CN212772625U - Wisdom pump station with temperature regulation function - Google Patents

Abstract

The utility model relates to a wisdom pump station with temperature regulation function, including the pump house, install the door frame on the lateral wall in pump house, the door frame internal rotation is connected with the rotating door, install the pump package in the pump house, still include temperature regulation apparatus and temperature monitoring device, temperature regulation apparatus is used for carrying out thermal interaction between room air and outside air, temperature monitoring device is used for the start-up according to the temperature control temperature regulation apparatus in the pump house. Keep apart the circulation of air and outside air in the pump house to temperature receives external influence in slowing down the pump house, improves the temperature in the pump house through temperature regulation apparatus and temperature monitoring device simultaneously, makes the pump package work for a long time in the operating temperature scope that allows, improves the work efficiency of pump package.

Description

Wisdom pump station with temperature regulation function

Technical Field

The utility model belongs to the technical field of the technique of pump station and specifically relates to a wisdom pump station with temperature regulation function is related to.

Background

The existing high-rise buildings are more and more, and a pump station is generally installed near the buildings in order to supply water to users on higher floors.

The pump station in the prior art generally comprises a pump set, an accessory pipeline, a control cabinet and the like. Most pump stations are directly installed on the outdoor ground, a pump room is configured due to safety considerations, and equipment such as a pump set and a control cabinet is installed in the pump room.

Because the temperature difference changes greatly all the year round in China, the pump room has better heat insulation capability in order to avoid the temperature in the pump room from being influenced by the outside. However, this also causes the heat generated during the operation of the pump set not to be easily discharged to the outside, which causes the problem in the pump room to be increased and affects the operation of the pump set.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, one of the purposes of the utility model is to provide a wisdom pump station with temperature regulation function, it has the advantage of maintaining the temperature in the pump house in suitable within range.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme: the utility model provides a wisdom pump station with temperature regulation function, includes the pump house, install the door frame on the lateral wall in pump house, the door frame internal rotation is connected with the swing gate, install the pump package in the pump house, still include temperature regulation apparatus and temperature monitoring device, temperature regulation apparatus is used for carrying out thermal interaction between indoor air and outside air, temperature monitoring device is used for the start-up according to the temperature control temperature regulation apparatus in the pump house.

Through adopting above-mentioned technical scheme, keep apart the circulation of air and outside air in the pump house to the temperature receives external influence in slowing down the pump house, improves the temperature in the pump house through temperature regulation apparatus and temperature monitoring device simultaneously, makes the pump package work for a long time in the operating temperature scope that allows, improves the work efficiency of pump package.

The present invention may be further configured in a preferred embodiment as: the temperature monitoring device comprises a temperature detection module, a first control unit and a second control unit, wherein the temperature detection module is used for detecting the temperature in the pump room and outputting a corresponding temperature detection signal, the first control unit is coupled to the temperature detection module to receive the temperature detection signal and controls the temperature adjusting device to heat indoors according to the temperature detection signal, and the second control unit is coupled to the temperature detection module to receive the temperature detection signal and controls the temperature adjusting device to radiate to the outside according to the temperature detection signal.

Through adopting above-mentioned technical scheme, when the air temperature in the pump house exceeded the operating temperature that the pump package allowed, the temperature regulation module absorbed the heat in the pump house and transmitted the heat to the external world with the mode of heat exchange, on the contrary, when the air temperature in the pump house was less than the operating temperature that the pump package allowed, the temperature regulation module absorbed external heat and transmitted the heat to the pump house in, realized the regulation of temperature in the pump house.

The present invention may be further configured in a preferred embodiment as: the first control unit comprises a first reference module, a first comparison module, a first control module and a first execution module, wherein the first reference module is used for providing a first reference signal corresponding to the maximum allowable working temperature of the pump set, the first comparison module is coupled to the temperature detection module to receive the temperature detection signal and output a corresponding first comparison signal, the first control module is coupled to the first comparison module to receive the first comparison signal and output a corresponding first control signal, and the first execution module is coupled to the first control module to receive the first control signal and respond to the first control signal to control the temperature regulation device to heat the indoor space; the second control unit comprises a second reference module, a second comparison module, a second control module and a second execution module, wherein the second reference module is used for providing a second reference signal corresponding to the lowest allowable working temperature of the pump set, the second comparison module is coupled to the temperature detection module to receive the temperature detection signal and output a corresponding second comparison signal, the second control module is coupled to the second comparison module to receive the second comparison signal and output a corresponding second control signal, and the second execution module is coupled to the second control module to receive the second control signal and respond to the second control signal to control the temperature regulation device to radiate heat to the outside.

