JP2015136688A - Drainboard for magnetic stirrer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a drainboard for a magnetic stirrer, enabling rotating a magnetic stirrer in a container even when a container is placed on the drainboard in a constant-temperature water bath.SOLUTION: A drainboard 1 for a magnetic stirrer is such that: shaft bearings 11 are each pivoted to the upper side and lower side of a fixed shaft 10 extending downward from a rear face central part of a top plate 2 of the drainboard; the shaft bearing 11 is internally fitted into a cylindrical body 12; bases 13 and 14 are fastened to the upper end and lower end of the cylindrical body 12; both ends of the fixed shaft 10 project from the cylindrical body 12 and penetrate into the bases 13 and 14; a magnet 7 is fastened to the top face of the base 13, and a magnet 8 is fastened to the bottom face of the base 14; and a driving magnet 25 of a motor 24 rotates so as to rotate a rotary magnet part 4 and rotate a magnetic stirrer 28 in a container 27.

Description

  The present invention relates to a slat used for a thermostatic water tank of a magnetic stirrer.

  As shown in FIG. 5 of Patent Document 1 and FIG. 5 of Patent Document 2, as devices for stirring the water in the constant temperature water tank to equalize the water temperature and adjusting the temperature of the sample in the container placed in the water tank, A magnetic stirrer that performs stirring by rotating a magnetic stirrer disposed in a water tank is generally known.

JP-A-3-232524 JP 2008-62209 A

  The magnetic stirrer is a rod-shaped magnet covered with plastic, and is rotated by rotation of a driving magnet attached to a motor provided under the thermostatic water bath.

  As shown in FIG. 5 of the present application, in the magnetic stirrer 30, a stool 32 is placed in a constant temperature water tank 31, and a container 34 containing a sample 33 is placed thereon to maintain an appropriate height. .

  In this case, the magnetic stirrer 35 is on the constant temperature water tank bottom 36 and is rotated by a driving magnet 38 that is rotated by driving a motor 37 installed under the bottom 36, and the temperature is adjusted by a heater 39. The water temperature in the constant temperature water tank is made uniform by stirring the water in 31 or warm water.

  However, since the container 34 is on the slat 32 and has a distance, the magnetic force does not reach and it is impossible to put the magnetic stir bar 35 in the container 34 and rotate it by the driving magnet 38.

  Therefore, in order to immediately make the temperature of the sample 33 in the container 34 on the slat 32 uniform, as shown in FIGS. 1 to 4 of Patent Document 1, a stirring blade is inserted into the container from above the container. It had to be put in and operated with another drive or manually stirred by a human.

  However, when the blade is operated using another driving device, there is a problem that the weight of the magnetic stirrer including the driving device is greatly increased, the size is increased, and the manufacturing cost is increased. It was.

  Some samples 33 are inappropriate for the blade material, and the blade material cannot be uniform. Furthermore, when mixing a liquid and a solid, there is a possibility that the solid is cut with a blade and the tissue of the individual is decomposed. Furthermore, when the container mouth is thin, it may be difficult to mix with a blade.

  In addition, depending on the manufacturer of the magnetic stirrer, the position of the heater 39 in the thermostatic water tank 36 is different. Therefore, depending on the magnetic stirrer to be used, a slat that matches the position of the heater must be used. It was bulky and inconvenient.

  The present invention has been made to solve the above-described problem, and enables a magnetic stirrer to rotate in the container even when the container is placed on a slat in a thermostatic water bath. It is to provide a slat for a magnetic stirrer.

  Another object of the present invention is to provide a magnetic stirrer that can be used even if the position of the heater of the thermostatic water tank is different by making the position of the leg portion of the snowboard movable.

  It is another object of the present invention to provide a magnetic stirrer slat that can efficiently homogenize the temperature of the sample in a short time by efficiently stirring the sample in the container and the water in the thermostatic bath or the hot water simultaneously.

