CN212619443U - All-in-one machine with refrigerating and heating device - Google Patents

Abstract

The utility model discloses an integrated machine with a refrigerating and heating device, which comprises a shell, a water inlet, a water outlet and a water outlet, wherein the shell is provided with an air duct, an air inlet and an air outlet; the refrigerating and heating device is provided with a cold end and a hot end, is arranged in the air duct and divides part of the air duct into a hot air duct and a cold air duct, inlets of the hot air duct and the cold air duct are respectively communicated with the air inlet, outlets of the hot air duct and the cold air duct are respectively selectively communicated with the air outlet or the flue, the hot end is positioned in the hot air duct, and the cold end is positioned in the cold air duct; the waterway system comprises a cold water pipe connected with the cold end, a hot water pipe connected with the hot end and a control valve, wherein the control valve is respectively connected with the water inlet ends of the cold water pipe and the hot water pipe, or the water inlet ends of the cold water pipe and the hot water pipe are respectively provided with a control valve; and the control assembly is electrically connected with the refrigerating and heating device and the control valve respectively. The utility model discloses have kitchen air conditioner and water dispenser function, fuse the kitchen electrical apparatus novelty, practice thrift the kitchen space, convenient maintenance improves kitchen environment and the healthy life quality of people.

Description

All-in-one machine with refrigerating and heating device

Technical Field

The utility model relates to a kitchen electricity technical field especially relates to an all-in-one that has refrigeration heating device suitable for kitchen air conditioner and water dispenser.

Background

The kitchen area is usually small, and in addition, the cooking range generates higher temperature during cooking, so that the whole kitchen is stuffy. The air conditioner can well improve the ambient temperature in a kitchen, but the volume of the air conditioner can encroach on the originally narrow kitchen space, which puts a demand on high integration of kitchen appliances. In addition, the water dispenser increasingly becomes a necessary household appliance for the healthy life of modern people, and is generally placed in a kitchen, and the heating or refrigerating function of the water dispenser is realized by a semiconductor refrigerator.

In order to comprehensively improve the environmental temperature of a kitchen and meet the requirement of high integration of kitchen appliances, the innovative integration of the kitchen air conditioner and the water dispenser which are provided with the refrigeration and heating system is imperative.

Disclosure of Invention

The utility model discloses aim at solving one of the problems that exist among the prior correlation technique at least to a certain extent, for this reason, the utility model provides an all-in-one with refrigeration heating device carries out the novelty with kitchen electrical apparatus and fuses, realizes highly integrating, practices thrift the kitchen space, does benefit to and improves kitchen environment and the healthy quality of life of people.

According to the all-in-one machine with the refrigerating and heating device, the technical scheme is as follows:

an all-in-one machine with refrigerating and heating devices comprises: the shell is provided with an air duct, an air inlet and an air outlet which are communicated with the air duct; the refrigerating and heating device is provided with a hot end and a cold end, is arranged in the air duct and divides part of the air duct into a hot air duct and a cold air duct, the inlet of the hot air duct and the inlet of the cold air duct are respectively communicated with the air inlet, the outlet of the hot air duct and the outlet of the cold air duct are respectively and selectively communicated with the air outlet or the flue, the hot end is positioned in the hot air duct (111), and the cold end is positioned in the cold air duct (112); the water path system comprises a cold water pipe, a hot water pipe and a control valve, wherein the cold water pipe is connected with the cold end, the hot water pipe is connected with the hot end, the control valve is respectively connected with the water inlet end of the cold water pipe and the water inlet end of the hot water pipe, or the control valve is respectively arranged on the water inlet end of the cold water pipe and the water inlet end of the hot water pipe; and the control assembly is electrically connected with the refrigerating and heating device and the control valve respectively.

In some embodiments, the cooling and heating device includes a cooling and heating component and an air supply component respectively electrically connected to the control component, the cooling and heating component is disposed in the air duct and divides a portion of the air duct into the hot air duct and the cold air duct, the cooling and heating component has the hot end and the cold end, and the air supply component is disposed in the air duct and is close to the air inlet, and is configured to blow cold air toward the air outlet or the air flue and blow hot air toward the air outlet or the air flue.

In some embodiments, the cooling and heating assembly includes a cooling and heating element having a hot end located in the hot air duct and a cold end located in the cold air duct, and a thermal insulation disposed between the cold end and the hot end.

