CN116080360A - Vehicle humidifying device with air filtering function - Google Patents

Abstract

The invention relates to the technical field of vehicle humidification, in particular to a vehicle humidification device with an air filtering function, which comprises a positioning structure, wherein the positioning structure comprises a base, the upper end of the base is provided with a filtering humidification bin, the upper part of the filtering humidification bin is a humidification bin, a first opening is formed in the wall surface of the humidification bin, the lower part of the filtering humidification bin is a filtering bin, a cross baffle is arranged in the filtering bin, the middle part of the cross baffle is annular, a filtering device is arranged in the filtering bin, a dehumidifying device is arranged in the humidification bin, the lower end of the dehumidifying device is provided with a water storage structure, the dehumidifying device is communicated with the water storage structure, and atomizing equipment communicated with the water storage structure is arranged at the first opening of the humidification bin; the invention is provided with the dehumidifying device, the water storage structure and the atomizing equipment, the dehumidifying device and the water storage structure recover water in the air in the vehicle, and the atomizing equipment atomizes and sprays the condensed water into the air, so that the water vapor in the air in the vehicle is recycled to humidify the air.

Description

Vehicle humidifying device with air filtering function

Technical Field

The invention relates to the technical field of vehicle humidification, in particular to a vehicle humidification device with an air filtering function.

Background

A humidifier is a home appliance that increases the humidity of a room. The humidifier can humidify a designated room, and can also be connected with a boiler or a central air conditioning system to humidify the whole building. At present, a plurality of automobile interior humidifier is needed, the air in the automobile can be humidified, the air in the automobile is kept moist, but the automobile can generate unpleasant gas in the automobile due to insolation or smoking in the automobile, and the unpleasant gas is difficult to discharge, so that passengers breathe in air with poor quality, and the health is influenced.

The invention discloses a humidifying device with an air filtering function for an automobile, which comprises a filtering device arranged at the bottom and a humidifier arranged at the upper part, wherein the filtering device and the humidifier work independently, the filtering device pumps air in the automobile into the humidifying device for the automobile, the air is directly discharged into the automobile after being filtered, the humidifier needs to add a sufficient water source before use, the humidifier continuously humidifies the air in the automobile in the working process, and the filtering device cannot dehumidify the air pumped into the humidifying device for the automobile and recover moisture in the air, so that the humidity of the air in the automobile can be gradually increased, and the riding environment of drivers and passengers is influenced; this prior art only has the humidification function, under the great circumstances of in-car humidity itself, can not provide and adjust in-car humidity to influence the travelling comfort of taking the environment.

Other vehicle humidification mechanisms in the prior art are usually integrated in the vehicle body itself, and have no flexibility. And humidification mechanism, dehumidification mechanism and filtering mechanism etc. are all scattered setting, do not accomplish integrated design, just can not provide the nimble configuration of user and use yet.

Disclosure of Invention

According to the invention, the dehumidifying device, the water storage structure and the atomizing equipment are arranged, the dehumidifying device and the water storage structure are used for recycling water in air in a vehicle, and the atomizing equipment is used for atomizing and spraying condensed water into the air, so that the air is humidified by circularly utilizing water vapor in the air in the vehicle, and the problem that the humidity of the air in the vehicle is increased due to excessive atomization of a water source by the atomizing equipment, and the riding environment of drivers and passengers is influenced is solved. And this automobile-used humidification device is with highly integrated integrative designs such as humidification mechanism, dehumidification mechanism and filtering mechanism, and the structure is small and exquisite, and is multiple functional, can make things convenient for the user to freely nimble configuration and use.

In order to solve the problems in the prior art, the invention adopts the following technical scheme:

the utility model provides a vehicle humidification device with air filtering function, including being used for installing the vehicle humidification device at the location structure in the car, location structure is including inserting the base in the drinking cup seat, the upper end of base is provided with the filtration humidification storehouse, the upper portion of filtration humidification storehouse is the humidification storehouse, first opening has been seted up on the wall of humidification storehouse, the lower part of filtration humidification storehouse is the filtration storehouse, be provided with the cross baffle in the filtration storehouse, the middle part of cross baffle is the ring, a plurality of first gas pocket has been seted up on the wall of ring, be provided with the filter equipment who is used for filtering air in the filtration storehouse, be provided with the dehydrating unit who is arranged in getting rid of filtered air in the humidification storehouse, dehydrating unit's lower extreme is provided with the water storage structure that is used for storing the comdenstion water, dehydrating unit and water storage structure intercommunication, the first opening part of humidification storehouse is provided with the atomizing equipment with the water storage structure intercommunication.