  In order to achieve the above object, the first feature of the magnetic stirrer slat according to the present invention is that a top plate having a plurality of holes and a plurality of legs extending downward from the back surface of the top plate. In a magnetic stirrer slat used in a thermostatic water tank of a magnetic stirrer, comprising a shaft extending downward at the center of the back surface of the top plate, and the upper and lower axes of the shaft Each of them is provided with a rotatable magnet.

  The second feature of the magnetic stirrer slat according to the present invention is that the shaft in the first feature is provided with a plate-like base passing through upward and downward, respectively, and an upper end of the shaft. The magnet that rotates about the axis is installed on the upper base, and the magnet that rotates about the lower end axis of the shaft is installed under the lower base.

  Furthermore, the third feature of the magnetic stirrer slat according to the present invention is that the magnets in the first or second feature are respectively provided at end portions of the bases.

  Furthermore, a fourth feature of the magnetic stirrer slat according to the present invention is that each magnet in any one of the first to third features is circular.

  A fifth feature of the magnetic stirrer slat according to the present invention is that each of the magnets in any one of the first to fourth features is a samarium cobalt magnet.

  Furthermore, the sixth feature of the magnetic stirrer slat according to the present invention is that the shaft in any one of the first to fifth features is fixed, and bearings are provided above and below the shaft. It is attached to the shaft, and the bearing is fitted in the cylindrical body, and the bases are fixed to the upper end and the lower end of the cylindrical body.

  Furthermore, a seventh feature of the magnetic stirrer slat according to the present invention is that each of the bearings in any one of the first to sixth features is an oilless bearing.

  Further, an eighth feature of the magnetic stirrer slat according to the present invention is that the leg in any one of the first to seventh features is provided on the top plate at equal intervals from the central direction toward the circumferential direction. The same number of notches are formed, and the legs can be fixed at an arbitrary position on the top plate by inserting a screw from above the notch and screwing it onto the head of the leg. It is in.

  Furthermore, the ninth feature of the magnetic stirrer slat according to the present invention is that both end portions of the upper base protrude from the second to eighth features and are bent downward. In this case, both end portions of the lower base protrude and are bent upward.

  Furthermore, the tenth feature of the magnetic stirrer slats according to the present invention is that both end portions of the bases in any one of the second to ninth features are perpendicular to the longitudinal axis. It is in the protrusion.

  Moreover, the eleventh feature of the magnetic stirrer slats according to the present invention is that each end of each of the bases in any one of the second to tenth features protrudes alternately in the opposite direction. is there.

  Furthermore, a twelfth feature of the magnetic stirrer slat according to the present invention is that the lower base in any one of the second to eleventh features is longer in the longitudinal direction than the upper base. The blades formed on the lower base are disposed outside the blades formed on the upper base.

  Furthermore, the thirteenth feature of the magnetic stirrer slats according to the present invention is that magnets installed on the upper base in any one of the second to twelfth features are provided at each end. It is that they are provided one by one.

  According to the present invention, since it is possible to agitate the sample in the container without requiring an apparatus other than the magnetic stapler body, the entire apparatus can be reduced in size and weight, and can be easily moved. At the same time, it can be manufactured at a low cost.

  In addition, because the position of the slatted leg can be adjusted according to the position of the heater in the thermostatic water tank, it becomes possible to handle different magnetic stirrers from different manufacturers with one slat, reducing extra costs and storage space. be able to.

  Furthermore, the blades provided in the base sufficiently stir the water or warm water in the constant temperature water tank, and simultaneously stir both the sample in the container and the water or warm water in the constant temperature water tank. It becomes possible to make the temperature uniform even more efficient.

It is a top view in the 1st example of the magnetic stirrer slats concerning the present invention. It is front sectional drawing of the AA line of FIG. It is a front view of the magnetic stirrer slats according to the present invention. It is sectional drawing of the magnetic stayer which shows the state using the said slats. It is sectional drawing of the magnetic stayer which shows the state using the conventional slats. It is a top view in 2nd Example of the magnetic stirrer slats based on this invention. It is a front view of the magnetic stirrer slats in the second embodiment. It is a right view of the magnetic stirrer slats in the second embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIGS. 1 to 4 show a first embodiment of the present invention. Among these, FIGS. 1 to 3 are general schematic views of a magnetic stirrer slat according to the first embodiment.