In some embodiments, the cooling and heating device further comprises a heat sink disposed on a hot end of the cooling and heating assembly.

In some embodiments, the cold junction air door is further included, a cold air outlet is arranged at a position, corresponding to the cold air duct, of the shell, the cold air duct is communicated with the flue through the cold air outlet, and the cold junction air door is movably arranged in the air duct and electrically connected with the control assembly and used for controlling the cold air outlet and the cold air duct outlet to be opened and closed.

In some embodiments, the hot end air door is further included, a heat dissipation port is arranged at a position, corresponding to the hot air duct, of the shell, the hot air duct is communicated with the flue through the heat dissipation port, and the hot end air door is movably arranged in the air duct, electrically connected with the control assembly and used for controlling the opening and closing of the heat dissipation port and the outlet of the hot air duct.

In some embodiments, the cold water pipe has a cold end coil disposed within the cold end of the refrigeration and heating device; the hot water pipe is provided with a hot end coil pipe which is arranged in the hot end of the refrigerating and heating device.

In some embodiments, the waterway system further includes a main water inlet pipe for communicating with an external water supply, the control valve has a water inlet, a first water outlet and a second water outlet which are communicated with each other, the water inlet is communicated with the outlet of the main water inlet pipe, the first water outlet is communicated with the water inlet end of the cold water pipe, and the second water outlet is communicated with the water inlet end of the hot water pipe.

In some embodiments, the inlet of the main water inlet pipe is communicated with filtered external water supply; or the inlet of the main water inlet pipe is communicated with tap water, and a filter for filtering and purifying water quality is arranged on the main water inlet pipe.

In some embodiments, the water dispenser further comprises a main water outlet pipe, wherein the water inlet end of the main water outlet pipe is communicated with the water outlet end of the cold water pipe and the water outlet end of the hot water pipe respectively, and the water outlet end of the main water outlet pipe is communicated with the water outlet of the water dispenser.

Compared with the prior art, the utility model discloses an at least including following beneficial effect:

1. the utility model has the advantages that the integrated machine has the functions of a kitchen air conditioner and a water dispenser by sharing the refrigerating and heating device, realizes the innovative integration and the high integration of two kitchen appliances, saves the kitchen space, is convenient for later maintenance and repair, and improves the kitchen environment and the healthy life quality of people;

2. the utility model discloses an all-in-one machine with refrigerating and heating device, it can switch between the refrigeration heat dissipation mode and the heating heat dissipation cold mode, not only realizes providing cold wind or hot wind or no wind for the user through the air outlet, can also improve the utilization ratio of the existing flue in the kitchen;

3. the utility model discloses an all-in-one can switch between refrigeration water and heating water mode, realizes providing cold water or hot water for the user.

4. By carrying out combined control on the kitchen air conditioning function and the water dispenser function, the all-in-one machine can be switched among linkage modes of air conditioning refrigeration/water dispenser machine cold water, air conditioning heating/water dispenser machine hot water, air conditioning refrigeration/water dispenser machine hot water, air conditioning heating/water dispenser machine cold water and the like.

Drawings

Fig. 1 is a schematic structural diagram of an integrated machine with a refrigerating and heating device in an embodiment of the present invention, in which a hot end air door is in a state of opening a heat dissipation port, and a cold end air door is in a state of closing the heat dissipation port;

fig. 2 is a sectional view of a cooling and heating assembly according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an integrated machine with a refrigerating and heating device in an embodiment of the present invention, in which a hot end air door is in a state of closing a heat dissipation port, and a cold end air door is in a state of opening a cold dissipation port;

fig. 4 is a schematic structural view of a water flow path of a waterway system according to an embodiment of the present invention, in which an insulation member of a cooling and heating assembly is hidden;

fig. 5 is a block diagram of a control assembly in an embodiment of the present invention;

fig. 6 is a schematic structural diagram of the integrated machine with the refrigerating and heating device in the embodiment of the present invention, in the diagram, the hot end air door is in the state of opening the heat dissipation opening, and the cold end air door is in the state of opening the cold dissipation opening.

Detailed Description

The present invention is illustrated by the following examples, but the present invention is not limited to these examples. To the embodiment of the present invention, modify or replace some technical features, without departing from the spirit of the present invention, it should be covered in the technical solution scope of the present invention.

