CN116086005A

CN116086005A - Mobile air conditioner capable of radiating by utilizing condensed water

Info

Publication number: CN116086005A
Application number: CN202310299191.5A
Authority: CN
Inventors: 石磊; 张�杰; 王国冻; 倪军
Original assignee: Skyworth Air Conditioning Technology Anhui Co ltd
Current assignee: Skyworth Air Conditioning Technology Anhui Co ltd
Priority date: 2023-03-24
Filing date: 2023-03-24
Publication date: 2023-05-09

Abstract

The invention discloses a mobile air conditioner capable of radiating by utilizing condensed water, and relates to the technical field of air conditioners, comprising an evaporator assembly, a water pan assembly and a condenser assembly; the evaporator assembly is fixedly arranged at the top of the water receiving disc assembly, and the condenser assembly is fixed at the bottom of the water receiving disc assembly; the water pan assembly has two working states: the first working state is that the water receiving disc assembly discharges low-temperature condensed water generated on the evaporator assembly outdoors; and in the second tooling state, the water receiving disc assembly introduces low-temperature condensed water generated on the evaporator assembly into the condenser assembly and cools the condenser assembly. The invention fully utilizes the low-temperature condensed water generated by the evaporator to assist in cooling the high-temperature condenser, thereby achieving the purpose of fully utilizing energy and improving refrigeration efficiency.

Description

Mobile air conditioner capable of radiating by utilizing condensed water

Technical Field

The invention relates to the technical field of air conditioners, in particular to a mobile air conditioner capable of radiating heat by utilizing condensed water.

Background

The air conditioner is cooled by installing a complete refrigerating system in the air conditioner and then matching with a fan and a plurality of controllers. The basic principle of refrigeration is realized by four processes according to the components and functions of the refrigeration cycle system. The compression process comprises the following steps: starting from the compressor, refrigerant gas enters the compressor in a low-temperature and low-pressure state, is compressed in the compressor, is discharged into the condenser after the pressure and the temperature of the gas are increased, and is condensed: the high-temperature and high-pressure gas discharged from the compressor enters the condenser, and after heat is transferred to the outside air or cooling water, the gas is condensed into liquid refrigerant, and the liquid refrigerant flows to the throttling device, and the throttling process is as follows: the refrigerant liquid flowing out of the condenser flows to the throttling device under high pressure to perform throttling and decompression. The evaporation process comprises the following steps: the low-pressure refrigerant liquid flowing out of the throttling device flows into the evaporator, absorbs the heat of the outside (air or water) and evaporates into gas, so that the temperature of the outside (air or water) is reduced, the evaporated low-temperature low-pressure gas is sucked back by the compressor, and recompression, condensation, throttling and evaporation are carried out, and circulation and refrigeration are carried out continuously.

In the prior art, when the evaporator assembly in the air conditioner is normally used, low-temperature condensed water can be generated, the common practice of the low-temperature condensed water in the industry can be discharged outdoors to cause energy waste, and the heat dissipation of the condenser of the air conditioner is mainly realized by blowing or sucking the air through a fan, so that the heat dissipation mode is single, and the refrigeration efficiency is low.

Disclosure of Invention

The invention aims to provide a mobile air conditioner capable of radiating by utilizing condensed water, which can collect and fully utilize the low-temperature condensed water, and the low-temperature condensed water is used for cooling a high-temperature condenser so as to achieve the aim of fully utilizing energy sources and solve the defects in the prior art.

In order to achieve the above object, the present invention provides the following technical solutions: a movable air conditioner capable of dissipating heat by utilizing condensed water comprises an evaporator assembly, a water receiving disc assembly and a condenser assembly; the evaporator assembly is fixedly arranged at the top of the water receiving disc assembly, and the condenser assembly is fixed at the bottom of the water receiving disc assembly; the water pan assembly has two working states: the first working state is that the water receiving disc assembly discharges low-temperature condensed water generated on the evaporator assembly outdoors; and in the second tooling state, the water receiving disc assembly introduces low-temperature condensed water generated on the evaporator assembly into the condenser assembly and cools the condenser assembly.

