CN107477790A - A kind of air-conditioning automatic flushing device - Google Patents

Abstract

The invention discloses a kind of air-conditioning automatic flushing device,Including water storage device,Control module,Interior machine spray equipment,Outer machine spray equipment and blowdown apparatus,Water storage device includes two storage tanks,Water inlet is respectively arranged with two storage tank side walls,Butterworth Hatch,From clean mouth,Sewage draining exit,Water filling port,Wherein water inlet connects with air-conditioning internal machine discharge outlet,Two storage tanks from clean mouth,Butterworth Hatch is connected to interior machine by water plug respectively,Outer machine spray equipment,Control module is connected with water plug and water plug work can be controlled to clean outdoor machine of air-conditioner and interior machine,And control module and the control system of air-conditioning internal machine are connected and are controlled by it,Sewage draining exit is connected with blowdown apparatus to drain sewage in time,Intelligence degree of the present invention is high,It is time saving and energy saving to clean,Collection to condensed water recycles can not only saving water resource,And can be by the relatively low condensed water of temperature to evaporator,Condenser cleans,Cooling,Reach energy-conservation with improving the purpose of refrigeration.

Description

An air conditioner automatic cleaning device

technical field

The invention relates to the technical field of air conditioners, in particular to an automatic air conditioner cleaning device.

Background technique

As the most common temperature adjustment device, the split air conditioner has been widely used in various occasions. However, during the long-term use of the air conditioner, it will be polluted by dust in the air, resulting in a decline in the performance of the air conditioner, which will affect the use of the air conditioner and increase energy. consumption. Especially the evaporator in the internal unit, long-term use will adhere to a large amount of dust and dander and other debris, and at the same time, the condensed water accumulated in the drain pipe of the internal unit will also produce a large number of bacteria. , To avoid affecting human health, the air conditioner must be cleaned regularly. At present, the cleaning of air conditioners is manual, and its disadvantages are obvious. It is not only time-consuming and labor-intensive, but also has potential safety hazards.

Contents of the invention

In order to overcome the deficiencies of the prior art, the invention provides an air conditioner automatic cleaning device with a high degree of intelligence.

The technical solution adopted by the present invention to solve its technical problems is:

An automatic cleaning device for an air conditioner, comprising: a water storage device, the water storage device is connected to the drainage system of the air conditioner internal unit or an external water pipe, and a pumping device is connected to the water storage device; a cleaning module, the cleaning module is electrically connected to the pumping device device, and can spray the water collected by the water storage device on the evaporator of the air conditioner internal unit and/or the condenser of the external unit of the air conditioner; the control module, the control module is electrically connected to the control system of the internal unit and the cleaning module and controls the cleaning module on.

Preferably, the water storage device includes a first water storage tank, a second water storage tank, and an overflow hole that communicates with the first water storage tank and the second water storage tank, and the cleaning module includes an external machine spray that communicates with the first water storage tank device, and the internal unit spray device connected to the second water storage tank, and the air conditioner internal unit drainage system is connected to the first water storage tank.

Preferably, the first water storage tank is provided with a first water level switch connected to the control module, the position of the first water level switch is higher than the overflow hole, and when the first water level switch detects that the water level in the first water storage tank When reaching the first water level switch, the first water level switch transmits a signal to the control module, and the control module receives the signal and can control the outdoor unit spray device to open.

Preferably, the second water storage tank is provided with a second water level switch connected to the control module, and when the second water level switch detects that the water level in the second water storage tank has not reached the second water level switch, the control module cannot start Internal sprinkler device.

Preferably, it also includes a sewage discharge device communicating with the first water storage tank, and the sewage discharge device is connected with the control module.

Preferably, it also includes a control switch integrated on the remote controller of the air conditioner, and the control switch can simultaneously control the opening of the indoor unit spray device and the sewage discharge device.

Preferably, it also includes an air-drying device arranged at the evaporator of the indoor unit of the air conditioner, and the air-drying device is connected to and controlled by the internal unit control system.

