WO2010123205A2

WO2010123205A2 - Constant temperature agitating device and agitating method using the same

Info

Publication number: WO2010123205A2
Application number: PCT/KR2010/001792
Authority: WO
Inventors: 정광회; 이광형; 최행석; 고정재
Original assignee: 차의과학대학교 산학협력단
Priority date: 2009-04-22
Filing date: 2010-03-24
Publication date: 2010-10-28
Also published as: WO2010123205A3; KR101076699B1; KR20100116347A

Abstract

A constant temperature agitating device for agitating substances received in a container comprises a base, a container receiving body part and a shaking motion part. The container receiving body part is positioned at an upper part of the base, and includes upper and lower body parts for covering the upper and lower parts of the container so as to receive the container, wherein the inner surfaces of the upper and lower body parts which contact with the container form a container receiving part corresponding to the outer surface of the container. The shaking motion part shakes the container receiving body part against the base. The container receives heat via the inner surface contacting with the container receiving part.

Description

Agitation method using constant temperature stirring device and constant temperature stirring device

The present invention relates to a stirring method using a constant temperature stirrer and a constant temperature stirrer, and more particularly, to a stirring method using a constant temperature stirrer and a constant temperature stirrer for efficiently stirring the water contained in the container.

Enzymes or chemicals can be added to a sample taken from an animal or human body to extract a desired substance from the sample taken or to observe the reaction of the sample to enzymes or chemicals.

The sample collected below may be referred to as a target substance, and enzymes or chemicals that react with the target substance may be referred to as reactants, and both the target substance and the reactants may be referred to as water-soluble substances.

When observing biochemical and chemical reactions of enzymes or chemicals from a sample, it is possible to observe the passage of time in containers provided in various forms in order to isolate the receiving material from the outside during the reaction.

The container may be provided in the form of a bag made of a flexible material for accommodating the receiving material, or may be provided in a test tube or a petri dish having a certain shape.

On the other hand, in order for the sample to react effectively with enzymes or chemicals, the water contained in the container may be heated or adjusted to a predetermined temperature and then maintained at that temperature for a predetermined time. Likewise, the container may be shaken up, down, left, or right, or vibrated to mix the target and reactant well to induce an effective reaction.

The warming and constant temperature process for the receiving material may be accomplished through various methods. For example, the container containing the receiving material may be warmed or maintained at a constant temperature using a heat transfer method through air. In another example, the vessel itself containing the receiving material may be warmed or maintained at a constant temperature bath using heat transfer through water.

However, as described above, the heat transfer method using air or hot water has a considerable problem.

For example, the heat transfer method through the air using a thermostat takes a relatively long time to heat the vessel to a predetermined temperature, the time that the receiving material reaches the target enzyme reaction temperature of 37 ℃ using the warmed circulating air Due to the large amount required, damage to the sample can be prevented, and the preparation of the desired material may not be easy.

In addition, the heat transfer method through the water using a constant temperature water tank can heat the vessel relatively faster than the heat transfer through the air described above, but the container is in direct contact with water and the bacteria and Exposure to external factors such as viruses can easily occur.

Therefore, the conventional heating and constant temperature maintenance of the container using a thermostat or a constant temperature bath is not efficient for the reasons mentioned above.

The present invention provides a stirring method using a constant temperature stirrer and a constant temperature stirrer capable of heating the water contained in the container to a predetermined temperature in a relatively fast time and maintaining a constant temperature.

The present invention provides a stirring method using a constant temperature stirrer and a constant temperature stirrer capable of isolating the water contained in the container from the contaminants present in the water tank, heating and maintaining a constant temperature in a short time.

According to an exemplary embodiment of the present invention for achieving the above object of the present invention, the constant temperature stirring device for stirring the receiving material contained in the container, is located on the base, the upper part of the base to cover the upper and lower parts of the container An inner surface of the upper body portion and the lower body portion, the upper body portion and the lower body portion in contact with the container, the container receiving body portion forming a container receiving portion corresponding to the outer surface of the container, and shaking the container receiving body portion relative to the base It is provided with a shaking motion to exercise, the heat transfer to the container through the inner surface of the container receiving portion in contact with the container.

