KR101463225B1 - Discharge and sediment magnetic mixing device structure that is easy to suppress - Google Patents

Abstract

The present invention relates to a magnetic agitation apparatus which includes a rotor installed on an outside of an agitation tank and being rotatable according to the driving of a motor, and an impeller installed on an inside of the agitation tank for receiving rotational force of the rotor through a magnet, so materials of liquid and solid powder introduced into the agitation tank may be agitated, and in particular, sediments deposited on the bottom surface of the interior of the agitation tank can be easily discharged while being effectively agitated. The present invention includes: a separation plate (20) for separating the inside and the outside of the agitation tank (11); the rotor (30) installed on the outside of the agitation tank (11) and being rotatable according to the driving of the motor; and the impeller (40) installed on the inside of the agitation tank (11) for agitating materials. According to the present invention, the magnetic agitation apparatus is installed at the center on a lower portion of the bottom surface of the agitation tank of which the center is convex downwards, and a discharge opening is provided together with a welded plate, so sediments can be easily discharged. Furthermore, horizontal liquid flows, which is a vortex phenomenon generated laterally, may be easily generated for effectively agitating the materials on the lower portion of the agitation tank, so sediments can be easily restrained. In addition, the separation plate for separating the inside and the outside of the agitation tank may be separated from or coupled to the welded plate and a positioning protrusion, so the apparatus can be easily maintained and repaired.

Description

Discharge and sediment magnetic mixing device structure that is easy to suppress &

The present invention relates to a structure of a magnetic stirring device, and more particularly, to a structure of a magnetic stirring device, which comprises a rotor rotatable according to the driving of a motor provided outside the stirring tank and an impeller installed inside the stirring tank, The present invention relates to a magnetic stirring apparatus capable of stirring a liquid and a solid powder introduced into a tank and stirring the precipitate deposited on the bottom surface of the stirring tank effectively while easily discharging and suppressing sediment.

FIG. 1 is a reference diagram showing a conventional general magnetic stirring apparatus. As shown in FIG. 1, a conventional general magnetic stirring apparatus is mainly used to uniformly mix raw materials to be fed into a stirring tank at the time of manufacturing foods or medicines However, by providing it in the lower part of the stirring tank, the structure of the sealing lid on the upper part of the stirring tank is simplified to facilitate opening and closing, and maintenance and repair are facilitated.

Further, the magnetic stirring apparatus includes a rotor which is installed outside the stirring tank and can rotate according to the driving of the motor; An impeller installed inside the stirring tank for stirring the raw materials; And a separation plate installed at the lower part of the stirring tank for separating the inside and the outside of the stirring tank. The rotor and the impeller are provided with magnets, respectively, so that the rotational force of the rotor installed outside the stirring tank is transmitted to the inside of the stirring tank by the magnetic force of the magnet. By constructing the impeller and the rotor so that the impeller and the rotor can be agitated by being configured to be delivered to the installed impeller, leakage of the raw material in the agitation tank is effectively prevented, and maintenance and repair are easy.

In order to increase the agitation efficiency of the raw materials located at the lower side and facilitate the discharge of the agitated raw materials, the stirring tank has a convex curvature downward toward the center of the lower bottom surface, and a raw material outlet The magnetic stirrer is installed obliquely out of the central axis of the stirring tank.

When the magnetic stirrer is installed at the lower part of the stirring tank, the stirring vanes provided in the impeller are arranged such that the center axis of the impeller is at a certain angle Thereby generating an ascending fluid flow.

Although the conventional magnetic stirring apparatus has some advantages in terms of increase in stirring efficiency due to a rising air flow and ease of discharging, the impeller is installed obliquely at one side of the bottom surface, avoiding a discharge port located at the center of the bottom surface It is pointed out that a precipitate is generated at the bottom of the opposite side where the impeller is installed.