Preferably, it also includes a disinfection device connected to the internal unit control system, the disinfection device is arranged in the air conditioner internal unit and controlled by the internal unit control system.

Preferably, the disinfection device is an ozone generating device or an ultraviolet sterilizing device.

Preferably, it also includes a human body identification module, and the disinfection device is connected to the internal machine control system through the human body identification module.

Preferably, it also includes a solar panel arranged on the air conditioner external unit, and the solar panel is connected to the control module.

The beneficial effects of the present invention are: the present invention can use the condensed water generated during the air conditioner to connect the spray device through the spray pipe to automatically clean the evaporator and the condenser. Collection and reuse can not only save water resources, but also clean and cool evaporators and condensers through condensed water with low temperature, so as to achieve energy saving and improve cooling effect.

Description of drawings

The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

Fig. 1 is a block diagram of the present invention;

Fig. 2 is a structural representation of an embodiment of the present invention;

Fig. 3 is the schematic diagram of the present invention's external machine spray device;

Fig. 4 is the schematic diagram of water receiving tray in the present invention;

Fig. 5 is a schematic diagram of the spraying device of the internal machine in the present invention.

detailed description

Referring to Figures 1 to 5, as shown in the figures, an automatic air conditioner cleaning device includes: a water storage device 1, the water storage device 1 is connected to the drainage system of the air conditioner internal unit or an external water pipe, and the water storage device is connected to a water pumping device; cleaning module 2, which is electrically connected to the water pumping device, and can spray the water collected by the water storage device 1 on the evaporator of the air conditioner internal unit and/or the condenser of the air conditioner external unit; the control module 3, The control module 3 is electrically connected to the internal unit control system 9 and the cleaning module 2 and controls the opening of the cleaning module 2 .

The present invention can use the condensed water generated when the air conditioner works to automatically clean the evaporator and the condenser through the spray pipe connected to the spray device, has a high degree of intelligence, saves time and labor for cleaning, and the collection and reuse of condensed water can not only save water resources, and can clean and cool the evaporator and condenser through the condensed water at a lower temperature, so as to achieve the purpose of saving energy and improving the cooling effect.

In this embodiment, the position of the water storage device 1 is lower than the internal unit drainage outlet Q ₂ of the internal unit drainage system of the air conditioner. The water storage device 1 adopts a sealed and heat-retaining structure. After the cleaning module 2 is opened, the water is discharged, and the internal pressure of the water storage device 1 decreases. By using the siphon phenomenon, the condensed water, dust, dander and other sundries accumulated in the drain pipe of the internal unit can be removed while cleaning. Inhale the water storage device 1 to avoid water accumulation or blockage in the drain pipe.

Specifically, the water storage device 1 includes a first water storage tank 11, a second water storage tank 12, and an overflow hole 13 communicating with the first water storage tank 11 and the second water storage tank 12. The side wall of the first water storage tank 11 A water inlet A ₁ , a cleaning port A ₂ , and a sewage discharge port A ₄ are provided on the top, and a self-cleaning port A ₃ is provided on the side wall of the second water storage tank 12. The cleaning module 2 includes a cleaning port A connected to the first water storage tank 11 ₂ , and the indoor unit spraying device connected to the self _- cleaning port A3 of the second water storage tank 12, the air conditioner internal unit drainage system is connected to the first water storage tank 11 water inlet A1, and also includes the _first The sewage discharge device ₄ of the sewage outlet A4 of the water storage tank 11 is connected with the control module 3 .

The internal unit drainage outlet Q ₂ of the air conditioner internal unit drainage system is connected to the water inlet _{A 1} through the water pipe port Q ₁ . Because the water inflow is relatively slow, the condensed water is collected and settled in the first water storage tank 11. As time goes by, the water level in the first water storage tank 11 rises, and first reaches the overflow connecting the first water storage tank 11 and the second water storage tank 12. Hole 13, the clarified condensed water above the first water storage tank 11 enters the second water storage tank 12 through the overflow hole 13, and the water level in the second water storage tank 12 rises to provide relatively clean water preparation for cleaning the evaporator of the internal machine. When the water level in the second water storage tank 12 reaches the overflow hole 13, the water levels in the first water storage tank 11 and the second water storage tank 12 rise simultaneously.

