CN113606687A - Antibacterial purification type air conditioning equipment - Google Patents

Abstract

The application relates to the technical field of air conditioning equipment and discloses an antibacterial purification type air conditioning equipment, it includes air conditioner body and the pipeline of fixed connection in air conditioner body air outlet department, the air outlet intercommunication of pipeline and air conditioner body, be provided with on the pipeline and be used for carrying out the dehumidification subassembly of dehumidification in the pipeline. This application is through setting up the air conditioner body, with this body coupling of air conditioner pipeline and the dehumidification subassembly in the pipeline, the dehumidification subassembly dehumidifies the pipeline, reduces comparatively moist condition emergence in the pipeline then to the condition that breeds the bacterium easily in the reduction pipeline takes place, and then reduces the damage that causes on the antibacterial purification type air conditioning equipment during operation is to user's health.

Description

Antibacterial purification type air conditioning equipment

Technical Field

The application relates to the technical field of air conditioning devices, in particular to an antibacterial purification type air conditioning device.

Background

An air conditioner, which is an air conditioner, is an apparatus for manually adjusting and controlling the ambient temperature in a room.

In the correlation technique, chinese utility model patent like publication No. CN203880879U discloses a realize central air conditioning of economic operation control, including air conditioner casing, install the compressor on the air conditioner casing, outdoor condenser, the evaporimeter, the ponding dish, the heat recovery device, outdoor side condensation fan and indoor forced draught blower, still install the fresh air inlet on the air conditioner casing, new trend air valve, the return air inlet, return air valve, the air exit, new trend temperature and humidity sensor, return air temperature and humidity sensor, a controller, wherein the upper portion at the compressor side is installed to the controller, external exhaust fan on the air exit, new trend temperature and humidity sensor installs on the fresh air inlet, temperature and humidity sensor installs on the return air inlet. When using above-mentioned central air conditioning, need be at the air outlet department connecting tube of indoor forced draught blower, make the cold air that indoor forced draught blower sent out can directly blow appointed position then, reach the effect of accurate air supply.

To the correlation technique among the above-mentioned, the inventor thinks that indoor forced draught blower carries back to the pipeline with cold air, and cold air liquefies into water in the pipeline easily, makes then in the pipeline comparatively moist to breed the bacterium easily in making the pipeline, and then when making next use central air conditioner, the bacterium in the pipeline moves to indoor easily, finally has the defect that causes the injury on the user's health easily when using central air conditioner.

Disclosure of Invention

In order to alleviate the problem that causes injury on the user's health easily when using central air conditioning, this application provides an antibacterial purification type air conditioning equipment.

The application provides a bacteriostatic purification type air conditioning equipment adopts following technical scheme:

the utility model provides an antibacterial purification type air conditioning equipment, includes air conditioner body and the pipeline of fixed connection at air conditioner body air outlet department, the air outlet intercommunication of pipeline and air conditioner body, be provided with the dehumidification subassembly that is used for carrying out the dehumidification to the pipeline on the pipeline.

By adopting the technical scheme, when the antibacterial purification type air conditioning device is used, the air conditioning body is started, the air conditioning body generates cold air, the cold air enters the pipeline, and then the cold air moves to the indoor through the pipeline, so that the indoor temperature is adjusted; the dehumidification subassembly dehumidifies in to the pipeline, and then reduces the more moist condition in the pipeline and takes place, reduces the condition that breeds the bacterium in the pipeline easily and takes place, and the condition that causes injury on the health easily to the user when finally reducing and using antibacterial purification type air conditioning equipment takes place.

Optionally, the dehumidification assembly includes a plurality of collecting pipes, the pipes are arranged in a bent manner, a lowest point of a pipe corresponding to one collecting pipe is arranged, each collecting pipe is fixedly connected to the pipe, and the inside of each collecting pipe is communicated with the inside of the pipe.

Through adopting above-mentioned technical scheme, when cold air flowed in the pipeline, cold air probably becomes water in the liquefaction of pipeline, makes water collect at the lower end of pipeline then to make the water in the pipeline get into the collecting pipe and collect, and then reduce the water and collect the condition emergence of breeding the bacterium in the pipeline.

