AU2020100741A4

AU2020100741A4 - A special production unit of air cleaning scavenger

Info

Publication number: AU2020100741A4
Application number: AU2020100741A
Authority: AU
Inventors: Zhifeng Gu
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-11
Filing date: 2020-05-11
Publication date: 2020-06-25
Anticipated expiration: 2028-05-11

Abstract

Abstract The invention discloses a special production unit of the air cleaning scavenger, which includes a stirring tank, a motor, a stirring rod, stirring vanes, a water tank and a high-pressure water gun. The motor is arranged above the stirring tank. The stirring rod is connected with the output end of the motor and extends into the stirring tank. The stirring vanes are arranged on the stirring rod and in the stirring tank. A first shower pipe and a second shower pipe are arranged on the stirring vanes. A water channel is formed in the stirring vanes. The water inlet ends of the first shower pipe and the second shower pipe are connected with the water channel. The water tank is connected with the output end of the motor. The high-pressure water gun is fixed on the water tank, the water inlet end is connected with the water outlet of the water tank, and the water outlet end of the high-pressure gun extends into the inner cavity of the stirring rod. An air cylinder is connected with the high-pressure water gun, and the output end is connected with the trigger of the high-pressure water gun. This unit can wash the formaldehyde scavenger attached to the stirring tank simply and thoroughly. Figure 1

Description

A special production unit of air cleaning scavenger

Field of the Invention

The invention relates to the technical field of a production unit of air cleaning scavenger, in particular to a special production unit of the air cleaning scavenger.

Background of the Invention

An air cleaning scavenger refers to a product that is produced by means of modem science and technology according to the absorption and decomposition principle of natural substances and can eliminate harmful gas and undesirable odor in the air. For example, formaldehyde scavenger can eliminate formaldehyde in the air. Formaldehyde has a strong stimulating effect on human skin and respiratory organ mucosa. People may feel uncomfortable when the formaldehyde in the air reaches a certain concentration. Excessive concentration may result in bloodshot and itchy eyes, sore throat and other symptoms. The newly-decorated and new furniture contain a large amount of formaldehyde. Formaldehyde clear spray is used widely and shall be stirred during preparation. However, formaldehyde scavenger may be attached to the inner wall of stirring tank and stirring rod. At present, it is inconvenient and incomplete to wash formaldehyde on the stirring tank due to the design defect.

Content of Invention

For the defects in the prior art, the invention provides a special production unit of an air cleaning scavenger. It can wash the formaldehyde scavenger attached on the stirring tank simply and thoroughly.

The special production unit of the air cleaning scavenger includes a stirring tank, a motor, a stirring rod, stirring vanes, a water tank and a high-pressure water gun. The motor is arranged above the stirring tank. The stirring rod is connected with the output end of the motor and extends into the stirring tank. The stirring vanes are arranged on the stirring rod and in the stirring tank. The stirring rod is of 1

2020100741 11 May 2020 a hollow structure. A first shower pipe and a second shower pipe are arranged on the stirring vanes. A water channel is formed in the stirring vanes, and the water inlet end of water channel is connected with the inner cavity of the stirring rod. The water inlet ends of the first shower pipe and the second shower pipe are connected with the water channel. The sprinkling direction of the first shower pipe faces towards the side wall of the stirring tank, and the sprinkling direction of the second shower pipe faces towards the stirring rod. The water tank is connected with the output end of the motor. The high-pressure water gun is fixed on the water tank, the water inlet end is connected with the water outlet of the water tank, and the water outlet end of the high-pressure gun extends into the inner cavity of the stirring rod. An air cylinder is connected with the high-pressure water gun, and the output end is connected with the trigger of the high-pressure water gun. To solve the problem of the existing air cleaning scavengers that the stirring tank cannot be washed conveniently and thoroughly. The investor designs this technical scheme. In the technical scheme, the stirring rod is of a hollow structure. A first shower pipe and a second shower pipe are arranged on the stirring vanes and connected with the inner cavity of stirring rod through the water channel in the stirring vanes. A water tank is connected with the output end of the motor and provided with a high-pressure water gun. The water inlet end of the high-pressure water gun is connected with the water outlet of the water tank, and the water outlet end of high-pressure water gun is connected with the inner cavity of stirring rod. An air cylinder is connected with the high-pressure water gun, and the output end of the air cylinder is connected with the trigger of the high-pressure water gun. When not washing, the water in the water tank will be discharged. During washing, water will be filled into the water tank, the air cylinder is started to move and press the trigger of high-pressure water gun to spray water into the inner cavity of stirring rod through the first shower pipe and the second shower pipe. The sprinkling direction of the first shower pipe faces towards the side wall of stirring tank for washing, and the sprinkling direction of the second shower pipe faces towards the

2020100741 11 May 2020 stirring rod for washing. The motor is started to drive the first shower pipe and the second shower pipe for making circular motion and washing the inner cavity of the whole stirring tank rapidly and thoroughly.