Preferably, the dehumidification device comprises a gas guide cover, the cross section of the gas guide cover is small in top and large in bottom, a plurality of dehumidification structures are arranged on the periphery of the annular array at the upper end of the gas guide cover, the dehumidification structures comprise a condensation bin, the condensation bin is obliquely arranged towards the periphery of the gas guide cover, spiral cooling sheets for cooling air are arranged in the condensation bin, connectors are arranged at two ends of the condensation bin, the spiral cooling sheets are limited in the condensation bin by the two connectors, one higher end of the condensation bin is communicated with the gas guide cover, a U-shaped pipe is arranged at one lower end of the condensation bin, openings at two ends of the U-shaped pipe are vertically upwards arranged, a first water outlet is formed in the bottom of the U-shaped pipe, an adapter is arranged between one end of the U-shaped pipe, which is close to the condensation bin, an air outlet pipe is arranged at the other end of the U-shaped pipe, one end of the air outlet pipe is communicated with the U-shaped pipe, and the other end of the air outlet pipe upwards extends out of the top of the humidification bin.

Preferably, the first water outlet is provided with a liquid storage structure, the liquid storage structure comprises a liquid storage pipe, the liquid storage pipe is communicated with the first water outlet of the U-shaped pipe, an annular baffle is arranged on the inner wall of the liquid storage pipe, a through hole is formed in the middle of the annular baffle, a floating block is arranged at the upper end of the annular baffle, the diameter of the floating block is consistent with the inner diameter of the liquid storage pipe, and a square groove is formed in the outer circumferential surface of the floating block.

Preferably, the lower extreme of annular separation blade is provided with the dog, and the middle part of dog is provided with vertical ascending connecting rod, and the lower extreme and the dog of connecting rod are connected, and the upper end of connecting rod passes the middle part of the through-hole kicking block on the annular separation blade and is connected, and the cover is equipped with pressure spring on the connecting rod, and pressure spring's one end is connected with the upper surface of dog, and pressure spring's the other end is connected with the lower surface of annular separation blade.

Preferably, the filter equipment includes filter equipment, filter equipment has four, four filter equipment annular arrays are on the cross baffle, filter equipment includes the filter core, the outside of filter core is provided with the shell, a plurality of second gas pocket has been seted up on the inside wall of shell, a plurality of air inlet tank has been seted up on the outside wall of shell, the both ends of the outside wall of shell are provided with the handle, the inside of the ring form of cross baffle is provided with the suction mechanism that is used for extracting air, suction mechanism includes driving motor and flabellum, driving motor sets up the lower extreme at the filtration storehouse, driving motor's output shaft upwards passes the bottom in filtration storehouse, flabellum and driving motor's output shaft, the middle part of the upper surface of base is provided with the first installation storehouse that is used for installing driving motor.

Preferably, the upper end of the fan blade is provided with a heating plate for heating air.

Preferably, the water storage structure comprises a ring-shaped water storage tank, the ring-shaped water storage tank surrounds the periphery of the lower part of the air guide cover, the lower half part of the ring-shaped water storage tank is obliquely arranged, the lower part of the ring-shaped water storage tank is provided with a mounting seat, the bottom of the mounting seat is connected with the bottom of the humidifying bin, the upper half part of the mounting seat is obliquely arranged, the upper half part of the mounting seat is mutually matched with the lower half part of the ring-shaped water storage tank, a plurality of butt joints and a second water outlet are formed in the upper surface of the ring-shaped water storage tank, and the second water outlet is arranged on one side of the ring-shaped water storage tank, which is close to the first opening of the humidifying bin.

Preferably, a water filling port is formed in the side face of the annular water storage tank, the water filling port is arranged on one side, far away from the first opening of the humidifying bin, of the annular water storage tank, and a rubber plug is arranged on the water filling port.

Preferably, the atomizing equipment comprises an atomizer, the lower end of the atomizer is provided with a water pumping pipe, the upper end of the water pumping pipe is communicated with the atomizer, the lower end of the water pumping pipe penetrates through the second water outlet to penetrate deep into the bottom of the annular water storage tank, the upper end of the atomizer is provided with an exhaust pipe, the lower end of the exhaust pipe is communicated with the atomizer, and the upper end of the exhaust pipe upwards penetrates through the top of the humidifying bin.