Optionally, one end of each collecting pipe, which is far away from the pipeline, is fixedly connected with an ultrasonic humidifier, and the ultrasonic humidifier is communicated with the inside of the collecting pipe.

Through adopting above-mentioned technical scheme, when having water to collect in the collecting pipe, can start the ultrasonic humidifier, the ultrasonic humidifier is handled the water in the collecting pipe, makes the water in the collecting pipe move out from the ultrasonic humidifier in vaporific follow then to make the ultrasonic humidifier utilize the water in the collecting pipe to carry out humidification processing indoor, reach the effect of utilizing the water in the collecting pipe on the one hand, on the other hand reduces indoor comparatively dry condition and takes place.

Optionally, the system further comprises a plurality of groups of control assemblies, one group of control assemblies is arranged corresponding to one collecting pipe, and each group of control assemblies is used for controlling the communication and closing of the pipeline and the collecting pipe.

Through adopting above-mentioned technical scheme, after the air conditioner body stop work, the operation control subassembly for the control subassembly is with pipeline and collecting pipe intercommunication, thereby makes during the water in the pipeline gets into the collecting pipe, when the air conditioner body began work, reverse operation control subassembly, the control subassembly is closed pipeline and collecting pipe, and then reduces the condition emergence that the cold air in the pipeline got into in the collecting pipe, finally reaches the effect that the collecting pipe of being convenient for was collected the water in the pipeline.

Optionally, the control assembly includes a control plate and a first cylinder with a piston rod fixedly connected to one end of the control plate, one end of the control plate is inserted into the collecting pipe to control the communication and closing of the collecting pipe and the pipeline, and a cylinder body of the first cylinder is fixedly connected to the pipeline.

By adopting the technical scheme, when the air conditioner body works, the first air cylinder is started, drives the control panel to enable the control panel and the collecting pipe to slide relatively, and the control panel closes the communication between the pipeline and the collecting pipe, so that the condition that cold air in the pipeline moves to the collecting pipe is reduced; when the air conditioner body stops working, the first air cylinder is started, the first air cylinder drives the control panel in a reverse mode, the control panel opens the pipeline and the collecting pipe, water in the pipeline enters the collecting pipe, and then the effect that the collecting pipe collects the water in the pipeline is achieved.

Optionally, a rubber sheet is arranged in the pipeline, the rubber sheet is used for sealing a communication position between the pipeline and the collecting pipe, the rubber sheet meets one side, inserted into the collecting pipe, of the control sheet and is fixedly connected with the pipeline, and the rubber sheet is abutted against the control sheet.

By adopting the technical scheme, when the first air cylinder is operated to drive the control sheet, the control sheet and the collecting pipe slide relatively, so that the rubber sheet and the control sheet move relatively, and when the control sheet opens the communication between the pipeline and the collecting pipe, the rubber sheet moves into the collecting pipe under the action of self gravity, so that water in the pipeline can enter the collecting pipe; after the control sheet closes the communication between the pipeline and the collecting pipe, the rubber sheet is abutted against the control sheet, and the sealing performance of the communication position between the collecting pipe and the pipeline is further improved.

Optionally, each collecting pipe is provided with a groove body, the groove body is provided with a plurality of water permeable holes, and calcium chloride is placed in the groove body.

Through adopting above-mentioned technical scheme, the air conditioner body stop work back, operates first cylinder for control piece is with pipeline and collecting pipe intercommunication, thereby makes the moisture of calcium chloride in to the pipeline air absorb, and the hole of permeating water on the cell body of calcium chloride absorbing falls into the collecting pipe, and comparatively moist condition takes place in the pipeline in the further reduction, and then reaches the condition emergence of breeding the bacterium in the further reduction pipeline.

Optionally, the pipe orifice of one end of the air conditioner body far away from the pipeline is provided with an adjusting component, and the adjusting component is used for adjusting the air output of the pipeline.

Through adopting above-mentioned technical scheme, the during operation of air conditioner body, during the cold air admission pipeline that the air conditioner body produced, make then cold air move to indoorly through the pipeline, when cold air moves to indoorly through the pipeline, the user can be through adjusting part, realizes getting into indoor cold air volume, and then reaches the flexibility that increases bacterial inhibition type air conditioning equipment.

