CN117680021A - Special production facility of hot compress material based on mediation main and collateral channels composition - Google Patents

Abstract

The invention discloses special production equipment for hot compress materials based on a meridian dredging composition, and relates to the technical field of biopharmaceutical equipment, wherein the special production equipment comprises a mixing assembly, a temperature control assembly, a stirring assembly and a top cover; the mixing assembly comprises a mixing tank, a plurality of groups of fixing parts are arranged on the inner side wall of the mixing tank in a surrounding mode, each fixing part comprises two fixing plates, and one ends of the fixing plates are connected with the inner wall of the mixing tank in a sliding mode through hydraulic pushing rods; the device not only realizes the shoveling and crushing of the raw materials in the mixing tank, but also can correspondingly adjust the shoveling height and crushing efficiency of the raw materials along with the continuous progress of the reaction, and has higher adjustability and stronger adaptability; simultaneously according to the slip position of temperature variation self-adaptation regulation raw materials in the region to effectual improvement is to the raw materials reaction efficiency in the different regions, and the operability is stronger, and stability is higher, and can also vibrate cleanly to inner structure after the reaction is accomplished, effectually avoids causing the influence to subsequent reaction.

Description

Special production facility of hot compress material based on mediation main and collateral channels composition

Technical Field

The invention relates to the technical field of biological pharmaceutical equipment, in particular to special production equipment for hot compress materials based on a composition for dredging channels and collaterals.

Background

The traditional Chinese medicine is processed to prepare the hot auxiliary material, so that the effect of dredging channels and collaterals can be effectively achieved, and special equipment is needed when the hot auxiliary material is produced and processed, so that the production efficiency and the production quality are improved.

The utility model discloses a mixing device for hyaluronic acid dressing production, which comprises a machine base and a mixing barrel arranged on the machine base, wherein a filtering mechanism is arranged below the mixing barrel, a feeding unit is arranged at the top of the mixing barrel, a motor mounting frame is fixed at the top of the mixing barrel, a stirring motor is arranged on the motor mounting frame, and an output shaft of the stirring motor is connected with a stirring shaft extending into the mixing barrel; according to the technical scheme, when the sub-health composition for dredging the channels and collaterals is prepared, the emulsifying device and the mixing device are required to process raw materials, and the temperature of the raw materials is required to be controlled in the emulsifying and mixing processes, so that the problems of high control difficulty, low control precision and the like exist.

The publication number 2022111191914 discloses a mixing arrangement is used in hyaluronic acid dressing production relates to hyaluronic acid dressing field of mixing, and a mixing arrangement is used in hyaluronic acid dressing production includes: mixing drum, still include: the sealing cover is in threaded connection with the top of the mixing barrel, a feed inlet is formed in the top of the mixing barrel, the sealing cover is matched with the feed inlet, and a rotary handle is fixedly connected to the sealing cover; because the stirring forces required by different raw materials in the emulsification processing are different, the raw materials are required to be processed respectively and mixed after the processing is finished respectively, and the mixing efficiency is required to be improved.

When the actual crushing and mixing reaction is carried out on the raw materials, the stirring can be caused to change the shoveling height of the raw materials due to the fact that the inclination angle of the stirring blade changes, and the device for correspondingly adjusting the crushing height according to different shoveling heights is lacked in the prior art, so that the crushing effect on the raw materials is reduced.

And when carrying out crushing in-process to the raw materials, can cause the leakage of raw materials to pass when the gap of stirring leaf is too big, and then reduce crushing effect and crushing efficiency to the raw materials.

Along with the continuous progress of reaction, the raw materials reaction rate in each region of compounding jar inside is different, and all lacks the ability of detecting and adjusting the reaction rate of raw materials in the different regions among the prior art, and then causes the inside whole inefficiency of reaction of compounding jar, problem such as reaction effect is poor.

And the stirring blade is not cleaned after the reaction is finished, so that the internal cleanliness is reduced, and the subsequent reaction is easily influenced.

Therefore, it is necessary to invent a special production device for hot compress materials based on a composition for dredging channels and collaterals to solve the above problems.

Disclosure of Invention

The invention aims to provide special production equipment for hot compress materials based on a meridian dredging composition, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: a special production device for hot compress materials based on a meridian dredging composition comprises a mixing component, a temperature control component, a stirring component and a top cover;

the mixing assembly comprises a mixing tank, a plurality of groups of fixing parts are arranged on the inner side wall of the mixing tank in a surrounding mode, the fixing parts comprise two fixing plates, one ends of the fixing plates are connected with the inner wall of the mixing tank in a sliding mode through hydraulic pushing rods, a plurality of groups of protruding blocks are uniformly arranged on one side, facing each other, of the two fixing plates in a uniform array mode, a plurality of groups of electromagnetic blocks are uniformly arranged on the bottom of the protruding blocks in the upper portion of the fixing plates, and an area temperature detection unit is arranged in the upper portion of the fixing plates;

the temperature control assembly comprises a jacket, wherein a plurality of extending covers with annular structures are arranged in the jacket, a plurality of insertion holes are formed in the inner side walls of the extending covers in a penetrating mode, insertion pipes are arranged in the insertion holes in a penetrating mode, and electric heating pipes are arranged at the other ends of the insertion pipes;

the stirring assembly comprises a rotating rod, a connecting seat is arranged at the bottom end of the rotating rod, a plurality of rotating shafts are arranged on the outer side wall of the rotating rod in a surrounding mode, a movable frame is arranged at the other end of the rotating shaft, a lower guide plate is arranged at the inner bottom of the movable frame, an upper guide plate is movably connected to the inner top of the movable frame through a torsion spring, and a magnetic end plate is arranged at the other end of the upper guide plate.

