CN113520871A - Pretreatment equipment for processing and producing external plaster for traumatic injury - Google Patents

Abstract

The invention relates to a pretreatment device for processing and producing an external plaster for traumatic injury, which comprises a decocting box and a heater, and also comprises: the receiving mechanism comprises a storage component, a stirring component, a first driving component and a second driving component; the distinguishing mechanism comprises a partition plate and a leakage-proof assembly; the flow guide mechanism comprises a transmission assembly and a transmission assembly; the guiding and conveying mechanism comprises a feeding assembly, a regulating assembly and an adjusting assembly for controlling discontinuous discharging at the bottom of the stewing box; the invention solves the technical problems that the decocted plaster needs to be poured out from a decocting container and is manually subpackaged on plaster linings one by one to finally complete the plaster preparation work, and the manual operation has low efficiency, poor quality and complicated process.

Description

Pretreatment equipment for processing and producing external plaster for traumatic injury

Technical Field

The invention relates to the technical field of plaster, in particular to pretreatment equipment for processing and producing an external plaster for traumatic injury.

Background

Most of the existing medicines are oral preparations, and oral medicines are absorbed by small intestines after being digested by stomach and metabolized by liver. But the drug effect is greatly reduced after the drug is detoxified by the liver and damaged by gastric acid and digestive enzyme; moreover, some oral medicines can generate great stimulation to the stomach, and are not easy to be taken by patients with stomach diseases; some components of some medicines are accumulated in the body and are not easy to be discharged, and the health of the human body is damaged after long-term administration. According to the related data report, the American medical community considers that one third of the existing medicines can be transdermally absorbed in 10-15 years later, and the transdermal drug delivery system has the advantages of removing the first pass effect of the liver, avoiding the stimulation of the chemical and biological effects of the medicines to the gastrointestinal tract, reducing the adverse reaction of the human body to the medicines and the damage of the medicines to the gastrointestinal tract, the liver and the like, being convenient for the patient to use, and being capable of stopping the medicine taking in time when the problem or the uncomfortable reaction occurs in the medicine taking of the patient. Various plasters which are commonly used at present are transdermal absorption medicines, and more commonly used are rubber plasters, black plasters and the like.

Patent document No. CN00610020118.6 discloses a thin black plaster, which comprises a backing material layer and a plaster layer attached thereon, wherein the thickness of the plaster layer is 0.1-0.9 mm; the invention relates to a method for thinning black plaster, which comprises the following steps: 1) preparing the decocted paste into paste blanks; 2) pressing the obtained paste blank into a sheet shape while heating, and keeping the thickness of the paste blank between 0.1 mm and 0.9 mm; 3) the formed flaky black plaster is cut, formed and packaged to obtain a finished product. The black plaster thinning equipment comprises a conveying device, wherein a temperature control tabletting device for heating and thinning the plaster is arranged at the front end of the conveying device, a blank forming device for punching the evenly-laminated plaster into a circular sheet is arranged behind the temperature control tabletting device, and a heating and thinning device capable of pressing the plaster blank into a sheet is arranged behind the blank forming device. The black plaster can be directly pasted on the affected part without heating, and can be repeatedly torn off and pasted.

However, in the actual use process, the inventor finds that all the decocted plaster needs to be poured out from the decocting container, and the plaster needs to be manually subpackaged on plaster linings one by one to finally complete the plaster preparation work.

Disclosure of Invention

Aiming at the defects of the prior art, the plaster is decocted and mixed twice by arranging the guide mechanism, waste gas generated during plaster mixing and decocting is extracted for heat preservation of the outer wall of the decocting box, and partial condensation caused by overlong time when the plaster and cloth are compounded is avoided; meanwhile, the plaster is synchronously stirred by utilizing the transmission work of waste gas, the effect of discharging while stirring is realized, and the later-stage mud flat effect and the uniformity are improved, so that the technical problems that the decocted plaster needs to be poured out from a decocting container, and the plaster can be prepared finally by manually subpackaging the decocted plaster onto plaster lining cloth are solved.

Aiming at the technical problems, the technical scheme is as follows: the utility model provides a traumatic injury external plaster processing pretreatment equipment for production, includes system case and be used for right the system case carries out the heater that heats, still includes:

the receiving mechanism is arranged on the boiling box and ascends and descends along the vertical direction of the boiling box, and comprises a storage component, a stirring component, a first driving component and a second driving component, wherein the storage component is positioned in the boiling box, the stirring component is used for scattering medicinal materials in the storage component, the first driving component is arranged outside the boiling box and is used for driving the storage component to ascend and descend, and the second driving component is used for driving the storage component to rotate;

the distinguishing mechanism is arranged in the interior of the boiling box and comprises a partition plate and a leakage-proof assembly which is in synchronous transmission with the first driving assembly and is used for being matched with the partition plate to work in a sealing mode;

the flow guide mechanism comprises two groups of transmission assemblies which are respectively positioned above and below the distinguishing mechanism and transmission assemblies which are synchronously transmitted with the first driving assembly and are used for driving the transmission assemblies to work up and down; and

and the guide mechanism comprises a feeding assembly and a sleeve which are arranged at the lower end of the boiling box, and an adjusting assembly which is arranged outside the boiling box and used for adjusting and controlling the constant-temperature operation in the boiling box and controlling the intermittent discharging at the bottom of the boiling box.

Preferably, the placement assembly includes:

the filter cartridge is provided with a plurality of groups of water outlet holes, and the partition plate is provided with material penetrating holes matched with the filter cartridge;

the adjusting cylinder is embedded in the filter cylinder and is attached to the inner wall of the filter cylinder;

one end of the telescopic unit a is fixedly connected with the adjusting cylinder, and the other end of the telescopic unit a is fixedly connected with the upper end of the filter cylinder;

the bulge part a is fixedly arranged on the filter cylinder;

the convex part b is sleeved outside the adjusting cylinder and is in discontinuous contact with the convex part a; and

and the bulge part c is fixedly arranged on the inner wall of the boiling box through a horizontally arranged telescopic unit c, and the bulge part c and the bulge part b are in discontinuous contact arrangement.

Preferably, the stirring assembly includes:

the gear ring is sleeved outside the filter cylinder and is of a half-tooth structure;

the support rod is in lap joint with the upper end of the adjusting cylinder, and the center of the support rod is fixedly arranged on the upper end wall of the center of the boiling box through a telescopic unit g;

the upper end of the telescopic spring is fixedly connected with the middle part of the supporting rod and is vertically and downwards arranged;

the first connecting rod is fixedly connected with the telescopic spring, and a cylindrical block is arranged at the end part of the first connecting rod;

the driving rack is meshed with the gear ring and is fixedly arranged on the inner wall of the boiling box through a telescopic unit d; and

the second connecting rod is fixedly connected with the driving rack, a jacking block a matched with the cylindrical block is arranged at the lower end of the second connecting rod of the stirring assembly and arranged above the second connecting rod, and a jacking block b matched with the cylindrical block is arranged at the upper end of the second connecting rod and arranged below the second connecting rod.

