KR200441163Y1 - Impeller used in a magnetic mixer - Google Patents

Abstract

The present invention relates to an impeller of a magnetic stirrer used for mixing medicines or beverages, and according to one aspect of the present invention is installed on the bottom of the mixing vessel having a protrusion on the bottom magnetic stirrer to mix the fluid in the mixing vessel In, the upper body cylindrical body having a built-in pizza body, the receiving groove for receiving a protrusion therein; There is provided an impeller for a magnetic stirrer comprising a plurality of wing feathers integrally formed from the lower end to the upper end of the outer circumferential surface of the upper and lower cylindrical bodies.

Magnetic Stirrer, Impeller, Conical Body, Wing Feather, Upper Body Cylindrical Body

Description

Impeller for magnetic stirrer {Impeller used in a magnetic mixer}

1 is a plan view showing a magnetic stirrer employing an impeller for a magnetic stirrer according to an embodiment of the present invention,

Figure 2 is a perspective view showing an impeller for a magnetic stirrer according to an embodiment of the present invention,

3 is a cross-sectional view taken along line III-III of FIG. 2;

4 is a state diagram of use of the impeller for the magnetic stirrer shown in FIG.

Explanation of symbols on the main parts of the drawings

1: Impeller for magnetic stirrer 10: Commercial body cylinder

11: Acceptance Home 12: Pizza Adult

13: horizontal through hole 14: inclined through hole

20: wing feather 21: wing feather extension

100: magnetic stirrer 110: mixing vessel

111: protrusion 112: support rod

113: exhaust pipe 114: cap

120: impeller support shaft 130: drive means

131: driving magnetic body 132: driving motor

The present invention relates to a magnetic stirrer, and more particularly, a magnetic stirrer which is installed at the bottom of a container containing a liquid source or a liquid mixture requiring airtightness and used to stir the mixture precisely without any foreign matter mixing in the outside. It is about a dragon impeller.

Conventionally, a top mounted mixer has been used that mounts a mixer on top of the vessel to agitate the mixture in the vessel. As an example of a top-mounted mixer, Korean Utility Model Publication No. 2000-12086 (2000.07.05) discloses a prefabricated impeller of a stirring device.

The prior art is to install a drive motor in the upper portion of the stirrer body and the reducer coupled to the pinion of the drive motor is installed below the drive motor to reduce the rotation speed and the stirring shaft connected to the output shaft of the reducer is connected to the stirring impeller In the installed stirring device, the impeller is formed in an inverted triangle to form a fixed portion and a plurality of annular recesses on the upper portion of the impeller to install a plurality of blades in the inner center of the impeller, the impeller It is configured by forming the discharge portion and the discharge port on the upper side and the side of the impeller, each blade piece is laminated and assembled as appropriate number of impellers installed in each of the fasteners, and assembled to use the discharge portion of each impeller in communication It is configured to be.

Related prior art, including the prior art, is configured to install a motor on the top of the container, and connect the impeller located inside the container with the motor by the shaft. In the case of the motor and gearbox used in the above-described configuration, most of the capacity and size is large, occupies unnecessary space on the upper part of the container, and requires a crane to lift the motor during repair.

In addition, the shaft connecting the motor and the impeller has an impeller fixed bushing, which requires periodic cleaning, but if the shaft is long, it is difficult to clean because of the force to lift it.

Furthermore, a hole through which the shaft penetrates is formed in the upper part of the container, and a seal is installed to seal the hole. An external foreign matter penetrates due to the flow of the shaft during SIP (Steam in place). There is this.

In particular, in the case of the above-described thread, there is a hassle that needs to be replaced every 1 to 2 years, and 5 to 7 years for the shaft.

In addition, in the case of the above-described top-mounted mixer, the mixture is not evenly mixed to the bottom of the container, so that a deposition phenomenon and a bubble phenomenon occur, and the mixing amount is limited.

The present invention has been devised to solve the problems described above, an embodiment of the present invention relates to an impeller for a magnetic stirrer that can stir the mixture efficiently with a motor of a small capacity while cleaning conveniently.

In addition, one embodiment of the present invention relates to an impeller for a magnetic stirrer that can effectively maintain the airtight in the container to prevent contamination of the mixed solution.

In order to achieve the above object, an embodiment of the present invention is a magnetic stirrer installed at a lower portion of a mixing vessel having a protrusion at a bottom to mix a fluid in the mixing vessel, a pizza body built in the lower portion, and a protrusion inside Upper and lower cylinder body having a receiving groove for receiving; It provides an impeller for a magnetic stirrer comprising a plurality of wing feathers formed integrally from the lower end to the upper end of the outer peripheral surface of the upper and lower cylindrical body.

