CN113844695A

CN113844695A - Preparation process of medical gloves

Info

Publication number: CN113844695A
Application number: CN202111169564.4A
Authority: CN
Inventors: 王天涛
Original assignee: Individual
Current assignee: Hubei Longsheng Taike Medical Equipment Co ltd
Priority date: 2021-10-08
Filing date: 2021-10-08
Publication date: 2021-12-28
Anticipated expiration: 2041-10-08
Also published as: CN113844695B

Abstract

The invention relates to the field of medical glove processing, in particular to a preparation process of medical gloves, which comprises the steps of symmetrically placing processed rubber sterile medical gloves on a transport table; respectively stacking two U-shaped films to be subjected to edge sealing in parallel in a processing frame, and automatically dropping and adding; conveying the conveying table to the center of the processing table side by side through intermittent driving, and simultaneously conveying the sterile gloves on the conveying table and the U-shaped films in the upper row and the lower row to the center of the processing table; simultaneously, the edge sealing propeller is driven inwards to push the U-shaped films at the upper end and the lower end to the upper side and the lower side of the glove; the aseptic gloves are extruded by the two sides, so that the springs are compressed, and the edge sealing propeller is continuously pushed to enable the edge sealing frames on the two sides to be attached; two U-shaped films are arranged on the glove through thermoplastic edge sealing, so that the U-shaped sleeve is clamped on the glove; the medical glove capable of being switched between the bacteria-free environment and the sterile environment can be automatically processed and produced.

Description

Preparation process of medical gloves

Technical Field

The invention relates to the field of medical glove processing, in particular to a preparation process of medical gloves.

Background

Medical gloves are usually made of rubber materials, so that medical staff in hospitals can work in a sterile environment by using a protective device which is usually tightly attached to the skin; patent No. 201711380955.4 discloses a method for manufacturing medical gloves: the method comprises the following steps of 1, preparing the latex: mixing and dissolving medical polyurethane, aliphatic diisocyanate, a surfactant, silver nitrate, deionized water and ethylene glycol, and reacting for 6-8h at 100 ℃ under an acidic condition to obtain a latex material; preparing the latex material into medical gloves by adopting a grinding tool; the medical gloves are sterilized by Chinese patent medicine disinfectors, then are sterilized by removing the Chinese patent medicines, are sprayed by distilled water and are dried, and finally are aseptically packaged. However, the gloves produced by the equipment cannot be switched between a sterile environment and a bacteria-free environment, and the operation is more convenient.

Disclosure of Invention

The invention aims to provide a medical glove preparation process which has the beneficial effect that medical gloves capable of being switched to be used in a bacteria-free environment and a sterile environment can be automatically processed and produced.

The purpose of the invention is realized by the following technical scheme:

a preparation process of medical gloves comprises the following steps:

step one, symmetrically placing the processed rubber sterile medical gloves on a transport table; respectively stacking two U-shaped films to be subjected to edge sealing in parallel in a processing frame, and automatically dropping and adding;

conveying the conveying table to the center of the processing table side by side through intermittent driving, and simultaneously conveying the sterile gloves on the conveying table and the upper and lower rows of U-shaped films to the center of the processing table;

step three, simultaneously driving the edge sealing propeller inwards to push the U-shaped membranes at the upper end and the lower end to the upper side and the lower side of the glove; the aseptic gloves are extruded by the two sides, so that the springs are compressed, and the edge sealing propeller is continuously pushed to enable the edge sealing frames on the two sides to be attached;

and step four, sealing two U-shaped films on the glove through thermoplastic edge sealing, so that the U-shaped sleeve is clamped on the glove.

The edge sealing propeller comprises four edge sealing propellers, the edge sealing propeller comprises a U-shaped thermoplastic sealing frame, a spring top plate, a spring shaft and a pushing extrusion plate, the U-shaped thermoplastic sealing frame is fixed at the inner end of the spring top plate, the spring shaft slides at the middle end of the spring top plate, a spring of the spring shaft is arranged between the spring top plate and the pushing extrusion plate, and the pushing extrusion plate is fixed on the spring shaft.

The spring top plate is fixed in the connecting frames used for connecting and buffering the spring shafts, a center connecting platform used for being connected and driven is fixed between the two connecting frames, a screw shaft used for driving is arranged at the upper end of the center connecting platform in a rotating mode through a bearing seat, the screw shaft is connected to a screw barrel used for reciprocating driving through thread matching, and the screw barrel is fixed on a transmission shaft of a variable frequency driving motor used for variable frequency driving.