As a further description of the above technical solution: the water receiving disc assembly comprises an upper water receiving disc and a lower water receiving disc which are connected up and down, and a first water outlet is formed in the upper water receiving disc and communicated with the lower water receiving disc; and a third water outlet for introducing low-temperature condensed water into the condenser assembly is formed in the lower water receiving disc.

As a further description of the above technical solution: the lower water receiving disc is provided with a second water outlet communicated with an electromagnetic valve, and the outlet end of the electromagnetic valve is connected with an outdoor drain pipe.

As a further description of the above technical solution: the second drain opening is lower than the third drain opening.

As a further description of the above technical solution: also comprises a chassis assembly; the chassis assembly comprises a chassis seat, the chassis seat is fixed at the bottom of the condenser assembly, a water storage cavity is formed in the chassis seat, and a water pumping fan assembly for pumping low-temperature condensed water collected in the water storage cavity to the surface of the high-temperature condenser assembly is arranged in the water storage cavity.

As a further description of the above technical solution: the water pumping fan assembly comprises a miniature motor, the miniature motor is fixedly arranged in the water storage cavity through a mounting seat, and a water pumping fan blade mechanism is fixed on an output shaft of the miniature motor.

As a further description of the above technical solution: the micro-motor has two or more different rotational speeds.

As a further description of the above technical solution: the float switch is arranged in the water storage cavity and used for monitoring the water level of the water storage cavity, the output end of the float switch is connected with a main board, and the output end of the main board is electrically connected with the input end of the electromagnetic valve, the input end of the micro motor and the input end of the air conditioner power switch respectively.

As a further description of the above technical solution: the chassis seat is provided with a fourth water outlet communicated with the water storage cavity, and a manual water drain plug is arranged on the fourth water outlet.

In the technical scheme, the mobile air conditioner capable of radiating by utilizing condensed water provided by the invention has the following beneficial effects:

this usable comdenstion water radiating mobile air conditioner realizes introducing the condenser subassembly and cooling down the condenser subassembly through the low temperature comdenstion water that the water collector subassembly produced to set up the chassis subassembly in condenser subassembly bottom, beat the surface of high temperature condenser subassembly through the water fan subassembly of fetching water that collects in the water storage chamber in the chassis seat on the chassis subassembly, evaporate the high temperature condenser subassembly after cooling down afterwards, make full use of the low temperature comdenstion water that the evaporimeter produced, carry out supplementary cooling down to the high temperature condenser, thereby reach the purpose of make full use of the energy, and improve refrigeration efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

Fig. 1 is a perspective view of a mobile air conditioner capable of dissipating heat by using condensed water according to an embodiment of the present invention;

fig. 2 is an exploded view of a mobile air conditioner capable of dissipating heat by using condensed water according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a water pan assembly according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of an assembly structure of a water tray assembly and a condenser assembly according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the portion A of FIG. 4 according to an embodiment of the present invention;

FIG. 6 is a schematic view of a chassis assembly according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a water-driving fan assembly according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of a connection structure between a chassis assembly and a condenser assembly according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a mobile air conditioner capable of dissipating heat by using condensed water according to an embodiment of the present invention.

Reference numerals illustrate:

100. an evaporator assembly; 200. a water pan assembly; 210. an upper water receiving tray; 220. an electromagnetic valve; 230. a lower water receiving tray; 240. an outdoor drain pipe; 250. a first drain port; 260. a third drain port; 270. a second drain port; 300. a condenser assembly; 400. a chassis assembly; 410. a chassis base; 420. a water storage chamber; 430. a water-drawing fan assembly; 431. a micro motor; 432. a water-beating fan blade mechanism; 440. a float switch; 450. a fourth drain port; 460. and (5) manually draining the water plug.

