CN-121987060-A - Multifunctional air-to-water cooling and heating water dispenser

Abstract

The invention provides a multifunctional air-to-water cooling and heating water dispenser, which relates to the technical field of liquid recycling, wherein a first shell and a second shell are arranged in a cabinet body, the first shell is communicated with the second shell and all contain condensed water, the top of the first shell is communicated with an air inlet component, the top of the second shell is provided with an evaporator and is communicated with an exhaust component, air enters the first shell and extrudes the condensed water in the first shell into the second shell until the air enters the condensed water, the temperature of the air is increased due to the increase of the air pressure, the air absorbs the cold energy of the condensed water and reduces the temperature, the pressure is reduced when the air is discharged from the condensed water, the temperature of the air is continuously reduced and is lower than the initial temperature, the water in the air is mixed with the condensed water in the second shell after being condensed by the evaporator, and is collected, so that the air is precooled before being blown to the evaporator, meanwhile, the cold energy of the condensed water is carried by the air, the recovery of the condensed water cooling energy utilization efficiency is realized.

Inventors

• HUANG JUXIANG

Assignees

• 长沙中汇智能科技有限公司

Dates

Publication Date

20260508

Application Date

20260320

Claims (10)

1. 1. A multifunctional air-to-water-cooled hot water dispenser is characterized by comprising a cabinet body with an air inlet component and an air outlet component, wherein a first shell and a second shell are arranged in the cabinet body, the bottom of the first shell is communicated with the bottom of the second shell and all contain condensed water, the top of the first shell is communicated with the air inlet component, an evaporator is arranged at the top of the second shell and is communicated with the air outlet component, the air inlet component is used for providing air into the first shell, the air can press the condensed water in the first shell into the second shell, and after the air passes through the condensed water, the water in the air is condensed by the evaporator and is mixed with the condensed water in the second shell.
2. 2. The multi-functional air-to-water heating and cooling water dispenser of claim 1, wherein the top of the first housing is provided with a filter for filtering impurities in the air.
3. 3. The multifunctional air-to-water heating and heating water dispenser according to claim 2, wherein the bottom of the second housing is provided with an adjusting part, the adjusting part has a closed state and an open state, the amounts of condensed water in the first housing and the second housing are constant when in the closed state, the amounts of condensed water in the first housing and the second housing are reduced when in the open state, the air has an air pressure difference before and after passing through the filter element, the adjusting part is in the closed state when the air pressure difference is smaller than or equal to a first preset value, and the adjusting part is firstly switched to the open state when the air pressure difference is larger than the first preset value, so that the air pressure difference is smaller than or equal to the first preset value, and the adjusting part is restored to the first state.
4. 4. The multifunctional air-to-water-cooled hot water dispenser of claim 3, wherein the adjusting portion comprises a first water outlet pipe, the upper end of the first water outlet pipe is located in the second housing, the lower end of the first water outlet pipe is located outside the second housing, the upper end of the first water outlet pipe is higher than the liquid level of condensed water when the adjusting portion is in a closed state so that the amount of condensed water in the first housing and the second housing is constant, and the upper end of the first water outlet pipe is lower than the liquid level of condensed water when the adjusting portion is in an open state so that the amount of condensed water in the first housing and the second housing is reduced.
5. 5. The machine of claim 4, wherein the filter element is slidable in the first housing in a direction parallel to the air flow direction, and wherein the first housing has an elastic element therein for allowing the filter element to move against the air flow direction, and wherein a connector is provided between the filter element and the first outlet pipe; When the air pressure difference is larger than the first preset value, the first acting force is larger than the elastic force of the elastic piece, the filter piece moves along the air flow direction and drives the upper end of the first water outlet pipe to be lower than the condensate water level through the connecting piece.
6. 6. The multifunctional air-to-water heating and heating water dispenser according to claim 5, wherein the first water outlet pipe is a corrugated pipe and is internally provided with a middle rod, the upper end of the middle rod is connected with the upper end of the first water outlet pipe, the lower end of the middle rod is connected with one end of the connecting piece, the other end of the connecting piece is connected with the filtering piece, and the filtering piece drives the upper end of the first water outlet pipe to move through the connecting piece and the middle rod when sliding in the first shell.
7. 7. The machine of claim 5, wherein the collection box is provided in the cabinet, a conduit is provided between the filter and the collection box for communicating the filter and the collection box, and condensed water in the second housing flows back into the first housing when the first acting force is zero.
8. 8. The machine of claim 7, wherein the first housing has a locking member having a locked state in which the locking member allows the conduit to move with the filter member in the air flow direction and restricts the conduit from moving with the filter member against the air flow direction, and an unlocked state in which the locking member allows the conduit to move with the filter member in the air flow direction and against the air flow direction; The condensed water in the first shell and the condensed water in the second shell are provided with liquid level differences, when the liquid level differences are larger than or equal to a second preset value, the locking piece is in a locking state, and when the liquid level differences are reduced to be smaller than the second preset value, the locking piece is in an unlocking state, and the elastic piece enables the filtering piece to move against the air flow direction.
9. 9. The machine of claim 8, wherein a float is further provided in the first housing, the float being subjected to buoyancy when in contact with the condensed water, the locking member being in a locked state when the float is subjected to buoyancy less than a third predetermined value, the locking member being switched from the locked state to the unlocked state when the float is subjected to buoyancy greater than or equal to the third predetermined value.
10. 10. The multi-function air-made water-cooled hot beverage maker of claim 8, wherein the duct has a telescopic structure, and the telescopic direction is parallel to the air flow direction.

