CN114469740A

CN114469740A - Preparation process of deep-layer soothing and repairing gel

Info

Publication number: CN114469740A
Application number: CN202111643517.9A
Authority: CN
Inventors: 高义才; 王桂来; 王桂国; 翟婵婵
Original assignee: Qingdao Pairui Bio Tech Co ltd
Current assignee: Qingdao Pairui Bio Tech Co ltd
Priority date: 2021-12-29
Filing date: 2021-12-29
Publication date: 2022-05-13

Abstract

The invention discloses a preparation process of deep soothing and repairing gel, which comprises the following steps: the method comprises the steps of taking out various medicinal materials and water, placing the medicinal materials and the water in a pressurizing barrel, starting a forward and reverse motor to drive a pressurizing pipe to drive a pressurizing plate to pressurize a medicinal material mixed solution so as to disperse the medicinal materials, then starting a servo motor to drive the pressurizing plate to rotate so as to stir the medicinal materials to be fully mixed, starting an exhaust motor to evacuate air in a negative pressure cavity to generate negative pressure suction, sucking the mixed glue solution into a packaging tank through a suction pipe, and starting a conveying motor to drive a conveying plate to extrude and push the liquid medicine to fill the glue solution into a medicine bottle through a filling pipe. According to the invention, through the arranged glue making device, various medicinal materials and water are stored in the pressurizing barrel, and then the pressurizing pipe is used for driving the pressurizing plate to descend so as to pressurize the mixed liquid of the medicinal materials and the water, so that the medicinal materials are fully soaked, expanded and dispersed, the stirring time is saved, the medicine property is ensured, the effects of mixing and stirring the medicinal materials are achieved, and the glue making device has practical value.

Description

Preparation process of deep-layer soothing and repairing gel

Technical Field

The invention relates to the technical field of manufacturing of special pharmaceutical equipment, in particular to a preparation process of deep soothing and repairing gel.

Background

After various related medicinal materials are mixed to form gel or glue solution, the gel or glue solution has the efficacy of the medicinal materials, is used for being smeared on the skin of a pain part of a human body, and plays a role in relieving the discomfort conditions of pain, relaxing tendons, activating collaterals and the like. The gel or the glue solution for deeply relieving and repairing the channels and collaterals of the human body needs to be formed by mixing more than ten medicinal materials with related medicinal properties, the traditional stirring time is long, the damage to the medicinal materials is large, and in addition, the mixed glue solution is easily exposed and contacts particles such as bacteria, dust and the like in the air when being poured into a medicine bottle, so that the glue solution is impure.

Disclosure of Invention

The invention aims to provide a preparation process of a deep soothing repair gel, so as to solve the problems in the background technology.

In order to realize the purpose, the invention provides a preparation process of a deep soothing repair gel, which comprises the following steps:

s1, taking 10-12 parts of glycerol, 5-8 parts of PEG-40 hydrogenated castor oil, 3-7 parts of vanillyl butyl ether, 7-12 parts of turmeric root extract, 7-12 parts of folium artemisiae argyi extract, 2-3 parts of carbomer, 6-9 parts of pepper extract, 5-8 parts of laurocapram, 2-3 parts of ethanol, 7-12 parts of radix paeoniae rubra root extract, 5-8 parts of cinnamon extract, 6-9 parts of tocopherol, 7-12 parts of notopterygium root extract, 5-8 parts of aloe vera extract, 3-7 parts of carboxymethyl chitin, 5-8 parts of crocus sativus extract, 5-8 parts of mint extract, 5-8 parts of fingered citron extract and 2-3 parts of xanthan gum according to weight parts;

s2, pouring the medicinal materials in the S1 into a pressurizing barrel, and adding a proper amount of water;

s3, the forward and reverse rotating motor is started to rotate forward to drive the pressurizing pipe to drive the pressurizing plate to descend synchronously, and then the pressurizing plate is contacted with the water surface to pressurize for 5 MPa and is kept to pressurize for 30 minutes;

s4, starting the positive and negative rotation motor to rotate reversely to drive the pressurizing plate to move upwards for a section so as to relieve the pressurizing;

s5, starting a servo motor to drive a pressurizing plate to drive a plurality of stirring columns at the bottom of the pressurizing plate to synchronously rotate, and further crushing the mixed medicinal materials to form glue solution;

s6, restarting the servo electric cylinder to drive the bottom end of the suction pipe to descend to the bottom surface of the pressurizing barrel;

s7, restarting an exhaust motor to drive fan blades to rotate so as to pump air in the negative pressure cavity, and further forming a negative pressure environment to pump glue solution;

s8, stopping the work of the exhaust motor after the glue solution in the pressurizing barrel is pumped, and enabling the glue solution to flow into the packaging tank automatically;

