CN212591521U - Automatic suit of putting on and taking off of epidemic prevention boots cover - Google Patents

Abstract

The utility model provides an automatic suit of wearing and taking off of epidemic prevention boots cover, including the automatic mechanism of wearing of boots cover and the automatic mechanism that breaks off of boots cover. The boot cover automatic wearing mechanism comprises: the wearing mechanism shell is provided with a wearing inlet and a foot supporting plate; the boot sleeve storage assembly comprises a mounting plate, two boot sleeve chutes and a plurality of boot sleeves; the boot sleeve pulling assembly comprises a horn-shaped sliding chute, a pulling flaring unit and an up-down adjusting unit of the pulling flaring unit; and the inflating assembly inflates the boot sleeve. The boot cover automatic disengaging mechanism comprises: a disengaging mechanism housing provided with a disengaging inlet and a foot rest lever; the disinfection component is arranged in the disinfectant storage area and atomizes and sprays out the disinfectant; the boot sleeve separating component comprises boot sleeve pulling and fixing units arranged at the front end and the rear end of the foot supporting rod and pull-down units for pulling down trouser leg parts of the boot sleeves; the boot sleeve recycling assembly comprises a recycling bag arranged on the shell and a recycling rod for conveying the boot sleeve into the recycling bag.

Description

Automatic suit of putting on and taking off of epidemic prevention boots cover

Technical Field

The utility model belongs to the technical field of epidemic prevention and isolated correlation, concretely relates to automatic suit of wearing and taking off of epidemic prevention boots cover.

Background

SARS coronavirus, Ebola virus, etc. have extremely strong infectivity and a certain latent time. Medical staff are exposed to the environment of virus for a long time, and have extremely high cross infection risk.

In order to protect the safety of medical personnel during the period of resisting virus epidemic, medical workers involved in treatment must carry out three-level protection and wear various protective devices, including goggles, masks, gloves, protective clothing, operating gowns, shoe covers (boots) and the like. The protective devices are carried out in different environments according to certain procedures and procedures during the process of putting on and taking off the protective devices by individuals: during wearing, the patient firstly enters a cleaning area, wears gloves, an operation cap, a mask and goggles, wears work clothes, work shoes and shoe covers; then, the patient enters a semi-polluted area, and wears protective clothing and a mask; finally, the patient enters a polluted area, wears the isolation clothes, wears the boot sleeve, wears the pair of gloves and enters a diseased area. The whole body is disinfected in a contaminated area, the mask is taken off for isolation, the boot sleeves and the outer gloves are taken off, and then the semi-contaminated area is put into a clean area for taking off the protective clothing, the goggles, the mask, the operation caps, the gloves and the shoe sleeves to change the casual clothing).

Because the boot cover must be worn outside the protective isolation clothes and directly contacts the ground of the affected area, the boot cover is easy to be infected with virus, and the boot cover has the following problems in the wearing and taking-off process: (1) because of the three-level protection measures, the protection device is thick and heavy, and the boot sleeve is inconvenient to put on and take off; (2) dead angles exist in the boot sleeve bottom sterilization before detachment, and secondary pollution is easy to form; (3) the recovery process is a manual operation and there is a possibility of cross-contamination. Through market research, only ordinary shoe cover production enterprises exist, and no shoe cover device with a disinfection function appears in the market. Meanwhile, patent and literature research show that no research and report of similar products is presented.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic suit and suit for putting on and taking off epidemic prevention boots cover, which can realize the automatic putting on and taking off of the outmost boots cover. In order to achieve the above object, the present invention provides the following technical solutions:

< Structure I >

The utility model provides an automatic suit of wearing and taking off of epidemic prevention boots cover has following technical characteristic: comprises a boot sleeve automatic wearing mechanism arranged in an epidemic prevention ward epidemic prevention clothes wearing area and a boot sleeve automatic disengaging mechanism arranged in an epidemic prevention clothes disengaging area.

