CN112402095A - Magnesium sulfate cold compress patch and preparation process thereof - Google Patents

Abstract

The invention relates to cold compress preparation, in particular to a magnesium sulfate cold compress and a preparation process thereof, wherein the process comprises the following steps: s1; winding a non-woven fabric on the feeding mechanism, wherein one ends of the two adhesive tapes are fixedly connected to the pulling mechanism II, the other ends of the two adhesive tapes are wound on the pulling mechanism I, and two sides of the non-woven fabric are respectively adhered to the two adhesive tapes; s2; the non-woven fabric and the two adhesive tapes are pulled by the pulling mechanism II to pass through the discharging mechanism II and the lower ends of the discharging mechanisms I together, the gel layers are smeared on the non-woven fabric by the discharging mechanisms I, and the magnesium sulfate gauze is placed on the non-woven fabric by the discharging mechanism II; s3; after the magnesium sulfate gauze and the gel layer are processed, the non-woven fabric is cut by the cutting mechanism, the processed non-woven fabric is taken down from the two adhesive tapes, and a film layer is arranged on the processed non-woven fabric; the magnesium sulfate cold compress patch comprises a non-woven fabric, a gel layer, magnesium sulfate gauze and a film layer.

Description

Magnesium sulfate cold compress patch and preparation process thereof

Technical Field

The invention relates to cold compress preparation, in particular to a magnesium sulfate cold compress and a preparation process thereof.

Background

For example, the cutting device for cold compress processing disclosed in publication No. CN210615372U comprises a rack, a moving structure and a material sucking structure, wherein two sides above the rack are respectively and fixedly provided with a support plate, the moving structure comprises a screw rod, a support seat, an electric telescopic rod and a hydraulic cylinder, the screw rod is rotatably arranged between the two support plates through a screw rod seat, one end of the screw rod is fixedly connected with a first motor, the periphery of the screw rod is in threaded connection with the support seat, and one end of the bottom of the support seat is fixedly provided with the electric telescopic rod; the utility model has the disadvantage that the magnesium sulfate cold compress plaster can not be prepared quickly.

Disclosure of Invention

The invention aims to provide a magnesium sulfate cold compress patch and a preparation process thereof, which can be used for quickly preparing the magnesium sulfate cold compress patch.

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

a magnesium sulfate cold compress preparation process comprises the following steps:

s1; winding a non-woven fabric on the feeding mechanism, wherein one ends of the two adhesive tapes are fixedly connected to the pulling mechanism II, the other ends of the two adhesive tapes are wound on the pulling mechanism I, and two sides of the non-woven fabric are respectively adhered to the two adhesive tapes;

s2; the non-woven fabric and the two adhesive tapes are pulled by the pulling mechanism II to pass through the discharging mechanism II and the lower ends of the discharging mechanisms I together, the gel layers are smeared on the non-woven fabric by the discharging mechanisms I, and the magnesium sulfate gauze is placed on the non-woven fabric by the discharging mechanism II;

s3; after the magnesium sulfate gauze and the gel layer are processed, the non-woven fabric is cut by the cutting mechanism, the processed non-woven fabric is taken down from the two adhesive tapes, and a film layer is arranged on the processed non-woven fabric;

the magnesium sulfate cold compress preparation technology still relates to a magnesium sulfate cold compress preparation facilities, magnesium sulfate cold compress preparation facilities is including processing the support, feed mechanism, drag mechanism I, drag mechanism II, the installing support, drop feed mechanism I, drop feed mechanism II and cutting mechanism, the front end of processing the support is connected with feed mechanism, the front end of processing the support rotates and is connected with and pulls mechanism II, the rear end of processing the support is connected with and pulls mechanism I, a plurality of installing supports of fixedly connected with on the processing support, equal fixedly connected with drop feed mechanism I on every installing support, the mid-portion of processing the support is connected with drop feed mechanism II, fixedly connected with cutting mechanism on the processing support.

