KR101099029B1 - An agitator for chemical fermentation using magnetic coupler - Google Patents

Abstract

    The present invention relates to a reaction fermentation agitation device using a magnetic coupler, specifically, the welding plate separates the inside and outside of the vessel of the bioreactor and transfers the driving force of the motor to the main impeller and the expanded auxiliary impeller by the magnetic force of the magnetic body. The present invention relates to an impeller of a reaction fermentation stirrer, a power transmission device, and a method of installing the same, by which materials in a container can be uniformly mixed and easy to maintain.

The present invention as a technical idea for achieving the above object, the reaction vessel; A welding plate including a basic welding structure 210 welded and fixed to the lower portion of the reaction vessel, and a fastening bolt 200 for fastening the basic welding structure 210 to the motor housing 150; An impeller 300 provided inside the reaction vessel and coupled to the basic welding structure 210 and configured of a lower impeller 310 having a magnetic material therein; And a motor 110 provided at an outer side of the reaction vessel and coupled to the basic welding structure 210 to generate a driving force, a speed reducer 120 mounted to the motor 110, and the speed reducer 120. Rotor 140 is installed on the rotary shaft, an external magnetic body 150 installed at the end of the rotor 140 to interlock with a magnetic material in the lower impeller 310, and installed in the reducer 120, the external magnetic material ( It characterized in that it comprises a ;; a motor drive unit 100 consisting of a motor housing 130 to protect the rotor 140 connected to the 150.

Magnetic Coupler, Reactive Fermentation Stirrer, Magnetic Impeller, Welding Plate, Male Bearing, Arm Bearing, Extension Shaft, Turbine Impeller

Description

Reaction Fermentation Stirrer using Magnetic Coupler {An agitator for chemical fermentation using magnetic coupler}

The present invention relates to a reaction fermentation agitation device using a magnetic coupler, specifically, the welding plate separates the inside and outside of the vessel of the bioreactor and transfers the driving force of the motor to the main impeller and the expanded auxiliary impeller by the magnetic force of the magnetic body. The present invention relates to an impeller of a reaction fermentation stirrer, a power transmission device, and a method of installing the same, by which materials in a container can be uniformly mixed and easy to maintain.

In general, the reaction fermentation stirring apparatus is a device for uniformly forming a mixture and agitating liquid for a long time in the production of food and pharmaceuticals so that the fermentation can occur evenly. Reactive fermentation stirrer is an essential device for the automation and diversification of pharmaceutical and food manufacturing, as well as the improvement of quality, and the demand is increasing recently.

The existing upper drive type stirring device requires a separate crane for maintenance and repair by installing a driving device such as a motor on the upper portion of the container, and has a disadvantage in that the load of the driving device is applied to the semi-applicator. In addition, the existing reaction vessel transfers the power of the driving device to the impeller in the container using a mechanical seal, and therefore, particularly, cleaning in place (CIP) or sterilization at high temperature (SIP: Sterilization in Place) Leakage and leakage can occur during the process, which leads to contamination in the reaction vessel and deteriorates the quality of pharmaceutical and food production lines.

Magnetic coupler technology has been applied to the reaction fermentation stirrer to compensate for this disadvantage. The reaction fermentation agitation device using the magnetic coupler completely separates the inside and the outside of the reaction vessel and transfers the driving force of the motor into the reaction vessel through the magnetic force, so there is no fear of infiltrating the lubricant or dust of the motor from the outside into the reaction vessel. It has the advantage of being hygienic and easy to maintain. In addition, since the motor is installed in the lower part of the reaction vessel and the driving force is transmitted by magnetic force, it does not need a separate equipment for opening the lid of the reaction vessel, and the mechanical seal is not used to cause the leakage of oil. It can be very useful for food and pharmaceutical production line because it can prevent contamination.

However, such a conventional bioreactor driving device is fixed in a motor, and requires a separate structure to transmit driving force, so that the disassembly and reassembly of the motor and the power transmission component during maintenance and repair is not easy.

In addition, due to the impeller shape limitations, the flow in the reaction vessel is guided in a restricted direction, which is vulnerable in the uniform mixing of the reactants, and when washing in the container, there is a hassle to separate and wash the impeller directly.

