CN220405504U - Paint mixing device with gas treatment function - Google Patents

Abstract

The utility model belongs to the field of paint mixing, and particularly relates to a paint mixing device with a gas treatment function. The paint mixing device comprises an air suction mechanism and a purifying module, wherein the purifying module is installed on the air suction mechanism and is used for sucking paint mixing gas, and the purifying module is used for purifying the gas. The utility model provides a paint mixing device with a gas treatment function, and aims to solve the problem that paint mixing gas generated by paint mixing in the prior art pollutes the environment.

Description

Paint mixing device with gas treatment function

Technical Field

The utility model belongs to the field of paint mixing, and particularly relates to a paint mixing device with a gas treatment function.

Background

In daily life, most articles are provided with a paint layer on their surface. The paint layer can protect the articles, so that the articles are more attractive and the like. However, in daily use, the paint layer on the surface of the article is very easy to scratch by external articles and cause paint drop. For example: the automobile collides and scratches, and the paint layer on the surface of the automobile can be dropped. Or the door and window is contacted with the external sharp objects, and the paint layer on the surface of the door and window falls off.

When paint is removed from the surface of the article, the surface of the article needs to be subjected to paint repair in order to make the article more attractive and achieve the protection effect on the article. As the color, consistency, etc. of the paint layer originally arranged on the surface of different articles are different, for example: some vehicles are red vehicle paint, and some vehicles are blue vehicle paint. In order to ensure that the paint layer which is repaired later is consistent with the paint layer which is originally arranged on the surface of the article, the paint mixing is carried out. Paint mixing is to adjust paint to corresponding color, consistency, etc.

When paint is mixed, because most paint and solvents have pungent odor, the pungent gases are free to drift around, so that the discomfort of operators is very serious, and the environment is polluted. In addition, some impurities are present in most of these gases, which also cause environmental pollution.

Therefore, the prior art has the problem of environmental pollution caused by free diffusion of paint mixing gas.

Disclosure of Invention

The utility model provides a paint mixing device with a gas treatment function, and aims to solve the problem that paint mixing gas generated by paint mixing in the prior art pollutes the environment.

In order to achieve the above purpose, the utility model provides a paint mixing device with a gas treatment function, which comprises a paint mixing component and a gas treatment device, wherein the paint mixing component is used for mixing paint, and the gas treatment device is arranged corresponding to the paint mixing component;

the gas treatment device comprises a gas inlet, a gas outlet and a gas treatment module, wherein the gas treatment module is arranged on a flow path from the gas inlet to the gas outlet. In this scheme, the operator carries out the operation of mixing paint at the mixing paint part. And (5) enabling the gas generated by paint mixing to enter a gas treatment device. The gas treatment module inside the gas treatment device can treat the gas, so that the gas is prevented from polluting the environment. Finally, the treated gas is discharged to the external environment from the exhaust port, so that the environment is not polluted, and the problem that the paint mixing gas pollutes the environment in the prior art is solved.

Further, in order to realize the purification of gas, the gas treatment module of this scheme includes gas adsorption unit, gas adsorption unit is used for carrying out adsorption purification to gas. In the scheme, when paint mixing gas flows through the gas treatment module, the paint mixing gas is contacted with the gas adsorption unit, and harmful substances in the paint mixing gas are adsorbed by the gas adsorption unit, so that the problem of pollution to the environment caused by direct discharge of the paint mixing gas is solved.

Further, during the paint mixing process, some fine impurities are usually generated. Therefore, in order to achieve purification of the gas. The gas treatment module comprises a filtering unit, wherein the filtering unit is used for filtering gas. When paint mixing gas flows through the gas treatment module, the paint mixing gas passes through the filtering unit, and the filtering unit filters impurities contained in the paint mixing gas, so that the environment pollution caused by random discharge of the impurities to the outside is avoided.

Further, in this embodiment, the filter unit preferably includes a filter cotton, and the gas is purified by adsorption through the filter cotton.

In order to facilitate paint mixing, the paint mixing component in the scheme is a paint mixing table. Paint is prepared by the paint mixing table, so that the paint mixing table is convenient to use.

Further, in order to solve the problem that gas can not automatically enter the gas treatment device, the scheme is that the gas treatment device comprises a gas inlet component and a fan, the gas inlet component corresponds to the paint mixing component, the gas inlet is located the gas inlet component, the gas inlet component is connected with the fan, and the fan is used for absorbing paint mixing gas. In this scheme, the inlet part corresponds to the paint mixing part and sets up. Then when the fan works, the suction provided by the fan enables the gas generated by the paint mixing part to be sucked into the air inlet part, and the paint mixing gas is sucked. In this scheme, through the fan absorption gas of mixing, compare in letting mixing gas only diffuse, mixing gas's absorption effect is better, mixing gas's purifying effect is better.