In the description of the present invention, the electrical connection includes an electrical connection and a communication connection. The flue comprises a common flue, an internal flue of the range hood and a smoke exhaust pipe of the range hood.

As shown in fig. 1 to 3, the integrated machine with a cooling and heating device of this embodiment includes a housing 1, a cooling and heating device 2 having a hot end and a cold end, a water path system 3, and a control assembly 6, where the housing 1 is provided with an air duct 11, and an air inlet 12 and an air outlet 13 communicating with the air duct 11. The refrigerating and heating device 2 is arranged in the air duct 11 and electrically connected with the control assembly 6, part of the air duct 11 is divided into a hot air duct 111 and a cold air duct 112 by the refrigerating and heating device 2, the inlet of the hot air duct 111 and the inlet of the cold air duct 112 are respectively communicated with the air inlet 12, the outlet of the hot air duct 111 and the outlet of the cold air duct 112 are respectively and selectively communicated with the air outlet 13 or the flue, the hot end of the refrigerating and heating device 2 is positioned in the hot air duct 111, and the cold end of the refrigerating and heating device 2 is positioned in the cold air duct. Therefore, the outlet of the hot air channel 111 is controlled to be selectively communicated with the air outlet 13 or the flue, and the outlet of the cold air channel 112 is controlled to be selectively communicated with the air outlet 13 or the flue, so that the integrated machine can be switched between a cooling heat dissipation mode and a heating heat dissipation mode, has a kitchen air conditioning function, and realizes the purpose of providing cold air or hot air for a user through the air outlet 13; in addition, heat dissipation and/or cold dissipation are/is carried out through the flue, heat and/or cold air is discharged outdoors, and the utilization rate of the existing flue of the kitchen is improved.

The water path system 3 comprises a cold water pipe 31, a hot water pipe 32 and a control valve 33 electrically connected with the control assembly 6, wherein the cold water pipe 31 is connected with the cold end of the refrigerating and heating device 2, so that water flowing through the cold end of the refrigerating and heating device 2 along the cold water pipe 31 is refrigerated, and the requirement of a user on using cold water is met; the hot water pipe 32 is connected to the hot end of the refrigerating and heating device 2, so that the water flowing through the hot end of the refrigerating and heating device 2 along the hot water pipe 32 is preheated to meet the requirement of the user for using hot water. The control valve 33 is connected to the water inlet end of the cold water pipe 31 and the water inlet end of the hot water pipe 32, or the control valve 33 is disposed on the water inlet end of the cold water pipe 31 and the water inlet end of the hot water pipe 32. Therefore, the on-off of the water inlet end of the cold water pipe 31 and/or the water inlet end of the hot water pipe 32 is controlled through the control valve 33, so that the all-in-one machine can be switched between a refrigerating mode and a heating mode, has a water dispenser function, and provides cold water or hot water for users.

It can be seen that the all-in-one with the refrigerating and heating device of the embodiment enables the all-in-one to have the functions of a kitchen air conditioner and a water dispenser by sharing the refrigerating and heating device 2, realizes innovative integration and high integration of two kitchen appliances, saves the kitchen space, facilitates later maintenance and repair, and is beneficial to improving the kitchen environment and the healthy life quality of people. In addition, the kitchen air conditioning function and the water dispenser function are controlled in a combined mode, so that the all-in-one machine can be switched among linkage modes of air conditioning refrigeration/water dispenser machine cooling water, air conditioning heating/water dispenser machine heating water, air conditioning refrigeration/water dispenser machine heating water, air conditioning heating/water dispenser machine cooling water and the like.

As shown in fig. 1-2, the air duct 11 of the present embodiment is arranged in the lateral direction. Further, the cooling and heating device 2 includes a cooling and heating component 21 and an air supply component 22 respectively electrically connected to the control component 6, the cooling and heating component 21 is disposed in the air duct 11 and divides part of the air duct 11 into a hot air duct 111 and a cold air duct 112, and the cooling and heating component 21 has a hot end and a cold end. The air supply assembly 22 is disposed in the air duct 11 and close to the air inlet 12, and is used for blowing cold air to the air outlet 13 or the flue and blowing hot air to the air outlet 13 or the flue. From this, the refrigeration and heating subassembly 21 during operation is through cold junction refrigeration and heat through the hot junction to through set up air supply subassembly 22 near air intake 12, realize blowing the cold wind to air outlet 13 or flue and blow the hot wind to air outlet 13 or flue, and then be convenient for according to the demand, control all-in-one is in the refrigeration heat dissipation and heat between the scattered cold die of heating and is switched over in a flexible way, improves the ambient temperature in kitchen space. Preferably, the air supply assembly 22 of the present embodiment is an axial fan.