Preferentially, the two stirring vanes are distributed circumferentially along the stirring rod and form a stirring unit, and multiple stirring units are axially arranged on the stirring rod. In this technical scheme, multiple stirring units are provided so that the air cleaning scavenger in the stirring tank can be fully stirred.

Preferentially, three stirring units are provided.

Preferentially, the unit also includes a first water inlet unit and a second water inlet unit. The first water inlet unit is arranged on the top stirring unit, and the second water inlet unit is arranged on the middle stirring unit. The first water inlet unit includes a first water pipe with a closed lower end and a second water pipe with two open ends. The second water pipe is connected with the first water pipe and penetrates through the bottom wall. The outer wall of the first water pipe is close to the inner wall of the stirring rod. The water inlet end of water channel on the stirring vanes in the top stirring unit is connected with the cavity between the first water pipe and the second water pipe. The second water inlet unit includes a third water pipe with a closed lower end and a fourth water pipe with two open ends. The fourth water pipe is connected with the third water pipe in a penetrating way. The outer wall of the third water pipe is close to the inner wall of the stirring rod. The water inlet end of water channel on the stirring vanes in the middle stirring unit is connected with the cavity between the third water pipe and the fourth water pipe. The first water pipe, the second water pipe, the third water pipe and the fourth water pipe are coaxially arranged, and the internal diameter of the fourth water pipe is smaller than that of the second water pipe. When there are stirring units, most water flowing into the inner cavity of stirring rod is sprayed from the first shower pipe and the second shower pipe on the bottom stirring unit, so little water is sprayed from the top and middle stirring unit and results in incomplete washing of the upper inner wall of the stirring tank and the upper 3

2020100741 11 May 2020 portion of stirring rod. In this technical scheme, a first water inlet unit and a second water inlet unit are provided. The first water inlet unit is arranged on the top stirring unit, and the second water inlet unit is arranged on the middle stirring unit. The first water inlet unit includes a first water pipe with a closed lower end and a second water pipe with two open ends. The second water pipe is connected with the first water pipe and penetrates through the bottom wall. The outer wall of the first water pipe is close to the inner wall of the stirring rod. The water inlet end of water channel on the stirring vanes in the top stirring unit is connected with the cavity between the first water pipe and the second water pipe. When water falls from the upper inner cavity of stirring rod, some flows into the cavity between the first water pipe and the second water pipe and is sprayed from the first shower pipe and second shower pipe on the top stirring unit. Some water flows through the second water pipe, falls into the cavity between the third water pipe and the fourth water pipe and is sprayed from the first shower pipe and the second shower pipe on the middle stirring unit, and the rest water flows through the fourth water pipe and is sprayed from the first shower pipe and the second shower pipe on the bottom stirring unit. Therefore, all the three stirring units have sufficient water to clean the stirring tank and stirring rod thoroughly.

Preferentially, the bottom stirring unit is arranged at the bottom end of the stirring rod. In this technical scheme, the bottom stirring unit is arranged at the bottom end of the stirring rod to reduce the blind angle of washing.

Preferentially, the high-pressure water gun sprays water downward. Due to the high pressure of water flow, the high-pressure water gun in this technical scheme sprays water downward to prevent water backflow.

Preferentially, a solenoid valve is arranged between the first shower pipe and the second shower pipe. In this technical scheme, both the first shower pipe and the second shower pipe are provided with a solenoid valve. When not washing the stirring tank, the solenoid valve is shut down to prevent air cleaning scavenger from entering the first shower pipe and the second shower pipe.

2020100741 11 May 2020

Preferentially, the stirring rod is arranged vertically.

The beneficial effect of the invention is reflected in that: In the technical scheme, the stirring rod is of a hollow structure. A first shower pipe and a second shower pipe are arranged on the stirring vanes and connected with the inner cavity of stirring rod through the water channel in the stirring vanes. A water tank is connected with the output end of the motor and provided with a high-pressure water gun. The water inlet end of the high-pressure water gun is connected with the water outlet of the water tank, and the water outlet end of high-pressure water gun is connected with the inner cavity of stirring rod. An air cylinder is connected with the high-pressure water gun, and the output end of the air cylinder is connected with the trigger of the high-pressure water gun. When not washing, the water in the water tank will be discharged. During washing, water will be filled into the water tank, the air cylinder is started to move and press the trigger of high-pressure water gun to spray water into the inner cavity of stirring rod through the first shower pipe and the second shower pipe. The sprinkling direction of the first shower pipe faces towards the side wall of stirring tank for washing, and the sprinkling direction of the second shower pipe faces towards the stirring rod for washing. The motor is started to drive the first shower pipe and the second shower pipe for making circular motion and washing the inner cavity of the whole stirring tank rapidly and thoroughly.

