CN113531908A - Air heat energy pump and gas furnace combined safety protection device - Google Patents

Abstract

The invention relates to the field of safety protection, in particular to a combined safety protection device of an air heat energy pump and a gas furnace, which comprises a stirring system, a water flow system and a temperature control system, wherein the water flow system is arranged on the ground and used for controlling the circulation of water, the stirring system is arranged in the water flow system, the temperature control system is arranged at the outer side of the water flow system, the outer side of the water flow system is also provided with a driving mechanism, the driving mechanism comprises a motor, a synchronous belt, a driving roller and two belt pulleys, the motor is arranged at the outer side of the water flow system, the driving roller transversely penetrates through the inner part of the water flow system, the two belt pulleys are respectively arranged on the motor and the driving roller, the synchronous belt is arranged on the two belt pulleys, and the synchronous belt is in transmission connection with the two belt pulleys, the skin of a user can not be scalded, and the water storage mechanism is arranged, so that water leakage can not be caused when the water tank is full.

Description

Air heat energy pump and gas furnace combined safety protection device

Technical Field

The invention relates to the field of safety protection, in particular to a combined safety protection device of an air heat energy pump and a gas furnace.

Background

Water is very important for people's life, and water for drinking or washing is very important, especially in winter, the demand for hot water is very important, when washing hands, faces and bathing, hot water can make people feel comfortable, but the time that the hot water is boiled by a kettle is long, and a large amount of hot water is needed.

The existing water heater has many safety problems, the temperature of water cannot be controlled, a user can be scalded by hot water to cause injury, and a water leakage phenomenon can exist when the water tank is full of water.

Disclosure of Invention

The invention aims to provide a combined safety protection device of an air heat energy pump and a gas furnace.

In order to achieve the purpose, the invention adopts the following technical scheme:

provides a combined safety protection device of an air heat energy pump and a gas furnace, which comprises a stirring system, a water flow system and a temperature control system, wherein the water flow system is fixedly arranged on the ground and used for controlling the circulation of water, the stirring system is arranged in the water flow system and used for stirring the water in the water flow system, the temperature control system is arranged at the outer side of the water flow system and used for controlling the temperature of the water, a driving mechanism is also arranged at the outer side of the water flow system, the driving mechanism comprises a motor, a synchronous belt, a transmission roller and two belt pulleys, the motor is located on the outer side of the water flow system, the transmission roller transversely penetrates through the water flow system, the two belt pulleys are respectively located on the motor and the transmission roller, the belt pulley located on the motor and the motor are coaxially arranged, the belt pulley located on the transmission roller and the transmission roller are coaxially arranged, the synchronous belt is arranged on the two belt pulleys, and the synchronous belt is in transmission connection with the two belt pulleys.

Further, mixing system includes stirring page or leaf and guard box, and the guard box is fixed to be set up in the outside of rivers system, and the stirring page or leaf sets up the outer fringe at the driving roller, and stirs page or leaf and driving roller coaxial setting, and the motor is fixed to be set up in the inside bottom of guard box.

Further, the water flow system comprises a water storage mechanism, a water outlet mechanism, a water supply mechanism, a pushing mechanism and a liquid level sensor, the water outlet mechanism is located at the open end of the protection box and used for discharging water, the water storage mechanism is located at one end, far away from the water outlet mechanism, of the protection box and used for storing water overflowing from the water outlet mechanism, the water supply mechanism is located at the outer side of the water outlet mechanism and used for supplying water, the pushing mechanism is located inside the water supply mechanism and used for lifting water, and the liquid level sensor is arranged at the top end of the water outlet mechanism.

Furthermore, the water outlet mechanism comprises a water outlet box body, a second water suction pump and a second water outlet pipe, the water outlet box body and the protection box are fixedly installed, a hole is formed in the bottom of the outer side of the water outlet box body, one end of the second water outlet pipe is arranged in the hole, the other end of the second water outlet pipe is fixedly arranged with the second water suction pump, and a water pipe is further arranged at the output end of the second water suction pump.