s9, starting a conveying motor to drive a conveying plate to push the glue solution to move to a discharging nozzle;

s10, placing the medicine bottle below a filling tube of the discharge nozzle and filling glue solution;

the gel preparation device in the process comprises a gel making device for pressurizing medicinal materials to disperse and a packaging and conveying device for sealing, sucking and conveying gel liquid, the glue making device comprises a pressurizing barrel, a lifting rotatable pressurizing plate arranged in the pressurizing barrel, a pressurizing pipe used for driving the pressurizing plate to lift, and a servo motor which is positioned at the radial two sides of the pressurizing pipe in a suspension manner and is used for driving the pressurizing plate to rotate by taking the central shaft of the pressurizing pipe as an axis, the pressurizing plate is inserted with the pressurizing barrel and can slide along the axial direction of the pressurizing barrel, the top end of the pressurizing pipe is provided with a suspension used for driving the pressurizing pipe to lift, the packaging and conveying device comprises a packaging tank which is located on one radial side of the top of the pressurizing barrel and is transversely arranged in the axial direction, an exhaust motor which is arranged on the top of one end of the pressurizing barrel and close to the packaging tank, a suction pipe which is used for communicating the packaging tank with the pressurizing barrel, a conveying plate which is arranged inside the packaging tank along the axial sliding direction of the packaging tank, and a plurality of filling pipes which are arranged at the bottom of the other end of the packaging tank.

As a further improvement of the technical scheme, a sealing ring is embedded in the lower half section of the outer side of the pressurizing plate, a gear ring concentric with the pressurizing plate is fixed on the top surface of the pressurizing plate, a transmission gear meshed with the gear ring is vertically and coaxially connected with the output shaft of the servo motor and the axial direction of the pressurizing pipe, and a suspension rod fixedly connected with the pressurizing pipe is sleeved above the servo motor.

As a further improvement of the technical scheme, a lifting hole which is spliced with the pressurizing pipe and has an I-shaped cross section is formed in the central shaft of the pressurizing plate, a pressurizing block and a supporting block are respectively welded at the outer side of the bottom of the pressurizing pipe and at the upper section and the lower section of the lifting hole, and a buffering pressure spring is placed in the upper section of the lifting hole.

As a further improvement of the technical scheme, the bottom surface of the pressurizing plate is annular and is radially and equidistantly inserted with a plurality of stirring columns, a plurality of stirring rods are welded on the radial outer side of each stirring column, the length of the stirring columns positioned in the middle of the pressurizing plate is larger than that of the stirring columns positioned at the edge of the pressurizing plate, a feeding nozzle is arranged on one side of the top of the pressurizing barrel, and the bottom of the pressurizing barrel is conical in shape and is sleeved with a guard ring.

As a further improvement of the technical scheme, the suspension is triangular, threaded columns which are coaxial with the pressurizing pipes are welded on the bottom surfaces of the other two ends of the suspension, a fixed gear is connected to the middle of each threaded column in a threaded mode, a driving gear is meshed on one side of the fixed gear in the radial horizontal direction, a forward and reverse rotating motor is coaxially connected to the lower portion of the driving gear, a supporting pipe is sleeved on the outer side of the lower half section of each threaded column, a counter bore is formed in the top end of the supporting pipe, and a bearing which is tightly sleeved with the counter bore is welded on the bottom surface of the fixed gear.

As the further improvement of this technical scheme, it has the division board just to weld along its axial in the top of encapsulation jar, the top space that the division board is close to pressurization bucket one end divide into negative pressure chamber and storage cavity, the socket has been seted up to the radial one side in top of forcing pipe, the one end of suction tube is inserted the socket and is extended the bottom mouth department of forcing pipe, the other end of suction tube runs through to the negative pressure intracavity, the bottom of suction tube has closely been cup jointed a piece, the top surface of piece is equipped with the pipe and the pipe outside is the annular and has seted up a plurality of material mouths of inhaling, the flexible servo electronic jar that is used for driving the suction tube horizontal segment is installed to top one side of encapsulation jar.

As a further improvement of the technical scheme, the top of the packaging tank is communicated with and provided with an exhaust port above the negative pressure cavity, an output shaft of the exhaust motor is arranged on a central shaft of the exhaust port and is tightly sleeved with a fan blade, a bottom port of the exhaust port is clamped with a filter pad, and the filter pad comprises an activated carbon layer and a silk floss layer.

As a further improvement of the technical scheme, the top of the packaging tank is communicated with and is arranged right above the space between the negative pressure cavity and the storage cavity, the top end of the cleaning port is hinged with a sealing cover, the bottom surface of the storage cavity is provided with a rectangular discharge hole, a sealing plate which can only turn downwards is connected in the discharge hole in a rotating mode, and a plurality of through holes are formed in the middle of the partition plate between the negative pressure cavity and the storage cavity in a leaning mode.