Description of Attached Figures

To better describe this invention's specific implementation method or the technical scheme of existing technology, a brief introduction will be provided below towards the necessary attached figures used in descriptions of such implementation method or existing technology. Of all the attached figures, similar elements or parts are usually marked similarly. Each element or part is not necessarily drawn as per the actual scale in such attached figures.

Figure 1 is the main profile of the invention;

2020100741 11 May 2020

Figure 2 is the structural diagram of part (without stirring tank) in the invention;

Figure 3 is the structural diagram of the first water inlet unit in the invention;

Figure 4 is the structural diagram of the second water inlet unit in the invention.

In the attached figure, 1-Stirring tank, 2-Motor, 3-Stirring rod, 4-Stirring vanes, 5-Water tank, 6-High-pressure water gun, 7-First shower pipe, 8-Second shower pipe, 9-First water inlet unit, 10-Second water inlet unit, 11-Air cylinder, 91-First water pipe, 92-Second water pipe, 101-Third water pipe, 102-Fourth water pipe.

Specific implementation methods

Detailed descriptions will be provided about the embodiment of this invention's technical scheme, combining the drawing. The following embodiments are only used to more clearly illustrate the technical scheme of this invention, and thus are only examples, and are not intended to limit the scope of the present invention.

It's noteworthy that, unless otherwise explained, technical or scientific terms used in this application shall have meanings commonly understood by technicians from the field to which this invention belongs.

Embodiments

As shown in Figure 1 - Figure 4, this embodiment includes a stirring tank 1, a motor 2, a stirring rod 3, stirring vanes 4, a water tank 5 and a high-pressure water gun 6. The motor 2 is arranged above the stirring tank 1. The stirring rod 3 is connected with the output end of the motor 2 and extends into the stirring tank 1. The stirring vanes 4 are arranged on the stirring rod 3 and in the stirring tank 1. The stirring rod 3 is of a hollow structure. A first shower pipe 7 and a second

2020100741 11 May 2020 shower pipe 8 are arranged on the stirring vanes 4. A water channel is formed in the stirring vanes 4, and the water inlet end of water channel is connected with the inner cavity of the stirring rod 3. The water inlet ends of the first shower pipe 7 and the second shower pipe 8 are connected with the water channel. The sprinkling direction of the first shower pipe 7 faces towards the side wall of the stirring tank 1, and the sprinkling direction of the second shower pipe 8 faces towards the stirring rod 3. The water tank 5 is connected with the output end of the motor 2. The high-pressure water gun 6 is fixed on the water tank 5, the water inlet end of the high-pressure water gun 6 is connected with the water outlet of the water tank 5, and the water outlet end of the high-pressure gun 6 extends into the inner cavity of the stirring rod 3. An air cylinder 11 is connected with the high-pressure water gun 6, and the output end is connected with the trigger of the high-pressure water gun 6. In this embodiment, the motor 2 can be fixed on the stirring rod 3 or fixed on the ground through connectors, as long as it is arranged above the stirring tank 1.

For fully stirring, the two stirring vanes 4 in this embodiment are distributed circumferentially along the stirring rod 3 and form a stirring unit. Multiple stirring units are axially arranged along the stirring rod. In this embodiment, three stirring units are provided.

In order to have enough water flow through all three stirring units, this embodiment also includes a first water inlet unit 9 and a second water inlet unit 10. The first water inlet unit 9 is arranged on the top stirring unit, and the second water inlet unit 10 is arranged on the middle stirring unit. The first water inlet unit 9 includes a first water pipe 91 with a closed lower end and a second water pipe 92 with two open ends. The second water pipe 92 is connected with the first water pipe 91 and penetrates through the bottom wall of the first pipe 91. The outer wall of the first water pipe 91 is close to the inner wall of the stirring rod 3. The water inlet end of water channel on the stirring vanes 4 in the top stirring unit is connected with the cavity between the first water pipe 91 and the second water pipe 92. The second water inlet unit 10 includes a third water pipe 101 with a

2020100741 11 May 2020 closed lower end and a fourth water pipe 102 with two open ends. The fourth water pipe 102 is connected with the third water pipe 101 in a penetrating way. The outer wall of the third water pipe 101 is close to the inner wall of the stirring rod 3. The water inlet end of water channel on the stirring vanes 4 in the middle stirring unit is connected with the cavity between the third water pipe 101 and the fourth water pipe 102. The first water pipe 91, the second water pipe 92, the third water pipe 101 and the fourth water pipe 102 are coaxially arranged, and the internal diameter of the fourth water pipe 94 is smaller than that of the second water pipe 92. In this embodiment, the whole outer wall of the first water pipe 91 and the whole outer wall of the third water pipe 101 are connected with the inner wall of the stirring rod 3. In this embodiment, the three stirring units from top to the bottom are top stirring unit, middle stirring unit and bottom stirring unit sequentially.