Optionally, the adjusting part includes control panel, connecting plate and a plurality of toper piece, a plurality of bleeder vents have all been seted up on connecting plate and the control panel, one the toper piece corresponds a bleeder vent setting on the control panel, every the toper piece all sets up the one side that deviates from the connecting plate at the control panel, every the equal fixedly connected with connecting rod of one end that the toper piece is sharp form, the one end that the toper piece was kept away from to the connecting rod all pass the bleeder vent and with connecting plate fixed connection, be provided with a plurality of second cylinders on the control panel, every the cylinder body and the control panel fixed connection of second cylinder, every the piston rod and the connecting plate fixed connection of second cylinder, the connecting plate sets up in the pipeline, the control panel is located fixed connection with the mouth of pipe of pipeline.

By adopting the technical scheme, when the air conditioner body stops working, the second air cylinder is started, drives the connecting plate, the connecting plate moves towards the direction far away from the control panel, the connecting plate drives the connecting rod to move, the connecting rod drives the conical block to move, and the conical block blocks the air holes in the control panel, so that indoor dust is prevented from entering a pipeline; when the air conditioner body is in operation, the second cylinder is started, the second cylinder carries out reverse drive on the connecting plate, the connecting plate moves towards the direction close to the control plate, the control plate drives the connecting rod to move, the connecting rod drives the conical block to move, the conical block is separated from the air holes, cold air in the pipeline passes through the air holes in the connecting plate to enter the space between the connecting plate and the control plate, finally, cold air between the connecting plate and the control plate enters the room through the air holes in the control plate, and when a worker adjusts the amount of cold air moving out of the pipeline, the cold air in the pipeline can be moved to the indoor amount by controlling the length of the air holes in the conical block inserted in the control plate.

Optionally, the aperture of the air hole in the control plate is gradually reduced, and the diameter of the end, close to the connecting plate, of the air hole in the control plate is smaller than the diameter of the end, far away from the connecting plate, of the air hole.

Through adopting above-mentioned technical scheme, set up the aperture of bleeder vent to gradually dwindle, can make the bleeder vent perfect adaptation on toper piece and the control panel, increase the leakproofness of bleeder vent on toper piece and the control panel, reduce the air conditioner body when stopping working, the condition that indoor dust got into in the pipeline takes place.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the air conditioner comprises an air conditioner body, a pipeline connected with the air conditioner body and a dehumidifying assembly in the pipeline, wherein the dehumidifying assembly dehumidifies the pipeline, so that the occurrence of the situation that the pipeline is wet is reduced, the situation that bacteria are easy to breed in the pipeline is reduced, and the damage to the body of a user when the antibacterial purification type air conditioning device works is reduced;

2. by arranging the plurality of collecting pipes, the pipelines are bent, each collecting pipe is fixedly connected with the lowest point of each pipeline and is communicated with the interior of each pipeline, and water generated by cold air in the pipelines enters the collecting pipes and is collected in the collecting pipes, so that the occurrence of the damp condition in the pipelines is reduced, and the occurrence of the condition that bacteria are easy to breed in the pipelines is further reduced;

3. set up the ultrasonic humidifier through the one end of keeping away from the pipeline at every collecting pipe, can make the ultrasonic humidifier utilize the water of gathering in the collecting pipe, and then increase indoor humidity.

Drawings

Fig. 1 is a schematic structural diagram of an antibacterial purification type air conditioning device according to an embodiment of the present application;

fig. 2 is a partial structural sectional view of the bacteriostatic purification type air conditioning device according to the embodiment of the present application, mainly showing a control assembly;

fig. 3 is a partial structural sectional view of the bacteriostatic purification type air conditioning device according to the embodiment of the present application, mainly showing a conditioning assembly.

Description of reference numerals: 100. an air conditioner body; 200. a pipeline; 300. a dehumidification assembly; 310. a collection pipe; 311. an ultrasonic humidifier; 320. a trough body; 321. water permeable holes; 322. calcium chloride; 400. a control component; 410. a control sheet; 411. a rubber sheet; 420. a first cylinder; 500. an adjustment assembly; 510. a control panel; 511. air holes are formed; 520. a connecting plate; 521. a second cylinder; 530. a conical block; 531. a connecting rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses antibacterial purification type air conditioning equipment.