Preferably, a plurality of second installation bins are arranged on the circumferential surface of the base in an annular array mode, telescopic blocks are slidably arranged in the second installation bins, elastic telescopic rods are arranged between the telescopic blocks and the bottoms of the second installation bins, one ends of the elastic telescopic rods are connected with the base, and the other ends of the elastic telescopic rods are connected with one sides, facing the base, of the telescopic blocks.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention is provided with the filtering device, the dehumidifying device, the water storage structure and the atomizing equipment, the filtering device filters and purifies the air, the dehumidifying device and the water storage structure recover the water in the air in the vehicle, and the atomizing equipment atomizes and sprays the condensed water into the air, so that the air in the vehicle can be humidified only by providing a small amount of extra water source for the atomizing equipment, the air is humidified by recycling the water vapor in the air in the vehicle, the air humidity in the vehicle is prevented from being increased due to the excessive atomization of the water source by the atomizing equipment, the air humidity and the cleanliness in the vehicle are effectively regulated, and the riding environment comfort of drivers and passengers is improved.

2. The invention integrates the humidifying mechanism, the dehumidifying mechanism, the filtering mechanism and the like into a whole, has small structure and complete functions, and can be freely and flexibly configured and used by a user.

3. According to the invention, the dehumidifying structure is arranged, air enters the dehumidifying structure with the circumferential annular array, the temperature of the surface of the spiral cooling fin is reduced, air entering the condensing bin is inclined and falls along the spiral cooling fin under the pushing of air at the rear, heat exchange is carried out between the air and the spiral cooling fin, the temperature of the air is reduced, water vapor in the air sinks and adheres to the spiral cooling fin to form water drops, the dried air enters from one end of the U-shaped pipe, then enters the air outlet pipe from the other end of the U-shaped pipe, and is discharged out of the humidifying device for a vehicle upwards along with the air outlet pipe, and water drops on the spiral cooling fin are gathered and increased to form fine water flow along the spiral cooling fin to flow into the U-shaped pipe, and then the water flow is gathered into the water storage structure from the first water outlet, so that the water vapor in the purified air is recovered, and dust, bacteria and the like in the air are prevented from being accumulated in the filter device after being liquefied by the dehumidifying structure, and secondary pollution is caused.

Drawings

Fig. 1 is a front view of a humidifying device for a vehicle having an air filtering function;

FIG. 2 is a cross-sectional view at A-A of FIG. 1;

fig. 3 is a perspective view of a humidifying device for a vehicle having an air filtering function;

fig. 4 is a perspective view of a dehumidifying apparatus in a humidifying apparatus for vehicles having an air filtering function;

fig. 5 is an exploded view of a dehumidifying structure in a humidifying device for vehicles having an air filtering function;

fig. 6 is an exploded view of a liquid storage structure in a humidifying device for vehicles having an air filtering function;

fig. 7 is a sectional view of a liquid storage tube in a humidifying device for vehicles having an air filtering function;

fig. 8 is a perspective view of a filter device in a humidifying device for a vehicle having an air filtering function;

fig. 9 is a perspective view of a filter device in a vehicle humidification device having an air filtering function;

fig. 10 is a perspective view of a filter structure in a humidifying device for vehicles having an air filtering function;

fig. 11 is a perspective view of a gas cap and a water storage structure in a humidifying device for a vehicle having an air filtering function;

FIG. 12 is a partial enlarged view at B in FIG. 11;

fig. 13 is a perspective view of a telescopic block and an elastic telescopic rod of a humidifying device for a vehicle having an air filtering function.

The reference numerals in the figures are:

1-a positioning structure;

11-a base; 111-a first mounting bin; 112-a second mounting bin;

12-a telescopic block;

13-an elastic telescopic rod;

2-filtering and humidifying bin;

21-a humidifying bin;

22-a filter bin; 221-cross partition; 2211—a first air hole;

3-a filtration device;

31-a filtration structure; 311-filter element; 312-a housing; 3121-a second air hole; 3122-inlet slots; 313-handle;

32-an air suction mechanism; 321-driving a motor; 322-fan blades;

33-heating plate;

4-a dehumidifying device;

41-an air guide cover;

42-dehumidifying structure; 421-condensing bin; 422-spiral cooling fins; 423-connectors; 424-U-shaped tube; 4241-a first water outlet; 425-adapter; 426-an outlet tube;

43-a reservoir structure; 431-a liquid storage tube; 4311-annular baffles; 432-floating blocks; 4321-square grooves; 433-stop; 434-a connecting rod; 435-a pressure spring;

5-a water storage structure;

51-a ring-shaped water storage tank; 511-pair interface; 512-a second water outlet; 513-water filling port;

52-mounting seats;

53-rubber stopper;

6-atomizing equipment; 61-atomizer; 62-a water pumping pipe; 63-exhaust pipe.

