CN112923456A - Ultrasonic humidifying cold-storage air conditioner device with cold-storage tank - Google Patents

Abstract

The invention provides an ultrasonic humidifying and cold-storage air conditioning device with a cold-storage tank, which comprises a heat-preservation water storage tank assembly, a cold-storage tank assembly, a water tank, an ultrasonic atomizer assembly, a fan assembly, a micro water pump and a microcontroller, wherein low-temperature liquid cooled in a heat exchange cavity of the cold-storage tank assembly in a water storage cavity is atomized by the ultrasonic assembly, the low-temperature liquid is blown over the edge of an atomization bin by a fan, a local low-pressure area is formed around the atomization bin, low-temperature mist quickly passes through an air outlet hole in the upper part of the atomization bin under the action of atmospheric pressure and is mixed with hot air, and the low-temperature mist is quickly subjected to heat exchange with the air and further intensified gasification under the action of temperature difference, so that the. The temperature difference between the mist and the surrounding environment is larger, the cooling effect is more obvious, the liquid consumed by the air conditioning device is less, the energy is saved, the environment is protected, and the resource consumption is reduced. The lower the humidification quantity of the device is, the more friendly the middle-aged and elderly people are, especially the people with arthritis, rheumatism and the like.

Description

Ultrasonic humidifying cold-storage air conditioner device with cold-storage tank

Technical Field

The invention relates to the field of cold accumulation air conditioners, in particular to an ultrasonic humidifying cold accumulation air conditioner.

Background

The ice storage air conditioning technology can be popularized and used in areas with large peak-valley electricity price difference and relatively gathered personnel.

The ice storage air conditioner utilizes the night low-valley load electric power to refrigerate and store in the cold storage device, releases the stored cold energy in the daytime, reduces the electric load of the air conditioner and the installed capacity of the air conditioning system during the peak time of the power grid, and represents the development direction of the air conditioner in the world at present.

In the existing ice storage system, water is used as a cold storage agent, a glycol solution is used as a secondary refrigerant, and the glycol solution cooled by a refrigerator enters a cold storage heat exchanger of an ice storage tank to absorb and transfer heat of the water in the ice storage tank under a cold storage working condition, and when the cold storage process is finished, the water in the whole ice storage tank is completely frozen into ice. When the cold storage tank is used for cold storage, heat energy in the air is transferred to the secondary refrigerant through the heat exchange equipment of the load terminal, the secondary refrigerant enters the cold storage heat exchanger and then conducts the heat to the ice in the ice storage tank, the ice absorbs the heat and melts, the secondary refrigerant releases heat and cools, and the cooled secondary refrigerant is sent back to the load terminal to continue to complete the cold storage cycle. The ice cold-storage air conditioning equipment in the prior stage is large in size and high in manufacturing cost, and is limited in that the water temperature is reduced to 0 ℃ and the ice cannot continue to store cold, the whole system needs a large amount of water for ice making and cold storage, so that the ice cold-storage air conditioning equipment is limited to the industrial and commercial market and cannot enter the common and civil market, the common air conditioning and the ice cold-storage system cool in the process of cooling, the space around the load must be closed to achieve the best refrigeration effect, the air circulation of the whole space is not facilitated, bacteria and dust are easily accumulated, air is dry, indoor personnel cannot breathe comfortably, meanwhile, when the external environment temperature is lower than the indoor temperature, due to the heat preservation effect of a building wall body, the closed space cannot exchange heat with the external environment, the air conditioning. It is therefore desirable to provide a solution to the above-mentioned problems, which can be used in an open environment and which provides cooling only to a local environment.