This application not only realizes the broken stirring to the inside raw materials of compounding jar, simultaneously along with movable frame inclination's reduction, hydraulic push rod drives the lug and moves to keeping away from movable frame end, and then adaptability and crushing efficiency when the improvement movable frame of adaptability scooped up the raw materials to along with broken constantly going on, last guide plate inclination in the self-adaptation regulation region, and then improve the broken reaction of heating to the raw materials in the different regions.

Preferably, the temperature control assembly is arranged at the outer side of the mixing assembly, the stirring assembly is arranged in the mixing assembly, the top cover is arranged at the top end of the mixing assembly, and a control unit is arranged at one side of the mixing tank; the crushing stirring problem to the raw materials is solved to each part mutually supporting.

Preferably, a driving motor is arranged at the bottom end of the outer side of the mixing tank, a driving wheel is arranged on an output shaft of the driving motor, a driven wheel is arranged in the middle of the lower surface of the connecting seat, a driving belt is arranged between the driven wheel and the driving wheel, a plurality of supporting legs are arranged around the bottom end of the mixing tank, a discharging pipe penetrates through the bottom end of the mixing tank, and a valve is arranged at the bottom end of the discharging pipe; the rotation of the rotating rod drives the movable frame to stir and mix the raw materials in the mixing tank.

Preferably, the jacket is fixedly arranged on the outer side wall of the mixing tank, the extension cover penetrates through the outer side wall of the mixing tank and extends to the inside of the mixing tank, a heat conduction pipe with an annular structure is arranged in the extension cover, a plurality of heat conduction fins with inclined structures are arranged on the outer side of the heat conduction pipe, and a plurality of heat conduction holes are formed in the middle of the heat conduction fins in a penetrating mode; thereby realizing the heating of the raw materials in the mixing tank.

Preferably, one end of the insertion pipe penetrates through the outer side wall of the heat conduction pipe, the electric heating pipe is arranged in the mixing tank, an electric heating wire with a spiral structure is arranged in the electric heating pipe, a guide plate with a spiral structure is arranged on the inner side wall of the jacket, and round corners are arranged at two ends of the extension cover; the heating effect to the inside raw materials of compounding jar is further improved in the setting of heating wire.

Preferably, the connecting seat is arranged in the middle of the bottom end of the mixing tank in a penetrating manner through the sealing bearing, the rotating rod is of a hollow structure, one end of the rotating shaft is positioned in the rotating rod, and the movable frame is arranged between the two fixed plates; the rotating shaft drives the movable frame to rotate and adjusts the inclination angle of the movable frame.

Preferably, a transmission rod is arranged in the rotating rod, a rotation angle detection unit is arranged on one side of the transmission rod, the rotation angle detection unit detects the rotation angle value of the transmission rod, the bottom end of the transmission rod is arranged in the middle of the connecting seat in a penetrating manner through a bearing, a plurality of driving bevel gears are arranged in the middle of the transmission rod, a plurality of driving bevel gears are arranged on the outer side of the driving bevel gears in a surrounding manner, and the driving bevel gears are fixedly arranged at one end of the rotating shaft; the transmission rod rotates and drives the movable frame to rotate to realize angle adjustment.

Preferably, a positioning sleeve is arranged in the middle of the lower surface of the connecting seat, the positioning sleeve is connected with the transmission rod in a sleeved mode, a locking bolt is arranged in a screw hole formed in the middle of the outer side of the positioning sleeve in a penetrating mode, one end of the locking bolt is attached to the outer side wall of the transmission rod, and a hand wheel is arranged at the bottom end of the transmission rod; the hand wheel drives the transmission rod to rotate.

Preferably, the lower guide plate and the upper guide plate are both arranged in an inclined structure, a plurality of grooves with saw-tooth structures are formed in the other end of the lower guide plate and the inside of the magnetic end plate in a penetrating manner, and a plurality of guide holes are formed in the middle of the lower guide plate and the middle of the upper guide plate in a penetrating manner; the arrangement of the diversion holes realizes the filtration and diversion of raw materials.

Preferably, a top temperature detection unit is arranged at the inner bottom of the top cover, the top temperature detection unit detects the temperature value inside the mixing tank, the area temperature detection unit detects the temperature value of the peripheral side surface of the fixed plate, the magnetism of the electromagnetic block and the magnetism of the opposite end surface of the magnetic end plate are the same, and cleaning parts are arranged between the lower Fang Duozu lugs; the cleaning part cleans the movable frame.

The invention has the technical effects and advantages that:

1. according to the invention, the mixing assembly is arranged, the emulsification and mixing processing of various raw materials can be realized by the mixing assembly, the temperature control assembly is arranged on the outer side of the mixing assembly, the control of the internal environment temperature of the mixing assembly can be realized by the temperature control assembly, so that the processing temperature of the raw materials is ensured, the stirring assembly is arranged in the mixing assembly, the stirring assembly comprises a plurality of movable frames with adjustable angles, the stirring effect of the raw materials in the stirring process can be adjusted by adjusting the angles of the movable frames, so that the device can adapt to the emulsification stirring work of various raw materials, the emulsification stirring and mixing processing of the raw materials can be completed in the mixing assembly, and the mixing efficiency of the raw materials can be effectively improved.

