CN108523741B

CN108523741B - Intelligent mixing cleaning device

Info

Publication number: CN108523741B
Application number: CN201810320099.1A
Authority: CN
Inventors: 李华
Original assignee: Ruian Zhanrui Logistics Service Co ltd
Current assignee: RUIAN ZHANRUI LOGISTICS SERVICE Co.,Ltd.
Priority date: 2018-04-11
Filing date: 2018-04-11
Publication date: 2020-07-24
Anticipated expiration: 2038-04-11
Also published as: CN108523741A

Abstract

The invention discloses an intelligent mixing and cleaning device which comprises a powder storage mechanism, a liquid storage mechanism and at least one central control column, wherein the central control column sequentially penetrates through the powder storage mechanism and the liquid storage mechanism, one end of the central control column is provided with a pressing spray head, the other end of the central control column is provided with a solid-liquid mixing mechanism, and the central control column can compress one end of the solid-liquid mixing mechanism; when the central control column is not compressed, the solid discharge chute and the liquid discharge chute are shielded by the shell of the central control column. The soap is made into powder for storage, a proper amount of powder is poured out independently according to actual use conditions and mixed with water to prepare cleaning foam for cleaning, the cleaning foam can be stored for a long time after being unsealed for use, the stored soap powder does not need to be contacted with water, and after the soap powder is prevented from being repeatedly contacted with water, the soap ingredient changes and goes bad, the long-term use can be ensured, and the cleaning effect is stable all the time.

Description

Intelligent mixing cleaning device

Technical Field

The invention relates to the field of cleaning, in particular to an intelligent mixing cleaning device.

Background

The hands of a person need to do a lot of things every day, so that the person can be stained with a lot of dirty things, and if the hands are not clean, the person can easily eat the dirty things into the mouth, so that the person is ill. In order to prevent diseases from entering the mouth, a good habit of washing hands before and after meals needs to be developed. Proper hand washing is the most effective and economical way to prevent various cross-infections. Maintaining hand hygiene is the most basic, simplest and effective means to effectively prevent and control pathogen transmission, thereby reducing the incidence of nosocomial infections. Especially, the bacterial load of hands after washing hands with soap is reduced by 65-84% compared with the bacterial load of hands during operation, and the bacteria on hands are reduced more obviously as the washing frequency is more, so that the importance on hand hygiene is the key for controlling bacterial infection.

However, the effective cleaning and sterilizing components in the soap are not always constant, and the cleaning effect of the same soap is obviously reduced along with exposure to the water repeatedly during the sun and time. At present, no soap in the market can be used after being unsealed without going bad for a long time, and can not be deformed after being repeatedly used and flushed with water, and the cleaning and sterilizing effects are not reduced.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provides an intelligent mixing cleaning device, which is used for preparing soap into powder for storage, pouring out proper amount of powder to be mixed with water to prepare cleaning foam for cleaning according to actual use conditions, and storing the soap powder for a long time after unsealing use, wherein the stored soap powder does not need to be contacted with water, so that the soap ingredient is prevented from changing and deteriorating after repeatedly contacting with water, the long-term use can be ensured, and the cleaning effect is always stable.

In order to achieve the purpose and achieve the technical effect, the technical scheme of the invention is as follows: the utility model provides a mixed cleaning device of intelligence, includes powder storage mechanism, liquid storage mechanism and at least one central control post, the central control post passes in proper order powder storage mechanism with liquid storage mechanism, its characterized in that: a pressing nozzle is arranged at one end of the central control column, a solid-liquid mixing mechanism is arranged at the other end of the central control column, a solid discharge chute is arranged at a position, which penetrates through the powder storage mechanism, on the central control column, a liquid discharge chute is arranged at a position, which penetrates through the liquid storage mechanism, on the central control column, and the central control column can compress one end of the solid-liquid mixing mechanism;

when the central control column is not compressed, the solid discharge chute and the liquid discharge chute are shielded by the central control column shell.

In a preferred embodiment of the present invention, the central control column further comprises a stirring paddle disposed at an end thereof adjacent to the solid-liquid mixing mechanism.

In a preferred embodiment of the present invention, the pressing nozzle is an atomizing nozzle.