To reduce the blind angle of washing, the bottom stirring unit in this embodiment shall be arranged at the bottom end of the stirring rod 3. In this embodiment, both the first shower pipe 7 and the second shower pipe 8 are provided with a solenoid valve. The stirring rod 3 in this embodiment is arranged vertically.

In the end, it shall be pointed out that: the above embodiments are only used as descriptions on this invention's technical scheme, instead of its limitations; despite detailed descriptions on this invention via references of various embodiments above, common technicians in this field shall understand that: he/she can still alter the technical scheme mentioned in the above embodiments, or achieve equivalent replacement of certain or all technical characteristics thereof; while such alteration or replacement is impossible to deviate corresponding technical scheme's nature from the range of the technical scheme in various embodiments of this invention, and all of such technical scheme shall be covered by the Claims of this invention.

Claims

Claims

1. A special production unit of air cleaning scavenger is characterized by comprising a stirring tank (1), a motor (2), a stirring rod (3), stirring vanes (4), a water tank (5) and a high-pressure water gun (6). The motor (2) is arranged above the stirring tank (1). The stirring rod (3) is connected with the output end of the motor (2), extends into the stirring tank (1) and connected with the stirring vanes (4). The stirring vanes (4) are arranged in the stirring tank (1). The stirring rod (3) is of a hollow structure. A first shower pipe (7) and a second shower pipe (8) are arranged on the stirring vanes (4). A water channel is formed in the stirring vanes (4), and the water inlet end is connected with the inner cavity of the stirring rod (3). The water inlet ends of the first shower pipe (7) and the second shower pipe (8) are connected with the water channel. The sprinkling direction of the first shower pipe (7) faces towards the side wall of the stirring tank (1), and the sprinkling direction of the second shower pipe (8) faces towards the stirring rod (3). The water tank (5) is connected with the output end of the motor (2). The high-pressure water gun (6) is fixed on the water tank (5). The water inlet end of the high-pressure water gun (6) is connected with the water outlet of the water tank (5), and the water outlet end of the high-pressure water gun (6) extends into the inner cavity of the stirring rod (3). An air cylinder (11) is connected with the high-pressure water gun (6), and the output end of the air cylinder (11) is connected with the trigger of the high-pressure water gun (6).
2. According to Claim 1, the special production unit of the air cleaning scavenger is characterized in that two stirring vanes (4) are distributed along the stirring rod (3) circumferentially and form a stirring unit. Multiple stirring units are arranged axially on the stirring rod (3) along the stirring rod (3).
3. According to Claim 2, the special production unit of the air cleaning scavenger is characterized in that three stirring units are provided.
4. According to Claim 3, the special production unit of the air cleaning scavenger is also characterized by comprising a first water inlet unit (9) and a

2020100741 11 May 2020 second water inlet unit (10). The first water inlet unit (9) is arranged on the top stirring unit, and the second water inlet unit (10) is arranged on the middle stirring unit. The first water inlet unit (9) includes a first water pipe (91) with a closed lower end and a second water pipe (92) with two open ends. The second water pipe (92) is connected with the first water pipe (91) and penetrates through the bottom wall of the first pipe (91). The outer wall of the first water pipe (91) is close to the inner wall of the stirring rod (3). The water inlet end of water channel on the stirring vanes (4) in the top stirring unit is connected with the cavity between the first water pipe (91) and the second water pipe (92). The second water inlet unit (10) includes a third water pipe (101) with a closed lower end and a fourth water pipe (102) with two open ends. The fourth water pipe (102) is connected with the third water pipe (101) in a penetrating way. The outer wall of the third water pipe (101) is close to the inner wall of the stirring rod (3). The water inlet end of water channel on the stirring vanes (4) in the middle stirring unit is connected with the cavity between the third water pipe (101) and the fourth water pipe (102). The first water pipe (91), the second water pipe (92), the third water pipe (101) and the fourth water pipe (102) are coaxially arranged, and the internal diameter of the fourth water pipe (94) is smaller than that of the second water pipe (92).
5. According to Claim 3, the special production unit of the air cleaning scavenger is characterized in that the bottom stirring unit is arranged at the bottom end of the stirring rod (3).
6. According to Claim 1, the special production unit of the air cleaning scavenger is characterized in that the high-pressure water gun (6) sprays water downward.
7. According to Claim 1, the special production unit of the air cleaning scavenger is characterized in that both the first shower pipe (7) and the second shower pipe (8) are provided with a solenoid valve.
8. According to Claim 1, the special production unit of the air cleaning scavenger is characterized in that the stirring rod (3) is arranged vertically.