Through adopting above-mentioned technical scheme, compare by the actual temperature in the pump house with preset temperature, according to the comparative result automatic control temperature regulation apparatus and make corresponding action, make and keep reasonable operating temperature in the pump house, need not artificial participation.

The present invention may be further configured in a preferred embodiment as: the first control unit further comprises an unlocking module, the first execution module has a self-locking function, and the unlocking module is coupled to the temperature detection module and responds to the temperature detection signal to release the self-locking of the first execution module.

Through adopting above-mentioned technical scheme, can effectively avoid the temperature in the pump house to make a round trip to fluctuate near the maximum operating temperature that allows, make temperature regulation module can once only carry out large-scale cooling to the temperature in the pump house, reduce temperature regulation module's start-up frequency.

The present invention may be further configured in a preferred embodiment as: the unlocking module comprises a third reference module, a third comparison module, a third control module and a third execution module, the third reference module is used for providing a third reference signal corresponding to the preset temperature, the third comparison module is coupled to the temperature detection module to receive the temperature detection signal and output a corresponding third comparison signal, the third control module is coupled to the third comparison module to receive the third comparison signal and output a corresponding third control signal, the third execution module is coupled to the third control module to receive the third control signal and respond to the third control signal to release the self-locking of the first execution module, and the preset temperature is located between the maximum allowable working temperature and the minimum allowable working temperature of the pump set.

By adopting the technical scheme, when the temperature in the pump room is reduced to the working temperature range allowed by the pump group from high temperature, the first execution module still continues to work, so that the temperature in the pump room continues to be reduced until the temperature in the pump room is reduced to the preset temperature, the third execution module controls the third execution module to work, the third execution module releases the self-locking of the first execution module, the first execution module stops working due to the fact that the first control module is in the closing state at the moment, the temperature adjusting device is closed, and the temperature in the pump room is in the moderate temperature range.

The present invention may be further configured in a preferred embodiment as: still install the state monitoring device who is used for monitoring the revolving door and opens and close in the pump room, state monitoring device includes state detection module, fourth control module and warning module, state detection module is used for detecting the state of opening and close and exports state signal of revolving door, fourth control module is coupled in state detection module and outputs corresponding fourth control signal with receiving state signal, warning module coupling is in fourth control module and responds fourth control signal in order to send out an alarm in order to receive fourth control signal.

Through adopting above-mentioned technical scheme, after the staff opened the revolving door and got into the pump house, if the revolving door does not normally close, state monitoring device can detect that the revolving door is in the open mode, and state monitoring device sends out and reports an emergency and asks for help or increased vigilance the staff this moment, and the staff notices and can close the revolving door after, resumes the state with external isolation again in making the pump house, reduces the circulation time of air, reduces temperature regulation apparatus and appears extra energy consumption.

The present invention may be further configured in a preferred embodiment as: the state monitoring device further comprises a timing module and a reset module, the timing module is coupled to the fourth control module to receive the fourth control signal and responds to the fourth control signal to time, the reset module is controlled to start after the timing module finishes timing, and the reset module is used for closing the rotating door.

By adopting the technical scheme, the warning module successfully attracts the attention of a worker within the timing time of the timing module, the worker manually closes the rotating door, and the timing module stops timing; once the timing module successfully finishes timing, the reset module can be started, and the reset module automatically controls the rotating door to be closed so as to reduce the time for directly exchanging air in the pump room with outside air.

The present invention may be further configured in a preferred embodiment as: the state detection module comprises a receiver arranged on the door frame and a transmitter arranged on the rotating door, and when the rotating door is in a closed state, the transmitter is opposite to the receiver.

