CN116327486A

CN116327486A - Processing equipment and processing technology of collagen dressing

Info

Publication number: CN116327486A
Application number: CN202310381525.3A
Authority: CN
Inventors: 郑招荣; 蔡佳龙; 文海; 吴达
Original assignee: Hainan Pulang Medical Technology Development Co ltd
Current assignee: Hainan Pulang Medical Technology Development Co ltd
Priority date: 2023-04-11
Filing date: 2023-04-11
Publication date: 2023-06-27

Abstract

The invention belongs to the technical field of collagen dressing processing, and particularly relates to processing equipment and a processing technology of collagen dressing. The invention can automatically regulate and control the rotation speed of the stirring blade according to the blocked force when the stirring blade works so as to ensure the stirring effect, and simultaneously, the energy and electricity control purpose is achieved.

Description

Processing equipment and processing technology of collagen dressing

Technical Field

The invention belongs to the technical field of collagen dressing processing, and particularly relates to processing equipment and processing technology of collagen dressing.

Background

Collagen is a protein extract derived from animal connective tissue and is critical for skin cell regeneration. Is favorable for restoring skin elasticity and luster and delaying aging after frequent use. Therefore, people often inject the gel into medical dressing, and the gel and the repair patch are in mature forms in the field of view of the public, and are widely used and promoted, so that the market competition is strong.

Through many years of research on liquid dressing products by our company, the production process tends to have the greatest influence on the service performance of the final product, so that related production equipment is often required to be updated to obtain liquid dressing products with better performance.

In the process of processing the collagen dressing, the collagen raw material and the liquid medicine are required to be mixed to prepare the collagen dressing, and in the process of mixing and stirring preparation, the collagen raw material is often added into a processing box in an unordered way, and the stirring speed of a traditional stirring mechanism is constant, so that the collagen raw material in the processing box is often unevenly distributed, and the stirring blades are not consistent in resistance when rotating to all positions in the stirring and mixing process, so that the stirring blades are easy to damage; in addition, the stirring blades of the processing equipment are stiff in design, the stirring speed can not be automatically regulated and controlled according to the blocked force, on one hand, the utilization rate of the collagen raw material is low, on the other hand, due to insufficient stirring, the follow-up procedure is required to be added to ensure that the whole components of the dressing are uniform, and the production difficulty is increased according to the requirement of production quality.

Therefore, we propose a processing device and processing technology of collagen dressing to solve the above problems.

Disclosure of Invention

The invention aims at providing a processing device and a processing technology of collagen dressing aiming at the problems.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a processing equipment of collagen dressing, includes the processing case, the processing case is rotated and is provided with the pivot, and the upper end transmission of pivot is connected with driving motor, fixedly in the pivot be provided with a plurality of stirring seats, rotate on the stirring seat and be provided with a plurality of stirring leaves, and be provided with on the stirring seat with each stirring leaf matched with allies oneself with accuse mechanism, be provided with between pivot and the processing case with allies oneself with accuse mechanism matched with conductive mechanism, be provided with a plurality of pressure sensing mechanism on the stirring leaf, and be provided with on the stirring seat with each pressure sensing mechanism matched with varistor mechanism, varistor mechanism and corresponding allies oneself with accuse mechanism electric connection, inlay on the inner wall of processing case and be provided with the electrical heating board, and be provided with temperature sensing monitoring mechanism in the processing case, one side of processing case is provided with temperature sensing monitoring mechanism matched with automatic control switch, and electrical heating board electric connection.

In the processing equipment of collagen dressing, the allies oneself with accuse mechanism comprises micro motor, guide shaft and a plurality of bevel gear group, set up the allies oneself with accuse chamber on the stirring seat, and the guide shaft rotates to set up in allies oneself with accuse chamber, the one end and the micro motor drive of guide shaft are connected, each the one end of the transmission shaft of stirring leaf all extends to allies oneself with accuse intracavity and sets up, and the guide shaft passes through each bevel gear group and is connected with the transmission shaft transmission of each stirring leaf.