Specifically, the cooling and heating assembly 21 includes a cooling and heating element 211 and a heat insulating member 212, the cooling and heating element 211 has a hot end 211b located in the hot air duct 111 and a cold end 211a located in the cold air duct 112, and the heat insulating member 212 is disposed between the cold end 211a and the hot end 211b, so that mutual interference between the cold end 211a and the hot end 211b of the cooling and heating element 211 can be avoided, and further, the cooling effect of the cold end 211a is prevented from being affected by heat generated by the hot end 211 b.

Preferably, the cooling and heating element 211 of the present embodiment is a semiconductor, and the adjustment of the magnitude of the temperature difference between the cold end 211a and the hot end 211b can be achieved by adjusting the magnitude of the dc voltage applied to the cooling and heating element 211. As the dc voltage is larger, the temperature difference between the cold side 211a and the hot side 211b is larger. From this, the refrigerating output of cold junction 211a and the heating capacity of hot junction 211b are adjusted to the accessible control direct current voltage size, and then realize controlling kitchen air conditioner refrigeration heat dissipation or heat the different gears of high, well and low that dispel the cold, improve the ambient temperature in kitchen space, promote user experience.

Further, the cooling and heating device 2 further includes a radiator 23, and the radiator 23 is disposed on the hot end of the cooling and heating component 21 (i.e., the hot end 211b of the cooling and heating element 211), so that the radiator 23 is disposed on the hot end 211b, and the air supply component 22 dissipates heat, thereby effectively avoiding the device from malfunctioning due to over-high temperature, and improving the usability of the product.

As shown in fig. 1, further, the air conditioner further comprises a cold end air door 4, a cold air dispersing port 14 is arranged at a position, corresponding to the cold air duct 112, of the housing 1, the cold air duct 112 is communicated with the flue through the cold air dispersing port 14, and the cold end air door 4 is movably arranged in the air duct 11 and electrically connected with the control assembly 6, and is used for controlling the opening and closing of the cold air dispersing port 14 and the outlet of the cold air duct 112. When the cold end air door 4 is controlled to close the cold dissipation port 14, the cold end air door 4 correspondingly opens the outlet of the cold air duct 112, and at the moment, the air supply assembly 22 can blow cold air to the air outlet 13 for refrigeration; on the contrary, as shown in fig. 3, when the cold-end damper 4 is controlled to open the cold dissipation port 14, the cold-end damper 4 correspondingly closes the outlet of the cold air duct 112, and at this time, the air supply assembly 22 can blow the cold air to the flue for cold dissipation. From this, control assembly 6 controls the motion of cold junction air door 4, has realized that the control blows cold wind to air outlet 13 or blows to the flue, and then realizes that the control all-in-one refrigerates or looses the cold.

Furthermore, the hot end air door device also comprises a hot end air door 5, a heat dissipation port 15 is arranged at the position of the shell 1 corresponding to the hot air duct 111, the hot air duct 111 is communicated with the flue through the heat dissipation port 15, and the hot end air door 5 is movably arranged in the air duct 11 and is electrically connected with the control component 6 and used for controlling the opening and closing of the heat dissipation port 15 and the outlet of the hot air duct 111. As shown in fig. 1, when the hot end damper 5 is controlled to open the heat dissipation opening 15, the hot end damper 5 correspondingly closes the outlet of the hot air duct 111, and at this time, the air supply assembly 22 can blow hot air to the flue for heat dissipation; on the contrary, as shown in fig. 3, when the hot end air door 5 is controlled to close the heat dissipation opening 15, the hot end air door 5 correspondingly opens the outlet of the hot air duct 111, and at this time, the air supply assembly 22 can blow the hot air to the air outlet 13 to perform heating. Therefore, the movement of the hot end air door 5 is controlled through the control component 6, hot air is blown to the flue or to the air outlet 13, and then the integrated machine is controlled to dissipate heat or heat.

