CN218993548U - Humidity regulator with space disinfection function - Google Patents

Abstract

The utility model discloses a humidity regulator with a space disinfection function, which comprises a shell, a control box, a humidifying module, a dehumidifying module and a liquid storage box, wherein the control box, the humidifying module, the dehumidifying module and the liquid storage box are arranged in the shell, the control box, the humidifying module and the dehumidifying module are respectively arranged above the liquid storage box, the liquid storage box comprises a condensed water collecting area and an atomized water storing area, the humidifying module is communicated with the atomized water storing area, the dehumidifying module is connected with the condensed water collecting area, the top end of the side surface of the atomized water storing area is communicated with the top end of the side surface of the condensed water collecting area, and when the liquid level in the condensed water collecting area reaches the communicating position, the liquid flows into the atomized water storing area to serve as a humidifying water source. The utility model has the functions of independent humidification or dehumidification and simultaneously humidification and dehumidification to promote the freshness of the ambient air, is also used for sterilizing the closed environment without influencing the humidity of the environment, and provides a clean, fresh and pleasant living environment for users.

Description

Humidity regulator with space disinfection function

Technical Field

The utility model belongs to the field of humidity regulation, and particularly relates to a humidity regulator with a space disinfection function.

Background

Currently, the humidity in the mainstream household electrical appliance is usually regulated by a dehumidifier or a humidifier, the dehumidifier is used for removing water molecules in the air by passing the air through a condensing element or an air filter element capable of absorbing water, and the humidification is used for increasing the water molecules in the air by atomizing the water. It follows that dehumidification and humidification are diametrically opposed operations, and in general, based on the need for humidification or drying, the dehumidifier and humidifier are used alone and therefore tend to be insensitive to the control of the humidity in the space. For example, a dehumidifier or humidifier generally detects ambient humidity through a humidity sensor, and after the dehumidifier or humidifier dehumidifies to a desired humidity, the device is stopped and is not started again until the humidity exceeds a preset value. Obviously, for a dehumidifier, the environment humidity cannot be actively increased, and for a humidifier, the environment humidity cannot be actively reduced. In addition, at present, both the humidifier and the dehumidifier lack the function of sterilizing the environment, and especially the dehumidifier cannot realize the sterilizing function. There is therefore a need to propose a new humidity conditioning apparatus to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to provide a humidity regulator with a space disinfection function, which has the functions of independently humidifying or dehumidifying and simultaneously humidifying and dehumidifying to promote the freshness of ambient air, is also used for disinfecting a closed environment without affecting the humidity of the environment, and provides a clean, fresh and pleasant living environment for users.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides a take humidity control machine of space disinfection function, includes the casing and sets up control box, humidification module, dehumidification module and the liquid storage box in the casing, the control box is connected with humidification module and dehumidification module respectively, humidification module with dehumidification module sets up in liquid storage box top, wherein, the liquid storage box includes comdenstion water collection district and atomized water storage district, humidification module and atomized water storage district intercommunication, dehumidification module is connected with the comdenstion water collection district, atomized water storage district's side top with the side top intercommunication of comdenstion water collection district flows into in the atomized water storage district when the liquid level in the comdenstion water collection district reaches the intercommunication department, as the water source of humidification.

The utility model can independently start the dehumidifying function or the humidifying function, can also simultaneously dehumidify and humidify, and spray water mist with disinfectant to disinfect the environment without increasing the humidity of the environment.

Preferably, the humidification module comprises an atomization cavity, an atomization sheet and a water pump, wherein the atomization sheet is arranged at the inner bottom of the atomization cavity, the top of the atomization cavity is provided with a fog outlet, the water pump is connected with an atomization water storage area through a liquid inlet pipe, and the water pump is communicated with the atomization cavity through a connecting pipe.

Preferably, the atomizing cavity is communicated with the atomized water storage area through a liquid return conduit, and the liquid return conduit is provided with an electromagnetic valve. The liquid return guide pipe has the function of enabling liquid in the atomizing cavity to return to the atomized water storage area under the action of gravity, so that the influence on the atomizing effect due to overhigh liquid level in the atomizing cavity is avoided.