As a further improvement of the technical scheme, the conveying plate is of a round block structure, the top of the conveying plate is a plane and is attached to the bottom surface of the partition plate to slide, a transmission lead screw is connected to the central shaft of the conveying plate in a threaded manner, one end of the transmission lead screw penetrates through the central shaft end of the packaging tank and is coaxially connected with a conveying motor, a discharging nozzle is arranged on the lower half portion of one end, away from the pressurizing barrel, of the packaging tank in a protruding manner, and a material pressing nozzle is welded on one side of the bottom of the conveying plate.

Compared with the prior art, the invention has the beneficial effects that:

1. in this preparation technology of gel is restoreed in deep releiving, through the system mucilage binding that sets up, utilize the pressurization bucket wherein to deposit various medicinal materials and water, then utilize the forcing pipe to drive the pressure plate decline and the mixed liquid of the medicinal material of exerting pressure and water for the medicinal material fully soaks and the inflation dispersion, saves the time of stirring, also does benefit to and guarantees the property of a medicine, and its compact structure and ingenious has the effect of mixing and stirring simultaneously to the medicinal material, has practical value.

2. In the preparation technology of the deep-layer relaxing repair gel, the suction pipe penetrates through the inside of the pressurization pipe and extends to the bottom of the pressurization barrel through the arranged packaging conveying device, the mixed glue solution is sucked to the packaging tank through the negative pressure suction force formed at the top of the packaging tank, and then is extruded and pushed by the conveying plate to be conveyed to be poured into the medicine bottle, in the process, the glue solution is always sealed in the packaging tank, bacteria, dust, particulate matters and the like are prevented from being fused into the glue solution, and the purity of the glue solution is effectively guaranteed.

3. In this preparation technology of gel is restoreed in deep releiving, support the pressurization pipe through the suspension that sets up and go up and down to screw thread post and fixed gear threaded connection through the suspension both ends, and make the suspension can go up and down in proper order, make the pressurization pipe exert pressure gradually to the medicinal material mixed liquid, do benefit to effectual protection system mucilage binding and put wholly.

Drawings

FIG. 1 is a schematic view of an overall assembly structure of embodiment 1;

FIG. 2 is a schematic view of an overall assembly structure of the glue-making apparatus according to embodiment 1;

FIG. 3 is a partial assembly structure diagram of the glue maker according to embodiment 1;

FIG. 4 is a schematic view of a bottom mounting structure of the pressurizing plate according to embodiment 1;

FIG. 5 is an assembled and disassembled view of the pressurizing plate of embodiment 1;

FIG. 6 is a schematic view showing a transmission gear assembling structure of embodiment 1;

FIG. 7 is a schematic view of the bottom structure of the pressurizing plate of example 1;

FIG. 8 is a schematic view of an assembling structure of the pressure pipe according to embodiment 1;

FIG. 9 is a schematic view showing the structure of a support tube according to embodiment 1;

FIG. 10 is a schematic view showing an assembling structure of the package feeding apparatus according to embodiment 1;

FIG. 11 is a schematic view of an internal assembly structure of a package can of embodiment 1;

FIG. 12 is a full-section structural view of a package can of example 1;

FIG. 13 is a partial assembled structure of the suction pipe of example 1;

fig. 14 is an assembled and disassembled view of the exhaust motor of embodiment 1;

fig. 15 is a schematic view of the conveying plate assembly structure of embodiment 1.

The various reference numbers in the figures mean:

100. a glue making device; 110. a pressurizing barrel; 111. a charging nozzle; 112. a retainer;

120. a pressurizing plate; 121. a toothed ring; 122. a seal ring; 123. hoisting holes; 124. buffering a pressure spring; 125. a stirring column; 126. a stirring rod; 130. a servo motor; 131. a transmission gear; 132. a suspension rod;

140. a pressurizing pipe; 141. a socket; 142. pressing a block; 143. a support block; 150. a suspension; 160. a threaded post; 161. supporting a tube; 162. a counter bore; 170. fixing a gear; 171. a bearing; 180. a driving gear; 190. a positive and negative rotation motor;

200. a packaging and conveying device; 201. an exhaust port; 202. cleaning the opening; 203. sealing the cover; 204. a partition plate; 205. a negative pressure chamber; 206. a material storage cavity; 207. a discharge outlet; 208. closing the plate; 209. a discharging nozzle;

210. packaging the cans; 220. an exhaust motor; 2201. an exhaust hole; 221. a fan blade; 222. a filter pad; 230. a suction tube; 231. sealing blocks; 232. a material sucking port; 240. a servo electric cylinder;

250. a conveying plate; 251. a material pressing nozzle; 260. a conveying motor; 261. a transmission screw rod; 270. filling tubes; 280. and (4) filling the table.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "central axis", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. In addition, in the description of the present invention, "a number" means two or more unless specifically limited otherwise.