Further, water storage mechanism includes storage water tank box, first suction pump and check valve, and the storage water tank box sets up in the outside of play water tank box, and first suction pump is located the outside bottom of storage water tank box, has the two pipeline of UNICOM between storage water tank box and the first suction pump, has the two first inlet tube and the check valve of UNICOM between storage water tank box and the play water tank box, is provided with a first outlet pipe on the check valve.

Further, water supply mechanism is including intaking case box, third suction pump, first drinking-water pipe and communicating pipe, and the case box that intakes is located the outside of play water tank box, and intake case box and play water tank box are being connected respectively at communicating pipe both ends, and the third suction pump is located the top of the case box of intaking and draws water through first drinking-water pipe, third suction pump and intake between the case box through second inlet tube UNICOM.

Further, push mechanism includes support column, base, electric putter and push pedal, and the support column is located the outside bottom of case box of intaking, and the base is located to be used for supporting electric putter on the support column, and electric putter is fixed to be set up on the base, and the fixed one end that sets up at electric putter and keep away from the base of push pedal.

Further, temperature control system includes temperature sensor, gas furnace heating mechanism, air can heat pump heating mechanism, fourth suction pump and second suction pipe, temperature sensor is fixed to be set up in the outside of outlet box, gas furnace heating mechanism is located the outside of intake box, air can heat pump heating mechanism is located the outside of intake box, the fixed outside that sets up at the intake box of fourth suction pump, and the fourth suction pump passes through fifth inlet tube and intake box UNICOM, second suction pipe fixed mounting is in the end of pumping water of fourth suction pump.

Furthermore, the gas furnace heating mechanism comprises a gas furnace, a third water outlet pipe and a third water inlet pipe, the gas furnace is arranged on the outer side of the water inlet tank body, and the third water outlet pipe and the third water inlet pipe are connected with the gas furnace and the water inlet tank body.

Furthermore, the air energy heat pump heating mechanism comprises an air energy heat pump, a fourth water outlet pipe and a third water inlet pipe, the air energy heat pump is arranged on the outer side of the water inlet tank body, and the fourth water outlet pipe and the third water inlet pipe are connected with the air energy heat pump and the water inlet tank body.

The air heat pump and gas furnace combined safety protection device has the advantages that the temperature can be well controlled through the temperature control system, water can be adjusted to the most appropriate temperature through the stirring system, a user can feel comfortable and the skin of the user cannot be scalded, and the water storage mechanism is arranged, so that water leakage cannot be caused when the water tank is full.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below.

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic perspective view of a stirring system;

FIG. 4 is a perspective view of the driving mechanism;

FIG. 5 is a schematic perspective view of a water flow system;

FIG. 6 is a schematic perspective view of a water storage mechanism;

FIG. 7 is a schematic perspective view of the water outlet mechanism;

FIG. 8 is a schematic perspective view of the water supply mechanism;

FIG. 9 is an exploded perspective view of the pushing mechanism;

FIG. 10 is a schematic perspective view of a temperature control system;

FIG. 11 is a schematic perspective view of a heating mechanism of the gas burner;

FIG. 12 is a schematic perspective view of an air-source heat pump heating mechanism;

in the figure: 1. a stirring system; 1a, a driving mechanism; 1a1, motor; 1a2, a pulley; 1a3, timing belt; 1a4, driving roller; 1b, a stirring page; 1c, a protection box;

2. a water flow system; 2a, a water storage mechanism; 2a1, a water storage tank body; 2a2, a first suction pump; 2a3, a first inlet pipe; 2a4, a first water outlet pipe; 2a5, one-way valve; 2b, a water outlet mechanism; 2b1, a water outlet box body; 2b2, a second water pump; 2b3, using water pipe; 2b4 and a second water outlet pipe; 2c, a water supply mechanism; 2c1, a water inlet tank body; 2c2, a third water pump; 2c3, a first suction pipe; 2c4, a second water inlet pipe; 2c5, communicating tube; 2d, a pushing mechanism; 2d1, support post; 2d2, base; 2d3, electric push rod; 2d4, push plate; 2f, a liquid level sensor;