In a preferred embodiment of the present invention, when the central control column is compressed, the solid discharge chute and the liquid discharge chute are also pushed towards one end of the solid-liquid mixing mechanism, and the solid discharge chute and the liquid discharge chute can be separated from the shielding of the central control column shell.

In a preferred embodiment of the invention, the lower ends of the solid discharge chute and the liquid discharge chute enter the solid-liquid mixing mechanism.

In a preferred embodiment of the present invention, the apparatus further comprises an absorption pipe disposed at one end of the pressing nozzle, and the other end of the absorption pipe enters the solid-liquid mixing mechanism.

In a preferred embodiment of the present invention, the method further comprises that the end of the suction pipe is not in contact with the bottom of the solid-liquid mixing mechanism, and a hose is connected to the end of the suction pipe.

In a preferred embodiment of the present invention, the powder storage mechanism, the liquid storage mechanism and the solid-liquid mixing mechanism are transparent.

In a preferred embodiment of the present invention, the powder storage mechanism and the solid-liquid mixing mechanism are provided with volume graduation lines on the outer shell.

In a preferred embodiment of the present invention, the liquid storage mechanism further comprises a waterproof coating on the inner layer.

The invention has the beneficial effects that:

the soap powder mixing mechanism is used for mixing the soap powder with the solution poured out of the liquid discharging groove in the liquid storage mechanism to form soap liquid.

Secondly, a stirring paddle is further arranged at one end, close to the solid-liquid mixing mechanism, of the central control column, the stirring paddle can fully stir and mix soap powder and liquid, the soap utilization rate is improved, the soap powder and the liquid can be conveniently combined with an atomization step in a pressing nozzle, thick soap foam is formed, and the cleaning effect is improved.

Thirdly, a solid discharge groove is formed in the position, penetrating through the powder storage mechanism, of the central control column, a liquid discharge groove is formed in the position, penetrating through the liquid storage mechanism, of the central control column, the central control column can be compressed towards one end of the solid-liquid mixing mechanism, when the central control column is compressed, the solid discharge groove and the liquid discharge groove are pushed towards one end of the solid-liquid mixing mechanism, and the solid discharge groove and the liquid discharge groove can be separated from the shielding of a shell of the central control column. When the central control post is not compressed, solid blown down tank and liquid blown down tank are sheltered from by central control post shell, the central control post is compressed the back, the position at place of solid blown down tank and liquid blown down tank moves down along with the central control post, it shelters from to have broken away from central control post shell, make things convenient for soap powder and liquid to get into solid-liquid mixing mechanism through solid blown down tank and liquid blown down tank respectively and mix, the central control post breaks away from the compression back once more, solid blown down tank and liquid blown down tank are sheltered from by central control post shell again, this kind of structural design is simple, and convenient for operation can be used repeatedly, through mechanical structure operation, soap powder and liquid in quantitative use powder storage mechanism and the liquid storage mechanism.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings. The detailed description of the present invention is given in detail by the following examples and the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a block diagram of a preferred embodiment of the present invention;

in fig. 1: 1. the device comprises a powder storage mechanism 2, a liquid storage mechanism 3, a central control column 4, a pressing nozzle 5, a solid-liquid mixing mechanism 6, a solid discharging groove 7, a liquid discharging groove 8, a shell 9, a stirring paddle 10, an absorption pipe 11 and volume scale marks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