As a further optimization of the technical scheme, the magnesium sulfate cold-application preparation process comprises the steps that the processing support comprises two bottom plates, two side supports, two mounting slide rails, two limiting baffles, a blanking port and a rotating roller, the two bottom plates are both fixedly connected with the side supports, the two side supports are both fixedly connected with the mounting slide rails, the two limiting baffles are fixedly connected between the two side supports, the blanking port is arranged in the middle of each limiting baffle, and the plurality of rotating rollers are rotatably connected between the two side supports.

As a further optimization of the technical scheme, the magnesium sulfate cold-application preparation process comprises the steps that the feeding mechanism comprises two feeding shafts, two feeding winding drums and two damping wheels, the feeding winding drums are detachably and fixedly connected between the two feeding shafts, the damping wheels are in transition fit with the outer sides of the two feeding shafts, the two damping wheels are respectively and fixedly connected to the two side brackets, the two feeding shafts are respectively and rotatably connected to the two side brackets, the feeding winding drums are wound with non-woven fabrics, and the non-woven fabrics penetrate through the upper ends of the plurality of rotating rollers.

According to the magnesium sulfate cold compress preparation technology, the dragging mechanism I comprises a dragging motor, a tooth-lacking gear, a transmission shaft, two dragging shafts I, a connecting column I and adhesive tape reels I, the dragging motor is fixedly connected to a side bracket on one side, the tooth-lacking gear is fixedly connected to an output shaft of the dragging motor, the transmission shaft is rotatably connected to the two side brackets and is in meshed transmission with the tooth-lacking gear, the two dragging shafts I are respectively rotatably connected to the rear ends of the two side brackets, the connecting column I is detachably and fixedly connected between the two dragging shafts I, the two adhesive tape reels I are fixedly connected to the connecting column I, and the two dragging shafts I are both in transmission connection with the transmission shaft.

As a further optimization of the technical scheme, the magnesium sulfate cold compress preparation process provided by the invention comprises a pulling mechanism II, two adhesive tape reels II and two pulling shafts II, wherein the two pulling shafts II are respectively and rotatably connected to the front ends of the two side brackets, the connecting column II is detachably and fixedly connected between the two pulling shafts II, the two adhesive tape reels II are fixedly connected to the connecting column II, one ends of the two adhesive tapes are respectively wound on the two adhesive tape reels II, the other ends of the two adhesive tapes are respectively and fixedly connected to the two adhesive tape reels I, and the two adhesive tapes both penetrate through the upper ends of the plurality of rotating rollers.

As a further optimization of the technical scheme, the magnesium sulfate cold-compress preparation process comprises three mounting brackets, wherein the three mounting brackets can be detachably and fixedly connected between two mounting slide rails, the discharge mechanism I comprises a telescopic mechanism I, a material pushing cylinder, a one-way mechanism, a material feeding pipeline, a material pushing motor and a material pushing spiral, the telescopic end of the telescopic mechanism I is fixedly connected with the material pushing cylinder, the lower end of the material pushing cylinder is provided with the one-way mechanism, the upper end of the material pushing cylinder is fixedly connected with the material feeding pipeline, the upper end of the material pushing cylinder is fixedly connected with the material pushing motor, the output shaft of the material pushing motor is fixedly connected with the material pushing spiral, the material pushing spiral is arranged in the material pushing cylinder, the telescopic mechanisms I are fixedly connected to the three mounting brackets, and the three material pushing cylinders are.

As a further optimization of the technical scheme, the magnesium sulfate cold compress preparation process comprises a discharging mechanism II, two discharging wheels, two discharging belts and a discharging hole, wherein the two discharging wheels are respectively and rotatably connected to the outer sides of the two side brackets, the discharging motor is fixedly connected to the side bracket on one side, an output shaft of the discharging motor is in transmission connection with one discharging wheel, the two discharging wheels are in transmission connection through the two discharging belts, the two discharging belts respectively penetrate through the upper ends of the two limiting baffles, and the two discharging belts are respectively provided with the plurality of discharging holes.