  In the drawing, reference numeral 1 denotes a magnetic stirrer slat formed of stainless steel, which is roughly composed of a top plate 2, a leg portion 3 and a rotating magnet portion 4.

  The top plate 2 is a circular plate, and a plurality of circular holes 5 are formed so as to be easily submerged in water. A plurality of columnar legs 3 are connected to the four corners of the back surface of the top plate 2 via screws 6. In the illustrated example, four leg portions 3 are provided.

  Moreover, the rotating magnet part 4 is attached to the center part of the back surface of the top plate 2 so that rotation is possible. The rotating magnet unit 4 includes magnets 7 and 8 and is a member for rotating them.

  The rotating magnet unit 4 includes a fixed shaft 10 fixed to the center of the back surface of the top plate via a screw 9, a pair of bearings 11 attached to the fixed shaft 10, and the bearing 11 fitted therein. A cylindrical body 12 into which the fixed shaft 10 is loosely inserted, plate-like bases 13 and 14 fixed to the upper and lower ends of the cylindrical body 12, and magnets 7 and 8 fixed to the bases 13 and 14. Has been.

  The fixed shaft 10 is shorter than the leg portion 3 and fixed to the center of the back surface of the top plate 2 downward. The length in the longitudinal direction of the rotating magnet part 4 is also shorter than the leg part 3 and is formed so as to fit inside the lower part of the snowboard 1.

  Bearings 11 are respectively attached to the upper side and the lower side of the fixed shaft 10. The bearing 11 is for rotating the cylindrical body 12 in which they are fitted, and is composed of a flange 17 and a cylindrical body 18. The cylindrical body 18 includes a bearing.

  Holes are formed in the central portions of the bases 13 and 14, respectively, and the cylindrical body 18 of the bearing 11 is fitted into the holes from above the base 13 and below the base 14, and the flange 17 is provided at the base. Locked on the base 13 and under the base 14. The bearing 11 is preferably an oilless bearing.

  Magnets 7 are fixed to both ends of the upper surface of the base 13 fixed to the upper end of the cylindrical body 12. In addition, magnets 8 are fixed to both ends of the lower surface of the base 14 fixed to the lower end of the cylindrical body 12.

  The magnets 7 and 8 have a circular shape with a circular hole formed in the center, and are fixed to the bases 13 and 14 via screws 15 and 16, respectively. The magnets 7 and 8 are arranged so that one is an N pole and the other is an S pole. Moreover, the magnets 7 and 8 desirably have a strong magnetic force, for example, samarium cobalt magnets are suitable. In the illustrated example, the magnets 7 are doubled, but the number, shape, etc. are not limited as long as the magnetic force and height can be adjusted.

  An upper end and a lower end of the fixed shaft 10 protrude from the cylindrical body 12 and penetrate the bases 13 and 14.

  Next, the operation of the snowboard 1 will be described with reference to FIG. In FIG. 4, the snowboard 1 is installed in a constant temperature water tank 21 of a magnetic stirrer 20, and water or hot water adjusted to an appropriate temperature by a heater 22 is stored in the constant temperature water tank 21.

  A container 27 containing a sample 26 is placed on the top plate 2 of the snowboard 1, and a magnetic stirrer 28 is disposed at the bottom of the container 27. The north pole of the magnetic stir bar 28 faces the south pole of the magnet 7, and the south pole of the magnetic stir bar 28 faces the north pole of the magnet 7.

  A motor 24 is installed below the thermostatic water tank bottom 23, and a pair of drive magnets 25 are attached to the tip of the drive shaft of the motor 24. The north pole of the drive magnet 25 faces the south pole of the magnet 8, and the south pole of the drive magnet 25 faces the north pole of the magnet 8.

  When the driving magnet 25 is rotated by the motor 24, a rotating magnetic field is formed around the magnet 8, and the rotating magnet unit 4 rotates. As a result, the magnet 7 rotates and a rotating magnetic field is formed around the magnetic stirrer 28. The magnetic stirrer 28 rotates in the direction of rotation of the magnetic field, whereby the sample 26 in the container 27 is stirred, and the temperature in the container can be made uniform in a short time.

