CN212883163U - Plant liquid atomization device - Google Patents

Abstract

The utility model discloses a plant liquid atomization device, relating to the technical field of deodorization, which comprises a box body component, an atomizer component, a fan component and a liquid control accessory, a cleaning mechanism component is arranged in the box body component and comprises an air cylinder, a guide shaft and a second bracket, wherein the guide shafts are arranged in parallel on both sides of the cylinder, the second bracket is provided with a plurality of third holes and fourth holes, wherein the both ends end portion of fixed cylinder and guiding axle is connected to the third hole, and the right wiper mechanism installation department that is fixed in box right side board and the left wiper mechanism installation department of box left side board are connected respectively in the fourth hole, and the wiper mechanism subassembly can realize the online self-cleaning to the atomizer, the utility model discloses thereby can solve the problem that the plant liquid atomization device long-time work back deposit covers the work portion on atomizer surface and influences equipment performance.

Description

Plant liquid atomization device

Technical Field

The utility model relates to a deodorization technical field specifically is a plant liquid atomizing device.

Background

The plant type deodorant deodorization process is a new deodorization technology developed in recent years. The plant liquid deodorant is sprayed into an aerosol shape through a special control device, and great surface energy is formed on the surfaces of the tiny liquid drops. The surface energy can adsorb odor molecules in the air, and change the three-dimensional structure of the odor molecules to be unstable. At the moment, the effective molecules in the solution can provide electrons for the odor molecules to react with the odor molecules; meanwhile, odor molecules adsorbed on the surface of the liquid drop can also react with oxygen in the air. By action, odor molecules will generate tasteless and nontoxic molecules, such as: water, inorganic salts, etc., thereby eliminating odor and the products of the reaction do not form secondary pollution.

In the prior art, because the plant liquid is a special liquid formula and has certain viscosity, when the plant liquid works in a common atomizing device, the plant liquid is easy to combine with impurities in water to generate precipitation, and the atomizing efficiency can be reduced. Meanwhile, the stability of the equipment is affected by disassembling and assembling the equipment parts during manual cleaning, and the maintenance cost of the equipment is increased by manual cleaning.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a plant liquid atomizing device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a plant liquid atomizing device, includes box subassembly, atomizer subassembly, fan subassembly and liquid control annex, the box subassembly includes box right side board and box left side board, be provided with the wiper mechanism subassembly between box right side board and the box left side board, the wiper mechanism subassembly includes cylinder, guiding axle and second support, and wherein guiding axle parallel arrangement is in the both sides of cylinder, the second support has set up a plurality of third holes and fourth hole, and wherein the first end portion in two of fixed cylinder of third jogged joint and guiding axle, the right wiper mechanism installation department that is fixed in the box right side board and the left wiper mechanism installation department of box left side board are connected respectively in the fourth hole.

Furthermore, the cylinder is sleeved with an axially movable cylinder sliding block, the guide shaft is sleeved with an axially movable guide shaft sliding block, the cylinder sliding block and the wire shaft sliding block are jointly fixed on a third support, the tail ends of two ends of the cylinder are provided with air pipes connected with an air passage control system, and the third support is provided with a brush.

Further, a plurality of nozzles are installed to the third support, and the nozzle leads to pipe connection to the second interface of box subassembly, the water pipe is soft material, the direction of nozzle is the orientation downwards.

Further, the box subassembly is the thin wall box of square structure, and the box is seal structure except the interface that sets up, the box right side board has set up first interface, second interface and right wiper mechanism subassembly installation department, and wherein first interface connection vegetation liquid supply pipe says, and second interface connection clear water supply pipe says, the box left side board has set up flash mouth, floater installation department and left wiper mechanism subassembly installation department, the top and the bottom of box right side board and box left side board are provided with box roof and box bottom plate respectively.

Furthermore, the box top plate comprises a first hole, a second hole and a fog outlet, a first support is arranged above the box bottom plate, the two first supports are arranged in parallel, a groove is arranged below the box bottom plate, and a third interface is arranged at the bottom of the groove.

Further, the atomizer subassembly comprises a plurality of atomizers, and the atomizer is installed on first support, is parallel arrangement between the atomizer to leave certain clearance, atomizer power wire stretches out from the second hole of box roof, the work portion of atomizer is on the upper surface, and towards the top.

Furthermore, the fan assembly comprises a fan and a fan fixing plate, the fan is assembled above the fan fixing plate, and the fan fixing plate is tightly assembled in a first hole formed in a top plate of the box body in a matching manner.

Further, the liquid control accessory comprises a first solenoid valve, a second solenoid valve and a third solenoid valve, wherein the first solenoid valve is arranged in the first interface, the second solenoid valve is arranged in the second interface, and the third solenoid valve is arranged in the third interface.

