CN107062465B - Combined system with functions of producing clean water and air conditioner - Google Patents

Abstract

The invention discloses a combined system with the functions of producing clean water and air conditioning, which comprises a water producing box body, a compressor, a controller and a cold-hot air conditioning assembly, wherein a hot water insulation box and a cold water insulation box are arranged at the lower end part of the water producing box body; a first water heating condenser and a second water heating condenser are embedded in the hot water containing cavity, a first water refrigerating evaporator and a second water refrigerating evaporator are embedded in the cold water containing cavity, and a first water producing evaporator, a second water producing evaporator and a water producing condenser are arranged in the water producing cavity; the cold and hot air conditioning assembly comprises an air conditioning shell, an air conditioning fan, two air conditioning condensers, two air conditioning evaporators and six switching electromagnetic valves. The invention can realize the functions of automatic water production and air conditioning refrigeration and heat, has novel structural design, various functions, convenient use, energy saving and environmental protection, and can effectively save water resources.

Description

Combined system with functions of producing clean water and air conditioner

Technical Field

The invention relates to the technical field of water making equipment, in particular to a combined system with functions of producing clean water and air conditioners.

Background

For the existing drinking water equipment, in order to provide convenience for users to take hot water and cold water, the drinking water equipment is generally provided with a corresponding heating device and a corresponding refrigerating device, that is, the water is heated by the heating device to generate hot water, and is refrigerated by the refrigerating device to generate cold water.

It should be further noted that the existing drinking water equipment can only heat or refrigerate the existing water, and does not have the automatic water making function.

In addition, for the existing drinking water equipment, the existing drinking water equipment does not have the functions of air conditioning and heating.

Disclosure of Invention

The invention aims to provide a combined system with functions of producing clean water and air conditioning aiming at the defects of the prior art, and the combined system with the functions of producing clean water and air conditioning has the advantages of novel structural design, multiple functions, convenience in use, energy conservation, environmental friendliness and capability of effectively saving water resources.

In order to achieve the above object, the present invention is achieved by the following technical means.

A combined system with the functions of producing clean water and air conditioning comprises a water producing tank body, wherein a hot water insulation tank and a cold water insulation tank are arranged at the lower end part of the water producing tank body, the cold water insulation tank is positioned beside the hot water insulation tank, a hot water containing cavity is arranged inside the hot water insulation tank, a cold water containing cavity is arranged inside the cold water insulation tank, a water producing cavity is arranged inside the water producing tank body and on the upper end side of the hot water insulation tank and the cold water insulation tank, a cold water tank water inlet hole communicated with the cold water containing cavity and the water producing cavity is formed in the upper surface of the cold water insulation tank, a hot water tank water inlet hole communicated with the hot water containing cavity and the water producing cavity is formed in the upper surface of the hot water insulation tank, the upper surface of the hot water insulation tank is positioned on the upper end side of the upper surface of the cold water insulation tank, a hot water taking valve is arranged on the hot water insulation tank, and a cold water taking valve is arranged on the cold water insulation tank;

a first water heating condenser and a second water heating condenser are embedded in a hot water containing cavity of the hot water insulation can, a first water refrigeration evaporator and a second water refrigeration evaporator are embedded in a cold water containing cavity of the cold water insulation can, a first water production evaporator and a second water production evaporator are arranged on the side of the first water refrigeration evaporator, a first water production evaporator and a second water production evaporator are arranged in the water production cavity and are arranged right above the cold water insulation can, and a water production condenser is arranged right above the hot water insulation can in the water production cavity;

the combined system with the functions of producing clean water and conditioning air also comprises a cold-hot air conditioning component, wherein the cold-hot air conditioning component comprises an air conditioning shell, an air conditioning accommodating cavity with an opening towards the air outlet side is formed in the air conditioning shell, and a first air conditioning condenser, a second air conditioning condenser, a first air conditioning evaporator, a second air conditioning evaporator and an air conditioning fan blowing air towards the opening side of the air conditioning accommodating cavity are embedded in the air conditioning accommodating cavity; the combined system with the functions of producing clean water and air conditioning also comprises a compressor, a refrigerant outlet of the compressor is connected with a refrigerant inlet of the first water heating condenser through a refrigerant pipeline, a refrigerant outlet of the first water heating condenser is connected with a refrigerant inlet of the first air conditioning condenser through a refrigerant pipeline, a refrigerant outlet of the first air conditioning condenser is connected with a refrigerant inlet of the second air conditioning condenser through a refrigerant pipeline, a refrigerant outlet of the second air conditioning condenser is connected with a refrigerant inlet of the second water heating condenser through a refrigerant pipeline, a refrigerant outlet of the second water heating condenser is connected with a refrigerant inlet of the water producing condenser through a refrigerant pipeline, a refrigerant outlet of the water producing condenser is connected with a refrigerant inlet of the first water producing evaporator through a refrigerant pipeline, a refrigerant outlet of the first water producing evaporator is connected with a refrigerant inlet of the first water refrigerating evaporator through a refrigerant pipeline, a refrigerant outlet of the first water refrigeration evaporator is connected with a refrigerant inlet of the first air-conditioning evaporator through a refrigerant pipeline, a refrigerant outlet of the first air-conditioning evaporator is connected with a refrigerant inlet of the second air-conditioning evaporator through a refrigerant pipeline, a refrigerant outlet of the second air-conditioning evaporator is connected with a refrigerant inlet of the second water refrigeration evaporator through a refrigerant pipeline, a refrigerant outlet of the second water refrigeration evaporator is connected with a refrigerant inlet of the second water production evaporator through a refrigerant pipeline, and a refrigerant outlet of the second water production evaporator is connected with a refrigerant inlet of the compressor through a refrigerant pipeline;

