CN213852243U - Matched glove rack of ozone disinfection machine - Google Patents

Abstract

The utility model discloses a supporting gloves frame of ozone disinfection machine, through setting up dedicated gloves rack subassembly, set up first ozone hole and first vacuum hole on the gloves rack, set up second venthole on the gloves rack, will treat sterile gloves to cup joint on the gloves rack during use, then put into the disinfection machine with gloves rack subassembly together with gloves, let in the gloves rack and finally let in gloves through first ozone hole with ozone inside, will let in the inside ozone suction of gloves through first vacuum hole, like this through with ozone repeated let in with take out gloves inside, and the disinfection machine itself is to the outside disinfection of ozone, thereby reach the mesh of comprehensive disinfection of gloves inside and outside. Meanwhile, a glove pressing plate is further configured, the glove pressing plate is matched with the glove frame to compress the wrist of the glove, the glove is prevented from being separated from the glove frame after ozone is introduced and expanded, and the disinfection process is effectively carried out.

Description

Matched glove rack of ozone disinfection machine

Technical Field

The utility model relates to the field of medical equipment, concretely relates to supporting glove rack of ozone disinfection machine.

Background

Ozone disinfection is a bacteriolytic method, has thorough disinfection, no residue, broad-spectrum sterilization, can kill bacterial propagules, spores, viruses, fungi and the like, and can destroy botulinum toxin. In addition, O3 has the function of killing mould. O3, because of its poor stability, will rapidly decompose into oxygen or single oxygen atoms, which can self-combine into oxygen molecules without any toxic residues, so O3 is a non-polluting disinfectant. The ozone disinfection has many characteristics, so that the ozone disinfection is widely applied to the field of medical instruments, various medical instruments such as medical bed units, scalpels and medical care clothes are placed in a closed cavity, and then ozone is introduced to diffuse and disperse to carry out all-round disinfection, so that the disinfection and sterilization of the medical instruments are achieved. However, the ozone sterilization cannot be effectively introduced into some medical instruments with special-shaped cavities, such as gloves, endoscopes and the like, by a diffuse emission mode, and the ozone sterilization effect is greatly reduced for the medical instruments needing cavity sterilization.

Therefore, how to comprehensively disinfect medical instruments with inner cavities from inside to outside is a problem to be solved at present, and the medical instruments with inner cavities have universality and good disinfection effect on other types of medical instruments.

SUMMERY OF THE UTILITY MODEL

The above-mentioned not enough to prior art exists, the utility model discloses a supporting gloves frame of ozone disinfection machine, through setting up dedicated gloves rack subassembly, set up first ozone hole and first vacuum hole on the gloves rack, set up second venthole on the gloves rack, will treat sterile gloves to cup joint on gloves rack during the use, then put into the disinfection machine together with gloves rack subassembly, let in the gloves rack and finally let in gloves inside through first ozone hole with ozone, will let in the inside ozone suction of gloves through first vacuum hole, like this through letting in with ozone relapse and take gloves inside, and the disinfection machine itself is to the outside disinfection of ozone, thereby reach the mesh of comprehensive disinfection inside and outside the gloves. Meanwhile, a glove pressing plate is further configured, the glove pressing plate is matched with the glove frame to compress the wrist of the glove, the glove is prevented from being separated from the glove frame after ozone is introduced and expanded, and the disinfection process is effectively carried out.

The utility model discloses a following technical scheme realizes:

a glove rack matched with an ozone disinfection machine is suitable for disinfecting gloves and comprises a glove placing rack assembly; the glove placing rack assembly comprises a glove placing rack and a glove rack; the glove placing frame comprises a placing frame and a rib tube; the rib pipes are hollow and arranged in the middle of the placing frame; the two ends of the rib pipe are inserted into the inner side edge of the placing frame and are provided with first vent holes positioned on the peripheral surface; the placing frame is hollow inside, and the outer side edge of the placing frame is provided with a first ozone hole; the glove rack comprises a glove rack table and a second vent hole axially arranged along the glove rack table; the glove rack is fixedly connected above the rib pipe, and the first vent hole is opposite to the second vent hole; gloves can be located gloves pallet periphery, and the gloves inner chamber is just to second venthole top.

Furthermore, a first vacuum hole is formed in the outer side edge of the placing frame.

Further, the first vacuum hole and the first ozone hole are oppositely arranged.