Accordingly, the present invention is to provide a reaction fermentation stirring device using a magnetic coupler that can solve the internal contamination and cleaning inconvenience caused by the use of the conventional mechanical seal (O-ring) and the like.

In addition, the present invention is to provide a reaction fermentation stirring device using a magnetic coupler to directly transfer the power of the motor to the impeller directly through the magnetic coupler without a separate device to increase the overall efficiency.

In addition, the present invention is to provide a reaction fermentation stirring device using a magnetic coupler for convenient separation and reassembly of the motor outside the reaction vessel and the impeller inside the reaction vessel during installation and maintenance of the drive device.

In addition, the present invention is to provide a reaction fermentation stirring apparatus using a magnetic coupler including a magnetic impeller that can make a uniform mixture by actively flowing the inside of the reaction vessel and can clean itself in a state attached to the reaction vessel.

In addition, the present invention is to provide a reaction fermentation stirring apparatus using a magnetic coupler including a bearing to minimize the wear caused by the load in the direction of the rotation axis received by the impeller by the flow inside the reaction vessel.

In addition, the present invention is to provide a reaction fermentation stirring apparatus using a magnetic coupler including an impeller attached to the auxiliary wing for a long time even stirring.

The present invention as a technical idea for achieving the above object, the reaction vessel; A welding plate including a basic welding structure 210 welded and fixed to the lower portion of the reaction vessel, and a fastening bolt 200 for fastening the basic welding structure 210 to the motor housing 150; An impeller 300 provided inside the reaction vessel and coupled to the basic welding structure 210 and configured of a lower impeller 310 having a magnetic material therein; And a motor 110 provided at an outer side of the reaction vessel and coupled to the basic welding structure 210 to generate a driving force, a speed reducer 120 mounted to the motor 110, and the speed reducer 120. Rotor 140 is installed on the rotary shaft, an external magnetic body 150 installed at the end of the rotor 140 to interlock with a magnetic material in the lower impeller 310, and installed in the reducer 120, the external magnetic material ( It characterized in that it comprises a ;; a motor drive unit 100 consisting of a motor housing 130 to protect the rotor 140 connected to the 150.

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The present invention ensures hygiene of the equipment by not requiring an axis penetrating the reaction vessel by combining a motor drive unit outside the reaction vessel, a welding plate completely separating the inside and the outside of the reaction vessel, and a magnetic impeller inside the reaction vessel.

In addition, the reaction fermentation stirring device using the magnetic coupler of the present invention maximizes the efficiency of power transmission by applying a fastening mechanism (Mechanism) to the motor housing (Motor Housing) and the welding plate, and the separation and re-installation of the motor drive unit during maintenance and repair There is an effect of facilitating assembly.

In addition, the drive device of the magnetic reaction fermentation stirrer of the present invention has an effect of facilitating maintenance and repair by providing a special flow in the reaction tank and having a lower impeller capable of self-cleaning (CIP).

In addition, by installing an additional turbine impeller in the extension shaft connected to the lower impeller in the present invention it can enhance the rotational force in the direction of rotation of the rotor at a certain depth inside the reaction vessel and induce turbulent flow to produce a mixture of uniform concentration It works.

In addition, the reaction fermentation agitation device using the magnetic coupler of the present invention is combined with the male bearing and the arm bearing in the form of bushing has the effect of minimizing the contamination inside the reaction vessel by minimizing the wear caused by the load in the rotational axis direction.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the embodiments, descriptions that are well known in the technical field to which the present invention pertains or are not directly related to the present invention may be omitted so as to clearly convey the core of the present invention without blurring them.

On the other hand, in the accompanying drawings, some components are exaggerated, omitted, or schematically represented, and the size of each component does not entirely reflect the actual size. Like reference numerals refer to like or corresponding elements throughout the accompanying drawings.

1 is a front view of a reaction fermentation stirring apparatus using a magnetic coupler according to an embodiment of the present invention. Figure 2 is an exploded view for explaining in detail the configuration of the reaction fermentation stirring device using a magnetic coupler of the present invention.