As shown in fig. 1, the embodiment discloses an intelligent mixing and cleaning device, which includes a powder storage mechanism 1, a liquid storage mechanism 2 and at least one central control column 3, wherein the central control column 3 sequentially passes through the powder storage mechanism 1 and the liquid storage mechanism 2, one end of the central control column 3 is provided with a pressing nozzle 4, the other end of the central control column 3 is provided with a solid-liquid mixing mechanism 5, a solid discharge chute 6 is arranged at a position on the central control column 3 where the central control column passes through the powder storage mechanism 1, a liquid discharge chute 7 is arranged at a position on the central control column 3 where the central control column passes through the liquid storage mechanism 2, and the central control column 3 can compress one end of the solid-liquid mixing mechanism 5; when the central control column 3 is not compressed, the solid discharge chute 6 and the liquid discharge chute 7 are shielded by the shell 8 of the central control column 3. According to the using method, the situation that the soap is deteriorated and the cleaning effect is reduced due to repeated contact with water after common soap is unsealed and used is avoided, the soap is mixed according to the using amount, the soap can be effectively used for a long time, and the health problem caused by insufficient cleaning effect is avoided. The end, close to the solid-liquid mixing mechanism 5, of the central control column 3 is also provided with a stirring paddle 9, the stirring paddle 9 can fully stir and mix soap powder and liquid, the soap utilization rate is improved, the soap can be conveniently combined with the atomization step in the pressing nozzle 4, thick soap foam is formed, and the cleaning effect is improved. The central control column 3 is provided with a solid discharge chute 6 at the position where the central control column passes through the powder storage mechanism 1, the central control column 3 is provided with a liquid discharge chute 7 at the position where the central control column passes through the liquid storage mechanism 2, the central control column 3 can be compressed towards one end of the solid-liquid mixing mechanism 5, when the central control column 3 is compressed, the solid discharge chute 6 and the liquid discharge chute 7 are also pushed towards one end of the solid-liquid mixing mechanism 5, and the solid discharge chute 6 and the liquid discharge chute 7 can be separated from the housing 8 of the central control column 3. When central control post 3 is not compressed, solid blown down tank 6 and liquid blown down tank 7 are sheltered from by central control post 3 shell 8, central control post 3 is compressed the back, the position at the place of solid blown down tank 6 and liquid blown down tank 7 moves down along with central control post 3, it shelters from to have broken away from central control post 3 shell 8, make things convenient for soap powder and liquid to get into solid-liquid mixing mechanism 5 through solid blown down tank 6 and liquid blown down tank 7 respectively and mix, central control post 3 breaks away from the compression back once more, solid blown down tank 6 and liquid blown down tank 7 are sheltered from by central control post 3 shell 8 again, this kind of structural design is simple, and convenient for operation, can use repeatedly, through mechanical structure operation, soap powder and liquid in the ration powder storage mechanism 1 and the liquid storage mechanism 2.

When the invention is used, one end of the central control column 3 close to the solid-liquid mixing mechanism 5 is also provided with a stirring paddle 9. The end of the central control column 3 close to the solid-liquid mixing mechanism 5 is also provided with a stirring paddle 9, and the stirring paddle 9 can fully stir and mix soap powder and liquid, so that the utilization rate of the soap is improved.

When the invention is used, the pressing nozzle 4 is an atomizing nozzle. The atomization operation in the pressing nozzle 4 can form thick soap foam with the soap liquid, and the cleaning effect is improved.

When the central control column 3 is compressed during use, the solid discharge chute 6 and the liquid discharge chute 7 are pushed towards one end of the solid-liquid mixing mechanism 5, the solid discharge chute 6 and the liquid discharge chute 7 can be separated from the shielding of the shell 8 of the central control column 3, and the lower ends of the solid discharge chute 6 and the liquid discharge chute 7 enter the solid-liquid mixing mechanism 5. The central control column 3 is provided with a solid discharge chute 6 at the position where the central control column passes through the powder storage mechanism 1, the central control column 3 is provided with a liquid discharge chute 7 at the position where the central control column passes through the liquid storage mechanism 2, the central control column 3 can be compressed towards one end of the solid-liquid mixing mechanism 5, when the central control column 3 is compressed, the solid discharge chute 6 and the liquid discharge chute 7 are also pushed towards one end of the solid-liquid mixing mechanism 5, and the solid discharge chute 6 and the liquid discharge chute 7 can be separated from the housing 8 of the central control column 3. When the central control column 3 is not compressed, the solid discharge chute 6 and the liquid discharge chute 7 are shielded by the shell 8 of the central control column 3, after the central control column 3 is compressed, the positions of the solid discharge chute 6 and the liquid discharge chute 7 move downwards along with the central control column 3, the shielding of the shell 8 of the central control column 3 is separated, soap powder and liquid can conveniently enter the solid-liquid mixing mechanism 5 through the solid discharge chute 6 and the liquid discharge chute 7 to be mixed, after the central control column 3 is separated from the compression again, the solid discharge chute 6 and the liquid discharge chute 7 are shielded by the shell 8 of the central control column 3, the structure design is simple, the operation is convenient, the repeated use is realized, the mechanical structure is operated, the soap powder and the liquid in the powder storage mechanism 1 and the liquid storage mechanism 2 are quantitatively used

When the invention is used, one end of the pressing nozzle 4 is provided with the suction pipe 10, and the other end of the suction pipe 10 enters the solid-liquid mixing mechanism 5. The suction pipe 10 can suck the soap liquid in the solid-liquid mixing mechanism 5 to the press nozzle 4 for spraying.

