CN220834736U - Gas-water integrated atomizing device - Google Patents

Abstract

The utility model provides a gas-water integrated atomization device, which belongs to the technical field of gas-water atomizers and comprises an atomization cylinder, a support frame and an atomization nozzle; the top of the atomization cylinder body is provided with an air inlet and a water inlet, and the bottom of the atomization cylinder body is provided with a water outlet; the water inlet is used for introducing a water source into the atomizing cylinder, and the air inlet is used for introducing a compressed air source into the atomizing cylinder; the bottom of the atomization cylinder body is also provided with a movable frame; the support frame is arranged on the atomization cylinder or a preset basal body; the upper end of the supporting frame extends upwards and has the freedom degree of extending up and down along the vertical direction; the atomizing nozzle is arranged at the telescopic end of the supporting frame; the atomizing nozzle is communicated with the water outlet through a water delivery pipe; the compressed air source pressurizes water in the atomizing cylinder, and conveys the water to the atomizing nozzle for atomization and then spraying. The gas-water integrated atomization device provided by the utility model can conveniently realize adjustment of the injection area and the injection position, and has good flexibility and high safety coefficient.

Description

Gas-water integrated atomizing device

Technical Field

The utility model belongs to the technical field of air-water atomizers, and particularly relates to an air-water integrated atomizing device.

Background

A plurality of electrical devices are usually required to be arranged in the industrial factory building, and when the electrical devices work, a large amount of heat can be emitted, so that the temperature in the factory building is increased; meanwhile, more dust exists in the factory building, normal operation of workers is affected, and environmental quality in the factory building is reduced.

In the prior art, pump type and pipeline type atomizing devices are often adopted to atomize and spray water to the area in a factory building so as to reduce dust pollution and reduce the temperature of a sentry pass; but pump type and pipeline formula atomizing device's atomization effect area of action is big, and fixed in position, and the flexibility is poor, and the atomizing sprays the district fixedly, can cause electrical apparatus short circuit when spraying on electrical equipment, and the potential safety hazard is big.

Disclosure of utility model

The utility model aims to provide an air-water integrated atomization device, and aims to solve the technical problems of large acting area, fixed position, poor flexibility and large potential safety hazard of the existing atomization device.

In order to achieve the above purpose, the utility model adopts the following technical scheme: provided is an air-water integrated atomizing device, comprising:

The top of the atomization cylinder body is provided with an air inlet and a water inlet, and the bottom of the atomization cylinder body is provided with a water outlet; the water inlet is used for introducing a water source into the atomization cylinder, and the air inlet is used for introducing a compressed air source into the atomization cylinder; the bottom of the atomization cylinder body is also provided with a movable frame;

The support frame is arranged on the atomization cylinder body or the preset basal body; the upper end of the supporting frame extends upwards and has the freedom degree of extending up and down along the vertical direction; and

The atomizing nozzle is arranged at the telescopic end of the supporting frame; the atomizing nozzle is communicated with the water outlet through a water pipe;

The compressed air source pressurizes water in the atomization cylinder, and conveys the water to the atomization nozzle to be sprayed after atomization.

In one possible implementation manner, a first joint assembly is arranged at the top of the atomization cylinder, and the air inlet and the water inlet are arranged on the first joint assembly.

In some embodiments, the first joint assembly comprises:

The first three-way joint is arranged on the atomization cylinder body and is connected with the atomization cylinder body;

The first quick-connect plug is connected with one of the joint ends of the first three-way joint; the first quick-connection plug is used for being connected with an air pipe interface end of the compressed air source and forming the air inlet; and

The ball valve is connected with the other joint end of the first three-way joint; the inflow end of the ball valve is used for being communicated with the water source and forming the water inlet.

In one possible implementation manner, a second quick-connection plug is arranged at the bottom of the atomization cylinder, and the second quick-connection plug is connected with the water delivery pipe and forms the water outlet.