3. a temperature control system; 3a, a temperature sensor; 3b, a gas furnace heating mechanism; 3b1, gas furnace; 3b2 and a third water outlet pipe; 3b3, a third water inlet pipe; 3c, an air energy heat pump heating mechanism; 3c1, air-source heat pump; 3c2 and a fourth water outlet pipe; 3c3, a third water inlet pipe; 3d, a fourth water pump; 3e, a second water pumping pipe; 3f and a fifth water inlet pipe.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some components of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

Referring to fig. 1 to 10, a combined safety protection device of an air heat pump and a gas furnace comprises a stirring system 1, a water flow system 2 and a temperature control system 3, wherein the water flow system 2 is fixedly arranged on the ground for controlling the circulation of water, the stirring system 1 is arranged inside the water flow system 2 for stirring the water in the water flow system 2, the temperature control system 3 is arranged outside the water flow system 2 for controlling the temperature of the water, a driving mechanism 1a is further arranged outside the water flow system 2, the driving mechanism 1a comprises a motor 1a1, a synchronous belt 1a3, a driving roller 1a4 and two belt pulleys 1a2, the motor 1a1 is arranged outside the water flow system 2, the driving roller 1a4 traverses inside the water flow system 2, the two belt pulleys 1a2 are respectively arranged on the motor 1a1 and the driving roller 1a4, the belt pulley 1a2 arranged on the motor 1a1 is coaxial with the motor 1a1, the belt pulley 1a2 arranged on the driving roller 1a4 is coaxial with the driving roller 1a4, the timing belt 1a3 is disposed on the two pulleys 1a2, and the timing belt 1a3 is drivingly connected to the two pulleys 1a 2. Firstly, the temperature control system 3 is started to fill water and heat water, then the water flows into the water flow system 2, when the water flow system 2 is filled with the water, the motor 1a1 is started, the motor 1a1 drives the driving roller 1a4 through the action of the belt pulley 1a2 and the synchronous belt 1a3, at the moment, the stirring system 1 works to stir the water, the water temperature is kept, the water flow system 2 keeps the water flowing, the water cannot overflow, and the temperature control system 3 controls the temperature of the water.

Stirring system 1 includes stirring page or leaf 1b and guard box 1c, and the fixed outside that sets up at water flow system 2 of guard box 1c stirs page or leaf 1b and sets up the outer fringe at driving roller 1a4, and stirs page or leaf 1b and the coaxial setting of driving roller 1a4, and motor 1a1 is fixed to be set up in the inside bottom of guard box 1 c. After the driving roller 1a4 moves, the driving roller 1a4 drives the stirring blade 1b to rotate, so as to stir water, control the temperature of the water in the water flow system 2, keep the water temperature uniform, and the protection box 1c protects the motor 1a1, the synchronous belt 1a3 and the two belt pulleys 1a 2.

The water flow system 2 comprises a water storage mechanism 2a, a water outlet mechanism 2b, a water supply mechanism 2c, a pushing mechanism 2d and a liquid level sensor 2f, the water outlet mechanism 2b is located at the open end of the protection box 1c and used for discharging water, the water storage mechanism 2a is located at the end, far away from the water outlet mechanism 2b, of the protection box 1c and used for storing water overflowing from the water outlet mechanism 2b, the water supply mechanism 2c is located at the outer side of the water outlet mechanism 2b and used for supplying water, the pushing mechanism 2d is located inside the water supply mechanism 2c and used for lifting water, and the liquid level sensor 2f is arranged at the top end of the water outlet mechanism 2 b. After water enters into water supply mechanism 2c, water level rises in water supply mechanism 2c, after water rises to a take the altitude, push mechanism 2d can upwards promote water, and then make water enter into water mechanism 2b, later water level rises in water mechanism 2b, after the water reaches a take the altitude in water mechanism 2b, water can enter into water storage mechanism 2a, after the user has used the water in water mechanism 2b and has used too much, level sensor 2f senses the water level and hangs down excessively, produce the signal, make the water in water supply mechanism 2c flow back to in the water mechanism 2b again.