Detailed Description

The invention will be further described in detail with reference to the drawings and the detailed description below, in order to further understand the features and technical means of the invention and the specific objects and functions achieved.

Referring to fig. 1 to 13, there is shown: the utility model provides a vehicle humidification device with air filtering function, including being used for installing vehicle humidification device in the location structure 1 in the car, location structure 1 is including inserting the base 11 in the drinking cup seat, the upper end of base 11 is provided with filters humidification storehouse 2, the upper portion of filtering humidification storehouse 2 is humidification storehouse 21, first opening has been seted up on the wall of humidification storehouse 21, the lower part of filtering humidification storehouse 2 is filtration storehouse 22, be provided with cross baffle 221 in the filtration storehouse 22, the middle part of cross baffle 221 is the ring shape, a plurality of first air vent 2211 has been seted up on the wall of ring, be provided with the filter equipment 3 that is used for filtering air in the filtration storehouse 22, be provided with the dehydrating unit 4 that is used for getting rid of filtered air in the humidification storehouse 21, the lower extreme of dehydrating unit 4 is provided with the water storage structure 5 that is used for storing the comdenstion water, dehydrating unit 4 and water storage structure 5 intercommunication, the first opening part of humidification storehouse 21 is provided with the atomizing equipment 6 with water storage structure 5 intercommunication.

When a user uses the vehicle humidifying device, the base 11 is inserted into the water cup seat, then the power supply line is connected with the vehicle power supply, so that electric equipment in the vehicle humidifying device is electrified, the filtering device 3 works, air in the vehicle is firstly sucked into the filtering bin 22, then the filtering device 3 filters and purifies the air, the filtered and purified air enters the dehumidifying device 4 along the airflow channel, the dehumidifying device 4 reduces the temperature of the air passing through the dehumidifying device 4, water in the air sinks when meeting cold, condensed water is formed by condensation, the condensed water flows into the water storage structure 5, the atomizing device 6 atomizes and sprays the condensed water into the air, so that the air in the vehicle can be humidified only by a small amount of water source provided for the atomizing device 6, and the air is humidified by water vapor in the circulating vehicle, so that the air humidity in the vehicle is prevented from being increased due to excessive water source atomization of the atomizing device 6, and the environment of passengers is influenced.

Referring to fig. 2, 4 and 5, there is shown: the dehumidifying device 4 comprises an air guide cover 41, the cross section of the air guide cover 41 is in a shape of small upper part and large lower part, a plurality of dehumidifying structures 42 are arranged on the periphery of the annular array around the upper end of the air guide cover 41, the dehumidifying structures 42 comprise a condensing bin 421, the condensing bin 421 is obliquely arranged towards the periphery of the air guide cover 41, spiral cooling sheets 422 for cooling air are arranged in the condensing bin 421, connectors 423 are arranged at two ends of the condensing bin 421, the spiral cooling sheets 422 are limited in the condensing bin 421 by the two connectors 423, one higher end of the condensing bin 421 is communicated with the air guide cover 41, a U-shaped pipe 424 is arranged at the lower end of the condensing bin 421, openings at two ends of the U-shaped pipe 424 are vertically arranged upwards, a first water outlet 4241 is arranged at the bottom of the U-shaped pipe 424, an adapter 425 is arranged between one end, close to the condensing bin 421, of the U-shaped pipe 424 and the condensing bin 421, the other end of the U-shaped pipe 424 is provided with an air outlet pipe 426, one end of the air outlet pipe 426 is communicated with the U-shaped pipe 424, and the other end of the air outlet pipe 426 extends upwards out of the top of the humidifying bin 21.

The first water outlet 4241 of the U-shaped pipe 424 is communicated with the water storage structure 5, the adapter 425 is used for communicating the inclined condensation bin 421 with the vertical U-shaped pipe 424, the air guide cover 41 is in a shape of small upper part and large lower part, air filtered by the filtering device 3 rises upwards along the air guide cover 41, the air gradually gathers at the top of the air guide cover 41 along with the shape of the air guide cover 41, then purified air enters into the dehumidification structure 42 with annular arrays around, the temperature of the surface of the spiral cooling piece 422 is reduced, the air entering into the condensation bin 421 is inclined and falls along the spiral cooling piece 422 under the pushing of air at the rear, the air exchanges heat with the spiral cooling piece 422, the air temperature is reduced, water vapor in the air sinks and adheres to the spiral cooling piece 422 to form water drops, the dried air enters into the air outlet pipe 426 from one end of the U-shaped pipe 424, the air drops upwards flow out of the humidifying device along with the air outlet pipe 426, the water drops gathered on the spiral cooling piece 422 are increased, the fine water drops are formed to flow into the U-shaped pipe 424 along with the spiral cooling piece 422, the water drops gather into the first water outlet 4241, the water outlet 426 is further atomized into the water storage structure 6 is provided, and the water storage device is further provided, and the water vapor is recycled, the water storage device is further purified, the water storage device is partially is further provided.