Next, FIGS. 6 to 8 show a second embodiment of the present invention.
In the second embodiment, the leg portion 3 can be moved in accordance with the position of the heater 22 of the thermostatic water tank 21 in the first embodiment, and the blades 42, 43, 44, 45 are attached to the rotating magnet portion 4. Is provided to facilitate stirring of the water in the constant temperature water tank 21 or the hot water.

  That is, the top plate 2 is formed with four notches 41 that are the same number as the legs 3 at equal intervals from the central direction toward the circumferential direction. The width of the notch 41 is formed so that the screw portion of the screw 6 penetrates and is smaller than the head of the screw 6. Therefore, after the leg 3 is disposed at an appropriate position along the notch 41, the screw 3 is screwed onto the head threaded portion of the leg 3 from above the top plate 2, so that the leg 3 is Fixed to the plate 2. Thereby, it becomes possible to use the snowboard 1 for the magnetic stirrer which has various constant temperature water tanks 21 in which the positions of the heaters 22 are different.

  In addition, the blades 42 and 43 are configured such that both end portions of the base 13 are alternately projected in the opposite directions in the direction perpendicular to the longitudinal axis and bent downward. In the illustrated example (FIGS. 6 and 7), the left blade 42 protrudes forward from the base 13 and bends downward, and the right blade 43 protrudes rearward from the base 13 and bends downward. Yes.

  Further, the blades 44 and 45 are configured such that both end portions of the base 14 are alternately projected in a direction perpendicular to the longitudinal axis and bent upward. In the illustrated example (FIGS. 6 and 7), the left blade 44 protrudes backward from the base 14 and bends upward, and the right blade 45 protrudes forward from the base 14 and bends upward. Yes.

  In the illustrated example, the base 14 has a longer length in the longitudinal direction than the base 13 and is formed in a horizontally long shape, and the blades 44 and 45 are arranged outside the blades 42 and 43. .

  With the above configuration, when the rotating magnet unit 4 rotates, the water or hot water in the constant temperature water tank 21 is swung over a wide range by the blades 42, 43, 44, and 45, and stirring is performed well. Thereby, the water in the constant temperature water tank 21 or the warm water can be made uniform in a short time.

  In addition, since both the sample 26 in the container 27 and the water in the constant temperature water tank 21 or hot water can be stirred at the same time, the temperature can be made uniform in and out of the container 27 in a short time, and the temperature of the sample can be made uniform. Can be made more efficient.

  Although the embodiments of the present invention have been described in detail with reference to the drawings, the present invention is not limited to the embodiments and can be implemented in various modes within the scope of the configurations described in the claims.

  In the present embodiment, the case of using a magnetic stirrer in which the constant temperature water tank is integrated has been described. However, the present invention is not limited to this, and the present invention can also be used for a magnetic stirrer in which the water tank is a separate body. .

DESCRIPTION OF SYMBOLS 1 Sunoko for magnetic stirrer 2 Top plate 4 Rotating part 7, 8 Magnet 10 Fixed shaft 11 Bearing 12 Cylindrical body 13, 14 Base 20 Magnetic stirrer 21 Constant temperature water tank 25 Rotating magnet 28 Magnetic stirrer 41 Notch 42, 43, 44, 45 feathers

  The present invention relates to a slat used for a thermostatic water tank of a magnetic stirrer.

  As shown in FIG. 5 of Patent Document 1 and FIG. 5 of Patent Document 2, as devices for stirring the water in the constant temperature water tank to equalize the water temperature and adjusting the temperature of the sample in the container placed in the water tank, A magnetic stirrer that performs stirring by rotating a magnetic stirrer disposed in a water tank is generally known.

JP-A-3-232524 JP 2008-62209 A

  The magnetic stirrer is a rod-shaped magnet covered with plastic, and is rotated by rotation of a driving magnet attached to a motor provided under the thermostatic water bath.

