CN110280164B - Temperature-adjustable resin reagent stirring device and method - Google Patents

Abstract

A resin reagent stirring device capable of adjusting temperature and a method thereof comprise a shell, an inner container, a rotary seat and a conversion part, wherein the inner container is arranged in the shell connected with the rotary seat, the conversion part is positioned in the shell, the inner container is driven by a motor to rotate to drive a stirring shaft positioned in the inner container to rotate, a stirring sheet connected with the stirring shaft is used for expanding and stirring resin, and the temperature after heating or refrigeration is transferred to the resin in the inner container through the conversion part. The invention overcomes the problems of uneven stirring, high labor intensity of manual stirring and inconvenient temperature adjustment in the original test process when the resin is stirred, and has the characteristics of simple structure, uniform stirring, labor saving, simple and convenient operation, and the resin can be heated or cooled before stirring.

Description

Temperature-adjustable resin reagent stirring device and method

Technical Field

The invention belongs to the technical field of stirring, and relates to a temperature-adjustable resin reagent stirring device and method.

Background

The stirring work of the existing resin reagent is mostly manually completed, and a common stirring device can only perform simple stirring work, and has the defects that the manual stirring is time-consuming and labor-consuming, inconvenient, possibly uneven in stirring and poor in effect, the common stirring device only has a stirring function and cannot meet the temperature requirement during reagent stirring, and for example, the strength of reagents such as resin and the like is different after the reagents are stirred at different temperatures. At present agitating unit function singleness does not have the temperature regulation function that can satisfy the experimenter needs before the reagent stirring.

Disclosure of Invention

The invention aims to solve the technical problem of providing a temperature-adjustable resin reagent stirring device and a temperature-adjustable resin reagent stirring method, which have simple structure, the inner container is arranged in the shell connected with the rotating seat, the conversion part is positioned in the shell, the motor drives the inner container to rotate to drive the stirring shaft positioned in the inner container to rotate, the stirring blade connected with the stirring shaft is used for stirring resin, the conversion part is used for transmitting the heated or refrigerated temperature to the resin in the inner container, the resin can be heated or cooled before stirring, and the stirring is uniform, labor-saving and simple and convenient to operate.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a temperature-adjustable resin reagent stirring device comprises a shell, an inner container, a rotary seat and a conversion part; the inner container is matched with the shell, the outer wall of the inner container is close to the inner wall of the shell, the shell is matched with the rotating seat, the conversion component is positioned in the shell, and the motor positioned in the rotating seat is connected with the bottom of the inner container; the conversion part controls the temperature of the inner container.

The casing is both ends open-ended double-deck cavity tubular structure, and the inner wall cross section reduces to the bottom slope from the top down gradually, and the outer wall sets up the handle.

The housing bottom is closed by an inclined annular plate.

The inner container is a hollow cylinder with an upper end opening inclined towards the closed bottom, and the cylinder bottom is fixedly connected with an output shaft of the motor.

The bottom in the inner container cavity is provided with a vertical stirring shaft, and a plurality of stirring sheets are connected with the stirring shaft through pin shafts.

The inner wall of the inner container is provided with a plurality of heat conducting columns.

The rotary seat is a flat plate with a groove in the center, the motor is arranged at the center of the groove, and the bottom of the shell is matched with the groove.

The conversion component comprises an electromagnet, a magnetic fluid, a baffle, a heat source and a cold source, the electromagnet is positioned at the upper part in the shell cavity, the magnetic fluid is positioned at the upper part of the annular plate, the baffle is annularly distributed in the double-layer cavity of the shell, and the heat source and the cold source are positioned at the lower side of the annular plate.

And a one-way liquid guide film is arranged between the annular plate and the baffle.

The stirring method of the resin reagent stirring device with the temperature adjustable comprises the following steps:

s1, adding materials, namely adding the resin to be stirred into the inner container; the liquid level of the resin is positioned at about five fifths of the opening end of the inner container;

s2, heating, closing a circuit of a heat source, and heating the magnetic fluid on the upper part of the annular plate by the heat generated by the heat source;

s3, cooling, closing a circuit of the cold source, and cooling the magnetic fluid on the upper part of the annular plate by the low temperature generated by the cold source;

s4, converting energy, closing a power supply of the electromagnet, enabling magnetic force generated by the electrified electromagnet to adsorb magnetic fluid to flow upwards, conducting the temperature of the magnetic fluid after being heated or cooled to the inner container through the heat conducting columns on the inner container, and heating or cooling the resin;

s5, stirring, closing a circuit of the motor, and driving the inner container to rotate by the motor; the stirring shaft rotates along with the rotation of the inner container, centrifugal force generated by the rotation of the stirring shaft enables the stirring sheet which is connected with the pin shaft and hung to be unfolded in an inclined shape, and the stirring shaft rotates to stir resin;

in the above steps, S2 and S3 are not performed synchronously.