Through adopting above-mentioned technical scheme, as long as when the transmitter just to the receiver, the signal of receiver output just can not trigger the start-up of fourth control module, and in case because the revolving door takes place to rotate, the transmitter is unable just to the receiver, and the receiver is unable to receive the signal that the transmitter sent, and then the signal control fourth control module start of receiver output, and then makes alarm module work, arouses staff's attention.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the temperature detection module and the temperature regulation module are arranged, so that the temperature in the pump room is in the allowable working range of the pump set, and the working efficiency of the pump set is improved;

2. by arranging the unlocking module, the cooling amplitude of the temperature adjusting assembly in the pump room can be improved, so that the temperature in the pump room is not easy to exceed the allowable working temperature range easily during working;

3. through setting up state monitoring device, monitor the open and close state of revolving door, reduce the time that the revolving door was opened, reduce the inside and outside air interaction of pump house.

Drawings

FIG. 1 is a schematic view of the overall structure in the embodiment;

FIG. 2 is a partial sectional view in the embodiment;

FIG. 3 is an enlarged partial schematic view of portion A of FIG. 2;

FIG. 4 is a schematic circuit diagram of a first control unit in the embodiment;

FIG. 5 is a schematic circuit diagram of a second control unit in the embodiment;

FIG. 6 is a schematic circuit diagram of a condition monitoring device according to an embodiment.

In the figure, 1, a pump room; 2. a door frame; 3. a rotating door; 4. a pump group; 51. a temperature detection module; 52. a first control unit; 521. a first reference module; 522. a first comparison module; 523. a first control module; 524. a first execution module; 525. an unlocking module; 5251. a third reference module; 5252. a third comparison module; 5253. a third control module; 5254. a third execution module; 53. a second control unit; 531. a second reference module; 532. a second comparison module; 533. a second control module; 534. a second execution module; 6. a temperature adjustment device; 7. a condition monitoring device; 71. a state detection module; 72. a fourth control module; 73. a warning module; 74. a timing module; 751. a motor; 752. a gear; 753. and (4) sector teeth.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Refer to fig. 1, do the utility model discloses a wisdom pump station with temperature regulation function, including pump house 1, install door frame 2 and display screen on the lateral wall of pump house 1, 2 internal rotations of door frame are connected with swing door 3. Referring to fig. 2, a pump unit 4, a temperature adjusting device 6, a temperature monitoring device, and a state monitoring device 7 are installed in the pump room 1. The pump unit 4 has a water inlet conduit for connection to a municipal water supply pipe and a water outlet conduit for connection to a water supply pipe of the user. The state monitoring device 7 is used for checking whether the rotating door 3 is normally closed or not, and reminding a worker to close the rotating door 3 if the rotating door 3 is not normally closed. The display screen is used for displaying the operation condition of the pump unit 4 and the temperature in the pump room 1.

Referring to fig. 2, the temperature adjusting device 6 is an air conditioner installed on a wall of the pump room 1, and the air conditioner is composed of an indoor unit located in the pump room 1 and an outdoor unit located outside. The temperature adjusting device 6 has two working modes, in the first working mode, the temperature adjusting device 6 absorbs the heat in the air in the pump room 1 and transfers the heat to the outside; in the second operating mode, the thermostat 6 absorbs external heat and transfers it into the pump house 1. And the temperature monitoring module is used for determining the starting time and the working mode of the temperature adjusting device 6 according to the temperature in the pump room 1.

Referring to fig. 4 and 5, the temperature monitoring device includes a temperature detection module 51, a first control unit 52, and a second control unit 53. The temperature detecting module 51 is used for detecting the temperature in the pump room 1 and outputting a corresponding temperature detecting signal, the first control unit 52 is coupled to the temperature detecting module 51 to receive the temperature detecting signal and control the temperature adjusting device 6 to operate in a first operating mode according to the temperature detecting signal, and the second control unit 53 is coupled to the temperature detecting module 51 to receive the temperature detecting signal and control the temperature adjusting device 6 to operate in a second operating mode according to the temperature detecting signal.

