CN213554522U

CN213554522U - Atomizing disinfection frame

Info

Publication number: CN213554522U
Application number: CN202021205683.1U
Authority: CN
Inventors: 李楠楠; 卫晓健; 杨杨; 卢志鹏
Original assignee: Individual
Current assignee: Qingdao Imani Environmental Protection Technology Co ltd
Priority date: 2020-06-24
Filing date: 2020-06-24
Publication date: 2021-06-29
Anticipated expiration: 2030-06-24

Abstract

The utility model discloses an atomization disinfection frame, which comprises a bracket, an atomization nozzle and a base; the bracket is arranged on the base, and the upper side, the left side and the right side of the bracket are respectively provided with the atomizing nozzles; a liquid storage tank and a liquid supply mechanism are arranged inside the base; all the atomizing spray heads are communicated with the liquid storage tank through the liquid supply mechanism respectively, the disinfectant in the liquid storage tank is pumped to all the atomizing spray heads through the liquid supply mechanism, and the disinfectant is sprayed out from the atomizing spray heads to the vacant positions in the middle of the support. The utility model saves the manual operation of being responsible for the disinfection, improves the disinfection efficiency and reduces the production and manufacturing cost of the disinfection equipment.

Description

Atomizing disinfection frame

Technical Field

The utility model relates to a disinfecting equipment technical field, concretely relates to atomizing disinfection frame.

Background

The disinfection liquid fog equipment used in the market at present is various, such as a manual sprayer and a watering can, and most of the equipment is manual equipment which is mainly used for local disinfection and needs to be manually disinfected by staffs. In addition, there are specialized large scale disinfection devices, such as sealed disinfection chambers, used throughout the body to perform all around disinfection.

In situations where systemic disinfection of an individual is required, for example: it is necessary to temporarily sterilize the whole body of the person wearing the protective clothing. Another example is: in office places, families, units and the like, disinfection liquid which can be sprayed to human bodies is required to be used for sequentially disinfecting the whole bodies of the people, and the like. Because the manual equipment disinfection efficiency is low, and the disinfection room can only be fixed in a certain position, can not move, and the cost is expensive. The two types of equipment cannot be applied to the situations, and the current market has no proper disinfection equipment for the situations, so that the market is blank.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the operation of manual disinfection is omitted, the disinfection efficiency is improved, and the production and manufacturing cost of disinfection equipment is reduced, the utility model provides an atomization disinfection frame, which comprises a bracket, an atomization spray head and a base; the bracket is arranged on the base, and the upper side, the left side and the right side of the bracket are respectively provided with the atomizing nozzles;

a liquid storage tank and a liquid supply mechanism are arranged inside the base; all the atomizing spray heads are communicated with the liquid storage tank through the liquid supply mechanism respectively, the disinfectant in the liquid storage tank is pumped to all the atomizing spray heads through the liquid supply mechanism, and the disinfectant is sprayed out from the atomizing spray heads to the vacant positions in the middle of the support.

The beneficial effects of the utility model are embodied in:

the personnel that need disinfect stand in the vacancy department in support middle part, supply liquid mechanism work, spout the antiseptic solution in the stock solution jar towards the vacancy after the atomizing of atomizer, accomplish whole body disinfection in the short time, improved disinfection efficiency greatly. In addition, the equipment is simple in integral structure, can be quickly completed in transportation or position movement, is flexible to move, and is suitable for various scenes.

Preferably, the liquid supply mechanism comprises a liquid path switch and a first liquid supply pipeline, and the first liquid supply pipeline comprises an electric pump and a first one-way valve; the liquid storage tank, the electric pump, the first one-way valve and the liquid path switch are sequentially connected in a conducting manner, and all the atomizing nozzles are respectively connected with the liquid discharge end of the liquid path switch in a conducting manner.

The first liquid supply pipeline is an electric pump liquid pipeline, and under the condition that an external power supply is available, the electric pump can be connected with the external power supply, so that automatic spraying of the disinfectant is realized. The one-way valve allows the disinfectant to be pumped out of the liquid storage tank and can not be pumped in reversely, thereby ensuring that the disinfectant in the liquid storage tank is not polluted.

