CN112842050A

CN112842050A - Automatic shoe cover sleeving machine

Info

Publication number: CN112842050A
Application number: CN202110062469.8A
Authority: CN
Inventors: 胡锡焜; 徐波
Original assignee: Zhejiang Ledi Food Co ltd
Current assignee: Zhejiang Ledi Food Co ltd
Priority date: 2021-01-18
Filing date: 2021-01-18
Publication date: 2021-05-28

Abstract

The invention relates to the field of shoe cover machines, and discloses a shoe cover automatic sleeving machine which comprises a shell, a treading structure, an extrusion pushing structure and a disinfection structure, wherein a first cavity is arranged in the shell, the extrusion pushing structure and the treading structure are both arranged in the first cavity, the treading structure comprises a pedal and at least one supporting structure, at least one sliding column is arranged at the lower end of the pedal, the supporting structure comprises a supporting column and a spring, the supporting column is connected to the bottom wall in the first cavity, a first through hole is formed in the supporting column, the sliding column slides in the first through hole, the spring is arranged in the first through hole, the extrusion pushing structure comprises a first extrusion pushing structure, a second extrusion pushing structure, a third extrusion pushing structure and a fourth extrusion pushing structure, the first extrusion pushing structure comprises a first extrusion structure and a first pushing structure, the disinfection structure is arranged in the first cavity, the shoe cover machine is simple in structure, energy-saving and environment-friendly, can ensure that the shoe covers can be discharged quickly and simultaneously, can disinfect the shoe covers, and prevents workshop pollution.

Description

Automatic shoe cover sleeving machine

Technical Field

The invention relates to the field of shoe cover machines, in particular to an automatic shoe cover sleeving machine.

Background

Food processing, which refers to grain grinding, feed processing, vegetable oil and sugar processing, slaughtering, meat processing, aquatic product processing and food processing activities of vegetables, fruits, nuts and the like which are directly carried out by taking agricultural, forestry, animal husbandry and fishery products as raw materials, is a type of generalized agricultural product processing industry. Since the eleven-fifthly, the agricultural and sideline food processing industry in China has rapid development and favorable change, and becomes an industry with strong development potential.

The food processing workshop is a place for processing food, people can visit or work at intervals, in order to prevent the entering personnel from polluting after entering the workshop, particularly the soles of the shoes are polluted by a plurality of pollutants, this requires an automatic shoe cover machine to be placed at the doorway of the workshop to cover the entering person with shoe covers to prevent the workshop from being polluted, however, the existing shoe cover machine has a complex structure, the shoe cover on the shoe cover machine is provided with four hooks, the existing shoe cover machine has four hooks which are separated from the upright posts on the shoe cover machine at the same time, the shoe cover is sleeved on the shoe, but due to the structure of the hook shoe cover machine, the hooks can not be separated simultaneously, so that the cover discharging speed is slow and even the hooks can be blocked, and the shoe cover is possibly infected with some bacteria after being placed on the shoe cover machine for a long time and needs to be disinfected, most of the existing shoe cover machines have no disinfection structure and can pollute workshops.

Disclosure of Invention

The invention provides an automatic shoe cover sleeving machine, which can solve the technical problem.

The invention provides the following technical scheme: an automatic shoe cover sleeving machine comprises a shell, a treading structure, an extrusion pushing structure and a disinfection structure, wherein a first cavity is arranged in the shell, the extrusion pushing structure and the treading structure are both arranged in the first cavity, the treading structure comprises a pedal and at least one supporting structure, at least one sliding column is arranged at the lower end of the pedal, the supporting structure comprises a supporting column and a spring, the supporting column is connected to the inner bottom wall of the first cavity, a first through hole is formed in the supporting column, the sliding column slides up and down in the first through hole, the spring is arranged in the first through hole, the spring is positioned between the lower end of the sliding column and the inner bottom wall of the first cavity, the extrusion pushing structure comprises a first extrusion pushing structure, a second extrusion pushing structure, a third extrusion pushing structure and a fourth extrusion pushing structure, the first extrusion pushing structure, the second extrusion pushing structure, the third extrusion pushing structure and the fourth extrusion pushing structure are the same, and the first extrusion pushing structure comprises a first extrusion structure and a first pushing structure, the pedal moves downwards to drive the first extrusion structure to extrude the first pushing structure, so that the first pushing structure works, and the disinfection structure is arranged in the first cavity.