2. According to the invention, the temperature control assembly comprises the jacket, the heat medium can be poured into the jacket to control the temperature inside the mixing assembly, the extension cover is arranged inside the jacket, the heat conducting pipe is arranged inside the extension cover, can absorb the heat of the heat medium through the heat conducting fins on the outer side of the heat conducting pipe and convey the heat to the inside of the mixing assembly through the electric heating pipe on the outer side of the heat conducting pipe so as to improve the heat transmission effect, and meanwhile, the electric heating pipe can be electrified to generate heat so as to achieve the purpose of rapidly improving the temperature inside the heat medium and the mixing assembly, so that the rapid temperature improvement in the raw material processing process can be realized.

3. According to the invention, the stirring assembly comprises a plurality of movable frames, the movable frames realize emulsification stirring of raw materials through rotation, the contact area between the movable frames and the raw materials is changed through adjusting the angles of the movable frames, so that the stirring acting force applied to the raw materials is changed, the stirring assembly can be suitable for emulsification stirring of various raw materials, and the lower guide plates with inclined structures are arranged in the movable frames and can generate shearing force on the raw materials in the process of rotating along with the movable frames, so that the agglomerated raw materials are broken, and meanwhile, the emulsification efficiency of the raw materials can be improved.

4. According to the invention, by arranging the hydraulic push rod, the electromagnetic block and the magnetic end plate, the device not only can realize the shoveling and crushing of raw materials in the mixing tank, but also can correspondingly adjust the shoveling height and crushing efficiency of the raw materials along with the continuous progress of reaction, and has higher adjustability and stronger adaptability; simultaneously according to the slip position of temperature variation self-adaptation regulation raw materials in the region to effectual improvement is to the raw materials reaction efficiency in the different regions, and the operability is stronger, and stability is higher, and can also vibrate cleanly to inner structure after the reaction is accomplished, effectually avoids causing the influence to subsequent reaction.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic cross-sectional view of the overall structure of the present invention.

Fig. 3 is an enlarged schematic view of the structure a in fig. 2 according to the present invention.

Fig. 4 is a schematic cross-sectional view of a hybrid assembly of the present invention.

Fig. 5 is a schematic view of the interior of the hybrid module structure of the present invention.

Fig. 6 is a schematic view of a heat conducting pipe structure according to the present invention.

Fig. 7 is a schematic bottom view of the hybrid module structure of the present invention.

Fig. 8 is an enlarged schematic view of the structure of fig. 7B according to the present invention.

Fig. 9 is a schematic structural view of a stirring assembly according to the present invention.

FIG. 10 is a schematic cross-sectional view of the stirring assembly of the present invention.

Fig. 11 is a schematic diagram of a movable frame structure of the present invention.

Fig. 12 is a schematic cross-sectional view of a movable frame structure according to the present invention.

Fig. 13 is a schematic view showing a state in which a drive bevel gear and a transmission bevel gear of the present invention are engaged.

In the figure: 1. a mixing assembly; 2. a temperature control assembly; 3. a stirring assembly; 4. a top cover; 101. a mixing tank; 102. a fixing plate; 103. a bump; 104. a driving motor; 105. a driving wheel; 106. a support leg; 107. a discharge pipe; 108. a hydraulic push rod; 201. a jacket; 202. an extension cover; 203. a heat conduction pipe; 204. a heat conduction fin; 205. a heat conduction hole; 206. a jack; 207. a cannula; 208. an electric heating tube; 209. heating wires; 210. a guide plate; 301. a rotating rod; 302. a connecting seat; 303. a rotating shaft; 304. a movable frame; 305. a transmission rod; 306. driving a bevel gear; 307. a drive bevel gear; 308. a positioning sleeve; 309. a locking bolt; 310. a hand wheel; 311. a lower deflector; 312. a groove; 313. a deflector aperture; 314. driven wheel; 315. an upper deflector; 316. a magnetic end plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The invention provides special production equipment for hot compress materials based on meridian dredging compositions as shown in fig. 1-13, which comprises a mixing component 1, a temperature control component 2, a stirring component 3 and a top cover 4, wherein the mixing component 1 is used for carrying out mixed reaction on internal raw materials, the temperature control component 2 is arranged on the outer side of the mixing component 1, the temperature control component 2 is used for carrying out temperature control on the inside of the mixing component 1, the stirring component 3 is arranged in the mixing component 1, the stirring component 3 is used for mixing and filtering the raw materials in the mixing component 1, the top cover 4 is arranged at the top end of the mixing component 1, and the top cover 4 mainly plays a role in sealing temperature detection.

Mixing assembly 1 includes compounding jar 101, and one side of compounding jar 101 is equipped with the control unit, and the inside wall of compounding jar 101 encircles and is equipped with multiunit fixed part, and fixed part all contains two fixed plates 102, and two fixed plates 102 are equipped with zigzag lug 103 in one side each other facing each other, and the raw materials can strike lug 103 in the motion process for the raw materials of caking is smashed.

The bottom of compounding jar 101 is encircled and is equipped with a plurality of landing legs 106, and the bottom of compounding jar 101 runs through and is equipped with row material pipe 107, and the bottom of row material pipe 107 is equipped with the valve, arranges the quick discharge of raw materials of material pipe 107 can be realized.