These precipitates are particularly serious in the case of the liquid and solid powder being stirred in the stirring tank, which not only deteriorates the quality but also leads to waste of raw materials due to the disposal of the precipitate, Thereby causing a problem to be adversely affected.

On the other hand, since the separation plate is integrally installed in the stirring tank through the welding method, it is extremely difficult to perform a series of maintenance work for separating and repairing (or replacing) The problem is pointed out.

The present invention has been made in order to solve the problems involved in a conventional magnetic stirring apparatus which is installed on a lower side of a stirring tank having a downwardly convex radius of curvature as the bottom surface is centered as described above, The present invention has been accomplished on the basis of these findings. It is an object of the present invention to provide a magnetic stirrer capable of easily suppressing sediment while having a structure of easily discharging a magnetic stirrer at the center of a bottom surface of an agitating tank.

In addition, since the swirling phenomenon generated by the stirring blade of the impeller provided at the center of the lower portion of the stirring tank generates a horizontal liquid flow superior to the conventional one having the ascending liquid flow, the raw materials located at the bottom of the stirring tank are effectively stirred, Lt; / RTI >

Further, the present invention provides a separation plate structure which is easily welded to a lower portion of a stirring tank to facilitate separation / attachment of a separation plate for separating the inside and outside of the stirring tank.

According to an aspect of the present invention, there is provided a mixing tank, comprising: a separation plate for separating the inside and the outside of a stirring tank; a rotor installed outside the stirring tank and rotatable by driving of a motor; And an agitating impeller,

Wherein the separating plate comprises a welding plate coupled to a bottom of the stirring tank by a welding method to be coupled to the lowest position of the stirring tank and having a through hole formed at the center thereof; And a cylindrical seating protrusion which is detachably coupled to the upper portion of the welding plate by a bolt and has an insertion groove formed therein to be connected to the through hole and which protrudes upward from the welding plate, The bottom of which is provided with one or more outlets for discharging the raw material and connected to the discharge pipe so that the raw material can be smoothly discharged to the lowest point of the downwardly curved stirring tank,

Wherein the rotor is installed in the insertion groove of the seating projection together with the first magnet provided therein and spaced apart from the seating projection so as to be rotatable,

The impeller includes a second magnet that is magnetically coupled to the first magnet at an inner circumference of the body. A plurality of stirring blades are radially formed on the outer circumference of the body to cover the cylindrical seating protrusion, And is constituted by a combined structure.

The present invention provides a magnetic stirrer at the lower center of a bottom of a stirring tank whose center is convex downward, but also has a discharge port formed in the welding plate together to facilitate discharge. Horizontal liquid flow, which is a sideways vortex phenomenon The separating plate for separating the inside and the outside of the stirring tank can be separated / joined to the welding plate and the seating protrusion, so that the maintenance / It is an advantageous effect that the anticipated effect is indeed beneficial, for example, it is easy to maintain.

1 is a reference view showing a conventional magnetic stirring apparatus.
FIG. 2 is a perspective view showing a preferred embodiment of a magnetic stirring apparatus according to the present invention. FIG.
3 is an exploded perspective view showing a preferred embodiment of the magnetic stirring apparatus proposed by the present invention.
4 is a cross-sectional perspective view showing the internal coupling structure of the magnetic stirring apparatus proposed by the present invention.
5 is a cross-sectional exploded perspective view showing the internal coupling structure of the magnetic stirring apparatus proposed by the present invention.
6 is a cross-sectional view of another embodiment of a welding plate according to the present invention.
7 is a reference view showing various embodiments of a stirring wing according to the present invention.
8 is a use state diagram showing a state where the present invention is coupled to a downward curvature stirring tank.
Fig. 9 is a use state showing the state where the present invention is coupled to a tilted stirring tank. Fig.

Hereinafter, the magnetic stirring apparatus 10 according to the present invention will be described in detail with reference to the accompanying drawings.

