CN113633392A

CN113633392A - Sterile sleeve joint device for gloves used in operating room

Info

Publication number: CN113633392A
Application number: CN202111192391.8A
Authority: CN
Inventors: 丁杰
Original assignee: Jiangsu Yiying Medical Equipment Co ltd
Current assignee: Jiangsu Yiying Medical Equipment Co ltd
Priority date: 2021-10-13
Filing date: 2021-10-13
Publication date: 2021-11-12
Anticipated expiration: 2041-10-13
Also published as: CN113633392B

Abstract

The invention discloses an operating room glove sterile sleeve joint device, belonging to the field of operating equipment, comprising a shell and a feeding unit, a sleeve joint unit and a material returning unit which are arranged in the shell, wherein the feeding unit comprises two pushing guide rails which are symmetrically fixed in the shell, the bottom of one end of each pushing guide rail is communicated with a feeding bin through a threaded structure, a feeding spring is fixed in the feeding bin, a plurality of packing boxes are arranged at the top of the feeding spring, a pushing cylinder is fixed in the shell, two push plates are symmetrically fixed at the output end of the pushing cylinder, the push plates are matched with the pushing guide rails, and the sleeve joint unit comprises a separating guide rail. Has market prospect and is suitable for popularization.

Description

Sterile sleeve joint device for gloves used in operating room

Technical Field

The invention relates to the field of surgical equipment, in particular to a sterile sleeve joint device for gloves in an operating room.

Background

In order to ensure that the operation is not infected by bacteria in the operation process, the aseptic system in the operation needs to be ensured, so that an operator needs to wear an aseptic operating coat, wear aseptic gloves and wear a mask cap. Aseptic gloves that now use, it is the bilayer packing, and its skin is the clean layer, can be waterproof, and the nurse of operating room helps the outside clean layer of tearing during the use to can not touch inside aseptic layer, then the operation doctor takes up aseptic layer after carrying out the hand disinfection, and opens, then takes out gloves and dresses. Gloves need be changed sometimes in the operation process (for example, the gloves are punctured, the operation is changed into a clean operation from a contaminated operation, the gloves are contaminated by bacteria and other objects), the nurse is required to tear the clean layer at the moment, but the nurse needs to prepare a plurality of objects during the operation process, the nurse often cannot help to tear the clean layer in time, and the doctor cannot contact the clean layer after hand disinfection, so the operation process is often delayed, and the operation is inconvenient. Therefore, we propose a sterile sleeve device for gloves in operating rooms to solve the above problems.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide an operating room glove sterile sleeving device, which can be matched with a feeding unit with a pushing guide rail and a feeding bin, a separating guide rail and a pressing ring sleeving unit and a material returning unit with a material returning guide rail and a guiding groove, can continuously provide a packaging box for the pushing guide rail by jacking a feeding spring when in use, the pushing plate is driven by a pushing cylinder to push the packaging box to the pushing guide rail, after the sleeving operation of gloves is completed in an operating hole, the packaging box with subsequent feeding overcomes the elasticity of an elastic baffle under the pushing action of the pushing cylinder, continuously pushes the used packaging box to the guiding groove and falls into a waste bin, compared with the traditional operating room glove manually wearing mode, the operating room glove sterile sleeving device has the convenience of contact-free sleeving, and effectively avoids the cross infection of bacteria, effectively reduce operation bacterial contamination probability, have the function of automatic feed, automatic collection waste material simultaneously, effectively promoted and used the convenience, had market prospect, be fit for promoting.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A sterile sleeve joint device for an operating room comprises a shell and a feeding unit, a sleeve joint unit and a material returning unit which are arranged in the shell, wherein the feeding unit comprises two propelling guide rails which are symmetrically fixed in the shell, the bottom of one end of each propelling guide rail is communicated with a feeding bin through a threaded structure, a feeding spring is fixed in each feeding bin, a plurality of packaging boxes are arranged at the top of each feeding spring, a propelling cylinder is fixed in the shell, two push plates are symmetrically fixed at the output end of each propelling cylinder, the push plates are matched with the propelling guide rails, the sleeve joint unit comprises a separating guide rail which is arranged at the output end of each propelling guide rail, a compression ring is fixed at the bottom of each separating guide rail, the compression ring slides up and down in the shell through a sliding rod structure, a reset spring is clamped between the compression ring and the shell, the material returning unit comprises a material returning guide rail which is arranged at the output end of the separating guide rail, and one side of the outer wall of the shell is detachably connected with a waste bin, two elastic baffles are symmetrically fixed at the input end of the material returning guide rail, a leading-in groove communicated with the waste bin is arranged on one side of the bottom of the material returning guide rail, and an operation hole is formed in the top of the propelling guide rail of the shell. The invention uses the matching of the feeding unit with the propelling guide rail and the feeding bin, the separating guide rail and the sleeve joint unit of the press ring and the material returning unit with the material returning guide rail and the guiding groove, when in use, the pushing plate is driven by the propelling cylinder to push the packing box to the propelling guide rail, after the sleeve joint operation of gloves is completed in the operation hole, the packing box of the subsequent feeding overcomes the elasticity of the elastic baffle under the propelling action of the propelling cylinder, the used packing box is continuously pushed to the guiding groove and falls into the waste bin, compared with the traditional mode of manually wearing the gloves in an operating room, the invention has the convenience of non-contact sleeve joint, effectively avoids the cross infection of bacteria, effectively reduces the probability of the bacteria pollution of the operation, simultaneously has the functions of automatic feeding and automatic collection of waste materials, and effectively improves the use convenience, has market prospect and is suitable for popularization.