The existing air cooler is a device for cooling by utilizing a liquid evaporation heat absorption principle, a plurality of wet curtains are arranged inside the air cooler, a small water pump is used for extracting water cooled by a plurality of cold accumulation ice crystals from a water tank, the water is continuously humidified to the wet curtains from top to bottom, when a fan in the air cooler operates, air outside the air cooler is forced to pass through the wet curtains, heat exchange is carried out between hot air and the wet curtains, meanwhile, part of evaporated water is taken away, and meanwhile, the humidity of the air is increased, so that the air cooler has dual functions of cooling and humidifying. However, the air cooler in the prior art needs to cool water by cold accumulation ice crystals and then carries out refrigeration and humidification through evaporation, the efficiency is low, the water consumption is high, the ice crystal cold accumulation amount is low, the water in the whole water tank is cooled, meanwhile, the water tank does not have a heat preservation measure, heat exchange with the ambient environment is realized, the cold in the ice crystals can be consumed quickly, only a short time can be maintained, and the reduction of the ambient temperature is not obvious. Therefore, the technical problem needs to be solved by providing equipment with a heat preservation function and only used for exchanging heat and refrigerating hot air blown by a fan.

The invention aims to provide an ultrasonic humidifying and cold-storage air conditioning device with a cold-storage tank by combining the respective advantages of the existing ice cold-storage air conditioning and air cooler technologies. This ultrasonic wave humidification cold-storage air conditioning equipment is with low costs, and is small, the cold-storage is with putting cold effectually, the far more ordinary humidification fan of refrigeration effect and air-cooler in the operation process, the cost is far lower than cold-storage air conditioner, this device does not contain refrigeration plant simultaneously, moreover, the steam generator is simple in structure, the operation is reliable and stable, rely on current ripe refrigeration technology, cold-storage efficiency is high, it is with high costs to have solved current ice cold-storage device, the structure is complicated, the air is not circulated, air drying and air-cooler refrigeration ability are low, water resource consumption is big, air humidity is too big, consume energy higher scheduling problem.

Disclosure of Invention

The invention provides an ultrasonic humidifying cold-storage air conditioner with a cold-storage tank, wherein a mixed solution of water and an antifreeze is used as a cold storage agent, water is used as a secondary refrigerant, a low-temperature solution which is subjected to heat exchange and temperature reduction by the cold-storage tank in a water storage cavity is atomized by an ultrasonic assembly to form ultralow-temperature mist, the ultralow-temperature mist is accumulated in an atomization bin, after passing through the atomization bin, quick hot air blown by a fan forms a low-pressure area at the edge of the atomization bin, the ultralow-temperature mist is quickly pumped out through an air outlet hole at the upper part of the atomization bin under atmospheric pressure, and is quickly subjected to heat exchange with the hot air and further gasification under the action of temperature difference, so that the purposes of. The problems of high cost, complex structure, no air circulation, low air drying and cooling capacity of an air cooler, high water resource consumption, overlarge air humidity, high energy consumption and the like of the conventional ice cold storage device are solved.

In order to solve the technical problems, the technical scheme of the invention is as follows: the utility model provides an ultrasonic wave humidification cold-storage air conditioning equipment of cold-storage jar in area, it includes:

the heat preservation water storage tank assembly comprises a shell, a heat preservation layer, a water storage cavity and a cold storage tank chamber, wherein the water storage cavity is arranged in the heat preservation water storage tank assembly and used for containing low-temperature solution cooled by a cold storage tank, the top of the water storage cavity is provided with a hole, an ultrasonic assembly is arranged at the top of the water storage cavity and used for facilitating maintenance and replacement of the ultrasonic assembly in the future, the bottom of the cold storage tank chamber is communicated with the water storage cavity through a pipeline, the solution cooled by the cold storage tank enters the water storage cavity through a pipeline at the bottom of the cold storage tank chamber, the top of the cold storage tank chamber is provided with a water inlet hole, the top of the cold storage tank chamber is provided with a water level sensor, the heat preservation layer is arranged between the shell of the heat preservation water storage tank assembly and a cavity formed by the water storage cavity.

Furthermore, the water storage cavity is of an openable structure, when the equipment starts to operate, the solution possibly has too short heat exchange time and is not obviously cooled, and the water storage cavity can be opened to add ice blocks so as to improve the refrigeration effect.

Optionally, the water storage chamber serves as a protective housing for a wick in the ultrasonic humidifier component.