Furthermore, in order to realize the treatment of paint mixing gas, environmental pollution is avoided. In this embodiment, the gas treatment module is mounted to the gas inlet member. According to the scheme, the gas treatment module is arranged in the gas inlet component, and when paint mixing gas flows through the gas inlet component, the paint mixing gas is treated by the gas treatment module positioned in the gas inlet component. The paint mixing gas is conveyed to a fan after being treated, and the fan discharges the treated paint mixing gas to the outside.

Further, in order to solve the replacement problem of the gas treatment module, the gas treatment module is ensured to be used for a long time. According to the scheme, the gas treatment module is detachably arranged on the gas inlet component. When the device is used for a long time, the treatment effect of the gas treatment module is inevitably reduced, so that the gas treatment module is preferably installed in a detachable manner in the scheme. After the device is used for a period of time, the gas treatment module is directly separated from the gas inlet component, so that the gas treatment module is replaced.

Further, in order to realize the better absorption effect to paint gas, this scheme the air inlet part pass through the connector with the fan intercommunication, the area of air inlet is greater than the area of connector. In this scheme, the gas that transfers paint gets into in the air inlet part from the air inlet, then discharges from the connector after the processing again. Therefore, when the area of the air inlet is larger than that of the connecting port, more paint mixing gas can enter the air inlet part and then is processed by the gas processing module, and the effect of absorbing and processing the paint mixing gas is better.

Alternatively, in some embodiments, the air intake member may be directly configured to have a trumpet shape. Through the horn-shaped structure, the absorption and treatment effects of the paint mixing gas are better.

Further, in order to solve the problem that paint mixing gas is freely diffused, the paint mixing gas does not enter the air inlet component. The scheme includes guide part, guide part upper end with the air inlet part cooperation, guide part lower extreme with the cooperation of mixing lacquer part, guide part is used for blockking mixing lacquer gas free diffusion. In this scheme, guide part is directed the gas of mixing paint for the diffusion direction of gas of mixing paint is restricted and is directed. After paint mixing gas is guided into the air inlet part by the guide part, the air inlet part has better effect of absorbing the gas.

Since there are a plurality of directions in which the paint-adjusting gas diffuses, it is also necessary to avoid the guide member from interfering with the operator for paint-adjusting work. Preferably, the guiding part is U-shaped, so that paint mixing gas is collected into the air inlet part. The guide part is U-shaped, so that the effect of guiding the flow of paint mixing gas in three directions can be achieved, and the guiding effect on the paint mixing gas is better. Meanwhile, the guide part is U-shaped, so that a use space is reserved for a user, and interference to the user is avoided.

Further, in order to achieve the better absorption effect on paint mixing gas, the air inlet component is arranged right above the paint mixing component, and the bottom end area of the air inlet component is not smaller than the area of the paint mixing component. In this scheme, because the area of the bottom end of the air inlet part is not less than the area of the paint mixing part, the air inlet part can cover a larger area, more paint mixing gas can be absorbed by the paint mixing gas treatment module, and the paint mixing gas treatment effect is better.

The utility model has the beneficial effects that: in this scheme, the operator carries out the operation of mixing paint at the mixing paint part. And (5) enabling the gas generated by paint mixing to enter a gas treatment device. The gas treatment module inside the gas treatment device can treat the gas, so that the gas is prevented from polluting the environment. Finally, the treated gas is discharged to the external environment from the exhaust port, so that the environment is not polluted, and the problem that the paint mixing gas pollutes the environment in the prior art is solved.

Drawings

Fig. 1 is a schematic structural diagram of a paint mixing device with a gas treatment function.

Fig. 2 is a schematic view of the structure of the gas treatment apparatus.

Fig. 3 is a front sectional view of the air intake member.

Fig. 4 is a top view cross-sectional view of the air intake member.

Fig. 5 is a schematic structural view of the mounting frame.

The reference numerals include: a paint mixing table 1, a gas treatment device 2, a gas inlet member 21, a gas inlet 211, a connection port 212, a gas treatment module 213, a gas adsorption unit 213a, a mounting frame 213b, a fan 22, and a guide member 3.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the examples more apparent. 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.

An embodiment is basically as shown in fig. 1 to 2, and a paint mixing device with a gas treatment function comprises a paint mixing component 1 and a gas treatment device 2. The paint mixing part 1 is a paint mixing table, the paint mixing table is a rectangular table body, and the upper surface of the paint mixing table is used for an operator to mix paint. In other embodiments, the paint booth may be replaced with a paint booth or a paint palette, or the like. In this embodiment, the gas treatment device 2 is installed directly above the paint mixing table. When a user performs paint mixing, paint mixing gas generated by paint mixing is directly processed by the gas processing device 2, so that environmental pollution and personnel discomfort caused by free diffusion of the paint mixing gas are avoided.