First, referring to Figures 1 and 2 will be described the motor drive of the reaction fermentation stirring apparatus using a magnetic coupler. The motor driver 100 includes a motor 110, a speed reducer 120, a motor housing 130, a rotor 140, and an external magnetic body 150. The motor hole 100 is coupled to the basic welding structure 210 to be described later on the outside of the reaction vessel.

The motor 110 generates a rotational driving force to induce all the flow inside the reaction vessel due to the reaction fermentation stirring device using the magnetic coupler of the present invention.

The reducer 120 is mounted on the motor 110 to increase the output torque by reducing the rotational speed. In addition, it serves to change the direction of the rotation axis to reduce the required space of the reaction vessel lower.

The motor housing 130 is installed in the reducer 120 and serves to protect the rotor 140 connected to the external magnetic material. In addition, by combining with the basic welding structure 210 of the welding plate 200 to be described later to provide a structural support of the motor drive unit 100 during the operation of the reaction vessel.

In the welding plate coupling portion of the motor housing 130, grooves of the letter 'n' are formed at 120-degree intervals in the circumferential direction, so that when viewed from the rotation axis, the welding plate 200 is positioned at the same position as the fastening bolt 220 of the welding plate 200 to be described later. Will be placed.

The rotor 140 is installed on the rotation shaft of the reducer 120 and directly connects with the external magnetic material 150 to transmit the rotational force.

 The external magnetic body 150 has a sufficient magnetic force for the stirring force, is installed at the end of the rotor 140 to transfer the driving force of the motor to the impeller inside the reaction vessel in conjunction with the magnetic material in the lower impeller 310 to be described later Play a role. The rotor 140 including the motor 110 and the external magnetic material 150 may be connected by an indirect power transmission method such as a belt, a timing belt, and a chain in addition to the direct connection method.

Next, the welding plate 200 of the reaction fermentation stirring apparatus using the magnetic coupler will be described with reference to FIGS. 1, 2, and 3. The welding plate 200 includes a basic welding structure 210 and a fastening bolt 220.

The basic welding structure 210 serves to separate the inside and the outside of the reaction vessel as a part fixed by welding to the lower portion of the reaction vessel. In addition, the basic welding structure 210 is bent toward the inside from the outside of the reaction vessel to form a recessed shell (Shell) shape, the external magnetic body 150 is inserted into the bent portion of the basic welding structure 210 and the lower impeller ( 310 is coupled in a form surrounding the outside of the bent portion of the basic welding structure 210 is positioned between the magnetic force of the external magnetic body 150 and the lower impeller 310.

The fastening bolt 220 is fastened at equal intervals 120 degrees in the circumferential direction to the outer side of the reaction vessel of the basic welding structure 210, which is matched with the 'b' shaped groove of the motor housing 150 as described above It provides a coupling force that can be fixed to the motor drive unit 100 in the reaction vessel when fastening.

The welding plate 200 and the motor driving unit 100 are fastened in the same manner as shown in FIG. 3. After the fastening bolt 220 of the welding plate 200 and the position of the 'b'-shaped groove of the motor housing 150 of the motor driving unit 100 are aligned, the fastening bolt 220 of the motor housing 150 The basic welding structure 210 is inserted into the motor housing 150 so as to contact the corner of the 'B' groove. In addition, the fastening bolt 220 moves in the horizontal direction of the 'b'-shaped groove of the motor housing 150 by moving the entire motor driving part 100 in the rotational direction of the rotor 140 of the motor driving part 100. To finish. When separating the motor drive unit 100 from the reaction vessel proceeds in the reverse order of the assembly method described previously.

Next, the impeller 300 of the reaction fermentation stirring apparatus using the magnetic coupler will be described with reference to FIGS. 1 and 2. The impeller 300 includes a lower impeller 310, a bearing shaft 320, a male bearing 330, an arm bearing 340, an extension shaft 350, and a turbine impeller 360. The impeller 300 is coupled to the basic welding structure 210 inside the reaction vessel.

The structure of the lower impeller 310 is based on the Korean Utility Model Model No. 4 441 'Magnetic Stirrer Impeller'. The lower impeller 310 includes a magnetic material having a sufficient magnetic force for stirring to rotate in response to the driving force of the motor in cooperation with the external magnetic material 150 of the motor driving unit 100. At the end of the lower impeller 310 in the reaction container inner direction there is a collecting portion to connect the extension shaft 350.