The first water storage tank 11 is provided with a first water level switch 31 connected to the control module 3, the position of the first water level switch 31 is higher than the overflow hole 13, and when the first water level switch 31 detects that the first water storage tank When the water level in 11 reaches the first water level switch 31, the first water level switch 31 transmits the signal to the control module 3, and the control module 3 receives the signal and controls the sprinkler device of the external unit to start working, wherein the control module 3 and the air conditioner internal unit connected to and controlled by the control system.

As shown in Figure 3, the outdoor unit spraying device includes a number of external unit spray heads 25 arranged at the air conditioner external unit, and the water inlet _{E2 of} the external unit sprinkler head is connected and cleaned through the external unit spray nozzle E1. Port A ₂ , in order to enhance the water outlet pressure, a pumping device is provided on the external machine spray pipe connecting the first water storage tank 11 and the external machine spray head 25. The pumping device is the first pressurized pump 21, and the pressurized The condensed water is sprayed on the fins of the condenser of the external unit through the spray head 25 of the external unit, and the water flows down along the fins of the condenser, taking away the dust or dander deposited on the fins of the condenser, so as to achieve the purpose of cleaning , as shown in Figure 4, the waste water after cleaning is discharged in time through the water receiving tray 23 and the drainage pipe arranged at the bottom of the air-conditioning external unit, so as to avoid causing water accumulation or water leakage.

As shown in Figure 3, the above-mentioned outdoor unit spray head 25 can be arranged at different heights of the air conditioner external unit, so that the condensed water is sprayed on the fins of different heights _of the condenser, such as setting the outdoor unit spray head H1 and facing the air conditioner Spray water on the top of the outdoor unit, set the sprinkler head _{H2 of} the outdoor unit and spray water on the middle and upper part of the outdoor unit of the air conditioner, set the sprinkler head H3 of the outdoor unit and spray water on the middle part of the outdoor unit of the air conditioner, where the different The water output and shape of the spray head 25 of the external machine can be adjusted according to the needs. Similarly, this purpose is mainly to save water, to use water resources reasonably and effectively to increase the cleaning frequency, and then to enhance the cleaning effect. The specific settings are as follows: , the water output near the upper end is greater than the water output near the lower end, and the water output shape near the middle is more divergent than the water output shape near the sides.

In addition, in order to ensure the cleanliness of the condensed water used to clean the outdoor unit of the air conditioner, the outdoor unit spray device also includes a filter device 22, and the filter device 22 is installed on the first water storage tank 11 and the first booster pump 21 In between, the condensed water in the first water storage tank 11 is used to clean the condenser of the external unit after being filtered by the filter device 22, wherein the filter device 22 can be a filter screen or filter cotton, etc., and the dust filtered by the filter device 22 or Fur and other sundries are left and deposited at the bottom of the first water storage tank 11, and are discharged through the sewage discharge device 4 when the sewage discharge device 4 is opened later.

As time goes by, a large amount of dirt will be deposited in the first water storage chamber. In order to avoid affecting the cleaning effect of the device, the dirt needs to be cleaned and drained away in time. In the present invention, the sewage discharge device 4 can be automatic sewage discharge, or manually by the user. Control to realize sewage discharge.

Specifically, in this embodiment, a control switch integrated on the remote controller of the air conditioner is included, and the control switch can simultaneously control the opening of the spray device of the internal unit and the sewage discharge device 4 .