The water outlet mechanism 2b comprises a water outlet tank body 2b1, a second water pump 2b2 and a second water outlet pipe 2b4, the water outlet tank body 2b1 is fixedly installed with the protection box 1c, a hole is formed in the bottom of the outer side of the water outlet tank body 2b1, one end of the second water outlet pipe 2b4 is arranged in the hole, the other end of the second water outlet pipe 2b4 is fixedly arranged with the second water pump 2b2, and a water using pipe 2b3 is further arranged at the output end of the second water pump 2b 2. When a user wants to use water, the second water pump 2b2 is turned on, water in the outlet tank body 2b1 flows into the second water pump 2b2 through the second water outlet pipe 2b4, then the water flows out through the water using pipe 2b3, the user can receive the water through the water using pipe 2b3, and the outlet tank body 2b1 carries the water.

The water storage mechanism 2a comprises a water storage tank body 2a1, a first water pump 2a2 and a one-way valve 2a5, the water storage tank body 2a1 is arranged on the outer side of a water outlet tank body 2b1, the first water pump 2a2 is positioned at the bottom of the outer side of the water storage tank body 2a1, a pipeline for communicating the water storage tank body 2a1 and the first water pump 2a2 is arranged between the water storage tank body 2a1 and the water outlet tank body 2b1, a first water inlet pipe 2a3 and the one-way valve 2a5 are communicated between the water storage tank body 2a1 and the water outlet tank body 2b1, and a first water outlet pipe 2a4 is arranged on the one-way valve 2a 5. When the water in the water outlet tank body 2b1 reaches a certain height, the water enters the water storage tank body 2a1 through the first water inlet pipe 2a3, when the water level in the water outlet tank body 2b1 is too low, the liquid level sensor 2f senses that the water level is too low, the liquid level sensor 2f generates a signal to open the one-way valve 2a5, the water passes through the first water outlet pipe 2a4 from the water storage tank body 2a1, then passes through the first water suction pump 2a2, and finally enters the water outlet tank body 2b1 from the first water outlet pipe 2a 4.

The water supply mechanism 2c comprises a water inlet tank body 2c1, a third water pump 2c2, a first water pumping pipe 2c3 and a communication pipe 2c5, the water inlet tank body 2c1 is located on the outer side of the water outlet tank body 2b1, two ends of the communication pipe 2c5 are respectively connected with the water inlet tank body 2c1 and the water outlet tank body 2b1, the third water pump 2c2 is located on the top of the water inlet tank body 2c1 and pumps water through the first water pumping pipe 2c3, and the third water pump 2c2 is communicated with the water inlet tank body 2c1 through the second water inlet pipe 2c 4. First, the third water pump 2c2 is turned on, water enters the third water pump 2c2 through the first water pipe 2c3, then the water in the third water pump 2c2 enters the water inlet tank 2c1 through the second water pipe 2c4, at this time, water starts to be filled into the water inlet tank 2c1, and after the water in the water inlet tank 2c1 reaches a certain height, the water enters the water outlet tank 2b1 through the communication pipe 2c 5.

The pushing mechanism 2d comprises a supporting column 2d1, a base 2d2, an electric push rod 2d3 and a push plate 2d4, wherein the supporting column 2d1 is located at the bottom end of the outer side of the water inlet tank body 2c1, the base 2d2 is located on the supporting column 2d1 and is used for supporting the electric push rod 2d3, the electric push rod 2d3 is fixedly arranged on the base 2d2, and the push plate 2d4 is fixedly arranged at one end, far away from the base 2d2, of the electric push rod 2d 3. When the water in the water inlet tank body 2c1 reaches a certain height, the electric push rod 2d3 works, the electric push rod 2d3 pushes the push plate 2d4 to move upwards, the push plate 2d4 lifts the water upwards, and the support column 2d1 and the base 2d2 are used for supporting and lifting the whole process of the water.