Preferably, a first liquid level sensor is arranged in the atomization cavity and used for detecting the liquid level in the atomization cavity and matched with the electromagnetic valve, when the liquid level is higher, the electromagnetic valve is opened, and when the liquid level is lower, the electromagnetic valve is closed.

Preferably, the dehumidification module comprises a condensation cavity, a heat exchange module and a fan, wherein the fan is arranged on the side wall of the condensation cavity, the condensation cavity is provided with an air inlet, the heat exchange module is arranged at the top end of the condensation cavity, a plurality of groups of heat conducting fins are connected below the heat exchange module, the heat conducting fins are located between the fan and the air inlet, and the bottom of the condensation cavity is communicated with a condensed water collecting area through a condensation duct.

Preferably, the condensation cavity is located one side of the atomization cavity, the fan is communicated with the condensation cavity and the atomization cavity, namely, the air inlet of the dehumidifying module is equivalent to the air inlet of the shell, the air outlet of the humidifying module is the air outlet of the shell, and air enters the atomization cavity after entering the condensation cavity, so that when only humidification is performed, the dehumidifying module can be started or not started, the started dehumidifying module is favorable for reducing the air entering the atomization cavity to have dust, but when only dehumidification is performed, the humidifying module cannot be started, or otherwise, the humidifying module cannot be effectively dehumidified.

Preferably, the humidity sensing module is arranged outside the shell, and comprises a humidity sensor and a circuit, wherein the humidity sensor is connected with the control box through the circuit. The humidity sensor is pulled out of a position far away from the shell, so that the humidity sensor is prevented from being close to the humidifying module or the dehumidifying module to influence the measurement result.

Preferably, the condensed water collecting area comprises a transition area and a collecting area, the transition area is close to the atomized water storing area, the top end of the side surface of the transition area is communicated with the top end of the side surface of the atomized water transferring area, the collecting area is far away from the atomized water storing area, the top end of the side surface of the collecting area is communicated with the top end of the side surface of the transition area, and the bottom end of the condensing duct is led to the collecting area.

Preferably, the mist outlet and the air inlet are both provided with filter screens.

The beneficial effects are that:

the dehumidifying module is combined with the humidifying module, the humidifying module is connected with the dehumidifying module through the liquid storage box, the humidifying module continuously atomizes and discharges water mist, the dehumidifying module continuously sucks air with higher humidity, moisture in the air is condensed and collected, the humidity in a closed environment can be actively and flexibly controlled by controlling the humidifying time and the dehumidifying time, disinfectant is added into an atomized water storage area, the humidifying module and the dehumidifying module are started successively, and the humidity in the environment is controlled to be maintained in a proper range while the environment is disinfected.

Drawings

Fig. 1 is a schematic diagram of the structure of the present utility model.

Reference numerals: the device comprises a shell, a 2-atomization cavity, a 3-atomization sheet, a 4-water pump, a 5-connecting conduit, a 6-electromagnetic valve, a 7-mist outlet, an 8-liquid inlet conduit, a 9-first liquid level sensor, a 10-atomized water storage area, a 11-condensed water collection area, a 12-control box, a 13-liquid return conduit, a 14-condensation conduit, a 15-condensation cavity, a 16-air inlet, a 17-heat conducting sheet, a 18-fan and a 19-heat exchange module.

Detailed Description

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the following description will explain the specific embodiments of the present utility model with reference to the accompanying drawings. It is evident that the drawings in the following description are only examples of the utility model, from which other drawings and other embodiments can be obtained by a person skilled in the art without inventive effort.

The technical scheme of the utility model is described in detail in the following by specific embodiments.