Wherein, the automatic wearing mechanism of boots cover has: the wearing mechanism shell is provided with a wearing inlet, and a foot supporting plate is arranged in the wearing inlet; the boot sleeve storage assembly is arranged in the boot sleeve storage area of the shell and comprises a vertically arranged mounting plate and two boot sleeve sliding grooves vertically mounted on the mounting plate, a plurality of boot sleeves are arranged on the mounting plate in a stacking mode through sliding sheets at two ends of elastic penetration openings and the boot sleeve sliding grooves in a matching mode, and the elastic penetration openings of two adjacent boot sleeves are connected in a breaking mode; the boot sleeve drawing assembly comprises a horn-shaped sliding groove connected with the boot sleeve sliding groove, a drawing flaring unit and an up-and-down adjusting unit, wherein the drawing flaring unit draws the open boot sleeve at the foremost end of the horn-shaped sliding groove to the wearing inlet and flares the boot sleeve, and the up-and-down adjusting unit realizes the up-and-down movement of the drawing flaring unit; and the inflating assembly is arranged on the shell and used for inflating the boot sleeve positioned in the wearing inlet.

The boot cover automatic disengaging mechanism comprises: the separation mechanism shell is provided with a separation inlet, and a foot supporting rod is arranged in the separation inlet; the disinfection components are arranged in the disinfection liquid storage areas at the left end, the right end and the bottom end of the separation inlet and atomize and spray the disinfection liquid; the boot sleeve separating component comprises boot sleeve pulling and fixing units arranged at the front end and the rear end of the foot supporting rod and pull-down units for pulling down trouser leg parts of the boot sleeves; the boot sleeve recycling assembly comprises a recycling bag arranged on the shell and a recycling rod for conveying the boot sleeve into the recycling bag.

Further, in the automatic wearing and removing set of the epidemic prevention bootie, the foot supporting plate is in a sole shape and is provided with a shoe cover edge which restrains the bootie part of the bootie all around.

Further, the utility model provides an automatic suit of taking off of wearing of epidemic prevention boots cover is provided with the mounting panel guiding groove on the inner wall in the casing boots cover memory area, two boots cover spouts and the narrowest end seamless contact of tubaeform spout.

Further, the utility model provides an among the automatic suit of wearing and taking off of epidemic prevention boots cover, the foremost spout thickness of tubaeform spout is less than the thickness of gleitbretter.

Further, the utility model provides an automatic suit of wearing and taking off of epidemic prevention boots cover in, tractive flaring unit includes two horizontal spouts, sets up four sliders on these two spouts, installs the connecting rod on the slider and install the boots colleting clamp in the connecting rod bottom.

Further, the utility model provides an among the automatic suit of wearing and taking off of epidemic prevention boots cover, the upper and lower regulating unit includes four vertical slide rails and the slider of being connected with two horizontal spouts.

Further, in the automatic suit of wearing and taking off of epidemic prevention boots cover provided by the utility model, the inflation assembly comprises a telescopic inflation tube, a swing type gripper for driving the inflation head to transfer or keep away from the boot cover opening, and a pedal plate arranged at the lower end part of the shell.

Further, the utility model provides an among the automatic suit of wearing and taking off of epidemic prevention boots cover, the disinfection subassembly is provided with the atomising head installing port on being close to the lateral wall that breaks away from entry one side in the antiseptic solution storage area including placing the antiseptic solution container in the antiseptic solution storage area and installing it on the atomising head.

Furthermore, in the automatic suit for putting on and taking off the epidemic prevention bootie provided by the utility model, the boot-boot drawing and fixing unit comprises a first bracket fixed on the bottom plate of the taking-off shell and a fixing head arranged on the bracket through a hinge shaft; the pull-down unit comprises two second supports respectively arranged at the left end and the right end of the leg part of the boot sleeve, a connecting rod rotatably arranged on the second supports and a lower pull head fixedly arranged on the connecting rod. The fixed head and the lower pull head are both pneumatic heads, and friction particles are arranged on the contact surface of the fixed head and the lower pull head and the boot sleeve.

Further, the utility model provides an among the automatic suit of wearing of epidemic prevention boots cover, the peripheral folding type magnetism fixed block that carries out the fixing to the recovery bag that sets up of mouth is retrieved to the casing, and recovery bag upper end part is provided with ties up the strip. The recovery rod unit comprises an oblique line type sliding block mechanism, a recovery rod with the tail end installed on the sliding block through a universal ball mechanism, and a grabbing head is arranged at the head end of the recovery rod unit.