Example 1

Referring to fig. 1-15, the present invention provides a process for preparing a deep soothing repair gel, comprising the following steps:

s2, pouring the medicinal materials in the step S1 into a pressurizing barrel 110, adding a proper amount of water, stirring and mixing the medicinal materials in the water to form glue, wherein the glue can relax the muscles and joints and relieve discomfort of joint muscles, and the corresponding positions can be smeared on patients who feel discomfort of muscles and joints after exercise, patients who feel discomfort of waist after sitting for a long time and driving and patients who feel discomfort of neck, shoulder and back of the patients who often feel discomfort;

s3, the forward and reverse rotation motor 190 is started to rotate forward to drive the pressurizing pipe 140 to drive the pressurizing plate 120 to descend synchronously, and then the pressurizing plate contacts the water surface to pressurize for 5 MPa, and the pressurizing is kept for 30 minutes, so that the medicinal materials are extruded in the water and seep into water molecules, and then are expanded and dispersed;

s4, the forward and reverse rotation motor 190 is started again to rotate reversely to drive the pressurizing plate 120 to move upwards for a section so as to relieve the pressurizing;

s5, starting the servo motor 130 to drive the pressurizing plate 120 to drive the stirring columns 125 at the bottom of the pressurizing plate to synchronously rotate, further crushing the mixed medicinal materials to form glue solution, and further stirring the medicinal materials by the stirring columns 125 by utilizing the rotation of the pressurizing plate 120;

s6, the servo electric cylinder 240 is restarted to drive the bottom end of the suction pipe 230 to descend to the bottom surface of the pressurizing barrel 110;

s7, restarting the exhaust motor 220 to drive the fan blade 221 to rotate to pump air in the negative pressure chamber 205, thereby forming a negative pressure environment to pump the glue solution into the negative pressure chamber 205;

s8, stopping the work of the exhaust motor 220 after the glue solution in the pressurization barrel 110 is pumped, and allowing the glue solution to flow into the packaging tank 210;

s9, starting the conveying motor 260 to drive the conveying plate 250 to push the glue solution to move to the discharging nozzle 209;

s10, placing the medicine bottle below the filling tube 270 of the discharging nozzle 209 and filling glue solution;

the gel preparation device in the process comprises a gel preparation device 100 for pressurizing medicinal materials to be dispersed and a packaging and conveying device 200 for hermetically sucking and conveying the glue solution, the medicinal materials are fully soaked and expanded and dispersed by pressurizing the mixed liquid of the medicinal materials, the stirring time is saved, the medicine property is guaranteed, and the mixed glue solution is sucked into the packaging and conveying device 200 by a sealed sucking mode and conveyed to be poured into a medicine bottle. The glue making device 100 comprises a pressurizing barrel 110, a lifting rotatable pressurizing plate 120 arranged in the pressurizing barrel 110, a pressurizing pipe 140 for driving the pressurizing plate 120 to lift and a servo motor 130 which is arranged at two radial sides of the pressurizing pipe 140 and is suspended for driving the pressurizing plate 120 to rotate by taking a central shaft of the pressurizing pipe 140 as an axis, the pressurizing barrel 110 is welded by steel plates to be cylindrical, the pressurizing pipe 140 drives the pressurizing plate 120 to descend in the pressurizing barrel 110 to press medicinal material mixed liquid, and the servo motor 130 is used for driving the pressurizing plate 120 to horizontally rotate to stir the medicinal material mixed liquid to fully mix into glue liquid. The pressurizing plate 120 is inserted into the pressurizing barrel 110 and can slide along the axial direction thereof, and a suspension 150 for driving the pressurizing tube 140 to ascend and descend is installed at the top end of the pressurizing tube 140 for supporting the ascending, descending and pressurizing movement of the pressurizing tube 140. The packaging and conveying device 200 comprises a packaging tank 210 which is positioned on one side of the top of the pressurizing barrel 110 in the radial direction and is transversely arranged in the axial direction, an air exhaust motor 220 which is arranged on the packaging tank 210 close to the top of one end of the pressurizing barrel 110, a suction pipe 230 which is used for communicating the packaging tank 210 with the pressurizing barrel 110, a conveying plate 250 which slides along the axial direction inside the packaging tank 210, and a plurality of filling pipes 270 which are arranged at the bottom of the other end of the packaging tank 210, wherein the air exhaust motor 220 is mainly used for exhausting air in the local space at the top of the packaging tank 210 to enable the air to form a negative pressure state, and the mixed glue solution in the pressurizing barrel 110 is sucked into the packaging tank 210 through the suction pipe 230, and then pushed by the transfer plate 250 to the outward end of the canisters 210 for discharge through the fill tubes 270 into the vials, and then capped and sealed, the whole process is not contacted with the outside air, bacteria, dust, particles and the like are prevented from being fused into the glue solution, and the purity of the glue solution is effectively guaranteed.