2 and 3 are a combined perspective view and an exploded perspective view showing a preferred embodiment of the magnetic stirring apparatus 10 according to the present invention, and Figs. 4 and 5 show a cross-sectional perspective view and an exploded perspective view showing the internal coupling structure As shown in FIG. 1, the present invention is provided with a separation plate 20 for separating the inside and the outside of the stirring tank 11, a rotor 30 installed outside the stirring tank 11 and rotatable according to the driving of the motor, And an impeller 40 installed in the stirring tank 11 for stirring the raw materials,

The separating plate 20 is welded to the lower center of the stirring tank 11 by a welding method and is connected to the lowest position of the stirring tank 11 and has a through hole 22 formed at the center thereof. ); And a cylindrical seating protrusion 25 which is detachably coupled to the upper portion of the welding plate 21 by a bolt and has an insertion groove 26 connected to the through hole 22 and protruded upward from the welding plate 21, Wherein the welding plate 21 is provided with one or more discharge ports 23 connected to the discharge pipe to discharge the stirred raw material in the stirring tank 11 and the lower surface of which is provided with a downwardly curved stirring tank 11, So that the raw material can be smoothly discharged,

The rotor 30 is installed in the insertion groove 26 of the seating projection 25 with a first magnet 31 provided therein and spaced apart from the seating projection 25 so as to be rotatable ,

The impeller 40 has a second magnet 42 that is magnetically coupled to the first magnet 31 around the inner periphery of the body 41. A plurality of stirring blades 400 are disposed around the outer periphery of the body 41, Which are radially spaced apart from each other, are covered by the cylindrical seating projection 25 and are freely rotatably coupled.

The stirring tank 11 provides a space for evenly mixing raw materials of the liquid and the solid powder injected into the mixing tank 11. The mixing tank 11 is formed into a cylindrical shape so that the vortex phenomenon generated by the rotation of the impeller 40 is effectively performed, .

In addition, when the bottom surface is flat, a vortex blind spot (or an agitated blind spot) in which a vortex phenomenon due to the rotation of the impeller 40 can not be transmitted can be formed at a boundary portion where the bottom surface is in contact with the side surface. Convex downward curvature or a sloped inclined surface so that the swirling phenomenon by the impeller 40 strikes the bottom surface and extends in the upward direction so that stirring can be effectively performed.

The impeller 40 is rotatably mounted on the cylindrical seating projection 25,

And a fixing groove 29 having a coupling groove 27 at an upper center of the cylindrical seating projection 25 and having a first corner 28 formed around the coupling groove 27,

The impeller (40) is provided with a support shaft (43) fixedly coupled to the coupling groove (27); A rotary shaft 46 fitted to the outer side of the support shaft 43 and having a seating portion 44 at its outer periphery and a fixing portion 45 corresponding to the fixing groove 29 at a lower portion; And a rotating body 48 hingedly coupled to the seat 44 of the rotary shaft 46 so as to freely rotate and having a second corner 47 formed on the outer periphery thereof. And has a seating groove 49 corresponding to the second corner portion 47 so as to be rotatably engaged with the seating projection 25 so as to be rotatable.

The first angular portion 28 is formed in the fixing groove 29 to completely block the possibility that the rotary shaft 46 rotates together with the rotary body 48. The first angular portion 28 is fixed to the fixing groove 29 can be formed naturally at the corner portions by forming the entire shape of the protrusions 29, 29 in a polygonal shape such as a square, hexagonal, octagonal, or the like.

The rotating body 48 is hinged to the rotating shaft 46 and freely rotatable about the rotating shaft 46 so that the body 41 of the impeller 40 can be rotated. At this time, the coupling between the rotating body 48 and the body 41 of the impeller 40 is coupled so as to be rotatable as a body without rotating mutually at the time of rotation by the second corner portion 47, Can be formed naturally at the corner portions by forming the entire circumferential surface of the rotating body 48 in a polygonal shape such as a square, hexagonal, or octagonal shape.