Temperature control system 3 includes temperature sensor 3a, gas furnace heating mechanism 3b, air can heat pump heating mechanism 3c, fourth suction pump 3d and second suction pipe 3e, temperature sensor 3a is fixed to be set up in the outside of play water tank box 2b1, gas furnace heating mechanism 3b is located the outside of intaking case box 2c1, air can heat pump heating mechanism 3c is located the outside of intaking case box 2c1, fourth suction pump 3d is fixed to be set up in the outside of intaking case box 2c1, and fourth suction pump 3d is through fifth inlet tube 3f and intake case box 2c1 UNICOM, second suction pipe 3e fixed mounting is in the water pumping end of fourth suction pump 3 d. When the temperature sensor 3a on the outlet box body 2b1 senses that the temperature is too high, a signal is generated, the fourth water pump 3d is turned on, cold water can enter the outlet box body 2b1 through the second water pumping pipe 3e and the fifth water inlet pipe 3f, the water is cooled, when the temperature is too low, the temperature sensor 3a sends heating signals to the gas furnace heating mechanism 3b and the air energy heat pump heating mechanism 3c, and at the moment, the gas furnace heating mechanism 3b and the air energy heat pump heating mechanism 3c can heat the water in the inlet box body 2c 1.

The gas furnace heating mechanism 3b comprises a gas furnace 3b1, a third water outlet pipe 3b2 and a third water inlet pipe 3b3, the gas furnace 3b1 is arranged at the outer side of the water inlet tank body 2c1, and the third water outlet pipe 3b2 and the third water inlet pipe 3b3 are connected with the gas furnace 3b1 and the water inlet tank body 2c 1. The gas burner 3b1 heats the water and flows into the water inlet tank 2c1 through the third water outlet pipe 3b2, and the third water inlet pipe 3b3 connects the gas burner 3b1 and the water inlet tank 2c1 to keep the water flowing.

The air-source heat pump heating mechanism 3c comprises an air-source heat pump 3c1, a fourth water outlet pipe 3c2 and a third water inlet pipe 3c3, the air-source heat pump 3c1 is arranged on the outer side of the water inlet tank body 2c1, and the fourth water outlet pipe 3c2 and the third water inlet pipe 3c3 are connected with the air-source heat pump 3c1 and the water inlet tank body 2c 1. The air-source heat pump 3c1 heats water and flows into the water inlet tank 2c1 through the fourth water outlet pipe 3c2, and the third water inlet pipe 3c3 connects the air-source heat pump 3c1 and the water inlet tank 2c1 to maintain the water flow.

The working principle is as follows: the gas furnace 3b1 and the air energy heat pump 3c1 heat water, the water flows into the water inlet tank 2c1 through the third water outlet pipe 3b2, the third water inlet pipe 3b3 connects the gas furnace 3b1 and the water inlet tank 2c1, the water circulation is kept, the third water pump 2c2 is firstly turned on, the water enters the third water pump 2c2 through the first water pump 2c3, then the water in the third water pump 2c2 enters the water inlet tank 2c1 through the second water inlet pipe 2c4, at this time, the water injection into the water inlet tank 2c1 is started, after the water in the water inlet tank 2c1 reaches a certain height, when the water in the water inlet tank 2c1 reaches a certain height, the electric push rod 2d3 works, the electric push rod 2d3 pushes the push plate 2d4 to move upwards, the push plate 2d4 lifts the water upwards, the support column 2d and the support column 2d 56 is used for supporting the whole water in the water inlet tank 2c 8653 through the water outlet tank 5, when the water in the outlet box 2b1 reaches a certain height, the water enters the water storage box 2a1 through the first water inlet pipe 2a3, when the water in the outlet box 2b1 is too low, the liquid level sensor 2f senses that the water level is too low, the liquid level sensor 2f generates a signal to open the one-way valve 2a5, the water passes through the first water outlet pipe 2a4 from the water storage box 2a1, then passes through the first water suction pump 2a2, and finally enters the outlet box 2b1 through the first water outlet pipe 2a4, when a user wants to use water, the second water suction pump 2b2 is opened, the water in the outlet box 2b1 flows into the second water suction pump 2b2 through the second water outlet pipe 2b4, then flows out through the water using pipe 2b3, the user can receive the water through the water using pipe 2b3, the outlet box 462 b1 carries the water, when the water filling system is full, the motor 1a1 is turned on, the motor 1a 461 a4 is driven by the belt 5731 a 585, after the driving roller 1a4 moves, the driving roller 1a4 drives the stirring blade 1b to rotate to stir water, control the temperature of the water in the water flow system 2 and keep the water temperature uniform, the protection box 1c protects the motor 1a1, the synchronous belt 1a3 and the two belt pulleys 1a2, the water flow system 2 keeps the water flowing and does not overflow water, when the temperature sensor 3a on the outlet tank body 2b1 senses that the temperature is too high, a signal is generated, the fourth suction pump 3d is turned on, cold water enters the outlet tank body 2b1 through the second suction pipe 3e and the fifth inlet pipe 3f, the water is cooled, when the temperature is too low, the temperature sensor 3a sends heating signals to the gas furnace heating mechanism 3b and the air energy heat pump heating mechanism 3c, and at the moment, the gas furnace heating mechanism 3b and the air energy heat pump heating mechanism 3c can heat the water in the water inlet tank body 2c 1.