Action and effect of the utility model

The automatic boot sleeve wearing and removing combined device provided by the invention consists of two parts, namely a boot sleeve automatic wearing mechanism arranged in an epidemic prevention ward epidemic prevention clothes wearing area and a boot sleeve automatic removing mechanism arranged in an epidemic prevention clothes removing area, wherein the boot sleeve automatic wearing mechanism realizes automatic gripping, inflation expanding and automatic wearing of the boot sleeve, and medical care personnel only need to slightly adjust according to self feeling; the automatic boot sleeve separating mechanism realizes comprehensive disinfection, automatic separation and automatic recovery of the boot sleeve, and does not need manual operation of medical staff in the whole process. On one hand, the trouble that the boot sleeve is inconvenient to put on and take off due to the fact that the protective device is thick and heavy is greatly reduced, the boot sleeve putting-on and taking-off efficiency of medical staff is improved, the safety of the medical staff is guaranteed, and the time and the energy of the medical staff are saved; on the other hand, the method has important significance and effect on the aspects of avoiding secondary virus pollution, cross infection and the like, and can further perfect the equipment of the first-line war epidemic prevention personnel protective apparatus.

Drawings

Fig. 1 is a schematic top view of an automatic wearing mechanism for booties according to an embodiment of the present invention;

FIG. 2 is a schematic front view of the automatic wearing mechanism of boot cover according to the embodiment of the present invention;

FIG. 3 is a schematic top view of the automatic wearing mechanism for booties according to the embodiment of the present invention;

FIG. 4 is a schematic top view of the automatic boot cover detaching mechanism according to the embodiment of the present invention;

FIG. 5 is a schematic view of the boot sleeve release assembly in an embodiment of the present invention;

fig. 6 is a schematic structural view of a recovery bag fixing mechanism in an embodiment of the present invention.

Detailed Description

The present invention will be described in detail with reference to the following embodiments and drawings. The following examples should not be construed, however, as limiting the scope of the invention.

The automatic wearing and removing set of epidemic prevention bootie provided by the embodiment comprises an automatic bootie wearing mechanism 100 arranged in an epidemic prevention ward epidemic prevention clothes wearing area and an automatic bootie removing mechanism 200 arranged in an epidemic prevention clothes removing area.

As shown in fig. 1 to 3, the automatic bootie wearing mechanism 100 includes a wearing mechanism housing 1, and a bootie storage unit 2, a bootie pulling unit 3, and an inflation unit 4 provided in the housing.

The wearing mechanism shell 1 is a plastic or stainless steel shell, the middle part is provided with a wearing inlet 11, and a foot support 13 is arranged in the wearing inlet; the left end part is a boot storage area 12 for installing or replacing the boot storage assembly 2; the right end part is a driving mechanism mounting area for mounting driving mechanisms such as motors and motor control devices.

The boot storage assembly 2 includes a vertically disposed mounting plate 21, two parallel boot runners 22 mounted vertically on the mounting plate. The boot sleeves 300 are matched with the boot sleeve sliding grooves in a vertical mode through sliding pieces at two ends of the elastic penetration openings, are stacked on the mounting plate, and are connected in a breaking mode through the elastic penetration openings of the two adjacent boot sleeves. When the previous bootie is pulled, the entry of the latter bootie can be brought open.

In this embodiment, the boot storing assembly 2 and the boot thereon are integrated, and when the boot is used up, the boot storing assembly 2 is directly replaced, instead of installing a new boot on the mounting plate, so as to save the boot replacement time. The replaced hole mounting plate can be returned to the manufacturer after being sterilized, and the manufacturer can install a new boot sleeve.

The boot sleeve pulling component 3 comprises a trumpet-shaped sliding chute 31 connected with the boot sleeve sliding chute, a pulling and flaring unit 32 for pulling the open boot sleeve at the foremost end of the trumpet-shaped sliding chute to the wearing inlet and flaring the boot sleeve, and an up-and-down adjusting unit 33 for realizing the up-and-down movement of the pulling and flaring unit.

The boot cover storage area 12 is provided with partitions at both ends of the inner end side wall near the wearing inlet 11, and the middle portion is opened to allow the boot cover to be caught in the wearing inlet. The horn-shaped sliding grooves 31 are arranged on the two middle partition plates, are as high as the two boot sleeve sliding grooves and are in seamless contact with the two boot sleeve sliding grooves. In order to realize the tight connection of the two, the front inner wall and the rear inner wall of the shell boot sleeve storage area 12 are provided with mounting plate guide grooves, and the tight butt joint of the two chutes can be realized only by pushing the mounting plate 21 into the bottom along the mounting plate guide grooves.