a first switching electromagnetic valve is arranged on a refrigerant pipeline between a refrigerant outlet of the first water heating condenser and a refrigerant inlet of the first air conditioning condenser, a second switching electromagnetic valve is arranged on a refrigerant pipeline between a refrigerant outlet of the second air conditioning condenser and a refrigerant inlet of the second water heating condenser, a first switching refrigerant pipeline is connected between a refrigerant inlet of the first switching electromagnetic valve and a refrigerant outlet of the second switching electromagnetic valve, and a third switching electromagnetic valve is arranged on the first switching refrigerant pipeline; a refrigerant pipeline between the refrigerant outlet of the first water refrigeration evaporator and the refrigerant inlet of the first air-conditioning evaporator is provided with a fourth switching electromagnetic valve, a refrigerant pipeline between the refrigerant outlet of the second air-conditioning evaporator and the refrigerant inlet of the second water refrigeration evaporator is provided with a fifth switching electromagnetic valve, a second switching refrigerant pipeline is connected between the refrigerant inlet of the fourth switching electromagnetic valve and the refrigerant outlet of the fifth switching electromagnetic valve, and the second switching refrigerant pipeline is provided with a sixth switching electromagnetic valve;

the combined system with the functions of producing clean water and air conditioning is provided with a controller, and the controller is electrically connected with an air conditioning fan, a compressor, a first switching electromagnetic valve, a second switching electromagnetic valve, a third switching electromagnetic valve, a fourth switching electromagnetic valve, a fifth switching electromagnetic valve and a sixth switching electromagnetic valve respectively.

Wherein, a water level sensor is arranged in the hot water insulation can and is electrically connected with the controller.

The hot water containing cavity is internally provided with a first temperature sensor between the first water heating condenser and the second water heating condenser, and the first temperature sensor is electrically connected with the controller.

And a second temperature sensor is arranged in the cold water containing cavity between the first water refrigeration evaporator and the second water refrigeration evaporator, and the second temperature sensor is electrically connected with the controller.

And a third temperature sensor is arranged in the air conditioner accommodating cavity between the first air conditioner condenser and the second air conditioner condenser and is electrically connected with the controller.

And a fourth temperature sensor is arranged in the air conditioner accommodating cavity between the first air conditioner evaporator and the second air conditioner evaporator and is electrically connected with the controller.

Wherein, a refrigerant pipeline between the refrigerant outlet of the water production condenser and the refrigerant inlet of the first water production evaporator is provided with a first filter and an expansion valve which are sequentially arranged along the flowing direction of the refrigerant.

The auxiliary condenser is arranged on the outer side of the water production tank body, a refrigerant inlet of the auxiliary condenser is connected with a refrigerant outlet of the compressor through a refrigerant pipeline, a refrigerant outlet of the auxiliary condenser is connected with a refrigerant inlet of the first water heating condenser through a refrigerant pipeline, an auxiliary fan blowing air towards the auxiliary condenser is arranged beside the auxiliary condenser, and the auxiliary fan is electrically connected with the controller.

And water quality electrolyzers are respectively embedded in the hot water containing cavity of the hot water insulation box and the cold water containing cavity of the cold water insulation box, and are respectively electrically connected with the controller.

Wherein, the upper end of the water production tank body is provided with a water production air inlet for the outside air to enter the water production chamber, and a second filter is arranged at the water production air inlet.