As shown in Figure 5, the indoor unit spraying device includes a number of internal unit spraying heads ₂₆ arranged at the internal machine evaporator, wherein the water inlet W2 of the internal machine spraying head passes through the internal machine spraying water pipe port W ₁ is connected to the self-cleaning port A ₃ , in order to enhance the water outlet pressure, a pumping device is provided on the internal unit spraying water pipe connecting the second water storage tank 12 and the internal unit spray head 26, and the pumping device is the second booster pump 24, The pressurized condensed water is sprayed on the fins of the air conditioner's evaporator through the indoor unit spray head 26, and the water flows down along the evaporator fins, taking away dust or dander and other impurities deposited on the evaporator fins. So as to achieve the purpose of cleaning, the waste water after cleaning enters the first water storage tank 11 through the internal unit drainage outlet _Q2 of the air conditioner internal unit drainage system, and then is discharged in time through the sewage discharge device 4.

Similarly, the above-mentioned internal machine sprinklers 26 can be arranged at the fins of different heights of the evaporator, such as spraying water on the top, upper, and middle positions of the evaporator, wherein the different internal machine sprinklers 26 The water discharge and water discharge shape can be adjusted according to needs. The specific setting is that the water discharge near the upper end is greater than the water discharge near the lower end, and the water discharge shape near the middle is more divergent than the water discharge near the sides.

The second water storage tank 12 is provided with a second water level switch 32 connected to the control module 3, and when the second water level switch 32 detects that the water level in the second water storage tank 12 has not reached the second water level switch 32, the control module 3. The spraying device of the indoor unit cannot be activated. The second water level switch 32 here is the minimum water level protection device for protecting the second booster pump 24. When the water level in the second water storage tank 12 is lower than the preset minimum When the water level is low, the control module 3 cannot start the spraying device of the internal machine, so as to prevent the second booster pump 24 from idling, burning out or wearing out when the water level is insufficient.

The user activates the control switch through the remote control to make the air conditioner perform a self-cleaning program. At this time, the internal unit control system 9 first shuts down the external unit of the air conditioner, and then shuts down the inner unit of the air conditioner after a short wait. Condensed water to prevent water leakage due to too much water in the drainage system of the air conditioner when the indoor unit spray device is officially activated to clean the evaporator. Simultaneously starting with the sewage discharge device 4, the second booster pump 24 pumps the condensed water in the second water storage chamber to flush the evaporator, and the cleaned waste water flows back into the first water storage tank 11 through the air conditioner internal unit drainage system, and the first water storage tank The water in 11 is agitated and dirty and loses its use value. Since the sewage discharge device 4 is started at the same time, the water levels in the first water storage tank 11 and the second water storage tank 12 will drop at the same time at this time, and the problem of mutual pollution will not occur. When the self-cleaning time or the water level in the second water storage tank 12 is lower than the minimum protection water level where the second water level switch 32 is located, the self-cleaning procedure ends.

The sewage device ₄ includes a sewage pipeline 42 connected to the sewage outlet A4 at the lower end of the first water storage tank 11. The sewage pipeline 42 is provided with a sewage pump 41. The sewage pipeline 42 is provided with a three-way joint, and _one of the interfaces F1 is connected to The water outlet F ₂ of the water tray 23 and the other interface C are connected to the outside through a water pipe to realize drainage.

In actual use, since there may be a time interval between the water intake and discharge of the water storage device 1, the water level in the water storage device 1 will continue to rise, thereby blocking or semi-blocking the connection between the drainage system of the air conditioner internal unit and the water storage device 1 As a result, the condensed water of the internal unit cannot be normally discharged into the water storage device 1 and there is a backflow phenomenon. In order to avoid the above-mentioned backflow phenomenon and cause water leakage of the internal unit, as shown in Figure 2, the position of the water inlet A ₁ is slightly higher than the sewage discharge The drain port B of the device 4 is used to drain the condensed water in the first water storage tank 11 in time to avoid backflow.