The gas processing apparatus 2 in this embodiment includes a gas processing module 213, a gas inlet member 21, and a blower 22. The gas inlet member 21 is a rectangular hollow box in which the gas treatment module 213 is installed. The lower end of the air inlet part is provided with an air inlet 211, and the upper end of the air inlet part is provided with a connecting port 212. The connection port 212 is connected with the fan 22 through a pipeline, an outlet of the fan 22 is an exhaust port, and the exhaust port is communicated with the outside. The fan 22 is installed outside the position of the paint mixing table, and can be arranged outside a room.

In this embodiment, the air inlet area of the air inlet 211 is larger than the air outlet area of the connection port 212, so that paint mixing gas in a larger area can be sucked. In this embodiment, the bottom end area of the air inlet part 21 is not smaller than the area of the top surface of the paint mixing table, so that paint mixing gas generated by the paint mixing table can be more covered and absorbed by the air inlet part 21, the gas absorption efficiency of the paint mixing gas is higher, and the gas treatment effect is better. In some embodiments, the air inlet part 21 may also be directly provided in a horn shape, and the horn mouth of the air inlet part faces the paint mixing table, so that paint mixing gas can be sucked by the gas treatment device 2 more.

In this embodiment, when paint is being dispensed, the blower 22 is operated, and paint-dispensing gas enters the air inlet member 21 through the air inlet 211 and then is discharged from the air inlet member 21 through the connection port 212. After the paint mixing gas is discharged from the connection port 212, the paint mixing gas reaches the fan 22 through a pipeline, and the fan 22 discharges the gas to the outside. Paint mixing gas is treated by the gas treatment module 213 when the paint mixing gas is inside the air inlet part 21, so that pollution to the environment is avoided.

In other embodiments, the gas treatment module 213 may also be mounted within the gas inlet 21, with the gas inlet 21 being located in the duct between the gas inlet 21 and the blower 22. That is, the paint mixing gas enters the air intake part 21 through the pipe, is purified in the air intake part 21, is then conveyed to the blower 22 through the pipe, and is finally discharged to the outside from the outlet of the blower 22.

The blower 22 in this embodiment is located outside the air intake member 21, and the blower 22 is in communication with the air intake member 21 through a pipe. However, in some embodiments, the blower 22 may also be integrally installed directly inside the air intake part 21, and then the outlet of the air intake part 21 communicates with the outside through a duct.

The gas treatment module 213 in the present embodiment is mounted at the gas inlet 211 of the gas inlet member 21, specifically by bolts. That is, a screw hole is provided at the air inlet 211 of the air inlet member 21, and then a mounting hole is provided on the gas treatment module 213. Bolts are inserted into the screw holes from the mounting holes so that the gas treatment module 213 is detachably mounted at the gas inlet 211 of the gas inlet part 21.

The gas treatment module 213 in this embodiment specifically includes a mounting frame 213b and a gas adsorption unit 213a, and the gas adsorption unit 213a may be a plate-type activated carbon air filter, a plate-type honeycomb activated carbon filter, or the like. In this embodiment, the gas adsorption unit 213a adsorbs harmful substances in the air by using activated carbon, so as to perform the function of purifying paint mixing gas, and prevent the paint mixing gas from polluting the environment. The gas adsorption unit 213a is installed in the installation frame in this embodiment. Specifically, in the present embodiment, the mounting frame 213b is a rectangular frame body, and a mounting groove is formed in the mounting frame 213b, and the mounting groove is used for accommodating the gas adsorption unit 213a. Of course, in some embodiments, other gas purging modules of the prior art may be employed to effect purging of the paint-switching gas.

The edge of the mounting frame 213b in this embodiment is fixedly connected to the inner wall of the air intake member 21 at the air intake port 211, specifically by a fastener (e.g., a bolt or a screw). The connection mode is as above. In this embodiment, three mounting frames 213b are provided, and the gas adsorption units 213a are correspondingly mounted in the three mounting frames 213 b. The three mounting frames 213b are spliced, so that the air inlet 211 is completely matched and sealed, and gaps are avoided. Of course, in some embodiments, only one mounting frame 213b may be provided, and one mounting frame 213b may be provided with the gas adsorption unit 213a, and the gas inlet 211 may be completely closed by completely matching one mounting frame 213b with the gas inlet 211.

In order to play a role in blocking gas, free diffusion of the gas is avoided. The present embodiment is provided with a guide member 3. The guide member 3 is U-shaped as a whole and is vertically arranged. The upper end of the guide member 3 is connected to the lower end of the air intake member 21, and the lower end of the guide member 3 is connected to the paint mixing table. Therefore, the paint adjusting gas generated by paint adjusting can be blocked by the guide part 3, so that the paint adjusting gas cannot be freely diffused, and the gas inlet part 21 can absorb more gas, so that the treatment effect on the gas is better. At the same time, the guiding part 3 of the present embodiment also plays a supporting role, so that the air intake part 21 is stably installed above the paint mixing table.