As further optimization of the technical scheme, the magnesium sulfate cold compress preparation process comprises the step that the cutting mechanism comprises a telescopic mechanism II and a cutting tool, the cutting tool is fixedly connected to the telescopic end of the telescopic mechanism II, and the upper side and the lower side of the rear end of each side support are fixedly connected with the telescopic mechanism II.

The utility model provides a magnesium sulfate cold compress is pasted, magnesium sulfate cold compress is pasted and is included non-woven fabrics, gel layer, magnesium sulfate gauze and thin layer, is provided with three gel layer on the non-woven fabrics, is provided with two magnesium sulfate gauzes between the three gel layer, is provided with the thin layer on the non-woven fabrics, and gel layer and magnesium sulfate gauze are located between non-woven fabrics and the thin layer.

The magnesium sulfate cold compress patch and the preparation process thereof have the beneficial effects that:

according to the magnesium sulfate cold compress patch and the preparation process thereof, the non-woven fabric can be wound on the feeding mechanism, one ends of two adhesive tapes are fixedly connected to the pulling mechanism II, the other ends of the two adhesive tapes are wound on the pulling mechanism I, and two sides of the non-woven fabric are respectively adhered to the two adhesive tapes; the non-woven fabric and the two adhesive tapes are pulled by the pulling mechanism II to pass through the discharging mechanism II and the lower ends of the discharging mechanisms I together, the gel layers are smeared on the non-woven fabric by the discharging mechanisms I, and the magnesium sulfate gauze is placed on the non-woven fabric by the discharging mechanism II; after the magnesium sulfate gauze and the gel layer are processed, the non-woven fabric is cut by the cutting mechanism, the processed non-woven fabric is taken down from the two adhesive tapes, and a film layer is arranged on the processed non-woven fabric; the gel layer and the magnesium sulfate gauze are alternately arranged, so that the cooling effect of the gel layer and the detumescence effect of the magnesium sulfate gauze are ensured.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of a magnesium sulfate cold compress preparation device of the present invention;

FIG. 2 is a schematic view of a partial structure of a magnesium sulfate cold compress preparation device of the present invention;

FIG. 3 is a schematic view of a processing fixture according to the present invention;

FIG. 4 is a schematic view of the feed mechanism of the present invention;

FIG. 5 is a schematic view of the structure of a pulling mechanism I of the present invention;

FIG. 6 is a schematic structural view of a second pulling mechanism of the present invention;

FIG. 7 is a schematic view of the mounting bracket configuration of the present invention;

FIG. 8 is a schematic structural view of a discharge mechanism I of the present invention;

FIG. 9 is a schematic structural view of a discharging mechanism II of the invention;

fig. 10 is a schematic view of the magnesium sulfate cold compress patch structure of the present invention.

In the figure: processing the bracket 1; a base plate 101; side brackets 102; mounting a slide rail 103; a limit stop 104; a blanking port 105; a rotating roller 106; a feeding mechanism 2; a supply shaft 201; a supply spool 202; a damping wheel 203; a pulling mechanism I3; pulling the motor 301; a missing tooth gear 302; a drive shaft 303; pulling the shaft I304; a connecting column I305; adhesive tape reel I306; a pulling mechanism II 4; connecting a column II 401; a tape reel II 402; pulling the shaft II 403; a mounting bracket 5; a material discharging mechanism I6; a telescoping mechanism I601; a pusher barrel 602; a one-way mechanism 603; a feed conduit 604; a pusher motor 605; a pusher screw 606; a discharging mechanism II 7; a discharge wheel 701; a discharge motor 702; a material placing belt 703; a discharge port 704; a cutting mechanism 8; a telescoping mechanism II 801; a cutting tool 802; a nonwoven fabric 9; a gel layer 10; magnesium sulfate gauze 11.