Furthermore, a floating ball is installed on the inner side of the left plate of the box body through a floating ball installation part.

Furthermore, a groove is formed below the bottom plate of the box body.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of simple structure novel, the automatic invariant of work liquid level of vegetable liquid has the cleaning function to the atomizer, and atomizer working property is stable, and full automatic control can be realized to vegetable liquid atomizing device's whole life-span extension, has solved the problem that artifical maintenance is difficult, washes the online self-cleaning that the mechanism subassembly can realize the atomizer, the utility model discloses thereby can solve the problem that the long-time work back deposit of vegetable liquid atomizing device covers the work portion on atomizer surface and influences the equipment performance.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the middle box assembly of the present invention.

Fig. 3 is a schematic view of an assembly structure of the present invention.

Fig. 4 is a schematic structural view of the assembly cleaning mechanism assembly of the present invention.

Fig. 5 is a schematic side view of the assembly structure of the present invention.

Fig. 6 is a schematic structural view of the middle cleaning mechanism assembly of the present invention.

Fig. 7 is a schematic top view of the cleaning mechanism assembly of the present invention.

In the figure: 1-tank assembly, 2-atomizer assembly, 3-fan assembly, 4-liquid control accessory, 5-cleaning mechanism assembly, 11-tank right plate, 111-first interface, 112-second interface, 113-right cleaning mechanism assembly mounting part, 12-tank left plate, 121-flash, 122-float mounting part, 123-left cleaning mechanism assembly mounting part, 13-tank top plate, 131-first hole, 132-second hole, 133-mist outlet, 14-tank bottom plate, 141-first bracket, 142-groove, 143-third interface, 15-foot rest, 21-atomizer, 31-fan, 32-fan fixing plate, 41-first electromagnetic valve, 42-second electromagnetic valve, 43-third electromagnetic valve, 44-floating ball, 51-air cylinder, 511-air cylinder sliding block, 512-air pipe, 52-guiding shaft, 521-guiding shaft sliding block, 53-second bracket, 531-third hole, 532-fourth hole, 54-third bracket, 55-brush, 56-nozzle and 561-water pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1:

referring to fig. 1-7, in an embodiment of the present invention, a plant liquid atomizing device includes a box assembly 1, an atomizer assembly 2, a fan assembly 3 and a liquid control accessory 4, wherein the box assembly 1 includes a box right plate 11 and a box left plate 12, a cleaning mechanism assembly 5 is disposed between the box right plate 11 and the box left plate 12, the cleaning mechanism assembly 5 includes a cylinder 51, a guide shaft 52 and a second bracket 53, wherein the guide shaft 52 is disposed in parallel on two sides of the cylinder 51, the second bracket 53 is provided with a plurality of third holes 531 and fourth holes 532, wherein the third holes 531 connect two ends of the fixed cylinder 51 and the guide shaft 52, and the fourth holes 532 connect a right cleaning mechanism mounting portion 113 fixed on the box right plate 11 and a left cleaning mechanism mounting portion 123 fixed on the box left plate 12 respectively.

The air cylinder 51 is sleeved with an air cylinder sliding block 511 capable of moving axially, the guide shaft 52 is sleeved with a guide shaft sliding block 521 capable of moving axially, the air cylinder sliding block 511 and the wire guide shaft sliding block 521 are jointly fixed on a third support 54, the tail ends of two ends of the air cylinder 51 are provided with air pipes 512 connected with an air path control system, the third support 54 is provided with a brush 55, and when the air cylinder 51 works, the air cylinder sliding block 511 pushes the third support 54 to reciprocate axially, so that the brush 55 is driven to reciprocate together.

After the plant liquid atomization device works for a period of time, dirt can be deposited on the working part of the upper surface of the atomizer. On one hand, the dirt affects the working performance of the atomizer, so that the atomizer cannot be in a good working state; on the other hand, the dirt blocks the plant liquid from entering the working part of the upper surface of the atomizer, so that the atomization amount is reduced, and the overall working performance of the atomization device is obviously reduced. Through the effect of the above cleaning mechanism, when the hairbrush reciprocates, dirt and sediment of the working part on the upper surface of the atomizer can be scraped and brushed, so that the working performance of the atomizer is always stable as one.

The third bracket 54 is provided with a plurality of nozzles 56, the nozzles 56 are connected to the second port 112 of the box assembly 1 through a water pipe 561, the water pipe 561 is made of a soft material, the direction of the nozzles 56 is downward, the second electromagnetic valve 42 can be opened to connect with the clean water supply pipeline, and the clean water can be sprayed downward from the nozzles 56 and sprayed to the working part on the upper surface of the atomizer 21.