The temperature control assembly 2 comprises a jacket 201, the jacket 201 is fixedly arranged on the outer side wall of the mixing tank 101, two extending covers 202 with annular structures are arranged in the jacket 201, the extending covers 202 penetrate through the outer side wall of the mixing tank 101 and extend to the inside of the mixing tank 101, heat conducting pipes 203 with annular structures are arranged in the extending covers 202, heat conducting fins 204 with a plurality of inclined structures are arranged on the outer sides of the heat conducting pipes 203, a plurality of heat conducting holes 205 are formed in the middle portions of the heat conducting fins 204 in a penetrating mode, and the heat conducting holes 205 can be arranged to improve the contact area between the heat conducting fins 204 and a heating medium.

The inside wall of extension cover 202 runs through and is equipped with a plurality of jacks 206, the inside of jack 206 runs through and is equipped with intubate 207, the one end of intubate 207 runs through and is set up in the lateral wall of heat pipe 203, the other end of intubate 207 is equipped with electrothermal tube 208, and electrothermal tube 208 sets up in the inside of mixing tank 101, electrothermal tube 208's inside is equipped with helical structure's heating wire 209, heating wire 209 can the circular telegram generate heat, in order to reach the purpose of promoting the inside temperature of mixing tank 101 fast, the inside wall of clamp cover 201 is equipped with helical structure's baffle 210, the both ends of extension cover 202 all are equipped with the fillet, the setting of fillet has avoided extension cover 202 top to pile up the raw materials.

The stirring subassembly 3 includes bull stick 301, and the bottom of bull stick 301 is equipped with connecting seat 302, and connecting seat 302 runs through the bottom middle part that sets up in mixing tank 101 through sealed bearing, and bull stick 301 sets up to hollow structure, and the lateral wall of bull stick 301 is encircleed and is equipped with a plurality of pivots 303, and the one end of pivot 303 is located the inside of bull stick 301, and the other end of pivot 303 is equipped with movable frame 304, and movable frame 304 sets up between two fixed plates 102, and movable frame 304 can play the processing of smashing to the raw materials of caking when passing between two fixed plates 102.

The inside of bull stick 301 is equipped with transfer line 305, and the bottom of transfer line 305 runs through the middle part that sets up in connecting seat 302 through the bearing, and the middle part of transfer line 305 is equipped with a plurality of drive bevel gears 306, and the outside of drive bevel gears 306 is encircleed and is equipped with a plurality of drive bevel gears 307, and the fixed one setting in the one end of pivot 303 of drive bevel gears 307, and drive bevel gears 307 drives pivot 303 and rotates, and pivot 303 drives movable frame 304 and rotates for the angle of movable frame 304 is adjusted.

And, the lower surface middle part of connecting seat 302 is equipped with spacer sleeve 308, and spacer sleeve 308 cup joints with transfer line 305 and be connected, runs through in the screw that spacer sleeve 308 outside middle part was seted up and is equipped with lock bolt 309, and lock bolt 309's one end and transfer line 305's lateral wall laminating mutually, lock bolt 309 can realize the locking to transfer line 305 position to reach the purpose of locking movable frame 304 angle, the bottom of transfer line 305 is equipped with hand wheel 310, hand wheel 310's setting has made things convenient for the user to rotate transfer line 305.

Moreover, the interior top of movable frame 304 has last guide plate 315 through torsional spring swing joint, the interior bottom of movable frame 304 is equipped with down guide plate 311, and down guide plate 311 and last guide plate 315 all set up to the slope structure, a plurality of water conservancy diversion holes 313 have been seted up in the middle part of lower guide plate 311 and last guide plate 315, the water conservancy diversion hole 313 runs through lower guide plate 311 and last guide plate 315, when movable frame 304 reached the vertical state, lower guide plate 311 and last guide plate 315 all can play the effect that promotes the raw materials motion, when movable frame 304 reached the slope state, the inside of lower guide plate 311 and last guide plate 315 can not pass the raw materials, thereby can play the effect that produces the shearing force to the raw materials, the setting of slope structure makes lower guide plate 311 and last guide plate 315 can play the effect that promotes stirring subassembly 3 work efficiency under two kinds of states.

Meanwhile, a driving motor 104 is arranged at the bottom end of the outer side of the mixing tank 101, a driving wheel 105 is arranged on an output shaft of the driving motor 104, a driven wheel 314 is arranged in the middle of the lower surface of the connecting seat 302, a driving belt is arranged between the driven wheel 314 and the driving wheel 105, and the driving motor 104 provides kinetic energy for the stirring assembly 3 so as to realize emulsification stirring and mixing stirring operation.

When the device is used, the part needing to be emulsified in the raw materials is added into the mixing component 1, the raw materials are emulsified and stirred through the stirring component 3, meanwhile, the temperature inside the mixing component 1 is controlled through the temperature control component 2, so that the emulsification and sterilization effects of the raw materials are guaranteed, after the emulsification and stirring of the raw materials are completed, the raw materials needing to be mixed are added into the mixing component 1, the stirring component 3 is adjusted, the mixing effect of the raw materials in the mixing and stirring process is prevented from being influenced by overlarge stirring force, the raw materials are mixed and stirred through the stirring component 3 after adjustment, the temperature of the raw materials is controlled through the temperature control component 2, and the emulsification and mixing processing of the raw materials of the sub-health composition for dredging channels and collaterals can be realized.