After the new boot sleeve storage component 2 is installed, the first boot sleeve needs to be manually pulled out, the thickness of the sliding groove at the foremost end of the horn-shaped sliding groove is slightly smaller than that of the sliding piece, and positioning is achieved.

The drawing flaring unit 32 is installed on the up-down adjusting unit 33, the drawing flaring unit 32 comprises two horizontal sliding grooves 321 and four sliding blocks 322 arranged on the two sliding grooves, the four sliding blocks are provided with connecting rods 323 through hinge shafts, and boot collets 324 which are pneumatic clamps are arranged at the bottom ends of the connecting rods. In order to accurately realize that the shoe cover part of the boot sleeve is just positioned on the sole plate, the traction flaring unit 32 can also comprise a boot sleeve gripper, the tail end of the boot sleeve gripper is arranged in the shell through a hinge shaft, the head end of the boot sleeve gripper is a sheet-shaped block, an air pipe is arranged in the boot sleeve gripper, and the lower half part of the boot sleeve can be gripped and released through air suction and air discharge.

When the boot sleeve clamp is driven by the sliders to clamp the inlet elastic part of the boot sleeve, the boot sleeve gripper is adhered to the lower half part of the boot sleeve, then the four sliders are far away from the horn-shaped sliding groove, the boot sleeve inlet is supported to the maximum, and meanwhile, the boot sleeve gripper places the lower half part of the boot sleeve on the foot supporting plate and then releases the foot supporting plate. The foot supporting plate 13 is in the shape of a sole, and shoe cover edges for restraining the boot sleeve part of the boot sleeve are arranged on the periphery of the foot supporting plate.

The up-down adjusting unit 33 includes four vertical slide rails 331 and a slider 332 connected to two horizontal sliding grooves. When the entrance of the boot sleeve is supported to the maximum, the two horizontal sliding grooves are driven by the driving mechanism through the connecting rod to integrally move downwards, so that the entrance of the boot sleeve is lowered, and a wearer can conveniently wear the boot sleeve.

The inflation assembly 4 includes an inflation tube 41 fixed through the housing and a foot pedal 42 provided at a lower end portion of the housing. The inflatable tube 41 is a telescopic tube, the pedal plate 42 is used as a trigger switch of the valve of the inflatable tube, when the position of the inflatable tube 41 is just positioned in the opening of the boot sleeve or slightly above the opening of the boot sleeve, the pedal plate 42 is stepped, the shoe cover part of the boot sleeve is inflated and opened, and the foot can be directly inserted. Then the two horizontal sliding grooves 321 move upwards along the vertical sliding rails to lift the trouser leg parts, and when the trouser leg parts are not lifted, the clamping openings are loosened to finish the wearing.

The position of the inflation tube 41 is suitable for the prior art, various modes are available, the inflation head of the inflation tube can be transferred to the opening of the boot sleeve through the swing type manipulator, and the inflation head can also be conveyed to the corresponding position through the sliding block, for example, a sliding rail is arranged on the periphery of the foot supporting plate, the movement of the inflation head is realized through the movement of the sliding block on the foot supporting plate, and the wearing and the taking off of the boot sleeve are not influenced.

The automatic boot sleeve disengaging mechanism 200 includes a disengaging mechanism housing 5, a sterilizing assembly 6, a boot sleeve disengaging assembly 7, and a boot sleeve recycling assembly 8.

The disengaging mechanism shell 5 is a plastic or stainless steel shell, the middle part is provided with a disengaging inlet 51, and a foot rest rod 52 is arranged in the disengaging inlet 51. The left end, the right end and the bottom end of the separation inlet are disinfectant storage areas for mounting the disinfection component 6, and the front end part is a mounting area of the recovery component 8.

The foot rest rod 52 is provided in the release mechanism to enhance the sterilization of the boot sleeve bottom area, because the bottom area is likely to have a sterilization dead angle, and if the foot rest is further provided, the boot sleeve bottom area is likely to be incompletely sterilized.

The disinfection component 6 comprises a disinfection liquid container 61 arranged in a disinfection liquid storage area and an atomizing head 62 arranged on the disinfection liquid container, and an atomizing head mounting opening is arranged on the side wall of the disinfection liquid storage area close to the side separated from the inlet. In this embodiment, the atomizing heads are preferably automatic atomizing heads, and when the feet are detected to be inserted, all the atomizing heads start to spray so as to carry out all-around disinfection on the boot sleeve.