As shown in fig. 3, in particular, the cold water pipe 31 has a cold-end coil 311, and the cold-end coil 311 is disposed in the cold end of the cooling and heating device 2 (i.e., the cold end 211a of the cooling and heating element 211), so that water flowing through the cold end 211a is cooled by heat exchange, and is cooled. The hot water pipe 32 has a hot-side coil 321, and the hot-side coil 321 is disposed in the hot side of the cooling and heating device 2 (i.e., the hot side 211b of the cooling and heating element 211), so that the water flowing through the hot side 211b is preheated by heat exchange to heat water. Therefore, the refrigerating and heating element 211 of the common refrigerating and heating device 2 is used for controlling the integrated machine to refrigerate water or heat water, so that the quality of healthy domestic water of people is improved, and the reduction of the overall power consumption and the maintenance cost of the kitchen appliance are facilitated.

As shown in fig. 4, further, the waterway system 3 further includes a main water inlet pipe 34 for communicating with an external water supply, the control valve 33 is electrically connected to the control assembly 6 and has a water inlet, a first water outlet and a second water outlet which are communicated with each other, the water inlet of the control valve 33 is communicated with the outlet of the main water inlet pipe 34, the first water outlet of the control valve 33 is communicated with the water inlet end of the cold water pipe 31, and the second water outlet of the control valve 33 is communicated with the water inlet end of the hot water pipe 32. Therefore, the control of the on-off of the water path between the main water inlet pipe 34 and the cold water pipe 31 and the on-off of the water path between the main water inlet pipe 34 and the hot water pipe 32 are realized by controlling one control valve 33, so that the control of switching the integrated machine between the cold water mode and the hot water mode is realized, and the manufacturing cost can be reduced. Preferably, the control valve 33 of the present embodiment is an electrically operated water valve.

In this embodiment, the inlet of the main water inlet pipe 34 is communicated with the filtered external water supply to improve the quality of the refrigeration water and the heating water and improve the quality of the healthy domestic water of the user.

In other embodiments, the inlet of the main water inlet pipe 34 may also be communicated with tap water, and a filter for filtering and purifying water is provided on the main water inlet pipe 34.

Further, the water dispenser further comprises a main water outlet pipe 35, the water inlet end of the main water outlet pipe 35 is respectively communicated with the water outlet end of the cold water pipe 31 and the water outlet end of the hot water pipe 32, and the water outlet end of the main water outlet pipe 35 is communicated with the water outlet of the water dispenser. Therefore, the chilled water, the heating water or the mixed warm water of the chilled water and the heating water can be conveyed to the water outlet of the water dispenser through the main water outlet pipe 35 for users to use.

In other embodiments, the main inlet pipe 34 may be omitted and the inlet end of the hot water pipe 32 may be in communication with the filtered water through one electrically operated water valve and the inlet end of the cold water pipe 31 may be in communication with the filtered water through another electrically operated water valve. The main water outlet pipe 35 can be omitted, the water outlet end of the cold water pipe 31 is communicated with the cold water outlet of the water dispenser, and the water outlet end of the hot water pipe 32 is communicated with the hot water outlet of the water dispenser.

As shown in fig. 5, specifically, the control assembly 6 includes a main controller 61 and a control panel 62, the main controller 61 is electrically connected to the control panel 62, the hot end air door 5, the cold end air door 4, the control valve 33, the air supply assembly 22 and the cooling and heating element 211, and a kitchen air conditioning function key (not shown) and a water dispenser function key (not shown) are provided on the control panel 62, wherein the kitchen air conditioning function key includes an air conditioning cooling function key and an air conditioning heating function key, and the water dispenser function key includes at least a hot water making function key and a cold water making function key. In addition, the function keys of the water dispenser can also comprise a warm water making function key.

The working principle of the all-in-one machine of the embodiment is described below with reference to fig. 1, 3-4 and 6:

(1) starting only the air-conditioning cooling function or the air-conditioning heating function

When a user only opens the air conditioner refrigeration function, the air conditioner enters a refrigeration and heat dissipation mode, as shown in fig. 1 and fig. 4, the control valve 33 is closed, the cold end air door 4 is controlled to open the outlet of the cold air duct 112 and close the cold dissipation opening 14, the hot end air door 5 is controlled to open the heat dissipation opening 15 and close the outlet of the hot air duct 111, the refrigeration and heating element 211 and the air supply assembly 22 are started, at the moment, the all-in-one machine provides cold air for the user through the air outlet 13, the kitchen environment temperature is improved, heat dissipation is performed through the heat dissipation opening 15, heat generated by the hot end of the refrigeration and heating element 211 is discharged to the outside through the flue, and.