  As shown in FIG. 5 of the present application, in the magnetic stirrer 30, a stool 32 is placed in a constant temperature water tank 31, and a container 34 containing a sample 33 is placed thereon to maintain an appropriate height. .

  In this case, the magnetic stirrer 35 is on the constant temperature water tank bottom 36 and is rotated by a driving magnet 38 that is rotated by driving a motor 37 installed under the bottom 36, and the temperature is adjusted by a heater 39. The water temperature in the constant temperature water tank is made uniform by stirring the water in 31 or warm water.

  However, since the container 34 is on the slat 32 and has a distance, the magnetic force does not reach and it is impossible to put the magnetic stir bar 35 in the container 34 and rotate it by the driving magnet 38.

  Therefore, in order to immediately make the temperature of the sample 33 in the container 34 on the slat 32 uniform, as shown in FIGS. 1 to 4 of Patent Document 1, a stirring blade is inserted into the container from above the container. It had to be put in and operated with another drive or manually stirred by a human.

  However, when the blade is operated using another driving device, there is a problem that the weight of the magnetic stirrer including the driving device is greatly increased, the size is increased, and the manufacturing cost is increased. It was.

  Some samples 33 are inappropriate for the blade material, and the blade material cannot be uniform. Furthermore, when mixing a liquid and a solid, there is a possibility that the solid is cut with a blade and the tissue of the individual is decomposed. Furthermore, when the container mouth is thin, it may be difficult to mix with a blade.

  In addition, depending on the manufacturer of the magnetic stirrer, the position of the heater 39 in the thermostatic water tank 36 is different. Therefore, depending on the magnetic stirrer to be used, a slat that matches the position of the heater must be used. It was bulky and inconvenient.

  The present invention has been made to solve the above-described problem, and enables a magnetic stirrer to rotate in the container even when the container is placed on a slat in a thermostatic water bath. It is to provide a slat for a magnetic stirrer.

  Another object of the present invention is to provide a magnetic stirrer that can be used even if the position of the heater of the thermostatic water tank is different by making the position of the leg portion of the snowboard movable.

  It is another object of the present invention to provide a magnetic stirrer slat that can efficiently homogenize the temperature of the sample in a short time by efficiently stirring the sample in the container and the water in the thermostatic bath or the hot water simultaneously.

In order to achieve the above object, a first feature of the magnetic stirrer slat according to the present invention is that a top plate provided in a constant temperature water tank of the magnetic stirrer and provided with a plurality of holes, and the top plate Magnetic stirrer that is composed of a plurality of legs extending downward from the back surface of the magnetic stirrer, and uses a magnetic stirrer placed on a top plate and containing a sample and a magnetic stirrer In the slat, the center of the back surface of the top plate is provided with a fixed shaft extending downward, and a cylindrical body rotatably mounted with a bearing mounted on the shaft. A plate-shaped base is fixed to each of the upper end and the lower end of the cylindrical body so as to penetrate the fixed shaft. The upper surface of the upper end base and the lower surface of the lower base Magnets are installed at the ends of the Each base is configured to rotate around the axis of the fixed shaft together with the magnets in a thermostatic water tank, and the magnetic stirrer in the container rotates as the magnets rotate to stir the sample. At the same time, each base is rotated, so that water or hot water in the thermostatic water tank can be stirred .

A second feature of the magnetic stirrer slat according to the present invention is that each of the magnets in the first feature is circular.

Furthermore, a third feature of the magnetic stirrer slat according to the present invention is that each of the magnets in the first or second feature is a samarium cobalt magnet.

Furthermore, a fourth feature of the magnetic stirrer slat according to the present invention is that each of the bearings in any one of the first to third features is an oilless bearing.

Further, a fifth feature of the magnetic stirrer slat according to the present invention is that the leg in any one of the first to fourth features has the legs equally spaced from the central direction toward the circumferential direction. The same number of notches are formed, and the legs can be fixed at an arbitrary position on the top plate by inserting a screw from above the notch and screwing it onto the head of the leg. It is in.

Furthermore, a sixth aspect of the magnetic stirrer for gridiron according to the present invention, the base of the upper end of the fifth any one of the features from the first, the both end portions is bent downward to protrude forming a blade, base of the lower end is to form a blade that is bent upwardly to project the both end portions.