Further, the glove placing rack assembly also comprises a glove pressing plate arranged above the rib tube; the glove pressing plate comprises a pressing plate body and a pressing hole; the gloves clamp plate can be from the top down to push down, makes the pressure hole can overlap and locate the gloves pallet, and then makes the medial surface and the laminating of gloves pallet outer peripheral face in pressure hole.

Furthermore, the glove racks are distributed on the rib tubes in an array manner; the glove stand is of a shaft structure; the two end parts of the pressure hole are cambered surfaces, and the middle part of the pressure hole is provided with cambered surface sections and straight surface sections which are alternately arranged; the cambered surface section of the pressure hole is attached to the outer peripheral surface of the glove support.

Further, the top surface of the glove placing rack is also provided with placing racks which are arranged in pairs; the placing frame is of an inverted C-shaped frame structure and is provided with transverse spokes and vertical spokes positioned at two ends of the transverse spokes; the end part of the vertical spoke is fixedly connected to the upper surface of the placing frame and is provided with a guide groove positioned at the inner side; the glove pressing plate also comprises guide strips symmetrically arranged on two sides of the pressing plate body; two ends of the guide strip extend out of the pressure plate body and are inserted into the guide grooves of the vertical spokes of the placing rack; the glove placing frame assembly also comprises a second return spring and an adjusting assembly; the lower end of the second return spring is fixedly connected to the upper surface of the placing frame and is positioned below the two end parts of the guide strip; the adjusting component comprises an adjusting screw rod and an adjusting nut; the adjusting screw rod penetrates through the middle part of the guide strip, and two ends of the adjusting screw rod are fixedly connected with the banner strip and the placing frame of the placing frame respectively; the adjusting nut is in threaded connection with the adjusting screw rod and is positioned above the guide strip; when the glove is not in a working state, the glove pressing plate can be suspended above the glove frame due to the bearing effect of the second return spring.

Furthermore, a second return spring is embedded in the guide groove of the vertical spoke of the placing frame.

Further, the guide strip is arranged on the adjusting component in a penetrating mode.

Further, the glove frame also comprises a glove framework; the glove framework is vertically arranged on the upper end surface of the glove rack; the glove framework can be sleeved in the positions of the glove sleeved fingers in a one-to-one correspondence manner.

Furthermore, the total number of the glove frameworks is 5, and the glove frameworks are arranged on the upper end face of the glove support side by side.

Further, the glove rack also comprises a third vent hole; the third vent hole is arranged around the second vent hole; when the glove can be sleeved on the glove rack, the inner cavity of the glove is just opposite to the upper part of the third vent hole.

Compared with the prior art, the utility model, following advantage and beneficial effect have:

1) the utility model discloses a set up dedicated gloves place the frame subassembly, will treat sterile gloves to cup joint on the gloves frame during use, then put into the sterilizing machine together with gloves rack subassembly, the sterilizing machine is through the first ozone hole of pegging graft, lets in gloves place the frame subassembly inside with ozone to finally let in gloves, reach the disinfection to gloves inside, can be to the outside disinfection of gloves through sterilizing machine itself, and then realize the inside and outside comprehensive disinfection of gloves.

2) The glove placing frame assembly is further provided with a first vacuum hole, the sterilizing machine is connected with the first vacuum hole in an inserting mode, ozone which is in the interior of the glove after sterilization can be pumped out to the outside through an inner pipeline of the glove placing frame, then the glove is thoroughly removed after ozone sterilization, the sterilizing machine can vacuumize the cabin of the sterilizing machine, and therefore the purpose of thoroughly sterilizing the interior and the exterior of the glove is achieved by repeatedly pumping in and out the ozone.

3) The glove placing frame assembly is further provided with a glove pressing plate, the glove pressing plate is matched with the glove frame to compress the wrist of the glove, the glove is prevented from being separated from the glove frame after ozone is introduced and expanded, and the disinfection process is effectively carried out.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is an overall layout diagram of an embodiment of the present invention;

fig. 2 is an overall layout view of a glove rack according to an embodiment of the present invention;

fig. 3 is an enlarged view of fig. 2 at III according to an embodiment of the present invention;

FIG. 4 is an overall structure diagram of a glove pressing plate according to an embodiment of the present invention;

FIG. 5 is an overall structure view of a glove rack according to an embodiment of the present invention;

fig. 6 is an enlarged view of fig. 1 at I according to an embodiment of the present invention;

fig. 7 is an enlarged view of fig. 1 at II according to an embodiment of the present invention;

FIG. 8 is a schematic view of the inside of a glove into which ozone is introduced according to an embodiment of the present invention;

fig. 9 is a schematic view of the glove rack assembly of one embodiment of the present invention being stored in and taken out of the ozone sterilizer.