Description

Multifunctional air-to-water cooling and heating water dispenser Technical Field The invention relates to the technical field of liquid recycling, in particular to a multifunctional air-to-water cooling and heating water dispenser. Background Along with the increasingly tense fresh water resources and rapid population growth, the drinking water safety problem is remarkable, and the air water production technology is gradually focused as an innovative solution, and can directly extract water vapor from air, condense and purify the water vapor, produce safe drinking water and realize the recycling of moisture in the air. In the prior art, an air water generator is mainly based on a cooling dehumidification principle, the temperature of air is reduced to be below a dew point through a refrigerating system, so that water vapor is condensed into liquid water on the surface of an evaporator, and qualified drinking water is obtained through purification and disinfection. The structure mainly comprises a compressor, a condenser, an evaporator, a throttle valve, a fan, a filter and other core components, wherein the fan drives air to flow, the filter removes impurities, and the refrigeration cycle ensures efficient condensation. In order to further improve energy efficiency and adaptability, researchers have explored to integrate renewable energy sources, such as solar photovoltaic panels or semiconductor refrigeration systems, utilize solar energy to drive a refrigeration process, precool air through a regenerator to optimize heat exchange, and simultaneously combine a cold and hot output module to realize normal temperature or heating drinking water functions so as to meet diversified requirements. In the existing air water generator, if water drops formed by condensation on the surface of an evaporator cannot fall off in time, the water drops can be further cooled due to continuous contact with the low-temperature surface, so that supercooled water drops are formed. The retained water drops continuously absorb the cold energy of the evaporator, so that part of the cold energy is consumed ineffectively, and the energy utilization efficiency of the system is reduced. The information disclosed in the background section of the invention is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art. Disclosure of Invention In view of the above, it is necessary to provide a multifunctional air-to-water heating and cooling water dispenser, which solves the problems of the conventional air-to-water dispenser. The above purpose is achieved by the following technical scheme: A multifunctional air-to-water-cooling hot water dispenser comprises a cabinet body with an air inlet assembly and an air outlet assembly, wherein a first shell and a second shell are arranged in the cabinet body, the bottom of the first shell is communicated with the bottom of the second shell and all filled with condensed water, the top of the first shell is communicated with the air inlet assembly, an evaporator is arranged at the top of the second shell and is communicated with the air outlet assembly, the air inlet assembly is used for providing air for the first shell, the air can press the condensed water in the first shell into the second shell, and after the air passes through the condensed water, the water in the air is condensed by the evaporator and is mixed with the condensed water in the second shell. Further, the top of first casing is equipped with the filter, and the filter is used for filtering the impurity in the air. Further, the bottom of the second shell is provided with an adjusting part, the adjusting part is provided with a closed state and an open state, when the adjusting part is in the closed state, the amounts of condensed water in the first shell and the second shell are constant, when the adjusting part is in the open state, the amounts of condensed water in the first shell and the second shell are reduced, air is provided with an air pressure difference before and after passing through the filter element, when the air pressure difference is smaller than or equal to a first preset value, the adjusting part is in the closed state, when the air pressure difference is larger than the first preset value, the adjusting part is firstly switched to the open state, so that the air pressure difference is smaller than or equal to the first preset value, and then the adjusting part is restored to the first state. Further, the adjusting part comprises a first water outlet pipe, the upper end of the first water outlet pipe is positioned in the second shell, the lower end of the first water outlet pipe is positioned outside the second shell, when the adjusting part is in a closed state, the upper end of the first water outlet pipe is higher than the liquid l