CN219558790U - Low-foam degreasing agent defoaming device with atomizing nozzle - Google Patents

Abstract

The utility model discloses a low-foam degreasing agent defoaming device with an atomization nozzle, which relates to the technical field of degreasing and defoaming and comprises a storage tank, wherein a sealing cover is arranged at the upper end of the storage tank, a booster pump is arranged at the outer position of the storage tank, an air inlet pipe and a liquid outlet pipe are respectively inserted into the sealing cover, one end of the air inlet pipe is communicated with the output end of the booster pump, an atomization nozzle is arranged at one end of the liquid outlet pipe, a liquid outlet structure is arranged in the atomization nozzle, and the liquid outlet structure comprises a piston block, a connecting pipe, a ball bin and a plurality of atomization openings; the utility model converts liquid degreasing agent into atomized degreasing agent by using a pressurizing mode, and "squeezes" air doped in atomized degreasing agent droplets by using an auxiliary heating mode, and further adsorbs the atomized degreasing agent droplets by using a cotton string, so as to reduce the foam amount formed after the atomized degreasing agent droplets are sprayed.

Description

Low-foam degreasing agent defoaming device with atomizing nozzle

Technical Field

The utility model relates to the technical field of degreasing and defoaming, in particular to a low-foam degreasing agent defoaming device with an atomization nozzle.

Background

The degreasing agent is mainly used for removing oil stains on the surface of an object, such as equipment surface maintenance, cleaning of mechanical parts and the like, and in the actual use process, the degreasing agent is sprayed on the surface of equipment or a product in an atomization mode, and the following needs to be described: the degreasing agent mainly comprises alkaline substances and various surfactants, and the surface tension of the system can be reduced in the use process, so that foam and even accumulation overflow are generated, the speed of metal cleaning and processing is delayed or suspended due to the occurrence of foam, the cost of process operation is greatly increased, and the construction efficiency and quality are reduced, so that the currently used degreasing agent is mainly used;

in the form of atomizing type low-foam degreasing agent spraying, a certain amount of air exists in the atomized degreasing agent, the spraying speed of degreasing agent drops is high, foam generation is further increased, when the foam scale is increased, the effective adhesion area of the degreasing agent and the outer surfaces of products and equipment is reduced, and then the actual degreasing rate of the outer surfaces of the equipment and the products is reduced;

in view of the technical drawbacks of this aspect, a solution is now proposed.

Disclosure of Invention

The utility model aims to provide a low-foam degreasing agent defoaming device with an atomization nozzle, which is used for solving the problem that the actual degreasing rate is reduced due to the fact that air is doped in the degreasing agent when degreasing treatment is carried out in an atomization spraying mode.

The aim of the utility model can be achieved by the following technical scheme:

the low-foam degreasing agent defoaming device with the atomizing nozzle comprises a storage tank, wherein a sealing cover is arranged at the upper end of the storage tank, a booster pump is arranged at the outer position of the storage tank, an air inlet pipe and a liquid outlet pipe are respectively inserted in the sealing cover, one end of the air inlet pipe is communicated with the output end of the booster pump, an atomizing nozzle is arranged at one end of the liquid outlet pipe, a liquid outlet structure is arranged in the atomizing nozzle, and the liquid outlet structure comprises a piston block, a connecting pipe, a ball bin and a plurality of atomizing ports;

the connecting pipe is arranged at the center point of the piston block, the connecting pipe is in sliding connection with one end of the inner wall of the atomizing nozzle, the piston block is in sliding connection with the other end of the inner wall of the atomizing nozzle, a plurality of atomizing ports are formed in the outer wall of the circumference of the connecting pipe, which is close to one end of the atomizing nozzle, and the piston block, the connecting pipe and the ball bin are communicated;

the atomizing nozzle is characterized in that a conical atomizing cover is arranged at one end of the atomizing nozzle, a heating plate is arranged in the atomizing cover, and a plurality of thin cotton ropes are arranged at one end, close to the atomizing cover, of the connecting pipe.

Further provided is that: a plurality of rolling balls are arranged in the inner position of the outer wall of one side of the atomization cover, and the rolling balls are arranged in an annular array along the center point of the atomization cover.

Further provided is that: and a top spring is arranged at the position, close to the outer wall of the atomization cover, of the piston block, and the top spring is positioned at the outer position of the connecting pipe.