Further, first extrusion structure includes first connecting rod and first sliding block, and first connecting rod one end is rotated and is connected at the footboard lower extreme, and the first connecting rod other end is rotated and is connected on first sliding block, and first sliding block lateral sliding connects on the shell diapire, and first sliding block slides and extrudes propelling movement structure, makes first propelling movement structure work.

Further, a first pushing structure comprises a first air bag, a first stand column, a first outer column and a pushing cylinder, the first air bag is fixed on the bottom wall of the shell, the lower end of the first stand column is connected on the bottom wall of the shell, the first outer column is connected on the bottom wall of the shell, a first hole is formed in the first outer column, the lower portion of the first stand column is located in the first hole, the pushing cylinder is located between the wall of the first hole and the outer wall of the first stand column, the pushing cylinder can slide upwards between the wall of the first hole and the outer wall of the first stand column, the inner wall of the first outer column and the pushing cylinder form a first sealed cavity, the first air bag is provided with a first air outlet and a first air inlet, the first hole of the first air bag is communicated, the first extruding structure extrudes the first air bag to enable the pushing cylinder to slide upwards, and before the shoe cover machine works, the first air bag and the.

Furthermore, the lower end of the pushing cylinder is provided with a blind hole, a dynamic seal is arranged between the outer wall of the pushing cylinder and the inner wall of the first outer column, and a dynamic seal is arranged between the inner wall of the upper end part of the pushing cylinder and the outer wall of the first outer column.

Furthermore, the first air bag is made of rubber, and the pushing cylinder is made of plastic.

Further, disinfection structure is including pressing the structure, spray structure and aerify the box, it includes connecting rod structure and fifth gasbag to press the structure, the fifth gasbag is connected on the shell diapire, connecting rod structure is connected with the footboard, it is equipped with the sealed chamber of second in the box to aerify, the fifth gasbag has second air inlet and second gas outlet, the fifth gasbag is linked together through the sealed chamber of second in second gas outlet and the box of aerifing, be provided with the second through-hole on the box of aerifing, it has according to the splenium to spray the structure, it slides in the second through-hole to press the splenium, and press and have dynamic seal between splenium and the second through-hole, footboard downstream makes connecting rod structure extrude the fifth gasbag, it works to spray the structure, it has alcohol to spray in the structure, before the shoe cover machine works, be filled with.

Further, the connecting rod structure includes fifth connecting rod and fifth sliding block, and fifth connecting rod one end is rotated and is connected at the footboard lower extreme, and the fifth connecting rod other end is rotated and is connected on the fifth sliding block, and the fifth sliding block is longitudinal sliding on the bottom wall in the shell, and the fifth sliding block slides and extrudes the fifth gasbag.

Further, the housing includes a housing main body and an upper cover, and the upper cover and the housing main body are detachably connected.

The invention has the following beneficial effects:

1. the invention provides a new technical idea, namely, a pedal descends to enable a first extrusion pushing structure, a second extrusion pushing structure, a third extrusion pushing structure and a fourth extrusion pushing structure to work simultaneously, so that hooks of shoe covers are separated from upright posts simultaneously, the hooks cannot be clamped, and a disinfection structure is arranged to disinfect the shoe covers sleeved on shoes and ensure the cleanness of the outer parts of the shoe covers.