When the stirring assembly 3 is used for emulsifying and stirring raw materials, the inclination angle of the movable frame 304 is larger, at the moment, the lower guide plate 311 and the upper guide plate 315 are in an inclined state, the driving motor 104 drives the rotary rod 301 to rotate through the driving wheel 105 and the driven wheel 314, the rotary rod 301 drives the movable frame 304 to rotate, the movable frame 304 rotates in the mixing tank 101, the movable frame 304 pushes the raw materials in the rotating process, and the movable frame 304 is in an inclined state, so that the contact area between the movable frame 304 and the raw materials is smaller, the raw materials can be subjected to larger acting force, meanwhile, the movable frame 304 drives the lower guide plate 311 and the upper guide plate 315 to rotate, in the process, the movable frame 304 can generate shearing force on the raw materials, so that the agglomerated raw materials are smashed, the emulsifying and stirring of the raw materials can be realized, meanwhile, the raw materials reach the bottom of the convex block 103 by means of the shoveling action of the lower guide plate 311 and the upper guide plate 315, and the hard collision with the convex block 103 are broken, and the impact breaking effect on the raw materials is further improved.

When the raw materials are mixed and stirred, the transmission rod 305 is driven to rotate through the hand wheel 310, the transmission rod 305 drives the transmission bevel gear 307 to rotate through the driving bevel gear 306, the transmission bevel gear 307 drives the rotating shaft 303 to rotate, the rotating shaft 303 drives the movable frame 304 to rotate, the angle of the movable frame 304 is adjusted until the angle of the movable frame 304 tends to be vertical, the contact area of the movable frame 304 and the raw materials is lifted, the acting force born by the raw materials is reduced, the lower guide plate 311 and the upper guide plate 315 are in an approximately vertical state, the lower guide plate 311 and the upper guide plate 315 can push the raw materials to further reduce the acting force born by the raw materials, and the situation that the raw materials are influenced by excessive acting force when the raw materials are guaranteed to rotate along with the stirring assembly 3 is avoided.

When the temperature control assembly 2 is used for controlling the temperature inside the mixing tank 101, the heating medium can be conveyed into the jacket 201 through the inlet on the jacket 201 and discharged through the outlet, in the process, the heating medium can be used for conveying heat to the mixing tank 101 and the extension cover 202, so that the control of the temperature inside the mixing tank 101 can be realized, meanwhile, the heat in the heating medium can be conveyed to the heat conducting tube 203 through the heat conducting fin 204, the heat conducting tube 203 can be used for conveying the heat to the electric heating tube 208, the electric heating tube 208 can be used for directly conveying the heat to the inside of the mixing tank 101, so that the heat conveying efficiency is improved, and meanwhile, when the temperature inside the mixing tank 101 needs to be quickly lifted, the electric heating wire 209 in the electric heating tube 208 can be electrified to generate heat, so that the temperature inside the mixing tank 101 is quickly lifted.

Example 2

When the crushing reaction is actually performed on the raw materials in the mixing tank 101, the inclination angle of the movable frame 304 changes along with the rotation of the transmission rod 305, but when the inclination angle of the movable frame 304 increases, namely, the movable frame 304 tends to be in a vertical state, the height of the movable frame 304 for scooping up the raw materials is larger, and the position of the upper fixed plate 102 is fixed, so that the collision crushing difficulty of the raw materials and the upper convex blocks 103 is increased, and the collision crushing efficiency is reduced; meanwhile, as a gap exists between the upper guide plate 315 and the lower guide plate 311, when the movable frame 304 inclines and the raw materials are scooped up, part of the raw materials can pass through the gap, so that the scooping and crushing effects on the raw materials are reduced; along with the continuous reaction of the raw materials inside the mixing tank 101, the internal temperature of the mixing tank 101 is continuously increased, and then the subsequent reaction is performed inside the whole mixing tank 101, the inclination angle of the multiple groups of movable frames 304 is increased, but part of raw materials are slow due to the stirring effect of the self weight or the movable frames 304, especially the raw material reaction rate far away from the position of the electric heating tube 208, the part of raw materials can cause residues and reduce the overall reaction effect of the raw materials inside the mixing tank 101, and in order to solve the above problems, the special hot compress material production equipment based on dredging meridian composition further comprises: one end of each fixed plate 102 is slidably connected with the inner wall of the mixing tank 101 through a hydraulic push rod 108, and when the hydraulic push rod 108 is started, the fixed plates 102 are driven to move in the mixing tank 101, and the moving direction of the fixed plates is mainly toward the end of the movable frame 304 between the two fixed plates 102.

The bottom of the upper multi-group protruding block 103 is uniformly provided with a plurality of groups of electromagnetic blocks, the electromagnetic blocks are magnetized after being electrified, the inner bottom of the top cover 4 is provided with a top temperature detection unit, the top temperature detection unit detects the temperature value inside the mixing tank 101 and correspondingly adjusts the rotation angle of the transmission rod 305 according to the temperature value, the inner part of the upper fixed plate 102 is provided with a region temperature detection unit, the region temperature detection unit is arranged at the end, close to the transmission rod 305, of the fixed plate 102, particularly the peripheral side surface of the fixed plate 102, of the region temperature detection unit, the temperature value, close to the transmission rod 305 end, is detected, so that the independent control of the plurality of groups of electromagnetic blocks at the bottom of the fixed plate 102 is realized by the region temperature detection unit, and then the moving direction of the raw materials at the top of the movable frame 304 is regulated, namely, when the temperature difference detected by the region temperature detection unit and the top temperature detection unit does not reach the set temperature difference, namely, the raw material reaction quantity near the fixed plate 102 does not meet the requirement, the controller is required to further repeat the reaction, at the moment, the electrifying current of the plurality of groups of electromagnetic blocks is controlled to be increased and not equal, the movable frame 304 applies a moving force to the raw materials, close to the electric heating tube 208 end, and then the raw materials are enabled to move towards the inner wall of the mixing tank 101, and the inner wall of the mixing tank 101 is further heated by the action of the raw materials.