Reference numbers and corresponding part names in the drawings:

10-glove placing frame component, 101-glove pressing plate, 1011-pressing plate body, 1012-guide strip, 1013-pressing hole, 102-glove placing frame, 1021-placing frame, 1021 a-first vacuum hole, 1021 b-first ozone hole, 1022-placing frame, 1023-rib tube, 1023 a-first vent hole, 103-glove frame, 1031-glove stand, 1031 a-second vent hole, 1031 b-third vent hole, 1032-glove framework, 104-second return spring, 105-adjusting component, 1051-adjusting screw rod, 1052-adjusting nut, 20-glove and 30-ozone disinfection machine.

Detailed Description

The utility model provides a supporting gloves frame of ozone sterilizing machine is suitable for the disinfection of gloves 20, as shown in fig. 1 to 9, including gloves place holder subassembly 10, in some embodiments, gloves place holder subassembly 10 as shown in fig. 1 can be used for the disinfection of gloves 20. The glove rack assembly 10 includes a glove rack 102 and a glove rack 103. The glove rack 102 includes a rack frame 1021 and a rib tube 1023 shown in fig. 2; muscle pipe 1023 inside cavity is located and is placed frame 1021 middle part. Both ends of the rib 1023 are inserted into the inner side of the frame 1021, and a first vent 1023a is arranged on the periphery as shown in fig. 3 and 8. The placing frame 1021 is a square frame structure formed by welding and assembling four hollow rectangular tubes end to end, and the outer side edge is provided with a first ozone hole 1021b shown in fig. 2 and 8. Thus, the placing frame 1021 and the rib tube 1023 communicate with each other, and the gas can flow freely between the placing frame 1021 and the rib tube 1023 as shown in fig. 8.

As shown in fig. 5, the glove rack 103 includes a glove mount 1031. The glove mount 1031 has a stepped shaft structure, and a second vent hole 1031a penetrating the glove mount 1031 in the axial direction is further provided. As shown in fig. 1 and 8, the glove holder 103 is fixed above the rib tube 1023 by welding or the like, and the first vent hole 1023a is aligned with the second vent hole 1031 a.

In use, the glove 20 is fitted around the periphery of the glove mount 1031 as shown in fig. 8, and the inner cavity of the glove 20 faces the upper side of the second vent 1031 a. Then, the glove rack assembly 10 is pushed into the ozone disinfection machine 30 as shown in fig. 9, the ozone disinfection machine 30 is a disinfection machine model commonly used at present, and some improvements on adaptability can be made for the glove rack assembly 10, for example, a plug for plugging the first ozone hole 1021b is arranged inside the ozone disinfection machine 30, and the plug is connected with a pipeline, such as an ozone generator, arranged on the ozone disinfection machine 30. After the plug is inserted into the first ozone hole 1021b, the ozone disinfection machine 30 is started, the prepared ozone enters the glove placing frame 102 through the first ozone hole 1021b, and then flows into the inner cavity of the glove 20 through the ribbed tube 1023, the first vent hole 1023a and the second vent hole 1031a in sequence for disinfection; the disinfection chamber of the ozone disinfection machine 30 can be filled with ozone to perform immersion disinfection on the surface of the gloves 20; therefore, the purpose of comprehensively disinfecting the inner cavity and the outer surface of the glove 20 is achieved through the cooperation of the glove placing rack assembly 10 and the ozone disinfecting machine 30. It should be noted that, the glove 20 is generally a medical silica gel glove, and the material itself has certain elasticity and extensibility, so that after the glove is sleeved on the glove mount 1031, the inner cavity surface of the glove 20 and the upper end surface of the glove mount 1031 are covered to form a sealed cavity; meanwhile, the rib tubes 1023 not only achieve the purpose of air flow circulation, but also have the functions of bearing the glove rack 103 and reinforcing the placing frame 1021, so that as shown in fig. 2, in order to further improve the bearing and reinforcing functions of the rib tubes 1023, the rib tubes 1023 are arranged in the placing frame 1021 in a criss-cross mode in a shape like a Chinese character 'tian'. Further, in order to strengthen the whole disinfection effect, as shown in fig. 8, the first ozone hole 1021b is arranged below the glove rack 103, the glove rack 103 is sleeved with the gloves 20 in an inverted mode, when ozone is introduced, the ozone is introduced into the gloves 20 from bottom to top through the first ozone hole 1021b for disinfection, the upward thrust generated by the gravity of the gloves 20 and the gas flow reaches two-force balance, the gloves 20 can be fully expanded and expanded without separating from the glove rack 103, the contact area between the inner surface and the outer surface of the gloves 20 and the ozone is maximized, and the disinfection effect is further optimized.