Preferably, the liquid supply mechanism comprises a second liquid supply pipeline which is connected with the first liquid supply pipeline in parallel between the liquid storage tank and the liquid path switch; the second liquid supply pipeline comprises a second one-way valve, a manual pump, a pressure storage tank and a third one-way valve, and the liquid storage tank, the second one-way valve, the manual pump, the pressure storage tank, the third one-way valve and the liquid path switch are sequentially communicated.

The second supplies the liquid pipeline to be manual pump liquid pipeline, earlier through the manual pump with the antiseptic solution pump in the liquid storage pot go into the pressure storage tank for keep certain pressure in the pressure storage tank, go into all atomizer with the antiseptic solution pump through pressure after the liquid way switch is opened, thereby realize manual disinfection, nevertheless only need wait that disinfection personnel self just can accomplish. The manual disinfection is suitable for being used under the condition without an external power supply.

Preferably, the stand comprises a vertical telescopic rod and a cross bar; the vertical telescopic links are provided with two, the lower ends of the two vertical telescopic links are respectively fixedly connected with the base, and the upper ends of the two vertical telescopic links are respectively fixedly connected with the two ends of the cross rod and can be lifted simultaneously through the two telescopic links, so that the size of a vacancy in the middle of the support can be adjusted.

Preferably, the cross bar is provided with three atomizer nozzles, and two vertical telescopic rods are respectively provided with two atomizer nozzles.

Preferably, two atomizing nozzles are arranged on the base.

The support realizes the regulation of vacancy through two vertical telescopic links to be adapted to the crowd of co-altitude not.

Preferably, the liquid path switch comprises a shell, a sealing ball, a spring and a sealing rubber gasket; the inner part of the shell is provided with a conical partition plate which is used for dividing the inner cavity of the shell into an upper cavity and a lower cavity; the top of the partition board faces upwards, a through hole for communicating the upper cavity with the lower cavity is formed in the top of the partition board, the sealing ball body is tightly propped against the lower end opening of the through hole through a spring, and the sealing ball body is provided with a fixing rod penetrating through the through hole and the side wall of the shell; the lower cavity is provided with a liquid inlet, the upper cavity is provided with three liquid outlet holes, and the sealing ball body is pushed downwards through the fixing rod, so that the disinfectant in the lower cavity enters the upper cavity and is discharged from the three liquid outlet holes.

Preferably, two atomizing spray heads of one of the vertical telescopic rods are communicated with one liquid outlet hole through a guide pipe, two atomizing spray heads of the other vertical telescopic rod and two atomizing spray heads of the base are communicated with the other liquid outlet hole through the other guide pipe, and the three atomizing spray heads of the cross rod are communicated with the other liquid outlet hole through the other guide pipe; the first liquid supply pipeline and the second liquid supply pipeline are communicated with the liquid inlet hole.

Preferably, a pedal is arranged at the upper end of the fixing rod; the pedal and the handle of the manual pump respectively extend out of the upper surface of the base.

The liquid path switch is used as a main switch of the atomized disinfectant and also plays a role of connecting each pipeline, the first liquid supply pipeline and the second liquid supply pipeline are connected in parallel with the liquid inlet hole, and the other three liquid outlet holes are divided into three paths to each atomized nozzle. When the pedal is stepped on to move downwards, the fixing rod drives the sealing ball body to push the spring to move downwards so as to communicate the upper cavity with the lower cavity, and the disinfectant is continuously sprayed out from each atomizing nozzle. After the pedal is loosened, the pedal is restored to the original position under the action of the elastic force of the spring, and meanwhile, the sealing ball body is blocked at the lower end of the through hole so as to block the upper cavity and the lower cavity and stop spraying liquid. This equipment adopts the mode control liquid way switch of foot to step on, avoids contacting with the hand or the hand contact of protective clothing, has avoided cross infection as far as possible, has improved the security level.

Preferably, the upper cavity is provided with an elastically deformable sealing rubber gasket for preventing disinfectant from leaking out of a gap between the fixed rod and the shell; the fixed rod penetrates through the sealing rubber gasket and is fixedly connected with the sealing rubber gasket in a sealing mode.