Referring to fig. 4, 5, 6 and 7, there are shown: the first water outlet 4241 is provided with a liquid storage structure 43, the liquid storage structure 43 comprises a liquid storage pipe 431, the liquid storage pipe 431 is communicated with the first water outlet 4241 of the U-shaped pipe 424, an annular baffle 4311 is arranged on the inner wall of the liquid storage pipe 431, a through hole is formed in the middle of the annular baffle 4311, a floating block 432 is arranged at the upper end of the annular baffle 4311, the diameter of the floating block 432 is consistent with the inner diameter of the liquid storage pipe 431, and a square groove 4321 is formed in the outer circumferential surface of the floating block 432.

When the dry air passes through the lowest part of the U-shaped pipe 424, the dry air possibly overflows from the first water outlet 4241 and enters the water storage structure 5, so that the liquid storage structure 43 is arranged, when no or less condensed water exists in the liquid storage pipe 431, the gravity born by the floating block 432 is larger than the buoyancy born by the floating block, the floating block 432 covers the through hole in the middle of the annular baffle 4311, the condensed water is temporarily stored above the annular baffle 4311, when more condensed water above the annular baffle 4311 is collected, the buoyancy provided by the condensed water for the floating block 432 is larger than the gravity born by the floating block 432, the floating block 432 floats upwards and is separated from the annular baffle 4311, and the condensed water flows out from the through hole in the middle of the annular baffle 4311, so that the upper part of the through hole in the middle of the annular baffle 4311 is always isolated from the air, and the air is prevented from entering the water storage structure 5 from the first water outlet 4241.

Referring to fig. 6 and 7, it is shown that: the lower extreme of annular separation blade 4311 is provided with dog 433, and the middle part of dog 433 is provided with vertical ascending connecting rod 434, and the lower extreme of connecting rod 434 is connected with dog 433, and the upper end of connecting rod 434 passes the middle part of the through-hole floating block 432 on the annular separation blade 4311 and is connected, and the cover is equipped with pressure spring 435 on the connecting rod 434, and pressure spring 435's one end is connected with the upper surface of dog 433, and pressure spring 435's the other end is connected with annular separation blade 4311's lower surface.

When the condensed water at the liquid storage pipe 431 gathers too much, the floating block 432 floats upwards into the U-shaped pipe 424 and leaves the vertical projection range of the liquid storage pipe 431 under the pushing of the air flow, so that the floating block 432 cannot return to the initial position after the condensed water is reduced, therefore, by arranging the stop block 433, the connecting rod 434 and the pressure spring 435, the floating block 432 pulls the stop 433 to move upwards in the process of floating upwards under the buoyancy, the stop 433 and the annular baffle 4311 press the pressure spring 435, the pressure spring 435 limits the upward movement distance of the floating block 432, and meanwhile, when the floating block 432 is not subjected to the buoyancy, the floating block 432 is firmly positioned on the annular baffle 4311, so that the floating block 432 is reset after the condensed water is reduced, and the function of blocking the through hole on the annular baffle 4311 by the floating block 432 is played.

Referring to fig. 3, 8, 9 and 10, there are shown: the filtering device 3 comprises filtering structures 31, the filtering structures 31 are four, the four filtering structures 31 are annularly arranged on a cross partition 221, the filtering structures 31 comprise filter cores 311, a shell 312 is arranged outside the filter cores 311, a plurality of second air holes 3121 are formed in the inner side wall surface of the shell 312, a plurality of air inlet grooves 3122 are formed in the outer side wall surface of the shell 312, handles 313 are arranged at two ends of the outer side wall surface of the shell 312, an air suction mechanism 32 for extracting air is arranged in the annular inner part of the cross partition 221, the air suction mechanism 32 comprises a driving motor 321 and fan blades 322, the driving motor 321 is arranged at the lower end of a filtering bin 22, an output shaft of the driving motor 321 upwards penetrates through the bottom of the filtering bin 22, the fan blades 322 are connected with the output shaft of the driving motor 321, and a first installation bin 111 for installing the driving motor 321 is arranged in the middle of the upper surface of the base 11.