The invention has the beneficial effects that: the invention relates to a combined system with the functions of producing clean water and air conditioning, which comprises a water producing box body, a compressor, a controller and a cold-hot air conditioning component, wherein a hot water insulation box and a cold water insulation box are arranged at the lower end part of the water producing box body; a first water heating condenser and a second water heating condenser are embedded in the hot water containing cavity, a first water refrigerating evaporator and a second water refrigerating evaporator are embedded in the cold water containing cavity, and a first water producing evaporator, a second water producing evaporator and a water producing condenser are arranged in the water producing cavity; the cold and hot air conditioning assembly comprises an air conditioning shell, a first air conditioning condenser, a second air conditioning condenser, a first air conditioning evaporator, a second air conditioning evaporator, an air conditioning fan and first, second, third, fourth, fifth and sixth switching electromagnetic valves. Through the structural design, on one hand, the automatic water production can be realized, and on the other hand, the refrigeration and heating of the air conditioner can be realized, namely, the water-saving air conditioner has the advantages of novel structural design, multiple functions, convenience in use, energy conservation, environmental friendliness and capability of effectively saving water resources.

Drawings

The invention will be further described with reference to the drawings to which, however, the embodiments shown in the drawings do not constitute any limitation.

FIG. 1 is a schematic structural diagram of the present invention.

In fig. 1, included are:

1-Water producing tank 11-Hot Water insulation Box

111-hot water containing chamber 112-hot water tank inlet hole

12-Cold Water thermal insulation tank 121-Cold Water containing Chamber

122-cold water tank inlet hole 13-water producing chamber

21-hot water intake valve 22-cold water intake valve

311-first Water heating condenser 312-second Water heating condenser

32-Water production condenser 411-first Water refrigeration evaporator

412-second Water refrigeration evaporator 421-first Water production evaporator

422-second water-producing evaporator 5-cold-hot air conditioner component

51-air conditioner shell 511-air conditioner containing cavity

521-first air conditioner condenser 522-second air conditioner condenser

531 first air conditioner evaporator 532 second air conditioner evaporator

54-air-conditioning fan 61-compressor

62-first Filter 63-expansion valve

7-Water level sensor 81-first temperature sensor

82-second temperature sensor 83-third temperature sensor

84-fourth temperature sensor 85-fifth temperature sensor

91-auxiliary condenser 92-auxiliary fan

100-water quality electrolyzer 101-first switching solenoid valve

102-second switching solenoid valve 103-third switching solenoid valve

104-fourth switching solenoid valve 105-fifth switching solenoid valve

106-sixth switching solenoid valve 107-second Filter

108-overflow valve 109-circulating fan

110-water quality filter.

Detailed Description

The present invention will be described below with reference to specific embodiments.

As shown in figure 1, a combined system with the functions of producing clean water and air conditioning comprises a water producing tank body 1, a hot water insulation tank 11 and a cold water insulation tank 12 positioned beside the hot water insulation tank 11 are arranged at the lower end part of the water producing tank body 1, a hot water containing cavity 111 is arranged inside the hot water insulation tank 11, a cold water containing cavity 121 is arranged inside the cold water insulation tank 12, a water producing cavity 13 is arranged inside the water producing tank body 1 at the upper end side of the hot water insulation tank 11 and the cold water insulation tank 12, a cold water tank water inlet 122 communicated with the cold water containing cavity 121 and the water producing cavity 13 is arranged on the upper surface of the cold water insulation tank 12, a hot water tank water inlet 112 communicated with the hot water containing cavity 111 and the water producing cavity 13 is arranged on the upper surface of the hot water insulation tank 11, the hot water insulation tank 11 is provided with a hot water taking valve 21, the cold water insulation tank 12 is provided with a cold water intake valve 22.

Wherein, a first water heating condenser 311 and a second water heating condenser 312 positioned at the side of the first water heating condenser 311 are embedded in the hot water containing chamber 111 of the hot water insulation can 11, a first water refrigerating evaporator 411 and a second water refrigerating evaporator 412 positioned at the side of the first water refrigerating evaporator 411 are embedded in the cold water containing chamber 121 of the cold water insulation can 12, a first water producing evaporator 421 and a second water producing evaporator 422 positioned at the side of the first water producing evaporator 421 are installed in the water producing chamber 13 right above the cold water insulation can 12, and a water producing condenser 32 is installed in the water producing chamber 13 right above the hot water insulation can 11.

Further, this combined system with produce clean water, air conditioning function still includes cold-hot air conditioning component 5, and cold-hot air conditioning component 5 is including air conditioner casing 51, and air conditioner casing 51's inside is seted up towards air-out side open-ended air conditioner holding chamber 511, and air conditioner holding chamber 511 embeds is equipped with first air conditioner condenser 521, second air conditioner condenser 522, first air conditioner evaporimeter 531, second air conditioner evaporimeter 532 and towards air conditioner fan 54 of the opening side blow of air conditioner holding chamber 511.

