CN112843452A

CN112843452A - Public occasion self-taking disinfectant mechanism for disease control and epidemic prevention

Info

Publication number: CN112843452A
Application number: CN202110010406.8A
Authority: CN
Inventors: 王巧玲; 沈立云
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-06
Filing date: 2021-01-06
Publication date: 2021-05-28

Abstract

The invention discloses a public occasion self-taking disinfectant mechanism for disease control and epidemic prevention, which comprises a shell, wherein a disinfectant placing cavity is arranged in the shell, a liquid squeezing device is arranged in the disinfectant placing cavity, a material taking device is arranged on the right side of the liquid squeezing device, a pedal device is arranged below the material taking device, the pedal device comprises a power cavity arranged on the shell, the front end wall and the rear end wall of the power cavity are provided with the first rotating shaft in a rotating way, the invention has simple operation, only needs the trampling of an operator, the disinfectant can flow out after the liquid taking port is opened, and can be collected and flow onto the pedal when more disinfectant is taken, meanwhile, after the last user steps on the pedal, the invention can disinfect the pedal in time to avoid the spread of virus through the sole, meanwhile, the disinfectant is wiped, so that the next user is prevented from remaining the disinfectant on the sole of the foot, and the public places are dirtied.

Description

Public occasion self-taking disinfectant mechanism for disease control and epidemic prevention

Technical Field

The invention belongs to the field of medical treatment, and particularly relates to a public place self-disinfectant-taking mechanism for disease control and epidemic prevention.

Background

The disinfectant is a liquid disinfectant which can kill viruses and block the propagation of bacteria, has wide application, is commonly used in families and hospitals, and public places, however, when the disinfectant is used in public places, it is often necessary to arrange for special persons to measure the body temperature of the people who come and go, the disinfectant is squeezed in the hands of the people to prevent the viruses from being transmitted by contact, however, some viruses with stronger transmission, the disinfection by the way is usually not satisfactory, for example, the disinfection of new coronavirus and foreign public places is realized by self-help cancellation of the venom by stepping, but the way still has some defects, the pedal cannot be disinfected in time, moreover, the liquid taking port of the disinfectant is exposed to the external space for a long time, so that the disinfectant is easily oxidized and deteriorated, and the effect is deteriorated.

Disclosure of Invention

The invention aims to solve the problem that in the prior art, when hand-washing disinfectant is taken from public places, a foot board and a liquid taking port cannot be cleaned and exposed for a long time, and provides a public-place self-taking disinfectant mechanism for disease control and epidemic prevention.

The technical scheme of the invention is as follows: a public occasion self-taking disinfectant mechanism for disease control and epidemic prevention comprises a shell, wherein a disinfectant containing cavity is arranged in the shell, a squeezing device is arranged in the disinfectant containing cavity, a material taking device is arranged on the right side of the squeezing device, a pedal device is arranged below the material taking device, the pedal device comprises a power cavity arranged on the shell, a first rotating shaft is arranged on the front end wall and the rear end wall of the power cavity in a rotating mode, two groups of reset components are symmetrically arranged on the first rotating shaft in the front and rear direction, each reset component comprises a cylindrical groove formed in one end wall of the power cavity, the cylindrical groove is rotationally connected with the first rotating shaft, two reset rods are symmetrically arranged on the first rotating shaft in the left and right direction, the cylindrical groove is symmetrically provided with two reset cavities along one central line, the reset rods are rotationally arranged in the reset cavities respectively, and the reset rods are connected with the inner walls of the reset cavities through, the first rotating shaft is fixedly sleeved with a wheel, a section of gear teeth is uniformly arranged on the circumference of the radian of the wheel, a pedal is fixedly arranged on the wheel, and one end of the pedal is located in the external space.

Preferably, the pedal device further comprises a sleeve sleeved on the first rotating shaft, a rotating cavity is arranged on the sleeve, the inner wall of the rotating cavity is provided with a ball bearing in a press fit mode, the inner ring of the ball bearing is connected with the first rotating shaft in a press fit mode, the sleeve is sleeved with a sliding block, the sliding block is fixedly provided with a bracket, the lower end surface of the bracket is fixedly provided with sterilized cotton, the lower surface of the sterilized cotton is at the same height with the upper surface of the pedal, the sliding block is provided with a hollow cavity, the inner wall of the hollow cavity is provided with a linear bearing in a pressing way, the linear bearing is connected with the sleeve in a sliding way, the front end face of the sliding block is connected with the front end wall of the power cavity through a second spring, the two reset rods on the front reset assembly on the first rotating shaft are connected with the front end face of the sliding block through two first steel wire ropes respectively, and the first steel wire ropes are in a loose state in an initial state.