The bearing shaft 320 is assembled to the basic welding structure 210 and serves to allow the male bearing 330 to be fixed to the basic welding structure 210.

The male bearing 330 is assembled in the bushing form with the female bearing 340 installed inside the lower impeller 310 to reduce the influence of friction during rotation of the impeller 300 and to prevent wear.

Arm bearing 340 is a sleeve-shaped structure is installed inside the lower impeller 310 to reduce the impact of friction generated during rotation, including the male bearing 340 during assembly of the impeller 300 to prevent wear Play a role.

Extension shaft 350 is installed at the end of the lower impeller 310 serves to extend the rotation axis and the length can be arbitrarily determined according to the size of the reaction vessel or the user's intention.

The turbine impeller 360 may be installed on the extension shaft 350 at any number according to the size of the reaction vessel or the user's intention, and may cause rotational flow for generating a uniform mixture in the reaction vessel. Play a role.

So far, the reaction fermentation stirring apparatus using the magnetic coupler according to the present invention has been described. The present specification and drawings disclose preferred embodiments of the present invention, although specific terms have been used, which are merely used in a general sense to easily explain the technical content of the present invention and to help understand the present invention, and the scope of the present invention. It is not intended to be limiting. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein.

(100) motor drive unit

110 motor

120 reducer

(130) Motor Housing

(140) Rotor

150 external magnetic material

200 welding plate

(210) Basic Welding Structure

(220) Fastening bolt

300 impeller

310 lower impeller

320 bearing shaft

(330) Male Bearing

(340) arm bearing

(350) extension shaft

360 turbine impeller

Claims (8)

Reaction vessel; A welding plate including a basic welding structure 210 welded and fixed to the lower portion of the reaction vessel, and a fastening bolt 200 for fastening the basic welding structure 210 to the motor housing 150; An impeller 300 provided inside the reaction vessel and coupled to the basic welding structure 210 and configured of a lower impeller 310 having a magnetic material therein; And Is provided on the outside of the reaction vessel is coupled to the basic welding structure 210, the motor 110 to generate a driving force, the reducer 120 mounted to the motor 110, and the rotary shaft of the reducer 120 The rotor 140 is installed on, the external magnetic body 150 is installed at the end of the rotor 140 and interlocks with the magnetic material in the lower impeller 310, and the reducer 120 is installed in the external magnetic material 150 Motor drive unit 100 consisting of a motor housing 130 to protect the rotor 140 connected to the; Reaction fermentation stirring apparatus using a magnetic coupler characterized in that it comprises a. The method of claim 1, The basic welding structure 210 is bent toward the inside from the outside of the reaction vessel to form a recessed shape, the external magnetic material 150 is inserted into the bent portion of the basic welding structure 210, the lower impeller Reaction fermentation stirring apparatus using a magnetic coupler, characterized in that 310 is coupled in a form surrounding the outside of the bent portion of the basic welding structure 210. The method of claim 1, The impeller 300, Reaction fermentation agitation using a magnetic coupler, characterized in that a bearing and an extension shaft 350 is further provided on the upper part of the lower impeller 310, and the turbine impeller 360 of a multistage is installed on the extension shaft 350. Device. The method of claim 1, The motor housing 130 has a N-shaped groove formed at intervals of 120 degrees in the circumferential direction, and the fastening bolt 220 is disposed at intervals of 120 degrees in the circumferential direction on the outer side of the reaction vessel of the basic welding structure 210. Reaction fermentation agitation apparatus using a magnetic coupler, characterized in that the fastening bolt 220 is coupled to match the N-shaped groove. delete The method of claim 1, The rotor (Rotor) 140 including the motor 110 and the external magnetic material 150 is connected by a magnetic coupler, which is connected by an indirect power transmission method such as a belt, a timing belt, and a chain in addition to the direct connection method. Reaction fermentation stirring device. The method of claim 1, A male bearing 330 is assembled to the basic welding structure 210 by a bearing shaft 320, and an female bearing 340 is installed inside the lower impeller 310 so that the male bearing 330 is the female. Reaction fermentation stirring device using a magnetic coupler, characterized in that coupled to the bearing 340. delete

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