The second air hole 3121 on the shell 312 is communicated with the first air hole 2211 on the cross partition 221, when the vehicle humidifying device works, firstly, air in the vehicle is sucked, at this time, the driving motor 321 works, the driving motor 321 drives the fan blades 322 to rotate, so that the air pressure at the annular position of the cross partition 221 is reduced, the air pressure around the vehicle humidifying device is higher, the air in the vehicle can move towards the annular position of the cross partition 221, the air in the vehicle enters the shell 312 through the air inlet slot 3122 of the shell 312, is filtered through the filter element 311 in the shell 312, and is filtered to remove particulate matters, peculiar smell and the like in the air, then the air enters the middle part of the cross partition 221 through the second air hole 3121 and the first air hole 2211, and moves towards the dehumidifying device 4 under the blowing of the driving motor 321 and the fan blades 322, so that the air sucked into the vehicle humidifying device is purified and discharged into the vehicle is realized, and the circulating purification of the air in the vehicle is realized.

Referring to fig. 2 and 8, it is shown that: the upper end of the fan blade 322 is provided with a heating plate 33 for heating air.

The heating plate 33 is arranged at the extreme end of the operation of the filtering device 3, the probability that the heating plate 33 contacts with air with dust is greatly reduced, the surface of the heating plate 33 is kept clean, the working efficiency of the heating plate can be ensured, the surface of the spiral cooling plate 422 cannot be prevented from being attached with an ice layer due to the fact that the surface of the spiral cooling plate 422 is kept in a low-temperature state in the long-time use process, the ice layer is thickened along with time accumulation, the efficiency of air flowing through the spiral cooling plate 422 is affected, the heating plate 33 is started after the humidifying device for vehicles is used for a period of time, the temperature of the heating plate 33 is increased, the air flowing through is heated, and heat exchange is carried out between the air with the high temperature through the spiral cooling plate 422 and the spiral cooling plate 422, so that ice cubes on the surface of the spiral cooling plate 422 can be melted, and the cooling efficiency of the air flowing through the spiral cooling plate 422 can be kept.

Referring to fig. 1, 2 and 11, there is shown: the water storage structure 5 comprises a ring-shaped water storage tank 51, the ring-shaped water storage tank 51 surrounds the periphery of the lower part of the air guide cover 41, the lower half part of the ring-shaped water storage tank 51 is obliquely arranged, a mounting seat 52 is arranged at the lower part of the ring-shaped water storage tank 51, the bottom of the mounting seat 52 is connected with the bottom of the humidifying bin 21, the upper half part of the mounting seat 52 is obliquely arranged, the upper half part of the mounting seat 52 is mutually matched with the lower half part of the ring-shaped water storage tank 51, a plurality of butt joint ports 511 and second water outlets 512 are formed in the upper surface of the ring-shaped water storage tank 51, and the second water outlets 512 are formed in one side, close to the first opening of the humidifying bin 21, of the ring-shaped water storage tank 51.

The mounting block 52 forms a regular hollow cylinder with the ring reservoir 51, the first pairs of pairs the lower end of the liquid storage pipe 431 is inserted into the butt joint 511, condensed water enters the annular water storage tank 51 from the butt joint 511, and flows along the inclined bottom of the annular water storage tank 51 toward the lowest position of the annular water storage tank 51, the lowest position of the annular water storage tank 51 is located below the second water outlet 512, the atomizing device 6 is arranged above the second water outlet 512, and condensed water collected at the lowest position of the annular water storage tank 51 is supplied to the atomizing device 6, so that collection and utilization of a small amount of condensed water are realized.

Referring to fig. 11 and 12, it is shown that: a water filling port 513 is formed in the side face of the annular water storage tank 51, the water filling port 513 is arranged on one side, far away from the first opening of the humidifying bin 21, of the annular water storage tank 51, and a rubber plug 53 is arranged on the water filling port 513.

Because the water content in the air is lower, the condensed water collected by the dehumidifying device 4 in a short time is less, and the water source can not be continuously provided for the atomizing device 6, therefore, the water filling port 513 is formed in the annular water storage tank 51, the rubber plug 53 is pulled out before the vehicle humidifying device works, the water filling port 513 is opened, and the water source is added, so that the atomizing device 6 can work normally before enough condensed water is collected by the dehumidifying device 4.

Referring to fig. 1, 2 and 11, there are shown: the atomizing device 6 comprises an atomizer 61, a water suction pipe 62 is arranged at the lower end of the atomizer 61, the upper end of the water suction pipe 62 is communicated with the atomizer 61, the lower end of the water suction pipe 62 penetrates through the second water outlet 512 to penetrate deep into the bottom of the annular water storage tank 51, an exhaust pipe 63 is arranged at the upper end of the atomizer 61, the lower end of the exhaust pipe 63 is communicated with the atomizer 61, and the upper end of the exhaust pipe 63 penetrates upwards through the top of the humidifying bin 21.