2. According to the invention, the supporting mechanism is arranged at the lower side of the pedal, the supporting mechanism comprises the supporting columns and the springs, at least one sliding column is arranged at the lower end of the pedal, the sliding columns slide up and down in the supporting columns, the pedal can move in the vertical direction, the pedal is in the horizontal position in the movement process, namely the moving distance of each mass point on the pedal is the same, the first extrusion pushing structure, the second extrusion pushing structure, the third extrusion pushing structure and the fourth extrusion pushing structure controlled by the movement of the pedal can work simultaneously, hooks on shoe covers can be separated from the shoe cover machine at the same time, and the sleeve discharging speed is high.

3. The invention is provided with a first extrusion pushing structure, a second extrusion pushing structure, a third extrusion pushing structure and a fourth extrusion pushing structure, the four structures are the same, the first extrusion pushing structure comprises a first extrusion structure and a first pushing structure, the first pushing structure comprises a first air bag, a first upright post, a first outer post and a pushing cylinder, the first air bag is extruded through the first extrusion structure, gas in the first air bag enters a first sealing cavity, the gas drives the pushing cylinder to move upwards, and a plurality of hooks are pushed to move upwards, so that the sleeving of shoe covers is realized, the air bag is used, the gas is used as a driving force, the energy is saved, a motor is not needed, the cost is low, and the environment is protected.

4. The shoe cover is provided with the disinfection structure, the disinfection structure comprises the pressing structure and the spraying structure, when the shoe cover is sleeved on the shoe, the spraying structure sprays alcohol on the outer side of the shoe cover to disinfect the outer side of the shoe cover, and therefore pollutants such as bacteria and the like on the shoe cover are prevented from polluting a workshop.

5. The invention has simple structure, energy saving and environmental protection, and the shoe cover machine is convenient to maintain when damaged.

Drawings

FIG. 1 is a schematic top cross-sectional view of the present invention;

FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic cross-sectional view of B-B of FIG. 1 according to the present invention;

FIG. 4 is a schematic cross-sectional view of the structure of FIG. 1 taken along line C-C in accordance with the present invention;

fig. 5 is a schematic top view of the present invention.

The reference numbers in the figures illustrate:

1. a housing; 2. a tread structure; 3. a sterilizing structure; 4. a first extrusion pushing structure; 5. a second extrusion pushing structure; 6. a third extrusion pushing structure; 7. a fourth extrusion pushing structure; 11. a first cavity; 12. a housing main body; 13. an upper cover; 21. a pedal; 22. a support structure; 211. a sliding post; 221. a support pillar; 222. a spring; 31. a pressing structure; 32. a spray structure; 33. an inflation box; 311. a fifth air bag; 312. a fifth link; 313. a fifth slider; 321. a pressing part; 331. a second sealed chamber; 41. a first extrusion structure; 42. a first pushing structure; 411. a first link; 412. a first slider; 421. a first air bag; 422. a first upright post; 423. a first outer column; 424. a first pushing cylinder; 425. a first sealed chamber.

Detailed Description

Please refer to fig. 1-5 of an automatic overshoe sleeving machine, which comprises a housing 1, a treading structure 2, an extruding pushing structure and a disinfecting structure 3, wherein a first cavity 11 is provided in the housing 1, the extruding pushing structure and the treading structure 2 are both disposed in the first cavity 11, the treading structure 2 comprises a pedal 21 and at least one supporting structure 22, preferably two supporting structures 22 are provided, the lower end of the pedal 21 is provided with at least one sliding column 211, the sliding column 211 preferably comprises two supporting structures 22 including a supporting column 221 and a spring 222, the supporting column 221 is connected to the inner bottom wall of the first cavity 11, the supporting column 221 is provided with a first through hole, the sliding column 211 slides up and down in the first through hole, the spring 222 is disposed between the lower end of the sliding column 211 and the inner bottom wall of the first cavity 11, the extruding pushing structure comprises a first extruding pushing structure 4, a second extruding pushing structure 5, third extrusion propelling movement structure 6 and fourth extrusion propelling movement structure 7, first extrusion propelling movement structure 4, second extrusion propelling movement structure 5, third extrusion propelling movement structure 6 is the same with fourth extrusion propelling movement structure 7 structure, and be located four corners of first cavity 11 respectively, first extrusion propelling movement structure 4 includes first extrusion structure 41 and first propelling movement structure 42, footboard 21 moves down, it extrudes first propelling movement structure 42 to drive first extrusion structure 41, make propelling movement structure 42 work, make a couple break away from the shoe cover machine, footboard 21 makes first extrusion propelling movement structure 4 simultaneously, second extrusion propelling movement structure 5, third extrusion propelling movement structure 6 and fourth extrusion propelling movement structure 7 work, make four couples break away from the shoe cover machine simultaneously, the shoe cover is overlapped on the shoes, disinfection structure 3 sets up in first cavity 11.