Furthermore, a seventh aspect of the magnetic stirrer for gridiron according to the present invention, in that the respective blades definitive to the sixth aspect of projects in a direction perpendicular to the respective base of the longitudinal axis is there.

The eighth feature of the magnetic stirrer slat according to the present invention is that the blades in the sixth or seventh feature are alternately projected in opposite directions.

Furthermore, a ninth aspect of the gridiron for magnetic stirrer according to the present invention, the base of the lower end of any one of the features from the sixth to the eighth, longitudinally shorter than the base of the upper end long is that the base which is formed on the blade of the lower end is disposed longitudinally outward from the base to form the blades of the upper edge of.

Furthermore, a tenth aspect of the magnetic stirrer for gridiron according to the present invention, the installed magnets on the base of the upper end of any one of the features of the first through ninth, two each It is that they are provided in layers.

  According to the present invention, since it is possible to agitate the sample in the container without requiring an apparatus other than the magnetic stapler body, the entire apparatus can be reduced in size and weight, and can be easily moved. At the same time, it can be manufactured at a low cost.

  In addition, because the position of the slatted leg can be adjusted according to the position of the heater in the thermostatic water tank, it becomes possible to handle different magnetic stirrers from different manufacturers with one slat, reducing extra costs and storage space. be able to.

  Furthermore, the blades provided in the base sufficiently stir the water or warm water in the constant temperature water tank, and simultaneously stir both the sample in the container and the water or warm water in the constant temperature water tank. It becomes possible to make the temperature uniform even more efficient.

It is a top view in the 1st example of the magnetic stirrer slats concerning the present invention. It is front sectional drawing of the AA line of FIG. It is a front view of the magnetic stirrer slats according to the present invention. It is sectional drawing of the magnetic stayer which shows the state using the said slats. It is sectional drawing of the magnetic stayer which shows the state using the conventional slats. It is a top view in 2nd Example of the magnetic stirrer slats based on this invention. It is a front view of the magnetic stirrer slats in the second embodiment. It is a right view of the magnetic stirrer slats in the second embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIGS. 1 to 4 show a first embodiment of the present invention. Among these, FIGS. 1 to 3 are general schematic views of a magnetic stirrer slat according to the first embodiment.

  In the drawing, reference numeral 1 denotes a magnetic stirrer slat formed of stainless steel, which is roughly composed of a top plate 2, a leg portion 3 and a rotating magnet portion 4.

  The top plate 2 is a circular plate, and a plurality of circular holes 5 are formed so as to be easily submerged in water. A plurality of columnar legs 3 are connected to the four corners of the back surface of the top plate 2 via screws 6. In the illustrated example, four leg portions 3 are provided.

  Moreover, the rotating magnet part 4 is attached to the center part of the back surface of the top plate 2 so that rotation is possible. The rotating magnet unit 4 includes magnets 7 and 8 and is a member for rotating them.

  The rotating magnet unit 4 includes a fixed shaft 10 fixed to the center of the back surface of the top plate via a screw 9, a pair of bearings 11 attached to the fixed shaft 10, and the bearing 11 fitted therein. A cylindrical body 12 into which the fixed shaft 10 is loosely inserted, plate-like bases 13 and 14 fixed to the upper and lower ends of the cylindrical body 12, and magnets 7 and 8 fixed to the bases 13 and 14. Has been.

  The fixed shaft 10 is shorter than the leg portion 3 and fixed to the center of the back surface of the top plate 2 downward. The length in the longitudinal direction of the rotating magnet part 4 is also shorter than the leg part 3 and is formed so as to fit inside the lower part of the snowboard 1.

  Bearings 11 are respectively attached to the upper side and the lower side of the fixed shaft 10. The bearing 11 is for rotating the cylindrical body 12 in which they are fitted, and is composed of a flange 17 and a cylindrical body 18. The cylindrical body 18 includes a bearing.