Detailed Description

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

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, directly or indirectly connected through an intermediate medium, and may be a communication between two members. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

The first embodiment is as follows:

in the following, referring to fig. 1 to 10, the present embodiment will be described, wherein a magnesium sulfate cold patch preparation process includes the following steps:

s1; winding a non-woven fabric on the feeding mechanism 2, wherein one ends of the two adhesive tapes are fixedly connected to the pulling mechanism II 4, the other ends of the two adhesive tapes are wound on the pulling mechanism I3, and two sides of the non-woven fabric are respectively adhered to the two adhesive tapes;

s2; the non-woven fabric and the two adhesive tapes are pulled by the pulling mechanism II 4 to pass through the discharging mechanism II 7 and the lower ends of the discharging mechanisms I6 together, the gel layer 10 is coated on the non-woven fabric by the discharging mechanisms I6, and the magnesium sulfate gauze 11 is placed on the non-woven fabric by the discharging mechanism II 7;

s3; after the magnesium sulfate gauze 11 and the gel layer 10 are processed, the cutting mechanism 8 cuts the non-woven fabric, the processed non-woven fabric is taken down from the two adhesive tapes, and a film layer is arranged on the processed non-woven fabric;

the magnesium sulfate cold compress preparation technology still relates to a magnesium sulfate cold compress preparation facilities, magnesium sulfate cold compress preparation facilities is including processing support 1, feed mechanism 2, drag mechanism I3, drag mechanism II 4, installing support 5, drop feed mechanism I6, drop feed mechanism II 7 and cutting mechanism 8, the front end of processing support 1 is connected with feed mechanism 2, the front end of processing support 1 rotates and is connected with and pulls mechanism II 4, the rear end of processing support 1 is connected with and pulls mechanism I3, a plurality of installing support of fixedly connected with 5 on the processing support 1, equal fixedly connected with drop feed mechanism I6 on every installing support 5, the middle part of processing support 1 is connected with drop feed mechanism II 7, fixedly connected with cutting mechanism 8 on the processing support 1.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 10, and the present embodiment further describes the first embodiment, the processing support 1 includes a bottom plate 101, side supports 102, two mounting slide rails 103, two limiting baffles 104, a material dropping opening 105, and a rotating roller 106, where the bottom plate 101 is provided with two side supports 102, the two bottom plates 101 are both fixedly connected with the side supports 102, the two side supports 102 are both fixedly connected with the mounting slide rails 103, the two limiting baffles 104 are fixedly connected between the two side supports 102, the middle portions of the two limiting baffles 104 are both provided with the material dropping opening 105, and the two side supports 102 are rotatably connected with the plurality of rotating rollers 106.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 10, and the present embodiment further describes the second embodiment, the feeding mechanism 2 includes two feeding shafts 201, two feeding drums 202 and two damping wheels 203, the two feeding shafts 201 are provided, the two feeding shafts 201 are detachably and fixedly connected with the feeding drums 202, the damping wheels 203 are respectively in transition fit with the outer sides of the two feeding shafts 201, the two damping wheels 203 are respectively and fixedly connected to the two side brackets 102, the two feeding shafts 201 are respectively and rotatably connected to the two side brackets 102, the feeding drums 202 are wound with non-woven fabrics, and the non-woven fabrics pass through the upper ends of the plurality of rotating rollers 106.

The fourth concrete implementation mode:

this embodiment is described below with reference to fig. 1 to 10, this embodiment further describes embodiment three, it includes pulls motor 301 to pull mechanism i 3, it lacks tooth gear 302, transmission shaft 303, pull axle i 304, spliced pole i 305 and adhesive tape reel i 306, it is on the side bearer 102 of one side to pull motor 301 fixed connection, it lacks tooth gear 302 to pull fixedly connected with on the output shaft of motor 301, transmission shaft 303 rotates and connects on two side bearers 102, transmission shaft 303 and the meshing transmission of lacking tooth gear 302, it is provided with two to pull axle i 304, two are pulled axle i 304 and are rotated respectively and connect the rear end at two side bearers 102, can dismantle fixedly connected with spliced pole i 305 between two I304 to pull the axle, fixedly connected with two adhesive tape reels i 306 on the spliced pole i 305, two are pulled axle i 304 and all drive connection with transmission shaft 303.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 10, and the fourth embodiment is further described, the pulling mechanism ii 4 includes a connecting column ii 401, a tape reel ii 402, and two pulling shafts ii 403, where the two pulling shafts ii 403 are provided, the two pulling shafts ii 403 are respectively rotatably connected to the front ends of the two side brackets 102, the connecting column ii 401 is detachably and fixedly connected between the two pulling shafts ii 403, the connecting column ii 401 is fixedly connected to the connecting column ii 401, one ends of the two tapes are respectively wound on the two tape reels ii 402, the other ends of the two tapes are respectively and fixedly connected to the two tape reels i 306, and the two tapes both pass through the upper ends of the plurality of rotating rollers 106.