Further provided is that: the liquid outlet pipe other end extends to the position of the bottom end of the inner wall of the storage tank, and the height of the air inlet pipe other end is higher than that of the liquid outlet pipe other end.

Further provided is that: the piston block internally provided with a gas storage inner cover which is in a circular arc protruding shape along the direction far away from the atomizing cover.

Further provided is that: the ball bin is internally provided with a transfer ball, the transfer ball is rotationally connected in the ball bin along the vertical direction, a plurality of launders which are horizontally arranged are arranged in the transfer ball, and a plurality of launders are arc-shaped.

The utility model has the following beneficial effects:

1. according to the utility model, a pressurizing mode is utilized to atomize the liquid degreasing agent contained in the storage tank into a droplet-shaped degreasing agent, wherein the pressure in the storage tank is increased by the booster pump, after the pressure overcomes the elasticity of the top spring, the connecting pipe is extruded for a certain distance to expose the atomizing port to spray the degreasing agent, in the process, the atomized degreasing agent is firstly adsorbed by the cotton string and can be blown by the cotton string to swing in a small amplitude, and the purpose is to reduce the spraying speed of the degreasing agent droplets, and also to primarily absorb the air doped in the degreasing agent, so that the foam amount generated after spraying is reduced, and the auxiliary heating is combined, so that the separation of gas from the degreasing agent droplets can be accelerated;

2. in addition, when the liquid degreasing agent is sprayed out from the storage tank, firstly, the liquid degreasing agent passes through the internal storage gas hood, and the surface diffusion phenomenon in the liquid flow is utilized, wherein part of gas is reserved at the inner concave surface of the internal storage gas hood, so that the gas quantity in the liquid degreasing agent is primarily reduced, the reserved gas can be discharged again in the later use process, then the liquid degreasing agent passes through the middle rotating ball again, and the liquid support can primarily scatter the liquid degreasing agent and the gas doped in the liquid degreasing agent when directly flowing along the launder, so that the air discharge is accelerated by utilizing the heating mode after the spraying.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and 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 a low-foam degreasing agent defoaming device with an atomization nozzle according to the present utility model;

FIG. 2 is a cross-sectional view of a storage tank assembly of a low foaming degreasing agent defoaming device with an atomizer according to the present utility model;

FIG. 3 is a cross-sectional view of a misting nozzle assembly in a low-foam degreasing agent defoaming device with a misting nozzle according to the present utility model;

FIG. 4 is a cross-sectional view of a liquid outlet structure of a low foaming degreasing agent defoaming device with an atomization nozzle according to the present utility model;

fig. 5 is a cross-sectional view of a ball transferring part in a low foaming degreasing agent defoaming device with an atomization nozzle according to the present utility model.

In the figure: 1. a storage tank; 2. a booster pump; 3. an air inlet pipe; 4. a liquid outlet pipe; 5. an atomizing nozzle; 6. an atomization cover; 601. a heating sheet; 602. a rolling ball; 7. a thin cotton rope; 8. a top spring; 901. a piston block; 902. a connecting pipe; 903. a ball bin; 904. an atomization port; 10. a middle rotating ball; 1001. a launder; 11. an inner cover for storing air.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

The degreasing agent is sprayed on the surface of the equipment in a spraying and atomizing mode, so that the adhesion rate between the degreasing agent and the surface of the equipment can be increased, and the using effect is improved, but in the actual using process, the degreasing agent is sprayed in the spraying process, because the inside of atomized degreasing agent liquid drops is doped with gas, and the spraying speed of degreasing agent liquid leads to the existence of a certain amount of foam of the degreasing agent liquid drops sprayed on the equipment, when the foam amount is large, the actual adsorption area of the degreasing agent and the surface of the equipment is reduced, and the actual using effect of the degreasing agent is reduced, so that the following technical characteristics are provided:

referring to fig. 1 to 5, a low-foam degreasing agent defoaming device with an atomization nozzle in the embodiment comprises a storage tank 1, a sealing cover is arranged at the upper end position of the storage tank 1, a booster pump 2 is arranged at the outer position of the storage tank 1, an air inlet pipe 3 and a liquid outlet pipe 4 are respectively inserted into the sealing cover, one end of the air inlet pipe 3 is communicated with the output end of the booster pump 2, an atomization nozzle 5 is arranged at one end of the liquid outlet pipe 4, a liquid outlet structure is arranged in the atomization nozzle 5, and the liquid outlet structure comprises a piston block 901, a connecting pipe 902, a ball bin 903 and a plurality of atomization ports 904;