Detailed Description

In order to make the technical scheme of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1-9, the embodiment of the present invention provides a technical solution: a mobile air conditioner capable of dissipating heat by utilizing condensed water comprises an evaporator assembly 100, a water pan assembly 200 and a condenser assembly 300; the evaporator assembly 100 is fixedly installed at the top of the water tray assembly 200, and the condenser assembly 300 is fixed at the bottom of the water tray assembly 200; the drip tray assembly 200 has two operating states: in the first operating state, the water pan assembly 200 discharges the low-temperature condensed water generated on the evaporator assembly 100 to the outside; in the second tool state, the water pan assembly 200 introduces the low-temperature condensate water generated on the evaporator assembly 100 into the condenser assembly 300 and cools the condenser assembly 300. The water pan assembly 200 includes an upper water pan 210 and a lower water pan 230 that are connected up and down, and a first water outlet 250 is formed on the upper water pan 210 and is communicated with the lower water pan 230; the lower tray 230 is provided with a third drain port 260 for introducing the low temperature condensate into the condenser assembly 300. The lower water receiving tray 230 is provided with a second water outlet 270 communicated with the electromagnetic valve 220, wherein the electromagnetic valve 220 is in a normally closed state, an outlet end of the electromagnetic valve 220 is connected with an outdoor drain pipe 240, and the height of the second water outlet 270 is lower than that of the third water outlet 260.

In the first operating state, the solenoid valve 220 is opened, and at this time, the low temperature condensed water generated from the evaporator assembly 100 is collected to the upper drain pan 210 through the surface of the evaporator assembly 100, and then flows into the lower drain pan 230 through the first drain opening 250 on the upper drain pan 210, at this time, since the solenoid valve 220 is opened, and since the height of the second drain opening 270 is lower than that of the third drain opening 260, the water entering the lower drain pan 230 is discharged to the outside through the second drain opening 270 from the outdoor drain pipe 240 through the solenoid valve 220.

In the second operating state, the solenoid valve 220 is closed, the low-temperature condensate water generated by the evaporator assembly 100 is converged to the upper water tray 210 through the surface of the evaporator assembly 100, and then flows into the lower water tray 230 through the first drain opening 250 on the upper water tray 210, at this time, the water entering the lower water tray 230 is introduced into the condenser assembly 300 through the third drain opening 260 due to the closed state of the solenoid valve 220, and the temperature of the condenser assembly 300 is lowered.

Embodiments of the present invention provide a mobile air conditioner capable of dissipating heat using condensed water, which may generate low-temperature condensed water when the evaporator assembly 100 is used normally, and a common practice in industry for such low-temperature condensed water may be discharged outdoors, resulting in energy waste. The invention collects and fully utilizes the low-temperature condensed water through the water pan assembly 200, and uses the low-temperature condensed water to cool the high-temperature condenser assembly 300 so as to achieve the purpose of fully utilizing energy.

Also included is a chassis assembly 400; the base plate assembly 400 includes a base plate seat 410, the base plate seat 410 is fixed at the bottom of the condenser assembly 300, a water storage cavity 420 is formed in the base plate seat 410, and a water pumping fan assembly 430 for pumping the low-temperature condensed water collected in the water storage cavity 420 to the surface of the high-temperature condenser assembly 300 is installed in the water storage cavity 420. The specific water pan assembly 200 introduces the low-temperature condensate water into the condenser assembly 300, cools the condenser assembly 300, flows into the water storage cavity 420 in the chassis seat 410 in the chassis assembly 400, and then evaporates the low-temperature condensate water after cooling the surface of the condenser assembly 300 by the water cooling fan assembly 430, and performs secondary cooling, thereby further improving the heat dissipation cooling effect.

The water pumping fan assembly 430 comprises a micro motor 431, the micro motor 431 is fixedly installed in the water storage cavity 420 through a mounting seat, a water pumping fan blade mechanism 432 is fixed on an output shaft of the micro motor 431, and the micro motor 431 has two or more different rotating speeds. That is, the micro motor 431 drives the water pumping fan mechanism 432 to rotate, and condensed water collected in the water storage cavity 420 is pumped to the surface of the condenser assembly 300 by the water pumping fan mechanism 432 to cool.