Referring to fig. 4, the temperature detection module 51 includes a thermistor RT and a resistor R1. The thermistor RT is a negative temperature coefficient thermistor.

One end of the thermistor RT is coupled to the power VCC, the other end of the thermistor RT is coupled to the resistor R1, and the other end of the resistor R1 is grounded. A temperature detection signal is output from a connection point between the thermistor RT and the resistor R1.

When the thermistor RT is heated to cause the resistance to become low, the voltage divided by the resistor R1 becomes high, and the temperature detection signal is at a high level; otherwise, the temperature detection signal is at a low level.

Referring to fig. 4, the first control unit 52 includes a first reference module 521, a first comparison module 522, a first control module 523, a first execution module 524 and an unlocking module 525, wherein the first reference module 521 is configured to provide a first reference signal corresponding to a maximum allowable operating temperature of the pump stack 4, the first comparison module 522 is coupled to the temperature detection module 51 to receive the temperature detection signal and output a corresponding first comparison signal, the first control module 523 is coupled to the first comparison module 522 to receive the first comparison signal and output a corresponding first control signal, and the first execution module 524 is coupled to the first control module 523 to receive the first control signal and control the temperature adjustment device 6 to dissipate heat to the outside in response to the first control signal. The first execution module 524 is self-locked to continue working after being started, and the unlocking module 525 is used for releasing the self-locking of the first execution module 524.

Referring to FIG. 4, the first reference module 521 includes a resistor R2, a resistor R3, and a resistor R4. The first comparison module 522 is a comparator N1. Comparator N1 is model LM 311. The first control module 523 is a triode Q1, and the triode Q1 is an NPN type triode with a model 2SC 4019. The first execution module 524 is an intermediate relay KM 1.

One end of the resistor R4 is coupled to the power source VCC, the other end of the resistor R4 is coupled to one end of the resistor R3, the other end of the resistor R3 is coupled to the inverted input terminal of the comparator N1, one end of the resistor R2 is coupled to the connection point between the resistor R1 and the resistor R3, and the other end of the resistor R2 is grounded. The same-direction input end of the comparator N1 is coupled to a connection point between the thermistor RT and the resistor R1, the output end of the comparator N1 is coupled to the base electrode of the triode Q1, the emitter of the triode Q1 is grounded, the collector of the triode Q1 is coupled to one end of the intermediate relay KM1, and the other end of the intermediate relay KM1 is coupled to a power supply VCC. The normally open contact KM1-1 of the intermediate relay KM1 is connected in series in the power supply circuit of the thermostat 6 for activating the first operating mode.

When the temperature detection signal received by the equidirectional input end of the comparator N1 is greater than the first reference signal received by the reverse input end of the comparator N1, the comparator N1 outputs a high-level signal, the triode Q1 is switched on, the intermediate relay KM1 is electrified to work, the normally open contact KM1-1 of the intermediate relay KM1 is closed, and the temperature adjusting device 6 is started and works in a first working mode; conversely, the thermostat 6 is not activated.

Referring to fig. 4, the unlocking module 525 includes a third reference module 5251, a third comparison module 5252, a third control module 5253 and a third execution module 5254, wherein the third reference module 5251 is configured to provide a third reference signal corresponding to a preset temperature, the third comparison module 5252 is coupled to the temperature detection module 51 to receive the temperature detection signal and output a corresponding third comparison signal, the third comparison module 5253 is coupled to the third comparison module 5252 to receive the third comparison signal and output a corresponding third control signal, and the third execution module 5254 is coupled to the third control module 5253 to receive the third control signal and respond to the third control signal to release the self-locking of the first execution module 524, and the preset temperature is between a maximum allowable operating temperature and a minimum allowable operating temperature of the pump group 4.

Referring to fig. 4, the third reference module 5251 includes a resistor R5, a resistor R6, and a resistor R7. The second comparison module 532 is a comparator N2. Comparator N2 is model LM 311. The third control module 5253 is a transistor Q2, and the transistor Q2 is an NPN transistor and has a model number of 2SC 4019. The third execution module 5254 is an intermediate relay KM 2.