One side of the transmission rod 305 is provided with a rotation angle detection unit, the rotation angle detection unit detects a rotation angle value of the transmission rod 305, and the rotation angle value detected by the rotation angle detection unit correspondingly adjusts the extension lengths of the plurality of groups of hydraulic push rods 108, thereby correspondingly adjusting the positions of the plurality of groups of fixing plates 102.

The other end of the upper baffle 315 is provided with a magnetic end plate 316, the magnetism of the opposite end surfaces of the electromagnetic block and the magnetic end plate 316 is the same, therefore, when the magnetism of the electromagnetic block is increased or the distance between the electromagnetic block and the magnetic end plate 316 is reduced, the magnetic end plate 316 is driven by the magnetic repulsive force of the electromagnetic block to move towards the end close to the lower baffle 311, the gap between the lower baffle 311 and the upper baffle 315 is reduced, the amount of raw materials passing through the gap is reduced, the efficiency of the raw materials at the top of the movable frame 304 is increased, the grooves 312 with a plurality of saw-tooth structures are formed in the other end of the lower baffle 311 and the inside of the magnetic end plate 316 in a penetrating way, the raw materials inside the mixing tank 101 can pass through the grooves 312 and are filtered and stirred and mixed when the inclination angle of the movable frame 304 is gradually increased, cleaning parts are arranged between the lower groups of the bumps 103, therefore, when the hydraulic push rod 108 drives the lower fixed plate 102 to move upwards to the maximum distance, the lower groups of bumps 103 are opposite to the bottom of the movable frame 304, the inclination angle of the movable frame 304 is minimum and in a horizontal state, at the moment, the movable frame 304 rotates along with the rotating speed of the rotating rod 301, the grooves 312 and the upper bumps 103 or the lower bumps are matched with the upper bumps and the grooves 312 to clean the inner sides of the grooves, and the inner sides of the grooves are prevented from being blocked, and the cleaning devices from being blocked, and the cleaning and the inner sides of the raw materials.

When the device is used, after the top cover 4 is opened and raw materials to be reacted are added into the mixing tank 101, the top temperature detection unit detects that the temperature value inside the mixing tank 101 is an initial temperature value in an initial state, the rotation angle value detected by the transmission rod 305 is the initial rotation angle value, the inclination angle of the movable frame 304 is minimum and is in a horizontal state, the hydraulic push rod 108 drives the fixed plate 102 to move to the maximum distance towards the end close to the movable frame 304 and to be in contact with the outer surface of the movable frame 304, the electromagnetic block is started and drives the bottom of the magnetic end plate 316 to be in contact with the top of the lower guide plate 311 by means of magnetic repulsive force to the magnetic end plate 316, the gap between the upper guide plate 315 and the lower guide plate 311 is reduced to zero, so that when the movable frame 304 rotates and scoops the raw materials, the raw materials can not pass along the gap between the upper guide plate 315 and the lower guide plate 311, and simultaneously the plurality of guide holes 313 are small in through the inclined arrangement passing area of the movable frame 304, so that the scooping efficiency of the raw materials and the crushing efficiency of the matching convex blocks 103 are effectively improved.

Then the control unit controls the driving motor 104 to start, the driving motor 104 drives the driving wheel 105 to rotate, the driving wheel 105 drives the driven wheel 314 to rotate through a driving belt, the driven wheel 314 rotates and drives the rotating rod 301 to rotate, the rotating rod 301 rotates to drive the plurality of groups of movable frames 304 to rotate, meanwhile, a heating medium is introduced into the jacket 201, enters the electric heating tube 208 along the heat conducting tube 203, and the raw materials in the mixing tank 101 are heated through further heating of the electric heating tube 209.

The temperature value that the top temperature detection element detected constantly increases, then hand wheel 310 drives transfer line 305 and rotates, the corner value that the corner sensor detected increases, transfer line 305 drives movable frame 304 through the meshing of drive bevel gear 306 and drive bevel gear 307 and rotates, movable frame 304's inclination increases, the inside raw materials of compounding jar 101 is along movable frame 304 top by the increase of scooping up the height, at this moment, in order to improve lug 103 to the self-adaptation change of raw materials scooping up the height, then control unit control hydraulic push rod 108 drives fixed plate 102 to keeping away from movable frame 304 end and remove, the distance between lug 103 and the movable frame 304 increases, and then the crushing efficiency and the crushing effect of lug 103 to the raw materials can not receive the influence when guaranteeing that movable frame 304 scoops up the increase of raw materials height, improve the crushing reaction efficiency of raw materials.