By implementing the heating and constant temperature of the container using the method of transferring heat to the container through the inner surface of the container receiving portion, compared to the method of transferring heat through a conventional thermostat or a constant temperature bath, heat is transferred directly through the constant temperature water tank. Since heat transfer efficiency is similar to that of water, and heat transfer is not performed through water, there is little exposure to external contaminants such as bacteria and viruses.

The container receiving part may be formed through various methods. For example, at least one of the upper body part and the lower body part may include a solid mold in contact with the container, and the solid mold may be formed to correspond to the outer surface of the container. It includes a groove, the receiving groove may form part of the container receiving portion.

In another example, at least one of the upper body portion and the lower body portion includes a flow pack in contact with the container, the inside of the flow pack is filled with a fluid capable of storing heat, the outer surface of the flow pack to the outer surface of the container It may be deformed to be in close contact to form part of the container receiving portion. At this time, the flow pack may be formed of a material capable of elastic deformation.

In still another example, at least one of the upper body portion and the lower body portion includes a plurality of contact adhesive pieces contacting the container, and the contact adhesive pieces are supported to be displaceable with respect to the upper body portion or the lower body portion, and the contact closely adheres to each other. The piece may be displaced to be in close contact with the outer surface of the container and form part of the container receiving portion.

Of course, at least one of the upper body portion and the lower body portion includes a heating element, it is possible to transfer the heat generated from the heating element to the container, the heating element is preferably disposed adjacent to the container receiving portion.

Further, according to another exemplary embodiment of the present invention, the container receiving body portion for the stirring device for agitating the receiving material contained in the container coupled to the shaking motion base capable of shaking motion, the upper body to accommodate the upper and lower parts of the container An inner surface of the upper body portion and the lower body portion, which includes a portion and a lower body portion, and forms a container receiving portion corresponding to the outer surface of the container, and may transfer heat to the container through the inner surface of the container receiving portion in contact with the container.

Container housing body portion according to the present invention can be detachably combined with the base or shaking motion portion of the constant temperature stirring device, can be used to replace the container housing body portion to match the container provided in various forms. For reference, the base may be provided separately from the shaking motion part, and may refer to the upper surface of the shaking motion part.

In still another exemplary embodiment of the present invention, a stirring method for agitating a receiving material contained in a container using a stirring device is disclosed. The stirring method includes an upper body portion and a lower body portion covering the upper and lower portions of the container, and inner surfaces of the upper body portion and the lower body portion in contact with the container include a container accommodating body portion forming a container accommodating portion corresponding to the outer surface of the container. Providing a stirring device, positioning a container between the upper body portion and the lower body portion, bringing the opposite inner surface of the upper body portion and the lower body portion into close contact with the outer surface of the vessel, and shaking the container holding body portion. And warming the vessel to a specific temperature through the inner surface of the vessel receiving portion in contact with the vessel.

The constant temperature stirring device and the stirring method of the present invention can minimize the damage to the sample by heating the water contained in the container to a desired temperature in a relatively fast time, the production of the desired material can be made efficiently.

The constant temperature stirrer and the stirring method of the present invention can be isolated from the contaminants present in the water bath, can be heated and maintained at a constant time, and at the same time can agitate the receiving material.

1 is a perspective view showing a constant temperature stirring device according to a first embodiment of the present invention.

2 is a cross-sectional view partially showing the container housing body part by cutting the constant temperature stirring device of FIG. 1 in the A-A direction.

Figure 3 is a partial perspective view showing a constant temperature stirring device according to a second embodiment of the present invention.

4 is a cross-sectional view partially showing the container housing body part by cutting the constant temperature stirring device of FIG. 3 in the B-B direction.

Figure 5 is a perspective view of the container housing body portion of the constant temperature stirring device according to a third embodiment of the present invention.

FIG. 6 is a cross-sectional view illustrating the container housing body part by cutting FIG. 5 in the C-C direction.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited or limited by the embodiments. For reference, in the present description, the same numbers refer to substantially the same elements, and may be described by referring to the contents described in the other drawings under these rules, and the contents determined to be obvious to those skilled in the art or repeated may be omitted.