A temperature-adjustable resin reagent stirring device comprises a shell, an inner container, a rotary seat and a conversion part; the inner container is matched with the shell, the outer wall of the inner container is close to the inner wall of the shell, the shell is matched with the rotating seat, the conversion component is positioned in the shell, and the motor positioned in the rotating seat is connected with the bottom of the inner container; the conversion part controls the temperature of the inner container. Simple structure sets up the inner bag through the casing of being connected with the roating seat in, and the changeover portion is located the casing, and it is rotatory to drive the (mixing) shaft that is located the inner bag through the rotation of motor drive inner bag, expandes stirring resin with the stirring vane of stirring shaft connection, and the temperature conduction after will heating or refrigerate through the changeover portion is to the resin in the inner bag, can heat or cool down the resin before the stirring, and the stirring is laborsaving, easy operation is convenient.

In preferred scheme, the casing is the double-deck cavity tubular structure of both ends open-ended, and the inner wall cross section reduces to the bottom slope from the top down gradually, and the outer wall sets up the handle. Simple structure, during the use, the conversion part is located the double-deck space of casing, and the barrel inner wall is the slope form, and the great one end of opening up, the outer wall of inner bag is close to the inner wall of its slope, the conduction temperature of being convenient for, the handle is used for holding to hold and holds and hold between the fingers convenient operation.

In a preferred embodiment, the housing bottom is closed by an inclined annular plate. Simple structure, during the use, the annular plate of upper and lower opening cone structure is located the double-deck space of casing, keeps apart and seals double-deck space, and the great one end in annular plate cross-section is towards the casing bottom.

In a preferred scheme, the inner container is a hollow cylinder with an upper end opening inclined towards the closed bottom, and the cylinder bottom is fixedly connected with an output shaft of the motor. Simple structure, during the use, the output shaft rotation of motor drives the inner bag rotatory, and when the inner bag was rotatory, its outer wall did not contact with the inner wall of casing, reduced friction.

In the preferred scheme, a vertical stirring shaft is arranged at the bottom in the cavity of the inner container, and a plurality of stirring blades are connected with the stirring shaft through pin shafts. Simple structure, during the use, the inner bag drives the (mixing) shaft rotation when rotatory, and the (mixing) shaft rotation drives the rotatory resin in the stirring inner bag of stirring piece.

In a preferred scheme, a plurality of heat conduction columns are arranged on the inner wall of the inner container. Simple structure, during the use, the heat conduction post is used for heating or cooling the resin with the inside of the temperature conduction of magnetic current body to the inner bag.

In the preferred scheme, the rotating seat is a flat plate with a groove arranged at the center, the motor is arranged at the center of the groove, and the bottom of the shell is matched with the groove. Simple structure, during the use, fix the motor in roating seat recess bottom, its output shaft up, the casing bottom is located the recess internal fixation of roating seat, and during the motor was rotatory, the casing was in the stationary state, and the inner bag of being connected with the motor is in the rotating state, stirs efficiently, and is even during the stirring, low in labor strength.

In a preferred scheme, the conversion component comprises an electromagnet, a magnetic fluid, a baffle, a heat source and a cold source, the electromagnet is positioned at the upper part in the cavity of the shell, the magnetic fluid is positioned at the upper part of the annular plate, the baffle is annularly distributed in the double-layer cavity of the shell, and the heat source and the cold source are positioned at the lower side of the annular plate. The structure is simple, when the electromagnetic energy-saving device is used, the power supply of the heat source or the cold source is closed to generate high temperature or low temperature, the temperature is conducted to the magnetic fluid on the upper portion of the annular plate, then the power supply of the electromagnet is closed, the electromagnet generates magnetic force to adsorb the magnetic fluid to move upwards, and the temperature is conducted to the inner wall of the shell.

In a preferred scheme, a one-way liquid guide film is arranged between the annular plate and the baffle. Simple structure, after the electro-magnet loses the electricity, the magnetic current body loses the flow effect, falls along the space that is close to between casing outer wall and the baffle, enters into the annular plate bottom, and the electro-magnet is circular telegram again after, through entering into the space that is close to between annular plate and the casing inner wall from one-way drain membrane.