In the processing equipment of collagen dressing, the conductive mechanism comprises a conductive block and annular conductive sheets, the conductive block is fixedly arranged on the rotating shaft, an annular guide groove matched with the conductive block is formed in the inner wall of the upper side of the processing box, the annular conductive sheets are embedded in the annular guide groove, the conductive block is electrically connected with each micro motor, and the annular conductive sheets are externally connected with a power supply.

In the processing equipment for collagen dressing, the pressure sensing mechanism is composed of an elastic shell and a ceramic piezoelectric plate, wherein the elastic shell is fixedly arranged on the stirring blade, and the ceramic piezoelectric plate is embedded in the elastic shell.

In the processing equipment of collagen dressing, the varistor mechanism comprises varistor cavity, electromagnetic block, metal block, guide arm and slide rheostat, the varistor cavity is seted up on the stirring leaf, and the electromagnetic block inlays and locates in the varistor cavity, the electromagnetic block passes through reset spring and metal block fixed connection, metal block and varistor cavity sliding connection, and the guide arm is fixed to be set up on the metal block, the slide rheostat is fixed to be set up in the varistor cavity, and the one end that the guide arm kept away from the metal block and slide rheostat's slide-end fixed connection, the electromagnetic block is parallelly connected with each ceramic piezoelectric piece that corresponds, slide rheostat and corresponding micromotor electric connection.

In the processing equipment of collagen dressing, the temperature sensing monitoring mechanism comprises resistance seat, thermistor and a plurality of heat conduction stick, the resistance seat is fixed to be set up in the processing case, and the thermistor is fixed to be set up in the resistance seat, and is respectively the heat conduction stick is fixed to be set up on the resistance seat, the one end of heat conduction stick runs through the resistance seat setting, and the other end and the thermistor contact of heat conduction stick are connected.

In the processing equipment for collagen dressing, the automatic control switch is composed of a switch box, an electromagnetic plate, a permanent magnet plate, a pressing block and a reset pressure switch, wherein the switch box is fixedly arranged on one side wall of the processing box, the electromagnetic plate is fixedly arranged in the switch box, the electromagnetic plate is fixedly connected with the permanent magnet plate through a telescopic spring, the permanent magnet plate is in sliding connection with the switch box, the pressing block is fixedly arranged on the lower side of the permanent magnet plate, the reset pressure switch is fixedly arranged on the inner wall of the lower side of the switch box, the pressing block is extruded with a contact of the reset pressure switch, the electromagnetic plate is electrically connected with a thermistor, and the reset pressure switch is electrically connected with an electric heating plate.

In the processing equipment of the collagen dressing, a protective cover matched with the conductive mechanism is fixedly arranged in the processing box, and the rotating shaft penetrates through the protective cover.

A processing technology of processing equipment of collagen dressing, comprising the following steps:

s1, conveying raw materials and liquid medicine to be stirred into a processing box through each feed pipe, then controlling a driving motor, an electric heating plate and each micro motor to start, wherein the driving motor controls a rotating shaft to rotate, the rotating shaft drives each stirring seat to rotate to transversely rotate, the micro motor on the stirring seat controls a guide shaft to rotate, and each stirring blade on the stirring seat longitudinally rotates to stir the raw materials under the transmission cooperation of each bevel gear set;

s2, when the resistance force applied to the stirring blade is overlarge in the stirring process, the elastic shell deforms more and more, the ceramic piezoelectric plate on the elastic shell generates stronger current, the current introduced by the electromagnetic block is increased, the magnetism of the electromagnetic block is enhanced, the suction force between the electromagnetic block and the metal block is enhanced, the metal block drives the sliding end on the slide rheostat to move through the guide rod, the resistance value on the corresponding micro motor circuit is reduced, the power of the micro motor is further improved, the rotating speed of the micro motor is enhanced, and the rotating speed of the stirring blade on the stirring seat is enhanced;