The cold accumulation tank assembly comprises a stainless steel shell, a cold accumulation liquid cavity and a stainless steel heat exchange cavity, and is arranged in a heat preservation and cold accumulation tank chamber inside the heat preservation and water accumulation tank assembly, the solution is pumped out from the water tank by the micro water pump and flows into the cold accumulation tank assembly through the top water inlet hole, the solution passes through the stainless steel heat exchange cavity to be cooled and then enters the water accumulation cavity through the small hole at the bottom of the cold accumulation tank assembly, the stainless steel shell and the stainless steel heat exchange cavity form an integral stainless steel tank, the internal space of the stainless steel tank is the cold accumulation liquid cavity and is used for containing the cold accumulation liquid, the stainless steel heat exchange cavity is a hollow stainless steel threaded pipe, the stainless steel thread is used for cold and heat exchange between the solution and the cold accumulation liquid, the temperature of the solution is reduced, the stainless steel shell provides a firm and reliable structure for the cold accumulation assembly, and the problems of damage and liquid leakage of the cold accumulation liquid are avoided in, the cold accumulation tank assembly shell is provided with a handle, so that the cold accumulation tank assembly can be conveniently taken out from the heat preservation water storage tank assembly for replacement.

Further, the cold accumulation tank assembly can be made of non-stainless steel materials with other shapes and functions of cold accumulation and heat exchange.

Optionally, the water storage cavity is arranged inside the heat exchange cavity of the cold accumulation tank assembly, and is of a cotton core shell structure in the ultrasonic assembly, and the cotton core extends to the bottom of the stainless steel heat exchange cavity to directly suck and atomize the low-temperature solution subjected to heat exchange.

Ultrasonic atomizer subassembly, including ultrasonic atomization piece, cotton core, atomizing storehouse, ultrasonic atomization piece sets up the water storage chamber top for atomize solution, the cotton core has very strong hydroscopicity and filter capacity, can with the low temperature solution in the water storage chamber follow water storage chamber bottom suction rise to the ultrasonic atomization piece bottom at water storage chamber top, the cotton core can be with the tiny impurity adsorption of solution, filter, extension ultrasonic atomization piece life, after equipment shut down, ultrasonic atomizer sets up the time delay and closes, can with the atomizing of solution suction in water storage chamber and the stainless steel heat transfer chamber, avoid solution in the stainless steel heat transfer chamber freezes, influence equipment is started once more, atomizing storehouse is on ultrasonic atomization piece, is used for gathering the fog, atomizing storehouse upper portion opens there is the aperture, the fan blows hot air behind the atomizing storehouse, local low air pressure is formed around the atomization bin, and mist in the small holes in the atomization bin can be rapidly pumped out under atmospheric pressure.

Fan unit spare, including fan, temperature sensor, filter screen, the fan is used for improving local air speed, through behind the atomizing storehouse near atomizing storehouse edge forms the low-pressure area, under the atmospheric pressure effect, will the fog of atomizing storehouse gathering is taken out fast and is carried out the heat exchange with the hot-air of flowing through the fan, reduces air temperature, suitably improves air humidity, gives people the experience that an ice is comfortable, temperature sensor installs before the fan and respectively one after with, is used for measuring and passes through the air temperature of fan and the air temperature after with the heat exchange of ultra-low temperature fog, through the controller adjusts fan speed, control ultrasonic atomization piece atomizing volume, the filter screen is with air conditioner filter screen looks isofunction for collect dust in the air, tiny floater etc. to air purification.

Compared with the prior art, the invention has the advantages that: the mixed solution of water and antifreeze is used as cold accumulation agent, water is used as secondary refrigerant, the cold accumulation amount is larger, the evaporation effect is better, the cold accumulation temperature in the ultrasonic humidifying cold accumulation air conditioner with cold accumulation tank of the invention is the mixed solution of water and antifreeze, the cold accumulation temperature can be lower than minus 18 ℃, the cold accumulation amount is far beyond the common cold accumulation ice crystal and ice block, the low temperature solution in the solution cavity is atomized by the ultrasonic assembly to form ultra-low temperature fog, the ultra-low temperature fog is accumulated in the atomization bin, the ultra-low temperature fog in the atomization bin is rapidly pumped out by the rapid airflow blown by the fan, the ultra-low temperature fog absorbs a large amount of heat in the air under the temperature difference effect, thereby achieving the purpose of temperature reduction, because the low temperature solution is adopted for atomization, the solution consumption can be greatly reduced, the air humidity can not be obviously increased, the moisture in the air is prevented from being condensed and discharged during the cold release of the common air conditioner, meanwhile, the discomfort of people with sensitive air humidity caused by the fact that the air humidity is greatly increased by a common air cooler is avoided.