Furthermore, the combined system with clean water production and air conditioning functions further comprises a compressor 61, a refrigerant outlet of the compressor 61 is connected with a refrigerant inlet of the first water heating condenser 311 through a refrigerant pipeline, a refrigerant outlet of the first water heating condenser 311 is connected with a refrigerant inlet of the first air conditioning condenser 521 through a refrigerant pipeline, a refrigerant outlet of the first air conditioning condenser 521 is connected with a refrigerant inlet of the second air conditioning condenser 522 through a refrigerant pipeline, a refrigerant outlet of the second air conditioning condenser 522 is connected with a refrigerant inlet of the second water heating condenser 312 through a refrigerant pipeline, a refrigerant outlet of the second water heating condenser 312 is connected with a refrigerant inlet of the water production condenser 32 through a refrigerant pipeline, a refrigerant outlet of the water production condenser 32 is connected with a refrigerant inlet of the first water production evaporator 421 through a refrigerant pipeline, a refrigerant outlet of the first water production evaporator 421 is connected to a refrigerant inlet of the first water refrigeration evaporator 411 through a refrigerant pipe, a refrigerant outlet of the first water refrigeration evaporator 411 is connected to a refrigerant inlet of the first air-conditioning evaporator 531 through a refrigerant pipe, a refrigerant outlet of the first air-conditioning evaporator 531 is connected to a refrigerant inlet of the second air-conditioning evaporator 532 through a refrigerant pipe, a refrigerant outlet of the second air-conditioning evaporator 532 is connected to a refrigerant inlet of the second water refrigeration evaporator 412 through a refrigerant pipe, a refrigerant outlet of the second water refrigeration evaporator 412 is connected to a refrigerant inlet of the second water production evaporator 422 through a refrigerant pipe, and a refrigerant outlet of the second water production evaporator 422 is connected to a refrigerant inlet of the compressor 61 through a refrigerant pipe.

In addition, a first switching solenoid valve 101 is installed in a refrigerant pipeline between the refrigerant outlet of the first water heating condenser 311 and the refrigerant inlet of the first air conditioning condenser 521, a second switching solenoid valve 102 is installed in a refrigerant pipeline between the refrigerant outlet of the second air conditioning condenser 522 and the refrigerant inlet of the second water heating condenser 312, a first switching refrigerant pipeline is connected between the refrigerant inlet of the first switching solenoid valve 101 and the refrigerant outlet of the second switching solenoid valve 102, and a third switching solenoid valve 103 is installed in the first switching refrigerant pipeline; a fourth switching solenoid valve 104 is installed on a refrigerant pipe between the refrigerant outlet of the first water refrigeration evaporator 411 and the refrigerant inlet of the first air conditioning evaporator 531, a fifth switching solenoid valve 105 is installed on a refrigerant pipe between the refrigerant outlet of the second air conditioning evaporator 532 and the refrigerant inlet of the second water refrigeration evaporator 412, a second switching refrigerant pipe is connected between the refrigerant inlet of the fourth switching solenoid valve 104 and the refrigerant outlet of the fifth switching solenoid valve 105, and a sixth switching solenoid valve 106 is installed on the second switching refrigerant pipe.

It should be further noted that the combined system with clean water production and air conditioning functions is equipped with a controller, and the controller is electrically connected with the air conditioning fan 54, the compressor 61, the first switching solenoid valve 101, the second switching solenoid valve 102, the third switching solenoid valve 103, the fourth switching solenoid valve 104, the fifth switching solenoid valve 105 and the sixth switching solenoid valve 106, respectively.

In the process of producing water by using the water production tank 1, the refrigerant passes through the water production condenser 32 and releases heat, and a high temperature region is formed near the water production condenser 32, the refrigerant passes through the first water production evaporator 421 and the second water production evaporator 422 and absorbs heat, and a low temperature region is formed near the first water production evaporator 421 and the second water production evaporator 422, due to the action of the water producing condenser 32, the first water producing evaporator 421 and the second water producing evaporator 422, a temperature difference environment can be formed in the water producing chamber 13 of the water producing tank body 1, air in a high-temperature area can automatically move towards a low-temperature area, moisture carried in the air can be condensed into water drops after contacting the first water producing evaporator 421 and the second water producing evaporator 422, and the water drops drop downwards and enter the cold water containing chamber 121 of the cold water insulation tank 12 through the cold water tank water inlet hole 122 of the cold water insulation tank 12; when the cold water holding chamber 121 is filled with water, the water overflows upward and enters the hot water holding chamber 111 through the hot water inlet hole 112 of the hot water insulation tank 11. It should be further noted that, in the process that the refrigerant passes through the first water heating condenser 311 and the second water heating condenser 312, the first water heating condenser 311 and the second water heating condenser 312 release heat and heat the water in the hot water containing chamber 111, so as to automatically produce hot water; similarly, in the process that the refrigerant passes through the first water refrigeration evaporator 411 and the second water refrigeration evaporator 412, the first water refrigeration evaporator 411 and the second water refrigeration evaporator 412 absorb heat and perform cooling refrigeration treatment on the water in the cold water containing chamber 121. During the use process of the present invention, a user can use the cold water intake valve 22 to take the cold water in the cold water containing chamber 121, and can also use the hot water in the hot water containing chamber 111 through the hot water intake valve 21. It should be further explained that the water quality filter 110 can be installed at the inlet 112 of the hot water tank and the inlet 122 of the cold water tank, and during the operation of the present invention, the water quality filter 110 can filter the water entering the hot water containing chamber 111 and the cold water containing chamber 121.