Meanwhile, as the fixed plate 102 above moves upwards, the distance between the plurality of groups of electromagnetic blocks above and the magnetic end plate 316 inside the movable frame 304 is increased, the magnetic repulsive force of the electromagnetic blocks to the magnetic end plate 316 is reduced, the upper guide plate 315 is driven to rotate upwards under the elastic action of the torsion spring of the upper guide plate 315, the gap between the upper guide plate 315 and the lower guide plate 311 is increased, when the movable frame 304 rotates, part of fine raw materials can be filtered and screened, and the phenomenon that the fine raw materials collide with the convex blocks 103 and other shoveled larger raw materials to generate larger degree of crushing after the movable frame 304 is shoveled upwards is avoided, so that the reaction effect of the smaller raw materials is reduced.

When the electric heating tube 208 is matched with the electric heating wire 209 to heat the interior of the mixing tank 101, the electric heating tube 208 has a layering effect on the heating of the interior of the mixing tank 101 because the electric heating tube 208 is positioned on the inner wall of the mixing tank 101, namely, the temperature heating efficiency at the inner wall end of the mixing tank 101 is high, the heating efficiency at the center position of the mixing tank 101 is low, meanwhile, along with the crushing reaction of the raw materials at the ends of the multiple groups of fixing plates 102, the temperature value of the area detected by the area temperature detecting unit should be synchronously increased, the temperature difference detected by the area temperature detecting unit and the top temperature detecting unit should be within a preset temperature difference value, and if the temperature difference detected by the area temperature detecting unit and the top temperature detecting unit is smaller than the preset temperature difference value, especially, the area temperature detecting unit is arranged at the fixing plate 102 and near the end of the transmission rod 305, the reaction efficiency of the raw materials in the area is not satisfied, but because the movable frame 304 rotates to the same inclination angle along with the transmission of the transmission rod 305, in order to increase the reaction rate of the raw materials in the area, the control unit controls the change of the energizing current of a plurality of groups of electromagnetic blocks above, that is, the energizing current of the electromagnetic blocks from the end of the transmission rod 305 to the end of the electrothermal tube 208 is increased, the magnetic repulsive force exerted by the electromagnetic blocks on the bottom magnetic end plate 316 changes, the upper guide plate 315 inclines obliquely downwards from the end of the transmission rod 305 to the end of the electrothermal tube 208, at this time, under the action of the rotation of the movable frame 304 and the oblique feeding of the upper guide plate 315, the raw materials positioned in the center of the mixing tank 101 move obliquely downwards to the end of the electrothermal tube 208 on the inner wall of the mixing tank 101 along the top of the upper guide plate 315, so that the raw materials react rapidly under the heating action of the electrothermal tubes 208 and 209, thereby improving the heating reaction of the raw materials in different areas.

And along with the inside reaction of compounding jar 101 constantly goes on, compounding jar 101 inside raw materials constantly reduces, the temperature value that top temperature detection element detected constantly increases and reaches the biggest temperature default that sets up, hand wheel 310 drives transfer line 305 and rotates to biggest angle this moment, angle sensor detects the angle value and is the maximum, transfer line 305 drives movable frame 304 inclination and is biggest, movable frame 304 is in relative vertical state, hydraulic ram 108 drives fixed plate 102 and moves to keeping away from movable frame 304 end to the maximum distance, fixed plate 102 can not cause the hindrance to the rotation of movable frame 304, and the magnetic repulsion that the electromagnetic plate applyed magnetic end plate 316 is minimum, then drive the clearance between upper guide plate 315 and the lower guide plate 311 under the elasticity effect of torsional spring is biggest, along with the rotation of movable frame 304, the inside raw materials of compounding jar 101 pass recess 312 and guiding hole 313, further realization is to the mixing stirring filter effect of the inside raw materials of compounding jar 101.

After the reaction inside the mixing tank 101 is completed, a valve in the discharge pipe 107 is opened, raw materials inside the mixing tank 101 are discharged, heating medium is stopped from being introduced into the jacket 201, the temperature inside the mixing tank 101 is reduced, the hand wheel 310 is reversely rotated, the transmission rod 305 is driven to reversely rotate to the maximum value, the rotation angle value detected by the rotation angle detection unit is reduced to the minimum value, the transmission rod 305 drives the movable frame 304 to reversely rotate to the maximum value, the inclination angle of the movable frame 304 is reduced and tends to be horizontal, the control unit controls the hydraulic push rod 108 to drive the fixed plate 102 to move to the maximum value towards the end close to the movable frame 304 and match with the outer surface of the movable frame 304, the driving motor 104 drives the rotary rod 301 to rotate, and when the rotary rod 301 drives the movable frame 304 to rotate, the outer surface of the movable frame 304 is cleaned by vibration by virtue of the convex block 103 and the cleaning part, the cleaning effect on the outer surface of the movable frame 304 is effectively improved, and the blocking cleaning performance is stronger.

The device not only realizes the scooping and crushing of the raw materials in the mixing tank 101, but also can correspondingly adjust the scooping height and crushing efficiency of the raw materials along with the continuous progress of the reaction, and has higher adjustability and stronger adaptability; the sliding position of raw materials can be adjusted in a self-adaptive manner according to the temperature change in the area, so that the reaction efficiency of the raw materials in different areas is improved effectively, the operability is stronger, the stability is higher, and the internal structure can be vibrated and cleaned after the reaction is completed, so that the influence on the subsequent reaction is avoided effectively.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. The special production equipment for hot compress materials based on the meridian dredging composition is characterized by comprising a mixing assembly, a temperature control assembly, a stirring assembly and a top cover;