Specifically, the lower half of the outer side of the pressure plate 120 is embedded with a sealing ring 122, the outer diameter of the sealing ring 122 is larger than the inner diameter of the pressure barrel 110, so that the sealing ring 122 is tightly attached to the pressure barrel 110, and meanwhile, the top surface of the sealing ring 122 is covered by the pressure plate 120, so that the sealing ring 122 is prevented from slipping when the pressure plate 120 pressurizes the medicinal material mixed liquid, and the sealing of the contact position of the pressure plate 120 and the pressure barrel 110 is also ensured. The top surface of the pressure plate 120 is fixed with a toothed ring 121 concentric with the pressure plate, and the conical teeth are arranged upward, the output shaft of the servo motor 130 is perpendicular to the axial direction of the pressure pipe 140 and is coaxially connected with a transmission gear 131 meshed with the toothed ring 121, a suspension rod 132 fixedly connected with the pressure pipe 140 is sleeved above the pair of servo motors 130, a circular pipe and a circular pipe are welded in the middle of the suspension rod 132 and are sleeved with the pressure pipe 140 and are fixedly connected through bolts, and stable suspension work of the servo motor 130 is guaranteed.

Furthermore, a lifting hole 123 which is inserted into the pressure pipe 140 and has an i-shaped cross section is formed in the central shaft of the pressure plate 120, so that a limit structure is formed, a pressure applying block 142 and a support block 143 are respectively welded at the outer side of the bottom of the pressure pipe 140 and at the upper and lower sections of the lifting hole 123, the pressure applying block 142 is of a truncated cone structure, so that the pressure resistance of the pressure applying block is increased, the pressure applying block 142 is ensured to apply pressure to the pressure plate 120, the support block 143 is used for supporting the pressure plate 120 to rise, a rubber pad is bonded to the top surface of the support block 143, and liquid in the barrel is prevented from permeating from the lifting hole 123 when the pressure plate 120 is pressurized. The buffering pressure spring 124 is placed in the upper section of the hanging hole 123, so that the pressurizing block 142 presses the pressurizing plate 120 against the buffering pressure spring 124, the pressurizing plate 120 is gradually pressurized to extrude the medicinal material mixed liquid, and pressure damage to the pressurizing plate 120 is avoided. In addition, a sleeve sleeved with the pressurizing pipe 140 is welded above the middle of the top surface of the pressurizing plate 120 and can rotate, and when the pressurizing pipe 140 descends, the middle of the top surface of the pressurizing plate 120 can be pressed by the sleeve for one circle, so that the pressure of the lifting hole 123 is shared, and the whole pressurizing plate 120 is guaranteed to be pressed horizontally.

Specifically, the bottom surface of increased pressure board 120 is annular and radial equidistant grafting has a plurality of stirring posts 125, and the vertical extension of stirring post 125, the radial outside welding of stirring post 125 have a plurality of puddlers 126 to increase stirring range, do benefit to the rapid mixing medicinal material and mix the liquid. The bottom of the pressurizing barrel 110 is a conical bottom and is sleeved with a guard ring 112, the guard ring 112 is used for covering the lower half part of the pressurizing barrel 110, the roundness is kept when the pressurizing barrel 110 is subjected to the counter pressure of the mixed liquid, and the pressure resistance of the pressurizing barrel is increased. Wherein the lengths of the stirring pillars 125 located in the middle of the pressurizing plate 120 are greater than the lengths of the stirring pillars 125 located at the edge of the pressurizing plate 120, because the bottom of the pressurizing barrel 110 has a conical bottom structure, the stirring pillars 125 at different positions are matched in size according to the height of the barrel bottom. A feeding nozzle 111 is formed at one side of the top of the pressurizing barrel 110 for injecting water and adding all the medicinal materials therefrom, and they can be added into the bottom of the pressurizing barrel 110 by simply lifting the pressurizing plate 120 above the feeding nozzle 111.