In the process of realizing air conditioning heating by using the cold and hot air conditioning assembly 5, the controller controls the first switching electromagnetic valve 101, the second switching electromagnetic valve 102 and the sixth switching electromagnetic valve 106 to be opened and controls the third switching electromagnetic valve 103, the fourth switching electromagnetic valve 104 and the fifth switching electromagnetic valve 105 to be closed, at this time, the refrigerant passes through the first air conditioning condenser 521 and the second air conditioning condenser 522, and the refrigerant does not pass through the first air conditioning evaporator 531 and the second air conditioning evaporator 532; in the process of realizing air conditioning and heating, the controller controls the air conditioning fan 54 to start, the first air conditioning condenser 521 and the second air conditioning condenser 522 release heat in the process that the refrigerant passes through the first air conditioning condenser 521 and the second air conditioning condenser 522, in the process, the air conditioning fan 54 sends air to the first air conditioning condenser 521 and the second air conditioning condenser 522 side, and the hot air is finally discharged through the air outlet of the air conditioning shell 51, so that the air conditioning and heating function is realized.

In the process of realizing air-conditioning refrigeration by using the cold-hot air-conditioning assembly 5, the controller controls the first switching electromagnetic valve 101, the second switching electromagnetic valve 102 and the sixth switching electromagnetic valve 106 to be closed and controls the third switching electromagnetic valve 103, the fourth switching electromagnetic valve 104 and the fifth switching electromagnetic valve 105 to be opened, at this time, the refrigerant does not pass through the first air-conditioning condenser 521 and the second air-conditioning condenser 522 and the refrigerant passes through the first air-conditioning evaporator 531 and the second air-conditioning evaporator 532; in the process of realizing air-conditioning refrigeration, the controller controls the air-conditioning fan 54 to be started, and in the process that the refrigerant passes through the first air-conditioning evaporator 531 and the second air-conditioning evaporator 532, the first air-conditioning evaporator 531 and the second air-conditioning evaporator 532 absorb heat, in the process, the air-conditioning fan 54 supplies air to the first air-conditioning evaporator 531 and the second air-conditioning evaporator 532, and cold air is finally discharged through the air outlet of the air-conditioning shell 51, so that the air-conditioning refrigeration function is realized.

According to the above situation, through the structural design, on one hand, the automatic water production can be realized, and on the other hand, the refrigeration and heating of the air conditioner can be realized, namely, the invention has the advantages of novel structural design, multiple functions, convenience in use, energy conservation, environmental protection and capability of effectively saving water resources.

In a preferred embodiment, as shown in fig. 1, a water level sensor 7 is installed in the hot water incubator 11, and the water level sensor 7 is electrically connected to the controller; wherein, the water level sensor 7 of the present invention may be a float water level switch. In the operation of the present invention, when the level of the hot water in the hot water containing chamber 111 reaches the level of the water level sensor 7, the controller controls the compressor 61 to stop operating.

As a preferred embodiment, as shown in fig. 1, a first temperature sensor 81 is installed in the hot water containing chamber 111 between the first water heating condenser 311 and the second water heating condenser 312, and the first temperature sensor 81 is electrically connected to the controller; a second temperature sensor 82 is arranged in the cold water holding chamber 121 between the first water refrigeration evaporator 411 and the second water refrigeration evaporator 412, and the second temperature sensor 82 is electrically connected with the controller; a third temperature sensor 83 is arranged between the first air conditioner condenser 521 and the second air conditioner condenser 522 in the air conditioner accommodating cavity 511, and the third temperature sensor 83 is electrically connected with the controller; a fourth temperature sensor 84 is arranged between the first air-conditioning evaporator 531 and the second air-conditioning evaporator 532 in the air-conditioning accommodating cavity 511, and the fourth temperature sensor 84 is electrically connected with the controller. In the working process of the invention, the first temperature sensor 81 monitors the temperature of hot water in the hot water containing chamber 111 in real time, the second temperature sensor 82 monitors the temperature of cold water in the cold water containing chamber 121 in real time, the third temperature sensor 83 monitors the temperature of hot air of an air conditioner in real time, and the fourth temperature sensor 84 monitors the temperature of cold air of the air conditioner in real time. In addition, a fifth temperature sensor 85 electrically connected with the controller is arranged in the water producing chamber 13, and when the water producing device works, the fifth temperature sensor 85 is used for monitoring the temperature in the water producing chamber 13 in real time.