The condensed water in the annular water storage tank 51 and the water source added in advance are pumped into the atomizer 61 by the water pumping pipe 62, the atomizer 61 pressurizes and atomizes the pumped water source, and the atomized water source is discharged into the air in the vehicle by the exhaust pipe 63, so that the condensed water collected by the dehumidifying device 4 is mixed into the air in the vehicle again.

Referring to fig. 2 and 13, it is shown that: a plurality of second installation bins 112 are formed in the circumferential surface of the base 11 in an annular array mode, telescopic blocks 12 are arranged in the second installation bins 112 in a sliding mode, elastic telescopic rods 13 are arranged between the telescopic blocks 12 and the bottoms of the second installation bins 112, one ends of the elastic telescopic rods 13 are connected with the base 11, and the other ends of the elastic telescopic rods 13 are connected with one sides, facing the base 11, of the telescopic blocks 12.

Because the inside diameter size of drinking cup seat is different, insert in the drinking cup seat with base 11, the gap that exists between base 11 and the drinking cup seat is different, make base 11 appear rocking, disturb the driver, therefore set up telescopic block 12 and elastic telescopic link 13, the furthest distance between two telescopic blocks 12 along the both ends of base 11 diameter direction is greater than the diameter of base 11, make base 11 when inserting in the drinking cup seat, telescopic block 12 and the inner wall butt of drinking cup seat, elastic telescopic link 13 shrink, provide outside thrust to telescopic block 12, make telescopic block 12 and drinking cup seat support tightly, thereby realize fixing base 11 in the drinking cup seat of equidimension not.

The foregoing examples merely illustrate one or more embodiments of the invention, which are described in greater detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (9)

1. The utility model provides a vehicle humidification device with air filtering capability, a serial communication port, including being used for installing vehicle humidification device in the car location structure (1), location structure (1) is including inserting base (11) in the drinking cup seat, the upper end of base (11) is provided with filtration humidification storehouse (2), the upper portion of filtration humidification storehouse (2) is humidification storehouse (21), first opening has been seted up on the wall of humidification storehouse (21), the lower part of filtration humidification storehouse (2) is filtration storehouse (22), be provided with cross baffle (221) in filtration storehouse (22), the middle part of cross baffle (221) is the ring, a plurality of first air vent (2211) have been seted up on the wall of ring, be provided with in filtration storehouse (22) filter equipment (3) that are used for filtering air, be provided with in humidification storehouse (21) and be used for getting rid of in the filtered air dehumidification device (4), the lower extreme of dehumidification device (4) is provided with structure (5) that are used for storing comdenstion water, dehumidification device (4) and water storage structure (5) intercommunication, the first opening of humidification storehouse (21) is provided with water storage structure (6) intercommunication.

The dehumidification device (4) comprises a gas guide cover (41), the cross section of the gas guide cover (41) is small in the upper portion and large in the lower portion, a plurality of dehumidification structures (42) are arranged on the periphery of the ring-shaped array of the upper end of the gas guide cover (41), the dehumidification structures (42) comprise condensation bins (421), the condensation bins (421) incline towards the periphery of the gas guide cover (41), spiral cooling fins (422) for cooling air are arranged in the condensation bins (421), connectors (423) are arranged at two ends of the condensation bins (421), the spiral cooling fins (422) are limited in the condensation bins (421), U-shaped pipes (424) are arranged at the lower end of the condensation bins (421), openings at two ends of the U-shaped pipes (424) are all vertical upwards, first water outlets (4241) are formed in the bottoms of the U-shaped pipes (424), one ends of the U-shaped pipes (424) close to the condensation bins (421) are provided with rotary joints (425) respectively, one ends of the U-shaped pipes (424) are arranged at positions close to the condensation bins (421), one ends of the air outlet pipes (426) are connected with the top of the air outlet pipes (426), and the other ends of the air outlet pipes (426) are communicated with the top of the air outlet pipes (21).

2. The humidifying device with the air filtering function for the vehicle according to claim 1, wherein a liquid storage structure (43) is arranged at the first water outlet (4241), the liquid storage structure (43) comprises a liquid storage pipe (431), the liquid storage pipe (431) is communicated with the first water outlet (4241) of the U-shaped pipe (424), an annular baffle (4311) is arranged on the inner wall of the liquid storage pipe (431), a through hole is formed in the middle of the annular baffle (4311), a floating block (432) is arranged at the upper end of the annular baffle (4311), the diameter of the floating block (432) is consistent with the inner diameter of the liquid storage pipe (431), and a square groove (4321) is formed in the outer circumferential surface of the floating block (432).