Referring to fig. 1, an antibacterial purification type air conditioning device includes an air conditioner body 100 and a duct 200, one end of the duct 200 is fixedly connected to an air outlet of the air conditioner body 100, and the duct 200 is communicated with the air outlet of the air conditioner body 100. In order to reduce the occurrence of the wet condition inside the pipeline 200, the pipeline 200 is provided with the dehumidifying assembly 300, and the dehumidifying assembly 300 dehumidifies the pipeline 200 so as to reduce the occurrence of the bacteria breeding in the pipeline 200 caused by the wet pipeline 200.

In order to achieve the dehumidifying effect of the duct 200, the duct 200 is bent along the length direction thereof, and when the duct 200 is horizontally placed, the duct 200 has a plurality of lowest points. The dehumidifying module 300 includes a plurality of collecting pipes 310, one collecting pipe 310 is disposed corresponding to a lowest point on the pipe 200, one end of each collecting pipe 310 is fixedly connected to the pipe 200, and the inside of the collecting pipe 310 communicates with the inside of the pipe 200. When the cold air moves in the pipeline 200, the cold air may be liquefied into water in the pipeline 200, and then the water in the pipeline 200 enters the collecting pipe 310 along the bending direction of the pipeline 200, so that the water is collected in the pipeline 200, the occurrence of the damp condition in the pipeline 200 is reduced, and finally the occurrence of the condition that bacteria are easy to breed in the pipeline 200 is reduced.

Since the pipeline 200 is generally required to be installed to the indoor ceiling when the bacteriostatic and purifying type air conditioning device is installed, when a large amount of water is collected in the collecting pipe 310, it is inconvenient for workers to clean the water inside the collecting pipe 310, so that how to utilize the water in the collecting pipe 310 becomes another problem to be solved.

In order to utilize water in the collecting pipes 310, an ultrasonic humidifier 311 is fixedly connected to one end of the bottom of each collecting pipe 310, and the ultrasonic humidifier 311 is communicated with the inside of the collecting pipe 310. When the water in the collecting pipe 310 is more, the ultrasonic humidifier 311 is started, the ultrasonic humidifier 311 utilizes the water in the collecting pipe 310, so that the water in the collecting pipe 310 is sprayed to the indoor environment in a foggy mode, on one hand, the effect of utilizing the water in the collecting pipe 310 is achieved, on the other hand, the indoor air humidity is increased, and the comfort level of the indoor environment is increased.

Referring to fig. 1 and 2, in order to further reduce the humidity in the pipeline 200, a groove 320 is fixedly connected to each collecting pipe 310, the groove 320 is located at a nozzle of the collecting pipe 310 near one end of the pipeline 200, and a notch of the groove 320 is arranged towards the pipeline 200. The trough body 320 is provided with a plurality of water permeable holes 321, and granular calcium chloride 322 is arranged in the trough body 320. The calcium chloride 322 absorbs the moisture in the air in the pipeline 200, and the moisture absorbed by the calcium chloride 322 falls into the collecting pipe 310 through the water permeable holes 321 on the tank body 320, so that the existence of humid air in the pipeline 200 is reduced, and the effect of further reducing the humidity in the pipeline 200 is achieved.

In order to reduce the influence on the collecting pipe 310 when cold air flows in the pipeline 200, the bacteriostatic purification type air conditioning device further comprises a plurality of groups of control assemblies 400, wherein one group of control assemblies 400 is arranged corresponding to one collecting pipe 310, each group of control assemblies 400 comprises a control sheet 410 and a first air cylinder 420, each first air cylinder 420 is arranged in parallel to the control sheet 410, and a piston rod of each first air cylinder 420 is fixedly connected with one end of the control sheet 410. The control sheet 410 is located at a position where the collecting pipe 310 is communicated with the pipeline 200, the control sheet 410 is arranged perpendicular to the central axis of the collecting pipe 310, one end, away from the first air cylinder 420, of the control sheet 410 is inserted into the collecting pipe 310, and the cylinder body of the first air cylinder 420 is fixedly connected with the pipeline 200. When the piston rod of the first cylinder 420 moves, the piston rod drives the control plate 410 to move, and the control plate 410 slides relative to the collection tube 310.