The sixth specific implementation mode:

the present embodiment will be described with reference to fig. 1 to 10, and the fifth embodiment will be further described, the mounting supports 5 are three, the three mounting supports 5 are detachably and fixedly connected between the two mounting slide rails 103, the discharging mechanism I6 comprises a telescopic mechanism I601, a material pushing cylinder 602, a one-way mechanism 603, a material feeding pipeline 604, a material pushing motor 605 and a material pushing spiral 606, the telescopic end of the telescopic mechanism I601 is fixedly connected with the material pushing cylinder 602, the lower end of the material pushing cylinder 602 is provided with the one-way mechanism 603, the upper end of the material pushing cylinder 602 is fixedly connected with the material feeding pipeline 604, the upper end of the material pushing cylinder 602 is fixedly connected with the material pushing motor 605, the output shaft of the material pushing motor 605 is fixedly connected with the material pushing spiral 606, the material pushing spiral 606 is arranged in the material pushing cylinder 602, the three mounting supports 5 are all fixedly connected with the telescopic mechanisms I601, and the three material pushing.

The seventh embodiment:

the following describes the present embodiment with reference to fig. 1 to 10, and the sixth embodiment is further described in the present embodiment, the discharging mechanism ii 7 includes two discharging wheels 701, two discharging motors 702, two discharging belts 703 and two discharging ports 704, the two discharging wheels 701 are respectively rotatably connected to the outer sides of the two side brackets 102, the discharging motors 702 are fixedly connected to the side brackets 102 on one side, the output shaft of the discharging motor 702 is in transmission connection with one of the discharging wheels 701, the two discharging wheels 701 are in transmission connection with the other discharging belt 703, the two discharging belts 703 respectively pass through the upper ends of the two limiting baffles 104, and the two discharging belts 703 are respectively provided with a plurality of discharging ports 704.

The specific implementation mode is eight:

the following describes the present embodiment with reference to fig. 1 to 10, and the seventh embodiment is further described in the present embodiment, the cutting mechanism 8 includes a telescopic mechanism ii 801 and a cutting tool 802, the telescopic end of the telescopic mechanism ii 801 is fixedly connected with the cutting tool 802, and the upper and lower sides of the rear end of the two side brackets 102 are fixedly connected with the telescopic mechanism ii 801.

The utility model provides a magnesium sulfate cold compress paste, magnesium sulfate cold compress paste includes non-woven fabrics 9, gel layer 10, magnesium sulfate gauze 11 and thin layer, is provided with three gel layer 10 on the non-woven fabrics 9, is provided with two magnesium sulfate gauze 11 between the three gel layer 10, is provided with the thin layer on the non-woven fabrics 9, and gel layer 10 and magnesium sulfate gauze 11 are located between non-woven fabrics 9 and the thin layer.