First extrusion structure 41 includes first connecting rod 411 and first sliding block 412, first connecting rod 411 one end is rotated and is connected at footboard 21 lower extreme, the first connecting rod 411 other end is rotated and is connected on first sliding block 412, first sliding block 412 sliding connection is on the diapire in shell 1, first spout has been seted up on the diapire in shell 1, be provided with first sliding part on first sliding block 412, first sliding part lateral sliding on first spout, first sliding block 412 slides extrusion propelling movement structure 42, make first propelling movement structure 42 work.

The first pushing structure 42 includes a first air bag 421, a first upright post 422, a first outer post 423 and a first pushing cylinder 424, the first air bag 424 is fixed on the inner bottom wall of the housing 1, the lower end of the first upright post 422 is fixedly connected on the inner bottom wall of the housing 1, the first outer post 423 is provided with a first hole, the lower portion of the first upright post 422 is located in the first hole, the first pushing cylinder 424 is located between the wall of the first hole and the outer wall of the first upright post 422, the first pushing cylinder 424 can slide upwards between the wall of the first hole and the outer wall of the first upright post 422, the inner wall of the first outer post 423 and the first pushing cylinder 424 form a first sealed cavity 425, the first air bag 421 has a first air outlet and a first air inlet, the first air outlet of the first air bag 421 is communicated with the first hole, the first squeezing structure 41 squeezes the first air bag 421 to make the first pushing cylinder 424, before the shoe cover machine works, the first air bag 421 and the first sealing cavity 425 are filled with air, and the air is air which is environment-friendly and harmless to people.

The lower end of the first pushing cylinder 424 is provided with a blind hole, and the blind hole enables the number of solid parts of the first pushing cylinder 424 to be less, so that the first pushing cylinder 424 is lighter in weight and convenient to move.

The outer wall of the first pushing cylinder 424 and the inner wall of the first outer column 423 are provided with dynamic seals, the inner wall of the upper end part of the first pushing cylinder 424 and the outer wall of the first upright column 422 are provided with dynamic seals, the pushing cylinder 424 is guaranteed to have the sealing performance of the first sealing cavity 425 in the moving process, gas in the first sealing cavity 425 is prevented from leaking out, and the first pushing cylinder 424 is led to have no extrusion force on the hook.

The first air bag 421 is made of rubber, is low in cost and easy to compress, and the first pushing cylinder 424 is made of plastic, is light in weight, is convenient to move downwards under the pushing of air, and is labor-saving in design overall.

The second extrusion propelling movement structure 5 includes second extrusion structure and second propelling movement structure, the second extrusion structure includes second connecting rod and second sliding block, the second propelling movement structure includes the second stand, the second outer column, second gasbag and second propelling movement drum, the relation of connection of each component is the same with each component relation of connection in the first propelling movement structure 4 in the second extrusion propelling movement structure 5, the relation of connection of each component and shell 1 is the same with each component of first propelling movement structure 4 and the relation of connection of shell 1 in the second extrusion propelling movement structure 5.