Furthermore, the suspension 150 is triangular, the bottom surfaces of the other two ends of the suspension are welded with threaded columns 160 which are coaxial with the pressure pipe 140, the middle part of each threaded column 160 is in threaded connection with a fixed gear 170, the inner side of each fixed gear 170 is provided with threads, and the triangular structure of the suspension 150 enables the pressure pipe 140 and the pair of threaded columns 160 to be lifted and pressed more stably. The radial horizontal one side meshing of fixed gear 170 has driving gear 180, and the below coaxial coupling of driving gear 180 has positive reverse motor 190, and the lower half section outside cover of screw thread post 160 is equipped with stay tube 161, and stay tube 161 passes through bolt fixed connection with ground, and the welding of the radial one side in top of stay tube 161 has annular platform and the cooperation of closely cup jointing of positive reverse motor 190 bottom for positive reverse motor 190 is unsettled steady operation. The top end of the supporting tube 161 is provided with a counter bore 162, and the bottom surface of the fixed gear 170 is welded with a bearing 171 tightly sleeved with the counter bore 162, so that the fixed gear 170 can rotate in a constant position, and the threaded column 160 can move up and down along the axial direction.

Besides, a partition plate 204 is welded in the top of the packaging can 210 along the axial direction thereof, the partition plate 204 is in a rectangular plate-shaped structure, the periphery of the partition plate 204 is welded with the inner wall of the packaging can 210 for sealing, the upper space of the partition plate 204, which is close to one end of the pressurizing barrel 110, is divided into a negative pressure cavity 205 and a material storage cavity 206, namely, two partition plates are welded in the middle of the partition plate 204 and in a half space of the pressurizing barrel 110 for forming, a socket 141 is formed on one radial side of the top of the pressurizing tube 140, one end of the suction tube 230 is inserted into the socket 141 and extends to the bottom port of the pressurizing tube 140, and the other end of the suction tube 230 penetrates into the negative pressure cavity 205, so that the suction tube 230 extends into the bottom of the pressurizing barrel 110 for sucking and draining a glue solution formed after mixing of medicinal materials into the negative pressure cavity 205. The bottom mouth inner wall of pressure tube 140 is equipped with the bulge loop, and the bottom of suction tube 230 has closely cup jointed a sealing 231, and the top surface of sealing 231 is equipped with the pipe and the pipe outside is the annular and has seted up a plurality of material mouths 232 of inhaling, and sealing 231 pegs graft with pressure tube 140, and the pipe and the bulge loop of sealing 231 top surface peg graft, and the top surface bonding of sealing 231 has the rubber circle for the contact surface of sealing bulge loop and sealing 231 avoids in the glue solution infiltration pressure tube 140. The servo electric cylinder 240 for driving the horizontal segment of the suction pipe 230 to extend and retract is installed on one side of the top of the packaging can 210, and the suction pipe 230 needs to cooperate with the pressure pipe 140 or extend or retract as the pressure pipe 140 needs to drive the pressure plate 120 to lift and lower.

Specifically, the top of the package can 210 and the upper side of the negative pressure chamber 205 are communicated with an exhaust port 201, an output shaft of the exhaust motor 220 is disposed on a central shaft of the exhaust port 201 and is tightly sleeved with the fan blades 221, the exhaust motor 220 drives the fan blades 221 to rotate to exhaust air in the negative pressure chamber 205 and exhaust the air from the exhaust port 201, the exhaust motor 220 is fixedly connected with an annular cover at the top port of the exhaust port 201 through bolts, the annular cover is annularly provided with a plurality of exhaust holes 2201 for exhausting air in the negative pressure chamber 205 to form negative pressure in the negative pressure chamber, and glue in the pressurizing barrel 110 is sucked into the negative pressure chamber 205 through the suction pipe 230. A filter pad 222 is fastened to the bottom port of the exhaust port 201, and the filter pad 222 includes an activated carbon layer and a silk floss layer, which are air permeable and are used to prevent glue solution from flowing through the exhaust port 201.

Further, a cleaning port 202 is arranged at the top of the packaging can 210 and is communicated directly above the negative pressure cavity 205 and the storage cavity 206, so that the interiors of the negative pressure cavity 205 and the storage cavity 206 can be cleaned from the cleaning port 202. The top of clearance mouth 202 articulates there is closing cap 203 for sealed storage cavity 206, and the bottom surface bonding of closing cap 203 has the rubber pad, and the other end top surface of closing cap 203 hinged end is equipped with the drum, and clearance mouth 202 both sides are equipped with the ring rather than the corresponding position, pegs graft ring and drum through the major axis for closing cap 203 shutoff clearance mouth 202. The bottom surface of the storage cavity 206 is provided with a rectangular discharge hole 207, the discharge hole 207 is rotatably connected with a sealing plate 208 which can only turn downwards, the middle part of a partition plate between the negative pressure cavity 205 and the storage cavity 206 is provided with a plurality of through holes in a biased manner and is used for percolating glue in the negative pressure cavity 205 into the storage cavity 206, and the top surface of the partition plate 204 and the two side ends of the discharge hole 207 are fixedly connected with square blocks through bolts and are used for preventing the sealing plate 208 from turning upwards by suction force transmitted from the negative pressure cavity 205. After the exhaust motor 220 stops working, the sealing plate 208 automatically opens the discharge opening 207 due to heavy downward turning, so that the glue solution seeping into the storage cavity 206 falls into the packaging tank 210 from the discharge opening 207, and is pushed and discharged by the axially moving conveying plate 250.