A side limiting sliding plate for longitudinal limiting sliding is fixed at the side end of the connecting frame and longitudinally slides in the additional fixing frame for supporting and processing; the adding and fixing frame is provided with a longitudinal sliding groove and a transverse sliding groove.

The medical sterile gloves prepared by rubber molding are placed on a transport table, the transport table with the symmetrical medical sterile gloves is pushed to the middle end of a processing table by intermittent driving, and then the pushing is stopped; simultaneously, conveying the two U-shaped films to the middle end of a conveying table through falling conveying, respectively locating at the upper end and the lower end of the medical sterile glove, after the positions are determined, driving edge sealing propellers at the upper end and the lower end to further push the two U-shaped films to the medical sterile glove, extruding the upper end and the lower end of the medical sterile glove through springs, simultaneously shrinking the springs, continuously pushing the edge sealing propellers to enable a U-shaped thermoplastic frame to extrude the two U-shaped films, after thermoplastic molding, enabling the two U-shaped films to have an opening and the peripheries to be closed, further sleeving the U-shaped films on the medical sterile glove, resetting after processing is finished, continuously and intermittently adding, repeating the steps, and conveying the processed medical sterile glove away for folding and packaging; through the U-shaped membrane sleeve that connects at the head end of medical aseptic gloves, can carry out the operation of having the sterile environment before using medical aseptic gloves, demolish U-shaped membrane sleeve back, realize aseptic operation, guarantee aseptic operation environment, convenient to use simultaneously.

Drawings

FIG. 1 is a schematic flow diagram of the preparation of a glove of the present invention;

FIG. 2 is a schematic view of the construction of the U-shaped thermoplastic sealing device of the present invention;

FIG. 3 is a schematic structural view II of the U-shaped thermoplastic sealing device of the present invention;

FIG. 4 is a schematic view of the structure of the U-shaped thermoplastic seal device drive of the present invention;

FIG. 5 is a first schematic view of the intermittent delivery structure of the medical sterile glove of the present invention;

FIG. 6 is a second schematic view of the intermittent delivery structure of the medical sterile glove of the present invention;

FIG. 7 is a schematic view of the structure of the processing station of the present invention;

FIG. 8 is a schematic structural view of the integral thermoplastic addition process of the present invention;

FIG. 9 is a schematic diagram of the structure of the U-shaped membrane drive addition of the present invention;

FIG. 10 is a first general structural view of the present invention;

fig. 11 is a second overall configuration diagram of the present invention.

In the figure: a U-shaped thermoplastic edge sealing frame 1; a spring top plate 2; a spring shaft 3; pushing the extrusion plate 4; a connecting frame 5; a central connecting table 6; a screw shaft 7; a screw cylinder 8; a variable frequency drive motor 9; a side limit sliding plate 10; two additional fixed frames 11; a central processing station 12; a glove fixing table 13; a medical sterile glove 14; an intermittent addition driver 15; a U-shaped film addition slide 16; a U-shaped membrane 17; a stack addition block 18 and a U-shaped film driver 19.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in the embodiments illustrated herein,

Further optimization in conjunction with the above examples:

further working processes according to the example of the manufacturing process of a medical glove shown in fig. 2, 3, 4 and 5 are as follows:

realize the extrusion and the propulsion to the U-shaped membrane through promoting stripper plate 4, through the epaxial spring of spring 3, and then realize in the extrusion process axle, can continuously promote the thermoplastic banding frame 1 of U-shaped, and then make two U-shaped thermoplastic banding frames 1 press from both sides the U-shaped membrane of both sides tight heat and mould on medical aseptic gloves, and then the convenient processing to the U-shaped membrane cover, make its card on the glove, after opening packing and use, the guarantee is in the switching use of having fungus and aseptic environment, high durability and convenient use.

Further optimization in conjunction with the above examples:

through frequency conversion driving motor 9's drive, and then make the spiral shell 8 rotatory, and then promote screw shaft 7 rotatory through screw-thread fit, and then make central joint platform 6 drive two connection frames 5 rotatory, through vertically holding back, realize the drive to vertical displacement, and then realize the drive of banding.