The third extrusion pushing structure 6 comprises a third extrusion structure and a third pushing structure, the third extrusion structure comprises a third connecting rod and a third sliding block, the third pushing structure comprises a third upright column, a third outer column, a third air bag and a third pushing cylinder, the connection relation of all components in the third extrusion pushing structure 6 is the same as that of all components in the first pushing structure 4, and the connection relation of all components in the third extrusion pushing structure 6 and the shell 1 is the same as that of all components in the first pushing structure 4 and the shell 1.

The fourth extrusion propelling movement structure 7 includes fourth extrusion structure and fourth propelling movement structure, the fourth extrusion structure includes fourth connecting rod and fourth sliding block, the fourth propelling movement structure includes the fourth stand, the fourth outer column, fourth gasbag and fourth propelling movement drum, the relation of connection of each component is the same with each component relation of connection in the first propelling movement structure 4 in the fourth extrusion propelling movement structure 7, the relation of connection of each component and shell 1 is the same with each component of first propelling movement structure 4 and the relation of connection of shell 1 in the fourth extrusion propelling movement structure 7.

The disinfection structure 3 comprises a pressing structure 31, a spraying structure 32 and an inflating box 33, the pressing structure 31, the spraying structure 32 and the inflating box 33 are located near the upper inner wall and located near the bilateral symmetry axis of the housing 1, the pressing structure 31 comprises a connecting rod structure and a fifth air bag 311, the fifth air bag 311 is detachably connected to the inner bottom wall of the housing 1 and detachably connected as an adhesive, the connecting rod structure is connected with the pedal 21, a second sealed cavity 331 is arranged in the inflating box 33, the fifth air bag 311 is provided with a second air inlet and a second air outlet, the fifth air bag 311 is communicated with the second sealed cavity 331 in the inflating box 33 through the second air outlet, a second through hole is arranged on the inflating box 33, the spraying structure 32 is provided with a pressing part 321, the pressing part 321 slides in the second through hole, a dynamic seal is arranged between the pressing part 321 and the second through hole, the pedal 21 moves downwards to enable the connecting rod structure to press the fifth air bag 311, the spraying structure 32 is operated, the alcohol is filled in the spraying structure 32, the spraying structure 32 is the prior art (such as a spraying bottle, etc.), the pedal 21 moves, the link structure moves, the pressing part of the spraying structure 32 moves, the spraying structure 32 sprays the alcohol, and before the shoe cover machine operates, the fifth air bag 311 and the inflation box 33 are filled with air.

The connecting rod structure comprises a fifth connecting rod 312 and a fifth sliding block 313, one end of the fifth connecting rod 312 is rotatably connected to the lower end of the pedal 21, the other end of the fifth connecting rod 312 is rotatably connected to the fifth sliding block 313, the fifth sliding block 313 longitudinally slides on the inner bottom wall of the shell 1, a fifth sliding portion is arranged on the fifth sliding block 313, a fifth sliding groove is arranged on the inner bottom wall of the shell 1, the fifth sliding portion slides on the fifth sliding groove, and the fifth sliding block 313 of the fifth sliding portion slidably extrudes the fifth air bag 311.

The shell 1 comprises a shell body 12 and an upper cover 13, wherein the upper cover 13 is connected to the upper end of the shell body 12 through a screw, so that the upper cover 13 and the shell body 12 can be conveniently detached, the upper cover 13 is separated from the shell body 12, and the inside of the shell body 12 can be conveniently overhauled and shoe covers can be conveniently installed.

The distance between the upper end of the first upright post 422 and the upper cover 12, the distance between the upper end of the second upright post and the upper cover 12, the distance between the upper end of the third upright post and the upper cover 12 and the distance between the upper end of the fourth upright post and the upper cover 12 are slightly larger than the thickness of the hook, firstly, only one of the hooks positioned on the upright posts (the first upright post 422, the second upright post, the third upright post and the fourth upright post are generally called) can be separated from the upright posts, secondly, when the pedal 21 is limited to move to the lowest position by the distance, the upper end of the first pushing cylinder 424 can press the hooks, the hooks with the uppermost ends separated from the upright posts can also be pressed on the inner wall of the upper cover 13, once a person just separates from the pedal 21, the pedal 21 rises, the hooks are not stressed with extrusion force, the hooks shrink, and.