Specifically, the conveying plate 250 is of a round block structure, the top of the conveying plate is a plane, the conveying plate is attached to the bottom surface of the separation plate 204 in a sliding mode, a transmission screw rod 261 is in threaded connection with a central shaft of the conveying plate 250, one end of the transmission screw rod 261 penetrates through the central shaft end of the packaging tank 210 and is coaxially connected with the conveying motor 260, the other end of the transmission screw rod 261 is embedded in the center of the packaging tank 210 close to one end of the pressurization barrel 110, the top of the conveying plate 250 slides relative to the separation plate 204 to form a limiting structure, rotation of the conveying plate 250 is avoided, and the conveying plate is driven to move linearly along the axial direction of the conveying screw rod 261 when rotating. The lower half part of the end, far away from the pressurizing barrel 110, of the packaging tank 210 is convexly provided with the discharging nozzle 209, one side of the bottom of the conveying plate 250 is welded with the pressing nozzle 251, the size of the front end of the discharging nozzle 209 is reduced and communicated with a plurality of through pipes, and the pressing nozzle 251 and the discharging nozzle 209 are matched in size and clamped, so that glue is extruded and discharged smoothly. Wherein siphunculus and filling pipe 270 closely cup joint, and the ball valve is installed to one side of filling pipe 270 for its inside break-make of control is so that change the medicine bottle and smoothly fill the glue solution.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A preparation process of a deep soothing and repairing gel is characterized by comprising the following steps: the method comprises the following steps:

s2, pouring the medicinal materials in the S1 into a pressurizing barrel (110), and adding a proper amount of water;

s3, a forward and reverse rotation motor (190) is started to rotate forward to drive the pressurizing pipe (140) to drive the pressurizing plate (120) to descend synchronously, and then the pressurizing plate is contacted with the water surface to pressurize for 5 MPa and keeps pressurizing for 30 minutes;

s4, the forward and reverse rotation motor (190) is started again to rotate reversely to drive the pressurizing plate (120) to move upwards for a section so as to relieve the pressurizing;

s5, starting a servo motor (130) to drive a pressurizing plate (120) to drive a plurality of stirring columns (125) at the bottom of the pressurizing plate to synchronously rotate, and further stirring and crushing the mixed medicinal materials to form glue solution;

s6, restarting the servo electric cylinder (240) to drive the bottom end of the suction pipe (230) to descend to the bottom surface of the pressurizing barrel (110);

s7, restarting an exhaust motor (220) to drive a fan blade (221) to rotate so as to pump air in the negative pressure cavity (205), and further forming a negative pressure environment to pump glue solution;

s8, stopping the work of the exhaust motor (220) after the glue solution in the pressurizing barrel (110) is pumped, and allowing the glue solution to flow into the packaging tank (210) automatically;

s9, starting a conveying motor (260) to drive a conveying plate (250) to push the glue solution to move to a discharging nozzle (209);

s10, placing the medicine bottle below a filling pipe (270) of the discharging nozzle (209) and filling glue solution;

the gel preparation device in the process comprises a gel preparation device (100) for dispersing pressurized medicinal materials and a packaging and conveying device (200) for hermetically sucking and conveying gel liquid, wherein the gel preparation device (100) comprises a pressurizing barrel (110), a pressurizing plate (120) which can be lifted and rotated in the pressurizing barrel (110), a pressurizing pipe (140) for driving the pressurizing plate (120) to lift and a servo motor (130) which is positioned on two radial sides of the pressurizing pipe (140) and is suspended for driving the pressurizing plate (120) to rotate by taking a central shaft of the pressurizing pipe (140) as an axis, the pressurizing plate (120) is spliced with the pressurizing barrel (110) and can slide along the axial direction of the pressurizing pipe, a suspension (150) for driving the pressurizing pipe (140) to lift is installed at the top end of the pressurizing pipe (140), and the packaging and conveying device (200) comprises a packaging tank (210) which is positioned on one radial side of the top of the pressurizing barrel (110) and is transversely positioned in the axial direction, The packaging tank (210) is close to the exhaust motor (220) arranged at the top of one end of the pressurizing barrel (110), the suction pipe (230) used for communicating the packaging tank (210) with the pressurizing barrel (110), the conveying plate (250) sliding along the axial direction inside the packaging tank (210) and the filling pipes (270) arranged at the bottom of the other end of the packaging tank (210).