Preferably, the first drive assembly comprises a third connecting column fixedly connected with the filter cartridge; the third connecting column drives the third connecting column to work in a lifting mode through a gear and rack transmission mode by using a second driving motor;

the second drive assembly is including installing boil system case upper end and its output fixed connection are provided with first drive gear's first driving motor, rotate the setting and be in boil system case upper end and with the second drive gear that first driving motor meshing set up, the third spliced pole matches through the cross ring and slides the setting and is in the cross recess seted up on the second drive gear.

Preferably, the leakage-proof assemblies are arranged in two groups, and each leakage-proof assembly comprises a linkage piece which is in linkage with the first driving assembly and a folding piece which is arranged on the boiling box in a sliding manner;

the linkage piece comprises a first transmission rack fixedly connected with the third connecting column, a first transmission gear meshed with the first transmission rack and positioned outside the boiling box, a second transmission gear synchronously transmitted with the first transmission gear, a second transmission rack horizontally arranged and meshed with the second transmission gear, and a third transmission rack fixedly connected with the third connecting column and arranged opposite to teeth of the first transmission rack, wherein the second transmission rack penetrates through the boiling box;

the folding piece comprises a sliding plate, a telescopic unit e and a rubber strip, wherein the sliding plate is arranged on the inner wall of the boiling box in a sliding mode, one end of the telescopic unit e is fixedly connected with the sliding plate, the other end of the telescopic unit e is fixedly connected with the inner wall of the boiling box, the rubber strip is arranged at the end portion of the sliding plate, and the second transmission rack is fixedly connected with the telescopic unit e.

Preferably, the transmission assembly comprises a base, a telescopic unit f vertically arranged at the lower end of the base, a push plate fixedly connected with the lower end of the telescopic unit f and a transmission cavity pipe, and the push plate is attached to the outer wall of the transmission cavity pipe;

one end of the transmission cavity pipe is communicated with a water inlet formed in the filter cylinder in an interrupted manner, and an extending part at the lower end is fixedly connected with the bottom of the decocting tank;

and a fourth transmission rack is vertically arranged on the push plate, a fourth transmission gear is rotatably arranged on the inner wall of the boiling box through a first transmission shaft, and the fourth transmission gear is meshed with the fourth transmission rack.

Preferably, the transmission assembly comprises a first bevel gear which is coaxially arranged with the second driving gear and fixedly connected with the second driving gear, a second bevel gear which is meshed with the first bevel gear, and a second transmission shaft which is coaxial with the second bevel gear and synchronously transmits, wherein the first transmission shaft is in transmission connection with the second transmission shaft through a belt.

Preferably, the regulatory component comprises:

the heating bin is attached to the outer wall of the boiling box;

the mounting bin is attached to the discharge barrel at the lower end of the boiling box, and the discharge barrel is in a rectangular column structure;

one end of the first connecting pipe is communicated with the inner wall of the boiling box, and the other end of the first connecting pipe is communicated with the mounting bin;

one end of the second connecting pipe is communicated with the mounting bin, the other end of the second connecting pipe is communicated with the heating bin, and a one-way valve is arranged on the second connecting pipe;

the pressurizing piece comprises a lifting plate, one end of the lifting plate is fixedly connected with the upper end of the lifting plate, the other end of the lifting plate is fixedly connected with the upper end of the heating bin, the other end of the lifting plate is fixedly connected with the upper top of the heating bin, and a driving piece is used for driving the telescopic unit g to drive in the vertical direction, and the driving piece adopts a gear and rack transmission mode.

Preferably, the adjustment assembly comprises:

the stirring piece comprises a discharge barrel, a bearing seat arranged in the mounting bin in a rotating mode, a driving shaft coaxial with and fixedly connected with the bearing seat, a stirring screw rod positioned in the discharge barrel and fixedly connected with one end of the driving shaft, and a swinging blade positioned in the mounting bin and fixedly connected with the other end of the driving shaft;

the barrier piece, the barrier piece include with driving piece transmission end fixed connection's fifth transmission rack, with the fifth drive gear that the meshing of fifth transmission rack set up, with the coaxial setting of fifth drive gear and for the sixth drive gear, the level setting of half tooth structure setting and with the sixth transmission rack of sixth drive gear meshing, with sixth transmission rack fixed connection and with the baffle that the laminating of blown down tank lower extreme set up and be used for carrying out spacing fender seat to the baffle, the baffle is through flexible unit h fixed mounting on the support.

Preferably, the feeding assembly comprises a transmission belt, a plurality of groups of limit seats arranged on the transmission belt at equal intervals and a first driven member for driving the transmission belt to perform discontinuous transmission;

the first driven piece comprises a seventh transmission rack which is fixedly connected with the telescopic unit h and is in a one-way gear structure, and a seventh transmission gear which is meshed with the seventh transmission rack and is used for driving the transmission belt to perform discontinuous transmission.

The invention has the beneficial effects that:

(1) according to the invention, the guiding and conveying mechanism is arranged to be matched with twice mixed and decocted plasters, and waste gas generated during plaster mixing and decocting is used for extracting heat insulation work for the outer wall of the decocting box, so that the phenomenon of partial condensation caused by overlong time when the plasters and the cloth are compounded is avoided; meanwhile, the output plaster is synchronously stirred by utilizing the transmission work of waste gas, so that the effects of uniformly stirring and discharging are realized, and the later mud flat effect and the uniformity are improved;

(2) according to the invention, the material receiving mechanism is matched with the distinguishing mechanism, so that the medicine is placed in the material receiving mechanism for decoction, the medicine is transmitted to the upper layer for decoction after the lower layer completes decoction, and the medicines completing decoction twice are finally mixed, so that on one hand, the effective components in the traditional Chinese medicine can be fully extracted by twice decoction, and further good medicine effect can be achieved; on the other hand, the two times of decoction work are finished in one pot, the temperature control of the decoction work of the upper layer is finished by utilizing the finished product of the decoction work of the lower layer, and the temperature of the second time of decoction work is slightly lower than that of the first time of decoction work due to the reduction of the concentration of the medicine, so that the effect is ineffective and the quality is reduced;

(3) according to the invention, the guide mechanism is matched with the material receiving mechanism, so that on one hand, when the decocted plaster works, the decocted medicine is extruded into the material receiving mechanism and repeatedly contacted and decocted with raw materials, the decocting effect is improved, and meanwhile, the mixing degree of the plaster is also improved by the up-and-down lifting work; on the other hand, the plaster contacted with the inner wall of the decocting box is prevented from being easily cooled, condensed and adhered to the wall of the decocting box, the self-cleaning degree is high, and the utilization rate of raw materials is fully improved;

(4) according to the invention, the regulation and control component is matched with the regulation and control component, so that on one hand, waste gas in the decocting box is discharged in time, and the phenomenon that the waste gas is liquefied and enters the decocted medicine again to influence the quality of the plaster due to no heating and too long time during discharging is avoided; on the other hand, the heat of the waste gas is fully utilized and stored, and is used for preserving the heat of the outer wall of the boiling box, so that the speed of reducing the temperature in the boiling box is reduced, and meanwhile; the waste gas in the transmission is used for driving the stirring piece to stir the output plaster, and the plaster is discharged while being stirred.