Example 1

1 is a perspective view showing a constant temperature stirring device according to a first embodiment of the present invention, Figure 2 is a cross-sectional view partially showing the container housing body part by cutting the constant temperature stirring device of Figure 1 in the A-A direction.

1 and 2, the constant temperature agitation device 100 for agitating the receiving material contained in the container 10 includes a base 110, a container housing body 120, and a shaking motion part 150.

Stem cells of adipose tissue can be used for the purpose of regenerating various damaged tissues in the human body, and in particular, they can be differentiated into hematopoietic cells, nerve cells, skin reconstructions, chondrocytes, cardiomyocytes, and blood vessel cells. Can be used. On the other hand, when stem cells are separated from bone marrow, umbilical cord blood, peripheral blood, and embryos, it is necessary to overcome complex problems such as ethical issues, pain of the subjects to be collected, and contamination by external factors such as bacteria and viruses during the process. The usefulness of stem cells is becoming more important.

For example, using a constant temperature agitation device according to the present embodiment using the excess adipose tissue in the human body as a sample, it can be used to isolate the adipose stem cells described above.

Hereinafter, the sample collected in the present specification may be referred to as a target substance, enzymes or chemicals reacting with the target substance may be referred to as a reactant, and both the target substance and the reactant may be referred to as water-soluble substances.

The container 10 is provided in this embodiment in the form of a bag made of a flexible material to accommodate the receiving material.

The base 110 is provided in a plate shape, the bottom surface of the base 110 is connected to the output shaft 151 of the gear assembly for transforming the rotational movement of the motor disposed in the shaking motion unit 150 to the up, down, left and right and vibration movement.

In addition, the base 110 is coupled to the lower body portion 125 of the container receiving body portion 120. Specifically, a pair of hook portions 111 extending upward from the side edges of the base 110 are formed, and a pair of coupling grooves in which the hook portions 111 are inserted into both side surfaces of the lower body portion 125 is formed. 129 is formed. The container housing body 120 may be detachably coupled to the base 110.

The container accommodating body part 120 is positioned above the base 110 and includes an upper body part 121 and a lower body part 125 that cover and accommodate the upper and lower parts of the container 10, and contact the container 10. The inner surfaces of the upper body portion 121 and the lower body portion 125 form a container receiving portion 130 corresponding to the outer surface of the container 10, the container 10 is an inner surface in contact with the container receiving portion 130 Heat can be transmitted through.

Specifically, the upper body portion 121 includes an upper outer case 122, an upper intermediate mold 123, and an upper inner mold 124.

The upper outer case 122 is formed using a material such as synthetic resin and rubber having low thermal conductivity, so that the heat of the heating element 160 disposed inside the upper outer case 122 to generate heat does not conduct to the outside. It is possible to quickly and economically keep the container 10 at warm and constant temperature.

The upper intermediate mold 123 is formed to be inserted into the upper outer case 122, and a space in which the heating element 160 is disposed is provided.

The upper inner mold 124 is inserted into the arrangement space provided in the upper intermediate mold 123, the upper receiving grooves 131 are formed in the upper surface of each container 10 in contact with the inner surface. For reference, the upper inner mold 124 may be used to replace the upper receiving groove 131 is formed to match the outer shape of the container 10 that can be provided in various forms.

The upper middle mold 123 and the upper inner mold 124 are formed of a metal mold having excellent thermal conductivity, and the heat generated from the heating element 160 is easily conducted, and the container is inserted into the upper receiving groove 131 ( 10) can conduct heat evenly.

Similarly, the lower body portion 125 includes a lower outer case 126, a lower intermediate mold 127, and a lower inner mold 128.

The lower outer case 126 is formed using a material such as synthetic resin and rubber having a low thermal conductivity, so that the heat of the heating element 160 that is disposed inside the lower outer case 126 to generate heat does not conduct to the outside. It is possible to quickly and economically keep the container 10 at warm and constant temperature.