In some embodiments, because ozone is unstable and will decompose after a period of continuous disinfection, ozone should be repeatedly introduced into the object to be disinfected to meet the work requirement in order to ensure the long-term continuous disinfection effect. Therefore, with respect to this characteristic, as shown in fig. 2 and 8, the side of the placing frame 1021 is provided with a first vacuum hole 1021 a; a plug for plugging the first vacuum hole 1021a is also disposed in the ozone sterilizer 30, and the plug can be connected to a pipeline such as a vacuum pump disposed on the ozone sterilizer 30. Thus, after the glove 20 is sterilized by the ozone, the ozone sterilizer 30 may be activated to pump out the ozone in the inner cavity of the glove 20 to the outside through the first vacuum hole 1021 a. During specific use, the ozone disinfection machine 30 can be started firstly as shown in fig. 8, ozone is introduced into the inside and outside of the glove 20 through the first ozone hole 1021b, after a period of time, the ozone in the inside and outside of the glove 20 is pumped out through the first vacuum hole 1021a, and the operation is repeated for multiple times, so that the work requirement of ozone disinfection is met.

In some embodiments, as shown in fig. 2 and 8, the first vacuum hole 1021a and the first ozone hole 1021b are oppositely disposed. Such a gas flow path is also more reasonable. Meanwhile, when the glove placing frame assembly 10 is provided with corresponding vacuumizing pipelines and ozone pipelines, the left side and the right side can be dispersedly arranged according to the positions of the first vacuum hole 1021a and the first ozone hole 1021b, so that the space utilization rate is more reasonable. Of course, the first vacuum hole 1021a and the first ozone hole 1021b may be disposed on the same side, and disposed adjacent to each other, which will not be described in detail herein.

In some embodiments, to prevent the glove 20 from being removed from the glove holder 103 due to the swelling of the glove 20 caused by ozone sterilizing the interior cavity of the glove 20, the glove holder assembly 10 further comprises a glove press plate 101, as shown in fig. 1 and 8. The glove platen 101 is positioned over the rib 1023 and includes a platen body 1011 and a platen bore 1013 as shown in fig. 4. The pressure hole 1013 is fitted to the glove mount 1031 so that the inner surface of the pressure hole 1013 and the outer periphery of the glove mount 1031 form a fit as shown in fig. 8. Thus, the glove 20 can be prevented from separating from the glove holder 103 after swelling by pressing the glove 20 at the fitting portion by the mutual pressing force between the hole surface of the pressure hole 1013 and the outer peripheral surface of the glove holder 1031.

Further, in order to sterilize more gloves 20 at a time, the glove holders 503 are arranged on the tendon tube 5023 in an array as shown in fig. 1. Meanwhile, in order to facilitate the glove 20 to be sleeved on the glove holder 503, the glove holder 5031 is of an axial structure; and as shown in fig. 4, the press holes 5013 are provided with two end parts of arc surfaces and a middle part of arc surface sections and straight surface sections which are alternately arranged. When the glove holder is used specifically, an operator can hold the glove 20 to be sterilized with two hands, the hand of the operator is positioned at the straight section of the pressure hole 5013, the glove 20 is positioned at the arc section of the pressure hole 5013, then the glove 20 is sleeved on the glove holder 503, and the glove pressure plate 101 is pressed down integrally, so that the arc section of the pressure hole 5013 is attached to the outer peripheral surface of the glove holder 5031 as shown in fig. 1, and the effect of fixing the glove 20 is achieved.