The working principle is as follows: four hooks of the shoe cover are respectively sleeved on the first upright post 422, the second upright post, the third upright post and the fourth upright post, a person entering a workshop puts feet in the shoe cover, forcibly presses the pedal 21, the pedal 21 descends to drive the first connecting rod 411, the second connecting rod, the third connecting rod and the fourth connecting rod to rotate, the first sliding block 412, the second sliding block, the third sliding block and the fourth sliding block which are correspondingly connected move towards the direction close to the inner wall of the shell 1 to correspondingly extrude the first air bag 421, the second air bag, the third air bag and the fourth air bag, the air in the first air bag 421 enters the first sealed cavity 425, the volume in the first sealed cavity 425 is constant, the incoming air pushes the first pushing cylinder 424 to move upwards, and the second pushing cylinder, the third pushing cylinder and the fourth pushing cylinder ascend, the first pushing cylinder 424, the second pushing cylinder, the third pushing cylinder and the fourth pushing cylinder ascend simultaneously to push the corresponding first upright post 422, The hooks on the second upright post, the third upright post and the fourth upright post move upwards until the uppermost hooks of the upright posts contact the lower end of the upper cover 13, the uppermost hooks of the upright posts extrude the upper cover 13 by treading on the pedal 21, then the pressure on the pedal 21 is relieved by feet, the pedal 21 rises, the extrusion force is not exerted on the hooks, the hooks are pulled by shoe covers to rapidly separate from the upright posts, and the shoe covers are sleeved on the shoes.

When the pedal 21 is stepped on and pressed by a foot, the pedal 21 moves downwards to drive the fifth connecting rod 312 to rotate, the fifth sliding block 313 slides to extrude the fifth air bag 311, the gas in the fifth air bag 311 enters the inflation box 33, the newly entered gas in the inflation box 33 can force the pressing part 321 to move, the spraying structure 32 sprays alcohol, the shoe cover is sleeved on the shoe, and the alcohol is splashed to the outer side surface of the shoe cover to be disinfected.

Claims

1. An automatic shoe cover sleeving machine is characterized in that: comprises a shell (1), a treading structure (2), an extrusion pushing structure and a disinfection structure (3);

a first cavity (11) is arranged in the shell (1), and the extrusion pushing structure and the treading structure (2) are both arranged in the first cavity (11);

the tread structure (2) comprises a tread (21) and at least one support structure (22),

the lower end of the pedal (21) is provided with at least one sliding column (211);

the support structure (22) comprises support columns (221) and springs (222);

the supporting column (221) is connected to the inner bottom wall of the first cavity (11), a first through hole is formed in the supporting column (221), the sliding column (211) slides up and down in the first through hole, the spring (222) is arranged in the first through hole, and the spring (222) is located between the lower end of the sliding column (211) and the inner bottom wall of the first cavity (11);

the extrusion pushing structure comprises a first extrusion pushing structure (4), a second extrusion pushing structure (5), a third extrusion pushing structure (6) and a fourth extrusion pushing structure (7);

the first extrusion pushing structure (4), the second extrusion pushing structure (5), the third extrusion pushing structure (6) and the fourth extrusion pushing structure (7) are identical in structure and are respectively positioned at four corners of the first cavity (11);

the first extrusion pushing structure (4) comprises a first extrusion structure (41) and a first pushing structure (42);

the pedal (21) moves downwards to drive the first extrusion structure (41) to extrude the first pushing structure (42), so that the pushing structure (42) works;

the disinfection structure (3) is arranged in the first cavity (11).