The lower intermediate mold 127 is formed to be inserted into the lower outer case 126, and a space in which the heating element 160 is disposed is provided.

The lower inner mold 128 is inserted into an arrangement space provided in the lower intermediate mold 127, and lower receiving grooves 132 are formed at upper portions of the respective containers 10 to contact their inner surfaces. For reference, the lower inner mold 128 may be used to replace the lower receiving groove 132 is formed to match the outer shape of the container 10 that can be provided in various forms.

The lower middle mold 127 and the lower inner mold 128 are formed of a metal mold having excellent thermal conductivity, and heat generated from the heating element 160 is easily conducted, and the container is inserted into the lower receiving groove 132. 10) can conduct heat evenly.

For reference, the lower outer case 126 may be provided with a temperature display window that can display the temperature separately from the temperature window provided on the outside of the shaking motion unit 150 to be described later, the shaking motion unit 150 or the lower outer case The temperature windows provided at 126 may all be disposed around the vessel 10 or the heating element 160 to display the temperature through a temperature sensor for measuring the temperature.

As described above, the pair of upper accommodating grooves 131 and the lower accommodating grooves 132 formed on the upper body 121 and the lower body 125 to face each other to face each other accommodate one container. The unit 130 is formed.

In addition, in the present embodiment, the heating element 160 is disposed in each of the upper intermediate mold 123 and the lower intermediate mold 127, but in some cases it may be installed only on either side. However, the heating element 160 may be disposed adjacent to the container receiving portion 130 for effective heat conduction.

In addition, the upper body 121 and the lower body 125 is foldably coupled so that the upper body 121 is relatively movable with the lower body 125 so as to expose the upper surface of the lower body 125. To be combined.

Thus, the container 10 is disposed in the lower receiving groove 132 formed in the lower body portion 125 while the upper body 121 is opened to open the front surface of the lower body portion 125, and the upper body portion ( The container 10 may be disposed in the container accommodating part 130 by closing the front surface of the lower body part 125.

After that, the shaking motion unit 150 may shake the container housing body 120 with respect to the base 110, and the shaking motion may include both up, down, left, and right movements or vibration movements.

When the upper body portion 121 and the lower body portion 125 at the time of shaking motion can be used to separate the fixing member 140, in this embodiment the fixing member 140 is provided in the form of a clip The upper body portion 121 and the lower body portion 125 may be coupled to each other.

On the other hand, the appropriate temperature of the container 10 while performing a shaking motion so that the mixing between the target material and the reactant contained in the container 10 is well made in this embodiment the temperature of the water to the optimum temperature of the target enzyme reaction 37 ℃ It can be raised to maintain its temperature for a period of time.

For reference, in the present specification, the shaking motion unit 150 controls the rotation speed of the motor and the gearbox and the motor to be transmitted to the base 110 by transforming the rotational motion of the motor and the rotational movement of the motor up and down, left and right and vibration, It may include a control unit for controlling the power delivered to the heating element 160 provided as a heating wire. For reference, the power provided from the shaking motion unit 150 to the heating element 160 may be transmitted through the output shaft 151. In addition, the power delivered to the heating element may be supplied from a battery or a separate AC power provided separately in the upper or lower body portion in which the heating element is disposed.

Heat transmitted directly from the heating element 160 to the container 10 may instantly raise the temperature of the container 10 in contact with the upper body 121 and the lower body 125 to a higher temperature than the target temperature, but with stirring. In addition, since the shaking action proceeds at the same time, the effect on the actual cells is insignificant and the enzyme treatment can proceed quickly without damaging the cells.

As described above, the method of transferring heat to the container 10 through the inner surface of the container accommodating part 120, as compared with the transfer of heat through a conventional thermostat or a constant temperature bath, heat directly through the constant temperature water tank It achieves heat transfer efficiency similar to that of transfer, but can be isolated from the contaminants present in the bath because it is not water-borne.