Claims (10)

1. The air heat energy pump and gas furnace combined safety protection device is characterized by comprising a stirring system (1), a water flow system (2) and a temperature control system (3), wherein the water flow system (2) is fixedly arranged on the ground and used for controlling the circulation of water, the stirring system (1) is arranged in the water flow system (2) and used for stirring the water in the water flow system (2), the temperature control system (3) is positioned at the outer side of the water flow system (2) and used for controlling the temperature of the water, a driving mechanism (1a) is further arranged at the outer side of the water flow system (2), the driving mechanism (1a) comprises a motor (1a1), a synchronous belt (1a3), a driving roller (1a4) and two belt pulleys (1a2), the motor (1a1) is positioned at the outer side of the water flow system (2), the driving roller (1a4) transversely penetrates through the inside of the water flow system (2), and the two belt pulleys (1a2) are respectively positioned on the motor (1a1) and the driving roller (1a4), the belt pulley (1a2) on the motor (1a1) and the motor (1a1) are coaxially arranged, the belt pulley (1a2) on the transmission roller (1a4) and the transmission roller (1a4) are coaxially arranged, the synchronous belt (1a3) is arranged on the two belt pulleys (1a2), and the synchronous belt (1a3) is in transmission connection with the two belt pulleys (1a 2).

2. An air heat pump and gas furnace combined safety protection device according to claim 1, characterized in that the stirring system (1) comprises a stirring blade (1b) and a protection box (1c), the protection box (1c) is fixedly arranged at the outer side of the water flow system (2), the stirring blade (1b) is arranged at the outer edge of the driving roller (1a4), the stirring blade (1b) and the driving roller (1a4) are coaxially arranged, and the motor (1a1) is fixedly arranged at the inner bottom end of the protection box (1 c).

3. The combined safety protection device of the air heat energy pump and the gas furnace is characterized in that the water flow system (2) comprises a water storage mechanism (2a), a water outlet mechanism (2b), a water supply mechanism (2c), a pushing mechanism (2d) and a liquid level sensor (2f), the water outlet mechanism (2b) is located at the opening end of the protection box (1c) and used for discharging water, the water storage mechanism (2a) is located at one end, away from the water outlet mechanism (2b), of the protection box (1c) and used for storing water overflowing from the water outlet mechanism (2b), the water supply mechanism (2c) is located at the outer side of the water outlet mechanism (2b) and used for supplying water, the pushing mechanism (2d) is located inside the water supply mechanism (2c) and used for lifting water, and the liquid level sensor (2f) is arranged at the top end of the water outlet mechanism (2 b).

4. The combined safety protection device of the air heat pump and the gas furnace is characterized in that the water outlet mechanism (2b) comprises a water outlet box body (2b1), a second water suction pump (2b2) and a second water outlet pipe (2b4), the water outlet box body (2b1) and the protection box (1c) are fixedly installed, a hole is formed in the bottom of the outer side of the water outlet box body (2b1), one end of the second water outlet pipe (2b4) is arranged in the hole, the other end of the second water outlet pipe (2b4) and the second water suction pump (2b2) are fixedly arranged, and a water using pipe (2b3) is further arranged at the output end of the second water suction pump (2b 2).