In some embodiments, the water delivery pipe comprises a main pipe with one end connected with the second quick-connection plug, and a plurality of shunt pipes respectively communicated with the main pipe, wherein each shunt pipe is correspondingly connected with one atomizing nozzle.

The two shunt tubes are connected with the main pipe through a second three-way joint;

The two atomizing nozzles are correspondingly arranged, wherein one of the atomizing nozzles is upward in the spraying direction, and the other atomizing nozzle is horizontal in the spraying direction.

In one possible implementation, the water pipe is a hose or a telescopic pipe.

In one possible implementation, the support frame includes:

The fixed pipe is arranged on the atomization cylinder body or the preset basal body, and one end of the fixed pipe extends upwards;

The lower end of the connecting pipe is sleeved with and screwed on the extending end of the fixed pipe, and the upper end of the connecting pipe is higher than the fixed pipe upwards;

The fixed cross rod is connected to the upper end of the connecting pipe and is perpendicular to the connecting pipe; the fixed cross rod is provided with the atomizing nozzle.

In some embodiments, one end of the water pipe penetrates into the fixed pipe and upwards penetrates out of the connecting pipe; the upper end of the water pipe is connected with the atomizing nozzle.

In some embodiments, the water pipe extends along the axial direction of the fixing pipe, and a plurality of fixing rings are arranged between the water pipe and the fixing pipe and between the water pipe and the connecting pipe.

Compared with the prior art, the scheme provided by the embodiment of the application has the advantages that the air inlet and the water inlet are arranged on the atomization cylinder body at the same time, and water can be conveyed to the atomization nozzle for atomization through pressurized gas, so that the effects of dust removal and temperature reduction are realized; the movable frame is arranged at the bottom of the atomizing barrel body of the device, so that the position of the atomizing barrel body can be conveniently moved to change the position of the atomizing nozzle, and meanwhile, the position of the atomizing nozzle can be adjusted up and down through the supporting frame to change the height of the atomizing nozzle, thereby realizing the adjustment of the spraying area and the spraying position, and having good flexibility; can avoid spraying mist to the electrical equipment, and factor of safety is high.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an air-water integrated atomization device according to an embodiment of the present utility model;

FIG. 2 is an enlarged schematic view of the structure shown at A in FIG. 1;

FIG. 3 is a schematic diagram showing a connection structure of the connection pipe and the support frame;

fig. 4 is a schematic diagram of a connection structure of the connection pipe and the support frame.

In the figure:

1. An atomization cylinder; 11. a moving rack;

2. A support frame; 21. a fixed tube; 22. a connecting pipe; 23. fixing the cross bar;

3. an atomizing nozzle;

4. A water pipe; 41. a main pipe; 42. a second three-way joint; 43. a shunt;

5. A first joint assembly; 51. a first three-way joint; 52. a first quick connect plug; 53. a ball valve;

6. A second quick connect plug;

7. a fixing ring;

8. And a compressed air source.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or be indirectly on the other element. It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a number" is two or more, unless explicitly defined otherwise.

Referring to fig. 1 to 4, an air-water integrated atomization device provided by the present utility model will be described. The gas-water integrated atomization device comprises an atomization cylinder body 1, a support frame 2 and an atomization nozzle 3; the top of the atomization cylinder body 1 is provided with an air inlet and a water inlet, and the bottom is provided with a water outlet; the water inlet is used for introducing a water source into the atomization cylinder 1, and the air inlet is used for introducing a compressed air source 8 into the atomization cylinder 1; the bottom of the atomization cylinder body 1 is also provided with a movable frame 11; the support frame 2 is arranged on the atomization cylinder 1 or a preset basal body; the upper end of the support frame 2 extends upwards and has the freedom degree of extending and retracting upwards and downwards along the vertical direction; the atomizing nozzle 3 is arranged at the telescopic end of the support frame 2; the atomizing nozzle 3 is communicated with the water outlet through a water pipe 4; the compressed air source 8 pressurizes water in the atomization cylinder 1, and conveys the water to the atomization nozzle 3 for atomization and then spraying.