When the air conditioner body 100 works, the first air cylinder 420 is started, so that the control sheet 410 closes the communication between the collecting pipe 310 and the pipeline 200, the condition that cold air in the pipeline 200 enters the collecting pipe 310 is reduced, and the condition that the cold air enters the collecting pipe 310 and carries away water in the collecting pipe 310 is reduced. After the air conditioner body 100 stops working, the first cylinder 420 is started, the first cylinder 420 drives the control sheet 410 in a reverse direction, the control sheet 410 opens the communication between the pipeline 200 and the collecting pipe 310, air in the pipeline 200 enters the collecting pipe 310, and then the calcium chloride 322 collects moisture in the air, and finally the occurrence of damp in the pipeline 200 is reduced.

In order to increase the sealing performance between the collecting pipe 310 and the pipe 200 after the control sheet 410 closes the communication between the pipe 200 and the collecting pipe 310, a rubber sheet 411 is arranged in the pipe 200, and the rubber sheet 411 is arranged at the communication position between the pipe 200 and the collecting pipe 310. The rubber sheet 411 meets one side of the control sheet 410 inserted into the collecting pipe 310 and is fixedly connected with the pipeline 200, and the rubber sheet 411 is abutted against the control sheet 410. When the control sheet 410 opens the communication between the pipeline 200 and the collecting pipe 310, and when the control sheet 410 slides relative to the collecting pipe 310, the control sheet 410 slides relative to the rubber sheet 411, and after the control sheet 410 opens the communication between the pipeline 200 and the collecting pipe 310, the rubber sheet 411 props against the groove body 320, so that the situation that water in the pipeline 200 directly contacts with calcium chloride 322 when entering the collecting pipe 310 is reduced, and the water absorption of the calcium chloride 322 is further ensured. When the control piece 410 closes the communication between the pipe 200 and the collection pipe 310, the rubber piece 411 abuts against the control piece 410, and finally the rubber piece 411 seals the communication position between the pipe 200 and the collection pipe 310.

Referring to fig. 1 and 3, in order to facilitate the user to control the amount of cold air moving out of the duct 200, an adjusting assembly 500 is disposed at a nozzle of one end of the duct 200, which is far away from the air conditioner body 100, the adjusting assembly 500 includes a control plate 510, a connecting plate 520 and a plurality of conical blocks 530, a plurality of air holes 511 are formed in the control plate 510 and the connecting plate 520, and the control plate 510 and the connecting plate 520 are arranged in parallel. The number of the vent holes 511 formed on the control board 510 is equal to the number of the conical blocks 530, and one conical block 530 is arranged corresponding to one vent hole 511 on the control board 510. A plurality of tapered blocks 530 are each disposed on a side of the control plate 510 facing away from the connection plate 520. The pointed end of each conical block 530 is fixedly connected with a connecting rod 531, one end of each connecting rod 531 far away from the conical block 530 penetrates through the corresponding air hole 511, and one end of each connecting rod 531 far away from the conical block 530 is fixedly connected with the connecting plate 520.

The side of the control plate 510 facing the connecting plate 520 is provided with a plurality of second air cylinders 521, the cylinder body of each second air cylinder 521 is vertically and fixedly connected with the control plate 510, and the piston rod of each second air cylinder 521 is vertically and fixedly connected with the connecting plate 520. The control plate 510 is fixedly connected with the pipe orifice of the pipe 200, and the connecting plate 520 is arranged in the pipe 200.

When the air output of the pipeline 200 is adjusted, the second cylinder 521 is started, the second cylinder 521 drives the connecting plate 520, the connecting plate 520 drives the connecting rod 531 to move, the connecting rod 531 drives the conical block 530 to move, the length of the conical block 530 inserted into the air holes 511 on the control panel 510 changes, and therefore the effective air output area of the air holes 511 on the control panel 510 changes, the air output adjustment of the pipeline 200 is achieved, and finally the purpose that a user can conveniently control the amount of cold air generated by movement in the pipeline 200 is achieved.