Example 2

The constant temperature stirring device according to the second embodiment of the present invention is substantially the same as the constant temperature stirring device described in the first embodiment. Therefore, the description of the constant temperature stirring apparatus I in the second embodiment may refer to the description and drawings of the constant temperature stirring apparatus of the first embodiment, and the repeated content may be omitted. In particular, the shaking motion portion and the base of the constant temperature stirring device of the present embodiment may be used substantially the same as the shaking motion portion described in the first embodiment, the contents of the shaking motion portion and the base of the present embodiment described in the first embodiment and See description.

However, in the second embodiment of the present invention will be described in more detail with respect to the container housing body portion different from the components of the first embodiment.

Figure 3 is a partial perspective view showing a constant temperature stirring device according to a second embodiment of the present invention, Figure 4 is a cross-sectional view partially showing the container housing body part by cutting the constant temperature stirring device of Figure 3 in the B-B direction.

3 and 4, the container 20 is provided as a test tube having a certain shape to accommodate the receiving material in this embodiment.

The container accommodating body part 220 is positioned above the base 110 and includes an upper body part 221 and a lower body part 225 that cover and accommodate the upper and lower parts of the container 20, and are in contact with the container 20. The inner surfaces of the upper body portion 221 and the lower body portion 225 form a container receiving portion 230 corresponding to the outer surface of the container 20, the container 20 is the inner surface in contact with the container receiving portion 230 Heat can be transmitted through.

Specifically, the upper body portion 221 includes an upper outer case 222 and a flow pack 223 in contact with the container 20. Specifically, the upper outer case 222 may be formed using a heat insulating material having a low thermal conductivity to maintain the appearance of the flow pack 223 inserted therein. The fluid pack 223 is filled with a fluid 30 capable of storing heat. The fluid 30 may use a liquid having a high specific gravity, and generally may be filled with water that can be easily obtained and used. At this time, the flow pack 223 may be formed using a rubber, silicone, synthetic resin, etc., which is elastically deformable, and the outer surface of the flow pack 223 is deformed so as to be in close contact with the outer surface of the container 20. A portion 231 of the receiver 230 may be formed.

On the other hand, the lower body portion 225 is formed of a metal mold having excellent thermal conductivity, the lower receiving groove 232 is formed in the lower portion of each container 20 in contact with the inner surface. In more detail, the lower body portion 225 includes a lower outer case 226, a lower intermediate mold 227, and a lower inner mold 228.

The lower outer case 226 is formed using a material such as synthetic resin and rubber having low thermal conductivity, so that the heat of the heating element 260 that is disposed inside the lower outer case 226 to generate heat does not conduct to the outside. It is possible to quickly and economically keep the container 20 at warm and constant temperature.

The lower intermediate mold 227 is formed to be inserted into the lower outer case 226, and a space in which the heating element 260 is disposed is provided.

The lower inner mold 228 is inserted into an arrangement space provided in the lower intermediate mold 227, and lower receiving grooves 232 are formed at the upper portion of each container 20 to contact the inner surface thereof. For reference, the lower inner mold 228 may be used by replacing the lower receiving groove 232 is formed to match the outer shape of the container 20 that can be provided in various forms.

The lower intermediate mold 227 and the lower inner mold 228 are formed of a metal mold having excellent thermal conductivity, and the heat generated from the heating element 260 is easily conducted, and the container is inserted into the lower receiving groove 232. 20) can conduct heat evenly.

The container 20 is disposed in the lower accommodating groove 232 formed in the lower body portion 225 while the upper body portion 221 is opened to open the front surface of the lower body portion 225, and the upper body portion 221 is disposed. The container 20 may be disposed in the container accommodating part 230 by closing the front surface of the lower body part 225.

At this time, the flow pack 223 of the upper body portion 221 is pressed by the remaining portion that can not be accommodated in the lower receiving groove 232 of the vessel 20 part 231 of the shape changed temporarily of the upper receiving groove It will play a role. Therefore, when the upper body portion 221 and the lower body portion 225 is closed, the lower receiving groove formed in the portion 231 and the lower body portion 225 pressed by the upper body portion 221 by the container 20 ( 232 forms one vessel receiving portion 230.