In conclusion, the equipment has the advantages of simple structure and automatic loading, and is particularly suitable for the technical field of plaster.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings described below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of pretreatment equipment for processing and producing an external plaster for traumatic injury.

Fig. 2 is an enlarged partial schematic view at a of fig. 1.

Fig. 3 is a schematic front view of the pretreatment equipment for processing and producing the external plaster for traumatic injury.

Fig. 4 is a schematic structural view of the guiding mechanism.

Fig. 5 is a schematic structural view of the adjustment assembly.

Fig. 6 is a first schematic diagram of the transmission operation of the adjusting assembly.

Fig. 7 is a second transmission operation diagram of the adjusting assembly.

Fig. 8 is a first schematic structural view of the placement module.

Fig. 9 is a second schematic structural view of the placement module.

Fig. 10 is a third schematic structural view of the placement assembly.

Fig. 11 is a schematic structural view of the stirring assembly.

Fig. 12 is a first schematic diagram of the transmission operation of the stirring assembly.

Fig. 13 is a second schematic diagram of the transmission operation of the stirring assembly.

Fig. 14 is a front view of the first drive assembly and the second drive assembly.

Fig. 15 is a first transmission operation diagram of the distinguishing mechanism.

Fig. 16 is a first transmission operation diagram of the flow guide mechanism.

Fig. 17 is a partially enlarged schematic view at B of fig. 16.

Fig. 18 is a transmission operation diagram of the flow guide mechanism.

Detailed Description

The technical scheme in the embodiment of the invention is clearly and completely explained by combining the attached drawings.

Example one

As shown in fig. 1, a pretreatment device for processing and producing an external plaster for traumatic injury, which comprises a decocting box 1 and a heater for heating the decocting box 1, and further comprises:

the receiving mechanism 2 is arranged on the decocting box 1 and ascends and descends along the vertical direction of the decocting box 1, and comprises a storage component 21 positioned in the decocting box 1, a stirring component 22 used for scattering medicinal materials in the storage component 21, a first driving component 23 arranged outside the decocting box 1 and used for driving the storage component 21 to ascend and descend and a second driving component 24 used for driving the storage component 21 to rotate;

the distinguishing mechanism 3 is arranged in the middle of the decocting box 1, and comprises a partition plate 31 and a leakage-proof component 32 which is in synchronous transmission with the first driving component 23 and is used for being matched with the partition plate 31 to work in a sealing mode;

the flow guide mechanism 4 comprises two groups of transmission assemblies 41 which are respectively positioned above and below the distinguishing mechanism 3 and a transmission assembly 42 which is in synchronous transmission with the first driving assembly 23 and is used for driving the transmission assemblies 41 to work up and down; and

and the guiding and conveying mechanism 5 comprises a feeding assembly 51 arranged at the lower end of the decocting box 1, a regulating and controlling assembly 52 sleeved outside the decocting box 1 and used for carrying out constant-temperature work on the interior of the decocting box 1, and an adjusting assembly 53 for controlling intermittent discharging at the bottom of the decocting box 1.

In the embodiment, the guiding and conveying mechanism 5 is arranged to be matched with twice mixed and decocted plasters, waste gas produced during plaster mixing and decocting is used for extracting heat preservation work for the outer wall of the decocting box 1, and the phenomenon that partial condensation occurs due to overlong time when the plasters and cloth are subjected to composite work is avoided; meanwhile, the plaster output is synchronously stirred by utilizing the transmission work of waste gas, the effects of uniformly stirring and discharging are realized, and the later beach effect and the uniformity are improved.

Secondly, the material receiving mechanism 2 is matched with the distinguishing mechanism 3, the medicine is placed in the material receiving mechanism 2 for medicine decocting work, the medicine is transmitted to the upper layer for medicine decocting work after the medicine decocting work is completed on the lower layer, and finally the medicines completing the medicine decocting work twice are mixed, so that the effective ingredients in the traditional Chinese medicine can be fully extracted by the secondary decocting, and good medicine effect can be achieved; on the other hand, twice decoction operations are completed in a pot, the temperature control of the decoction operations of the upper layer is completed by utilizing the finished product of the decoction operations of the lower layer, and the temperature of the second decoction operation is slightly lower than that of the first decoction operation due to the reduction of the concentration of the medicine, so that the medicine effect is ineffective and the product quality is reduced due to the fact that the temperature is too high.

Thirdly, the guide mechanism 4 is arranged to be matched with the material receiving mechanism 2, so that when the decocted plaster works, the decocted medicine is extruded into the material receiving mechanism 2 to be repeatedly contacted and decocted with the raw materials, the decocting effect is improved, and meanwhile, the mixing degree of the plaster is improved due to the up-and-down lifting work; on the other hand, the plaster which is prevented from contacting the inner wall of the boiling box 1 is easy to cool, and is condensed and adhered to the wall of the boiling box 1, so that the utilization rate of raw materials is fully improved while the self-cleaning degree is high.

It should be noted that, twice decocting of the plaster is performed in an upper-lower layer manner, on one hand, twice decocting is performed in one decocting box 1, so that the heat of twice decocting of the plaster can be complemented without occupying space, and the production cost is reduced; in addition, the twice decocted plaster on the upper layer is quickly flushed into the once decocted plaster on the lower layer, and the huge impact force generated when the twice decocted plaster and the once decocted plaster are fused is utilized, so that the heat is quickly fleed, and the quick output of toxic gas is facilitated.