When the air conditioner body 100 works, the second cylinder 521 is started, the second cylinder 521 drives the connecting plate 520, the conical block 530 slides relative to the air holes 511 on the control plate 510, the conical block 530 is separated from the air holes 511 on the control plate 510, the air holes 511 on the control plate 510 are opened, cold air in the pipeline 200 passes through the air holes 511 on the connecting plate 520 and enters between the connecting plate 520 and the control plate 510, and cold air between the connecting plate 520 and the control plate 510 passes through the air holes 511 on the control plate 510 and enters a room and cools the room.

When the air conditioner body 100 works, the second cylinder 521 is started, the second cylinder 521 reversely drives the connecting plate 520, the connecting plate 520 drives the conical block 530 to move, the conical block 530 slides relative to the air holes 511 on the control plate 510, so that the conical block 530 is abutted to the air holes 511 on the control plate 510, namely the conical block 530 closes the air holes 511 on the control plate 510, the situation that indoor dust enters the pipeline 200 through the air holes 511 on the control plate 510 is reduced, and finally the effect of reducing pollution of the dust to the pipeline 200 is achieved.

Referring to fig. 1 and 3, after the air holes 511 of the control plate 510 are closed by the tapered block 530, the diameter of the air holes 511 of the control plate 510 has a tendency to gradually decrease, and the diameter of the air holes 511 of the control plate 510 near the connecting plate 520 is a, and the diameter of the air holes 511 of the control plate 510 far from the connecting plate 520 is B, B > a. After the air holes 511 on the control board 510 are closed by the conical block 530, the peripheral side surface of the conical block 530 is abutted against the hole walls of the air holes 511, so that the effect of increasing the sealing property between the conical block 530 and the air holes 511 on the control board 510 is achieved.

The implementation principle of the bacteriostatic purification type air conditioning device in the embodiment of the application is as follows: when the antibacterial purifying type air conditioning device is used, the second cylinder 521 is started, the second cylinder 521 drives the connecting plate 520, the connecting plate 520 moves towards the direction close to the control plate 510, and the conical block 530 is separated from the air holes 511 on the control plate 510. The air conditioner body 100 is started, the air conditioner body 100 generates cold air, the cold air enters the duct 200, the cold air in the duct 200 passes through the ventilation holes 511 on the connection plate 520 and enters between the connection plate 520 and the control plate 510, and the cold air entering between the connection plate 520 and the control plate 510 moves indoors through the ventilation holes 511 on the control plate 510.

After the operation of the air conditioner body 100 is stopped, the second cylinder 521 is started, so that the second cylinder 521 reversely drives the connection plate 520, the tapered block 530 is inserted into the ventilation hole 511 of the control plate 510, and the tapered block 530 blocks the ventilation hole 511 of the control plate 510. When the first cylinder 420 is activated, the first cylinder 420 drives the control plate 510, the control plate 510 slides relative to the collecting pipe 310, and the control plate 510 slides relative to the rubber sheet 411. After the control plate 510 opens the communication between the pipe 200 and the collection pipe 310, the rubber sheet 411 abuts on the end of the control sheet 410 inserted into the collection pipe 310, and the rubber sheet 411 rests on the groove 320, and the water in the pipe 200 enters the collection pipe 310 and is collected in the collection pipe 310. The moist air in the pipe 200 enters the collecting pipe 310, the calcium chloride 322 absorbs the moisture in the air and the water in the calcium chloride 322 falls into the collecting pipe 310 through the water permeable hole 321.

When the water in the collecting pipe 310 is more, the ultrasonic humidifier 311 is started, and the ultrasonic humidifier 311 utilizes the water in the collecting pipe 310, so that the water in the collecting pipe 310 is sprayed into a room from the ultrasonic humidifier 311 in a mist shape, and finally the effect of humidifying the room is achieved. After the ultrasonic humidifier 311 utilizes the water in the collecting pipe 310, the occurrence of moisture in the pipeline 200 is reduced, and further the occurrence of the situation that bacteria are easy to breed in the pipeline 200 is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an antibacterial purification type air conditioning equipment which characterized in that: including air conditioner body (100) and pipeline (200) of fixed connection in air conditioner body (100) air outlet department, the air outlet intercommunication of pipeline (200) and air conditioner body (100), be provided with dehumidification subassembly (300) that are used for carrying out the dehumidification to pipeline (200) on pipeline (200).