When an operator takes disinfectant, after a single foot is placed on the upper end face of a pedal to pedal with force, the pedal drives a wheel to rotate, the wheel drives a first rotating shaft to rotate, the first rotating shaft rotates to drive a reset rod to rotate, a first spring is compressed, meanwhile, two reset rods on the front side of the first rotating shaft rotate to drive a sliding block to move forwards on a sleeve through a second spring, and the second spring is compressed; in the process, when the wheel just starts to rotate, the material taking device works, and when the wheel continues to rotate, the liquid squeezing device works, so that an operator finishes the self-assembling liquid taking process; after the liquid is got to the operator, the sole leaves the pedal, first spring resets in the twinkling of an eye, make first axis of rotation restore to the throne simultaneously, first axis of rotation resets and makes the second spring reset in the twinkling of an eye, and give the sliding block and provide certain acceleration when backward motion on the sleeve, when the sliding block moves to initial condition, because of it has certain speed, make the sliding block continue backward motion, the sliding block drives the support backward motion, the support drives the motion of aseptic cotton mutually, make aseptic cotton in time clean the pedal upper surface, and utilize inertia principle, make a round trip to clean the pedal upper surface, disinfect to the pedal.

Preferably, crowded liquid device is including seting up the arrangement chamber of putting a power chamber end wall, it is equipped with the intermediate prop to settle the intracavity slip, the fixed rack tooth that is equipped with of intermediate prop downside right-hand member face, the rack tooth can with the tooth meshing on the wheel, bilateral symmetry is equipped with two sets of rolling subassemblies on the intermediate prop, the rolling subassembly is including the fixed buffer board that sets up at an intermediate prop terminal surface, the rolling chamber has been seted up to buffer board one end, the rolling intracavity rolls and is equipped with the ball, the rolling subassembly is still including seting up the lift groove of settling a chamber end wall, terminal surface about the buffer board with the lift inslot wall is respectively through third spring coupling, the sealed slip of intracavity is placed to the antiseptic solution is equipped with first piston, terminal surface under the first piston with intermediate prop fixed connection, circular cone groove has been seted up to first piston up end surface.

Preferably, the liquid squeezing device further comprises a communicating groove formed in the upper end face of the shell, a plurality of vent holes are formed in the lower end wall of the communicating groove, a second piston is slidably arranged in the communicating groove, the lower end face of the second piston is connected with the lower end wall of the communicating groove through a fourth spring, a threaded hole is formed in the upper end wall of the disinfectant containing cavity, a bolt is arranged in the threaded hole in a connected mode, and a rubber pad for enabling the disinfectant to be sealed in the disinfectant containing cavity is arranged between the bolt and the shell.

When the wheel rotates to the state that gear teeth on the wheel are meshed with rack teeth, the wheel continues to rotate, the gear teeth rotate to drive the rack teeth to move upwards, the middle column drives the buffer plate to move upwards, so that the third spring is deformed and stressed, the middle column drives the first piston to move upwards, the first piston moves upwards to increase the pressure intensity in the disinfectant containing cavity, so that disinfectant in the disinfectant containing cavity flows into the material taking device, an operator takes the disinfectant with hands, and when the pressure intensity of the disinfectant containing cavity is increased, the second piston moves upwards, and the communicating groove and the disinfectant containing cavity form a sealed space; when the first piston moves downwards, the pressure in the disinfectant placing cavity is reduced, the second piston moves downwards, and outside air enters the disinfectant placing cavity through the communicating groove, so that the disinfectant placing cavity is in a balanced state; after the liquid in the disinfection solution placing cavity is used, the bolt can be detached from the threaded hole, after the disinfection solution is added into the disinfection solution placing cavity again, the rubber pad can be placed on the upper end face of the shell, and the bolt is connected with the threaded hole again in a threaded mode.

Preferably, extracting device places the preformed hole of chamber right-hand member wall including seting up at the antiseptic solution, the preformed hole internal fixation is equipped with gets the material pipe, it gets the material hole to be equipped with in the material pipe, it is connected with the hose to get material pipe left end face, hose one end is located the circular cone inslot, the antiseptic solution is placed the chamber right-hand member face and is seted up slottedly, the inslot wall rotates and is equipped with the second axis of rotation, the cover is equipped with the baffle in the second axis of rotation, be equipped with reset hole on the baffle, reset hole inner wall with the second axis of rotation is passed through the wind spring and is connected, the dashpot has been seted up to the baffle up end, it is equipped with the end cap to slide in the dashpot, under the end cap with end wall is through a plurality of fifth.