In addition, the start-up of the sewage discharge device 4 can be manually controlled by a remote controller, or can be intelligently controlled by the control module 3 according to the start-up of the external machine spray device, and the sewage discharge device 4 can be started at the same time as the external machine spray device. It is also possible to set the external machine spraying device to start a preset number of times, and then the control module 3 starts the sewage device 4. Specifically, when the first water level switch 31 transmits a signal to the control module 3, the control module 3 starts the external machine spraying device. When the spraying device is used, the control module 3 obtains a program record. When the external machine spraying device is started again, the control module 3 accumulates the number of program records. When the preset number of times is reached, the control module 3 starts the sewage device 4.

In this embodiment, it also includes an air-drying device 5 arranged at the evaporator of the indoor unit of the air conditioner. The air-drying device 5 is connected to the internal unit control system 9 and is controlled by the internal unit control system 9. When the self-cleaning program ends for a period of time, The internal machine control system 9 starts the air-drying device 5 to air-dry the evaporator to prevent bacteria from growing. Described air-drying device 5 is the blower fan that is arranged on the interior of the air conditioner, and the start-up blower fan is in order to drain away the water left on the evaporator due to cleaning. Avoid the fan to suck the water on the evaporator and cause the water to be thrown.

In addition, it also includes a human body identification module 10 connected to the internal unit control system 9 and a disinfection device 6, and the disinfection device 6 is arranged in the air conditioner internal unit. After the air-drying program ends, the internal machine control system 9 starts the human body recognition module 10 and then starts the disinfection program.

Wherein, the human body recognition module 10 is an infrared induction detection device. When no one is detected, the human body recognition module 10 starts the disinfection device 6 to perform sterilization and disinfection treatment on the air conditioner internal unit. The disinfection device 6 is an ultraviolet disinfection tube or a Ozone is used to realize the disinfection function. In the present embodiment, the disinfection device 6 is an ozone generating device or an ultraviolet sterilizing device arranged in the air conditioner. Timing, if people are still detected after one minute and the disinfection device cannot be started, the human body recognition module 10 will no longer start the disinfection device, and the whole program ends in advance, so as to reduce the frequent startup of the program and increase the energy consumption.

Here, the baffle of the air guide door of the air outlet of the indoor unit can adopt a seamless sealing design. When the disinfection program is started, the air outlet of the air conditioner indoor unit is tightly closed. On the one hand, it prevents ozone or ultraviolet rays from entering the room and affecting the human body. Ozone is trapped inside the air conditioner internal unit, increasing the ozone concentration in the internal unit, and the effect of sterilization and deodorization is better.

The above-mentioned air-drying program and disinfection program can be started sequentially under the control of the internal machine control system 9 after the self-cleaning program is finished, or can be started manually according to the needs of the user through the corresponding buttons arranged on the remote controller.

The air conditioner automatic cleaning device of the present invention is also provided with a thermal insulation layer 7, and the thermal insulation layer 7 can be polyurethane foam sprayed on the surface of the external machine, or can be extruded board, benzene board, etc. pasted on the surface of the external machine. Layer 7, on the one hand, prevents the internal temperature of the device from rising due to direct sunlight and the phenomenon of water vapor being discharged into the room through the pipe, and at the same time prevents the device from dew and dripping water on the surface of the device due to the influence of the condensed water temperature; on the other hand, it can protect the storage The condensed water in the water device 1 is kept warm, and the evaporator and condenser are cleaned and cooled by the condensed water with a lower temperature.

In addition, from the perspective of production capacity and environmental protection, in order to reduce energy consumption, in this embodiment, a solar panel 8 can also be installed on the top of the air conditioner external unit. Shade the external unit to reduce the problems of poor heat dissipation, slow cooling, and increased energy consumption caused by the temperature rise of the external unit caused by direct sunlight. At the same time, the solar panel 8 is connected to the control module 3, and the solar panel 8 and the control module 3 A storage battery can be arranged between them, and the solar panel 8 converts light energy into electric energy and stores it in the storage battery. The control module 3 monitors the status of the solar panel 8 and the storage battery in real time, realizes optimal charging and discharging of the storage battery, and prolongs the service life of the storage battery. At the same time, according to It detects the state of the storage battery and realizes the automatic switching of dual power sources. When the discharge of the storage battery reaches a critical point, it will switch to the mains in time to avoid affecting the normal operation of the automatic cleaning device.