3. The humidifying device with the air filtering function for the vehicle according to claim 2, wherein a stop block (433) is arranged at the lower end of the annular baffle (4311), a vertical upward connecting rod (434) is arranged at the middle part of the stop block (433), the lower end of the connecting rod (434) is connected with the stop block (433), the upper end of the connecting rod (434) penetrates through a through hole in the annular baffle (4311) to be connected with the middle part of the floating block (432), a pressure spring (435) is sleeved on the connecting rod (434), one end of the pressure spring (435) is connected with the upper surface of the stop block (433), and the other end of the pressure spring (435) is connected with the lower surface of the annular baffle (4311).

4. The humidifying device with the air filtering function for the vehicle according to claim 1, wherein the filtering device (3) comprises filtering structures (31), the filtering structures (31) are four, the four filtering structures (31) are annularly arrayed on the cross partition plate (221), the filtering structures (31) comprise filter cores (311), a shell (312) is arranged outside the filter cores (311), a plurality of second air holes (3121) are formed in the inner side wall surface of the shell (312), a plurality of air inlet grooves (3122) are formed in the outer side wall surface of the shell (312), handles (313) are arranged at two ends of the outer side wall surface of the shell (312), an air suction mechanism (32) for extracting air is arranged in the annular inner portion of the cross partition plate (221), the air suction mechanism (32) comprises a driving motor (321) and fan blades (322), the driving motor (321) is arranged at the lower end of the filter bin (22), an output shaft of the driving motor (321) penetrates through the bottom of the filter bin (22) upwards, the fan blades (322) are connected with an output shaft of the driving motor (321), and the middle part of the motor (11) is provided with a first driving bin (111) for mounting.

5. The humidifying device for a vehicle having an air filtering function according to claim 4, wherein a heating plate (33) for heating air is provided at an upper end of the fan blade (322).

6. The humidifying device with the air filtering function for the vehicle according to claim 1, wherein the water storage structure (5) comprises a ring-shaped water storage tank (51), the ring-shaped water storage tank (51) surrounds the periphery of the lower portion of the air guide cover (41), the lower half portion of the ring-shaped water storage tank (51) is obliquely arranged, a mounting seat (52) is arranged at the lower portion of the ring-shaped water storage tank (51), the bottom of the mounting seat (52) is connected with the bottom of the humidifying bin (21), the upper half portion of the mounting seat (52) is obliquely arranged, the upper half portion of the mounting seat (52) is matched with the lower half portion of the ring-shaped water storage tank (51), a plurality of butt joints (511) and second water outlets (512) are formed in the upper surface of the ring-shaped water storage tank (51), and the second water outlets (512) are arranged on one side, close to the first opening of the humidifying bin (21), of the ring-shaped water storage tank (51).

7. The humidifying device with the air filtering function for the vehicle according to claim 6, wherein a water filling port (513) is formed in the side face of the annular water storage tank (51), the water filling port (513) is arranged on one side, far away from the first opening of the humidifying bin (21), of the annular water storage tank (51, and a rubber plug (53) is arranged on the water filling port (513).

8. The vehicle humidifying device with the air filtering function according to claim 1, wherein the atomizing device (6) comprises an atomizer (61), a water suction pipe (62) is arranged at the lower end of the atomizer (61), the upper end of the water suction pipe (62) is communicated with the atomizer (61), the lower end of the water suction pipe (62) penetrates through the second water outlet (512) to penetrate into the bottom of the interior of the annular water storage tank (51), an exhaust pipe (63) is arranged at the upper end of the atomizer (61), the lower end of the exhaust pipe (63) is communicated with the atomizer (61), and the upper end of the exhaust pipe (63) penetrates upwards through the top of the humidifying bin (21).

9. The humidifying device with the air filtering function for the vehicle according to claim 1, wherein a plurality of second mounting bins (112) are formed in an annular array on the circumferential surface of the base (11), telescopic blocks (12) are arranged in the second mounting bins (112) in a sliding mode, elastic telescopic rods (13) are arranged between the telescopic blocks (12) and the bottoms of the second mounting bins (112), one ends of the elastic telescopic rods (13) are connected with the base (11), and the other ends of the elastic telescopic rods (13) are connected with one side, facing the base (11), of the telescopic blocks (12).

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