Furthermore, a proximity sensor is arranged on one side of the top of the shell, the proximity sensor and the propulsion cylinder are connected with the control unit through wires, and the control unit is externally connected with a power supply through wires. Be close to proximity sensor through the hand, detect by proximity sensor and be close to information, feed back to the control unit, the control unit control impels the cylinder and impels the operation, and the feed that accomplishes the packing carton impels the operation, utilizes proximity sensor's setting, has effectively avoided the contact cross infection of hand bacterium, has effectively promoted the safety in utilization.

Further, the packing carton includes the packing circle, and the packing circle is double-deck double-layered wall structure, and the outer wall of packing circle is equipped with the arc shell fragment, and the top of arc shell fragment is fixed with the draw-in groove, and the inner wall top of packing circle be equipped with last draw-in groove assorted lower draw-in groove, both sides splice top cap and bottom seal membrane respectively about the packing circle, and the packing has gloves in the packing circle, and the port of gloves is equipped with the rubber ring, and the rubber ring joint is at last draw-in groove under and between the draw-in groove. After the operation of cup jointing of accomplishing gloves, wear gloves conflict clamping ring and push down, make the clamping ring overcome reset spring's elasticity drive the separation guide rail and move down, arc spacing groove takes place the dislocation with arc shell fragment this moment, and under the inner wall of separation guide rail supported, arc shell fragment took place to deform, drives the draw-in groove and shifts up, and then makes the rubber ring break away from, the breaking away from of the hand of being convenient for.

Furthermore, a plurality of opening indentations are uniformly formed in the top of the bottom sealing film at equal angles.

Further, the gloves are stacked in the packing box in an S shape. Through the gloves structural design that S type piles up, after opening the top cap, in the operator of being convenient for cup joints into the gloves through the rubber ring fast, can not tie a knot at the in-process of cup jointing and be obstructed, through the design of opening indentation, the operator of being convenient for breaks the bottom and seals the membrane, reaches the purpose that reduces the use waste material.

Further, the inner sides of the groove walls of the pushing guide rail and the separating guide rail are respectively provided with an arc-shaped limiting groove matched with the arc-shaped elastic sheet.

Furthermore, when the arc-shaped limiting grooves of the propelling guide rail and the separating guide rail are aligned, the reset spring is in a free state, the reset spring is of an anti-fatigue spring structure, and the reset spring has elastic force for driving the pressing ring to move upwards.

Furthermore, a sterile bin is arranged in the shell, the separation guide rail, the compression ring, the reset spring and the slide bar are all arranged in the sterile bin, and an ultraviolet sterilizing lamp is arranged in the sterile bin. Through the design of the compression ring structure with the sterile bin of the ultraviolet germicidal lamp and the antibacterial silica gel structure, the sterile environment is effectively kept in the sterile bin, cross infection caused by the fact that gloves contact the antibacterial silica gel can be effectively avoided, and the use safety is further improved.

Furthermore, the clamping ring is of an antibacterial silica gel structure.