On the other hand, the cold accumulation tank can be placed in the device, after the cold in the cold accumulation tank is used, the cold accumulation tank can be conveniently replaced by the cold accumulation tank which is subjected to cold accumulation, the device can continuously operate, and the cold accumulation tank body is small, heavy and light and can be conveniently used for various devices which need cold.

In addition, the cold storage liquid in the cold storage tank is a mixed solution of water and an antifreeze, the cold storage temperature can be as low as below 18 ℃, the cold storage can be stored in a freezing chamber of a common household refrigerator, and the cold storage can be performed at lower temperature by using cheap electric energy at night through a centralized ice making station or a refrigeration device which adopts peak-valley electricity price nearby, so that the load of a power grid and other refrigeration devices can be effectively reduced, the urban energy optimization is facilitated, the peak clipping and valley filling effects on the power grid are realized, the refrigeration cost is greatly reduced, and the urban heat island effect and the tail gas emission are reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments are briefly introduced below, the drawings in the following description are only corresponding to some embodiments of the present invention, and the dashed line parts in fig. 1 are signal and control lines.

Fig. 1 is an overall schematic diagram of the ultrasonic humidifying cold-storage air conditioner.

FIG. 2 is a sectional view of the heat-insulating water storage tank assembly of the ultrasonic humidifying cold-storage air conditioner and an enlarged view of the connection between the water storage cavity and the bottom pipeline of the cold storage tank chamber.

Fig. 3 is a sectional view of the cold accumulation tank assembly of the ultrasonic humidifying cold accumulation air conditioner.

FIG. 4 is a sectional view of the common structure of the heat exchange cavity of the cold accumulation tank assembly and the solution cavity of the heat preservation water storage tank assembly.

Fig. 5 is a diagram of an ultrasonic assembly of the ultrasonic humidifying and cold-storage air conditioner.

In the figure, 1, an intelligent controller; 21. a water tank; 23. a micro water pump; 31. an inlet air temperature sensor; 32. an air screen; 33. a fan; 34. an air outlet temperature sensor; 41. a heat preservation water storage tank body; 42. a liquid level sensor; 43. a water inlet; 44. an ultrasonic component mounting plate; 45. a water storage cavity; 46. a pipeline; 47. a silica gel pad; 48. A cold storage tank chamber; 51. an ultrasonic atomizer assembly; 52. an atomization bin; 53. a cotton core; 54. an ultrasonic atomization sheet; 61. a cold storage tank; 62. stainless steel threaded pipes; 63. a stainless steel heat exchange cavity; 64. a cold accumulation liquid cavity; 65. a water outlet at the bottom.

Detailed Description

The present invention will be further described with reference to the accompanying drawings, wherein the technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a schematic structural diagram of an ultrasonic humidifying and cold-storage air conditioning device according to the present invention.

In the drawings, elements having similar structures are denoted by the same reference numerals.

The terms "in" and "out" of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit indication of technical features being indicated and not as limiting the order of precedence.

The embodiment of the ultrasonic humidifying cold-storage air conditioner provided by the invention is as follows: an ultrasonic humidifying and cold-storage air conditioning device with a cold-storage tank at least comprises a heat-preservation water storage tank assembly, a cold-storage tank assembly, an ultrasonic atomizing assembly and a fan assembly.

The heat-insulating water storage tank assembly in the embodiment mainly comprises a tank body part 41, an ultrasonic assembly mounting plate 44 and a heat-insulating material, and a cavity is formed in the tank body part, wherein the heat-insulating water storage tank assembly further comprises a solution cavity 45 and a cold storage tank chamber 48.