s3, after the electric heating plate is started, the temperature inside the processing box is increased, raw materials are better mixed with the liquid medicine in a dissolving mode, when the temperature inside the processing box is too high, the temperature of the surface of the thermistor rises along with the heat transfer of the heat conducting rod, the resistance of the thermistor can be reduced, the current introduced by the electromagnetic plate is increased, the magnetism of the electromagnetic plate is enhanced, the electromagnetic plate can attract the permanent magnet plate to move upwards, the permanent magnet plate can drive the pressing block to move upwards, the pressing block contacts the contact point of the reset pressure switch, the contact point of the reset pressure switch can reset, a circuit of the electric heating plate is disconnected, and the electric heating plate is automatically powered off to stop heating.

Compared with the prior art, the invention has the beneficial effects that: through the pressure sense electric mechanism that sets up, can be according to the resistance change that stirring leaf received, produce corresponding signal of telecommunication, cooperation varistor mechanism, but the working power of automatic control allies oneself with accuse mechanism for allies oneself with accuse mechanism can keep suitable rotational speed according to the obstructed condition of stirring leaf, and in order to guarantee stirring effect, can control simultaneously and can save electric energy cost, through the temperature sensing monitoring mechanism that sets up, can be when electrical heating board heating temperature is too high, through automatic control switch automatic control electrical heating board outage, in order to guarantee the suitability of processing incasement portion temperature.

To sum up: through the design of the invention, the stirring blade can automatically regulate and control the rotating speed according to the blocked force when in operation so as to ensure the stirring effect, and simultaneously, the energy and electricity control purpose is achieved, and the equipment can automatically regulate and control the operation temperature when in operation so as to ensure the suitability of the operation temperature.

Drawings

FIG. 1 is a schematic diagram of a front perspective structure of a processing apparatus for collagen dressing provided by the invention;

fig. 2 is a schematic diagram of the internal structure of a protective cover of a processing device for collagen dressing provided by the invention;

fig. 3 is a schematic diagram of a front perspective structure of a stirring seat of a processing device for collagen dressing provided by the invention;

FIG. 4 is a schematic side view of a stirring blade and a pressure sensing mechanism of a collagen dressing processing device according to the present invention;

FIG. 5 is a schematic view of the internal structure of a varistor cavity of a processing device for collagen dressing provided by the invention;

fig. 6 is a schematic structural view of a temperature sensing mechanism of a collagen dressing processing apparatus provided by the present invention;

fig. 7 is a schematic structural diagram of an automatic control switch of a collagen dressing processing device provided by the invention.

In the figure: 1 processing box, 2 rotating shafts, 3 driving motors, 4 stirring seats, 5 stirring blades, 6 joint control mechanisms, 61 micro motors, 62 guide shafts, 63 bevel gear sets, 7 conductive mechanisms, 71 conductive blocks, 72 annular conductive plates, 8 pressure induction mechanisms, 81 elastic shells, 82 ceramic piezoelectric plates, 9 varistor mechanisms, 91 varistor cavities, 92 electromagnetic blocks, 93 metal blocks, 94 guide rods, 95 sliding varistors, 10 electric heating plates, 11 temperature sensing monitoring mechanisms, 111 resistor seats, 112 thermistors, 113 heat conducting rods, 12 automatic control switches, 121 switch boxes, 122 electromagnetic plates, 123 permanent magnet plates, 124 pressing blocks, 125 reset pressure switches, 13 joint control cavities, 14 annular guide grooves, 15 telescopic springs, 16 protective covers and 17 reset springs.

Description of the embodiments

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.