2. A shoe cover automatic sleeving machine according to claim 1, characterized in that: the first extrusion structure (41) comprises a first connecting rod (411) and a first sliding block (412), one end of the first connecting rod (411) is rotatably connected to the lower end of the pedal (21), the other end of the first connecting rod (411) is rotatably connected to the first sliding block (412), the first sliding block (412) is transversely slidably connected to the inner bottom wall of the shell (1), and the first sliding block (412) slidably extrudes the first pushing structure (42) to enable the first pushing structure (42) to work.

3. A shoe cover automatic sleeving machine according to claim 1, characterized in that: the first pushing structure (42) comprises a first air bag (421), a first upright post (422), a first outer post (423) and a first pushing cylinder (424), the first air bag (421) is fixed on the inner bottom wall of the shell (1), the lower end of the first upright post (422) is connected on the inner bottom wall of the shell (1), the first outer post (423) is provided with a first hole, the lower part of the first upright post (422) is positioned in the first hole, the first pushing cylinder (424) is positioned between the wall of the first hole and the outer wall of the first upright post (422), the first pushing cylinder (424) can slide upwards between the first hole and the outer wall of the first upright post (422), the inner wall of the first outer post (423) and the first pushing cylinder (424) form a first sealed cavity (425), the first air bag (421) is provided with a first air outlet and a first air inlet, the first air outlet of the first air bag (421) is communicated with the first hole, and the first pressing structure presses the first air bag (421) to enable the first pushing cylinder (424) to slide upwards;

before the shoe cover machine works, the first air bag (421) and the first sealed cavity (425) are filled with air.

4. A shoe cover automatic sleeving machine according to claim 3, wherein: the blind hole is formed in the lower end of the first pushing cylinder (424), the dynamic seal is arranged between the outer wall of the first pushing cylinder (424) and the inner wall of the first outer column (423), and the dynamic seal is arranged between the inner wall of the upper end of the first pushing cylinder (424) and the outer wall of the first outer column (422).

5. A shoe cover automatic sleeving machine according to claim 3, wherein: the first air bag (421) is made of rubber, and the first pushing cylinder (424) is made of plastic.

6. A shoe cover automatic sleeving machine according to claim 1, characterized in that: the disinfection structure (3) comprises a pressing structure (31), a spraying structure (32) and an inflating box (33), the pressing structure (31) comprises a connecting rod structure and a fifth air bag (311), the fifth air bag (311) is connected to the inner bottom wall of the shell (1), the connecting rod structure is connected with the pedal (21), a second sealing cavity (331) is arranged in the inflating box (33), the fifth air bag (311) is provided with a second air inlet and a second air outlet, the fifth air bag (311) is communicated with the second sealing cavity (331) in the inflating box (33) through the second air outlet, a second through hole is arranged on the inflating box (33), the spraying structure (32) is provided with a pressing part (321), the pressing part (321) slides up and down in the second through hole, dynamic sealing is arranged between the pressing part (321) and the second through hole, the pedal (21) moves downwards to enable the connecting rod structure to press the fifth air bag (311), and the spraying structure (32) works, alcohol is filled in the spraying structure (32);

before the shoe cover machine works, the fifth air bag (311) and the inflation box (33) are filled with air.

7. A shoe cover automatic sleeving machine according to claim 4, characterized in that: the connecting rod structure comprises a fifth connecting rod (312) and a fifth sliding block (313), one end of the fifth connecting rod (312) is rotatably connected to the lower end of the pedal (21), the other end of the fifth connecting rod (312) is rotatably connected to the fifth sliding block (313), the fifth sliding block (313) longitudinally slides on the inner bottom wall of the shell (1), and the fifth sliding block (313) slidably extrudes the fifth air bag (311).

8. A shoe cover automatic sleeving machine according to claim 1, characterized in that: the shell (1) comprises a shell main body (12) and an upper cover (13), wherein the upper cover (13) is detachably connected with the shell main body (12).