  Holes are formed in the central portions of the bases 13 and 14, respectively, and the cylindrical body 18 of the bearing 11 is fitted into the holes from above the base 13 and below the base 14, and the flange 17 is provided at the base. Locked on the base 13 and under the base 14. The bearing 11 is preferably an oilless bearing.

  Magnets 7 are fixed to both ends of the upper surface of the base 13 fixed to the upper end of the cylindrical body 12. In addition, magnets 8 are fixed to both ends of the lower surface of the base 14 fixed to the lower end of the cylindrical body 12.

  The magnets 7 and 8 have a circular shape with a circular hole formed in the center, and are fixed to the bases 13 and 14 via screws 15 and 16, respectively. The magnets 7 and 8 are arranged so that one is an N pole and the other is an S pole. Moreover, the magnets 7 and 8 desirably have a strong magnetic force, for example, samarium cobalt magnets are suitable. In the illustrated example, the magnets 7 are doubled, but the number, shape, etc. are not limited as long as the magnetic force and height can be adjusted.

  An upper end and a lower end of the fixed shaft 10 protrude from the cylindrical body 12 and penetrate the bases 13 and 14.

  Next, the operation of the snowboard 1 will be described with reference to FIG. In FIG. 4, the snowboard 1 is installed in a constant temperature water tank 21 of a magnetic stirrer 20, and water or hot water adjusted to an appropriate temperature by a heater 22 is stored in the constant temperature water tank 21.

  A container 27 containing a sample 26 is placed on the top plate 2 of the snowboard 1, and a magnetic stirrer 28 is disposed at the bottom of the container 27. The north pole of the magnetic stir bar 28 faces the south pole of the magnet 7, and the south pole of the magnetic stir bar 28 faces the north pole of the magnet 7.

  A motor 24 is installed below the thermostatic water tank bottom 23, and a pair of drive magnets 25 are attached to the tip of the drive shaft of the motor 24. The north pole of the drive magnet 25 faces the south pole of the magnet 8, and the south pole of the drive magnet 25 faces the north pole of the magnet 8.

  When the driving magnet 25 is rotated by the motor 24, a rotating magnetic field is formed around the magnet 8, and the rotating magnet unit 4 rotates. As a result, the magnet 7 rotates and a rotating magnetic field is formed around the magnetic stirrer 28. The magnetic stirrer 28 rotates in the direction of rotation of the magnetic field, whereby the sample 26 in the container 27 is stirred, and the temperature in the container can be made uniform in a short time.

Next, FIGS. 6 to 8 show a second embodiment of the present invention.
In the second embodiment, the leg portion 3 can be moved in accordance with the position of the heater 22 of the thermostatic water tank 21 in the first embodiment, and the blades 42, 43, 44, 45 are attached to the rotating magnet portion 4. Is provided to facilitate stirring of the water in the constant temperature water tank 21 or the hot water.

  That is, the top plate 2 is formed with four notches 41 that are the same number as the legs 3 at equal intervals from the central direction toward the circumferential direction. The width of the notch 41 is formed so that the screw portion of the screw 6 penetrates and is smaller than the head of the screw 6. Therefore, after the leg 3 is disposed at an appropriate position along the notch 41, the screw 3 is screwed onto the head threaded portion of the leg 3 from above the top plate 2, so that the leg 3 is Fixed to the plate 2. Thereby, it becomes possible to use the snowboard 1 for the magnetic stirrer which has various constant temperature water tanks 21 in which the positions of the heaters 22 are different.

  In addition, the blades 42 and 43 are configured such that both end portions of the base 13 are alternately projected in the opposite directions in the direction perpendicular to the longitudinal axis and bent downward. In the illustrated example (FIGS. 6 and 7), the left blade 42 protrudes forward from the base 13 and bends downward, and the right blade 43 protrudes rearward from the base 13 and bends downward. Yes.

  Further, the blades 44 and 45 are configured such that both end portions of the base 14 are alternately projected in a direction perpendicular to the longitudinal axis and bent upward. In the illustrated example (FIGS. 6 and 7), the left blade 44 protrudes backward from the base 14 and bends upward, and the right blade 45 protrudes forward from the base 14 and bends upward. Yes.