The shoe cover detaching assembly 7 includes shoe cover pulling and fixing units 71 provided at both front and rear ends of the leg rest and a pulling-down unit 72 pulling down leg portions of the shoe cover. The boot-cover pulling-fixing unit 71 includes a first bracket 711 fixed to the bottom plate of the detachment housing and a fixing head 712 mounted on the bracket through a hinge shaft; the pull-down unit 72 includes two second supports 721 respectively provided at left and right ends of the leg portion of the bootie, a link 722 pivotally provided on the second supports up and down, and upper and lower sliders fixedly installed on the link. The fixed head and the lower pull head are both pneumatic heads, and friction particles are arranged on the contact surface of the fixed head and the lower pull head and the boot sleeve.

In this embodiment, the fixed head and the lower pull head are both pneumatic heads, and friction particles are arranged on the surfaces of the fixed head and the lower pull head, so that the connecting force between the fixed head and the surface of the boot sleeve is increased. After the disinfection is finished, the two fixing heads are attached to the front end and the rear end of the boot sleeve under the driving of the miniature electric cylinder, and are attached after air exhaust to realize fixation; meanwhile, the connecting rod is also driven by the electric cylinder to drive the lower pull heads to be attached to two ends of the leg parts of the boots, the lower pull heads are closely attached to the two ends of the leg parts of the boots after air exhaust, then the connecting rod rotates downwards, and the leg parts of the boots are pulled by the lower pull heads to move downwards to the ankles. Then, the fixed head and the lower pulling head are simultaneously used as the fixed device of the boot sleeve to fix the boot sleeve, and medical staff can pull out the foot.

Of course, the number and position of the fixed head and the lower slider are not limited to the above, and may be changed according to actual circumstances. In addition, the moving modes of the fixed head and the lower pull head are simple, the cylinder is adopted for driving, the conventional technology is adopted, and other modes can be adopted for driving.

The bootie recovery assembly 8 includes a recovery bag 81 and a recovery rod unit 82 that feeds the bootie into the recovery bag. According to fig. 6, the periphery of the recovery port 53 of the detachment mechanism shell is provided with a folded magnetic fixed block 54, so that the port end of the recovery bag is fixed on the shell. The upper end part of the recovery bag is provided with a binding strip, after the recovery bag is full, the opening end is bound, then the recovery bag is dismounted, and a new recovery bag is replaced.

The recovery rod unit 82 comprises a diagonal slide block mechanism 821, a recovery rod 822 with a tail end mounted on the slide block through a universal ball mechanism, and a pneumatic grabbing head 822a arranged at the head end. After the gripping head grips the boot sleeve to be recovered, the fixing head and the lower pulling head are inflated to leave the boot sleeve, and the recovery rod sends the boot sleeve into the recovery box.

According to the above, the automatic boot sleeve wearing mechanism realizes automatic gripping, inflation and expansion and automatic wearing of the boot sleeve, and medical care personnel only need to slightly adjust the automatic boot sleeve wearing mechanism according to self feeling; the automatic boot sleeve separating mechanism realizes comprehensive disinfection, automatic separation and automatic recovery of the boot sleeve, and does not need manual operation of medical staff in the whole process. On one hand, the trouble that the boot sleeve is inconvenient to put on and take off due to the fact that the protective device is thick and heavy is greatly reduced, the boot sleeve putting-on and taking-off efficiency of medical staff is improved, the safety of the medical staff is guaranteed, and the time and the energy of the medical staff are saved; on the other hand, the method has important significance and effect on the aspects of avoiding secondary virus pollution, cross infection and the like, and can further perfect the equipment of the first-line war epidemic prevention personnel protective apparatus.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. An automatic wearing and taking-off set of epidemic prevention bootleg, which is characterized by comprising an automatic bootleg wearing mechanism arranged in an epidemic prevention ward epidemic prevention clothes wearing area and an automatic bootleg taking-off mechanism arranged in an epidemic prevention clothes taking-off area,

wherein, the automatic wearing mechanism of the boot cover has:

the wearing mechanism shell is provided with a wearing inlet, and a foot supporting plate is arranged in the wearing inlet;

the boot sleeve storage assembly is arranged in the boot sleeve storage area of the wearing mechanism shell and comprises a vertically arranged mounting plate and two boot sleeve sliding grooves vertically mounted on the mounting plate, a plurality of boot sleeves are arranged on the mounting plate in a stacking mode through sliding pieces at two ends of elastic penetration openings and the boot sleeve sliding grooves in a matching mode, and the elastic penetration openings of the two adjacent boot sleeves are connected in a breaking mode;

