increase the contact area between the two; meanwhile, a plurality of rows of partition plates which are parallel to each other in the vertical direction are arranged in the thin-wall water tank 304, the partition plates divide the internal space of the thin-wall water tank 304 into a plurality of cavities, and every two adjacent cavities are communicated end to end, so that a water channel which is bent in the thin-wall water tank 304 is formed (as shown in fig. 4).

Example 4

This embodiment is an improved scheme based on embodiment 3, and the main structure thereof is the same as embodiment 3, and the improvement point is that: the valve control assembly 302 is a valve group formed by connecting a water pressure reducing valve, a manual control valve and an electromagnetic valve in series, the water pressure reducing valve and the manual control valve are in a normally open state, and the electromagnetic valve is controlled to be opened and closed by the intelligent controller 1, so that the purpose of controlling the intelligent controller 1 to work and dissipate heat according to a detection signal is achieved.

Example 5

The present embodiment is another modified scheme based on embodiment 3, and the main structure of the present embodiment is the same as embodiment 3, and the improvement point is that: as shown in fig. 1, a liquid level sensor 306 is disposed in the water reservoir 305 for monitoring the height of the stored water therein, the liquid level sensor 306 is connected to the intelligent controller 1, and the intelligent controller 1 controls a drain pump 307 to drain the water in the water reservoir 305 to the outside for irrigation of the garden.

Example 6

The present embodiment is another modified scheme based on embodiment 3, and the main structure of the present embodiment is the same as embodiment 3, and the improvement point is that: as shown in fig. 1 and 3, the water discharging pipe on the thin-wall water tank 304 farthest from the water dividing pipe 303 in the series structure is connected with a water-cooled storage rack 2 arranged in the pump room, the intelligent controller 1 is arranged on the water-cooled storage rack 2, the water-cooled storage rack 2 is arranged close to the wall of the pump room, and comprises at least one layer of storage plate 202 supported by a plurality of columns 201, a storage space 203 for placing heating equipment is formed between the storage plate 202 and the ground or the storage plate 202, a heat radiation steel plate 204 contacted with the wall of the pump room is arranged on one side of the water-cooled storage rack 2 close to the wall of the pump room, and adherent water cooling pipes 205 are distributed on the surface of the heat radiation steel plate 204 from top to bottom, the upper ends of the adherent water cooling pipes 205 are provided with cooling water inlet pipes 206 connected with the water discharging pipe of the thin-wall water tank 304, and the end of the cooling water discharge pipe 207 protrudes into the water reservoir 305.

In this embodiment, the wall-attached water-cooling tube 205 is made of metal with good heat conduction material, and the wall of the tube should be as thin as possible, such as 1-2mm, the diameter of the tube is generally set to not more than 1.5cm, and the tube should be arranged in a zigzag manner as possible, so as to increase the heat dissipation area.

In this embodiment, water-cooled supporter 2 relies on heat dissipation steel sheet 204 and the laminating of pump house wall, sets up adherence water-cooled tube 205 on heat dissipation steel sheet 204 surface moreover, and its purpose is all in order to improve with the speed of the interior air heat exchange of pump house, carries out more effective cooling in the pump house.

Example 7

This embodiment is an improved scheme based on embodiment 6, and the main structure thereof is the same as that of embodiment 6, and the improvement point is that: as shown in fig. 1 and 3, the object placing plate 202 is composed of two horizontal supporting plates, a cavity is formed between the two horizontal supporting plates, a supporting water cooling tube 208 is distributed in the cavity, the supporting water cooling tube 208 is distributed in the cavity in a winding manner, and is connected in series to the wall-attached water cooling tube 205, so that a through cooling water flow passage is formed between the supporting water cooling tube 208 and the wall-attached water cooling tube 205.

In practice, the supporting water-cooling tubes 208 are a plurality of rows of metal heat dissipation tubes distributed in an S-shape in a vertical plane, and then the rows of metal heat dissipation tubes are connected in series, so as to form the supporting water-cooling tubes 208.

In this embodiment, the support water-cooling tube 208 and the wall-attached water-cooling tube 205 are both made of metal with good heat conduction material, and the tube wall should be as thin as possible, such as 1-2mm, and the diameter thereof is generally set to be not more than 1.5 cm.

Example 8

The present embodiment is another modified scheme based on embodiment 1, and the main structure of the present embodiment is the same as that of embodiment 1, and the improvement point is that: as shown in fig. 2, the temperature and humidity early warning and control system further includes a display and alarm device 6 connected to the intelligent controller 1, and the display and alarm device 6 includes a liquid crystal display screen for displaying temperature and humidity information and an audible and visual alarm controlled by the intelligent controller 1.

In the embodiment, the liquid crystal display screen and the audible and visual alarm are both in the prior art, and are both arranged on a certain position on the ground, so that inspection personnel can find the liquid crystal display screen and the audible and visual alarm conveniently; the purpose of the liquid crystal display screen is to display the temperature and humidity parameters of the pump room in real time, the audible and visual alarm is triggered to send an alarm signal when the temperature and humidity in the pump room are within an alarm threshold value for a long time, and the specific structure and the connection mode of the liquid crystal display screen and the audible and visual alarm belong to routine selection of technicians in the field, so that the detailed description is omitted.