Optionally, the moving frame 11 includes a chassis disposed at the bottom of the atomizing cylinder 1, and a plurality of moving wheels disposed on the chassis, where the plurality of moving wheel arrays are disposed at the bottom of the chassis; the atomizing cylinder 1 and the supporting frame 2 can be driven to move to a designated position by pushing the moving frame 11.

It should be understood that the supporting frame 2 may be fixed on the outer wall of the atomizing cylinder 1, and when the atomizing cylinder 1 is pushed to move, the supporting frame 2 drives the atomizing nozzle 3 to move simultaneously; or the support frame 2 can be detachably fixed on other preset matrixes, for example, directly inserted on the ground to be sprayed, or detachably fixed on a wall which does not affect the work of the electrical equipment, and the like.

Compared with the prior art, the air-water integrated atomization device provided by the utility model has the advantages that the air inlet and the water inlet are simultaneously arranged on the atomization cylinder body 1, and water can be conveyed to the atomization nozzle 3 for atomization through pressurized gas, so that the effects of dust removal and temperature reduction are realized; the movable frame 11 is arranged at the bottom of the atomizing barrel 1 of the device, so that the position of the atomizing barrel 1 can be conveniently moved to change the position of the atomizing nozzle 3, and meanwhile, the position of the atomizing nozzle 3 can be adjusted up and down through the supporting frame 2 to change the height of the atomizing nozzle 3, thereby realizing the adjustment of the spraying area and the spraying position, and having good flexibility; can avoid spraying mist to the electrical equipment, and factor of safety is high.

Referring to fig. 1, in some possible embodiments, a first joint assembly 5 is provided at the top of the atomizing barrel 1, and an air inlet are provided on the first joint assembly 5.

The first joint assembly 5 is provided to form the air inlet and the water inlet so as to introduce compressed gas or water into the atomizing cylinder 1.

Referring to fig. 2, in some embodiments, the first joint assembly 5 includes a first three-way joint 51, a first quick connect plug 52, and a ball valve 53; the first three-way joint 51 is arranged on the atomization cylinder 1 and is connected with the atomization cylinder 1; the first quick connector plug 52 is connected with one of the joint ends of the first three-way joint 51; the first quick connector 52 is used for connecting with an air pipe interface end of the compressed air source 8 and forming an air inlet; the ball valve 53 is connected with the other joint end of the first three-way joint 51; the inflow end of the ball valve 53 is adapted to communicate with a water source and form a water inlet.

Specifically, the first quick connector 52 is used for connecting the first joint assembly 5 with the air pipe interface end of the compressed air source 8 so as to introduce compressed air into the atomization cylinder 1, and the first quick connector can also perform an exhaust function when water is added through the ball valve 53; the ball valve 53 is used for being connected with an external water source, water can be introduced into the atomization cylinder 1 when the ball valve 53 is opened, and the ball valve 53 can play a role in sealing when the ball valve 53 is closed; the first three-way joint 51 is used for connecting the first quick-connect plug 52 and the ball valve 53 at the same connecting port on the atomizing barrel 1.

Optionally, a first quick connector 52 and a ball valve 53 are arranged at intervals on the top of the atomizing cylinder 1, and are used for respectively introducing compressed gas and water into the atomizing cylinder 1 through different connectors.

Referring to fig. 1, in some possible embodiments, a second quick connector 6 is provided at the bottom of the atomizing barrel 1, and the second quick connector 6 is connected to the water pipe 4 and forms a water outlet.

The second quick-connection plug 6 is used for conveying the pressurized water in the atomization cylinder 1 into the water conveying pipe 4; furthermore, when the water delivery pipe 4 is not used for delivering water, the water outlet can also play a role of pollution discharge so as to discharge the sludge in the atomization cylinder 1 out of the body.

Preferably, the second quick connector 6 is a quick connector with a pressure regulating function, and the water flow pressure of the water pipe 4 can be regulated.