The magnesium sulfate cold compress plaster and the preparation process thereof have the working principle that:

when in use, one end of the non-woven fabric is wound on the feeding reel 202, two adhesive tapes are wound on the two adhesive tape reels II 402 respectively, the other ends of the two adhesive tapes are fixedly connected to the two adhesive tape reels I306 respectively, the two adhesive tapes pass through the upper ends of the plurality of rotating rollers 106, the non-woven fabric passes through the upper ends of the plurality of rotating rollers 106, two sides of the non-woven fabric are respectively stuck on the two adhesive tapes, the width of the non-woven fabric is smaller than the width of the outer sides of the two adhesive tapes, the width of the cutting tool 802 is equal to the width of the non-woven fabric, so that when the cutting tool 802 cuts the non-woven fabric, the cutting tool 802 can completely cut the non-woven fabric, and the part where the adhesive tapes and the non-woven fabric are connected can be cut, but because the width of the non-woven fabric is smaller than, the adhesive tape winding drum I306 can still rotate through the two adhesive tape driven adhesive tape winding drums II 402 when rotating; the pulling motor 301 is started, the output shaft of the pulling motor 301 starts to rotate, the output shaft of the pulling motor 301 drives the tooth-missing gear 302 to rotate, the tooth-missing gear 302 drives the transmission shaft 303 to rotate, the transmission shaft 303 drives the pulling shaft I304 to rotate, the pulling shaft I304 drives the connecting column I305 to rotate, the connecting column I305 drives the adhesive tape reel I306 to rotate, the adhesive tape reel I306 drives the adhesive tape fixedly connected with the adhesive tape reel I306 to move, the adhesive tape reel I306 winds the adhesive tape, the adhesive tape drives the non-woven fabric to move, the non-woven fabric moves on the rotating roller 106, the non-woven fabric passes through the lower sides of the three discharging mechanisms I6 and II 7, the material pushing motor 605, the telescoping mechanism I601 and the discharging motor 702 are started within the time when the tooth-missing gear 302 and the transmission shaft 303 push out meshing transmission, the material pushing motor 605, the telescoping mechanism I601 and the discharging motor 702 are closed, the gel is introduced into the material pushing barrel 602 through the material inlet pipe 604, the gel can be the raw material of a gel layer in cold-applied paste in the prior art, the material pushing motor 605 is started, the output shaft of the material pushing motor 605 starts to rotate, the output shaft of the material pushing motor 605 drives the material pushing screw 606 to rotate, downward thrust is generated when the material pushing screw 606 rotates, the gel is pushed to move downwards when the material pushing screw 606 rotates, the gel passes through the one-way mechanism 603 and falls on the non-woven fabric, meanwhile, the telescoping mechanism I601 is started, the telescoping mechanism I601 and the telescoping mechanism II 801 can be hydraulic cylinders or electric push rods, the telescoping end of the telescoping mechanism I601 drives the material pushing barrel 602 to reciprocate back and forth, the gel in the material pushing barrel 602 can be uniformly coated on the non-woven fabric, the discharging motor 702 is, an output shaft of the discharging motor 702 drives the discharging wheel 701 to rotate, the discharging wheel 701 drives the two discharging belts 703 to move, the discharging belts 703 drive the discharging port 704 on the discharging belt 703 to move, meanwhile, magnesium sulfate gauze 11 soaked with magnesium sulfate solution is placed in the discharging port 704 in advance, because the discharging belts 703 pass through the upper end of the limit baffle 104, the limit baffle 104 shields the discharging port 704 so that the magnesium sulfate gauze 11 in the discharging port 704 cannot fall off, when the discharging motor 702 is started, the discharging port 704 moves to be superposed with the discharging port 105, the magnesium sulfate gauze 11 in the discharging port 704 falls on non-woven fabric, after the magnesium sulfate gauze 11 and the gel layer 10 are processed, the tooth-lacking gear 302 and the transmission shaft 303 move again, the processed non-woven fabric moves to the side of the cutting mechanism 8, the tooth-lacking gear 302 and the transmission shaft 303 push out meshing transmission, the discharging mechanism I6 and the discharging mechanism II 7 continue to process, the two stretching mechanisms II 801 are started simultaneously, the stretching ends of the two stretching mechanisms II 801 drive the two cutting tools 802 to move, the two cutting tools 802 cut the non-woven fabric, the non-woven fabric is taken down from the two adhesive tapes through manpower or a machine, the processing completion state is shown in figure 10, the gel layer 10 and the magnesium sulfate gauze 11 are arranged alternately, and the cooling effect of the gel layer 10 and the detumescence effect of the magnesium sulfate gauze 11 are guaranteed; and a film layer is processed on the processed non-woven fabric, the film layer is a polyester protective film embossing film layer, and the film layer is removed before use, so that the magnesium sulfate cold application can be efficiently processed by repeated movement of the device.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (9)