When the invention is used, the tail end of the suction pipe 10 is not contacted with the bottom of the solid-liquid mixing mechanism 5, and the tail end of the suction pipe 10 is connected with a hose. The tail end of the suction pipe 10 is not contacted with the bottom of the solid-liquid mixing mechanism 5, so that a pipeline is prevented from being blocked after the suction pipe 10 collides with the bottom of the solid-liquid mixing mechanism 5, the hose is arranged to suck out all soap liquid in the solid-liquid mixing mechanism 5, on one hand, the soap liquid is prevented from remaining in the solid-liquid mixing mechanism 5, on the other hand, the device is also used for a long time, and the quality of the soap liquid is stable.

When the powder storage mechanism is used, the powder storage mechanism 1, the liquid storage mechanism 2 and the shell 8 of the solid-liquid mixing mechanism 5 are all transparent. The storage condition inside can be observed through the powder storage mechanism 1, the liquid storage mechanism 2 and the shell 8 of the solid-liquid mixing mechanism 5, and the user can conveniently judge the using state of the device.

When the powder storage mechanism is used, the shell 8 of the powder storage mechanism 1 and the shell 8 of the solid-liquid mixing mechanism 5 are both provided with volume scale marks 11. The volume scale lines 11 are also provided to facilitate the user to determine the usage status of the device and to replace the device with new material in time.

In use of the invention, the inner layer of the liquid storage mechanism 2 is coated with a water resistant coating. The water-repellent coating is intended to avoid that liquid seepage from the liquid storage means 2 affects the service life of the device.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides a mixed cleaning device of intelligence, includes powder storage mechanism, liquid storage mechanism and at least one central control post, the central control post passes in proper order powder storage mechanism with liquid storage mechanism, its characterized in that: a pressing nozzle is arranged at one end of the central control column, a solid-liquid mixing mechanism is arranged at the other end of the central control column, a solid discharge chute is arranged at a position, which penetrates through the powder storage mechanism, on the central control column, a liquid discharge chute is arranged at a position, which penetrates through the liquid storage mechanism, on the central control column, and the central control column can compress one end of the solid-liquid mixing mechanism;

when the central control column is not compressed, the solid discharge chute and the liquid discharge chute are shielded by the central control column shell;

after the central control column is compressed, the positions of the solid discharge chute and the liquid discharge chute move downwards along with the central control column, and are separated from the shielding of the shell of the central control column.

2. The intelligent hybrid cleaning device of claim 1, wherein: and one end of the central control column close to the solid-liquid mixing mechanism is also provided with a stirring paddle.

3. The intelligent hybrid cleaning device of claim 1, wherein: the pressing nozzle is an atomizing nozzle.

4. The intelligent hybrid cleaning device of claim 1, wherein: when the central control column is compressed, the solid discharge chute and the liquid discharge chute are also pushed towards one end of the solid-liquid mixing mechanism, and the solid discharge chute and the liquid discharge chute can be separated from the shielding of the shell of the central control column.

5. An intelligent hybrid cleaning device, according to claim 1 or 4, wherein: and the lower ends of the solid discharge chute and the liquid discharge chute both enter the solid-liquid mixing mechanism.

6. The intelligent hybrid cleaning device of claim 1, wherein: and one end of the pressing nozzle is provided with an absorption pipe, and the other end of the absorption pipe enters the solid-liquid mixing mechanism.

7. The intelligent hybrid cleaning device of claim 6, wherein: the tail end of the suction pipe is not contacted with the bottom of the solid-liquid mixing mechanism, and the tail end of the suction pipe is connected with a hose.

8. The intelligent hybrid cleaning device of claim 1, wherein: and the shells of the powder storage mechanism, the liquid storage mechanism and the solid-liquid mixing mechanism are all transparent.

9. The intelligent hybrid cleaning device of claim 8, wherein: and the outer shells of the powder storage mechanism and the solid-liquid mixing mechanism are provided with volume scale marks.

10. The intelligent hybrid cleaning device of claim 1, wherein: and the inner layer of the liquid storage mechanism is coated with a waterproof coating.