In the illustrated example, the base 14 has a longer length in the longitudinal direction than the base 13 and is formed in a horizontally long shape, and the blades 44 and 45 are disposed on the outer side in the longitudinal direction from the blades 42 and 43. ing.

  With the above configuration, when the rotating magnet unit 4 rotates, the water or hot water in the constant temperature water tank 21 is swung over a wide range by the blades 42, 43, 44, and 45, and stirring is performed well. Thereby, the water in the constant temperature water tank 21 or the warm water can be made uniform in a short time.

  In addition, since both the sample 26 in the container 27 and the water in the constant temperature water tank 21 or hot water can be stirred at the same time, the temperature can be made uniform in and out of the container 27 in a short time, and the temperature of the sample can be made uniform. Can be made more efficient.

  Although the embodiments of the present invention have been described in detail with reference to the drawings, the present invention is not limited to the embodiments and can be implemented in various modes within the scope of the configurations described in the claims.

  In the present embodiment, the case of using a magnetic stirrer in which the constant temperature water tank is integrated has been described. However, the present invention is not limited to this, and the present invention can also be used for a magnetic stirrer in which the water tank is a separate body. .

DESCRIPTION OF SYMBOLS 1 Sunoko for magnetic stirrer 2 Top plate 4 Rotating part 7, 8 Magnet 10 Fixed shaft 11 Bearing 12 Cylindrical body 13, 14 Base 20 Magnetic stirrer 21 Constant temperature water tank 25 Rotating magnet 28 Magnetic stirrer 41 Notch 42, 43, 44, 45 feathers

Claims (13)

In a magnetic stirrer slat used in a thermostatic water tank of a magnetic stirrer, comprising a top plate in which a plurality of holes are drilled and a plurality of legs extending downward from the back surface of the top plate,
In the center of the back surface of the top plate, provided with a shaft extending downward, and provided with magnets that can rotate around the upper and lower axes of the shaft,
A magnetic stirrer slat that features The shaft is provided with plate-like bases penetrating upward and downward, respectively, and the magnet that rotates around the upper end axis of the shaft is installed on the upper base, The magnet rotating around the lower axis of the shaft is installed under the lower base;
The magnetic stirrer slat according to claim 1, wherein: Each magnet is provided at an end of each base;
The magnetic stirrer slat according to claim 1 or 2, characterized in that. Each of the magnets is circular;
The magnetic stirrer slat according to any one of claims 1 to 3, wherein Each of the magnets is a samarium cobalt magnet;
5. The magnetic stirrer slat according to claim 1, wherein: The shaft is fixed to the top plate, a bearing is mounted on the shaft upward and downward, the bearing is fitted in a cylindrical body, and each base is the cylinder Being fixed to the upper and lower ends of the body,
The magnetic stirrer slat according to any one of claims 1 to 5, wherein Each of the bearings is an oilless bearing;
The magnetic stirrer slat according to any one of claims 1 to 6, wherein The top plate is formed with notches of the same number as the leg portions at equal intervals from the center direction to the circumferential direction, and screws are inserted from above the notches and screwed to the head portions of the leg portions. By making it possible to fix the leg to an arbitrary position of the top plate,
The magnetic stirrer slat according to any one of claims 1 to 7, wherein The upper base is protruded at both ends and bent downward, and the lower base is protruded at both ends and bent upward.
The magnetic stirrer slats according to any one of claims 2 to 8, wherein: Each of the bases protrudes in a direction perpendicular to the longitudinal axis at both ends,
The magnetic stirrer slat according to any one of claims 2 to 9, wherein: Each of the bases protrudes in opposite directions alternately at both ends,
The magnetic stirrer slat according to any one of claims 2 to 10, characterized in that: The lower base has a longer length in the longitudinal direction than the upper base, and the blades formed on the lower base are disposed outside the blades formed on the upper base. Being
The magnetic stirrer slat according to any one of claims 2 to 11, characterized in that: Two magnets installed on the upper base are provided to overlap each end,
The magnetic stirrer slat according to any one of claims 2 to 12, characterized in that:

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