2. The bacteriostatic and purifying air conditioning device according to claim 1, characterized in that: the dehumidification assembly (300) comprises a plurality of collecting pipes (310), the pipes (200) are arranged in a bending mode, one lowest point of the pipe (200) corresponding to one collecting pipe (310) is arranged, each collecting pipe (310) is fixedly connected with the pipe (200), and the interior of each collecting pipe (310) is communicated with the interior of the pipe (200).

3. The bacteriostatic and purifying type air conditioning device according to claim 2, characterized in that: every one end that pipeline (200) were kept away from in collecting pipe (310) all fixedly connected with ultrasonic humidifier (311), ultrasonic humidifier (311) and collecting pipe (310) inside intercommunication.

4. The bacteriostatic and purifying type air conditioning device according to claim 2, characterized in that: the device is characterized by further comprising a plurality of groups of control assemblies (400), wherein one group of control assemblies (400) is arranged corresponding to one collecting pipe (310), and each group of control assemblies (400) is used for controlling the communication and the closing of the pipeline (200) and the collecting pipe (310).

5. The bacteriostatic and purifying type air conditioning device according to claim 4, characterized in that: the control assembly (400) comprises a control sheet (410) and a first air cylinder (420) with a piston rod fixedly connected to one end of the control sheet (410), one end of the control sheet (410) is inserted into the collecting pipe (310) and used for controlling the communication and closing of the collecting pipe (310) and the pipeline (200), and the cylinder body of the first air cylinder (420) is fixedly connected with the pipeline (200).

6. The bacteriostatic and purifying type air conditioning device according to claim 5, characterized in that: the pipeline (200) is internally provided with a rubber sheet (411), the rubber sheet (411) is used for sealing the communication position of the pipeline (200) and the collecting pipe (310), the rubber sheet (411) meets one side, inserted into the collecting pipe (310), of the control sheet (410) and is fixedly connected with the pipeline (200), and the rubber sheet (411) is abutted to the control sheet (410).

7. The bacteriostatic and purifying type air conditioning device according to claim 2, characterized in that: each collecting pipe (310) is internally provided with a groove body (320), the groove body (320) is provided with a plurality of water permeable holes (321), and calcium chloride (322) is placed in the groove body (320).

8. The bacteriostatic and purifying air conditioning device according to claim 1, characterized in that: the utility model discloses an air conditioner, including pipeline (200), air conditioner body (100), the mouth of pipe department of keeping away from one end of pipeline (200) is provided with adjusting part (500), adjusting part (500) are used for adjusting the air output of pipeline (200).

9. The bacteriostatic and purifying air conditioning device according to claim 8, characterized in that: the adjusting assembly (500) comprises a control plate (510), a connecting plate (520) and a plurality of conical blocks (530), wherein a plurality of air holes (511) are formed in the connecting plate (520) and the control plate (510), one conical block (530) is arranged corresponding to one air hole (511) in the control plate (510), each conical block (530) is arranged on one side, deviating from the connecting plate (520), of the control plate (510), a connecting rod (531) is fixedly connected to one end, in a pointed shape, of each conical block (530), one end, far away from the conical block (530), of the connecting rod (531) penetrates through the air holes (511) and is fixedly connected with the connecting plate (520), a plurality of second air cylinders (521) are arranged on the control plate (510), the cylinder body of each second air cylinder (521) is fixedly connected with the control plate (510), and the piston rod of each second air cylinder (521) is fixedly connected with the connecting plate (520), the connecting plate (520) is arranged in the pipeline (200), and the control plate (510) is fixedly connected with the pipe orifice of the pipeline (200).

10. The bacteriostatic and purifying air conditioning device according to claim 9, characterized in that: the diameter of the air holes (511) on the control plate (510) is gradually reduced, and the diameter of one end, close to the connecting plate (520), of the air holes (511) on the control plate (510) is smaller than that of one end, far away from the connecting plate (520), of the air holes (511).

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