Preferably, the taking device further comprises a hollow shell fixedly arranged on the right end face of the disinfectant containing cavity, a cavity is arranged in the hollow shell, and a drainage hole is formed in the lower end wall of the cavity.

When the pedal rotates, the baffle is driven to rotate around the center of the second rotating shaft through the second steel wire rope, the plug is separated from the material taking hole, the material taking hole is communicated with the outside, after the pressure intensity in the disinfectant placing cavity is increased, the disinfectant enters the material taking hole through the hose and flows into the hands of an operator, and when the disinfectant is carelessly excessive, the disinfectant falls into the cavity and flows onto the pedal through the drainage hole, so that the pedal is sterilized.

Has the advantages that:

1. the foot-operated disinfection device is simple to operate, and disinfectant can flow out after the liquid taking port is opened only by trampling of an operator, and can be collected and flow onto the pedal when much disinfectant is taken;

2. by arranging the trampling device, people are prevented from taking disinfectant in a manual pressing mode, virus is effectively prevented from being spread through contact, and meanwhile, the pedal plate is cleaned in time, so that some special viruses are prevented from remaining on the pedal plate and being spread through the environment;

3. by arranging the material taking device, the disinfectant on the inner wall of the pedal is in a sealed state for a long time, the disinfectant is prevented from being oxidized and deteriorated due to the fact that the liquid taking port is exposed to the outside space, and the pedal can collect the disinfectant which flows out accidentally and can flow into the pedal.

Drawings

FIG. 1 is an overall cross-sectional view of the present invention;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken at B-B of FIG. 2;

FIG. 4 is an enlarged schematic view at C of FIG. 1;

fig. 5 is an enlarged schematic view at D of fig. 1.

In the figure, a shell 11, a lifting groove 12, a third spring 13, a ball 14, a rolling cavity 15, a buffer plate 16, a middle column 17, a first piston 18, a conical groove 19, a hose 20, a disinfectant placing cavity 21, a preformed hole 22, a material taking pipe 23, a material taking hole 24, a plug 25, a buffer groove 26, a fifth spring 27, a second steel wire rope 28, a groove 29, a hollow shell 30, a cavity 31, a drainage hole 32, a rack tooth 33, a wheel 34, a pedal 36, a first rotating shaft 37, a power cavity 38, a vent hole 39, a communicating groove 40, a second piston 41, a fourth spring 52, a rubber pad 43, a bolt 44, a threaded hole 45, a second rotating shaft 46, a baffle plate 47, a cylindrical groove 51, a reset cavity 52, a reset rod 53, a first steel wire rope 54, a second spring 55, a ball bearing 57, a rotating cavity 58, a sleeve 59, a sliding block 60, a linear bearing 61, a first spring 62, a hollow cavity 63, a setting cavity 65, a coil spring 66, Reset hole 67, bracket 68, aseptic cotton 69, gear teeth 70.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all 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. For convenience of description, the specific form of the spring attachment is not described below, and may be provided in the conventional manner of a mechanical design manual, i.e., by providing a groove or protrusion for positioning the spring.

As shown in fig. 1, 2 and 3, a public place self-taking disinfectant mechanism for disease control and epidemic prevention comprises a housing 11, a disinfectant containing cavity 21 is arranged in the housing 11, a fluid squeezing device is arranged in the disinfectant containing cavity 21, a material taking device is arranged on the right side of the fluid squeezing device, a pedal device is arranged below the material taking device, the pedal device comprises a power cavity 38 arranged on the housing 11, a first rotating shaft 37 is arranged on the front end wall and the rear end wall of the power cavity 38 in a rotating manner, two groups of reset components are symmetrically arranged on the front end and the rear end of the first rotating shaft 37, each reset component comprises a cylindrical groove 51 arranged on one end wall of the power cavity 38, the cylindrical grooves 51 are rotatably connected with the first rotating shaft 37, two reset rods 53 are symmetrically arranged on the left side and the right side of the first rotating shaft 37, two reset cavities 52 are symmetrically arranged on the cylindrical grooves 51 along one central line of the cylindrical grooves, the reset rods 53 are respectively rotatably, the first rotating shaft 37 is fixedly sleeved with a wheel 34, a section of gear teeth 70 is uniformly arranged on the circumference of the radian of the wheel 34, a pedal 36 is fixedly arranged on the wheel 34, and one end of the pedal 36 is positioned in the external space.

