CN216114372U - Combination cabinet air conditioner and combination cabinet air conditioning system - Google Patents

Abstract

The utility model discloses a combined cabinet air conditioner and a combined cabinet air conditioning system, which comprise an air inlet area, a primary filtering area and a filtering area, wherein the air inlet area is arranged at the top of the air inlet area; the air inlet area, the primary filtering area and the filtering area are sequentially arranged and communicated with each other according to the air circulation direction; the primary filtration area is provided with a biological nano-membrane spraying device for spraying a biological nano-membrane solution to the primary filtration area, and the filtration area is provided with a filter screen. In the utility model, the primary filtering area is provided with a biological nano-film spraying device, the biological nano-film spraying device sprays a biological nano-film solution to the primary filtering area, the biological nano-film is combined with air dust and dirt pumped into the primary filtering area to form an accumulated dust cluster, and the air is dedusted through gravity sedimentation. The air after dust removal treatment is filtered by a filter screen in the filtering area for further cleaning, and the odor or the residual dust and dirt in the air are removed. The air is subjected to dust removal treatment in the primary filtering area, dust and dirt accumulation on a filter screen in the filtering area is reduced, the cleaning times of the filter screen are reduced, the cost is saved, and the filter screen is not easy to damage.

Description

Combination cabinet air conditioner and combination cabinet air conditioning system

Technical Field

The utility model relates to the technical field of air conditioners, in particular to a combined cabinet air conditioner and a combined cabinet air conditioning system.

Background

The combined cabinet air conditioner is an air treatment device assembled by various air treatment functional sections. The air treatment function section of the combined cabinet air conditioner comprises units such as air mixing, flow equalization, filtering, cooling, primary and secondary heating, dehumidification, humidification, an air feeder, an air return fan, water spraying, noise elimination, heat recovery and the like. The filter screen is used for filtering air sucked by the air inlet of the combined cabinet air conditioner, removing various harmful substances in the air, improving the quality of indoor air and creating an indoor environment with fresh air for users.

After the filter screen of the combined cabinet air conditioner is used for a period of time, a large amount of dust and dirt can be accumulated, a large amount of bacteria and viruses are generated, and the human health is harmed. The combined cabinet air conditioner filter screen on the existing market needs to be cleaned after being used for a period of time for a short time, the cleaning is frequent, manpower and material resources are consumed, and the filter screen is easy to damage due to frequent cleaning solution.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a combined cabinet air conditioner and a combined cabinet air conditioning system, which can reduce the accumulation of dust and dirt on a filter screen, reduce the cleaning times of the filter screen, save the cost and prevent the filter screen from being damaged easily.

The utility model discloses a combined cabinet air conditioner, which comprises an air inlet area, a primary filtering area and a filtering area, wherein the air inlet area is connected with the primary filtering area; the air inlet area, the primary filtering area and the filtering area are sequentially arranged and communicated with each other according to the air circulation direction; the primary filtration area is provided with a biological nano-membrane spraying device for spraying a biological nano-membrane solution to the primary filtration area, and the filtration area is provided with a filter screen.

Optionally, the combination cabinet air conditioner further comprises a cleaning area and a driving mechanism; the cleaning area is communicated with the filtering area, the filtering area and the cleaning area are provided with rails, the filter screen is arranged on the rails in a sliding manner, and the driving mechanism is arranged on the filter screen and is in transmission fit with the rails; the driving mechanism is used for driving the filter screen to move between the filtering area and the cleaning area.

Optionally, the combination cabinet air conditioner further comprises a cleaning area and a driving mechanism; the cleaning area is communicated with the filtering area, and the filtering area and the cleaning area are provided with tracks; the filter screen is fixedly arranged on the track, and the driving mechanism is arranged in the filtering area and is in transmission fit with the track; the driving mechanism drives the track to drive, and the filter screen moves between the filtering area and the cleaning area.