Further, feed spring is the antifatigue spring structure, and feed spring is having the elasticity that drive feed storehouse inner packaging box shifts up, and the lower terminal surface of push pedal sets up with the inner bottom parallel and level that advances the guide rail.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) the invention uses the feeding unit with a propelling guide rail and a feeding bin, the separating guide rail and the sleeving unit of the pressing ring and the material returning unit with a material returning guide rail and a guiding groove to be matched with each other, when in use, the propelling guide rail is continuously provided with a packing box by the jacking of a feeding spring, the propelling cylinder drives the push plate to push the packing box to the propelling guide rail, after the sleeving operation of gloves is completed in an operation hole, the packing box with subsequent feeding overcomes the elasticity of the elastic baffle under the propelling action of the propelling cylinder, and the used packing box is continuously pushed to the guiding groove and falls into a waste bin. Effectively promotes the use convenience, has market prospect and is suitable for popularization.

(2) Be close to proximity sensor through the hand, detect by proximity sensor and be close to information, feed back to the control unit, the control unit control impels the cylinder and impels the operation, and the feed that accomplishes the packing carton impels the operation, utilizes proximity sensor's setting, has effectively avoided the contact cross infection of hand bacterium, has effectively promoted the safety in utilization.

(3) After the operation of cup jointing of accomplishing gloves, wear gloves conflict clamping ring and push down, make the clamping ring overcome reset spring's elasticity drive the separation guide rail and move down, arc spacing groove takes place the dislocation with arc shell fragment this moment, and under the inner wall of separation guide rail supported, arc shell fragment took place to deform, drives the draw-in groove and shifts up, and then makes the rubber ring break away from, the breaking away from of the hand of being convenient for.

(4) Through the gloves structural design that S type piles up, after opening the top cap, in the operator of being convenient for cup joints into the gloves through the rubber ring fast, can not tie a knot at the in-process of cup jointing and be obstructed, through the design of opening indentation, the operator of being convenient for breaks the bottom and seals the membrane, reaches the purpose that reduces the use waste material.

(5) Through the design of the compression ring structure with the sterile bin of the ultraviolet germicidal lamp and the antibacterial silica gel structure, the sterile environment is effectively kept in the sterile bin, cross infection caused by the fact that gloves contact the antibacterial silica gel can be effectively avoided, and the use safety is further improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic illustration of an explosive structure according to the present invention;

FIG. 3 is a schematic diagram of the internal components of the present invention;

FIG. 4 is a schematic diagram of an exploded structure of the internal components of the present invention;

FIG. 5 is a schematic cross-sectional view of the present invention;

FIG. 6 is a schematic structural view of the packing box proposed in the present invention;

fig. 7 is an exploded view of the packing box proposed in the present invention;

fig. 8 is a schematic structural diagram of the socket unit proposed in the present invention when operating;

FIG. 9 is an enlarged view of portion A of FIG. 8;

fig. 10 is an enlarged schematic view of a portion B in fig. 8.

The reference numbers in the figures illustrate:

the device comprises a shell 1, a proximity sensor 11, a waste bin 12, an operation hole 13, a feeding bin 14, an aseptic bin 15, a feeding spring 141, a propelling cylinder 2, a push plate 21, a packaging box 3, a top cover 31, a packaging ring 32, an arc-shaped elastic sheet 321, an upper clamping groove 322, a lower clamping groove 323, a bottom sealing film 33, an opening indentation 331, gloves 34, a rubber ring 341, a propelling guide rail 4, a separating guide rail 5, a pressing ring 51, a return spring 52, a sliding rod 53, a material returning guide rail 6, an elastic baffle 61, a guide-in groove 62 and an arc-shaped limiting groove 7.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-5, an operating room glove sterile sleeving device comprises a housing 1 and a feeding unit, a sleeving unit and a material returning unit inside the housing 1, wherein the feeding unit comprises two pushing guide rails 4, the two pushing guide rails 4 are symmetrically fixed in the housing 1, the bottom of one end of each pushing guide rail 4 is communicated with a feeding bin 14 through a threaded structure, a feeding spring 141 is fixed in each feeding bin 14, a plurality of packing boxes 3 are arranged at the top of each feeding spring 141, a pushing cylinder 2 is fixed in the housing 1, two push plates 21 are symmetrically fixed at the output end of each pushing cylinder 2, each feeding spring 141 is of an anti-fatigue spring structure, each feeding spring 141 has elasticity for driving the corresponding packing box 3 in the feeding bin 14 to move upwards, and the lower end face of each push plate 21 is flush with the inner bottom of the corresponding pushing guide rail 4.