1. A magnesium sulfate cold compress preparation process is characterized by comprising the following steps: the process comprises the following steps:

s1; winding a non-woven fabric on the feeding mechanism (2), wherein one ends of two adhesive tapes are fixedly connected to the pulling mechanism II (4), the other ends of the two adhesive tapes are wound on the pulling mechanism I (3), and two sides of the non-woven fabric are respectively adhered to the two adhesive tapes;

s2; the non-woven fabric and the two adhesive tapes are pulled by the pulling mechanism II (4) to pass through the discharging mechanism II (7) and the lower ends of the discharging mechanisms I (6) together, the gel layers (10) are coated on the non-woven fabric by the discharging mechanisms I (6), and the magnesium sulfate gauze (11) is placed on the non-woven fabric by the discharging mechanism II (7);

s3; after the magnesium sulfate gauze (11) and the gel layer (10) are processed, the cutting mechanism (8) cuts the non-woven fabric, the processed non-woven fabric is taken down from the two adhesive tapes, and a film layer is arranged on the processed non-woven fabric;

the magnesium sulfate cold compress preparation process also relates to a magnesium sulfate cold compress preparation device which comprises a processing bracket (1), a feeding mechanism (2), a pulling mechanism I (3) and a pulling mechanism II (4), installing support (5), drop feed mechanism I (6), drop feed mechanism II (7) and cutting mechanism (8), the front end of processing support (1) is connected with feed mechanism (2), the front end of processing support (1) rotates and is connected with and pulls mechanism II (4), the rear end of processing support (1) is connected with and pulls mechanism I (3), a plurality of installing support of fixedly connected with (5) are gone up in processing support (1), equal fixedly connected with drop feed mechanism I (6) are gone up in every installing support (5), the mid-portion of processing support (1) is connected with drop feed mechanism II (7), fixedly connected with cutting mechanism (8) are gone up in processing support (1).

2. The magnesium sulfate cold compress preparation process according to claim 1, characterized in that: the processing support (1) comprises a bottom plate (101), side supports (102), mounting slide rails (103), limit baffles (104), a blanking port (105) and rotating rollers (106), wherein the bottom plate (101) is provided with two side supports (102), the two bottom plates (101) are respectively and fixedly connected with the side supports (102), the two side supports (102) are respectively and fixedly connected with the mounting slide rails (103), the two side supports (102) are respectively and fixedly connected with the two limit baffles (104), the middle parts of the two limit baffles (104) are respectively provided with the blanking port (105), and the two side supports (102) are respectively and rotatably connected with the plurality of rotating rollers (106).

3. The magnesium sulfate cold compress preparation process according to claim 2, characterized in that: feeding mechanism (2) are including feeding axle (201), feed reel (202) and damping wheel (203), feeding axle (201) are provided with two, can dismantle fixedly connected with feed reel (202) between two feeding axles (201), the equal transition fit in the outside of two feeding axles (201) has damping wheel (203), two damping wheel (203) fixed connection respectively are on two collateral branch framves (102), two feeding axles (201) rotate respectively and connect on two collateral branch framves (102), the winding has the non-woven fabrics on feed reel (202), the non-woven fabrics passes the upper end of a plurality of rotation rollers (106).