The utility model relates to a humidity regulator with a space disinfection function, which comprises a shell 1, a control box 12, a humidifying module, a dehumidifying module and a liquid storage box, wherein the control box 12, the humidifying module, the dehumidifying module and the liquid storage box are arranged in the shell 1, the control box 12 is respectively connected with elements in the humidifying module and the dehumidifying module and used for controlling humidification and/or dehumidification, the humidifying module and the dehumidifying module are arranged above the liquid storage box, the liquid storage box comprises a condensed water collecting area 11 and an atomized water storage area 10, clean water or disinfectant is stored in the atomized water storage area 10, the humidifying module is communicated with the atomized water storage area 10, the liquid in the humidifying module is pumped out and atomized and discharged into the environment to improve humidity, and the liquid storage box is connected with the dehumidifying module and used for receiving water generated by condensation of the dehumidifying module. This water, possibly with dust, is temporarily stored and precipitated in the condensed water collecting area 11; the side top end of the atomized water storage area 10 is communicated with the side top end of the condensed water collecting area 11, and when the liquid level in the condensed water collecting area 11 reaches the communicated position, the liquid level flows into the atomized water storage area 10 to be used as a humidifying water source.

In the utility model, the dehumidifying module is combined with the humidifying module, the humidifying module is connected with the dehumidifying module through the liquid storage box, the humidifying module continuously atomizes and discharges water mist, the dehumidifying module continuously sucks air with higher humidity, the moisture in the air is condensed and collected, the humidity in a closed environment can be actively and flexibly controlled by controlling the humidifying time and the dehumidifying time, and further, disinfectant is added into the atomized water storage area 10, the humidifying module and the dehumidifying module are started in sequence, and the humidity in the environment is controlled to be maintained in a proper range while the environment is disinfected.

It is easy to understand that under normal circumstances, the humidification module and the dehumidification module are started successively, for example, under the circumstance of sterilizing the environment, the humidification module is started first to make the atomized sterilizing liquid full of the relatively airtight environment, at this time, the environmental humidity obviously rises, then the dehumidification module is started again to reduce the environmental humidity, at this time, the humidification module and the dehumidification module operate simultaneously, the humidification module continues to blow out the atomized sterilizing liquid, the environment is continuously sterilized, the dehumidification module continues to dry the air, and finally, the humidification module is closed first until the environmental humidity reaches a set value, and then the dehumidification module is closed.

In the utility model, a humidity sensing module is arranged outside the shell 1, not shown in the drawing, the humidity sensing module comprises a humidity sensor and a circuit, the humidity sensor is connected with the control box 12 through the circuit, and the humidity sensor can be pulled out to a long distance, so that the humidity sensor is prevented from being close to the humidifying module or the dehumidifying module to influence the measurement result. The humidity sensor is used for judging the environment humidity, taking a disinfection environment as an example, after the humidifying module operates for a period of time, the humidity sensor detects that the environment humidity is obviously increased, so that atomized disinfectant is almost full of space, the control box 12 starts the dehumidifying module after receiving the humidity information, and the environment humidity is reduced; when the humidity sensor detects that the ambient humidity has decreased to a preset value, the control box 12 turns off the dehumidification module.

In the utility model, the humidifying module comprises an atomizing cavity 2, an atomizing sheet 3 and a water pump 4, wherein the atomizing sheet 3 is arranged at the inner bottom of the atomizing cavity 2, the top of the atomizing cavity 2 is provided with a mist outlet 7, the water pump 4 is connected with an atomized water storage area 10 through a liquid inlet pipe 8, the bottom end of the liquid inlet pipe 8 is close to the bottom of the atomized water storage area 10, the water pump 4 is communicated with the atomizing cavity 2 through a connecting pipe 5, water or disinfectant in the atomized water storage area 10 is pumped into the atomizing cavity 2, atomization is realized by the atomizing sheet 3, and the atomized water is discharged through the mist outlet 7. Further, the atomizing cavity 2 is communicated with the atomized water storage area 10 through a liquid return conduit 13, the liquid return conduit 13 is provided with an electromagnetic valve 6, the electromagnetic valve 6 is kept closed under the normal humidification condition, and when the liquid level in the atomizing cavity 2 is higher, the electromagnetic valve 6 is opened, so that excessive liquid is returned into the atomized water storage area 10. It is easily understood that the liquid level in the nebulizing chamber 2 can be detected by the first liquid level sensor 9. In the utility model, the atomizing sheet 3, the water pump 4, the electromagnetic valve 6 and the first liquid level sensor 9 are all connected with the control box 12.