Optionally, the combination cabinet air conditioner further comprises a heat exchange area; the heat exchange area is arranged behind the filtering area; the bottom parts of the primary filtering area, the cleaning area and the heat exchange area are provided with mutually communicated dust collecting and water draining grooves; the dust collecting and draining groove is inclined and reduced from the heat exchange area to the primary filtering area.

Optionally, the combination cabinet air conditioner further comprises an airflow sensor for detecting airflow data; the gas flow sensor is arranged on the filter screen or in the filter area.

Optionally, the airflow sensor is an air speed sensor and/or an air volume sensor.

Optionally, the combination cabinet air conditioner further comprises an ultraviolet sterilization device; the ultraviolet sterilization device is arranged in the primary filtering area and/or the heat exchange area.

The utility model also discloses a combined cabinet air-conditioning system, which comprises the combined cabinet air conditioner and the supply device; the supply device is communicated with the biological nano-film spraying device and is used for storing and supplying a biological nano-film solution.

Optionally, the supply device comprises a storage tank, a power pump and a supply pipe; the supply line both ends receive membrane sprinkler and storage jar intercommunication with the biology respectively, and the power pump sets up on the supply line, and the storage jar is used for storing the biology and receives membrane solution.

Optionally, a water level sensor for monitoring the water level of the biofilm containing solution is arranged in the storage tank.

In the utility model, the primary filtering area is provided with a biological nano-film spraying device, the biological nano-film spraying device sprays a biological nano-film solution to the primary filtering area, the biological nano-film is combined with air dust and dirt pumped into the primary filtering area to form an accumulated dust cluster, and the air is dedusted through gravity sedimentation. The air after dust removal treatment is filtered by a filter screen in the filtering area for further cleaning, and the odor or the residual dust and dirt in the air are removed. The air is subjected to dust removal treatment in the primary filtering area, dust and dirt accumulation on a filter screen in the filtering area is reduced, the cleaning times of the filter screen are reduced, the cost is saved, and the filter screen is not easy to damage.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model. It is obvious that the drawings in the following description are only some embodiments of the utility model, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

FIG. 1 is a side view of a combination cabinet air conditioner according to an embodiment of the present invention;

FIG. 2 is a partial top view of a combination cabinet air conditioner according to an embodiment of the present invention;

FIG. 3 is a schematic view of a dust collecting and draining tank according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a combination cabinet air conditioning system according to an embodiment of the present invention;

FIG. 5 is a flow chart of a control method for a combination cabinet air conditioner according to an embodiment of the present invention;

FIG. 6 is another flow chart of a method for controlling a combination cabinet air conditioner according to an embodiment of the present invention;

fig. 7 is another flowchart of a control method for a combination air conditioner according to an embodiment of the utility model.

Wherein, 1, the combined cabinet air-conditioning system; 100. a combination cabinet air conditioner; 110. an air inlet area; 120. A primary filtration area; 121. a water outlet; 130. a filtration zone; 131. filtering with a screen; 132. a track; 133. An airflow sensor; 140. a biological nano-film spraying device; 150. a cleaning zone; 160. a heat exchange zone; 170. a dust collecting and draining groove; 180. an ultraviolet sterilization device; 190. an air outlet area; 200. a supply device; 210. storing the tank; 220. a power pump; 230. a supply conduit; 240. a material supplementing port; 250. a material supplementing pipeline; 260. a one-way valve.

Detailed Description

It is to be understood that the terminology, the specific structural and functional details disclosed herein are for the purpose of describing particular embodiments only, and are representative, but that the present invention may be embodied in many alternate forms and should not be construed as limited to only the embodiments set forth herein.

The utility model is described in detail below with reference to the figures and alternative embodiments.