Further, as shown in fig. 9 to 10, the storage module 21 includes:

a filter cylinder 211, wherein a plurality of groups of water outlet holes 212 are formed on the filter cylinder 211, and a material passing hole 213 matched with the filter cylinder 211 is formed on the partition plate 31;

the adjusting cylinder 214 is embedded in the filter cylinder 211 and is attached to the inner wall of the filter cylinder 211;

a telescopic unit a215, one end of the telescopic unit a215 is fixedly connected with the adjusting cylinder 214, and the other end of the telescopic unit a215 is fixedly connected with the upper end of the filter cylinder 211;

a boss a216, wherein the boss a216 is fixedly arranged on the filter cartridge 211;

the convex part b217 is sleeved outside the adjusting cylinder 214, and the convex part b217 is in discontinuous contact with the convex part a 216; and

the convex part c218 is fixedly arranged on the inner wall of the stewing box 1 through a horizontally arranged telescopic unit c219, and the convex part c218 and the convex part b217 are arranged in an intermittent contact manner.

In this embodiment, put thing subassembly 21 through the setting for strain a section of thick bamboo 211's apopore 212 is at the lift in-process, the size change adjustment of apopore 212, and then carry out first system plaster during operation of stewing, apopore 212 is great, do benefit to system thick plaster, otherwise, carry out the second and system plaster during operation, apopore 212 is less, do benefit to and decoct rare plaster, it is great to avoid the bore, the raw and other materials of being chewed up are difficult for throwing away from apopore 212, and then lead to the waste residue to be difficult to select, influence the purity of plaster.

In detail, the filter cartridge 211 is positioned in the lower decocting box 1 for decocting, when the water outlet hole 212 on the filter cartridge 211 is aligned with the water outlet hole b210 of the adjusting cylinder 214, the bulge part b217 is positioned at the upper end of the bulge part a216, and thick plaster is decocted at the moment; on the contrary, the filter cylinder 211 is positioned in the upper decocting box 1 for decocting, the adjusting cylinder 214 downwards covers part of the water outlet holes 212, so that the water outlet holes 212 become smaller, the bulge part b217 is positioned at the lower end of the bulge part a216, and at the moment, the diluted plaster is decocted.

Further, as shown in fig. 11 to 13, the stirring assembly 22 includes:

the gear ring 221 is sleeved outside the filter cylinder 211, and the gear ring 221 is of a half-tooth structure;

the support rod 222 is overlapped with the upper end of the adjusting cylinder 214, and the center of the support rod 222 is fixedly arranged on the upper end wall of the center of the boiling box 1 through a telescopic unit g 223;

the upper end of the telescopic spring 224 is fixedly connected with the middle part of the support rod 222 and is vertically arranged downwards;

a first connecting rod 225, wherein the first connecting rod 225 is fixedly connected with the telescopic spring 224 and is provided with a cylindrical block 226 at the end part;

a driving rack 227, wherein the driving rack 227 is meshed with the gear ring 221 and is fixedly arranged on the inner wall of the boiling box 1 through a telescopic unit d 228; and

and the second connecting rod 229 is fixedly connected with the driving rack 227, a top support block a22a matched with the cylindrical block 226 is arranged at the lower end of the second connecting rod 229 of the stirring assembly 22 arranged above, and a top support block b22b matched with the cylindrical block 226 is arranged at the upper end of the second connecting rod 229 arranged below.

In this embodiment, through setting up stirring subassembly 22 and cooperating pivoted thing subassembly 21 for strain a section of thick bamboo 211 in the rotation process, gear circle 221 drive rack 227 reciprocating motion, drive rack 227 utilizes second connecting rod 229 drive cylinder piece 226 to drive expanding spring 224 and reciprocate at the removal in-process, and then accomplishes the work of breaing up raw and other materials in straining a section of thick bamboo 211 at the removal in-process, improves the drug effect of stewing the plaster.

In detail, on one hand, the uniformity and the sufficiency of decocting the medicinal herbs are realized in the rotating process of the filter cartridge 211, when the filter cartridge 211 is at the lower layer, the filter cartridge 211 drives the gear ring 221 to synchronously rotate, the rotating gear ring 221 is meshed with the driving rack 227, at the moment, the top support block b22b on the second connecting rod 229 is matched with the lower end of the cylindrical block 226, the cylindrical block 226 drives the telescopic spring 224 to be lifted, and the lifted telescopic spring 224 stirs the raw materials in the filter cartridge 211, so that the decocting purity is improved and the medicinal effect is fully exerted; on the contrary, when the filter cartridge 211 is on the upper layer, the filter cartridge 211 drives the gear ring 221 to rotate synchronously, the rotating gear ring 221 is meshed with the driving rack 227, at this time, the top support block a22a on the second connecting rod 229 above is matched with the upper end of the cylindrical block 226, the cylindrical block 226 drives the expansion spring 224 to lift up, and the lifted expansion spring 224 stirs the raw materials in the filter cartridge 211, so that the decocting purity is improved, and the drug effect is fully exerted.

In addition, the telescopic spring 224 is provided with a reamer, after the filter cartridge 211 is positioned at the lower layer and the first plaster decocting work is completed, the filter cartridge 211 is lifted, the cylindrical block 226 is separated from the top support block b22b, at the moment, the filter cartridge 211 rotates, the telescopic spring 224 keeps static relative to the filter cartridge 211, and then raw materials in the filter cartridge 211 are smashed by the reamer work, so that the secondary decocting precision work is facilitated, and the drug effect is fully extracted.

Further, as shown in fig. 14, the first driving assembly 23 includes a third connecting column 231 fixedly connected to the filter cartridge 211; the third connecting column 231 drives the third connecting column 231 to lift and work in a gear and rack transmission mode through a second driving motor;

the second driving assembly 24 comprises a first driving motor 242 which is arranged at the upper end of the boiling box 1 and the output end of the boiling box is fixedly connected with a first driving gear 241, a second driving gear 243 which is rotatably arranged at the upper end of the boiling box 1 and is meshed with the first driving motor 242, and a third connecting column 231 is arranged in a cross groove 245 formed in the second driving gear 243 in a sliding mode through a cross ring 244 in a matching mode.

In this embodiment, through setting up first drive assembly 23 cooperation second drive assembly 24, and then realize straining a section of thick bamboo 211 and can also realize the circumference rotation work simultaneously at the lift in-process, gear and rack transmission drives third spliced pole 231 oscilaltion promptly, first driving motor 242 drives first drive gear 241 and rotates, first drive gear 241 of pivoted drives second drive gear 243 synchronous rotation, pivoted second drive gear 243 drives third spliced pole 231 synchronous rotation, and then utilize to strain the interior raw and other materials of section of thick bamboo 211 and boil the potency of during operation and fully exert.