As shown in fig. 1, preferably, an auxiliary condenser 91 is installed outside the water producing tank 1, a refrigerant inlet of the auxiliary condenser 91 is connected to a refrigerant outlet of the compressor 61 through a refrigerant pipe, a refrigerant outlet of the auxiliary condenser 91 is connected to a refrigerant inlet of the first water heating condenser 311 through a refrigerant pipe, an auxiliary fan 92 for blowing air to the side of the auxiliary condenser 91 is installed beside the auxiliary condenser 91, and the auxiliary fan 92 is electrically connected to the controller.

In a preferred embodiment, as shown in fig. 1, water electrolyzers 100 are respectively embedded in a hot water holding chamber 111 of a hot water thermal insulation tank 11 and a cold water holding chamber 121 of a cold water thermal insulation tank 12, and the water electrolyzers 100 are electrically connected to a controller. During the operation of the present invention, water electrolyzer 100 can effectively electrolyze hot and cold water and enhance water quality.

As a preferred embodiment, as shown in fig. 1, the upper end of the water producing tank 1 is opened with a water producing air inlet hole for the external air to enter into the water producing chamber 13, and a second filter 107 is installed at the water producing air inlet hole. In the working process of the invention, the water production inlet is beneficial for the external water-containing air to enter the water production chamber 13, and the second filter 107 can filter the air entering the water production chamber 13 so as to ensure the quality of cold water and hot water. In addition, a circulating fan 109 can be arranged in the water producing chamber 13, the circulating fan 109 is electrically connected with the controller, and in the working process of the invention, the circulating fan 109 can effectively promote the air flow in the water producing chamber 13, thereby effectively avoiding the icing phenomenon.

The above description is only a preferred embodiment of the present invention, and it should not be understood that the present invention is limited to the details of the embodiment and the range of applications, which can be changed by those skilled in the art according to the spirit of the present invention.

Claims (9)

1. The utility model provides a combined system with produce clean water, air conditioner function which characterized in that: comprises a water production tank body (1), a hot water insulation tank (11) and a cold water insulation tank (12) positioned beside the hot water insulation tank (11) are arranged at the lower end part of the water production tank body (1), a hot water containing cavity (111) is arranged inside the hot water insulation tank (11), a cold water containing cavity (121) is arranged inside the cold water insulation tank (12), a water production cavity (13) is arranged inside the water production tank body (1) and at the upper end side of the hot water insulation tank (11) and the cold water insulation tank (12), a cold water tank water inlet hole (122) communicated with the cold water containing cavity (121) and the water production cavity (13) is arranged on the upper surface of the cold water insulation tank (12), a hot water tank water inlet hole (112) communicated with the hot water containing cavity (111) and the water production cavity (13) is arranged on the upper surface of the hot water insulation tank (11), and at the upper end side of the upper surface of the cold water insulation tank (12), the hot water insulation box (11) is provided with a hot water intake valve (21), and the cold water insulation box (12) is provided with a cold water intake valve (22);

a first water heating condenser (311) and a second water heating condenser (312) positioned at the side of the first water heating condenser (311) are embedded in a hot water containing cavity (111) of a hot water insulation box (11), a first water refrigerating evaporator (411) and a second water refrigerating evaporator (412) positioned at the side of the first water refrigerating evaporator (411) are embedded in a cold water containing cavity (121) of a cold water insulation box (12), a first water production evaporator (421) and a second water production evaporator (422) positioned at the side of the first water production evaporator (421) are arranged in a water production cavity (13) right above the cold water insulation box (12), and a water production condenser (32) is arranged in the water production cavity (13) right above the hot water insulation box (11);

the combined system with the functions of producing clean water and air conditioning further comprises a cold and hot air conditioning assembly (5), wherein the cold and hot air conditioning assembly (5) comprises an air conditioning shell (51), an air conditioning accommodating cavity (511) which is open towards the air outlet side is formed in the air conditioning shell (51), and a first air conditioning condenser (521), a second air conditioning condenser (522), a first air conditioning evaporator (531), a second air conditioning evaporator (532) and an air conditioning fan (54) which blows air towards the opening side of the air conditioning accommodating cavity (511) are embedded in the air conditioning accommodating cavity (511);