Or, when the user only opens the air conditioning heating function, the heating and cooling mode is entered, as shown in fig. 3 and 4, the control valve 33 is closed, the cold-end damper 4 is controlled to open the cooling-air outlet 14 and close the outlet of the cold air duct 112, the hot-end damper 5 is controlled to open the outlet of the hot air duct 111 and close the cooling-air outlet 15, the cooling and heating element 211 and the air supply assembly 22 are started, and at this time, the all-in-one machine enters the heating and cooling mode, and supplies hot air to the user through the air outlet 13, so as to improve the ambient temperature of the kitchen, and performs cooling dissipation through the cooling-air outlet 14, so as to discharge cold.

(2) Starting only the water heating function or the water cooling function

When a user only opens the hot water heating function, the hot water heating mode is entered, as shown in fig. 4 and fig. 6, the cold end air door 4 is controlled to open the cold dissipating port 14 and close the outlet of the cold air duct 112, the hot end air door 5 is controlled to open the heat dissipating port 15 and close the outlet of the hot air duct 111, the refrigerating and heating element 211 and the air supply assembly 22 are started, and at the moment, the integrated machine dissipates cold through the cold dissipating port 14 and dissipates heat through the heat dissipating port 15, so that hot air and cold air are all blown to the flue. Meanwhile, the control valve 33 closes the first water outlet and opens the second water outlet, so that the main water inlet pipe 34 is communicated with the hot water pipe 32, the filtered water flows through the hot end 211b of the refrigerating and heating element 211 along the hot water pipe 32 and is heated, and the heated filtered water flows to the water outlet of the water dispenser through the main water outlet pipe 35, so that hot water is provided for users.

Or, when the user only opens the cooling water function, the cooling water mode is entered, as shown in fig. 4 and fig. 6, the cold side damper 4 is controlled to open the cold dissipation port 14 and close the outlet of the cold air duct 112, and the hot side damper 5 is controlled to open the heat dissipation port 15 and close the outlet of the hot air duct 111, and the cooling and heating element 211 and the air supply assembly 22 are started. The control valve 33 opens the first water outlet and closes the second water outlet, so that the main water inlet pipe 34 is communicated with the cold water pipe 31, the filtered water flows through the cold end 211a of the refrigerating and heating element 211 along the cold water pipe 31 and then is refrigerated, and the refrigerated filtered water flows to the water outlet of the water dispenser through the main water outlet pipe 35, so that cold water is provided for users.

In other embodiment modes, when the warm water making function is turned on, the warm water making mode is entered, the cold end damper 4 is controlled to open the cold dissipation port 14 and close the outlet of the cold air duct 112, and the hot end damper 5 is controlled to open the heat dissipation port 15 and close the outlet of the hot air duct 111, so as to start the cooling and heating element 211 and the air supply assembly 22. The control valve 33 opens the first water outlet and the second water outlet at the same time, part of the filtered water flows through the cold end 211a of the refrigerating and heating element 211 along the cold water pipe 31 and is then refrigerated, the other part of the filtered water flows through the hot end 211b of the refrigerating and heating element 211 along the hot water pipe 32 and is then heated, the refrigerated and heated filtered water is converged at the main water outlet pipe 35 and then flows to the water outlet of the water dispenser through the main water outlet pipe 35, and warm water is provided for users.

(3) Simultaneously starting kitchen air conditioner function key and water dispenser function

Referring to fig. 1 and 4, when the user turns on the air-conditioning cooling function and the hot water making function simultaneously, the air-conditioning cooling/water-making mode of the water dispenser is entered, the cold-end air door 4 closes the cold-dissipating port 14 and opens the outlet of the cold air duct 112, the hot-end air door 5 opens the heat-dissipating port 15 and closes the outlet of the hot air duct 111, and the control valve 33 closes the first water outlet and opens the second water outlet, so that the main water inlet pipe 34 is communicated with the hot water pipe 32. The refrigerating and heating element 211 and the air supply assembly 22 are started, cold air is provided for a user through the air outlet 13, and heat dissipation is performed through the heat dissipation port 15; meanwhile, the filtered water flows through the hot end 211b of the cooling and heating element 211 along the hot water pipe 32, is heated, and flows to the water outlet of the water dispenser through the main water outlet pipe 35, so as to supply hot water to users.