Further, as shown in fig. 16 to 18, the transmission assembly 41 includes a base 411, a telescopic unit f412 vertically disposed at a lower end of the base 411, a push plate 413 fixedly connected to a lower end of the telescopic unit f412, and a transmission cavity tube 414, wherein the push plate 413 is attached to an outer wall of the transmission cavity tube 414;

one end of the transmission cavity pipe 414 is intermittently communicated with a water inlet arranged on the filter cylinder 211, and an extending part at the lower end is fixedly connected with the bottom end of the boiling box 1;

a fourth transmission rack 415 is vertically arranged on the push plate 413, a fourth transmission gear 416 is rotatably arranged on the inner wall of the boiling box 1 through a first transmission shaft 417, and the fourth transmission gear 416 is meshed with the fourth transmission rack 415.

Further, as shown in fig. 16 to 18, the transmission assembly 42 includes a first bevel gear 421 coaxially disposed and fixedly connected to the second driving gear 243, a second bevel gear 422 disposed in mesh with the first bevel gear 421, and a second transmission shaft 423 coaxially disposed and synchronously transmitting with the second bevel gear 422, wherein the first transmission shaft 417 is in transmission connection with the second transmission shaft 423 through a belt.

What should be mentioned here is that, realize transmission unit 41's lift work through setting up thing subassembly 21 cooperation transmission unit 42, utilize pivoted thing subassembly 21 to drive transmission unit 41 in step and boil out the circulation propelling movement of medicine in boiling system case 1 to strain the section of thick bamboo in, flow again and strain a section of thick bamboo and get into boiling system case 1 after mixing with raw and other materials contact in straining a section of thick bamboo again, recirculation improves system effect of decocting.

In detail, the second driving gear 243 drives the first bevel gear 421 to rotate when rotating, the first bevel gear 421 drives the second bevel gear 422 to rotate, the second bevel gear 422 drives the second transmission shaft 423 to rotate, the second transmission shaft 423 drives the first transmission shaft 417 to synchronously transmit through the belt, the first transmission shaft 417 drives the fourth transmission gear 416 to rotate, the fourth transmission gear 416 drives the fourth transmission rack 415 to lift, it should be noted that the first bevel gear 421 is a half-tooth structure, and further the fourth transmission rack 415 drives the push plate 413 to intermittently lift, so that the circulating decocting convection work and the cleaning work of the plaster are realized, and the inner wall of the decocting box 1 is scraped in real time.

Further, as shown in fig. 3, the regulating member 52 includes:

the heating bin 521 is attached to the outer wall of the boiling box 1;

the installation bin 522 is attached to the discharge barrel 11 at the lower end of the boiling box 1, and the discharge barrel 11 is in a rectangular column structure;

one end of the first connecting pipe 523 is communicated with the inner wall of the boiling box 1, and the other end of the first connecting pipe 523 is communicated with the installation bin 522;

one end of the second connection pipe 524 is communicated with the installation bin 522, and the other end of the second connection pipe 524 is communicated with the heating bin 521, and a check valve is arranged on the second connection pipe 524;

the pressurizing piece 525 comprises a lifting plate 526 which is arranged in the heating bin 521 in a sliding mode along the vertical direction and is matched with the inner wall of the heating bin 521, a telescopic unit b527 of which one end is fixedly connected with the upper end of the lifting plate 526 and the other end is fixedly connected with the upper top of the heating bin 521, and a driving piece 528 for driving the telescopic unit b527 to transmit along the vertical direction, wherein the driving piece 528 adopts a gear and rack transmission mode.

In the embodiment, the regulation and control component 52 is arranged to be matched with the regulation and control component 53, so that on one hand, waste gas in the decocting box 1 is discharged in time, and the phenomenon that the waste gas is liquefied and enters the decocted medicine again to influence the quality of the plaster due to no heating and too long time during discharging is avoided; on the other hand, the heat of the waste gas is fully utilized and stored, and is used for preserving the heat of the outer wall of the boiling box 1, so that the speed of reducing the temperature in the boiling box 1 is reduced, and meanwhile, the waste gas is heated and stored; the waste gas in the transmission is used for driving the stirring piece 531 to stir the output plaster, and the plaster is discharged while being stirred.

Further, as shown in fig. 4, the adjusting assembly 53 includes:

the stirring piece 531 comprises a discharge barrel 11, a bearing block 5311 arranged in the mounting bin 522 in a rotating manner, a driving shaft 5312 coaxial with and fixedly connected with the bearing block 5311, a stirring screw 5313 positioned in the discharge barrel 11 and fixedly connected with one end of the driving shaft 5312, and a swinging vane 5314 positioned in the mounting bin 522 and fixedly connected with the other end of the driving shaft 5312;

the blocking piece 532 comprises a fifth transmission rack 5321 fixedly connected with the telescopic end of the driving piece 528, a fifth transmission gear 5322 meshed with the fifth transmission rack 5321, a sixth transmission gear 5323 coaxially arranged with the fifth transmission gear 5322 and arranged in a half-tooth structure, a sixth transmission rack 5324 horizontally arranged and meshed with the sixth transmission gear 5323, a baffle 5325 fixedly connected with the sixth transmission rack 5324 and attached to the lower end of the discharging barrel 11, and a blocking seat 5326 used for limiting the baffle 5325, wherein the baffle 5325 is fixedly installed on a support 5328 through a telescopic unit h 5327.

In detail, after the plasters are fully mixed, the driving member 528 is intermittently started, the lifting plate 526 at the bottom of the heating bin 521 is lifted upwards under the action of the driving member 528, when the plaster is lifted to a certain height, the exhaust gas in the decocting tank 1 sequentially flows from the first connecting pipe 523 to the installation bin 522, and then enters the heating bin 521 through the second connecting pipe 524 from the installation bin 522, at this time, the exhaust gas flowing into the installation bin 522 drives the swing blade 5314 to rotate, the rotating swing blade 5314 drives the stirring screw 5313 to transmit through the driving shaft 5312, and the transmitted stirring screw 5313 realizes full stirring work in the discharge barrel; meanwhile, when the fifth transmission rack 5321 is lifted up, the fifth transmission gear 5322 is driven to rotate, the rotating fifth transmission gear 5322 drives the sixth transmission gear 5323 to rotate, and when the sixth transmission gear 5323 is meshed with the sixth transmission rack 5324, the sixth transmission rack 5324 drives the baffle 5325 to move, so that the outlet of the discharge barrel is opened; on the contrary, when the sixth transmission gear 5323 is not meshed with the sixth transmission rack 5324, the baffle 5325 is reset under the action of the telescopic unit h5327, so that the outlet of the discharging barrel is opened, and the quantitative discharging work is realized.