As shown in fig. 1, as an embodiment of the present invention, a combination air conditioner 100 is disclosed, which includes an air inlet area 110, a primary filtering area 120, and a filtering area 130. The air inlet area 110, the primary filter area 120 and the filter area 130 are sequentially arranged and communicated in the air circulation direction, that is, the primary filter area 120 is arranged behind the air inlet area 110 and the filter area 130 is arranged behind the primary filter area 120 according to the air flow direction. The intake area 110 is typically provided with air intakes for the incoming air, which is driven by a fan into the combination cabinet air conditioner 100. The primary filtering area 120 is provided with a biological nano-membrane spraying device 140 for spraying a biological nano-membrane solution to the primary filtering area 120, and the filtering area 130 is provided with a filter screen 131.

In the present invention, the primary filtering area 120 is provided with a biofilm spraying device 140, the biofilm spraying device 140 sprays a biofilm solution to the primary filtering area 120, the biofilm combines with the air grime drawn into the primary filtering area 120 to form a dust collection mass, and the air is dedusted by gravity settling. The air after the dust removal process is filtered by the filter screen 131 in the filtering area 130, and further cleaned to remove odor, residual dust and dirt, etc. in the air. The air is treated in the primary filtering area 120 for dust removal, thereby reducing the accumulation of dust and dirt on the filter screen 131 in the filtering area 130, reducing the cleaning times of the filter screen 131, saving the cost and ensuring that the filter screen 131 is not easy to damage.

As shown in fig. 1, the biofilm spraying device 140 may be a biofilm spraying head. The biological nano-film spraying head can be communicated with a supply device 200 for storing the biological nano-film solution. The specific location of the supply device 200 may be set as desired.

As shown in FIG. 2, the combination cabinet air conditioner 100 further includes a clean area 150 and a drive mechanism. The cleaning area 150 is communicated with the filtering area 130, the filtering area 130 and the cleaning area 150 are provided with a track 132, and the filter screen 131 is arranged on the track 132 in a sliding manner; the driving mechanism is arranged on the filter screen 131 and is in transmission fit with the track 132; the drive mechanism is used to drive the screen 131 between the filtration zone 130 and the cleaning zone 150. In this scheme, when filter screen 131 needs to wash, remove the clean district 150 through actuating mechanism with filter screen 131 in filtering area 130 and wash, need not pull out filter screen 131 from combination cabinet air conditioner 100 and wash convenient and fast. After washing, the filter screen 131 in the cleaning area 150 is moved to the filtering area 130 directly by the driving mechanism for further use. Specifically, in this embodiment, a driving mechanism may be directly disposed on each of the screens 131, and the driving mechanism is engaged with the rails 132 to drive the screens 131 to move on the rails 132. In another embodiment, the driving mechanism may be installed in the filtering region 130 and only drivingly engaged with the rail 132, and the filter screen 131 is fixedly installed on the rail 132; the drive mechanism drives the track 132 to move the screen 131 between the filtration zone 130 and the cleaning zone 150.

Specifically, the screen 131 may be cleaned in the cleaning region 150 by electrostatic cleaning, solution cleaning, impact cleaning, vibration cleaning, wind suction, or the like.

As shown in fig. 1 or 3, the combination cabinet air conditioner 100 further includes a heat exchange section 160, and the heat exchange section 160 is disposed after the filtering section 130. The air is cooled in the heat exchange zone 160. The primary filtering area 120, the filtering area 130, the cleaning area 150 and the heat exchanging area 160 are provided at the bottom with dust collecting and draining grooves 170 communicated with each other. The dust and dirt in the primary filtering area 120, the filtering area 130 and the cleaning area 150 fall into the dust and water collecting and draining groove 170, the condensed water generated by the refrigeration of the heat exchange area 160 is collected in the dust and water collecting and draining groove 170, and in the process of draining the condensed water, the dust generated in the primary filtering area 120, the filtering area 130 and the cleaning area 150 can be taken away at the same time, so that the process of cleaning the dust is omitted.