In some other embodiments, the guide member 3 may be disposed such that only the upper end is connected to the air intake member 21, and the lower end of the guide member 3 is disposed in a floating manner. At this time, the guide member 3 can still function as a barrier. Alternatively, the guide member 3 is provided with a lower end connected to the paint roller, and the guide member 3 is not fixedly connected to the air intake member 21. Of course, in these embodiments, the guide member 3 cannot support the air intake member 21, and an additional frame is required to support the air intake member 21 so that the air intake member 21 is stably located directly above the paint booth.

In this embodiment, an installation opening is formed in the bottom of the gas treatment device 2, and the installation opening is used for installing a shadowless lamp, and the shadowless lamp is particularly used for illumination, so that paint mixing is convenient to use. The shadowless lamp in the present embodiment is specifically disposed at the bottom of the mounting frame 213b in the gas processing module 213. The mounting frame 213b is configured with a mounting opening in which the shadowless lamp holder is mounted by a screw, and the shadowless lamp is mounted in the shadowless lamp holder.

Example 2

The difference between the present embodiment and embodiment 1 is that the gas treatment module 213 in the present embodiment specifically includes a mounting frame 213b and a filter unit, and the filter unit is a plate-type filter cotton filter layer. Of course, in some embodiments, the filter unit may also be a plate nylon mesh air filter, a plate metal mesh air filter, a plate flat mesh air filter, or a plate overlay mesh air filter. In the embodiment, the filtering unit filters harmful substances in the air, so that the effect of purifying paint mixing gas is achieved, and the environment is prevented from being polluted by the paint mixing gas. The filter unit in this embodiment is mounted in a mounting frame. Specifically, in this embodiment, the mounting frame 213b is a rectangular frame body, and a mounting groove is formed in the mounting frame 213b, and is used for accommodating the filter unit.

The foregoing is merely exemplary embodiments of the present utility model, and specific structures and features that are well known in the art are not described in detail herein. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present utility model, and these should also be considered as the scope of the present utility model, which does not affect the effect of the implementation of the present utility model and the utility of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (10)

1. Paint mixing device with gas treatment function, its characterized in that: comprises a paint mixing component (1) and a gas treatment device (2), wherein the paint mixing component is provided with the gas treatment device (2);

the gas treatment device (2) comprises a gas inlet (211), a gas outlet and a gas treatment module (213), wherein the gas treatment module (213) is arranged on a flow path from the gas inlet (211) to the gas outlet, and the gas treatment module (213) is used for treating gas.

2. The paint mixing device with a gas treatment function according to claim 1, wherein: the gas treatment module (213) comprises a gas adsorption unit (213 a), and the gas adsorption unit (213 a) is used for carrying out adsorption purification on the gas.

3. The paint mixing device with a gas treatment function according to claim 1, wherein: the gas treatment module (213) comprises a filter unit for filtering and purifying the gas.

4. A paint mixing device with gas treatment function according to claim 3, characterized in that: the filter unit comprises filter cotton.

5. A paint mixing device with gas treatment function according to any one of claims 1-4, characterized in that: the gas treatment device (2) comprises a gas inlet component (21) and a fan (22), wherein the gas inlet component (21) is arranged corresponding to the paint mixing component, the gas inlet (211) is arranged on the gas inlet component (21), the gas inlet component (21) is connected with the fan (22), and the fan (22) is used for absorbing paint mixing gas.

6. The paint mixing device with a gas treatment function according to claim 5, wherein: the gas treatment module (213) is mounted to the gas inlet member (21).

7. The paint mixing device with a gas treatment function according to claim 6, wherein: the gas treatment module (213) is detachably mounted inside the gas inlet member (21).

8. The paint mixing device with a gas treatment function according to claim 5, wherein: the air inlet component (21) is communicated with the fan (22) through a connecting port (212), and the area of the air inlet (211) is larger than that of the connecting port (212);

or, the air inlet part (21) is in a horn shape.

9. The paint mixing device with a gas treatment function according to claim 5, wherein: the paint mixing device comprises a guide part (3), wherein the upper end of the guide part (3) is matched with the air inlet part (21), the lower end of the guide part (3) is matched with the paint mixing part, and the guide part (3) is used for guiding paint mixing gas to enter the air inlet part (21).

10. The paint mixing device with a gas treatment function according to claim 5, wherein: the air inlet component (21) is arranged right above the paint mixing component, and the bottom area of the air inlet component (21) is not smaller than the top end area of the paint mixing component.