Further, the mist outlet 7 is provided with a filter screen to prevent sundries from entering the atomization cavity 2.

In the utility model, the dehumidification module comprises a condensation cavity 15, a heat exchange module 19 and a fan 18, wherein the fan 18 is arranged on the side wall of the condensation cavity 15, the condensation cavity 15 is provided with an air inlet 16, the heat exchange module 19 is arranged at the top end of the condensation cavity 15, a plurality of groups of heat conducting fins 17 are connected below the heat exchange module 19, the heat conducting fins 17 are positioned between the fan 18 and the air inlet 16 and are used for condensing water vapor, and the bottom of the condensation cavity 15 is communicated with the condensed water collecting area 11 through a condensation duct 14. The working process of the dehumidification module is that a low-pressure area is formed in the condensation cavity 15 by the fan 18, air outside the shell 1 enters the condensation cavity 15 through the air inlet 16 under the action of pressure difference, water vapor in the air is converted into condensed water to drop to the bottom of the condensation cavity 15 under the action of the heat exchange group and the heat conducting fins 17, the condensed water enters the condensed water collecting area 11 for temporary storage through the condensation duct 14, and the dried air leaves the condensation cavity 15 through the fan 18. Wherein, the heat exchange module 19 and the fan 18 are both connected with the control box 12 and controlled by the connection box.

The heat exchange module 19 is a conventional heat exchange device, reduces the temperature in the condensation cavity 15, and cooperates with the heat conducting fins 17 to realize water vapor condensation.

Further, the air inlet 16 is provided with a filter screen to prevent impurities and dust with larger particles from entering the condensation cavity 15.

In the present utility model, the condensation chamber 15 is located at one side of the atomization chamber 2, and the fan 18 communicates the condensation chamber 15 with the atomization chamber 2, that is, the fan 18 pumps air in the condensation chamber 15 to the atomization chamber 2. It will be readily appreciated that when only humidification is performed, the heat exchange module 19 is in the off state, the fan 18 draws dry air into the atomizing chamber 2 for humidification, and similarly, when only dehumidification is performed, the atomizing plate 3 and the water pump 4 are in the off state, and the fan 18 draws moist air into the condensing chamber 15 for drying. Furthermore, the humidifying module and the dehumidifying module can operate simultaneously, for example, the air discharged from the atomizing cavity 2 is provided with atomized high-concentration disinfectant to disinfect the environment, and the air with low concentration of the atomized disinfectant enters the condensing cavity 15 and enters the atomizing cavity 2 again for wetting after drying.

In the present utility model, the condensed water collecting area 11 includes a transition area and a collecting area, not shown in the drawing, the transition area is close to the atomized water storing area 10, and the side top end of the transition area is communicated with the side top end of the atomized water transition area, the communication is equivalent to an overflow port, and when the liquid level of the transition area reaches the communication, the liquid will flow into the atomized water storing area 10; the collection zone is remote from the atomized water storage zone 10 and the lateral top end of the collection zone communicates with the lateral top end of the transition zone, with the bottom end of the condensing duct 14 leading to the collection zone. In the utility model, condensed water is taken as an atomization water source, but the condensed water is provided with dust, the direct use of the condensed water can cause the blockage of the water pump 4, the dust can be easily deposited at the bottom in the atomization cavity 2 to influence the atomization effect, the condensed water with the dust is firstly settled in the collecting area, the condensed water is subjected to secondary settlement after overflowed into the transition area, and finally the physically settled water overflows into the atomized water storage area 10 for standby.

Further, a filter screen may be provided at the connection of the transition zone and the atomized water storage zone 10 to isolate dust.