As shown in figure 1 of the drawings, in which, as shown in fig. 2, the pedal device further includes a sleeve 59 sleeved on the first rotating shaft 37, a rotating cavity 58 is arranged on the sleeve 59, a ball bearing 57 is press-fitted on an inner wall of the rotating cavity 58, an inner ring of the ball bearing 57 is press-fitted and connected with the first rotating shaft 37, a sliding block 60 is sleeved on the sleeve 59, a bracket 68 is fixedly arranged on the sliding block 60, a piece of sterile cotton 69 is fixedly arranged on a lower end surface of the bracket 68, a lower surface of the sterile cotton 69 has the same height as an upper surface of the pedal 36, a hollow cavity 63 is arranged on the sliding block 60, a linear bearing 61 is press-fitted and arranged on an inner wall of the hollow cavity 63, the linear bearing 61 is slidably connected with the sleeve 59, a front end surface of the sliding block 60 is connected with a front end wall of the power cavity 38 through a second spring 55, two reset rods 53 on a front.

When an operator takes disinfectant, after a single foot is placed on the upper end face of the pedal 36 and is forcibly trodden, the pedal 36 drives the wheel 34 to rotate, the wheel 34 drives the first rotating shaft 37 to rotate, the first rotating shaft 37 rotates to drive the reset rod 53 to rotate, the first spring 62 is compressed, meanwhile, the two reset rods 53 on the front side of the first rotating shaft 37 rotate to drive the sliding block 60 to move forwards on the sleeve 59 through the first steel wire rope 54, and the second spring 55 is compressed; in the process, when the wheel 34 just starts to rotate, the material taking device works, and when the wheel 34 continues to rotate, the liquid squeezing device works, so that an operator finishes the self-assembling liquid taking process; when the liquid taking of the operator is finished, the sole leaves the pedal 36, the first spring 62 is reset instantly, the first rotating shaft 37 is reset simultaneously, the first rotating shaft 37 is reset, the second spring 55 is reset instantly, a certain acceleration is provided when the sliding block 60 moves backwards on the sleeve 59, when the sliding block 60 moves to the initial state, the sliding block 60 continues to move backwards due to a certain speed, the sliding block 60 drives the support 68 to move backwards, the support 68 drives the disinfection cotton 69 to move backwards, and the disinfection cotton 69 timely wipes the upper surface of the pedal 36 due to the fact that the first steel wire rope 54 is in a loose state in the initial state, the upper surface of the pedal 36 is wiped by the disinfection cotton 69, the upper surface of the pedal 36 is wiped back and forth by utilizing the inertia principle, and the pedal 36 is disinfected.

As shown in fig. 1, the liquid squeezing device includes a placing cavity 65 provided with one end wall of the placing power cavity 38, a middle column 17 is arranged in the placing cavity 65 in a sliding manner, rack teeth 33 are fixedly arranged on the right end face of the lower side of the middle column 17, the rack teeth 33 can be meshed with teeth on the wheel 34, two sets of rolling assemblies are symmetrically arranged on the middle column 17 in the left-right direction, each rolling assembly includes a buffer plate 16 fixedly arranged on one end face of the middle column 17, a rolling cavity 15 is arranged on one end face of each buffer plate 16, balls 14 are arranged in the rolling cavities 15 in a rolling manner, each rolling assembly further includes a lifting groove 12 arranged on one end wall of the placing cavity 65, the upper end face and the lower end face of each buffer plate 16 are respectively connected with the inner wall of each lifting groove 12 through a third spring 13, a first piston 18 is arranged in the disinfecting liquid placing cavity 21 in a sealing and sliding manner, the lower end.

As shown in fig. 1 and 4, the liquid squeezing device further includes a communicating groove 40 provided on the upper end surface of the housing 11, a plurality of vent holes 39 are provided on the lower end wall of the communicating groove 40, a second piston 41 is slidably provided in the communicating groove 40, the lower end surface of the second piston 41 is connected to the lower end wall of the communicating groove 40 through a fourth spring 52, a threaded hole 45 is provided on the upper end wall of the disinfectant containing chamber 21, a bolt 44 is provided in the threaded hole 45 in a threaded connection manner, and a rubber pad 43 for sealing the disinfectant containing chamber 21 is provided between the bolt 44 and the housing 11.