5. An air heat energy pump and gas furnace combined safety protection device according to claim 4, characterized in that the water storage mechanism (2a) comprises a water storage tank body (2a1), a first water pump (2a2) and a one-way valve (2a5), the water storage tank body (2a1) is arranged at the outer side of the water outlet tank body (2b1), the first water pump (2a2) is arranged at the bottom of the outer side of the water storage tank body (2a1), a pipeline for communicating the water storage tank body (2a1) and the first water pump (2a2) is arranged between the water storage tank body (2a1) and the water outlet tank body (2b1) and a first water inlet pipe (2a3) and the one-way valve (2a5) for communicating the water storage tank body and the water outlet tank body are arranged between the water storage tank body (2a1) and the water outlet tank body (2b1), and the one-way valve (2a5) is provided with a 4).

6. An air heat energy pump and gas furnace combined safety protection device according to claim 5, wherein the water supply mechanism (2c) comprises a water inlet tank body (2c1), a third water pump (2c2), a first water pumping pipe (2c3) and a communicating pipe (2c5), the water inlet tank body (2c1) is positioned at the outer side of the water outlet tank body (2b1), two ends of the communicating pipe (2c5) are respectively connected with the water inlet tank body (2c1) and the water outlet tank body (2b1), the third water pump (2c2) is positioned at the top of the water inlet tank body (2c1) and pumps water through the first water pumping pipe (2c3), and the third water pump (2c2) is communicated with the water inlet tank body (2c1) through the second water inlet pipe (2c 4).

7. The combined safety protection device of the air heat energy pump and the gas furnace is characterized in that the pushing mechanism (2d) comprises a supporting column (2d1), a base (2d2), an electric push rod (2d3) and a push plate (2d4), the supporting column (2d1) is located at the bottom end of the outer side of the water inlet tank body (2c1), the base (2d2) is located on the supporting column (2d1) and used for supporting the electric push rod (2d3), the electric push rod (2d3) is fixedly arranged on the base (2d2), and the push plate (2d4) is fixedly arranged at one end, far away from the base (2d2), of the electric push rod (2d 3).

8. An air heat energy pump and gas furnace combined safety protection device according to claim 7, it is characterized in that the temperature control system (3) comprises a temperature sensor (3a), a gas furnace heating mechanism (3b), an air energy heat pump heating mechanism (3c), a fourth water pump (3d) and a second water pumping pipe (3e), the temperature sensor (3a) is fixedly arranged at the outer side of the water outlet box body (2b1), the gas furnace heating mechanism (3b) is positioned at the outer side of the water inlet box body (2c1), the air energy heat pump heating mechanism (3c) is positioned at the outer side of the water inlet box body (2c1), the fourth water pump (3d) is fixedly arranged at the outer side of the water inlet box body (2c1), and the fourth water suction pump (3d) is communicated with the water inlet tank body (2c1) through a fifth water inlet pipe (3f), and the second water suction pipe (3e) is fixedly arranged at the water suction end of the fourth water suction pump (3 d).

9. An air heat pump and gas furnace combined safety protection device according to claim 8, wherein the gas furnace heating mechanism (3b) comprises a gas furnace (3b1), a third water outlet pipe (3b2) and a third water inlet pipe (3b3), the gas furnace (3b1) is arranged at the outer side of the water inlet tank body (2c1), and the third water outlet pipe (3b2) and the third water inlet pipe (3b3) are connected with the gas furnace (3b1) and the water inlet tank body (2c 1).

10. A combined safety protection device of air heat pump and gas furnace as claimed in claim 9, wherein the air heat pump heating mechanism (3c) comprises an air heat pump (3c1), a fourth water outlet pipe (3c2) and a third water inlet pipe (3c3), the air heat pump (3c1) is arranged outside the water inlet tank body (2c1), and the fourth water outlet pipe (3c2) and the third water inlet pipe (3c3) are connected with the air heat pump (3c1) and the water inlet tank body (2c 1).

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