1 is a plan view illustrating a magnetic stirrer employing an impeller for a magnetic stirrer according to an embodiment of the present invention.

As shown in FIG. 1, the magnetic stirrer 100 has a protrusion (111, see FIG. 4) formed in the lower surface thereof, and a support rod 112 and the discharge pipe 113 formed on the outer lower surface thereof so as to be opened and closed at an upper portion thereof. (114) is provided with a mixing vessel 110, an impeller (1) for agitating the mixed solution accommodated in the protrusion 111, the mixed container 110, magnetic material such as a magnet (131a, see Fig. 4) It includes a drive means 130 for driving the impeller (1) by.

2 is a perspective view illustrating an impeller for a magnetic stirrer according to an embodiment of the present invention, and FIG. 3 is a cross-sectional view taken along line III-III of FIG. 2.

Magnetic impeller 1 according to a preferred embodiment of the present invention includes a cylinder body 10 and a plurality of wing feathers 20 formed on the outer circumferential surface of the cylinder body 10.

The upper narrow cylindrical body 10 preferably has a lower diameter as shown in Figure 3, the upper portion is a cylindrical shape that decreases in diameter toward the upper side. The upper and lower cylindrical body 10 is formed in the shape corresponding to the above-described protrusion 111, that is, a cylindrical receiving groove 11 is formed.

In addition, the pizza body 12 which is reacted by the above-described magnetic body 131a is installed in the lower portion of the upper and lower cylindrical body 10. Furthermore, the upper and lower cylindrical body 10 has a horizontal through hole 13 and the inclined through hole 14 penetrating from the outer peripheral surface to the receiving groove 11 is formed.

As shown in FIG. 3, the accommodating groove 11 is formed to correspond to the protrusion 111 from the bottom of the upper body cylindrical body 10 to the first accommodating portion 11a to accommodate the protrusion 111. And a second accommodating body having a smaller diameter than the first accommodating groove 11a and extending upward from the first accommodating groove 11a to accommodate a lower portion of the impeller support shaft 120 (see FIG. 4) to be described later. It consists of a groove (11b) and the third receiving groove (11c) extending from the second receiving groove (11b) to the upper portion having a diameter smaller than the second receiving groove (11b).

Since the third accommodating groove 11c is penetrated, washing water flows through the third accommodating groove 11c when the impeller is washed, thereby cleaning the inner wall of the accommodating groove 11.

The pizza body 12 is preferably embedded in a wall portion between the outer circumferential surface of the first accommodating groove 11a and the upper and lower cylindrical body 10, as shown in Figure 3, preferably each pizza body ( 12) is installed to be placed intermittently.

The inclined through hole 14 and the horizontal through hole 13 are preferably formed at intervals of 120 ° on the upper portion of the upper and lower cylindrical body 10 between the wings 20 to be described later. The inclined through hole 14 is formed at an angle of 40 to 45 ° from the outer circumferential surface to the first accommodating groove 11a, and the horizontal through hole 13 penetrates parallel to the third accommodating groove 11c.

 Since the mixed liquid introduced into the receiving groove 11 flows out through the inclined through hole 14 and the horizontal through hole 13, it serves to assist the rotation of the impeller. In addition, since the mixed liquid flows through the inclined through hole 14 and the horizontal through hole 13 after the inflow into the accommodating groove 11, it also serves to automatically clean the accommodating groove 11.

The wing feather 20 is preferably integrally formed from the lower end to the upper end of the longitudinal outer circumferential surface of the upper cylinder body 10 as shown in FIG. Preferably, the wing feathers 20 are formed on the outer circumferential surface of the upper body cylindrical body 10 in the form of inclination, or deflection, of 20 to 45 ° in the clockwise direction, respectively, each wing blade 20 is spaced apart while forming an angle of 120 ° Is formed. As described above, by limiting the angle, there is an advantage in that the optimum vortex is formed to obtain the maximum stirring effect.

In addition, each of the wings 20 is preferably a thin plate shape having a constant thickness and a narrow and uniform width.

Furthermore, as shown in FIG. 2, the wing feather 20 is spaced from the upper side of the upper body cylindrical body 10 to the upper side and is formed with the wing feather extension part 21 disposed in parallel with the upper side. The wing feather extension 21 meets at one position to serve as a ring. That is, when the impeller is too heavy or the container is large and the protrusion 111 is far away, the impeller 1 may be coupled to the protrusion 111 by winding a wire or a rope around the wing feather extension 21.