It should be noted that the purpose of the check valve is to avoid the backflow of the exhaust gas during the interval of the exhaust gas suction; in addition, each time the driving member 528 is lifted, the baffle 5325 completes the discharging and resetting operations.

In addition, in the process of decocting the plaster, the lifting plate 526 is always positioned at the bottom of the heating bin 521, so that the phenomenon that the air inlet at the bottom of the heating bin 521 flows into the air in the decocting process is avoided, and the later-stage negative pressure adsorption work is facilitated.

Further, as shown in fig. 1 to 3, the feeding assembly 51 includes a conveying belt 511, a plurality of sets of limiting seats 512 disposed on the conveying belt 511 at equal intervals, and a first driven member 513 for driving the conveying belt 511 to intermittently transmit;

the first driven member 513 includes a seventh driving rack 514 fixedly connected to the telescopic unit h5327 and provided with a unidirectional tooth structure, and a seventh transmission gear 515 meshed with the seventh driving rack 514, wherein the seventh transmission gear 515 is used for driving the transmission belt 511 to perform discontinuous transmission.

In detail, when the telescopic unit h5327 is reset, after the baffle 5325 blocks the discharging of the discharging barrel 11, the baffle 5325 continues to move to the baffle seat 5326, the telescopic unit h5327 drives the seventh transmission rack 514 to move horizontally, the seventh transmission rack 514 is meshed with the seventh transmission gear 515 in the moving process, the transmission belt 511 moves for a distance, and the cloth on the transmission belt 511 moves to a position right below the transmission belt 511; on the contrary, the seventh transmission rack 514 is a unidirectional gear, and when the discharging barrel 11 is opened to work, the seventh transmission rack 514 is not meshed with the seventh transmission gear 515.

Example two

As shown in fig. 15, in which the same or corresponding components as those in the first embodiment are denoted by the same reference numerals as those in the first embodiment, only the points of difference from the first embodiment will be described below for the sake of convenience. The second embodiment is different from the first embodiment in that:

further, as shown in fig. 15, the leakage-proof assemblies 32 are provided in two groups, each of which includes a linkage member 321 linked with the first driving assembly 23 and a folding member 322 slidably disposed on the boiling box 1;

the linkage member 321 comprises a first transmission rack 3211 fixedly connected with the third connecting column 231, a first transmission gear 3212 arranged in a meshing manner with the first transmission rack 3211 and located outside the decocting tank 1, a second transmission gear 3213 synchronously driven with the first transmission gear 3212, a second transmission rack 3214 horizontally arranged and arranged in a meshing manner with the second transmission gear 3213, and a third transmission rack 3215 fixedly connected with the third connecting column 231 and arranged opposite to teeth of the first transmission rack 3211, wherein the second transmission rack 3214 penetrates through the decocting tank 1;

the folding member 322 comprises a sliding plate 3221 slidably disposed on the inner wall of the boiling box, a telescopic unit e3222 having one end fixedly connected to the sliding plate 3221 and the other end fixedly connected to the inner wall of the boiling box 1, and a rubber strip 3223 disposed at the end of the sliding plate 3221, wherein the second transmission rack 3214 is fixedly connected to the telescopic unit e 3222.

In detail, when the third connecting column 231 is lifted up for the first time and is moved from the lower layer to the upper layer for decocting the plaster for the second time, the first transmission rack 3211 is driven to lift up, the lifted first transmission rack 3211 drives the first transmission gear 3213 to rotate, the rotated first transmission gear 3213 drives the second transmission gear 3213 to rotate, the rotated second transmission gear 3213 drives the second transmission rack 3214 to move horizontally, and the horizontally moved second transmission rack 3214 drives the sliding plate 3221 to move towards the center of the decocting box 1, so that the folding work is realized; third spliced pole 231 is lifted once more, strains a section of thick bamboo and accomplishes the second time and decoct the plaster and carry out cleaning work, and third transmission rack 3215 drives first transmission gear 3213 and rotates, and then horizontal migration's second transmission rack 3214 drives sliding plate 3221 and moves outside decocting case 1 towards, and then opens apopore a work, and the plaster of accomplishing the second time and decolouring drops to the lower floor in accomplishing the plaster of decolouring for the first time, utilizes gravity to strike the plaster intensive mixing that makes upper and lower floor.

It should be noted that the first transmission rack 3211 and the third transmission rack 3215 are both arranged in a unidirectional tooth structure; secondly, the lower end of the sliding plate 3221 is provided with magnetic irons which attract each other, and then the sealing performance of the upper layer boiling work is realized by matching with the rubber strip 3223.

The working process is as follows:

firstly, placing raw materials in an object placing component 21 of a material receiving mechanism 2, then starting a first driving component 23 and a second driving component 24, moving a third connecting column 231 of the object placing component 21 downwards along a vertical direction and rotating, settling a filter cylinder 211 of the object placing component 21 to the lower layer of a decocting box 1, then introducing water into the decocting box 1 from a water tank 61 through a water pipe 62 of a cleaning mechanism 6, and performing first plaster decocting work;

in the rotation process of the filter cartridge 211, the gear ring 221 of the stirring assembly 22 drives the driving rack 227 to reciprocate, and the driving rack 227 drives the cylindrical block 226 to drive the expansion spring 224 to move up and down by using the top support block b22b on the second connecting rod 229 in the movement process, so that the scattering work of the raw materials in the filter cartridge 211 is completed in the movement process;

meanwhile, the second driving component 24 drives the transmission component 42 to transmit, the transmission component 42 drives the transmission component 41 to lift, the push plate 513 of the transmission component 41 positioned below circularly pushes the decocted materials in the decocting box 1 into the filter cylinder through the transmission cavity pipe 514, the decocted materials in the filter cylinder are contacted and mixed with the raw materials and then flow out of the filter cylinder to enter the decocting box 1, and the circulation is repeated until the first time of decocting is completed;

when the first decoction is decocted, the filter cartridge 211 is lifted for the first time, and the second decoction is carried out when the lower layer moves to the upper layer, the first transmission rack 3211 of the linkage member 42a is driven to lift, the lifted first transmission rack 3211 drives the first transmission gear 3213 to rotate, the rotating first transmission gear 3213 drives the second transmission gear 3213 to rotate, the rotating second transmission gear 3213 drives the second transmission rack 3214 to move horizontally, the horizontally moving second transmission rack 3214 drives the sliding plate 3221 of the folding member 42b to move towards the center of the decoction box 1, so as to realize folding operation, at the moment, the water pipe 62 leads water from the water tank 61 into the decoction box 1, the push plate 513 of the transmission component 41 above circularly pushes the decoction in the decoction box 1 into the filter cartridge through the transmission cavity pipe 514, the decoction cartridge flows out of the decoction cartridge after the decoction cartridge and the raw materials are contacted and mixed, and enters the decoction box 1, and the circulation is repeated, until the second decoction is finished;