Referring to fig. 3, in some embodiments, the water pipe 4 includes a main pipe 41 with one end connected to the second quick connector 6, and a plurality of shunt pipes 43 respectively connected to the main pipe 41, where each shunt pipe 43 is correspondingly connected to one of the atomizing nozzles 3.

Through setting up many shunt tubes 43 to carry rivers respectively to different atomizer 3 in, realize the simultaneous operation of a plurality of atomizer 3, improve the efficiency of spraying the dust removal.

Referring to fig. 1, two shunt tubes 43 are provided, and the two shunt tubes 43 are connected to the main tube 41 through a second three-way joint 42; two atomizer heads 3 are correspondingly arranged, wherein the spraying direction of one atomizer head 3 faces upwards, and the spraying direction of the other atomizer head 3 is horizontal.

By spraying the two atomizer heads 3 upward and horizontally, respectively, the spray range is enlarged, and spraying in different directions is achieved.

Preferably, the specification of 0.2mm is selected for the atomizing nozzle 3, so that water accumulation on the ground can be avoided.

Referring to fig. 1, in some possible embodiments, the water pipe 4 is a hose or a telescopic pipe.

The water pipe 4 is arranged as a hose or a telescopic pipe, so that the water pipe 4 can be adaptively lengthened or shortened when the upper end of the support frame 2 stretches up and down; specifically, when the water pipe 4 is a hose, the remaining hose can be folded and wound on the support frame 2, the atomization cylinder 1 or the movable frame 11, and when the hose needs to be stretched, the wound portion can be directly unfolded so as to adapt to the expansion and contraction of the support frame 2. In particular, the telescopic tube may be a folded tube or sleeve.

Referring to fig. 1, in some possible embodiments, the support frame 2 includes a fixed tube 21, a connecting tube 22, and a fixed cross bar; the fixed tube 21 is arranged on the atomization cylinder 1 or a preset basal body, and one end of the fixed tube extends upwards; the lower end of the connecting pipe 22 is sleeved and screwed on the extending end of the fixed pipe 21, and the upper end of the connecting pipe is upwards higher than the fixed pipe 21; the fixed cross bar 23 is connected to the upper end of the connection pipe 22 and is disposed perpendicular to the connection pipe 22; the fixed cross bar 23 is provided with an atomizing nozzle 3.

The connecting pipe 22 and the fixed pipe 21 are rotated relatively to change the screwing length between the connecting pipe 22 and the fixed pipe 21, so that the connecting pipe 22 drives the fixed cross rod 23 to extend and retract up and down.

Optionally, as another connection mode of the fixing tube 21 and the connecting tube 22, a sliding connection mode is adopted between the fixing tube 21 and the connecting tube 22, and the fixing tube is limited by a limit screw; specifically, the upper end of the fixed tube 21 is slidably connected in the connecting tube 22, and one end of the limit screw is screwed into the connecting tube 22 and abuts against the outer peripheral wall of the fixed tube 21 to limit the positions of the fixed tube 21 and the connecting tube 22.

Referring to fig. 3, in some embodiments, one end of the water pipe 4 penetrates into the fixed pipe 21 and passes upward out of the connecting pipe 22; the upper end of the water pipe 4 is connected with the atomizing nozzle 3.

The water delivery pipe 4 is arranged in the connecting pipe 22 and the fixed pipe 21 in a penetrating way, so that the guiding and limiting of the water delivery pipe 4 are realized, and the water delivery pipe 4 is prevented from being wound on electric equipment when swinging back and forth outside, and the operation process is prevented from being influenced.

Referring to fig. 4, as another limiting mode of the water pipe 4, the water pipe 4 extends along the axial direction of the fixing pipe 21, and a plurality of fixing rings 7 are disposed between the water pipe 4 and the fixing pipe 21, and between the water pipe 4 and the connecting pipe 22.

By arranging a plurality of fixing rings 7, the water delivery pipe 4 is clung to the pipe wall of the fixing pipe 21 or the connecting pipe 22, and the water delivery pipe 4 is prevented from shaking.