The working principle of the invention is as follows: ultrasonic wave subassembly atomizes the formation ultra-low temperature fog to the low temperature solution that passes through heat transfer chamber cooling in the cold storage tank in to the retaining intracavity, gather in atomizing storehouse, the quick air current that blows through the fan passes through atomizing storehouse after, at atomizing storehouse edge formation low atmospheric pressure district, ultra-low temperature fog is taken out rapidly through atomizing storehouse upper portion venthole under atmospheric pressure, ultra-low temperature fog is under the difference in temperature effect, carry out the heat exchange fast with the hot-air and aggravate the gasification, thereby reach the degree of depth cooling, the purpose of a small amount of humidification.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (11)

1. The utility model provides an ultrasonic wave humidification cold-storage air conditioning equipment of cold-storage jar, its characterized in that includes controller (1), water tank (21), miniature water pump (23), ultrasonic nebulizer subassembly (51), cold-storage jar subassembly (61), heat preservation catch basin subassembly (41), fan (33), air-out temperature sensor (34), air inlet temperature sensor (31).

2. The ultrasonic humidifying cold-storage air conditioner as claimed in claim 1, wherein: the controller (1) is connected with the fan (33) power supply module, the air outlet temperature sensor (34), the air inlet temperature sensor (31), the liquid level sensor at the top of the cold accumulation tank chamber of the heat preservation water storage tank assembly (41), the power supply module of the miniature water pump (23), the liquid level sensor of the water tank (21) and the driving unit of the ultrasonic atomizer assembly (51) through an electric circuit.

3. The ultrasonic humidifying cold-storage air conditioner as claimed in claim 1, wherein: the heat preservation water storage tank assembly (41) is internally provided with a water storage cavity and a cold storage tank chamber of a heat preservation layer, the bottom of the water storage cavity is lower than the bottom of the cold storage tank, the water storage cavity is communicated with the bottom of the cold storage tank through a pipeline, so that low-temperature solution is ensured to flow into the water storage cavity quickly, and the low-temperature solution is prevented from staying in the cold storage tank chamber for a long time so as to prevent icing.

4. The ultrasonic humidifying cold-storage air conditioner as claimed in claim 3, wherein: and a water inlet hole and a liquid level sensor are arranged at the top of the cold accumulation tank chamber in the heat-preservation water storage tank assembly (41).

5. The ultrasonic humidifying cold-storage air conditioner as claimed in claim 1, wherein: the ultrasonic atomizer assembly (51) is arranged on the upper part of a water storage cavity inside the heat-preservation water storage tank assembly (41) and is connected with the controller (1) through an electric circuit.

6. The ultrasonic humidifying cold-storage air conditioner as claimed in claim 1, wherein: the cold accumulation tank assembly (61) is composed of a stainless steel shell and a stainless steel threaded pipe (62).

7. An ultrasonic humidifying cold-storage air conditioner device as claimed in claim 6, wherein the cold-storage liquid chamber of the cold-storage tank assembly (61) is a space between the stainless steel threaded pipe (62) and the stainless steel shell for containing cold-storage liquid.

8. An ultrasonic humidifying cold-storage air-conditioning device as defined in claim 1, wherein the cold-storage liquid in the cold-storage liquid chamber of the cold-storage tank assembly (61) is a mixed solution of water and antifreeze or a phase-change cold-storage material.

9. An ultrasonic humidifying cold-storage air conditioner as claimed in claim 6, wherein said stainless steel heat exchange cavity (63) of said cold-storage tank assembly (61) is a hollow stainless steel screw pipe (62) internal cavity, the stainless steel screw is used for the cold and heat exchange between the solution and the cold-storage liquid.

10. An ultrasonic humidifying cold-storage air conditioner according to claim 6, wherein the bottom of the cold-storage tank component (61) is provided with a small hole, and the low-temperature solution enters the water storage cavity through the small hole.

11. The ultrasonic humidifying cold-storage air conditioner as claimed in claim 1, wherein the outlet air temperature sensor (34) and the inlet air temperature sensor (31) are installed at the inlet air and outlet air positions of the fan (33), and the outlet air temperature sensor (34) is installed at the front part of the atomization bin (52).

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