when the second time of decocting the medicine is finished, the filter cylinder 211 is lifted for the second time, the third transmission rack 3215 drives the first transmission gear 3213 to rotate, then the second transmission rack 3214 which moves horizontally drives the sliding plate 3221 to move towards the outside of the decocting box 1, and then the water outlet hole a is opened for work, the plaster which is decocted for the second time falls into the plaster which is decocted for the first time at the lower layer, the plaster at the upper layer and the plaster at the lower layer are fully mixed by gravity impact, after the plaster is completely mixed, a stock solution valve at the bottom of the decocting box 1 is opened, and the mixed solution is taken out;

after the plasters are fully mixed, the driving member 528 is intermittently started, the lifting plate 526 positioned at the bottom of the heating bin 521 is lifted upwards under the action of the driving member 528, when the plasters are lifted to a certain height, the waste gas in the decocting tank 1 sequentially flows from the first connecting pipe 523 to the installation bin 522, then flows into the heating bin 521 from the installation bin 522 through the second connecting pipe 524, at the moment, the waste gas flowing into the installation bin 522 drives the swinging blade 5314 to rotate, the rotating swinging blade 5314 drives the stirring screw 5313 to transmit through the driving shaft 5312, and the transmitted stirring screw 5313 realizes the full work of stirring the plasters in the discharge barrel; meanwhile, when the fifth transmission rack 5321 is lifted up, the fifth transmission gear 5322 is driven to rotate, the rotating fifth transmission gear 5322 drives the sixth transmission gear 5323 to rotate, and when the sixth transmission gear 5323 is meshed with the sixth transmission rack 5324, the sixth transmission rack 5324 drives the baffle 5325 to move, so that the outlet of the discharge barrel is opened; on the contrary, when the sixth transmission gear 5323 is not meshed with the sixth transmission rack 5324, the baffle 5325 is reset under the action of the telescopic unit h5327, so that the outlet of the discharging barrel is opened, and the quantitative discharging work is realized;

finally, the cloth on the conveying belt 511 completes the work of receiving the output plaster.

In the description of the present invention, it is to be understood that the terms "front-back", "left-right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or component must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the invention.

Of course, in this disclosure, those skilled in the art will understand that the terms "a" and "an" should be interpreted as "at least one" or "one or more," i.e., in one embodiment, a number of an element may be one, and in another embodiment, a number of the element may be plural, and the terms "a" and "an" should not be interpreted as limiting the number.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily made by those skilled in the art in light of the technical teaching of the present invention should be included within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a processing equipment before traumatic injury external plaster processing production, includes system case (1) and be used for right system case (1) carries out the heater that heats, its characterized in that still includes:

a receiving mechanism (2);

the receiving mechanism (2) is arranged on the decocting box (1) and ascends and descends along the vertical direction of the decocting box (1), and comprises a storage component (21) positioned in the decocting box (1), a stirring component (22) used for scattering medicinal materials in the storage component (21), a first driving component (23) arranged outside the decocting box (1) and used for driving the storage component (21) to ascend and descend and a second driving component (24) used for driving the storage component (21) to rotate;

a distinguishing mechanism (3);

the distinguishing mechanism (3) is arranged in the middle of the decocting box (1) and comprises a partition plate (31) and a leakage-proof assembly (32) which is in synchronous transmission with the first driving assembly (23) and is used for being matched with the partition plate (31) to work in a sealing mode;

a flow guide mechanism (4);

the flow guide mechanism (4) comprises two groups of transmission assemblies (41) which are respectively positioned above and below the distinguishing mechanism (3) and transmission assemblies (42) which are synchronously transmitted with the first driving assembly (23) and are used for driving the transmission assemblies (41) to work in a lifting mode; and

a guide mechanism (5);

and the guiding and conveying mechanism (5) comprises a feeding assembly (51) arranged at the lower end of the decocting box (1), a regulating and controlling assembly (52) sleeved outside the decocting box (1) and used for carrying out constant-temperature work on the interior of the decocting box (1), and an adjusting assembly (53) for controlling intermittent discharging at the bottom of the decocting box (1).

2. The pretreatment equipment for processing and producing an external plaster for traumatic injury according to claim 1, wherein the storage component (21) comprises:

a filter cartridge (211);

a plurality of groups of water outlet holes (212) are formed in the filter cylinder (211), and material penetrating holes (213) matched with the filter cylinder (211) are formed in the partition plate (31);

an adjustment barrel (214);

the adjusting cylinder (214) is embedded in the filter cylinder (211) and is attached to the inner wall of the filter cylinder (211);

a telescopic unit a (215);

one end of the telescopic unit a (215) is fixedly connected with the adjusting cylinder (214) and the other end of the telescopic unit a (215) is fixedly connected with the upper end of the filter cylinder (211);

a projection a (216);

the convex part a (216) is fixedly arranged on the filter cylinder (211);

a projection b (217);

the convex part b (217) is sleeved outside the adjusting cylinder (214) and is in discontinuous contact with the convex part a (216); and

a projection c (218);

the bulge part c (218) is fixedly arranged on the inner wall of the stewing box (1) through a horizontally arranged telescopic unit c (219), and the bulge part c (218) and the bulge part b (217) are arranged in an intermittent contact manner.

3. The pretreatment equipment for processing and producing an external plaster for traumatic injury according to claim 2, wherein the stirring component (22) comprises:

a gear ring (221);

the gear ring (221) is sleeved outside the filter cylinder (211), and the gear ring (221) is arranged in a half-tooth structure;

a support bar (222);

the support rod (222) is in lap joint with the upper end of the adjusting cylinder (214), and the center of the support rod is fixedly arranged on the upper end wall of the center of the boiling box (1) through a telescopic unit g (223);

a tension spring (224);

the upper end of the telescopic spring (224) is fixedly connected with the middle part of the supporting rod (222) and is vertically and downwardly arranged;

a first connecting rod (225);

the first connecting rod (225) is fixedly connected with the telescopic spring (224), and the end part of the first connecting rod is provided with a cylindrical block (226);

a drive rack (227);

the driving rack (227) is meshed with the gear ring (221) and is fixedly arranged on the inner wall of the boiling box (1) through a telescopic unit d (228); and

a second connecting rod (229);

the second connecting rod (229) is fixedly connected with the driving rack (227), a top supporting block a (22 a) matched with the cylindrical block (226) is arranged at the lower end of the second connecting rod (229) of the stirring assembly (22) arranged above, and a top supporting block b (22 b) matched with the cylindrical block (226) is arranged at the upper end of the second connecting rod (229) arranged below.