Further optimization in conjunction with the above examples:

further working processes according to the example of the manufacturing process of the medical glove shown in fig. 4, 5, 6 and 7 are as follows:

through the spacing slip of side spacing slide 10 in adding fixed frame 11 last longitudinal sliding groove, and then realize the pin down of central joint chair 6 and two connection frames 5, the drive of cooperation variable frequency driving motor 9, and then realize the drive to the longitudinal displacement of two connection frames 5, and then realize the longitudinal drive of processing.

Further optimization in conjunction with the above examples:

the processing table further comprises an additional fixing frame 11 and a central processing table 12, wherein the additional fixing frame 11 is fixed at the upper end and the lower end of the central processing table 12.

The working process of the part according to the preparation process example of the medical gloves shown in figures 5, 6, 7 and 8 is as follows:

through two fixed frames 11 that add on central processing platform 12, the convenient thermoplastic interpolation of upper and lower two sets of carries out spacing slip and fixed, simultaneously through horizontal spout, conveniently adds U-shaped membrane 17, and then for processing out the U-shaped membrane cover cup joint and make preparation on medical aseptic gloves 14.

Further optimization in conjunction with the above examples:

further, a glove fixing table 13 for transporting gloves is added on the central processing table 12 in a limited sliding mode, symmetrical medical sterile gloves 14 are arranged in clamping grooves in the glove fixing table 13, the glove fixing table 13 is used for driving an intermittent adding driver 15 for intermittent adding through meshing of a rack and a gear, and the intermittent adding driver 15 is fixed on the central processing table 12.

the medical sterile gloves 14 prepared by rubber molding are placed in the clamping grooves on the glove fixing table 13, so that the hand ends of the medical sterile gloves are exposed, and the medical sterile gloves are convenient to process; meanwhile, the intermittent drive of the intermittent adding driver 15 is used for further guaranteeing the time for processing after being transported to the middle end, and after the processing is finished, the conveying is continued, the extrusion and the adding processing are continued, and the process is repeated.

Further optimization in conjunction with the above examples:

further, a U-shaped film adding sliding plate 16 for adding raw materials is transversely added to the adding fixing frame 11 in a sliding manner, two slots are formed in the U-shaped film adding sliding plate 16, and a U-shaped film 17 for combination and sealing is arranged on the slots.

The working process of the part according to the example of the manufacturing process of the medical glove shown in fig. 7, 8, 9 and 10 is as follows:

the U-shaped film 17 is arranged and added on the open groove, so that the U-shaped film 17 can be conveniently pushed out of the open groove in the processing process to be extruded; after the U-shaped film 17 is conveyed to a designated position through the U-shaped film adding sliding plate 16, the U-shaped film 17 is extruded on the medical sterile gloves 14 through slotting by driving the pushing plate 4 to be wrapped on the medical sterile gloves 14 in a limited way.

Further optimization in conjunction with the above examples:

further, the U-shaped films 17 are longitudinally stacked and arranged in a stacking and adding frame 18 for adding, the two stacking and adding frames 18 are fixed at the side end of the adding and fixing frame 11 through a connecting plate, a U-shaped film adding slide plate 16 transmits a U-shaped film driver 19 for reciprocating adding through rack and pinion meshing, and the U-shaped film driver 19 is fixed on the central processing table 12.

through the reciprocal drive of frequency conversion of U-shaped membrane driver 19, when the guarantee U-shaped membrane 17, the cooperation is piled up and is added frame 18, realizes the automatic interpolation to U-shaped membrane 17, realizes the automatic interpolation and the transportation of raw materials U-shaped membrane 17.

Further optimization in conjunction with the above examples:

further, a blocking block is arranged on the U-shaped film adding sliding plate 16, and the gap diameter between the stacking adding frame 18 and the U-shaped film adding sliding plate 16 is larger than the thickness of the U-shaped film 17.

the situation of inaccurate falling caused by continuous falling of the U-shaped film 17 in the stacking and adding frame 18 is avoided by the blocking block on the U-shaped film adding sliding plate 16; the diameter of the gap between the stacking adding frame 18 and the U-shaped film adding sliding plate 16 is larger than the thickness of the U-shaped film 17 and smaller than the rear ends of the two U-shaped films 17, so that automatic adding and transportation are facilitated.