2. The process for preparing a deep soothing repair gel according to claim 1, wherein: the lower half section in the outside of increased pressure board (120) inlays and is equipped with sealing washer (122), the top surface of increased pressure board (120) is fixed with ring gear (121) rather than the centre of a circle, the output shaft of servo motor (130) is perpendicular and coaxial coupling with the axial of forcing pipe (140) has drive gear (131) with ring gear (121) meshing, and is a pair of cantilever bar (132) with forcing pipe (140) fixed connection are cup jointed to the top of servo motor (130).

3. The process for preparing a deep soothing repair gel according to claim 1, wherein: the center pin of increased pressure board (120) is seted up on the center pin and is pegged graft and be personally submitted the I-shaped lewis hole (123) with increased pressure pipe (140), the bottom outside of increased pressure pipe (140) and the upper and lower section department that is located lewis hole (123) have welded respectively and have added briquetting (142) and tray (143), buffering pressure spring (124) have been placed in the upper segment of lewis hole (123).

4. The process for preparing a deep soothing repair gel according to claim 1, wherein: the bottom surface of increased pressure board (120) is annular and radial equidistant grafting has a plurality of stirring post (125), the radial outside welding of stirring post (125) has a plurality of puddlers (126), and wherein a plurality of stirring post (125) length that are located increased pressure board (120) middle part are greater than a plurality of stirring post (125) length that are located increased pressure board (120) edge, charging nozzle (111) have been seted up to top one side of pressurization bucket (110), the bottom of pressurization bucket (110) is the conical bottom and overlaps and be equipped with protective shroud (112).

5. The process for preparing a deep soothing repair gel according to claim 1, wherein: the suspension (150) is triangular, threaded columns (160) which are coaxial with the pressurizing pipes (140) are welded on the bottom surfaces of the other two ends of the suspension, a fixed gear (170) is connected to the middle of each threaded column (160) in a threaded mode, a driving gear (180) is meshed on one side of the fixed gear (170) in the radial horizontal direction, a forward and reverse rotating motor (190) is coaxially connected to the lower portion of the driving gear (180), a supporting pipe (161) is sleeved on the outer side of the lower half section of each threaded column (160), a counter bore (162) is formed in the top end of each supporting pipe (161), and a bearing (171) tightly sleeved with the counter bore (162) is welded on the bottom surface of each fixed gear (170).

6. The process for preparing a deep soothing repair gel according to claim 1, wherein: just there is division board (204) along its axial welding in the top of encapsulation jar (210), division board (204) are close to the top space of pressurization bucket (110) one end and are divided into negative pressure chamber (205) and storage cavity (206), socket (141) have been seted up to the radial one side in top of forcing pipe (140), the one end of suction tube (230) is inserted socket (141) and is extended the bottom mouth department of forcing pipe (140), the other end of suction tube (230) runs through to in negative pressure chamber (205), the bottom of suction tube (230) has closely cup jointed sealing block (231), the top surface of sealing block (231) is equipped with the pipe and the pipe outside and has seted up a plurality of material mouths (232) of inhaling in the annular, install on one side of the top of encapsulation jar (210) and be used for driving the flexible electronic cylinder (240) of suction tube (230) horizontal segment.

7. The process for preparing a deep soothing repair gel according to claim 6, wherein: the top of encapsulation jar (210) just is located the top intercommunication in negative pressure chamber (205) and is equipped with gas vent (201), the output shaft of exhaust motor (220) is arranged in on gas vent (201) center pin and is closely cup jointed fan blade (221), the bottom mouth joint of gas vent (201) has filter pad (222), filter pad (222) include activated carbon layer and silk floss layer.

8. The process for preparing a deep soothing repair gel according to claim 7, wherein: the top of encapsulation jar (210) just is located directly over intercommunication between negative pressure chamber (205) and storage cavity (206) and is equipped with clearance mouth (202), the top of clearance mouth (202) articulates there is closing cap (203), be rectangular bin outlet (207) have been seted up to the bottom surface of storage cavity (206), closing plate (208) that the rotation is connected with in bin outlet (207) and turn over down only, a plurality of through-holes have been seted up on the upper side in the middle part of the baffle between negative pressure chamber (205) and storage cavity (206).

9. The process for preparing a deep soothing healing gel according to claim 8, wherein: the conveying plate (250) is of a round block structure, the top of the conveying plate is a plane and is attached to the bottom surface of the separation plate (204) in a sliding mode, a transmission screw rod (261) is connected to the center shaft of the conveying plate (250) in a threaded mode, one end of the transmission screw rod (261) penetrates through the center shaft end of the packaging tank (210) and is coaxially connected with a conveying motor (260), a discharging nozzle (209) is arranged on the lower half portion, away from one end of the pressurizing barrel (110), of the packaging tank (210) in a protruding mode, and a material pressing nozzle (251) is welded on one side of the bottom of the conveying plate (250).