In addition, in the present embodiment, the upper body portion 221 and the lower body portion 225 are foldably coupled so that the upper body portion 221 to expose the front of the lower body portion 225 lower body portion 225 When coupled to the relative movement with respect to the shaking motion container container body 220 using the shaking motion unit 150 using the clip-shaped fixing member 240, the upper body portion 221 and the lower The body parts 225 may be prevented from being spaced apart from each other.

In some cases, the upper body portion 221 and the lower body portion 225 may be provided separately, in the case of shaking the container housing body portion 220 using the shaking motion part 150, the upper body The upper body portion 221 and the lower body portion 225 may be prevented from being separated from each other by using a fixing member having a band shape to prevent the portion 221 and the lower body portion 225 from being spaced apart from each other.

Meanwhile, in order to heat the container 20, the heating element 260 may be disposed in the upper body 221 and in the lower body 225. However, since the upper body portion 221 is provided separately from the lower body portion 225, the heating element 260 may be formed on the lower body portion 225, which is easy to supply power.

The upper body portion 221 according to the present embodiment is formed by using a flexible material, when shaking the container housing body portion 220, it can effectively prevent the breakage of the container 20.

In addition, the upper body portion 221 is different from the constant temperature stirring device 100 according to the first embodiment of replacing both the upper inner mold 124 and the lower inner mold 129 according to the shape of the container 10. Since it changes elastically with respect to the outer shape of the container 20, it is more convenient to apply a variety of containers 20 by replacing only the lower inner mold 228.

For reference, the container housing body 220 according to the present embodiment may agitate the container 20 by using the shaking motion unit 150 described in the first embodiment, and in some cases, a separate shaker ( 5) may be used to agitate the receiving material in the vessel.

Example 3

The constant temperature stirring device according to the third embodiment of the present invention is substantially the same as the constant temperature stirring device described in the first embodiment. Therefore, the description of the constant temperature stirring apparatus in the third embodiment may refer to the description and the drawings of the constant temperature stirring apparatus of the first embodiment, and repeated content may be omitted. In particular, the shaking motion portion and the base of the constant temperature stirring device of the present embodiment may be used substantially the same as the shaking motion portion described in the first embodiment, the contents of the shaking motion portion and the base of the present embodiment described in the first embodiment and See description.

However, in the third embodiment of the present invention will be described in more detail with respect to the container housing body portion different from the components of the first embodiment.

Figure 5 is a perspective view of the container housing body portion of the constant temperature stirring device according to a third embodiment of the present invention, Figure 6 is a cross-sectional view showing the container housing body portion by cutting Figure 5 in the C-C direction.

5 and 6, the container 10 is provided in this embodiment in the form of a bag of the same flexible material as the first embodiment to accommodate the receiving material.

The container accommodating body part 320 is positioned above the base 110, and includes an upper body part 321 and a lower body part 325 that cover and accommodate the upper and lower parts of the container 10, and contact the container 10. The inner surfaces of the upper body portion 321 and the lower body portion 325 form a container receiving portion 330 corresponding to the outer surface of the container 10. Therefore, the container 10 may receive heat through the inner surface of the container receiving portion 330.

The upper body portion 321 of the present embodiment is empty inside, a plurality of contact contact pieces 323 in contact with the container 10 is disposed therein. The contact contact piece 323 is elastically supported by a plurality of coil springs 324 disposed between the inner surface of the upper body portion 321 and each contact contact piece 323.

The contact contact piece 323 is supported so as to be displaceable with respect to the upper body portion 321, the contact contact piece 323 is displaced to be in close contact with the outer surface of the container 10, a part of the container receiving portion 330 To form. Here, a part of the container accommodating part 330 may correspond to the upper accommodating groove of the first and second embodiments.

On the other hand, the lower body portion 325 is formed of a metal mold having excellent thermal conductivity, the lower receiving groove 332 is formed in the lower surface of each container 10 in contact with the inner surface. More specifically, the lower body portion 325 includes a lower outer case 326, a lower intermediate mold 327, and a lower inner mold 328.