In a preferred embodiment, the stirring method of the resin reagent stirring apparatus with temperature adjustable as above comprises the steps of:

s1, adding materials, namely adding the resin to be stirred into the inner container; the liquid level of the resin is positioned at about five fifths of the opening end of the inner container;

s2, heating, closing a circuit of a heat source, and heating the magnetic fluid on the upper part of the annular plate by the heat generated by the heat source;

s3, cooling, closing a circuit of the cold source, and cooling the magnetic fluid on the upper part of the annular plate by the low temperature generated by the cold source;

s4, converting energy, closing a power supply of the electromagnet, enabling magnetic force generated by the electrified electromagnet to adsorb magnetic fluid to flow upwards, conducting the temperature of the magnetic fluid after being heated or cooled to the inner container through the heat conducting columns on the inner container, and heating or cooling the resin;

s5, stirring, closing a circuit of the motor, and driving the inner container to rotate by the motor; the stirring shaft rotates along with the rotation of the inner container, centrifugal force generated by the rotation of the stirring shaft enables the stirring sheet which is connected with the pin shaft and hung to be unfolded in an inclined shape, and the stirring shaft rotates to stir resin;

in the above steps, S2 and S3 are not performed synchronously. The method has the advantages of simple and convenient operation, high stirring efficiency, low labor intensity and uniform stirring.

A resin reagent stirring device capable of adjusting temperature and a method thereof comprise a shell, an inner container, a rotary seat and a conversion part, wherein the inner container is arranged in the shell connected with the rotary seat, the conversion part is positioned in the shell, the inner container is driven by a motor to rotate to drive a stirring shaft positioned in the inner container to rotate, a stirring sheet connected with the stirring shaft is used for expanding and stirring resin, and the temperature after heating or refrigeration is transferred to the resin in the inner container through the conversion part. The invention overcomes the problems of uneven stirring, high labor intensity of manual stirring and inconvenient temperature adjustment in the original test process when the resin is stirred, and has the characteristics of simple structure, uniform stirring, labor saving, simple and convenient operation, and the resin can be heated or cooled before stirring.

Drawings

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

FIG. 1 is a schematic structural diagram of the template of the present invention.

FIG. 2 is a schematic view of the structure of the stirring shaft of the present invention.

In the figure: the device comprises a shell 1, a handle 11, an annular plate 12, an inner container 2, a stirring shaft 21, stirring blades 22, a heat conducting column 23, a rotary base 3, a motor 31, a conversion component 4, an electromagnet 41, a magnetic fluid 42, a baffle 43, a heat source 44, a cold source 45 and a one-way liquid guiding film 46.

Detailed Description

As shown in fig. 1-2, a temperature-adjustable resin reagent stirring device comprises a shell 1, an inner container 2, a rotary seat 3 and a conversion component 4; the inner container 2 is matched with the shell 1, the outer wall of the inner container 2 is close to the inner wall of the shell 1, the shell 1 is matched with the rotating seat 3, the conversion component 4 is positioned in the shell 1, and the motor 31 positioned in the rotating seat 3 is connected with the bottom of the inner container 2; the conversion part 4 controls the temperature of the inner container 2. Simple structure, through set up inner bag 2 in the casing 1 of being connected with roating seat 3, changeover portion 4 is located casing 1, it is rotatory to drive the (mixing) shaft 21 that is located inner bag 2 through motor 31 drive inner bag 2 is rotatory, stir the resin with stirring vane 22 expansion of (mixing) shaft 21 connection, the temperature conduction after will heating or refrigerate through changeover portion 4 is to the resin in inner bag 2, can heat or lower the temperature to the resin before the stirring, and is laborsaving, and easy operation is convenient.

In the preferred scheme, casing 1 is both ends open-ended double-deck cavity tubular structure, and the inner wall cross section from the top down reduces to the bottom slope gradually, and the outer wall sets up handle 11. Simple structure, during the use, conversion part 4 is located casing 1's double-deck space, and the barrel inner wall is the slope form, and the great one end of opening up, the inner wall that the outer wall of inner bag 2 is close to its slope, the conduction temperature of being convenient for, handle 11 is used for holding to hold and holds and hold between the fingers convenient operation.

Preferably, the double-layer inner wall of the shell 1 is made of copper material, and the conduction efficiency is high during temperature conversion.