When the dead lever down moved, sealed cushion down sunken emergence elastic deformation, otherwise, after the dead lever up moved the recovery normal position, sealed cushion also recovered the normal position, and liquid way switch's open mode and closed state, sealed cushion seals up the antiseptic solution in last cavity all the time, has avoided the antiseptic solution to reveal.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic structural diagram of the present embodiment;

fig. 2 is a schematic diagram of an internal structure of the liquid path switch in this embodiment.

In the attached drawing, a support 1, an atomizing nozzle 2, a base 3, a vertical telescopic rod 4, a cross rod 5, a liquid storage tank 6, a vacant position 7, a liquid path switch 8, a first liquid supply pipeline 9, a second liquid supply pipeline 10, an electric pump 11, a first check valve 12, a second check valve 13, a manual pump 14, a pressure storage tank 15, a third check valve 16, a shell 17, a sealing ball 18, a spring 19, a sealing rubber gasket 20, a partition plate 21, an upper cavity 22, a lower cavity 23, a liquid inlet hole 24, a liquid outlet hole 25, a pedal plate 26, a handle 27 and a fixing rod 28.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the present invention belongs.

As shown in fig. 1, the present embodiment provides an atomization disinfection frame, which comprises a support 1, an atomization nozzle 2 and a base 3. The support 1 is arranged on the base 3, and the upper side, the left side and the right side of the support 1 are respectively provided with the atomizing nozzles 2. The specific structure of the stent 1 is as follows:

the support 1 comprises a vertical telescopic rod 4 and a cross rod 5; vertical telescopic link 4 is equipped with two, two vertical telescopic link 4's lower extreme respectively with base 3 fixed connection to and two vertical telescopic link 4's upper end respectively with the both ends fixed connection of horizontal pole 5 goes up and down simultaneously through two telescopic links, thereby adjusts the vacancy 7 size at 1 middle part of support. The cross rod 5 is provided with three atomizer 2 and the two vertical telescopic rods 4 are respectively provided with two atomizer 2. Two atomizing spray heads 2 are arranged on the base 3. The atomizing nozzles 2 are arranged in four directions, namely, up, down, left and right, and carry out omnibearing atomizing disinfection solution without dead angle sterilization. The support 1 realizes the adjustment of the vacant position 7 through two vertical telescopic rods 4 so as to adapt to people with different heights.

A liquid storage tank 6 and a liquid supply mechanism are arranged inside the base 3; all the atomizing spray heads 2 are respectively communicated with the liquid storage tank 6 through the liquid supply mechanism, the disinfectant in the liquid storage tank 6 is pumped to all the atomizing spray heads 2 through the liquid supply mechanism, and the disinfectant is sprayed out from the atomizing spray heads 2 to the vacant positions 7 in the middle of the support 1. Wherein the liquid supply mechanism is as follows:

the liquid supply mechanism comprises a liquid path switch 8 and a first liquid supply pipeline 9, and the first liquid supply pipeline 9 comprises an electric pump 11 and a first one-way valve 12; the liquid storage tank 6, the electric pump 11, the first one-way valve 12 and the liquid path switch 8 are sequentially connected in a conducting manner, and all the atomizing nozzles 2 are respectively connected with the liquid discharge end of the liquid path switch 8 in a conducting manner. The first liquid supply pipeline 9 is a liquid pipeline of the electric pump 11, and under the condition that an external power supply is available, the electric pump 11 can be connected with the external power supply to realize automatic spraying of the disinfectant. The one-way valve allows the disinfectant to be pumped out from the liquid storage tank 6 and can not be pumped in reversely, thereby ensuring that the disinfectant in the liquid storage tank 6 is not polluted.