Push pedal 21 and propulsion guide 4 phase-match, the unit of cup jointing is including separation guide 5, separation guide 5 sets up the output at propulsion guide 4, separation guide 5's bottom is fixed with clamping ring 51, clamping ring 51 slides from top to bottom in casing 1 through slide bar 53 structure, clamping ring 51 and casing 1 intermediate clamp have reset spring 52, the material returned unit is including material returned guide 6, material returned guide 6 establishes the output at separation guide 5, the detachable waste bin 12 that is connected with in casing 1 outer wall one side, material returned guide 6's input symmetry is fixed with two resilient barrier 61, material returned guide 6's bottom one side is equipped with the leading-in groove 62 that is linked together with waste bin 12, casing 1 is equipped with handle hole 13 at propulsion guide 4's top.

According to the invention, through the mutual matching of the feeding unit with the propelling guide rail 4 and the feeding bin 14, the separating guide rail 5, the sleeving unit with the pressing ring 51 and the material returning unit with the material returning guide rail 6 and the guiding groove 62, when the glove box packaging machine is used, the propelling guide rail 4 is continuously provided with the packaging box 3 through the jacking of the feeding spring 141, the propelling cylinder 2 drives the push plate 21 to push the packaging box 3 to the propelling guide rail 4, after the sleeving operation of gloves is completed in the operation hole 13, the packaging box 3 with subsequent feeding overcomes the elasticity of the elastic baffle 61 under the propelling action of the propelling cylinder 2, the used packaging box 3 is continuously pushed to the guiding groove 62 and falls into the waste bin 12 The function of automatic collection waste material has effectively promoted the use convenience, has market prospect, is fit for promoting.

Referring to fig. 1, a proximity sensor 11 is disposed on one side of the top of a housing 1, the proximity sensor 11 and the propulsion cylinder 2 are both connected to a control unit through wires, and the control unit is externally connected to a power supply through wires. Be close to proximity sensor 11 through the hand, detect by proximity sensor 11 and be close to information, feed back to the control unit, the control unit control impels cylinder 2 to impel the operation, accomplishes the feed propulsion operation of packing carton 3, utilizes proximity sensor 11's setting, has effectively avoided the contact cross infection of hand bacterium, has effectively promoted the safety in utilization.

Referring to fig. 6-10, the packing box 3 includes a packing ring 32, the packing ring 32 is a double-layer wall-sandwiched structure, an arc-shaped elastic sheet 321 is disposed on an outer wall of the packing ring 32, an upper clamping groove 322 is fixed on a top of the arc-shaped elastic sheet 321, a lower clamping groove 323 matched with the upper clamping groove 322 is disposed on a top of an inner wall of the packing ring 32, a top cover 31 and a bottom sealing film 33 are respectively glued on upper and lower sides of the packing ring 32, a glove 34 is enclosed in the packing ring 32, a rubber ring 341 is disposed at a port of the glove 34, the rubber ring 341 is clamped between the upper clamping groove 322 and the lower clamping groove 323, arc-shaped limiting grooves 7 matched with the arc-shaped elastic sheet 321 are disposed on inner sides of a wall of the pushing guide rail 4 and the separating guide rail 5, when the pushing guide rail 4 and the arc-shaped limiting grooves 7 of the separating guide rail 5 are aligned, the restoring spring 52 is in a free state, the restoring spring 52 is in an anti-fatigue spring structure, and the restoring spring 52 has an upward elasticity to drive the pressing ring 51. After the completion of the sleeving operation of the glove 34, the glove 34 is worn to touch the press ring 51 and press down, so that the press ring 51 overcomes the elasticity of the reset spring 52 to drive the separation guide rail 5 to move down, the arc-shaped limiting groove 7 and the arc-shaped elastic sheet 321 are staggered at the moment, the arc-shaped elastic sheet 321 is deformed under the pushing of the inner wall of the separation guide rail 5, the upper clamping groove 322 is driven to move up, and then the rubber ring 341 is separated, so that the hand can be conveniently separated.

Referring to fig. 7, the top of the bottom sealing film 33 is equally provided with a plurality of opening indentations 331, and the gloves 34 are stacked in the packing box 3 in an S-shape. Through the gloves 34 structural design that S type was piled up, after opening top cap 31, in being convenient for the operator cup jointed into gloves 34 through rubber ring 341 fast, can not knot at the in-process of cup jointing and be obstructed, through the design of opening indentation 331, the operator of being convenient for punctures bottom seal membrane 33, reaches the purpose that reduces the use waste material.