In a preferred embodiment, the bottom of the housing 1 is closed by an inclined annular plate 12. Simple structure, during the use, the annular plate 12 of upper and lower open-ended cone structure is located the double-deck space of casing 1, keeps apart and seals the double-deck space, and the great one end in annular plate 12 cross-section is towards casing 1 bottom.

In a preferable scheme, the inner container 2 is a hollow cylinder with an upper end opening inclined towards a closed bottom, and the cylinder bottom is fixedly connected with an output shaft of the motor 31. Simple structure, during the use, the output shaft rotation of motor 31 drives the inner bag 2 rotatory, and when inner bag 2 was rotatory, its outer wall did not contact with the inner wall of casing 1, reduced friction.

In the preferred scheme, a vertical stirring shaft 21 is arranged at the bottom in the cavity of the inner container 2, and a plurality of stirring blades 22 are connected with the stirring shaft 21 through pin shafts. Simple structure, during the use, the inner bag 2 drives the (mixing) shaft 21 rotatory when rotatory, and the (mixing) shaft 21 is rotatory to drive stirring piece 22 rotatory stirring inner bag 2 resin in.

Preferably, the stirring shaft 21 is a rod body with a polygonal structure, a groove is axially arranged along the polygonal surface, a plurality of pin shafts radially penetrate through the groove, and a shaft hole is formed in one end of the stirring blade 22 and matched with the pin shafts.

Preferably, the stirring blades 22 are of a plate-like structure, and are suspended in the grooves of the stirring shaft 21 when the stirring shaft 21 is in a static state.

In a preferred scheme, a plurality of heat-conducting columns 23 are arranged on the inner wall of the inner container 2. Simple structure, during the use, heat conduction post 23 is used for conducting the inside of inner bag 2 with the temperature of magnetic fluid 42, heats or cools down the resin.

Preferably, the heat-conducting column 23 is a copper column, and penetrates through the wall of the inner container 2, and the heat-conducting column 23 contacts with the inner wall of the casing 1 when the inner container 2 is at rest.

In the preferred scheme, the rotating seat 3 is a flat plate with a groove at the center, the motor 31 is arranged at the center of the groove, and the bottom of the shell 1 is matched with the groove. Simple structure, during the use, fixes the motor 31 in 3 recess bottoms of roating seat, and its output shaft is up, and 1 bottoms of casing are located the recess internal fixation of roating seat 3, and when motor 31 was rotatory, casing 1 was in the stationary state, and inner bag 2 of being connected with motor 31 is in the rotating state, stirs efficiently, and is even during the stirring, low in labor strength.

Preferably, when the motor 31 rotates at a high speed, the output shaft of the motor extends upwards under the inertia effect to jack up the inner container 2, so that the heat conduction column 23 on the inner container 2 is separated from the contact with the shell 1, and the resistance of the inner container 2 during rotation is reduced.

In a preferred scheme, the conversion component 4 includes an electromagnet 41, a magnetic fluid 42, a baffle 43, a heat source 44 and a cold source 45, the electromagnet 41 is located at the upper part in the cavity of the housing 1, the magnetic fluid 42 is located at the upper part of the annular plate 12, the baffle 43 is annularly arranged in the double-layer cavity of the housing 1, and the heat source 44 and the cold source 45 are located at the lower side of the annular plate 12. The structure is simple, when the device is used, the power supply of the heat source 44 or the cold source 45 is closed to generate high temperature or low temperature, the temperature is conducted to the magnetic fluid 42 on the upper part of the annular plate 12, then the power supply of the electromagnet 41 is closed, the electromagnet 41 generates magnetic force to adsorb the magnetic fluid 42 to move upwards, and the temperature is conducted to the inner wall of the shell 1.

Preferably, the baffle 43 is an annular cylindrical structure, and is fixedly connected with the outer wall of the housing 1, and when the magnetic fluid flows, the magnetic fluid is located in an annular space between the baffle 43 and the inner wall of the housing 1.

Preferably, the heat source 44 is a heating wire, which heats quickly.

Preferably, the cold source 45 is a refrigeration sheet, and one side generating a cooling effect is tightly attached to the annular plate 12.

Preferably, the motor 31, the electromagnet 41, the heat source 44 and the cold source 45 are a commercial power supply or an energy storage power supply, and when the energy storage power supply is used, the energy storage power supply carrier is located in the handle 11.

Preferably, the switches of the motor 31, the electromagnet 41, the heat source 44 and the cold source 45 are disposed on the handle 11 for convenience in operation.