In addition, the liquid supply mechanism comprises a second liquid supply pipeline 10 which is connected with the first liquid supply pipeline 9 in parallel between the liquid storage tank 6 and the liquid path switch 8; the second liquid supply pipeline 10 comprises a second one-way valve 13, a manual pump 14, a pressure storage tank 15 and a third one-way valve 16, and the liquid storage tank 6, the second one-way valve 13, the manual pump 14, the pressure storage tank 15, the third one-way valve 16 and the liquid path switch 8 are communicated in sequence. The second supplies liquid pipeline 10 to be the 14 liquid pipelines of hand pump, earlier through the hand pump 14 with the antiseptic solution pump in the liquid storage pot 6 go into to store up in the pressure jar 15 for keep certain pressure in the pressure jar 15, go into all atomizer 2 with the antiseptic solution pump through pressure when liquid way switch 8 opens the back, thereby realize manual disinfection, but only need wait that the disinfection personnel self just can accomplish. The manual disinfection is suitable for being used under the condition without an external power supply. This embodiment sets up first liquid supply pipeline 9 and second liquid supply pipeline 10, is applicable to the place that does not have external power supply, also is applicable to the place that has external power supply, and then has cancelled the dependence to external power supply, and is practical wider. The second one-way valve 13 and the third one-way valve 16 have the same function as the first one-way valve 12, and prevent the disinfectant from flowing back into the liquid storage tank 6.

The specific structure of the liquid path switch 8 in this embodiment is as follows:

as shown in fig. 2, the liquid path switch 8 includes a housing 17, a sealing ball 18, a spring 19 and a sealing rubber pad 20; a conical partition plate 21 is arranged in the shell 17 and is used for dividing the inner cavity of the shell 17 into an upper cavity 22 and a lower cavity 23; the top of the partition plate 21 faces upwards, a through hole for communicating the upper cavity 22 with the lower cavity 23 is formed in the top of the partition plate 21, the sealing ball 18 is tightly propped against the lower end opening of the through hole through a spring 19, and the sealing ball 18 is provided with a fixing rod 28 penetrating through the through hole and the side wall of the shell 17; the lower cavity 23 is provided with a liquid inlet hole 24, the upper cavity 22 is provided with three liquid outlet holes 25, and the sealing ball 18 is pushed downwards by the fixing rod 28, so that the disinfectant in the lower cavity 23 enters the upper cavity 22 and is discharged from the three liquid outlet holes 25. Two atomizing spray heads 2 of one vertical telescopic rod 4 are communicated with one liquid outlet hole 25 through guide pipes, two atomizing spray heads 2 of the other vertical telescopic rod 4 and two atomizing spray heads 2 of the base 3 are communicated with the other liquid outlet hole 25 through the other guide pipe, and three atomizing spray heads 2 of the cross rod 5 are communicated with the other liquid outlet hole 25 through the other guide pipe; the first liquid supply pipeline 9 and the second liquid supply pipeline 10 are communicated with the liquid inlet hole 24. The upper end of the fixed rod 28 is provided with a pedal 26; the foot pedal 26 and the handle 27 of the hand pump 14 extend from the upper surface of the base 3, respectively. The upper cavity 22 is provided with an elastically deformable sealing rubber gasket 20 for preventing disinfectant from leaking out from a gap between the fixing rod 28 and the shell 17; the fixing rod 28 penetrates through the sealing rubber gasket 20 and is fixedly connected with the sealing rubber gasket 20 in a sealing manner. When the fixing rod 28 moves downwards, the sealing rubber pad 20 is sunken downwards to generate elastic deformation, otherwise, after the fixing rod 28 moves upwards to recover the original position, the sealing rubber pad 20 also recovers the original position, and the sealing rubber pad 20 always seals the disinfectant in the upper cavity 22 due to the opening state and the closing state of the liquid path switch 8, so that the disinfectant is prevented from being leaked. The liquid path switch 8 is used as a main switch of the atomized disinfectant and also plays a role of connecting each pipeline, the first liquid supply pipeline 9 and the second liquid supply pipeline 10 are connected in parallel with the liquid inlet hole 24, and the other three liquid outlet holes 25 are divided into three paths to be communicated with each atomizing nozzle. When the pedal 26 is pressed to move downwards, the fixing rod 28 drives the sealing ball 18 to push the spring 19 to move downwards, so as to connect the upper cavity 22 and the lower cavity 23, and the disinfectant is continuously sprayed out from each atomizer 2. After the pedal 26 is released, the pedal 26 is restored to the original position under the elastic force of the spring 19, and the sealing ball 18 is blocked at the lower end of the through hole to block the upper cavity 22 and the lower cavity 23, so that the liquid spraying is stopped. This equipment adopts the mode control liquid way switch 8 that the foot stepped on, avoids contacting with the hand or the hand contact of protective clothing, has avoided cross infection as far as possible, has improved the security level.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims

1. An atomizing disinfection frame which is characterized in that: comprises a bracket, an atomizing spray head and a base; the bracket is arranged on the base, and the upper side, the left side and the right side of the bracket are respectively provided with the atomizing nozzles;

2. The atomizing disinfection rack of claim 1, wherein: the liquid supply mechanism comprises a liquid path switch and a first liquid supply pipeline, and the first liquid supply pipeline comprises an electric pump and a first one-way valve; the liquid storage tank, the electric pump, the first one-way valve and the liquid path switch are sequentially connected in a conducting manner, and all the atomizing nozzles are respectively connected with the liquid discharge end of the liquid path switch in a conducting manner.

3. The atomizing disinfection rack of claim 2, wherein: the liquid supply mechanism comprises a second liquid supply pipeline which is connected with the first liquid supply pipeline in parallel between the liquid storage tank and the liquid circuit switch; the second liquid supply pipeline comprises a second one-way valve, a manual pump, a pressure storage tank and a third one-way valve, and the liquid storage tank, the second one-way valve, the manual pump, the pressure storage tank, the third one-way valve and the liquid path switch are sequentially communicated.

4. The atomizing disinfection rack of claim 2, wherein: the support comprises a vertical telescopic rod and a cross rod; the vertical telescopic links are provided with two, the lower ends of the two vertical telescopic links are respectively fixedly connected with the base, and the upper ends of the two vertical telescopic links are respectively fixedly connected with the two ends of the cross rod and can be lifted simultaneously through the two telescopic links, so that the size of a vacancy in the middle of the support can be adjusted.

5. The atomizing disinfection rack of claim 4, wherein: the horizontal pole is equipped with threely atomizer to and two vertical telescopic links are equipped with two atomizers respectively.

6. The atomizing disinfection rack of claim 5, wherein: two atomizing spray heads are arranged on the base.

7. The atomizing disinfection rack of claim 6, wherein: the liquid path switch comprises a shell, a sealing ball body, a spring and a sealing rubber gasket; the inner part of the shell is provided with a conical partition plate which is used for dividing the inner cavity of the shell into an upper cavity and a lower cavity; the top of the partition board faces upwards, a through hole for communicating the upper cavity with the lower cavity is formed in the top of the partition board, the sealing ball body is tightly propped against the lower end opening of the through hole through a spring, and the sealing ball body is provided with a fixing rod penetrating through the through hole and the side wall of the shell; the lower cavity is provided with a liquid inlet, the upper cavity is provided with three liquid outlet holes, and the sealing ball body is pushed downwards through the fixing rod, so that the disinfectant in the lower cavity enters the upper cavity and is discharged from the three liquid outlet holes.

8. The atomizing disinfection rack of claim 7, wherein: two atomizing spray heads of one vertical telescopic rod are communicated with one liquid outlet hole through a guide pipe, two atomizing spray heads of the other vertical telescopic rod and two atomizing spray heads of the base are communicated with the other liquid outlet hole through the other guide pipe, and three atomizing spray heads of the cross rod are communicated with the other liquid outlet hole through the other guide pipe; the first liquid supply pipeline and the second liquid supply pipeline are communicated with the liquid inlet hole.

9. The atomizing disinfection rack of claim 7, wherein: a pedal is arranged at the upper end of the fixed rod; the pedal and the handle of the manual pump respectively extend out of the upper surface of the base.

10. The atomizing disinfection rack of claim 7, wherein: the upper cavity body is provided with an elastically deformable sealing rubber gasket for preventing disinfectant from leaking out of a gap between the fixed rod and the shell body; the fixed rod penetrates through the sealing rubber gasket and is fixedly connected with the sealing rubber gasket in a sealing mode.