When a user opens the air-conditioning refrigeration function and the refrigeration water function simultaneously, the air-conditioning refrigeration/water dispenser enters a refrigeration water mode, the cold end air door 4 closes the cold dissipation port 14 and opens the outlet of the cold air duct 112, the hot end air door 5 opens the heat dissipation port 15 and closes the outlet of the hot air duct 111, and the control valve 33 opens the first water outlet and closes the second water outlet, so that the main water inlet pipe 34 is communicated with the cold water pipe 31. The refrigerating and heating element 211 and the air supply assembly 22 are started, cold air is provided for a user through the air outlet 13, and heat dissipation is performed through the heat dissipation port 15; meanwhile, the filtered water flows through the cold end 211a of the refrigerating and heating element 211 along the cold water pipe 31, is refrigerated, and flows to the water outlet of the water dispenser through the main water outlet pipe 35, so that cold water is provided for users.

When a user opens the air-conditioning heating function and the hot water heating function simultaneously, the air-conditioning heating/water-drinking machine enters a hot water heating mode, the cold end air door 4 opens the cold dissipation port 14 and closes the outlet of the cold air duct 112, the hot end air door 5 closes the heat dissipation port 15 and opens the outlet of the hot air duct 111, and the control valve 33 closes the first water outlet and opens the second water outlet, so that the main water inlet pipe 34 is communicated with the hot water pipe 32. Starting the refrigerating and heating element 211 and the air supply assembly 22, supplying hot air to the user through the air outlet 13, and performing cold dissipation through the cold dissipation port 14; meanwhile, the filtered water flows through the hot end 211b of the cooling and heating element 211 along the hot water pipe 32, is heated, and flows to the water outlet of the water dispenser through the main water outlet pipe 35, so as to supply hot water to users.

When a user opens the air-conditioning heating function and the refrigerating water function simultaneously, the air-conditioning heating/water-drinking machine enters a refrigerating water mode, the cold-end air door 4 opens the cold-radiating opening 14 and closes the outlet of the cold air duct 112, the hot-end air door 5 closes the heat-radiating opening 15 and opens the outlet of the hot air duct 111, and the control valve 33 opens the first water outlet and closes the second water outlet, so that the main water inlet pipe 34 is communicated with the cold water pipe 31. Starting the refrigerating and heating element 211 and the air supply assembly 22, supplying hot air to the user through the air outlet 13, and performing cold dissipation through the cold dissipation port 14; meanwhile, the filtered water flows through the cold end 211a of the refrigerating and heating element 211 along the cold water pipe 31, is refrigerated, and flows to the water outlet of the water dispenser through the main water outlet pipe 35, so that cold water is provided for users.

Therefore, the all-in-one machine of the embodiment achieves the purposes of saving the kitchen space, reducing the overall power consumption of kitchen appliances, reducing the maintenance cost and the like by innovatively combining the kitchen air conditioner and the water dispenser. And the switches of the cold end air door 4, the hot end air door 5, the first water outlet of the control valve 33 and the second water outlet of the control valve 33 are controlled in a combined mode, so that the integrated machine can be freely switched among at least a cooling and radiating mode, a heating and radiating mode, a hot water heating mode, a refrigerating water heating mode, an air-conditioning and heating/water dispenser heating mode and an air-conditioning and heating/water dispenser cooling water mode, the linked control of the kitchen environment temperature and the drinking water temperature is realized, the multiple requirements of a user are better met, and the user experience is improved.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. An all-in-one machine with a refrigerating and heating device is characterized by comprising:

the air conditioner comprises a shell (1) and a fan, wherein the shell is provided with an air duct (11), and an air inlet (12) and an air outlet (13) which are communicated with the air duct (11);

the refrigerating and heating device (2) is provided with a hot end and a cold end, is arranged in the air duct (11) and divides part of the air duct (11) into a hot air duct (111) and a cold air duct (112), the inlet of the hot air duct (111) and the inlet of the cold air duct (112) are respectively communicated with the air inlet (12), the outlet of the hot air duct (111) and the outlet of the cold air duct (112) are respectively and selectively communicated with the air outlet (13) or the flue, the hot end is positioned in the hot air duct (111), and the cold end is positioned in the cold air duct (112);