One end of the resistor R7 is coupled to the power source VCC, the other end of the resistor R7 is coupled to one end of the resistor R6, the other end of the resistor R6 is coupled to the unidirectional input end of the comparator N2, one end of the resistor R5 is coupled to the connection point between the resistor R6 and the resistor R7, and the other end of the resistor R5 is grounded. The reverse input end of the comparator N2 is coupled to a connection point between the thermistor RT and the resistor R1, the output end of the comparator N2 is coupled to the base electrode of the triode Q2, the emitter of the triode Q2 is grounded, the collector of the triode Q2 is coupled to one end of the intermediate relay KM2, the other end of the intermediate relay KM2 is coupled to a power supply VCC, and the normally closed contact KM2-1 of the intermediate relay KM2 is connected in series between the intermediate relay KM1 and the power supply VCC.

When the temperature detection signal received by the reverse input end of the comparator N2 is smaller than the third reference signal received by the same-direction input end of the comparator N2, the triode Q2 is in a conducting state at the moment, the intermediate relay KM2 works, the normally closed contact KM2-1 of the intermediate relay KM2 is disconnected, and the intermediate relay KM1 loses power; conversely, the intermediate relay KM1 remains energized.

Referring to fig. 5, the second control unit 53 includes a second reference module 531, a second comparison module 532, a second control module 533 and a second execution module 534, the second reference module 531 is configured to provide a second reference signal corresponding to the lowest allowable operating temperature of the pump set 4, the second comparison module 532 is coupled to the temperature detection module 51 to receive the temperature detection signal and output a corresponding second comparison signal, the second control module 533 is coupled to the second comparison module 532 to receive the second comparison signal and output a corresponding second control signal, and the second execution module 534 is coupled to the second control module 533 to receive the second control signal and respond to the second control signal to control the temperature adjustment device 6 to be activated in the second operating mode.

The second reference module 531 includes a resistor R8, a resistor R9, and a resistor R10. The second comparison module 532 is a comparator N3. Comparator N3 is model LM 311. The second control module 533 is a triode Q3, and the transistor Q3 is an NPN transistor and has a model number of 2SC 4019. The second execution module 534 is an intermediate relay KM 3.

One end of the resistor R9 is coupled to the power source VCC, the other end of the resistor R9 is coupled to one end of the resistor R8, the other end of the resistor R8 is coupled to the unidirectional input end of the comparator N3, one end of the resistor R10 is coupled to the connection point between the resistor R8 and the resistor R9, and the other end of the resistor R10 is grounded. The reverse input end of the comparator N3 is coupled to a connection point between the thermistor RT and the resistor R1, the output end of the comparator N3 is coupled to the base of the transistor Q3, the emitter of the transistor Q3 is grounded, the collector of the transistor Q3 is coupled to one end of the intermediate relay KM3, the other end of the intermediate relay KM3 is coupled to the power source VCC, and the normally open contact KM3-1 of the intermediate relay KM3 is connected in series to the power supply loop of the temperature adjustment device 6 for starting the second operation mode.

When the temperature detection signal received by the reverse input end of the comparator N3 is greater than the second reference signal received by the equidirectional input end of the comparator N3, the triode Q3 is in a conducting state, the intermediate relay KM3 works, the normally open contact KM3-1 of the intermediate relay KM3 is closed, and the temperature adjusting device 6 is started and works in a second working mode; conversely, the thermostat 6 is not activated.

Referring to fig. 3 and 6, the condition monitoring device 7 includes a condition detecting module 71, a fourth control module 72, a warning module 73, a timing module 74 and a reset module, wherein the reset module includes a motor 751, a gear 752 and a sector tooth 753 installed in the pump room 1, the gear 752 is coaxially connected with an output shaft of the motor 751, the rotating door 3 is rotatably connected in the door frame 2 through a rotating shaft, and the sector tooth 753 is coaxially connected with the rotating shaft of the rotating door 3. The gear 752 meshes with the sector-shaped teeth 753. The status detection module 71 includes a receiver mounted on the door frame 2 and a transmitter mounted on the swing door 3, the transmitter being capable of emitting infrared rays and the receiver being capable of receiving infrared rays. When the rotating door 3 is in a closed state, the transmitter is over against the receiver, and the receiver outputs a low level signal after receiving infrared rays. When the swing door 3 is in the open state, the receiver cannot receive the infrared rays emitted from the emitter and output a high level signal.