The lower outer case 326 is formed using a material such as synthetic resin and rubber having low thermal conductivity, so that the heat of the heating element 360 that is disposed inside the lower outer case 326 to generate heat does not conduct to the outside. It is possible to quickly and economically keep the container 10 at warm and constant temperature.

The lower intermediate mold 327 is formed to be inserted into the lower outer case 326 and has a space in which the heating element 360 is disposed.

The lower inner mold 328 is inserted into an arrangement space provided in the lower intermediate mold 327, and lower receiving grooves 332 are formed at the upper portion of each container 10 to contact the inner surface thereof. For reference, the lower inner mold 328 may be used to replace the lower receiving groove 332 is formed to match the outer shape of the container 10 that can be provided in various forms.

The lower intermediate mold 327 and the lower inner mold 328 are formed of a metal mold having excellent thermal conductivity, and the heat generated from the heating element 360 is easily conducted, and the container is inserted into the lower receiving groove 332. 10) can conduct heat evenly.

The container 30 is disposed in the lower accommodating groove 332 formed in the lower body 325 while the upper body 321 is opened to open the front surface of the lower body 325, and the upper body 321 is disposed. The container 10 may be disposed in the container accommodating part 330 by closing the front surface of the lower body part 325.

At this time, the plurality of contact contact pieces 323 disposed inside the upper body portion 321 are pressed by the remaining portion of the container 10 that is not accommodated in the lower receiving groove 332 is changed in shape.

Therefore, when the upper body portion 321 and the lower body portion 325 is closed, the upper body portion 321 is pressed by the container 30 and the lower receiving groove 325 formed in the lower body portion 325, respectively One container receiving portion 330 is formed.

Thus, the container 10 is disposed in the lower receiving groove 332 formed in the lower body portion 325 in a state in which the upper body portion 321 is opened to open the front surface of the lower body portion 325, and the upper body portion ( The container 10 may be disposed in the container accommodating part 330 by closing the front surface of the lower body part 325 with 321.

Thereafter, the shaking motion part 150 may shake the container housing body part 320 with respect to the base 110, and the shaking motion may include both up, down, left, and right motions or vibration motions. Therefore, the upper body portion 321 and the lower body portion 325 during the shaking motion can be combined using a fixing member 340 provided as a clip to prevent the mutual separation.

The heating element 360 may be disposed in the container housing body 320 to heat the container 10, and in this embodiment, it may be preferable to arrange the inside of the lower body part 325 for convenience of installation.

For reference, the container housing body 320 according to the present embodiment may agitate the container 20 by using the shaking motion unit 150 described in the first embodiment, and in some cases, a separate shaker is used. The agitation material may be stirred in the container.

As described above, although described with reference to the preferred embodiment of the present invention, those skilled in the art various modifications and variations of the present invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

The stirring method using the constant temperature stirrer and the constant temperature stirrer according to the present invention can efficiently stir the receiving material contained in the container.

Claims

In the constant temperature stirrer for stirring the receiving material contained in the container,

Base;

Located in the upper portion of the base, and includes an upper body portion and a lower body portion for covering the upper and lower parts of the container, the inner surface of the upper body portion and the lower body portion in contact with the container forms a container receiving portion corresponding to the outer surface of the container Container for receiving body portion; And

A shaking motion part configured to shake the container receiving body part with respect to the base;

Constant temperature agitation device, characterized in that for transferring heat to the vessel through the inner surface of the container receiving portion in contact with the vessel.
The method of claim 1,

At least one of the upper body portion and the lower body portion,

And a solid mold in contact with the container, wherein the solid mold includes a receiving groove correspondingly formed to be in close contact with the outer surface of the container, wherein the receiving groove forms a part of the container accommodation portion. Device.
The method of claim 1,

At least one of the upper body portion and the lower body portion,

And a flow pack in contact with the container, wherein the fluid pack is filled with a fluid capable of storing heat, and an outer surface of the flow pack is deformed to be in close contact with the outer surface of the container to form a portion of the container accommodation portion. Constant temperature stirrer, characterized in that.
The method of claim 3,

The flow pack is a constant temperature stirring device, characterized in that formed of a material capable of elastic deformation.
The method of claim 1,