the mixing assembly comprises a mixing tank, a plurality of groups of fixing parts are arranged on the inner side wall of the mixing tank in a surrounding mode, the fixing parts comprise two fixing plates, one ends of the fixing plates are connected with the inner wall of the mixing tank in a sliding mode through hydraulic pushing rods, a plurality of groups of protruding blocks are uniformly arranged on one side, facing each other, of the two fixing plates in a uniform array mode, a plurality of groups of electromagnetic blocks are uniformly arranged on the bottom of the protruding blocks in the upper portion of the fixing plates, and an area temperature detection unit is arranged in the upper portion of the fixing plates;

the temperature control assembly comprises a jacket, wherein a plurality of extending covers with annular structures are arranged in the jacket, a plurality of insertion holes are formed in the inner side walls of the extending covers in a penetrating mode, insertion pipes are arranged in the insertion holes in a penetrating mode, and electric heating pipes are arranged at the other ends of the insertion pipes;

the stirring assembly comprises a rotating rod, a connecting seat is arranged at the bottom end of the rotating rod, a plurality of rotating shafts are arranged on the outer side wall of the rotating rod in a surrounding mode, a movable frame is arranged at the other end of the rotating shaft, a lower guide plate is arranged at the inner bottom of the movable frame, an upper guide plate is movably connected to the inner top of the movable frame through a torsion spring, and a magnetic end plate is arranged at the other end of the upper guide plate.

2. The special production equipment for hot compress materials based on the meridian dredging composition according to claim 1, wherein the special production equipment is characterized in that: the temperature control assembly is arranged on the outer side of the mixing assembly, the stirring assembly is arranged in the mixing assembly, the top cover is arranged on the top end of the mixing assembly, and a control unit is arranged on one side of the mixing tank.

3. The special production equipment for hot compress materials based on the meridian dredging composition according to claim 1, wherein the special production equipment is characterized in that: the outside bottom of blending tank is equipped with driving motor, driving motor's output shaft is equipped with the drive wheel, the lower surface middle part of connecting seat is equipped with from the driving wheel, from the driving wheel with be equipped with drive belt between the drive wheel, the bottom of blending tank encircles and is equipped with a plurality of landing legs, the bottom of blending tank runs through and is equipped with row material pipe, the bottom of row material pipe is equipped with the valve.

4. The special production equipment for hot compress materials based on the meridian dredging composition according to claim 1, wherein the special production equipment is characterized in that: the jacket is fixedly arranged on the outer side wall of the mixing tank, the extension cover penetrates through the outer side wall of the mixing tank and extends to the inside of the mixing tank, a heat conduction pipe with an annular structure is arranged in the extension cover, a plurality of heat conduction fins with inclined structures are arranged on the outer side of the heat conduction pipe, and a plurality of heat conduction holes are formed in the middle of the heat conduction fins in a penetrating mode.

5. The special production equipment for hot compress materials based on the meridian dredging composition according to claim 4, wherein the special production equipment is characterized in that: one end of the insertion pipe penetrates through the outer side wall of the heat conduction pipe, the electric heating pipe is arranged in the mixing tank, an electric heating wire with a spiral structure is arranged in the electric heating pipe, a guide plate with the spiral structure is arranged on the inner side wall of the jacket, and round corners are arranged at two ends of the extension cover.

6. The special production equipment for hot compress materials based on the meridian dredging composition according to claim 1, wherein the special production equipment is characterized in that: the connecting seat penetrates through the middle part of the bottom end of the mixing tank through the sealing bearing, the rotating rod is of a hollow structure, one end of the rotating shaft is located inside the rotating rod, and the movable frame is arranged between the two fixing plates.

7. The special production equipment for hot compress materials based on the meridian dredging composition according to claim 1, wherein the special production equipment is characterized in that: the inside of bull stick is equipped with the transfer line, one side of transfer line is equipped with the corner detection unit, the corner detection unit detects the corner value of transfer line, the bottom of transfer line pass through the bearing run through set up in the middle part of connecting seat, the middle part of transfer line is equipped with a plurality of drive bevel gears, drive bevel gear's outside is encircleed and is equipped with a plurality of drive bevel gears, drive bevel gear fixed set up in the one end of pivot.

8. The special production equipment for hot compress materials based on the meridian dredging composition according to claim 7, wherein the special production equipment is characterized in that: the lower surface middle part of connecting seat is equipped with the locating sleeve, the locating sleeve with the transfer line cup joints and connects, run through in the screw that the locating sleeve outside middle part was seted up and be equipped with the lock bolt, the one end of lock bolt is laminated mutually with the lateral wall of transfer line, the bottom of transfer line is equipped with the hand wheel.

9. The special production equipment for hot compress materials based on the meridian dredging composition according to claim 1, wherein the special production equipment is characterized in that: the lower guide plate and the upper guide plate are both arranged to be of inclined structures, the other end of the lower guide plate and the inner part of the magnetic end plate are both penetrated and provided with grooves with a plurality of saw-tooth structures, and the middle parts of the lower guide plate and the upper guide plate are penetrated and provided with a plurality of guide holes.

10. The special production equipment for hot compress materials based on the meridian dredging composition according to claim 1, wherein the special production equipment is characterized in that: the inner bottom of top cap is equipped with top temperature detection unit, top temperature detection unit detects the inside temperature value of compounding jar, regional temperature detection unit detects the temperature value of fixed plate week side, the magnetism of electromagnetism piece and magnetism end plate looks face-to-face is the same, down Fang Duozu all be equipped with cleaning part between the lug.