As shown in fig. 1-7, a processing device for collagen dressing and a processing technology thereof, the processing device comprises a processing box 1, a rotating shaft 2 is rotationally arranged in the processing box 1, a driving motor 3 is connected to the upper end of the rotating shaft 2 in a transmission way, a plurality of stirring seats 4 are fixedly arranged on the rotating shaft 2, a plurality of stirring blades 5 are rotationally arranged on the stirring seats 4, a linkage control mechanism 6 matched with each stirring blade 5 is arranged on the stirring seats 4, the linkage control mechanism 6 consists of a micro motor 61, a guide shaft 62 and a plurality of bevel gear sets 63, a linkage control cavity 13 is arranged on the stirring seats 4, the guide shaft 62 is rotationally arranged in the linkage control cavity 13, one end of the guide shaft 62 is in transmission connection with the micro motor 61, one end of a transmission shaft of each stirring blade 5 is in transmission connection with the transmission shaft of each stirring blade 5 through each bevel gear set 63, and each stirring blade 5 on the micro motor 61 can be controlled to synchronously rotate through the transmission cooperation of each bevel gear set 63, so that the use quantity of the driving device is reduced, and cost is reduced;

a conductive mechanism 7 matched with the joint control mechanism 6 is arranged between the rotating shaft 2 and the processing box 1, a protective cover 16 matched with the conductive mechanism 7 is fixedly arranged in the processing box 1, the rotating shaft 2 penetrates through the protective cover 16, and the protective cover 16 can protect the conductive mechanism 7;

the conductive mechanism 7 consists of a conductive block 71 and an annular conductive sheet 72, the conductive block 71 is fixedly arranged on the rotating shaft 2, an annular guide groove 14 matched with the conductive block 71 is formed in the inner wall of the upper side of the processing box 1, the annular conductive sheet 72 is embedded in the annular guide groove 14, the conductive block 71 is electrically connected with each micro motor 61, the annular conductive sheet 72 is externally connected with a power supply, and the rotation of each stirring seat 4 can be matched through the matching of the arranged conductive block 71 and the annular conductive sheet 72 to supply power to each micro motor 61;

the stirring blade 5 is provided with a plurality of pressure sensing mechanisms 8, the stirring seat 4 is provided with a variable resistance mechanism 9 matched with each pressure sensing mechanism 8, the pressure sensing mechanism 8 consists of an elastic shell 81 and a ceramic piezoelectric plate 82, the elastic shell 81 is fixedly arranged on the stirring blade 5, the ceramic piezoelectric plate 82 is embedded in the elastic shell 81, corresponding electric signal changes can be generated based on the received extrusion force changes through the arranged ceramic piezoelectric plate 82, the variable resistance mechanism 9 consists of a variable resistance cavity 91, an electromagnetic block 92, a metal block 93, a guide rod 94 and a slide rheostat 95, the variable resistance cavity 91 is arranged on the stirring blade 5, the electromagnetic block 92 is embedded in the variable resistance cavity 91, the electromagnetic block 92 is fixedly connected with the metal block 93 through the reset spring 17, the metal block 93 is in sliding connection with the varistor cavity 91, the guide rod 94 is fixedly arranged on the metal block 93, the slide rheostat 95 is fixedly arranged in the varistor cavity 91, one end of the guide rod 94, which is far away from the metal block 93, is fixedly connected with the sliding end of the slide rheostat 95, the electromagnetic block 92 is connected with the corresponding ceramic piezoelectric plates 82 in parallel, the slide rheostat 95 is electrically connected with the corresponding micro motor 61, the corresponding magnetic intensity can be generated according to the electric signal change of the pressure sensing mechanism 8 through the arranged electromagnetic block 92, and the slide rheostat 95 and the reset spring 17 are matched, so that the resistance value of a circuit connected into the micro motor 61 can be controlled and controlled automatically;