More preferably, to facilitate adjustment of the position of the glove press 101 within the glove holder assembly 10. As shown in fig. 2, the top surface of the glove rack 102 also has racks 1022 arranged in pairs. The placing frame 1022 is an inverted "C" shaped frame structure and has a transverse spoke and vertical spokes located at both ends of the transverse spoke; the ends of the vertical spokes are fixed to the upper surface of the placing frame 1021 and have guiding grooves on the inner side. As shown in fig. 4, the glove pressing plate 101 further includes guide strips 1012 symmetrically disposed on both sides of the pressing plate body 1011. The two ends of the guiding strip 1012 extend out of the pressing plate body 1011 and are inserted into the guiding grooves of the vertical spokes of the placing frame 1022 as shown in fig. 6. As shown in fig. 1, 6 and 7, the glove rack assembly 10 further includes a second return spring 104 and an adjustment assembly 105. The lower end of the second return spring 104 is fixed to the upper surface of the placing frame 1021 and is located below the two ends of the guiding strip 1012. The adjustment assembly 105 includes an adjustment screw 1051 and an adjustment nut 1052; the adjusting screw 1051 penetrates the middle part of the guide strip 1012, and two ends of the adjusting screw are respectively and fixedly connected with the banner strips and the placing frame 1021 of the placing rack 1022; an adjustment nut 1052 is threaded onto the adjustment screw 1051 and is positioned above the guide bar 1012. When the glove is not in operation, the glove pressing plate 101 can be suspended at the upper end of the glove frame 103 due to the bearing effect of the second return spring 104, in this state, an operator can pass the glove 20 through the pressure hole 1013 and sleeve the glove frame 103, after the glove 20 is completely sleeved, the adjusting nut 1052 is rotated, the glove pressing plate 101 is pressed down integrally and the second return spring 104 is compressed under the effect of the spiral force until the pressure hole 1013 is sleeved on the glove frame 1031 and the inside and outside of the wrist of the glove 20 are pressed as shown in fig. 8, then ozone sterilization is started, the adjusting nut 1052 is rotated reversely after sterilization, at this time, the second return spring 104 starts to restore elastic deformation, the glove pressing plate 101 rises under the effect of the elastic force, so that the pressure on the wrist of the glove 20 is relieved, at this time, the glove 20 can be taken out, and thereby completing the sterilization. It can be seen that, under the mutual cooperation of the second return spring 104 and the adjustment assembly 105, the glove pressing plate 101 can be in a state of two-force balance, and further the glove pressing plate 101 is controlled to be in a suspension position relative to the glove placing frame 102, and finally a series of operations of enabling an operator to sleeve the glove 20 on the glove placing frame 1031 through the pressing hole 1013 before sterilization, enabling the glove pressing plate 101 to press the glove 20 to the glove placing frame 1031 in the sterilization process, enabling the glove 20 to be taken out of the glove placing frame 1031 after sterilization, and the like are convenient and reliable. More preferably, in order to improve the reliability of the use of the second return spring 104 and to fully utilize the space, the second return spring 104 is embedded in the guide groove of the vertical spoke of the placing frame 1022 as shown in fig. 6; and in order to facilitate the spiral adjustment, two adjusting components 105 are arranged in the middle of the guide strip 1012 in a penetrating way.

In some embodiments, since the gloves 20 to be sterilized are typically medical silicone gloves, which are finger glove structures, the glove frame 103 further includes a glove frame 1032 as shown in FIG. 5. Glove frame 1032 is human engineering structure, and the simulation staff skeleton counts 5 totally, and hangs down side by side and locates glove rack 1031 up end. Thus, after the glove 20 is sleeved, the glove 20 can be supported by the glove frame 1032 and form a shape of a normal hand of a wearer, so that ozone can be conveniently introduced into the glove 20 for disinfection. Meanwhile, in order to avoid the gloves 20 from being excessively inflated due to the continuous introduction of ozone, as shown in fig. 5 and 8, the glove rack 103 further includes a third vent 1031 b; the third vent 1031b is disposed around the second vent 1031 a; when the glove 20 can be sleeved on the glove mount 1031, the inner cavity of the glove 20 is also aligned over the third vent 1031 b. Thus, during the process of introducing ozone into the glove 20, if the air pressure inside the glove 20 is too high, the ozone will flow out through the third vent 1031b, so as to "release" the glove 20, and the sterilization process is performed in the ozone sterilization machine 30, so that the ozone flowing out from the glove 20 is located outside the glove 20 and in the ozone sterilization machine 30, so that the glove 20 is in a sealed sterilization scene and the air pressure inside and outside the glove 20 is always kept balanced. The balanced air pressure forms pressure on the inner surface and the outer surface of the glove 20, so that the glove 20 is fully unfolded, the contact area between the inner surface and the outer surface of the glove 20 and ozone is maximized, and the disinfection effect is optimized.