The float switch 440 for monitoring the water level of the water storage cavity 420 is installed in the water storage cavity 420, the output end of the float switch 440 is connected with a main board, and the output end of the main board is respectively and electrically connected with the input end of the electromagnetic valve 220, the input end of the micro motor 431 and the input end of the air conditioner power switch. The air conditioner power switch is used for controlling the whole switch of the mobile air conditioner.

The chassis base 410 is provided with a fourth water outlet 450 communicated with the water storage cavity 420, and the fourth water outlet 450 is provided with a manual water outlet plug 460.

When the mobile air conditioner capable of dissipating heat by using condensed water works, the evaporator assembly 100 generates low-temperature condensed water when the whole machine normally works, the low-temperature condensed water flows into the lower water receiving disc 230 through the first water outlet 250 in the upper water receiving disc 210 in the water receiving disc assembly 200, the electromagnetic valve 220 is in a normally closed state, and the second water outlet 270 in the lower water receiving disc 230 is blocked and is not drained; when the collected low-temperature condensed water exceeds the height of the third water outlet 260 in the lower water receiving tray 230, the low-temperature condensed water flows into the top of the high-temperature condenser assembly 300 from the third water outlet 260 in the lower water receiving tray 230, the condenser assembly 300 is cooled down, and then flows into the water storage cavity 420 in the chassis base 410 along the condenser assembly 300; meanwhile, the water pumping fan assembly 430 pumps water at a low rotation speed, pumps the water collected in the water storage cavity 420 to the surface of the high-temperature condenser assembly 300, and then cools the high-temperature condenser assembly 300 and evaporates the cooled water, so that the condenser assembly 300 is cooled by water; wherein the amount of water evaporated after the water is drawn is less than the amount of water collected in the water storage chamber 420.

Because the amount of evaporated water is smaller than the amount of water collected in the water storage chamber 420 after water is taken, after a certain time of water collection, when the water collected in the water storage chamber 420 reaches the first early warning water level, the float switch 440 sends a signal to the main board at the first early warning water level, the main board controls the electromagnetic valve 220 to be opened, the electromagnetic valve 220 is in a conducting state, the low-temperature condensed water collected by the lower water receiving disc 230 flows into the lowest second water outlet 270 in the lower water receiving disc 230, and is directly discharged outdoors through the outdoor drain pipe 240; because the height of the second drain port 270 is lower than that of the third drain port 260, no low-temperature condensate passes through the third drain port 260, and the passage of low-temperature condensate into the condenser assembly 300 is cut off, and no additional low-temperature condensate is added in the condenser assembly 300 and the water storage chamber 420.

Meanwhile, the main board controls the water pumping fan assembly 430 to work, so that the rotating speed of the water pumping fan assembly 430 is changed from low rotating speed to high rotating speed, water pumping is carried out at high speed, existing water stored in the water storage cavity 420 is pumped to the surface of the high-temperature condenser assembly 300 at high speed, then the high-temperature condenser assembly 300 is further cooled by water, and the existing water stored in the water storage cavity 420 is quickly evaporated, so that the water stored in the water storage cavity 420 in the chassis seat 410 is continuously reduced; the existing water in the water storage chamber 420 is evaporated after passing through the water-pumping fan assembly 430, so that the water level in the water storage chamber 420 drops, when the water level drops to the low water level of the float switch 440, the float switch 440 sends a signal, and the main board controls to close the electromagnetic valve 220, so that the electromagnetic valve 220 is restored to the original normally closed state, thereby closing the passage of the lowest second water outlet 270 in the lower water receiving tray 230, so that the water cannot be drained, the low-temperature condensed water flows into the top of the high-temperature condenser assembly 300 from the third water outlet 260 in the lower water receiving tray 230, the condenser assembly 300 is cooled by water, and then flows into the water storage chamber 420 in the chassis base 410 along the condenser assembly 300. The water pumping fan assembly 430 is controlled by the main board to pump water at a low rotation speed; thereby performing a reciprocating operation.