Specifically, as shown in fig. 3, the dust-collecting and water-draining groove 170 is inclined downward from the heat exchange area 160 to the primary filtering area 120 to form a certain gradient, and the condensed water flows from the heat exchange area 160 to the primary filtering area 120 by itself to flush the dust and dirt in the dust-collecting and water-draining groove 170. The surface of the dust-collecting and water-draining groove 170 can be provided with a hydrophobic layer to prevent dust and dirt from accumulating on the surface of the dust-collecting and water-draining groove 170 and being difficult to wash away. The material of the hydrophobic layer may be a fluorine/silicon material, polycarbonate, polyester, or the like. The primary filtering area 120 may be provided with a drain port 121 to facilitate the drainage of condensed water.

As shown in fig. 1, the combination cabinet air conditioner 100 further includes an airflow sensor 133 for detecting air flow data; an airflow sensor 133 is disposed on the screen 131 or in the filtering section 130. In this embodiment, whether the filter 131 needs to be cleaned or not may be determined based on the air flow data detected by the air flow sensor 133. The airflow sensor 133 may be an air speed sensor and/or an air volume sensor, and the corresponding air flow data is air speed and/or air volume. Specifically, when the dust on the filter screen 131 gradually increases, the wind speed and the wind volume both gradually decrease, and when the wind speed and the wind volume decrease to a certain threshold, it indicates that the filter screen 131 needs to be cleaned. By monitoring the change of the wind speed and the wind volume, whether the filter screen 131 needs to be cleaned at present can be accurately and intuitively known.

Further, the combination cabinet air conditioner 100 further includes an ultraviolet sterilization device 180; the ultraviolet sterilization device 180 is disposed in the primary filtering zone 120 and/or the heat exchange zone 160. The ultraviolet sterilization device 180 can kill bacteria in the air, and the combination cabinet air conditioner 100 can comprehensively clean the air by combining the treatment of particles such as dust in the primary filtering area 120 and the filtering area 130. The ultraviolet sterilization device 180 may be a UVC-LED lamp, a UVC mercury lamp, or other ultraviolet generation device.

The combination cabinet air conditioner 100 further includes an air outlet section 190, the air outlet section 190 being disposed after the heat exchange section 160 and in communication with, for example, the exchange section. The air outlet area 190 is provided with an air outlet to discharge air, and the air treated in the heat exchange area 160 is sent into the room.

As shown in fig. 4, as another embodiment of the present invention, a combined cabinet air conditioning system 1 is disclosed, which comprises the combined cabinet air conditioner 100 as above, and a supply device 200 in communication with the biofilm spraying device 140, wherein the supply device 200 is used for storing and supplying a biofilm solution.

Specifically, the supply device 200 includes a storage tank 210, a power pump 220, and a supply pipe 230. The two ends of the supply pipeline 230 are respectively communicated with the biological nano-film spraying device 140 and the storage tank 210, the power pump 220 is arranged on the supply pipeline 230, and the storage tank 210 is used for storing the biological nano-film solution. A water level sensor for monitoring the water level of the biological nano-film solution can be arranged in the storage tank 210, and the biological nano-film solution can be automatically supplemented and replaced when the shortage of the biological nano-film solution is detected; when the consumption speed of the biological nano-film solution is relatively stable, the biological nano-film solution can be automatically supplemented and replaced within the preset time without the monitoring of a water level sensor.

Further, the supply device 200 is provided with a feeding port 240 and a feeding pipeline 250, and the feeding port 240 is communicated with the storage tank 210 through the feeding pipeline 250. The connection between the feeding port 240 and the feeding pipe 250 is provided with a check valve 260 to prevent the biofilm solution in the storage tank 210 from flowing out.

As shown in fig. 5, as another embodiment of the present invention, a method for controlling a combination air conditioner 100 is disclosed, which is applied to the combination air conditioner 100, and comprises the following steps:

s100: starting the combined cabinet air conditioner;

s200: and starting the biological nano-film spraying device, and spraying the biological nano-film to the primary filtering area.

According to the control method of the combination cabinet air conditioner 100, the biological nano-film spraying device 140 sprays the biological nano-film solution to the primary filtering area 120, the biological nano-film is combined with dust and dirt of air pumped into the primary filtering area 120 to form an accumulated dust cluster, the air is dedusted through gravity settling, the air is dedusted in the primary filtering area 120, the dust and dirt accumulation on the filter screen 131 in the filtering area 130 is reduced, the cleaning frequency of the filter screen 131 is reduced, the cost is saved, and the filter screen 131 is not easy to damage.