the combined system with the functions of producing clean water and air conditioning also comprises a compressor (61), a refrigerant outlet of the compressor (61) is connected with a refrigerant inlet of a first water heating condenser (311) through a refrigerant pipeline, a refrigerant outlet of the first water heating condenser (311) is connected with a refrigerant inlet of a first air conditioning condenser (521) through a refrigerant pipeline, a refrigerant outlet of the first air conditioning condenser (521) is connected with a refrigerant inlet of a second air conditioning condenser (522) through a refrigerant pipeline, a refrigerant outlet of the second air conditioning condenser (522) is connected with a refrigerant inlet of a second water heating condenser (312) through a refrigerant pipeline, a refrigerant outlet of the second water heating condenser (312) is connected with a refrigerant inlet of a water producing condenser (32) through a refrigerant pipeline, a refrigerant outlet of the water producing condenser (32) is connected with a refrigerant inlet of a first water producing evaporator (421) through a refrigerant pipeline, a refrigerant outlet of the first water production evaporator (421) is connected with a refrigerant inlet of the first water refrigeration evaporator (411) through a refrigerant pipeline, a refrigerant outlet of the first water refrigeration evaporator (411) is connected with a refrigerant inlet of the first air-conditioning evaporator (531) through a refrigerant pipeline, a refrigerant outlet of the first air-conditioning evaporator (531) is connected with a refrigerant inlet of the second air-conditioning evaporator (532) through a refrigerant pipeline, a refrigerant outlet of the second air-conditioning evaporator (532) is connected with a refrigerant inlet of the second water refrigeration evaporator (412) through a refrigerant pipeline, a refrigerant outlet of the second water refrigeration evaporator (412) is connected with a refrigerant inlet of the second water production evaporator (422) through a refrigerant pipeline, and a refrigerant outlet of the second water production evaporator (422) is connected with a refrigerant inlet of the compressor (61) through a refrigerant pipeline;

a first switching electromagnetic valve (101) is arranged on a refrigerant pipeline between a refrigerant outlet of the first water heating condenser (311) and a refrigerant inlet of the first air conditioning condenser (521), a second switching electromagnetic valve (102) is arranged on a refrigerant pipeline between a refrigerant outlet of the second air conditioning condenser (522) and a refrigerant inlet of the second water heating condenser (312), a first switching refrigerant pipeline is connected between a refrigerant inlet of the first switching electromagnetic valve (101) and a refrigerant outlet of the second switching electromagnetic valve (102), and a third switching electromagnetic valve (103) is arranged on the first switching refrigerant pipeline; a fourth switching electromagnetic valve (104) is arranged on a refrigerant pipeline between the refrigerant outlet of the first water refrigeration evaporator (411) and the refrigerant inlet of the first air-conditioning evaporator (531), a fifth switching electromagnetic valve (105) is arranged on a refrigerant pipeline between the refrigerant outlet of the second air-conditioning evaporator (532) and the refrigerant inlet of the second water refrigeration evaporator (412), a second switching refrigerant pipeline branch is connected between the refrigerant inlet of the fourth switching electromagnetic valve (104) and the refrigerant outlet of the fifth switching electromagnetic valve (105), and a sixth switching electromagnetic valve (106) is arranged on the second switching refrigerant pipeline;

the combined system with the functions of producing clean water and air conditioning is provided with a controller, and the controller is respectively electrically connected with an air conditioning fan (54), a compressor (61), a first switching electromagnetic valve (101), a second switching electromagnetic valve (102), a third switching electromagnetic valve (103), a fourth switching electromagnetic valve (104), a fifth switching electromagnetic valve (105) and a sixth switching electromagnetic valve (106);

an auxiliary condenser (91) is arranged on the outer side of the water production tank body (1), a refrigerant inlet of the auxiliary condenser (91) is connected with a refrigerant outlet of the compressor (61) through a refrigerant pipeline, a refrigerant outlet of the auxiliary condenser (91) is connected with a refrigerant inlet of the first water heating condenser (311) through a refrigerant pipeline, an auxiliary fan (92) blowing air towards the auxiliary condenser (91) is arranged on the side of the auxiliary condenser (91), and the auxiliary fan (92) is electrically connected with the controller;

in the process of water production by using the water production tank body (1), refrigerant passes through the water production condenser (32) and releases heat, a high-temperature region is formed near the water production condenser (32), the refrigerant passes through the first water production evaporator (421) and the second water production evaporator (422) and absorbs heat, a low-temperature region is formed near the first water production evaporator (421) and the second water production evaporator (422), air in the high-temperature region automatically moves towards the low-temperature region due to the effects of the water production condenser (32), the first water production evaporator (421) and the second water production evaporator (422), moisture carried in the air is condensed into water drops after contacting the first water production evaporator (421) and the second water production evaporator (422), and the water drops drop downwards and enter the cold water holding cavity (121) of the cold water holding tank (12) through the cold water tank water inlet hole (122) of the cold water holding tank (12) to form a temperature difference environment (ii) a When the cold water containing chamber (121) is full of water, the water overflows upwards and enters the hot water containing chamber (111) through the hot water tank water inlet hole (112) of the hot water insulation tank (11);