4 is a state diagram of use of the impeller for the magnetic stirrer shown in FIG.

A cylindrical protrusion 111 is formed on the inner bottom of the mixing vessel 110, and the impeller support shaft 120 is welded and fixed to an upper surface of the protrusion 111. A shaft bearing is installed in the impeller support shaft 120, and a bearing is also installed in the corresponding second accommodating groove 11b. The magnetic impeller 1 of the embodiment of the present invention accommodates the protrusion 111 and the impeller support shaft 120 therein, but has a distance s from the protrusion 111, and the total load of the impeller 1 is Impeller support shaft 120 is supported on the bearing.

A driving means provided with a drive magnetic body portion 131 having a magnetic body 131a and a driving motor 132 for driving the drive magnetic body portion 131 in a portion recessed by the convex portion formed in the mixing container 110. 130 is installed. Specifically, the magnetic body 131a formed on the head of the driving magnetic body part 131 is installed to be parallel to the pizza body 12. At this time, it is preferable that the N pole of the magnetic body 131a faces the S pole of the pizza body 12.

When the driving motor 132 is operated, the driving magnetic body 131 connected thereto is rotated in the clockwise direction. Since the drive magnetic body 131 is rotated in the clockwise direction, the magnetic body 131a formed integrally therewith is also rotated in the clockwise direction, and as a result, the impeller 1 is rotated counterclockwise by the pizza body 12. Since the vortex is generated only by the wing feather 20 formed in the impeller 1 as shown in FIG. 4, the rotational axis of the impeller 1 may be minimized. Therefore, there is an advantage that the efficient stirring operation can be performed only with a small capacity motor. In addition, there are several advantages, such as no need to install the shaft, which makes cleaning easier.

The present invention can be variously modified by those skilled in the art without departing from the scope of the claims claimed in the utility model registration claims, the technical protection scope of the present invention is the specific preferred embodiment described above It is not limited to the example.

According to one embodiment of the present invention as described above, first, there is an effect that can provide an impeller for a magnetic stirrer that can be agitated the mixture efficiently with a motor of a small capacity while cleaning conveniently.

Second, there is an effect that can effectively maintain the airtight in the container to provide an impeller for a magnetic stirrer that can prevent contamination of the mixed solution.

Claims (8)

In the impeller for the magnetic stirrer which is installed at the bottom of the mixing vessel having a protrusion in which the magnetic body is built in the bottom to mix the fluid in the mixing vessel, Pizza body is built in the lower portion, and the upper body cylindrical body provided with a receiving groove for receiving the protrusion therein; And Impeller for magnetic stirrer, characterized in that it comprises a plurality of wing feathers are formed integrally from the lower end to the upper end of the outer circumferential surface of the upper body. The method of claim 1, The impeller for magnetic stirrer is characterized in that the cylindrical body is formed inclined through hole penetrating into the receiving groove from the outer peripheral surface. The method of claim 2, The impeller for the magnetic stirrer is characterized in that the through-hole cylindrical body is formed with a horizontal through-hole penetrating into the receiving groove from the outer peripheral surface. The method of claim 3, wherein The accommodating groove is a first accommodating groove formed to correspond to the protruding portion from the bottom of the upper cylinder body to the upper portion, and a second extending upward from the first accommodating groove while having a smaller diameter than the first accommodating groove. Comprising a receiving groove, and a third receiving groove extending from the second receiving groove to the upper portion having a smaller diameter than the second receiving groove, the inclined through hole is penetrated into the first receiving groove, The horizontal through-hole is an impeller for a magnetic stirrer, characterized in that penetrating into the third receiving groove. The method according to any one of claims 1 to 3, The wing feather is an impeller for a magnetic stirrer, characterized in that deflected at an angle of 40 ~ 45 ° to the outer peripheral surface of the cone body. The method according to any one of claims 1 to 3, The wing feather is formed three inclined to the outer circumferential surface of the upper cylinder body, each impeller for magnetic stirrer, characterized in that formed at a 120 ° angled apart. The method according to any one of claims 1 to 3, Each of the wing feathers is a thin plate shape, the impeller for a magnetic stirrer, characterized in that it has a constant thickness and uniform width. The method according to any one of claims 1 to 3, The impeller for a magnetic stirrer, characterized in that the wing feather is formed extending from the upper side of the upper cylinder body to be spaced apart from the upper side extending parallel to the upper side.

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