When the gas-water integrated atomization device provided by the application is used for operation, the ball valve 53 is opened firstly, so that purified water is added into the atomization cylinder 1 through the water inlet; after the water injection is completed, the ball valve 53 is closed; then compressed gas is introduced into the atomization cylinder 1 through the air pipe interface end of the compressed gas source 8 to start atomization; it should be noted that, when the atomization operation is performed, the spraying range and the spraying area of the atomizing nozzle 3 can be adjusted by adjusting the telescopic height of the supporting frame 2 and the position of the moving frame 11, so as to achieve the purpose of targeted dust removal and temperature reduction.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. Air-water integrated atomization device, its characterized in that includes:

The top of the atomization cylinder body is provided with an air inlet and a water inlet, and the bottom of the atomization cylinder body is provided with a water outlet; the water inlet is used for introducing a water source into the atomization cylinder, and the air inlet is used for introducing a compressed air source into the atomization cylinder; the bottom of the atomization cylinder body is also provided with a movable frame;

The support frame is arranged on the atomization cylinder body or the preset basal body; the upper end of the supporting frame extends upwards and has the freedom degree of extending up and down along the vertical direction; and

The atomizing nozzle is arranged at the telescopic end of the supporting frame; the atomizing nozzle is communicated with the water outlet through a water pipe;

The compressed air source pressurizes water in the atomization cylinder, and conveys the water to the atomization nozzle to be sprayed after atomization.

2. The gas-water integrated atomizing device according to claim 1, wherein a first joint assembly is arranged at the top of the atomizing cylinder, and the gas inlet and the water inlet are arranged on the first joint assembly.

3. The gas-water integral atomizing apparatus of claim 2, wherein said first joint assembly comprises:

The first three-way joint is arranged on the atomization cylinder body and is connected with the atomization cylinder body;

The first quick-connect plug is connected with one of the joint ends of the first three-way joint; the first quick-connection plug is used for being connected with an air pipe interface end of the compressed air source and forming the air inlet; and

The ball valve is connected with the other joint end of the first three-way joint; the inflow end of the ball valve is used for being communicated with the water source and forming the water inlet.

4. The gas-water integrated atomizing device according to claim 1, wherein a second quick-connection plug is arranged at the bottom of the atomizing cylinder, and the second quick-connection plug is connected with the water pipe and forms the water outlet.

5. The gas-water integrated atomizing device according to claim 4, wherein the water pipe comprises a main pipe with one end connected with the second quick-connect plug, and a plurality of shunt pipes respectively communicated with the main pipe, and each shunt pipe is correspondingly connected with one atomizing nozzle.

6. The gas-water integrated atomization device according to claim 5, wherein two shunt tubes are arranged, and the two shunt tubes are connected with the main pipe through a second three-way joint;

The two atomizing nozzles are correspondingly arranged, wherein one of the atomizing nozzles is upward in the spraying direction, and the other atomizing nozzle is horizontal in the spraying direction.

7. The gas-water integrated atomizing device according to claim 1, wherein the water pipe is a hose or a telescopic pipe.

8. The gas-water integral atomizing apparatus of claim 1, wherein said support frame comprises:

The fixed pipe is arranged on the atomization cylinder body or the preset basal body, and one end of the fixed pipe extends upwards;

The lower end of the connecting pipe is sleeved with and screwed on the extending end of the fixed pipe, and the upper end of the connecting pipe is higher than the fixed pipe upwards;

The fixed cross rod is connected to the upper end of the connecting pipe and is perpendicular to the connecting pipe; the fixed cross rod is provided with the atomizing nozzle.

9. The gas-water integrated atomizing device according to claim 8, wherein one end of the water pipe penetrates into the fixed pipe and passes upward out of the connecting pipe; the upper end of the water pipe is connected with the atomizing nozzle.

10. The gas-water integrated atomizing device according to claim 8, wherein the water pipe extends along the axial direction of the fixing pipe, and a plurality of fixing rings are arranged between the water pipe and the fixing pipe and between the water pipe and the connecting pipe.