4. The pretreatment equipment for processing and producing an external plaster for traumatic injury according to claim 2, wherein the first driving component (23) comprises a third connecting column (231) fixedly connected with the filter cartridge (211); the third connecting column (231) drives the third connecting column (231) to lift and work in a gear and rack transmission mode by a second driving motor;

the second driving assembly (24) comprises a first driving motor (242) which is arranged at the upper end of the boiling box (1) and is fixedly connected with the output end of the boiling box (1) and is provided with a first driving gear (241), a second driving gear (243) which is rotatably arranged at the upper end of the boiling box (1) and is meshed with the first driving motor (242), and a third connecting column (231) is matched with and slides through a cross ring (244) and is arranged in a cross groove (245) formed in the second driving gear (243).

5. The pretreatment equipment for processing and producing an external plaster for traumatic injury according to claim 4, wherein the leakage-proof components (32) are arranged in two groups, and comprise a linkage component (321) which is interlocked with the first driving component (23) and a folding component (322) which is arranged on the decocting box (1) in a sliding way;

the linkage piece (321) comprises a first transmission rack (3211) fixedly connected with the third connecting column (231), a first transmission gear (3212) which is meshed with the first transmission rack (3211) and is positioned outside the decocting tank (1), a second transmission gear (3213) which is synchronously transmitted with the first transmission gear (3212), a second transmission rack (3214) which is horizontally arranged and is meshed with the second transmission gear (3213), and a third transmission rack (3215) which is fixedly connected with the third connecting column (231) and is arranged opposite to teeth of the first transmission rack (3211), wherein the second transmission rack (3214) penetrates through the decocting tank (1);

the folding piece (322) comprises a sliding plate (3221) arranged on the inner wall of the boiling box in a sliding mode, a telescopic unit e (3222) with one end fixedly connected with the sliding plate (3221) and the other end fixedly connected with the inner wall of the boiling box (1), and a rubber strip (3223) arranged at the end part of the sliding plate (3221), wherein the second transmission rack (3214) is fixedly connected with the telescopic unit e (3222).

6. The pretreatment equipment for processing and producing an external plaster for traumatic injury according to claim 4, wherein the transmission assembly (41) comprises a base (411), a telescopic unit f (412) vertically arranged at the lower end of the base (411), a push plate (413) fixedly connected with the lower end of the telescopic unit f (412) and a transmission cavity tube (414), and the push plate (413) is attached to the outer wall of the transmission cavity tube (414);

one end of the transmission cavity pipe (414) is intermittently communicated with a water inlet formed on the filter cylinder (211), and an extending part at the lower end is fixedly connected with the bottom end of the boiling box (1);

a fourth transmission rack (415) is vertically arranged on the push plate (413), a fourth transmission gear (416) is rotatably arranged on the inner wall of the boiling box (1) through a first transmission shaft (417), and the fourth transmission gear (416) is meshed with the fourth transmission rack (415).

7. The pretreatment equipment for processing and producing an external plaster for traumatic injury according to claim 6, wherein the transmission assembly (42) comprises a first bevel gear (421) coaxially arranged and fixedly connected with the second driving gear (243), a second bevel gear (422) meshed with the first bevel gear (421), and a second transmission shaft (423) coaxially and synchronously driven with the second bevel gear (422), and the first transmission shaft (417) and the second transmission shaft (423) are in transmission connection through a belt (420).

8. The pretreatment equipment for processing and producing an external plaster for traumatic injury according to claim 1, wherein the regulating component (52) comprises:

a heating chamber (521);

the heating bin (521) is attached to the outer wall of the decocting box (1);

an installation bin (522);

the mounting bin (522) is attached to a discharge barrel (11) at the lower end of the decocting box (1), and the discharge barrel (11) is arranged in a rectangular column structure;

a first connection pipe (523);

one end of the first connecting pipe (523) is communicated with the inner wall of the boiling box (1), and the other end of the first connecting pipe is communicated with the installation bin (522);

a second connection pipe (524);

one end of the second connecting pipe (524) is communicated with the installation bin (522), the other end of the second connecting pipe is communicated with the heating bin (521), and a one-way valve is arranged on the second connecting pipe (524);

a pressing member (525);

the pressurizing piece (525) comprises a lifting plate (526) which is arranged in the heating bin (521) in a sliding mode along the vertical direction and is matched with the inner wall of the heating bin (521), a telescopic unit b (527) of which one end is fixedly connected with the upper end of the lifting plate (526) and the other end is fixedly connected with the upper top of the heating bin (521), and a driving piece (528) used for driving the telescopic unit b (527) to transmit along the vertical direction, wherein the driving piece (528) adopts a gear and rack transmission mode.

9. The pretreatment equipment for processing and producing an external plaster for traumatic injury according to claim 8, wherein the adjusting component (53) comprises:

a stirring member (531);

the stirring piece (531) comprises a discharge barrel (11) and a bearing seat (5311) arranged in an installation bin (522) in a rotating mode, a driving shaft (5312) coaxial with and fixedly connected with the bearing seat (5311), a stirring screw rod (5313) located in the discharge barrel (11) and fixedly connected with one end of the driving shaft (5312), and a swinging vane (5314) located in the installation bin (522) and fixedly connected with the other end of the driving shaft (5312);

a barrier (532);

the blocking piece (532) comprises a fifth transmission rack (5321) fixedly connected with the telescopic end of the driving piece (528), a fifth transmission gear (5322) meshed with the fifth transmission rack (5321), a sixth transmission gear (5323) coaxially arranged with the fifth transmission gear (5322) and arranged in a half-tooth structure, a sixth transmission rack (5324) horizontally arranged and meshed with the sixth transmission gear (5323), a baffle (5325) fixedly connected with the sixth transmission rack (5324) and attached to the lower end of the discharge barrel (11), and a baffle seat (5326) used for limiting the baffle (5325), wherein the baffle (5325) is fixedly installed on the support (5328) through a telescopic unit h (5327).

10. The pretreatment equipment for processing and producing an external plaster for traumatic injury according to claim 9, wherein the feeding assembly (51) comprises a conveyor belt (511), a plurality of groups of limiting seats (512) arranged on the conveyor belt (511) at equal intervals, and a first driven member (513) for driving the conveyor belt (511) to perform intermittent transmission;

the first driven part (513) comprises a seventh transmission rack (514) which is fixedly connected with the telescopic unit h (5327) and is in a one-way tooth structure, and a seventh transmission gear (515) which is meshed with the seventh transmission rack (514), wherein the seventh transmission gear (515) is used for driving the transmission belt (511) to perform discontinuous transmission.

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