It is preferable that a sealing ring 24 is formed between the welding plate 21 and the seating projection 25 which can be mutually separated and combined so that the inside and the inside of the stirring tank 11 can be tightly closed. One or a plurality of portions may be formed at a boundary portion between the plate 21 and the seating projection 25, and it is ideally constituted of rubber or a synthetic resin material.

The outer surface of the body 41 of the impeller 40 is formed in a polygonal shape so that the impeller 40 can adhere to the outer surface of the impeller 40 to push or pull the materials along the body 41 desirable. This, in turn, makes stirring more efficient.

The stirring vane 400 is disposed in the center of the stirring tank 11 and is disposed in the same direction as the center axis of the impeller 40 perpendicular to the ground surface, ), And it is possible to easily generate a horizontal liquid flow (which forms a spiral vortex phenomenon laterally with respect to the liquid generated by the rotation of the impeller 40) that pushes the raw material in the lateral direction at the time of rotation . Which is configured to exceed 10 degrees and forms a rising liquid flow (a swirling phenomenon of the liquid generated in accordance with the rotation of the impeller 40 is formed in a spiral shape upward), and the stirring tank 11 ) It is possible to effectively suppress the sediment generated on the inner bottom surface.

6 is a cross-sectional view showing another embodiment of the welding plate 21 according to the present invention. As shown in the figure, the welding plate 21 is formed such that its upper surface has a downward curvature radius in the direction of the discharge port 23 And can be configured to be easily discharged.

Referring to FIG. 7, there is shown a reference showing various embodiments of the stirring vane 400 according to the present invention. As shown in the drawing, the vortex induction groove 401 and the vortex inducing protrusion 402 are formed at the lower end of the stirring vane 400, The vortex is generated between the inner bottom surface of the stirring tank 11 and the stirring vane 400 so that stirring can be more efficiently performed. It is also possible to form a vortex guiding hole 403 at the position.

The vortex guiding groove 401, the vortex guiding protrusion 402 and the vortex guiding hole 403 can be formed simultaneously in one stirring vane 400, The vortex inducing groove 401, the vortex inducing protrusion 402, and the vortex guiding protector 403, which are different from each other, are alternately formed so that vortex phenomena having different heights are alternately generated, so that more effective stirring can be performed .

A plurality of auxiliary vanes 410 having a predetermined angle (about 20 ° to 45 °) with respect to the central axis of the impeller 40 may be radially formed on the upper portion of the body 41 of the impeller 40, So that the ascending fluid flow can be easily generated.

Further, at the upper end of the discharge port 23, a discharge inducing slope 23a inclining downward toward the inside is further formed, so that smooth discharge can be induced.

The present invention constructed as described above has a structure in which a magnetic stirrer is installed at the lower center of the bottom surface of the stirring tank 11 whose center is convex downward and the discharge port 23 is formed together with the welding plate 21 to facilitate discharge It is possible to provide a magnetic stirring apparatus which can be easily discharged,

In addition, the structure of the impeller 40 and the stirring vane 400 according to the present invention can easily generate the horizontal liquid flow, which is a vortex phenomenon advancing in the lateral direction, so that the materials located at the bottom of the stirring tank 11 can be effectively stirred, It is possible to provide a magnetic stirring apparatus which is easy to suppress sediment,

The separating plate 20 for separating the inside and the outside of the stirring tank 11 can be separated and joined to the welding plate 21 and the seating projection 25, Can be provided.