In a preferred embodiment, a single-direction liquid guide film 46 is disposed between the annular plate 12 and the baffle 43. The structure is simple, when the electromagnet 41 loses power, the magnetic fluid 42 loses the flow effect, falls along the space between the outer wall of the shell 1 and the baffle 43 and enters the bottom of the annular plate 12, and after the electromagnet 41 is electrified again, the magnetic fluid passes through the one-way liquid guiding film 46 and enters the space between the annular plate 12 and the inner wall of the shell 1.

In a preferred embodiment, the stirring method of the resin reagent stirring apparatus with temperature adjustment as described above comprises the steps of:

s1, adding materials, namely adding the resin to be stirred into the inner container 2; the liquid level of the resin is positioned at the position of about one fifth of the opening end of the inner container 2;

s2, heating, closing the circuit of the heat source 44, and heating the magnetic fluid 42 on the upper part of the annular plate 12 by the heat generated by the heat source 44;

s3, cooling, closing the circuit of the cold source 45, and cooling the magnetic fluid 42 on the upper part of the annular plate 12 by the low temperature generated by the cold source 45;

s4, converting energy, closing a power supply of the electromagnet 41, enabling magnetic force generated by the electrified electromagnet 41 to adsorb the magnetic fluid 42 to flow upwards, conducting the temperature of the magnetic fluid 42 after being heated or cooled to the inside of the liner 2 through the heat conducting columns 23 on the liner 2, and heating or cooling the resin;

s5, stirring, closing the circuit of the motor 31, and driving the inner container 2 to rotate by the motor 31; the stirring shaft 21 rotates along with the rotation of the inner container 2, and the centrifugal force generated by the rotation of the stirring shaft 21 enables the stirring sheet 22 which is connected with the pin shaft and is suspended to be unfolded in an inclined shape and rotate to stir the resin;

in the above steps, S2 and S3 are not performed synchronously. The method has the advantages of simple and convenient operation, high stirring efficiency, low labor intensity and uniform stirring.

As above-mentioned resin reagent agitating unit of adjustable temperature, during the installation use, set up inner bag 2 in the casing 1 of being connected with roating seat 3, conversion part 4 is located casing 1, motor 31 drive inner bag 2 is rotatory to be driven and is located the (mixing) shaft 21 rotation of inner bag 2, stir the resin with stirring shaft 21 connected's stirring piece 22 expansion stirring, conversion part 4 conducts the resin in inner bag 2 with the temperature after heating or refrigeration, can heat or cool down the resin before the stirring, labor-saving, easy operation is convenient.

During the use, conversion part 4 is located the double-deck space of casing 1, and the barrel inner wall is the slope form, and the great one end of opening is up, and the outer wall of inner bag 2 is close to its inclined inner wall, the conduction temperature of being convenient for, and handle 11 is used for holding to hold and holds between the fingers convenient operation.

When the conical plate is used, the annular plate 12 of the upper and lower opening cone structure is positioned in the double-layer space of the shell 1 to isolate and close the double-layer space, and the end with the larger section of the annular plate 12 faces the bottom of the shell 1.

When the inner container 2 is used, the output shaft of the motor 31 rotates to drive the inner container 2 to rotate, and when the inner container 2 rotates, the outer wall of the inner container does not contact with the inner wall of the shell 1, so that friction is reduced.

When the stirring device is used, the inner container 2 drives the stirring shaft 21 to rotate when rotating, and the stirring shaft 21 drives the stirring sheet 22 to rotate and stir resin in the inner container 2.

When in use, the heat conducting column 23 is used for conducting the temperature of the magnetic fluid 42 to the inner part of the inner container 2, and heating or cooling the resin.

During the use, fix the motor 31 in roating seat 3 recess bottom, its output shaft is up, and 1 bottom of casing is located the recess internal fixation of roating seat 3, and when motor 31 was rotatory, casing 1 was in the stationary state, and the inner bag 2 of being connected with motor 31 is in the rotating state, and stirring efficiency is high, and is even during the stirring, low in labor strength.

When the electromagnetic heating device is used, the power supply of the heat source 44 or the cold source 45 is closed to generate high temperature or low temperature, the temperature is conducted to the magnetic fluid 42 on the upper portion of the annular plate 12, then the power supply of the electromagnet 41 is closed, the electromagnet 41 generates magnetic force to adsorb the magnetic fluid 42 to move upwards, and the temperature is conducted to the inner wall of the shell 1.