In the present utility model, a second liquid level sensor is provided in the atomized water storage zone 10 and connected to the control box 12 for detecting the overall liquid level in the liquid storage box, and preventing the liquid level from being too high or too low. It should be noted that, when the dehumidification effect is greater than the humidification effect or only the dehumidification effect is achieved, too much liquid in the condensed water collecting area 11 flows into the atomized water storing area 10, so that the liquid level in the atomized water storing area 10 may rise, when the dehumidification effect is greater than the dehumidification effect or only the humidification effect is achieved, the liquid level in the atomized water storing area 10 may drop, and the second liquid level sensor plays a role in monitoring and warning, such as insufficient atomized water source or liquid overflow in the liquid storing box.

The embodiments of the present utility model are described in detail above. The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the core concepts of the utility model. It should be noted that it will be apparent to those skilled in the art that the present utility model may be modified and adapted without departing from the principles of the present utility model, and that such modifications and adaptations are intended to be within the scope of the appended claims.

Claims (9)

1. The utility model provides a take humidity control machine of space disinfection function, its characterized in that, including casing (1) and set up control box (12), humidification module, dehumidification module and liquid storage box in casing (1), control box (12) are connected with humidification module and dehumidification module respectively, humidification module with dehumidification module sets up in liquid storage box top, wherein, liquid storage box includes comdenstion water collection district (11) and atomized water storage district (10), humidification module and atomized water storage district (10) intercommunication, dehumidification module is connected with comdenstion water collection district (11), the side top of atomized water storage district (10) with the side top intercommunication of comdenstion water collection district (11).

2. The humidity conditioner according to claim 1, wherein the humidifying module comprises an atomizing cavity (2), an atomizing sheet (3) and a water pump (4), the atomizing sheet (3) is arranged at the inner bottom of the atomizing cavity (2), the top of the atomizing cavity (2) is provided with a mist outlet (7), the water pump (4) is connected with an atomizing water storage area (10) through a liquid inlet pipe (8), and the water pump (4) is communicated with the atomizing cavity (2) through a connecting pipe (5).

3. A humidity regulator according to claim 2, characterized in that the atomizing chamber (2) communicates with the atomized water storage zone (10) through a return conduit (13), the return conduit (13) being provided with a solenoid valve (6).

4. A humidity conditioner according to claim 2, characterized in that a first liquid level sensor (9) is provided in the nebulization chamber (2).

5. The humidity conditioner according to claim 2, wherein the dehumidification module comprises a condensation cavity (15), a heat exchange module (19) and a fan (18), the fan (18) is arranged on the side wall of the condensation cavity (15), the condensation cavity (15) is provided with an air inlet (16), the heat exchange module (19) is arranged at the top end of the condensation cavity (15), a plurality of groups of heat conducting fins (17) are connected below the heat exchange module (19), the heat conducting fins (17) are located between the fan (18) and the air inlet (16), and the bottom of the condensation cavity (15) is communicated with the condensed water collecting area (11) through a condensation duct (14).

6. The humidity conditioner according to claim 5, wherein the condensation chamber (15) is located at one side of the atomization chamber (2), and the fan (18) communicates the condensation chamber (15) with the atomization chamber (2).

7. The humidity conditioner according to claim 1, characterized in that a humidity sensing module is arranged outside the housing (1), the humidity sensing module comprising a humidity sensor and a circuit, the humidity sensor being connected with the control box (12) by the circuit.

8. The machine according to claim 1, characterized in that the condensed water collection zone (11) comprises a transition zone and a collection zone, the transition zone being close to the atomized water storage zone (10) and the lateral top end of the transition zone being in communication with the lateral top end of the atomized water transition zone, the collection zone being remote from the atomized water storage zone (10) and the lateral top end of the collection zone being in communication with the lateral top end of the transition zone, the dehumidification module being in communication with the collection zone.

9. The humidity conditioner according to claim 5, wherein the mist outlet (7) and the air inlet (16) are both provided with a filter screen.

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