Further, as shown in fig. 6, the method for controlling the combination air conditioner 100 further includes the steps of:

s300: detecting the working time length and/or air flow data of the air conditioner of the combined cabinet;

s400: if the working time of the air conditioner of the combination cabinet exceeds the preset working time and/or the air flow data is lower than the preset threshold value, driving a filter screen of the filtering area to move to a cleaning area for cleaning; and after cleaning is finished, driving the filter screen in the cleaning area to move to the filtering area.

The air flow data can be wind speed and/or air volume, and can be respectively obtained by monitoring through a wind speed sensor and/or an air volume sensor. In the scheme, whether the filter screen 131 needs to be cleaned or not is judged according to the working time of the combined cabinet air conditioner 100 and/or the air flow data. Specifically, under the relatively stable condition of filter screen 131 dust production volume, can be directly through detecting whether the length of time of unit cabinet air conditioner 100 work decides need wash filter screen 131, convenient and fast, directly through software program set up predetermine length of time can, practice thrift the cost. Under the condition that the dust generation amount of the filter screen 131 is unstable, whether the filter screen 131 needs to be cleaned is determined to be inaccurate directly through the working time, and at the moment, whether the filter screen 131 needs to be cleaned is determined by monitoring the air flow data, so that the judgment is more direct and accurate. For example, when the dust on the filter screen 131 gradually increases, the wind speed and the wind volume gradually decrease, and when the wind speed and the wind volume decrease to a certain threshold, it indicates that the filter screen 131 needs to be cleaned. By monitoring the change of the wind speed and the wind volume, whether the filter screen 131 needs to be cleaned at present can be accurately and intuitively known. Of course, when the working time of the combination cabinet air conditioner 100 exceeds the preset working time and the air flow data is lower than the preset threshold, the filter screen 131 is cleaned only when the working time condition and the air flow data condition are simultaneously met, and the filter screen 131 can be cleaned after being fully used to the maximum extent if no air flow data is judged to have a priority level. That is, under this determination condition, there is no situation that the air flow data is still higher than the preset threshold when the working duration of the combination cabinet air conditioner 100 reaches the preset working duration; when the air flow data is lower than the preset threshold value, the working time of the combined cabinet air conditioner 100 does not reach the preset working time, the filter screen 131 can be used to the maximum extent within the range of acceptable filter effect of the filter screen 131, and the frequency of cleaning the filter screen 131 is reduced. The specific setting between the preset working time corresponding to the working time of the combination cabinet air conditioner 100 and the preset threshold corresponding to the air flow data can be coordinated and set according to the actual situation.

For determining whether to clean the filter screen 131 according to the operation time of the combination air conditioner 100 and the air flow data, in another embodiment, as shown in fig. 7, the method for controlling the combination air conditioner 100 further includes the steps of:

s500: detecting the working time of the air conditioner of the combination cabinet and air flow data;

s600: judging whether the flow data is lower than a preset threshold value, if so, further judging whether the working time of the combined cabinet air conditioner exceeds the preset working time, and if so, driving a filter screen of the filtering area to move to a cleaning area for cleaning; after cleaning, driving the filter screen in the cleaning area to move to the filtering area; and if the flow data is not lower than the preset threshold value, stopping further judgment and not executing the action of cleaning the filter screen.

In this embodiment, the working time of the combination air conditioner 100 and the air flow data are detected at the same time, but the priority of the air flow data is higher than the working time of the combination air conditioner 100, that is, when the flow data is lower than the preset threshold, the working time is judged to be the same as the working time, the filter screen 131 is cleaned only when the working time is judged to be the same as the working time, and the time when the filter screen 131 needs to be cleaned can be accurately judged, and the filter screen 131 can be fully used.