the connecting pipe 902 is arranged at the center point of the piston block 901, the connecting pipe 902 is in sliding connection with one end of the inner wall of the atomizing nozzle 5, the piston block 901 is in sliding connection with the other end of the inner wall of the atomizing nozzle 5, a plurality of atomizing ports 904 are formed in the circumferential outer wall of the connecting pipe 902, which is close to one end of the atomizing nozzle 5, and the piston block 901, the connecting pipe 902 and the ball bin 903 are communicated;

conical atomizing cover 6 is installed to atomizing nozzle 5 one end position, atomizing cover 6 internally mounted has heating plate 601, a plurality of thin cotton ropes 7 are installed to the one end that connecting pipe 902 is close to atomizing cover 6, be provided with a plurality of spin 602 in the inside position of atomizing cover 6 one side outer wall, a plurality of spin 602 are the annular array setting along atomizing cover 6's centre of a circle point, install top position spring 8 on the outer wall position that piston block 901 is close to atomizing cover 6, top position spring 8 is located the outside position of connecting pipe 902, the drain pipe 4 other end extends to on the storage jar 1 inner wall bottom position, the height of the high more than the drain pipe 4 other end of the intake pipe 3 other end.

Working principle: it should be noted that: the low foamability degreaser belongs to current prior art, plays to reduce foam production through adding the auxiliary agent, does not make more details here, in this embodiment, the inside injection liquid degreaser of storage tank 1, starts booster pump 2, extrudes liquid degreaser to atomizing nozzle 5 department along drain pipe 4 through improving the inside pressure of storage tank 1, but when spraying on the equipment surface with atomizing form, still can produce certain foam, so add the following mode:

after the internal pressure of the storage tank 1 is larger than the elastic force of the top spring 8, the connecting pipe 902 can be driven to move along the atomizing cover 6, so that the atomizing port 904 is exposed, and under the action of pressure, the liquid degreasing agent is extruded from the atomizing port 904, so that degreasing agent liquid drops are formed by the liquid degreasing agent;

in the process, the atomization cover 6 is attached to the surface of the equipment, the ball 602 is used for ensuring that the atomization cover 6 can freely slide, the heating plate 601 is started, part of gas in degreasing agent liquid drops is separated out in a heating mode, moreover, when the degreasing agent liquid drops are sprayed out, the thin cotton ropes 7 can be driven to swing irregularly by the pressure generated during spraying, in the swinging process, the spraying speed of the degreasing agent liquid drops is reduced, the degreasing agent liquid drops can be adsorbed, but the gas in the degreasing agent liquid cannot be separated out by the thin cotton ropes 7, and the degreasing agent liquid is used for separating gas and liquid;

it should be noted again that: in the heating state, the degreasing agent adsorbed in the cotton string 7 can be evaporated, the amount of gas existing in the degreasing agent finally sprayed to the surface of the equipment is small, the spraying speed is low, and the amount of generated foam is reduced.

Example two

The working principle in the first embodiment is further optimized, and the working principle is specifically as follows:

the piston block 901 internally mounted has the gas storage inner cover 11, and the gas storage inner cover 11 is the circular arc bulge along the direction of keeping away from atomizing cover 6, and ball storehouse 903 is inside to be provided with transfer ball 10, and transfer ball 10 is inside along vertical direction for rotating the connection in ball storehouse 903, and the inside chute 1001 that sets up of many being the level of having offered of transfer ball 10, and many chute 1001 are circular arc bending.

Working principle: by utilizing the surface diffusion phenomenon in the liquid flow, referring to fig. 4, when the gas storage inner cover 11 is in a circular cap shape and the liquid degreasing flows along the direction of the gas storage inner cover 11 to the transfer ball 10, the concave surface at one side of the gas storage inner cover 11 is kept in a hollow shape, and only gas is reserved in the gas storage inner cover, so that the purpose is to primarily reduce the gas in the liquid degreasing agent;

when flowing to the transfer ball 10, the liquid degreasing agent flows through the launder 1001 and can drive the transfer ball 10 to irregularly rotate, but can always keep the circulation of the liquid degreasing agent in the connecting pipe 902, and when irregularly swinging, the liquid degreasing agent can be scattered, and gas and liquid are primarily separated;

the two sections are to accelerate the gas precipitation process in the degreasing agent droplet in order to enhance the temperature raising method in the first embodiment.