Referring to fig. 5, a sterile bin 15 is provided in the housing 1, the separation guide 5, the press ring 51, the return spring 52 and the slide bar 53 are all provided in the sterile bin 15, the ultraviolet germicidal lamp is provided in the sterile bin 15, and the press ring 51 is of an antibacterial silica gel structure. Through the design of the structure of the sterile bin 15 with the ultraviolet sterilizing lamp and the compression ring 51 with the antibacterial silica gel structure, the sterile environment is effectively kept in the sterile bin 15, the gloves 34 can be effectively prevented from contacting the antibacterial silica gel to generate cross infection, and the use safety is further improved.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims

1. The utility model provides an aseptic device that cup joints of gloves for operating room, includes casing (1) and inside feed unit, cup joints unit and material returned unit thereof, its characterized in that: the feeding unit comprises propelling guide rails (4), the two propelling guide rails (4) are symmetrically fixed in a shell (1), one end bottom of each propelling guide rail (4) is communicated with a feeding bin (14) through a threaded structure, a feeding spring (141) is fixed in each feeding bin (14), a plurality of packaging boxes (3) are arranged at the top of each feeding spring (141), a propelling cylinder (2) is fixed in the shell (1), two push plates (21) are symmetrically fixed at the output end of each propelling cylinder (2), the push plates (21) are matched with the propelling guide rails (4), the sleeving unit comprises separating guide rails (5), the separating guide rails (5) are arranged at the output ends of the propelling guide rails (4), pressing rings (51) are fixed at the bottoms of the separating guide rails (5), and the pressing rings (51) slide in the shell (1) up and down through a sliding rod (53) structure, a reset spring (52) is clamped between the compression ring (51) and the shell (1), the material returning unit comprises a material returning guide rail (6), the material returning guide rail (6) is arranged at the output end of the separation guide rail (5), one side of the outer wall of the shell (1) is detachably connected with a waste bin (12), two elastic baffles (61) are symmetrically fixed at the input end of the material returning guide rail (6), a leading-in groove (62) communicated with the waste bin (12) is arranged on one side of the bottom of the material returning guide rail (6), and an operation hole (13) is formed in the top of the propulsion guide rail (4) of the shell (1);

Packing carton (3) are including packing circle (32), packing circle (32) are double-deck double-layered wall structure, the outer wall of packing circle (32) is equipped with arc shell fragment (321), the top of arc shell fragment (321) is fixed with draw-in groove (322), the inner wall top of packing circle (32) be equipped with draw-in groove (322) assorted lower draw-in groove (323), both sides splice top cap (31) and bottom seal membrane (33) respectively about packing circle (32), the encapsulation has gloves (34) in packing circle (32), the port of gloves (34) is equipped with rubber ring (341), rubber ring (341) joint is at last draw-in groove (322) and between draw-in groove (323) down.

2. The sterile sleeve device for operating rooms according to claim 1, wherein: the device is characterized in that a proximity sensor (11) is arranged on one side of the top of the shell (1), the proximity sensor (11) and the propulsion cylinder (2) are connected with a control unit through wires, and the control unit is externally connected with a power supply through a wire.

3. The sterile sleeve device for operating rooms according to claim 1, wherein: the top of the bottom sealing film (33) is equally provided with a plurality of opening indentations (331) at equal angles.

4. The sterile sleeve device for operating rooms according to claim 1, wherein: the gloves (34) are stacked in the packing box (3) in an S shape.

5. The sterile sleeve device for operating rooms according to claim 1, wherein: the inner sides of the groove walls of the pushing guide rail (4) and the separating guide rail (5) are provided with arc-shaped limiting grooves (7) matched with the arc-shaped elastic sheets (321).

6. The sterile sleeve device for operating rooms according to claim 5, wherein: when the arc-shaped limiting grooves (7) of the propelling guide rail (4) and the separating guide rail (5) are aligned, the reset spring (52) is in a free state, the reset spring (52) is of an anti-fatigue spring structure, and the reset spring (52) has elastic force for driving the pressing ring (51) to be upward.

7. The sterile sleeve device for operating rooms according to claim 1, wherein: be equipped with aseptic storehouse (15) in casing (1), separation guide rail (5), clamping ring (51), reset spring (52) and slide bar (53) all set up in aseptic storehouse (15), be equipped with sterilamp in aseptic storehouse (15).

8. The sterile sleeve device for operating rooms according to claim 1, wherein: the compression ring (51) is of an antibacterial silica gel structure.

9. The sterile sleeve device for operating rooms according to claim 1, wherein: the feed spring (141) is the antifatigue spring structure, the elasticity that feed spring (141) shifts up in having drive feed storehouse (14) inner packing box (3), the lower terminal surface of push pedal (21) sets up with the inner bottom parallel and level of propelling movement guide rail (4).