Further, when the float switch 440 sends out a signal after reaching the first pre-warning level, the main board controls to close the electromagnetic valve 220, but the electromagnetic valve 220 cannot work due to a fault, or when the lowest second water outlet 270 in the lower water receiving tray 230 is not drained due to dirt blockage, water flows into the top of the high-temperature condenser assembly 300 through the third water outlet 260 in the lower water receiving tray 230, the condenser assembly 300 is cooled down by water, and then flows into the water storage cavity 420 in the chassis seat 410 along the condenser assembly 300, so that the water in the water storage cavity 420 rises, after the float switch 440 reaches the second pre-warning level, a signal is sent out again, the main board controls the whole machine to stop working and gives out a full water alarm and a manual drainage prompt, and after all faults are removed, the whole machine resumes normal operation.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the invention, which is defined by the appended claims.

Claims

1. A mobile air conditioner capable of dissipating heat by utilizing condensed water, which is characterized by comprising an evaporator assembly (100), a water pan assembly (200) and a condenser assembly (300);

the evaporator assembly (100) is fixedly arranged at the top of the water pan assembly (200), and the condenser assembly (300) is fixed at the bottom of the water pan assembly (200);

the water pan assembly (200) has two operating states: the first working state is that the water pan assembly (200) discharges the low-temperature condensed water generated on the evaporator assembly (100) to the outside; in the second tooling state, the water pan assembly (200) introduces the low-temperature condensed water generated on the evaporator assembly (100) into the condenser assembly (300) and cools the condenser assembly (300).

2. The mobile air conditioner capable of dissipating heat by utilizing condensed water according to claim 1, wherein said water pan assembly (200) comprises an upper water pan (210) and a lower water pan (230) which are connected to each other up and down, said upper water pan (210) is provided with a first water outlet (250) which is communicated with said lower water pan (230);

the lower water pan (230) is provided with a third water outlet (260) for introducing low-temperature condensed water into the condenser assembly (300).

3. The mobile air conditioner capable of dissipating heat by using condensed water according to claim 2, wherein a second drain outlet (270) is provided on the lower water pan (230) and is communicated with an electromagnetic valve (220), and an outlet end of the electromagnetic valve (220) is connected with an outdoor drain pipe (240).

4. A mobile air conditioner capable of radiating heat by using condensed water according to claim 3, wherein the height of the second drain opening (270) is lower than the height of the third drain opening (260).

5. A mobile air conditioner capable of dissipating heat using condensed water according to claim 3, further comprising a chassis assembly (400);

the chassis assembly (400) comprises a chassis seat (410), the chassis seat (410) is fixed at the bottom of the condenser assembly (300), a water storage cavity (420) is formed in the chassis seat (410), and a water pumping fan assembly (430) for pumping low-temperature condensed water collected in the water storage cavity (420) to the surface of the high-temperature condenser assembly (300) is arranged in the water storage cavity (420).

6. The mobile air conditioner capable of dissipating heat by utilizing condensed water according to claim 5, wherein said water pumping fan assembly (430) comprises a micro motor (431), said micro motor (431) is fixedly installed in said water storage chamber (420) through a mounting base, and a water pumping fan blade mechanism (432) is fixed on an output shaft of said micro motor (431).

7. A mobile air conditioner capable of dissipating heat using condensed water according to claim 6, wherein said micro motor (431) has two or more different rotational speeds.

8. The mobile air conditioner capable of dissipating heat by utilizing condensed water according to claim 6, wherein a float switch (440) for monitoring the water level of the water storage chamber (420) is installed in the water storage chamber (420), an output end of the float switch (440) is connected with a main board, and an output end of the main board is electrically connected with an input end of the electromagnetic valve (220), an input end of the micro motor (431) and an input end of the air conditioner power switch respectively.

9. The mobile air conditioner capable of dissipating heat by utilizing condensed water according to claim 5, wherein a fourth water outlet (450) communicated with the water storage cavity (420) is formed on the chassis base (410), and a manual water drain plug (460) is installed on the fourth water outlet (450).