The state detection module 71 is configured to detect an open/close state of the swing door 3 and output a state signal, the fourth control module 72 is coupled to the state detection module 71 to receive the state signal and output a corresponding fourth control signal, the warning module 73 is coupled to the fourth control module 72 to receive the fourth control signal and respond to the fourth control signal to send a warning, the timing module 74 is coupled to the fourth control module 72 to receive the fourth control signal and respond to the fourth control signal to perform timing, the timing module 74 controls the reset module to start after timing is finished, and the reset module is configured to close the swing door 3.

Referring to fig. 72, the fourth control module 72 is a transistor Q4, and the transistor Q4 is an NPN type transistor and has a model number of 2SC 4019. The alarm module 73 is an electric bell HA. The timing module 74 is a time relay KT1, and the time relay KT1 is an electrified delay relay.

The output end of the receiver in the state detection module 71 is coupled to the base of a triode Q4, the emitter of the triode Q3 is grounded, the collector of the triode Q3 is coupled to one end of a bell HA, the other end of the bell HA is coupled to one end of a time relay KT1, the other end of the time relay KT1 is coupled to a power supply VCC, and a normally-open delay closed contact KT1-1 of the time relay KT1 is connected in series in a power supply loop of the motor 751.

When the receiver cannot receive infrared rays emitted by the emitter, the receiver outputs a high-level signal, the triode Q4 is conducted, the electric bell HA is electrified to emit sound, the time relay KT1 is electrified to start timing, and after timing is finished, the normally-open delay closed contact KT1-1 is closed, so that the motor 751 is electrified, the motor 751 drives the gear 752 to rotate, the gear 752 drives the sector gear 753 to rotate, and the rotating door 3 is closed; on the contrary, the receiver outputs a low level signal, the triode Q4 is not conducted, and the electric bell HA and the time relay KT1 do not work.

The implementation principle of the embodiment is as follows: the temperature in the pump room 1 is normally in the range of the allowable operating temperature of the pump unit 4, and as the pump unit 4 operates, the pump unit 4 generates heat and affects the temperature of the air in the pump room 1. When the temperature in the pump room 1 rises to exceed the maximum operation temperature allowed by the pump group 4, the comparator N1 outputs a high level signal, so that the triode Q1 is conducted, the intermediate relay KM1 works and forms self-locking, and the temperature adjusting device 6 is started and works in a first operation mode. The heat in the pump room 1 is transferred to the outside through the temperature adjusting device 6, so that the temperature in the pump room 1 is reduced. When the temperature is lower than the preset temperature, the comparator N2 outputs a high-level signal, the triode Q2 is conducted, the intermediate relay KM2 works and cuts off the power supply of the power supply VCC to the intermediate relay KM1, and the intermediate relay KM1 is unlocked.

When the temperature in the pump room 1 is lower than the allowable minimum operating temperature, the comparator N3 outputs a high-level signal, the triode Q3 is turned on, the intermediate relay KM3 operates, and the thermostat 6 is activated and operates in the second operating mode. When the temperature in the pump room 1 is restored to the allowable operating temperature range, the thermostat 6 is turned off again.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides an wisdom pump station with temperature regulation function, includes pump house (1), install door frame (2) on the lateral wall of pump house (1), door frame (2) internal rotation is connected with revolving door (3), install pump package (4), its characterized in that in pump house (1): still include temperature regulation apparatus (6) and temperature monitoring device, temperature regulation apparatus (6) are used for carrying out thermal interaction between room air and outside air, temperature monitoring device is used for according to the start-up of temperature control temperature regulation apparatus (6) in pump room (1).