When the electromagnet 41 is de-energized, the magnetic fluid 42 loses the flow effect, falls along the space between the outer wall of the shell 1 and the baffle 43, enters the bottom of the annular plate 12, and passes through the one-way liquid guiding film 46 to enter the space between the annular plate 12 and the inner wall of the shell 1 after the electromagnet 41 is energized again.

The above-described embodiments are merely preferred embodiments of the present invention, and should not be construed as limiting the present invention, and features in the embodiments and examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention is defined by the claims, and includes equivalents of technical features of the claims. I.e., equivalent alterations and modifications within the scope hereof, are also intended to be within the scope of the invention.

Claims (9)

1. A resin reagent agitating unit of adjustable temperature, characterized by: the device comprises a shell (1), an inner container (2), a rotating seat (3) and a conversion component (4); the inner container (2) is matched with the shell (1), the outer wall of the inner container (2) is close to the inner wall of the shell (1), the shell (1) is matched with the rotating seat (3), the conversion component (4) is positioned in the shell (1), and the motor (31) positioned in the rotating seat (3) is connected with the bottom of the inner container (2); the conversion part (4) controls the temperature of the inner container (2);

the stirring method of the temperature-adjustable resin reagent stirring device comprises the following steps:

s1, adding materials, namely adding the resin to be stirred into the inner container (2); the liquid level of the resin is positioned at four fifths of the opening end of the inner container (2);

s2, heating, closing the circuit of the heat source (44), and heating the magnetic fluid (42) on the upper part of the annular plate (12) by the heat generated by the heat source (44);

s3, cooling, closing a circuit of the cold source (45), and cooling the magnetic fluid (42) on the upper part of the annular plate (12) by the low temperature generated by the cold source (45);

s4, converting energy, closing a power supply of the electromagnet (41), enabling magnetic force generated by the electrified electromagnet (41) to adsorb the magnetic fluid (42) to flow upwards, conducting the temperature of the magnetic fluid (42) after being heated or cooled to the inside of the inner container (2) through the heat conducting column (23) on the inner container (2), and heating or cooling the resin;

s5, stirring, closing a circuit of the motor (31), and driving the inner container (2) to rotate by the motor (31); the stirring shaft (21) rotates along with the rotation of the inner container (2), and the centrifugal force generated by the rotation of the stirring shaft (21) enables the stirring sheet (22) which is connected with the pin shaft and is suspended to be unfolded in an inclined shape and rotates to stir the resin;

in the above steps, S2 and S3 are not performed synchronously.

2. The temperature-adjustable resin reagent stirring apparatus according to claim 1, wherein: casing (1) is both ends open-ended double-deck cavity tubular structure, and the inner wall cross section from the top down reduces to the bottom slope gradually, and the outer wall sets up handle (11).

3. The temperature-adjustable resin reagent stirring apparatus according to claim 2, wherein: the bottom of the shell (1) is closed by an inclined annular plate (12).

4. The temperature-adjustable resin reagent stirring apparatus according to claim 1, wherein: the inner container (2) is a hollow cylinder with an upper end opening inclined towards the closed bottom, and the cylinder bottom is fixedly connected with an output shaft of the motor (31).

5. The temperature-adjustable resin reagent stirring device according to claim 4, wherein: the bottom in the cavity of the inner container (2) is provided with a vertical stirring shaft (21), and a plurality of stirring blades (22) are connected with the stirring shaft (21) through pin shafts.

6. The temperature-adjustable resin reagent stirring device according to claim 4, wherein: the inner wall of the inner container (2) is provided with a plurality of heat-conducting columns (23).

7. The temperature-adjustable resin reagent stirring apparatus according to claim 1, wherein: the rotary seat (3) is a flat plate with a groove at the center, the motor (31) is arranged at the center of the groove, and the bottom of the shell (1) is matched with the groove.

8. The temperature-adjustable resin reagent stirring apparatus according to claim 1, wherein: the conversion component (4) comprises an electromagnet (41), a magnetic fluid (42), a baffle (43), a heat source (44) and a cold source (45), wherein the electromagnet (41) is positioned at the upper part in the cavity of the shell (1), the magnetic fluid (42) is positioned at the upper part of the annular plate (12), the baffle (43) is annularly arranged in the double-layer cavity of the shell (1), and the heat source (44) and the cold source (45) are positioned at the lower side of the annular plate (12).

9. The temperature-adjustable resin reagent stirring apparatus according to claim 8, wherein: a one-way liquid guide film (46) is arranged between the annular plate (12) and the baffle (43).

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