10: Magnetic stirrer 11: Stirring tank
20: separating plate 21: welding plate
22: through hole 23: outlet
23a: discharge inducing slope 24: sealing ring
25: seated protrusion 26: insertion groove
27: engaging groove 28: first leg
29: fixing groove 30: rotor
31: first magnet 40: impeller
41: body 42: second magnet
43: Support shaft 44:
45: Fixing portion 46:
47: second leg 48:
49: seat groove 400: stirring blade
401: vortex guiding groove 402: vortex guiding protrusion
403: Vortex inducer 410: Auxiliary wing

Claims (10)

A separating plate 20 separating the inside and the outside of the stirring tank 11 is provided in a stirring tank (not shown). The stirring tank 11 has a downwardly curved downward curvature, And a rotor 30 installed at the bottom of the stirring tank 11 and rotatable according to the driving of the motor and provided in the stirring tank 11 for stirring the raw materials, The rotor 30 and the impeller 40 are provided with magnets so that the rotational force of the rotor 30 provided outside the stirring tank 11 is transmitted to the inside of the stirring tank 11 by the magnetic force of the magnet To the installed impeller (40), the magnetic stirring device

The separating plate 20 is welded to the lower center of the stirring tank 11 by a welding method and is connected to the lowest position of the stirring tank 11 and has a through hole 22 formed at the center thereof. ); And a cylindrical seating protrusion 25 which is detachably coupled to the upper portion of the welding plate 21 by a bolt and has an insertion groove 26 connected to the through hole 22 and protruded upward from the welding plate 21, Wherein the welding plate 21 is provided with one or more discharge ports 23 connected to the discharge pipe to discharge the stirred raw material in the stirring tank 11 and the lower surface of which is provided with a downwardly curved stirring tank 11, So that the raw material can be smoothly discharged,
The rotor 30 is installed in the insertion groove 26 of the seating projection 25 with a first magnet 31 provided therein and spaced apart from the seating projection 25 so as to be rotatable ,
The impeller 40 has a second magnet 42 that is magnetically coupled to the first magnet 31 around the inner periphery of the body 41. A plurality of stirring blades 400 are disposed around the outer periphery of the body 41, Which is rotatably supported by the cylindrical seating protrusion 25 and freely rotatable,
Wherein the stirring vanes (400) are arranged at angles within a range of 10 degrees or perpendicular to the center axis of the impeller (40) so that horizontal liquid flow can be easily generated when the stirring vanes (400) are pushed in a lateral direction during rotation.
The method according to claim 1,
The cylindrical seating projection 25 has a fixing groove 29 formed at an upper center thereof and a first corner 28 formed around the coupling groove 27,
The impeller (40) includes a support shaft (43) fixedly coupled to the coupling groove (27); A rotary shaft 46 fitted to the outer side of the support shaft 43 and having a seating portion 44 at its outer periphery and a fixing portion 45 corresponding to the fixing groove 29 at a lower portion; And a rotating body 48 hingedly coupled to the seat 44 of the rotary shaft 46 so as to freely rotate and having a second corner 47 formed on the outer periphery thereof. Wherein the second angular portion (47) has a seating groove (49) corresponding to the second angular portion (47), and is rotatably coupled to the seating projection (25).
The method according to claim 1,
Characterized in that a sealing ring (24) of at least one rubber or synthetic resin is additionally provided between the welding plate (21) and the seating projection (25).
The method according to claim 1,
Wherein the body (41) of the impeller (40) has a polygonal outer surface.
The method according to claim 1,
The stirring vane 400 has an angle of 10 ° or less with respect to the central axis of the impeller 40 so that horizontal liquid flow can be easily generated in the lateral direction during rotation, ). ≪ / RTI >
The method according to claim 1,
Wherein the stirring vane (400) further comprises a vortex induction groove (401) and a vortex induction protrusion (402) at a lower portion thereof.
The method according to claim 1,
Characterized in that the stirring vane (400) further comprises a vortex guiding hole (403) on one side.
The method according to claim 1,
Wherein a plurality of auxiliary vanes 410 having a predetermined angle with the central axis of the impeller 40 are additionally provided on the upper portion of the body 41 of the impeller 40 at predetermined intervals. .
The method according to claim 1,
And a discharge inducing slope (23a) is further formed at an upper end of the discharge port (23), the discharge inducing slope (23a) inclining downward toward the inside.
The method according to claim 1,
And the upper surface of the welding plate (21) has a downward curvature radius in the direction of the discharge port (23).

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