At least one of the upper body portion and the lower body portion,

It includes a plurality of contact contact pieces in contact with the container, the contact contact piece is supported so as to be displaceable relative to the upper body portion or the lower body portion, the contact contact piece is displaced to be in close contact with the outer surface of the container Constant temperature stirring device, characterized in that to form a portion of the container receiving portion.
The method of claim 1,

The upper body portion and the lower body portion is provided separately,

The upper body portion is a constant temperature stirring device, characterized in that coupled to the lower body portion and relatively movable so as to expose the upper surface of the lower body portion.
According to claim 1,

At least one of the upper body portion and the lower body portion includes a heating element, the heating element is characterized in that the heating element is disposed adjacent to the container receiving portion.
The method of claim 1,

The container holding body portion is agitated, characterized in that detachable from the shaking motion portion.
In the container receiving body portion for the stirring device for stirring the receiving material contained in the container coupled to the shaking motion base capable of shaking motion,

It includes an upper body portion and a lower body portion for covering the upper and lower parts of the container,

The inner surface of the upper body portion and the lower body portion in contact with the container forms a container receiving portion corresponding to the outer surface of the container,

The container housing body portion for stirring device, characterized in that for transferring heat to the vessel through the inner surface of the container receiving portion in contact with the vessel.
The method of claim 9,

At least one of the upper body portion and the lower body portion,

And a solid mold contacting the container, wherein the solid mold includes a receiving groove correspondingly formed to be in close contact with the outer surface of the container, wherein the receiving groove forms a portion of the container accommodation portion. Body part for container.
The method of claim 9,

At least one of the upper body portion and the lower body portion,

And a flow pack in contact with the container, wherein the fluid pack is filled with a fluid capable of storing heat, and an outer surface of the flow pack is deformed to be in close contact with the outer surface of the container to form a portion of the container accommodation portion. A container housing body portion for a constant temperature stirring device, characterized in that.
The method of claim 11,

The flow pack is a container housing body portion for a constant temperature stirring device, characterized in that formed of a material capable of elastic deformation.
The method of claim 9,

At least one of the upper body portion and the lower body portion,

It includes a plurality of contact contact pieces in contact with the container, the contact contact piece is supported so as to be displaceable relative to the upper body portion or the lower body portion, the contact contact piece is displaced to be in close contact with the outer surface of the container A container housing body portion for a constant temperature stirring device, characterized in that to form a portion of the container receiving portion.
The method according to claim 9,

At least one of the lower body portion and the upper body portion includes a heating element, the heating element is a container housing body portion for a constant temperature stirring device, characterized in that disposed adjacent to the container receiving portion.
In the stirring method for stirring the water contained in the container using a stirring device,

An upper body portion and a lower body portion covering and holding the upper and lower portions of the container, and inner surfaces of the upper body portion and the lower body portion contacting the container include a container accommodating body portion forming a container accommodating portion corresponding to an outer surface of the container. Providing a stirring device;

Positioning a container between the upper body portion and the lower body portion;

Bringing the inner surface of the container into close contact with the outer surface of the upper body portion and the lower body portion;

Shaking the container housing body; And

Heating the vessel to a specific temperature through an inner surface of the vessel receiving portion in contact with the vessel;

Stirring method provided with.
The method of claim 15,

At least one of the upper body portion and the lower body portion,

And a solid mold in contact with the container, wherein the solid mold provides a receiving groove correspondingly formed to be in close contact with the outer surface of the container.
The method of claim 15,

At least one of the upper body portion and the lower body portion,

And a flow pack in contact with the container, wherein the inside of the flow pack is filled with a fluid capable of storing heat, and an outer surface of the flow pack is deformable to be in close contact with the outer surface of the container.
The method of claim 15,

At least one of the upper body portion and the lower body portion,

It includes a plurality of contact contact pieces in contact with the container, the contact contact piece is supported so as to be displaceable relative to the upper body portion or the lower body portion, the contact contact piece is displaced to be in close contact with the outer surface of the container Forming a portion of the container receiving portion, characterized in that the stirring method.