When the wheel 34 rotates to the state that the gear teeth 70 on the wheel 34 are meshed with the rack teeth 33, the wheel 34 continues to rotate, the gear teeth 70 rotate to drive the rack teeth 33 to move upwards, the middle column 17 drives the buffer plate 16 to move upwards, so that the third spring 13 deforms and is stressed, the middle column 17 drives the first piston 18 to move upwards, the first piston 18 moves upwards to increase the pressure in the disinfectant placing cavity 21, the disinfectant in the disinfectant placing cavity 21 flows into the material taking device, an operator takes the disinfectant by hand, when the pressure in the disinfectant placing cavity 21 increases, the second piston 41 moves upwards, and the communicating groove 40 and the disinfectant placing cavity 21 form a sealed space; when the first piston 18 moves downwards, the pressure in the disinfectant placing cavity 21 is reduced, the second piston 41 moves downwards, and the outside air enters the disinfectant placing cavity 21 through the communicating groove 40, so that the disinfectant placing cavity 21 is in a balanced state; after the liquid in the disinfectant containing cavity 21 is used, the bolt 44 can be detached from the threaded hole 45, and after the disinfectant is added into the disinfectant containing cavity 21 again, the rubber pad 43 can be placed on the upper end surface of the shell 11, and then the bolt 44 is connected with the threaded hole 45 again in a threaded manner.

As shown in fig. 1 and 5, the material taking device includes a preformed hole 22 formed in the right end wall of the disinfectant solution containing cavity 21, a material taking pipe 23 is fixedly arranged in the preformed hole 22, a material taking hole 24 is formed in the material taking pipe 23, a hose 20 is connected to the left end face of the material taking pipe 23, one end of the hose 20 is located in the conical groove 19, a groove 29 is formed in the right end face of the disinfectant solution containing cavity 21, a second rotating shaft 46 is arranged on the inner wall of the groove 29 in a rotating mode, a baffle 47 is sleeved on the second rotating shaft 46, a reset hole 67 is formed in the baffle 47, the inner wall of the reset hole 67 is connected with the second rotating shaft 46 through a coil spring 66, a buffer groove 26 is formed in the upper end face of the baffle 47, a plug 25 is arranged in the buffer groove 26 in a sliding mode, the lower end face of the plug 25 is connected with.

As shown in fig. 1, the taking device further includes a hollow casing 30 fixedly disposed on the right end surface of the disinfectant placing cavity 21, a cavity 31 is disposed in the hollow casing 30, and a drainage hole 32 is disposed on the lower end wall of the cavity 31.

When the pedal 36 rotates, the baffle 47 is driven by the second steel wire rope 28 to rotate around the center of the second rotating shaft 46, the plug 25 is separated from the material taking hole 24, the material taking hole 24 is communicated with the outside, when the pressure intensity of the disinfectant in the disinfectant containing cavity 21 is increased, the disinfectant enters the material taking hole 24 through the hose 20 and flows into the hands of an operator, and when the disinfectant is too much carelessly, the disinfectant falls into the cavity 31 and flows onto the pedal 36 through the drainage hole 32, so that the pedal 36 is disinfected.

Other parts in the present invention are not described in detail for the prior art.

Claims

1. The utility model provides a public occasion is from getting antiseptic solution mechanism for disease control epidemic prevention, includes casing (11), its characterized in that: the disinfection solution containing device is characterized in that a disinfection solution containing cavity (21) is arranged in the shell (11), a solution extruding device is arranged in the disinfection solution containing cavity (21), a material taking device is arranged on the right side of the solution extruding device, a pedal device is arranged below the material taking device, the pedal device comprises a power cavity (38) arranged on the shell (11), a first rotating shaft (37) is arranged on the front end wall and the rear end wall of the power cavity (38) in a rotating mode, two groups of reset components are symmetrically arranged on the front side and the rear side of the first rotating shaft (37) in a front-to-back mode, each reset component comprises a cylindrical groove (51) arranged on one end wall of the power cavity (38), the cylindrical grooves (51) are rotatably connected with the first rotating shaft (37), two reset rods (53) are symmetrically arranged on the left side and the right side of the first rotating shaft (37), two reset cavities (52) are symmetrically arranged on the cylindrical grooves (51) along, reset lever (53) with reset chamber (52) inner wall is connected through first spring (62) respectively, fixed cover is equipped with wheel (34) on first axis of rotation (37), the circumference evenly is equipped with one section gear tooth (70) on wheel (34) the radian, fixed pedal (36) that are equipped with on wheel (34), the one end of pedal (36) is located external space.