2. The intelligent pump station with temperature adjusting function according to claim 1, characterized in that: the temperature monitoring device comprises a temperature detection module (51), a first control unit (52) and a second control unit (53), wherein the temperature detection module (51) is used for detecting the temperature of the pump room (1) and outputting a corresponding temperature detection signal, the first control unit (52) is coupled to the temperature detection module (51) to receive the temperature detection signal and controls the temperature adjusting device (6) to heat the room according to the temperature detection signal, and the second control unit (53) is coupled to the temperature detection module (51) to receive the temperature detection signal and controls the temperature adjusting device (6) to radiate heat to the outside according to the temperature detection signal.

3. The intelligent pump station with temperature adjusting function according to claim 2, characterized in that: the first control unit (52) comprises a first reference module (521), a first comparison module (522), a first control module (523) and a first execution module (524), wherein the first reference module (521) is used for providing a first reference signal corresponding to the maximum allowable working temperature of the pump group (4), the first comparison module (522) is coupled to the temperature detection module (51) for receiving the temperature detection signal and outputting a corresponding first comparison signal, the first control module (523) is coupled to the first comparison module (522) for receiving the first comparison signal and outputting a corresponding first control signal, and the first execution module (524) is coupled to the first control module (523) for receiving the first control signal and responding to the first control signal for controlling the temperature adjustment device (6) to heat indoors; the second control unit (53) comprises a second reference module (531), a second comparison module (532), a second control module (533), and a second execution module (534), wherein the second reference module (531) is configured to provide a second reference signal corresponding to the lowest allowable operating temperature of the pump stack (4), the second comparison module (532) is coupled to the temperature detection module (51) to receive the temperature detection signal and output a corresponding second comparison signal, the second control module (533) is coupled to the second comparison module (532) to receive the second comparison signal and output a corresponding second control signal, and the second execution module (534) is coupled to the second control module (533) to receive the second control signal and respond to the second control signal to control the temperature adjustment device (6) to dissipate heat to the outside.

4. The intelligent pump station with temperature adjusting function according to claim 3, characterized in that: the first control unit (52) further comprises an unlocking module (525), the first execution module (524) has a self-locking function, and the unlocking module (525) is coupled to the temperature detection module (51) and responds to the temperature detection signal to release the self-locking of the first execution module (524).

5. The intelligent pump station with temperature adjusting function according to claim 4, characterized in that: the unlocking module (525) comprises a third reference module (5251), a third comparison module (5252), a third control module (5253) and a third execution module (5254), the third reference module (5251) is used for providing a third reference signal corresponding to a preset temperature, the third comparing module (5252) is coupled to the temperature detecting module (51) to receive the temperature detecting signal and output a corresponding third comparing signal, the third control module (5253) is coupled to the third comparison module (5252) to receive the third comparison signal and output a corresponding third control signal, the third execution module (5254) is coupled to the third control module (5253) to receive the third control signal and is responsive to the third control signal to unlock the first execution module (524), the preset temperature is between the maximum allowable working temperature and the minimum allowable working temperature of the pump group (4).

6. The intelligent pump station with temperature adjusting function according to claim 1, characterized in that: still install in pump room (1) and be used for monitoring the state monitoring device (7) that revolving door (3) opened and close, state monitoring device (7) are including state detection module (71), fourth control module (72) and warning module (73), state detection module (71) are used for detecting the state of opening and close and output status signal of revolving door (3), fourth control module (72) are coupled in order to receive status signal and output corresponding fourth control signal in state detection module (71), warning module (73) are coupled in order to receive fourth control signal and respond to fourth control signal in order to send out an alarm in fourth control module (72).

7. The intelligent pump station with temperature adjusting function according to claim 6, characterized in that: the state monitoring device (7) further comprises a timing module (74) and a reset module, wherein the timing module (74) is coupled to the fourth control module (72) to receive the fourth control signal and respond to the fourth control signal for timing, the timing module (74) controls the reset module to start after timing is finished, and the reset module is used for closing the rotating door (3).

8. The intelligent pump station with temperature adjusting function according to claim 6, characterized in that: the state detection module (71) comprises a receiver arranged on the door frame (2) and a transmitter arranged on the rotating door (3), and the transmitter is opposite to the receiver when the rotating door (3) is in a closed state.

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