Example 2:

referring to fig. 2, based on embodiment 1, the box assembly 1 is a thin-walled box with a square structure, the box is a sealed structure except for the set ports, the right box plate 11 is provided with a first port 111, a second port 112 and a right cleaning mechanism assembly mounting portion 113, wherein the first port 111 is connected to a plant liquid supply pipeline, the second port 112 is connected to a clean water supply pipeline, the left box plate 12 is provided with a material overflow port 121, a floating ball mounting portion 122 and a left cleaning mechanism assembly mounting portion 123, and the top and the bottom of the right box plate 11 and the left box plate 12 are respectively provided with a top box plate 13 and a bottom box plate 14.

The tank top plate 13 comprises a first hole 131, a second hole 132 and a mist outlet 133, a first bracket 141 is arranged above the tank bottom plate 14, the two first brackets 141 are arranged in parallel, a groove 142 is arranged below the tank bottom plate 14, and a third interface 143 is arranged at the bottom of the groove 142.

Example 3:

referring to fig. 2-3, based on embodiment 1, the atomizer assembly 2 includes a plurality of atomizers 21, the atomizers 21 are mounted on the first bracket 141, the atomizers 21 are arranged in parallel with a certain gap left therebetween, power wires of the atomizers 21 extend from the second hole 132 of the top plate 13 of the box body, and working portions of the atomizers 21 are on an upper surface and face upward.

The fan assembly 3 is composed of a fan 31 and a fan fixing plate 32, the fan 31 is assembled above the fan fixing plate 32, and the fan fixing plate 32 is tightly assembled in a first hole 131 formed in the top plate 13 of the box body in a matching manner.

The liquid control accessory 4 comprises a first electromagnetic valve 41, a second electromagnetic valve 42 and a third electromagnetic valve 43, wherein the first electromagnetic valve 41 is arranged in the first interface 111 and used for controlling whether the plant liquid in the pipeline is communicated and supplied into the box body, the second electromagnetic valve 42 is arranged in the second interface 112 and used for controlling whether the clean water in the pipeline is communicated and supplied into the box body, and the third electromagnetic valve 43 is arranged in the third interface 143 and used for controlling whether the liquid in the box body is discharged out of the box body.

A floating ball 44 is mounted on the inner side of the left plate 12 of the box body through a floating ball mounting part 122.

The groove 142 is arranged below the box body bottom plate 14, so that the dirt hiding and discharging capacity is enhanced.

The cleaning mechanism assembly has two cleaning modes, the first mode is an on-line cleaning mode, and in the on-line cleaning mode, the plant liquid atomization device does not stop atomization work, and meanwhile, the air cylinder of the cleaning mechanism assembly is started to drive the hairbrush to reciprocate, so that dirt on the upper surface of the atomizer can be cleaned immediately. In this operating mode, the second solenoid valve and the third solenoid valve are closed. The second is an offline cleaning mode in which the plant liquid atomizing device stops atomizing, the first solenoid valve is closed to stop the supply of the plant liquid material, and the second solenoid valve and the third solenoid valve are opened at the same time. When the air cylinder of the cleaning mechanism component drives the hairbrush to reciprocate, the nozzle sprays clean water to the upper surface of the atomizer, the cleaning capability is enhanced, meanwhile, sewage is discharged from the third interface of the bottom plate, and the interior of the box body is thoroughly cleaned.

The two cleaning working modes can set certain working procedures according to the formation condition of the sediment. For example, the atomization work of the device can be set to be started for 3 minutes every two hours; the atomization work of the device is carried out for every 80 hours, and the off-line cleaning work is started once.

The utility model discloses a theory of operation is: the second electromagnetic valve and the third electromagnetic valve are closed, the first electromagnetic valve is opened, and the plant liquid is supplied into the box body; the floating ball senses that the plant liquid in the box body rises to a certain height, a signal is sent, and the control system closes the first electromagnetic valve; the control system starts the atomizer to work, and at the moment, the plant liquid in the box body is atomized into fine nano-scale particles; the control system starts the fan to work, when the fan works, the wind direction blows towards the interior of the box body, and the nano-scale particles after the atomization of the plant liquid are blown out from the mist outlet of the top plate of the box body. The fog outlet can be connected with a pipeline to convey the atomized plant liquid particles to a place where odor needs to be purified. When the liquid level of the plant liquid in the box body is reduced due to consumption, the control system reopens the first electromagnetic valve to supply the plant liquid to the box body. When the control of the floating ball or the first electromagnetic valve fails, the plant liquid supply is not interrupted, and the redundant plant liquid can be discharged from the flash port. When the plant liquid atomizing device plans not work for a long time, can set up and open the third solenoid valve, the liquid in the draining box to spare part in the protection box. Its beneficial effects include, the simple structure novelty of device, the automatic invariant of the working liquid level of plant liquid has the cleaning function to the atomizer, and atomizer working property is stable, and full automatic control can be realized to the whole life-span extension of plant liquid atomizing device, has solved the difficult problem of manual maintenance, washes the online self-cleaning that the mechanism subassembly can realize the atomizer, the utility model discloses thereby can solve the long-time problem that influences the equipment performance of the work portion that the back deposit covers the atomizer surface of plant liquid atomizing device.

The utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the description with the record of drawing of description, and the concrete connection mode of each part all adopts conventional means such as ripe bolt, rivet, welding among the prior art, and machinery, part and equipment all adopt prior art, and conventional model, including circuit connection adopts conventional connection mode among the prior art, does not detailed here again.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A plant liquid atomization device comprises a box body component (1), an atomizer component (2), a fan component (3) and a liquid control accessory (4), it is characterized in that the box body component (1) comprises a box body right plate (11) and a box body left plate (12), a cleaning mechanism component (5) is arranged between the right box body plate (11) and the left box body plate (12), the cleaning mechanism component (5) comprises an air cylinder (51), a guide shaft (52) and a second bracket (53), wherein the guide shafts (52) are arranged in parallel on both sides of the cylinder (51), the second bracket (53) is provided with a plurality of third holes (531) and fourth holes (532), the third hole (531) is connected with the tail end parts of two ends of the fixed cylinder (51) and the guide shaft (52), and the fourth hole (532) is respectively connected with a right cleaning mechanism mounting part (113) fixed on the right plate (11) of the box body and a left cleaning mechanism mounting part (123) fixed on the left plate (12) of the box body.

2. The plant liquid atomizing device according to claim 1, wherein the cylinder (51) is sleeved with an axially movable cylinder slider (511), the guide shaft (52) is sleeved with an axially movable guide shaft slider (521), the cylinder slider (511) and the guide shaft slider (521) are jointly fixed on a third bracket (54), air pipes (512) are arranged at the two ends of the cylinder (51) and connected with an air passage control system, and the third bracket (54) is provided with a brush (55).

3. A plant liquid atomizer according to claim 2, wherein said third support (54) is provided with a plurality of nozzles (56), said nozzles (56) are connected to said second port (112) of said tank assembly (1) through a water pipe (561), said water pipe (561) is made of soft material, and said nozzles (56) are directed downward.

4. The plant liquid atomizing device according to claim 1, wherein said box assembly (1) is a thin-walled box with a square structure, and said box is a sealed structure except for said provided ports, said right box plate (11) is provided with a first port (111), a second port (112) and a right cleaning mechanism mounting portion (113), wherein said first port (111) is connected to said plant liquid supply pipeline, said second port (112) is connected to said clean water supply pipeline, said left box plate (12) is provided with a material overflow port (121), a floating ball mounting portion (122) and a left cleaning mechanism mounting portion (123), and said top and bottom of said right box plate (11) and said left box plate (12) are respectively provided with a top box plate (13) and a bottom box plate (14).

5. The plant liquid atomizing device according to claim 4, wherein the top plate (13) of the box body comprises a first hole (131), a second hole (132) and a mist outlet (133), the first support (141) is disposed above the bottom plate (14) of the box body, the two first supports (141) are arranged in parallel, the groove (142) is disposed below the bottom plate (14) of the box body, and the bottom of the groove (142) is provided with the third port (143).

6. The plant liquid atomizing device according to claim 1, wherein said atomizer assembly (2) is composed of a plurality of atomizers (21), the atomizers (21) are mounted on the first support (141), the atomizers (21) are arranged in parallel with a gap therebetween, power supply wires of the atomizers (21) extend from the second hole (132) of the top plate (13) of the box body, and working portions of the atomizers (21) are disposed on the upper surface and face upward.

7. The plant liquid atomizing device according to claim 1, wherein said blower assembly (3) is composed of a blower (31) and a blower fixing plate (32), said blower (31) is assembled above said blower fixing plate (32), and said blower fixing plate (32) is closely fitted and assembled to a first hole (131) formed in the top plate (13) of the box body.

8. A plant liquid atomizer according to claim 1, wherein said liquid control accessory (4) comprises a first solenoid valve (41), a second solenoid valve (42), and a third solenoid valve (43), wherein said first solenoid valve (41) is disposed in first port (111), said second solenoid valve (42) is disposed in second port (112), and said third solenoid valve (43) is disposed in third port (143).

9. The plant liquid atomizing device according to claim 1, wherein a float (44) is installed on an inner side of the left plate (12) of the housing through a float installation part (122).

10. A plant liquid atomizer according to claim 5, wherein recess (142) is provided below bottom plate (14) of said housing.

Images