the varistor mechanism 9 is electrically connected with the corresponding joint control mechanism 6, the electric heating plate 10 is embedded on the inner wall of the processing box 1, the temperature sensing monitoring mechanism 11 is arranged in the processing box 1, the temperature sensing monitoring mechanism 11 consists of a resistor seat 111, a thermistor 112 and a plurality of heat conducting rods 113, the resistor seat 111 is fixedly arranged in the processing box 1, the thermistor 112 is fixedly arranged in the resistor seat 111, each heat conducting rod 113 is fixedly arranged on the resistor seat 111, one end of each heat conducting rod 113 penetrates through the resistor seat 111, the other end of each heat conducting rod 113 is in contact connection with the corresponding thermistor 112, and the thermistor 112 can sense the temperature change in the processing box 1 through the arranged heat conducting rods 113, so that corresponding resistance change is generated;

one side of the processing box 1 is provided with an automatic control switch 12 matched with the temperature sensing monitoring mechanism 11, the automatic control switch 12 is electrically connected with the electric heating plate 10, the automatic control switch 12 is formed by a switch box 121, an electromagnetic plate 122, a permanent magnet plate 123, a pressing block 124 and a reset pressure switch 125, the switch box 121 is fixedly arranged on one side wall of the processing box 1, the electromagnetic plate 122 is fixedly arranged in the switch box 121, the electromagnetic plate 122 is fixedly connected with the permanent magnet plate 123 through a telescopic spring 15, the permanent magnet plate 123 is in sliding connection with the switch box 121, the pressing block 124 is fixedly arranged on the lower side of the permanent magnet plate 123, the reset pressure switch 125 is fixedly arranged on the inner wall of the lower side of the switch box 121, the pressing block 124 is extruded with the contact of the reset pressure switch 125, the electromagnetic plate 122 is electrically connected with the thermistor 112, the reset pressure switch 125 is electrically connected with the electric heating plate 10, the magnetic strength of the electromagnetic plate 122 can be automatically controlled based on the resistance change of the temperature sensing monitoring mechanism 11, the pressing block 124 can be automatically controlled to move up and down by matching with the permanent magnet plate 123 and the telescopic spring 15, and the automatic control of the pressing block 124 can be automatically controlled to open and close the reset pressure switch 125.

The principle of operation of the present invention will now be described as follows:

when the stirring device is used, raw materials and liquid medicine to be stirred are conveyed into a processing box 1 through each feeding pipe, then, a driving motor 3, an electric heating plate 10 and each micro motor 61 are controlled to start, the driving motor 3 can control a rotating shaft 2 to rotate, the rotating shaft 2 can drive each stirring seat 4 to rotate transversely, a micro motor 61 on the stirring seat 4 can control a guide shaft 62 to rotate, under the transmission cooperation of each bevel gear set 63, each stirring blade 5 on the stirring seat 4 can longitudinally rotate to stir the raw materials, when the stirring blades 5 are excessively high in stirring process, the elastic shell stress on the stirring blades is deformed by a longer distance, the ceramic piezoelectric plates 82 on the stirring blades can generate stronger current, the current introduced by an electromagnetic block 92 is increased, the magnetism of the electromagnetic block 92 can be enhanced, the suction force between the electromagnetic block 92 and a metal block 93 is enhanced, the sliding end on a sliding rheostat 95 is driven by the metal block 93 to move through a guide rod 94, the resistance value on a circuit corresponding micro motor 61 is reduced, the power of the micro motor 61 is further improved, the rotation speed of the micro motor 61 is enhanced, and the stirring blades 5 on the stirring blade 4 can be better overcome;

after the electric heating plate 10 is started, the interior of the processing box 1 is heated, so that raw materials are better dissolved and mixed with liquid medicine, when the temperature in the processing box 1 is too high, the temperature of the surface of the thermistor 112 rises along with the heat transfer of the heat conducting rod 113, the resistance of the thermistor 112 is reduced, the current introduced by the electromagnetic plate 122 is increased, the magnetism of the electromagnetic plate 122 is enhanced, the electromagnetic plate 122 can attract the permanent magnet plate 123 to move upwards, the permanent magnet plate 123 can drive the pressing block 124 to move upwards, the contact presses the contact of the reset pressure switch 125, the contact of the reset pressure switch 125 is reset, the circuit of the electric heating plate 10 is disconnected, the heating is automatically stopped, and the condition that the heating temperature is too high and the stirring and mixing effects are influenced is avoided.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims

1. The utility model provides a processing equipment of collagen dressing, includes processing case (1), its characterized in that, the rotation is provided with pivot (2) in processing case (1), and the upper end transmission of pivot (2) is connected with driving motor (3), fixedly be provided with a plurality of agitator arms (4) on pivot (2), rotate on agitator arms (4) and be provided with a plurality of stirring leaf (5), and be provided with on agitator arms (4) with each stirring leaf (5) matched with allies oneself with accuse mechanism (6), be provided with between pivot (2) and processing case (1) with allies oneself with accuse mechanism (6) matched with conductive mechanism (7), be provided with a plurality of pressure sensing electric mechanism (8) on agitator arms (5), and be provided with on agitator arms (4) with each pressure sensing electric mechanism (8) matched with varistor mechanism (9), on the inner wall of processing case (1) inlay and be equipped with electrical heating board (10), and be provided with in processing case (1) with temperature sensing mechanism (11) and the automatic control switch (12), monitoring case (12) and electrical connection (12) with automatic control switch (12).

2. The processing device of a collagen dressing according to claim 1, wherein the joint control mechanism (6) is composed of a micro motor (61), a guide shaft (62) and a plurality of bevel gear sets (63), the stirring seat (4) is provided with a joint control cavity (13), the guide shaft (62) is rotationally arranged in the joint control cavity (13), one end of the guide shaft (62) is in transmission connection with the micro motor (61), one end of a transmission shaft of each stirring blade (5) extends into the joint control cavity (13) to be arranged, and the guide shaft (62) is in transmission connection with the transmission shaft of each stirring blade (5) through each bevel gear set (63).

3. The processing device of the collagen dressing according to claim 2, wherein the conductive mechanism (7) is composed of a conductive block (71) and annular conductive sheets (72), the conductive block (71) is fixedly arranged on the rotating shaft (2), an annular guide groove (14) matched with the conductive block (71) is formed in the inner wall of the upper side of the processing box (1), the annular conductive sheets (72) are embedded in the annular guide groove (14), the conductive block (71) is electrically connected with each micro motor (61), and the annular conductive sheets (72) are externally connected with a power supply.

4. A processing device for a collagen dressing according to claim 3, wherein the pressure sensing mechanism (8) is composed of an elastic shell (81) and a ceramic piezoelectric plate (82), the elastic shell (81) is fixedly arranged on the stirring blade (5), and the ceramic piezoelectric plate (82) is embedded in the elastic shell (81).

5. The processing device for collagen dressing according to claim 4, wherein the varistor mechanism (9) is composed of a varistor cavity (91), an electromagnetic block (92), a metal block (93), a guide rod (94) and a slide rheostat (95), the varistor cavity (91) is formed on the stirring blade (5), the electromagnetic block (92) is embedded in the varistor cavity (91), the electromagnetic block (92) is fixedly connected with the metal block (93) through a return spring (17), the metal block (93) is slidably connected with the varistor cavity (91), the guide rod (94) is fixedly arranged on the metal block (93), the slide rheostat (95) is fixedly arranged in the varistor cavity (91), one end, far away from the metal block (93), of the guide rod (94) is fixedly connected with the slide rheostat (95), the electromagnetic block (92) is parallel to each corresponding ceramic piezoelectric plate (82), and the slide rheostat (95) is electrically connected with the corresponding micro motor (61).