2. The public place self-taking disinfectant mechanism for disease control and epidemic prevention according to claim 1, wherein: the pedal device further comprises a sleeve (59) sleeved on the first rotating shaft (37), a rotating cavity (58) is arranged on the sleeve (59), a ball bearing (57) is arranged on the inner wall of the rotating cavity (58) in a press fit mode, the inner ring of the ball bearing (57) is connected with the first rotating shaft (37) in a press fit mode, a sliding block (60) is sleeved on the sleeve (59), a support (68) is fixedly arranged on the sliding block (60), sterilized cotton (69) is fixedly arranged on the lower end face of the support (68), the lower surface of the sterilized cotton (69) is as high as the upper surface of the pedal (36), a hollow cavity (63) is arranged on the sliding block (60), a linear bearing (61) is arranged on the inner wall of the hollow cavity (63) in a press fit mode, the linear bearing (61) is in sliding connection with the sleeve (59), the front end face of the sliding block (60) is connected with the front end wall of the, the two reset rods (53) on the front reset assembly on the first rotating shaft (37) are connected with the front end face of the sliding block (60) through two first steel wire ropes (54), and the first steel wire ropes (54) are in a loose state in an initial state.

3. The public place self-taking disinfectant mechanism for disease control and epidemic prevention according to claim 1, wherein: the liquid squeezing device comprises a placement cavity (65) which is provided with one end wall of a power placement cavity (38), wherein a middle column (17) is arranged in the placement cavity (65) in a sliding mode, rack teeth (33) are fixedly arranged on the right end face of the lower side of the middle column (17), the rack teeth (33) can be meshed with teeth on a wheel (34), two sets of rolling components are symmetrically arranged on the middle column (17) in a left-right mode and comprise buffer plates (16) which are fixedly arranged on one end face of the middle column (17), a rolling cavity (15) is formed in one end face of each buffer plate (16), balls (14) are arranged in the rolling cavity (15) in a rolling mode, the rolling components further comprise lifting grooves (12) which are formed in one end wall of the placement cavity (65), the upper end faces and the lower end faces of the buffer plates (16) are connected with the inner wall of the lifting grooves (12) through third springs (13) respectively, a first piston (18) is arranged in a disinfection liquid placement cavity, the lower end face of the first piston (18) is fixedly connected with the middle column (17), and the upper end face of the first piston (18) is provided with a conical groove (19).

4. The public place self-taking disinfectant mechanism for disease control and epidemic prevention according to claim 3, wherein: crowded liquid device is still including seting up in intercommunication groove (40) of casing (11) up end, a plurality of air vents (39) have been seted up to intercommunication groove (40) lower terminal wall, slidable is equipped with second piston (41) in intercommunication groove (40), terminal surface under second piston (41) with intercommunication groove (40) lower terminal wall passes through fourth spring (52) and connects, the antiseptic solution is placed chamber (21) upper end wall and is seted up screw hole (45), screw hole (45) internal thread connection is equipped with bolt (44), bolt (44) with be equipped with between casing (11) and make the antiseptic solution place chamber (21) inner seal's rubber pad (43)).

5. The public place self-taking disinfectant mechanism for disease control and epidemic prevention according to claim 1, wherein: the material taking device comprises a preformed hole (22) formed in the right end wall of a disinfectant placing cavity (21), a material taking pipe (23) is fixedly arranged in the preformed hole (22), a material taking hole (24) is formed in the material taking pipe (23), the left end face of the material taking pipe (23) is connected with a hose (20), one end of the hose (20) is located in a conical groove (19), a groove (29) is formed in the right end face of the disinfectant placing cavity (21), a second rotating shaft (46) is arranged on the inner wall of the groove (29) in a rotating mode, a baffle (47) is sleeved on the second rotating shaft (46), a reset hole (67) is formed in the baffle (47), the inner wall of the reset hole (67) is connected with the second rotating shaft (46) through a coil spring (66), a buffer groove (26) is formed in the upper end face of the baffle (47), and a plug (25) is arranged in the buffer, the lower end face of the plug (25) is connected with the lower end wall of the buffer groove (26) through a plurality of fifth springs (27), and the second rotating shaft (46) is connected with the pedal (36) through a second steel wire rope (28).

6. The public place self-taking disinfectant mechanism for disease control and epidemic prevention according to claim 1, wherein: the taking device further comprises a hollow shell (30) fixedly arranged on the right end face of the disinfectant placing cavity (21), a cavity (31) is arranged in the hollow shell (30), and a drainage hole (32) is formed in the lower end wall of the cavity (31).