the boot sleeve drawing assembly comprises a horn-shaped sliding groove connected with the boot sleeve sliding groove, a drawing and flaring unit and an up-and-down adjusting unit, wherein the drawing and flaring unit draws the boot sleeve at the foremost end of the horn-shaped sliding groove to the wearing inlet and flares the boot sleeve, and the up-and-down adjusting unit realizes the up-and-down movement of the drawing and flaring unit;

an inflation assembly arranged on the shell and used for inflating the boot sleeve positioned in the wearing inlet,

the boot cover automatic disengaging mechanism comprises:

the separation mechanism shell is provided with a separation inlet, and a foot supporting rod is arranged in the separation inlet;

the disinfection components are arranged in the disinfection liquid storage areas at the left end, the right end and the bottom end of the separation inlet and atomize and spray disinfection liquid;

the boot sleeve separating component comprises boot sleeve pulling and fixing units arranged at the front end and the rear end of the foot supporting rod and pull-down units for pulling down trouser leg parts of the boot sleeves;

the boot sleeve recycling assembly comprises a recycling bag arranged on the disengaging mechanism shell and a recycling rod unit used for conveying the boot sleeve into the recycling bag.

2. The automatic epidemic prevention bootlace putting on and taking off set according to claim 1, wherein:

wherein, the foot supporting plate is in a sole shape, and the periphery of the foot supporting plate is provided with a shoe cover edge for restraining the boot sleeve part of the boot sleeve.

3. The automatic epidemic prevention bootlace putting on and taking off set according to claim 1, wherein:

wherein, the inner wall in the boot sleeve storage area is provided with a mounting plate guide groove,

the two boot sleeve sliding grooves are in seamless contact with the narrowest end of the horn-shaped sliding groove.

4. The automatic epidemic prevention bootlace putting on and taking off set according to claim 1, wherein:

the thickness of the most front sliding chute of the horn-shaped sliding chute is smaller than that of the sliding chute.

5. The automatic epidemic prevention bootlace putting on and taking off set according to claim 1, wherein:

the traction flaring unit comprises two horizontal sliding grooves, four sliding blocks arranged on the two sliding grooves, a connecting rod arranged on the sliding blocks through a hinge shaft and a boot sleeve clamp arranged at the bottom end of the connecting rod.

6. The automatic epidemic prevention bootlace putting on and taking off set according to claim 5, wherein:

the up-down adjusting unit comprises four vertical sliding rails and a sliding block connected with two horizontal sliding grooves.

7. The automatic epidemic prevention bootlace putting on and taking off set according to claim 1, wherein:

the inflation assembly comprises a telescopic inflation tube, a swinging type gripper for driving the inflation head to move or to be far away from the boot sleeve opening, and a pedal plate arranged at the lower end part of the shell.

8. The automatic epidemic prevention bootlace putting on and taking off set according to claim 1, wherein:

wherein the disinfection component comprises a disinfection solution container arranged in the disinfection solution storage area and an atomizing head arranged on the disinfection solution container,

and an atomizing head mounting opening is formed in the side wall, close to the side separated from the inlet, of the disinfectant storage area.

9. The automatic epidemic prevention bootlace putting on and taking off set according to claim 1, wherein:

the boot sleeve pulling and fixing unit comprises a first bracket fixed on a base plate of the disengaging shell and a fixing head arranged on the bracket through a hinge shaft;

the pull-down unit comprises two second brackets respectively arranged at the left end and the right end of the leg part of the boot sleeve, a connecting rod rotatably arranged on the second brackets and a lower pull head fixedly arranged on the connecting rod,

the fixed head and the lower pull head are both pneumatic heads, and friction particles are arranged on the contact surfaces of the fixed head and the lower pull head and the boot sleeve.

10. The automatic epidemic prevention bootlace putting on and taking off set according to claim 1, wherein:

the periphery of a recycling port of the shell is provided with a folding type magnetic fixing block for fixing a recycling bag, and the upper end part of the recycling bag is provided with a binding strip;

the recovery rod unit comprises an oblique line type sliding block mechanism and a recovery rod of which the tail end is arranged on the sliding block through a universal ball mechanism, and the head end of the recovery rod is provided with a grabbing head.

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