To sum up: the method is characterized in that a liquid degreasing agent contained in the storage tank is atomized into a droplet-shaped degreasing agent by utilizing a pressurizing mode, wherein the pressure in the storage tank is increased by a pressurizing pump, after the pressure overcomes the elasticity of a top spring, a connecting pipe is extruded for a certain distance to expose an atomizing port to spray the degreasing agent, in the process, the atomized degreasing agent is firstly adsorbed by a cotton string and can be blown to swing by a small extent, the purpose is to slow down the spraying speed of degreasing agent liquid drops, and the air doped in the degreasing agent can be absorbed primarily, so that the foam amount generated after spraying is reduced, and the auxiliary heating is combined, so that the gas can be accelerated to separate out from the degreasing agent liquid drops.

The foregoing is merely illustrative and explanatory of the utility model, as it is well within the scope of the utility model as claimed, as it relates to various modifications, additions and substitutions for those skilled in the art, without departing from the inventive concept and without departing from the scope of the utility model as defined in the accompanying claims.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the utility model disclosed above are intended only to assist in the explanation of the utility model. The preferred embodiments are not intended to be exhaustive or to limit the utility model to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best understand and utilize the utility model. The utility model is limited only by the claims and the full scope and equivalents thereof.

Claims (6)

1. The utility model provides a low bubble degreasing agent defoaming device with atomizer, includes storage jar (1), its characterized in that, be provided with sealed lid on storage jar (1) upper end position, and be provided with booster pump (2) on storage jar (1) external position, sealed covering is inserted respectively and is equipped with intake pipe (3) and drain pipe (4), communicate between intake pipe (3) one end and booster pump (2)'s the output, atomizing mouth (5) are installed to drain pipe (4) one end, atomizing mouth (5) inside is provided with liquid outlet structure, liquid outlet structure includes piston block (901), connecting pipe (902), ball storehouse (903) and a plurality of atomizing mouth (904);

the connecting pipe (902) is arranged at the center point of the piston block (901), the connecting pipe (902) is in sliding connection with one end of the inner wall of the atomizing nozzle (5), the piston block (901) is in sliding connection with the other end of the inner wall of the atomizing nozzle (5), a plurality of atomizing ports (904) are formed in the circumferential outer wall of the connecting pipe (902) close to one end of the atomizing nozzle (5), and the piston block (901), the connecting pipe (902) and the ball bin (903) are communicated;

a conical atomizing cover (6) is arranged at one end of the atomizing nozzle (5), a heating plate (601) is arranged in the atomizing cover (6), and a plurality of thin cotton ropes (7) are arranged at one end, close to the atomizing cover (6), of the connecting pipe (902).

2. The low-foam degreasing agent defoaming device with the atomizing nozzle according to claim 1, wherein a plurality of rolling balls (602) are arranged in the inner position of the outer wall of one side of the atomizing cover (6), and the rolling balls (602) are arranged in an annular array along the center point of the atomizing cover (6).

3. The low-foam degreasing agent defoaming device with the atomizing nozzle according to claim 1, wherein a top spring (8) is installed on the position, close to the outer wall of the atomizing cover (6), of the piston block (901), and the top spring (8) is located on the outer position of the connecting pipe (902).

4. The low-foam degreasing agent defoaming device with the atomizing nozzle according to claim 1, wherein the other end of the liquid outlet pipe (4) extends to the bottom end position of the inner wall of the storage tank (1), and the height of the other end of the air inlet pipe (3) is higher than that of the other end of the liquid outlet pipe (4).

5. The low-foam degreasing agent defoaming device with the atomizing nozzle according to claim 1, wherein the piston block (901) is internally provided with an air-storage inner cover (11), and the air-storage inner cover (11) is in a circular arc protruding shape along a direction away from the atomizing cover (6).

6. The low-foam degreasing agent defoaming device with the atomizing nozzle according to claim 1, wherein a middle rotating ball (10) is arranged inside the ball bin (903), the middle rotating ball (10) is in rotary connection in the vertical direction inside the ball bin (903), a plurality of flow grooves (1001) horizontally arranged are formed inside the middle rotating ball (10), and the flow grooves (1001) are in an arc bending shape.