Further optimization in conjunction with the above examples:

further, the two U-shaped films 17 are respectively arranged at the upper end and the lower end of the medical sterile glove 14, and the two U-shaped films 17 are arranged between the two U-shaped thermoplastic edge sealing frames 1.

after two U-shaped membranes 17 are extruded and fixed at the upper end and the lower end of a medical sterile glove 14 by pushing the extrusion plate 4, two U-shaped thermoplastic edge sealing frames 1 are attached by continuous pushing, the edge ends of the two U-shaped membranes 17 are attached by hot melting through power-on heating, the U-shaped membranes are sleeved on the head of the medical sterile glove 14, the U-shaped thermoplastic edge sealing frames 1 and the U-shaped membranes 17 are in a shape of a child, and the bayonet is conveniently clamped on the medical sterile glove 14.

Claims

1. A preparation process of medical gloves is characterized in that: the method comprises the following steps:

2. The process for preparing the medical gloves according to claim 1, wherein the number of the edge sealing thrusters is four, the edge sealing thrusters comprise U-shaped thermal plastic frame (1), a spring top plate (2), a spring shaft (3) and a pushing and extruding plate (4), the U-shaped thermal plastic frame (1) is fixed at the inner end of the spring top plate (2), the spring shaft (3) slides at the middle end of the spring top plate (2), the spring of the spring shaft (3) is arranged between the spring top plate (2) and the pushing and extruding plate (4), and the pushing and extruding plate (4) is fixed on the spring shaft (3).

3. The preparation process of the medical gloves according to claim 2, wherein the spring top plate (2) is fixed in a connecting frame (5) for connecting and buffering the spring shaft (3), a central connecting table (6) for connection and driving is fixed between the two connecting frames (5), a screw shaft (7) for driving is rotatably arranged at the upper end of the central connecting table (6) through a bearing seat, the screw shaft (7) is connected to a screw barrel (8) for reciprocating driving through threaded fit, and the screw barrel (8) is fixed on a transmission shaft of a variable-frequency driving motor (9) for variable-frequency driving.

4. A process for preparing medical gloves according to claim 3, wherein the side end of the connecting frame (5) is fixed with a side limiting sliding plate (10) for limiting sliding longitudinally, and the side limiting sliding plate (10) slides longitudinally in an additional fixing frame (11) for supporting and processing; the adding and fixing frame (11) is provided with a longitudinal sliding groove and a transverse sliding groove.

5. The process for preparing medical gloves according to claim 1, wherein the processing table comprises an additional fixing frame (11) and a central processing table (12), and the additional fixing frame (11) is fixed at both the upper end and the lower end of the central processing table (12).

6. The medical glove preparation process according to claim 5, wherein the central processing table (12) is provided with a glove fixing table (13) for conveying gloves in a limiting and sliding manner, symmetrical medical sterile gloves (14) are arranged in clamping grooves in the glove fixing table (13), the glove fixing table (13) drives an intermittent adding driver (15) for intermittent adding through meshing of a rack and a gear, and the intermittent adding driver (15) is fixed on the central processing table (12).

7. The process for preparing the medical gloves according to claim 5, wherein the U-shaped film adding sliding plate (16) used for adding raw materials is transversely added on the adding fixing frame (11) in a sliding manner, two grooves are formed in the U-shaped film adding sliding plate (16), and the U-shaped film (17) used for combined closing is arranged on the grooves.

8. A process for preparing medical gloves according to claim 7, wherein the U-shaped films (17) are longitudinally stacked in a stacking and adding frame (18) for adding, both stacking and adding frames (18) are fixed at the side end of an adding and fixing frame (11) through a connecting plate, a U-shaped film adding sliding plate (16) drives a U-shaped film driver (19) for reciprocating adding through rack and pinion meshing, and the U-shaped film driver (19) is fixed on a central processing table (12).

9. A process for the preparation of medical gloves according to claim 8, wherein the U-shaped film adding slide plate (16) is provided with a blocking block, and the gap between the stacking adding frame (18) and the U-shaped film adding slide plate (16) has a diameter larger than the thickness of the U-shaped film (17).

10. The process for preparing the medical gloves according to claim 9, wherein the two U-shaped membranes (17) are respectively arranged at the upper and lower ends of the medical sterile gloves (14), and the two U-shaped membranes (17) are both arranged between the two U-shaped thermoplastic frames (1).