the water path system (3) comprises a cold water pipe (31), a hot water pipe (32) and a control valve (33), the cold water pipe (31) is connected with the cold end, the hot water pipe (32) is connected with the hot end, the control valve (33) is respectively connected with the water inlet end of the cold water pipe (31) and the water inlet end of the hot water pipe (32), or the control valve (33) is respectively arranged on the water inlet end of the cold water pipe (31) and the water inlet end of the hot water pipe (32);

and the control assembly (6) is electrically connected with the refrigerating and heating device (2) and the control valve (33) respectively.

2. The integrated machine with refrigerating and heating devices according to claim 1, wherein the refrigerating and heating device (2) comprises a refrigerating and heating assembly (21) and an air supply assembly (22) electrically connected to the control assembly (6), respectively, the refrigerating and heating assembly (21) is disposed in the air duct (11) and divides a portion of the air duct (11) into the hot air duct (111) and the cold air duct (112), the refrigerating and heating assembly (21) has the hot end and the cold end, and the air supply assembly (22) is disposed in the air duct (11) and is close to the air inlet (12) for blowing cold air to the air outlet (13) or the air flue and blowing hot air to the air outlet (13) or the air flue.

3. The integrated refrigerating and heating appliance according to claim 2, wherein said refrigerating and heating assembly (21) comprises a refrigerating and heating element (211) and a heat insulating element (212), said refrigerating and heating element (211) having a hot end located in said hot air duct (111) and a cold end located in said cold air duct (112), said heat insulating element (212) being arranged between said cold end and said hot end.

4. The integrated machine with a refrigerating and heating device according to claim 2, wherein the refrigerating and heating device (2) further comprises a radiator (23), and the radiator (23) is arranged on the hot end of the refrigerating and heating assembly (21).

5. The integrated machine with the refrigerating and heating device according to claim 1, further comprising a cold end air door (4), wherein a cold dissipating port (14) is disposed at a position of the casing (1) corresponding to the cold air duct (112), the cold air duct (112) is communicated with a flue through the cold dissipating port (14), and the cold end air door (4) is movably disposed in the air duct (11) and electrically connected to the control assembly (6) for controlling opening and closing of the cold dissipating port (14) and an outlet of the cold air duct (112).

6. The integrated machine with the refrigerating and heating device according to claim 1, further comprising a hot end air door (5), wherein a heat dissipation port (15) is disposed at a position of the casing (1) corresponding to the hot air duct (111), the hot air duct (111) is communicated with a flue through the heat dissipation port (15), and the hot end air door (5) is movably disposed in the air duct (11) and electrically connected to the control component (6) for controlling opening and closing of the heat dissipation port (15) and an outlet of the hot air duct (111).

7. The integrated refrigerating and heating device according to any one of claims 1 to 6, wherein said cold water pipe (31) has a cold end coil (311), said cold end coil (311) being arranged in the cold end of said refrigerating and heating device (2); the hot water pipe (32) is provided with a hot end coil pipe (321), and the hot end coil pipe (321) is arranged in the hot end of the refrigerating and heating device (2).

8. The integrated machine with refrigerating and heating functions as claimed in claim 7, wherein the water circuit system (3) further comprises a main water inlet pipe (34) for communicating with an external water supply, the control valve (33) has a water inlet, a first water outlet and a second water outlet which are communicated with each other, the water inlet is communicated with an outlet of the main water inlet pipe (34), the first water outlet is communicated with a water inlet end of the cold water pipe (31), and the second water outlet is communicated with a water inlet end of the hot water pipe (32).

9. The integrated machine with refrigerating and heating functions as claimed in claim 8, wherein the inlet of the main water inlet pipe (34) is communicated with the filtered external water supply; or the inlet of the main water inlet pipe (34) is communicated with tap water, and a filter for filtering and purifying water quality is arranged on the main water inlet pipe (34).

10. The integrated machine with the refrigerating and heating device according to claim 7, further comprising a main water outlet pipe (35), wherein a water inlet end of the main water outlet pipe (35) is respectively communicated with a water outlet end of the cold water pipe (31) and a water outlet end of the hot water pipe (32), and a water outlet end of the main water outlet pipe (35) is communicated with a water outlet of a water dispenser.

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