4. The magnesium sulfate cold compress preparation process according to claim 3, characterized in that: the pulling mechanism I (3) comprises a pulling motor (301), a gear with missing teeth (302), a transmission shaft (303), a pulling shaft I (304), a connecting column I (305) and an adhesive tape reel I (306), drag motor (301) fixed connection on collateral branch frame (102) of one side, fixedly connected with lacks tooth gear (302) on the output shaft of dragging motor (301), transmission shaft (303) rotate to be connected on two collateral branch framves (102), transmission shaft (303) and lack tooth gear (302) meshing transmission, it is provided with two to drag an I (304) of axle, two are dragged I (304) of axle and rotate the rear end of connecting in two collateral branch framves (102) respectively, can dismantle fixedly connected with spliced pole I (305) between two are dragged I (304) of axle, two I (306) of fixedly connected with adhesive tape reel on spliced pole I (305), two are dragged I (304) of axle and all are connected with transmission shaft (303) transmission.

5. The magnesium sulfate cold compress preparation process according to claim 4, characterized in that: pull mechanism II (4) including spliced pole II (401), adhesive tape reel II (402) and pull axle II (403), it is provided with two to pull axle II (403), two pull axle II (403) rotate the front end of connecting in two side support (102) respectively, can dismantle fixedly connected with spliced pole II (401) between two pull axle II (403), two adhesive tape reel II (402) of fixedly connected with are gone up to spliced pole II (401), the one end of two sticky tapes is twined respectively on two adhesive tape reel II (402), the other end of two sticky tapes is fixed connection respectively on two adhesive tape reel I (306), two sticky tapes all pass the upper end of a plurality of rotation rollers (106).

6. The magnesium sulfate cold compress preparation process according to claim 5, characterized in that: the three mounting brackets (5) are arranged, the three mounting brackets (5) can be detachably and fixedly connected between the two mounting slide rails (103), the discharging mechanism I (6) comprises a telescopic mechanism I (601), a pushing cylinder (602), a one-way mechanism (603), a feeding pipeline (604), a pushing motor (605) and a pushing spiral (606), the telescopic end of the telescopic mechanism I (601) is fixedly connected with the pushing cylinder (602), the lower end of the pushing cylinder (602) is provided with the one-way mechanism (603), the upper end of the pushing cylinder (602) is fixedly connected with the feeding pipeline (604), the upper end of the pushing cylinder (602) is fixedly connected with the pushing motor (605), the output shaft of the pushing motor (605) is fixedly connected with the pushing spiral (606), the pushing spiral (606) is arranged in the pushing cylinder (602), the telescopic mechanisms I (601) are fixedly connected on the three mounting brackets (5), the three material pushing barrels (602) are respectively connected to the three mounting brackets (5) in a sliding manner.

7. The magnesium sulfate cold compress preparation process according to claim 6, characterized in that: discharge mechanism II (7) are including blowing wheel (701), blowing motor (702), blowing area (703) and drain hole (704), blowing wheel (701) are provided with two, two blowing wheels (701) rotate respectively and connect in the outside of two collateral branch framves (102), blowing motor (702) fixed connection is on collateral branch frame (102) of one side, the output shaft and one of them blowing wheel (701) transmission of blowing motor (702) are connected, connect through two blowing area (703) transmissions between two blowing wheels (701), two blowing area (703) pass the upper end of two limit baffle (104) respectively, be provided with a plurality of drain holes (704) on two blowing area (703) respectively.

8. The magnesium sulfate cold compress preparation process according to claim 7, characterized in that: the cutting mechanism (8) comprises a telescopic mechanism II (801) and a cutting tool (802), the telescopic end of the telescopic mechanism II (801) is fixedly connected with the cutting tool (802), and the upper side and the lower side of the rear ends of the two side supports (102) are fixedly connected with the telescopic mechanism II (801).

9. The magnesium sulfate cold compress patch prepared by using the magnesium sulfate cold compress patch preparation process of claim 8, is characterized in that: the magnesium sulfate cold compress comprises a non-woven fabric (9), a gel layer (10), magnesium sulfate gauze (11) and a thin film layer, wherein the non-woven fabric (9) is provided with the three gel layer (10), the two magnesium sulfate gauze (11) are arranged between the three gel layer (10), the thin film layer is arranged on the non-woven fabric (9), and the gel layer (10) and the magnesium sulfate gauze (11) are arranged between the non-woven fabric (9) and the thin film layer.

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