6. The processing device of a collagen dressing according to claim 1, wherein the temperature sensing monitoring mechanism (11) is composed of a resistor seat (111), a thermistor (112) and a plurality of heat conducting rods (113), the resistor seat (111) is fixedly arranged in the processing box (1), the thermistor (112) is fixedly arranged in the resistor seat (111), each heat conducting rod (113) is fixedly arranged on the resistor seat (111), one end of each heat conducting rod (113) penetrates through the resistor seat (111) to be arranged, and the other end of each heat conducting rod (113) is in contact connection with the thermistor (112).

7. The collagen dressing processing device according to claim 6, wherein the self-control switch (12) is composed of a switch box (121), an electromagnetic plate (122), a permanent magnet plate (123), a pressing block (124) and a reset pressure switch (125), the switch box (121) is fixedly arranged on one side wall of the processing box (1), the electromagnetic plate (122) is fixedly arranged in the switch box (121), the electromagnetic plate (122) is fixedly connected with the permanent magnet plate (123) through a telescopic spring (15), the permanent magnet plate (123) is in sliding connection with the switch box (121), the pressing block (124) is fixedly arranged on the lower side of the permanent magnet plate (123), the reset pressure switch (125) is fixedly arranged on the lower side inner wall of the switch box (121), the pressing block (124) is extruded with a contact point of the reset pressure switch (125), the electromagnetic plate (122) is electrically connected with the thermistor (112), and the reset pressure switch (125) is electrically connected with the electric heating plate (10).

8. A processing device for collagen dressing according to claim 1, wherein a protective cover (16) matched with the conductive mechanism (7) is fixedly arranged in the processing box (1), and the rotating shaft (2) penetrates through the protective cover (16).

9. A process for a processing apparatus for a collagen dressing according to any one of claims 1 to 8, comprising the steps of:

s1, conveying raw materials and liquid medicine to be stirred into a processing box (1) through each feed pipe, then controlling a driving motor (3), an electric heating plate (10) and each micro motor (61) to start, controlling a rotating shaft (2) to rotate by the driving motor (3), driving each stirring seat (4) to rotate by the rotating shaft (2), transversely rotating, controlling a guide shaft (62) to rotate by the micro motor (61) on the stirring seat (4), and stirring the raw materials by longitudinal rotation of each stirring blade (5) on the stirring seat (4) under the transmission cooperation of each bevel gear set (63);

s2, when the resistance force applied to the stirring blade (5) is overlarge in the stirring process, the elastic shell is deformed by a larger distance, so that the ceramic piezoelectric sheet (82) on the stirring blade can generate stronger current, the current introduced by the electromagnetic block (92) is increased, the magnetism of the electromagnetic block (92) is enhanced, the suction force between the electromagnetic block (92) and the metal block (93) is enhanced, the metal block (93) drives the sliding end on the sliding rheostat (95) to move through the guide rod (94), the resistance value on the circuit corresponding to the miniature motor (61) is reduced, the power of the miniature motor (61) is further improved, the rotating speed of the miniature motor (61) is enhanced, and the rotating speed of the stirring blade (5) on the stirring seat (4) is further enhanced;

s3, after the electric heating plate (10) is started, the temperature inside the processing box (1) is increased, raw materials are better mixed with the liquid medicine in a dissolving mode, when the temperature inside the processing box (1) is too high, the temperature of the surface of the thermistor (112) is increased along with the temperature of the heat conduction rod (113), the resistance of the thermistor (112) is reduced, the current introduced by the electromagnetic plate (122) is increased, the magnetism of the electromagnetic plate (122) is enhanced, the electromagnetic plate (122) can attract the permanent magnet plate (123) to move upwards, the permanent magnet plate (123) can drive the pressing block (124) to move upwards, the pressing of the contact of the reset pressure switch (125) is contacted, the contact of the reset pressure switch (125) is reset, the circuit of the electric heating plate (10) is disconnected, and the electric heating plate (10) is automatically powered off to stop heating.