Further, the control method of the combination air conditioner 100 further includes the steps of: before the combined cabinet air conditioner is started, an ultraviolet sterilization device is started for sterilization; in the operation process of the combined cabinet air conditioner, starting the ultraviolet sterilization device at intervals of preset duration to sterilize; and when the combined cabinet air conditioner is shut down or after the combined cabinet air conditioner is shut down, the ultraviolet sterilizing device is started to sterilize. In the scheme, the combined cabinet air conditioner is sterilized before starting, in the running process and when or after shutting down, so that the air quality is comprehensively ensured.

It should be noted that, the limitations of the steps involved in the present disclosure are not considered to limit the order of the steps without affecting the implementation of the specific embodiments, and the steps written in the foregoing may be executed first, or executed later, or even executed simultaneously, and as long as the present disclosure can be implemented, all should be considered to belong to the protection scope of the present disclosure.

The foregoing is a more detailed description of the utility model in connection with specific alternative embodiments, and the practice of the utility model should not be construed as limited to those descriptions. For those skilled in the art to which the utility model pertains, several simple deductions or substitutions can be made without departing from the spirit of the utility model, and all shall be considered as belonging to the protection scope of the utility model.

Claims (10)

1. A combined cabinet air conditioner is characterized by comprising an air inlet area, a primary filtering area and a filtering area; the air inlet area, the primary filtering area and the filtering area are sequentially arranged and communicated with each other according to the air circulation direction; the primary filtration area is provided with a biological nano-membrane spraying device used for spraying biological nano-membrane solution to the primary filtration area, and the filtration area is provided with a filter screen.

2. The combination cabinet air conditioner of claim 1, further comprising a cleaning area and a drive mechanism; the cleaning area is communicated with the filtering area, the filtering area and the cleaning area are provided with tracks, the filter screen is arranged on the tracks in a sliding manner, and the driving mechanism is arranged on the filter screen and is in transmission fit with the tracks; the driving mechanism is used for driving the filter screen to move between the filtering area and the cleaning area.

3. The combination cabinet air conditioner of claim 1, further comprising a cleaning area and a drive mechanism; the cleaning area is communicated with the filtering area, and the filtering area and the cleaning area are provided with tracks; the filter screen is fixedly arranged on the track, and the driving mechanism is arranged in the filtering area and is in transmission fit with the track; the driving mechanism drives the track transmission, and the filter screen moves between the filtering area and the cleaning area.

4. The combination cabinet air conditioner of claim 2, further comprising a heat exchange zone; the heat exchange zone is arranged after the filtering zone; the bottom parts of the primary filtering area, the cleaning area and the heat exchange area are provided with mutually communicated dust collecting and water draining grooves; the dust collecting and draining grooves are obliquely reduced from the heat exchange area to the primary filtering area.

5. A combination cabinet air conditioner according to any one of claims 1 to 4, further comprising an airflow sensor for detecting airflow data; the airflow sensor is disposed on the filter screen or in the filter zone.

6. The combination cabinet air conditioner of claim 5, wherein the airflow sensor is an air velocity sensor and/or an air volume sensor.

7. The combination cabinet air conditioner of claim 4, further comprising an ultraviolet sterilization device; the ultraviolet sterilization device is arranged in the primary filtering area and/or the heat exchange area.

8. A modular cabinet air conditioning system including a modular cabinet air conditioning and supply apparatus as claimed in any one of claims 1 to 7; the supply device is communicated with the biological nano-film spraying device and is used for storing and supplying a biological nano-film solution.

9. The combination cabinet air conditioning system of claim 8, wherein the supply means includes a storage tank, a power pump, and a supply conduit; supply line both ends respectively with the biology receives membrane sprinkler with storage jar intercommunication, the power pump sets up supply line is last, the storage jar is used for storing the biology and receives membrane solution.

10. The combination cabinet air conditioning system of claim 9, wherein a water level sensor is disposed within the storage tank for monitoring a biofilm solution level.

Images