The air conditioner automatic cleaning device of the present invention can turn waste into treasure, and collect the condensed water produced by the drainage system of the internal unit to clean the evaporator and condenser. Since the generation of condensed water is based on the refrigeration principle of the air conditioner, the side wall of the first water storage tank 11 There is a water injection port A ₅ on the top, and the water injection port A ₅ is connected to the external water pipe 14. Even if the air conditioner is not used frequently, or the condensed water generated is not in place, the purpose of quickly entering the cleaning state can be achieved by injecting water in advance.

The preferred embodiments of the present invention have been described in detail above. Of course, the present invention can also adopt forms different from the above-mentioned embodiments. Those skilled in the art can make equivalent transformations or corresponding transformations without violating the spirit of the present invention. All changes should fall within the protection scope of the present invention.

Claims (11)

1. A kind of 1. air-conditioning automatic flushing device, it is characterised in that including：

   Water storage device, the water storage device are connected with air-conditioning internal machine drainage system or outer water tube, are communicated with water storage device Water plug；

   Cleaning module, the cleaning module is electrically connected with water plug, and the Water spray that can collect water storage device is in air-conditioning On interior machine evaporator and/or outdoor machine of air-conditioner condenser；

   Control module, the control module be electrically connected with machine control system and cleaning module and control the unlatching of cleaning module.
2. 2. air-conditioning automatic flushing device according to claim 1, it is characterised in that the water storage device includes the first water storage Case, the second storage tank, and the spout hole of the first storage tank of connection and the second storage tank, the cleaning module include connection first The outer machine spray equipment of storage tank, and the interior machine spray equipment of the second storage tank of connection, the air-conditioning internal machine drainage system connect Logical first storage tank.
3. 3. air-conditioning automatic flushing device according to claim 2, it is characterised in that connection is provided with first storage tank First water level switch of control module, the position of first water level switch are higher than spout hole, and when the first water level switch detects When reaching to the water level in the first storage tank at the first water level switch, signal is passed to control module by the first water level switch, control Molding block reception signal simultaneously can control outer machine spray equipment to open.
4. 4. air-conditioning automatic flushing device according to claim 2, it is characterised in that connection is provided with second storage tank Second water level switch of control module, and when the second water level switch detects that the water level in the second storage tank is not up to the second water level When at switch, control module can not start interior machine spray equipment.
5. 5. air-conditioning automatic flushing device according to claim 4, it is characterised in that also include the row of the first storage tank of connection Dirty device, the blowdown apparatus are connected with control module.
6. 6. air-conditioning automatic flushing device according to claim 5, it is characterised in that also include being integrated on air-conditioning remote control Controlling switch, the controlling switch can control interior machine spray equipment and blowdown apparatus to open simultaneously.
7. 7. air-conditioning automatic flushing device according to claim 1, it is characterised in that also include being arranged on air-conditioning internal machine evaporation Air-dry apparatus at device, machine control system and controlled by interior machine control system in air-dry apparatus connection.
8. 8. air-conditioning automatic flushing device according to claim 7, it is characterised in that also include machine control system in connection Chlorination equipment, the chlorination equipment are arranged in air-conditioning internal machine and controlled by interior machine control system.
9. 9. air-conditioning automatic flushing device according to claim 8, it is characterised in that the chlorination equipment is that ozone fills Put or ultraviolet sterilization apparatus.
10. 10. air-conditioning automatic flushing device according to claim 7, it is characterised in that described also including human bioequivalence module Chlorination equipment passes through machine control system in the connection of human bioequivalence module.
11. 11. air-conditioning automatic flushing device according to claim 1, it is characterised in that also include being arranged on outdoor machine of air-conditioner Solar panels, the solar panels link control module.