in the process of realizing air conditioning heating by using the cold and hot air conditioning assembly (5), the controller controls the first switching electromagnetic valve (101), the second switching electromagnetic valve (102) and the sixth switching electromagnetic valve (106) to be opened and controls the third switching electromagnetic valve (103), the fourth switching electromagnetic valve (104) and the fifth switching electromagnetic valve (105) to be closed, at the moment, the refrigerant passes through the first air conditioning condenser (521) and the second air conditioning condenser (522), and the refrigerant does not pass through the first air conditioning evaporator (531) and the second air conditioning evaporator (532); in the process of realizing air conditioning heating, the controller controls the air conditioning fan (54) to be started, the first air conditioning condenser (521) and the second air conditioning condenser (522) release heat in the process that the refrigerant passes through the first air conditioning condenser (521) and the second air conditioning condenser (522), in the process, the air conditioning fan (54) supplies air to the first air conditioning condenser (521) and the second air conditioning condenser (522), and hot air is finally discharged through an air outlet of the air conditioning shell (51), so that the air conditioning heating function is realized;

in the process of realizing air conditioner refrigeration by using the cold and hot air conditioner component (5), the controller controls the first switching electromagnetic valve (101), the second switching electromagnetic valve (102) and the sixth switching electromagnetic valve 106 to be closed and controls the third switching electromagnetic valve (103), the fourth switching electromagnetic valve (104) and the fifth switching electromagnetic valve (105) to be opened, at the moment, the refrigerant does not pass through the first air conditioner condenser (521) and the second air conditioner condenser (522) and the refrigerant passes through the first air conditioner evaporator (531) and the second air conditioner evaporator (532); in the process of realizing air-conditioning refrigeration, the controller controls the air-conditioning fan (54) to be started, the first air-conditioning evaporator (531) and the second air-conditioning evaporator (532) absorb heat in the process that refrigerant passes through the first air-conditioning evaporator (531) and the second air-conditioning evaporator (532), in the process, the air-conditioning fan (54) supplies air to the first air-conditioning evaporator (531) and the second air-conditioning evaporator (532) side, and cold air is finally discharged through an air outlet of the air-conditioning shell (51), so that the air-conditioning refrigeration function is realized.

2. The combined system with the functions of producing clean water and air conditioning as claimed in claim 1, wherein: a water level sensor (7) is arranged in the hot water insulation can (11), and the water level sensor (7) is electrically connected with the controller.

3. The combined system with the functions of producing clean water and air conditioning as claimed in claim 1, wherein: a first temperature sensor (81) is arranged between the first water heating condenser (311) and the second water heating condenser (312) in the hot water containing chamber (111), and the first temperature sensor (81) is electrically connected with the controller.

4. The combined system with the functions of producing clean water and air conditioning as claimed in claim 1, wherein: and a second temperature sensor (82) is arranged between the first water refrigeration evaporator (411) and the second water refrigeration evaporator (412) in the cold water holding chamber (121), and the second temperature sensor (82) is electrically connected with the controller.

5. The combined system with the functions of producing clean water and air conditioning as claimed in claim 1, wherein: and a third temperature sensor (83) is arranged between the first air conditioner condenser (521) and the second air conditioner condenser (522) in the air conditioner accommodating cavity (511), and the third temperature sensor (83) is electrically connected with the controller.

6. The combined system with the functions of producing clean water and air conditioning as claimed in claim 1, wherein: and a fourth temperature sensor (84) is arranged between the first air-conditioning evaporator (531) and the second air-conditioning evaporator (532) in the air-conditioning accommodating cavity (511), and the fourth temperature sensor (84) is electrically connected with the controller.

7. The combined system with the functions of producing clean water and air conditioning as claimed in claim 1, wherein: a refrigerant pipeline between a refrigerant outlet of the water production condenser (32) and a refrigerant inlet of the first water production evaporator (421) is provided with a first filter (62) and an expansion valve (63) which are sequentially arranged along the flowing direction of the refrigerant.

8. The combined system with the functions of producing clean water and air conditioning as claimed in claim 1, wherein: the water quality electrolyzers (100) are respectively embedded in the hot water containing chamber (111) of the hot water insulation box (11) and the cold water containing chamber (121) of the cold water insulation box (12), and the water quality electrolyzers (100) are respectively and electrically connected with the controller.

9. The combined system with the functions of producing clean water and air conditioning as claimed in claim 1, wherein: the upper end part of the water production tank body (1) is provided with a water production air inlet hole for allowing outside air to enter the water production chamber (13), and a second filter (107) is arranged at the water production air inlet hole.

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