Claims (8)

1. The utility model provides an intelligent pump house humiture early warning regulation and control system of secondary water supply which characterized in that: the intelligent air exhaust system comprises an intelligent controller (1), an outdoor humidity sensor (103) arranged outside a pump room, an indoor temperature sensor (101) and an indoor humidity sensor (102) arranged in the pump room, wherein the outdoor humidity sensor (103) and the indoor humidity sensor (102) respectively transmit detected humidity information outside the pump room and humidity information in the pump room to the intelligent controller (1), and the intelligent controller (1) starts an air exhaust mechanism (4) arranged in the pump room to work according to the humidity and the humidity difference of the outdoor humidity sensor and the humidity sensor, so that the humidity in the pump room is reduced; indoor temperature sensor (101) will detect in the pump room temperature information transfer for intelligent control ware (1), and intelligent control ware (1) is according to this temperature information, starts the work of water-cooling system (3) that set up in the pump room to lower the temperature in the pump room.

2. The secondary water supply intelligent pump room temperature and humidity early warning and control system of claim 1, characterized in that: exhaust mechanism (4) include a ventilator, and through tee junction to the first exhaust pipe (401) of airing exhaust outside the pump house and second exhaust pipe (403) towards the interior work heating equipment of pump house on the air exit of this ventilator, be provided with first solenoid valve (402) and second solenoid valve (404) respectively on first exhaust pipe (401) and second exhaust pipe (403), just intelligent control ware (1) is according to the difference of indoor humidity transducer (102) and outdoor humidity transducer (103), decides opening or closing of first solenoid valve (402) and second solenoid valve (404).

3. The secondary water supply intelligent pump room temperature and humidity early warning and control system of claim 1, characterized in that: the water-cooling system (3) comprises a water conduit (301) connected with a tap water supply pipeline (5) through a flange plate and at least two thin-wall water tanks (304) which are hung on the wall of a pump room and are connected in series through a pipeline, the water conduit (301) is connected with a flow dividing water pipe (303) controlled by a valve control assembly (302), the flow dividing water pipe (303) introduces tap water in the tap water supply pipeline (5) into the thin-wall water tanks (304) which are connected in series to carry out water-cooling in the pump room, each thin-wall water tank (304) is a closed box body formed by welding steel plates with the thickness of 2-3mm and is attached to the wall of the pump room, the whole thickness of each thin-wall water tank (304) is 2-3cm, the area of the thin-wall water tank occupies at least 1/4 of the wall of the pump room where the thin-wall water tanks are located, and the thin-wall water tank (304), and the end of the drain pipe extends into a reservoir (305) provided below the floor of the pump room to form flowing water.

4. The secondary water supply intelligent pump room temperature and humidity early warning and control system of claim 3, characterized in that: the valve control assembly (302) is a valve group formed by connecting a water pressure reducing valve, a manual control valve and an electromagnetic valve in series, the water pressure reducing valve and the manual control valve are in a normally open state, and the electromagnetic valve is controlled to be opened and closed by the intelligent controller (1).

5. The secondary water supply intelligent pump room temperature and humidity early warning and control system of claim 3, characterized in that: a liquid level sensor (306) for monitoring the height of water stored in the water storage tank (305) is arranged in the water storage tank (305), the liquid level sensor (306) is connected with the intelligent controller (1), and the intelligent controller (1) controls the drainage pump (307) to discharge water in the water storage tank (305) to the outside for garden irrigation.

6. The secondary water supply intelligent pump room temperature and humidity early warning and control system of claim 3, characterized in that: the water discharging pipe on the thin-wall water tank (304) which is farthest away from the water dividing pipe (303) in the series structure is connected with a water-cooled commodity shelf (2) arranged in the pump room, the intelligent controller (1) is arranged on the water-cooled commodity shelf (2), the water-cooled commodity shelf (2) is tightly attached to the wall of the pump room and comprises at least one layer of commodity placing plate (202) supported by a plurality of upright posts (201), a commodity placing space (203) for placing heating equipment is formed between the commodity placing plate (202) and the ground or the commodity placing plate (202), a heat dissipation steel plate (204) contacted with the wall of the pump room is arranged on one side of the water-cooled commodity shelf (2) tightly attached to the wall of the pump room, adherent water cooling pipes (205) are distributed on the surface of the heat dissipation steel plate (204) from top to bottom, and cooling water inlet pipes (206) connected with the water discharging pipe of the thin, the lower end of the cooling water discharge pipe (207) is formed after penetrating out of the bottom of the water-cooled commodity shelf (2), and the tail end of the cooling water discharge pipe (207) extends into the water storage tank (305).

7. The secondary water supply intelligent pump room temperature and humidity early warning and control system of claim 6, characterized in that: the object placing plate (202) is composed of two horizontal supporting plates, a containing cavity is formed between the two horizontal supporting plates, a supporting water-cooling pipe (208) is distributed in the containing cavity, the supporting water-cooling pipe (208) is distributed in the containing cavity in a winding mode and is connected into the wall-attached water-cooling pipe (205) in series, and therefore a through cooling water flow channel is formed between the supporting water-cooling pipe (208) and the wall-attached water-cooling pipe (205).

8. The secondary water supply intelligent pump room temperature and humidity early warning and control system of claim 1, characterized in that: the temperature and humidity early warning regulation and control system further comprises a display and alarm device (6) connected with the intelligent controller (1), and the display and alarm device (6) comprises a liquid crystal display screen for displaying temperature and humidity information and an audible and visual alarm controlled by the intelligent controller (1).

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