The above embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above embodiments are only specific embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. The utility model provides an ozone disinfection machine's complete set gloves frame, is suitable for the disinfection of gloves (20), includes gloves rack subassembly (10), its characterized in that: the glove placing rack assembly (10) comprises a glove placing rack (102) and a glove rack (103); the glove placing frame (102) comprises a placing frame (1021) and a rib tube (1023); the rib pipes (1023) are hollow and arranged in the middle of the placing frame (1021); two ends of the rib pipe (1023) are inserted into the inner side edge of the placing frame (1021) and are provided with first vent holes (1023 a) positioned on the peripheral surface; the placing frame (1021) is hollow, and the outer side edge of the placing frame (1021) is provided with a first ozone hole (1021 b);

the glove holder (103) comprises a glove holder (1031) and a second vent hole (1031 a) arranged along the axial direction of the glove holder (1031); the glove rack (103) is fixedly connected above the rib pipe (1023), and the first vent hole (1023 a) is opposite to the second vent hole (1031 a);

the glove (20) can be sleeved on the periphery of the glove holder (1031), and the inner cavity of the glove (20) is over against the second vent hole (1031 a);

the glove placing frame assembly (10) further comprises a glove pressing plate (101) arranged above the rib tube (1023);

the glove pressing plate (101) comprises a pressing plate body (1011), pressing holes (1013) and guide strips (1012) symmetrically arranged at two sides of the pressing plate body (1011);

the glove pressing plate (101) can be pressed downwards from top to bottom, so that the pressing hole (1013) can be sleeved on the glove frame (1031), and the inner side surface of the pressing hole (1013) is attached to the outer peripheral surface of the glove frame (1031);

the glove placing rack assembly (10) further comprises a second return spring (104) and an adjusting assembly (105); the lower end of the second return spring (104) is fixedly connected to the upper surface of the placing frame (1021) and is positioned below two ends of the guide strip (1012).

2. The kit rack of ozone sterilizer of claim 1, wherein: the top surface of the glove placing rack (102) is also provided with placing racks (1022) which are arranged in pairs; the placing frame (1022) is of a C-shaped frame structure and is provided with transverse spokes and vertical spokes at two ends of the transverse spokes; the end part of the vertical spoke is fixedly connected to the upper surface of the placing frame (1021) and is provided with a guide groove positioned at the inner side;

two ends of the guide strip (1012) extend out of the pressing plate body (1011) and are inserted into the guide grooves for placing the vertical spokes of the frame (1021).

3. The kit rack of ozone sterilizer of claim 1, wherein: the adjusting assembly (105) comprises an adjusting screw (1051) and an adjusting nut (1052); the adjusting screw rod (1051) penetrates through the middle part of the guide strip (1012), and two ends of the adjusting screw rod are respectively and fixedly connected with the banner strip and the placing frame (1021) of the placing frame (1022); the adjusting nut (1052) is screwed to the adjusting screw (1051) and is located above the guide bar (1012).

4. The kit rack of ozone sterilizer of claim 1, wherein: the outer side edge of the placing frame (1021) is also provided with a first vacuum hole (1021 a), and the first vacuum hole (1021 a) and the first ozone hole (1021 b) are oppositely arranged.

5. The kit rack of ozone sterilizer of claim 1, wherein: the glove racks (103) are arranged on the rib pipes (1023) in an array way; the glove stand (1031) is of a shaft structure; the two end parts of the pressure hole (1013) are cambered surfaces, and the middle part is a cambered surface section and a straight surface section which are alternately arranged; the cambered surface section of the pressure hole (1013) is attached to the outer peripheral surface of the glove frame (1031).

6. The kit rack of ozone sterilizer of claim 2, wherein: the second return spring (104) is embedded in the guide groove of the vertical spoke of the placing frame (1022); the guide strip (1012) is arranged on the adjusting component (105) in a penetrating way.

7. The kit rack of ozone sterilizer of claim 1, wherein: the glove frame (103) further comprises a glove framework (1032); the glove framework (1032) is vertically arranged on the upper end surface of the glove frame (1031); the glove framework (1032) can be sleeved with the gloves (20) in a one-to-one correspondence manner at the positions where the fingers are sleeved.

8. The glove rack of an ozone sterilizer as claimed in any one of claims 1 to 7, wherein: the glove rack (103) further comprises a third vent hole (1031 b); a third vent hole (1031 b) is provided around the second vent hole (1031 a); when the glove (20) can be sleeved on the glove frame (1031), the inner cavity of the glove (20) is over against the third vent hole (1031 b).

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