KR100926141B1 - Apparatus for making microorganism culture fluid - Google Patents

Abstract

PURPOSE: An apparatus for preparing microorganism culture medium is provided to improve durability and work stability and quickly produce microorganism culture medium of high quality. CONSTITUTION: An apparatus(1) for preparing microorganism culture medium comprises: an agitating rod shaft(20) having agitating wing; and a rotation shaft(41) of electric motor(40) which is connected to one end of the agitating rod shaft. The agitating rod shaft rotates by driving of electric motor and mixed water, organic material and germ. A extension bush(30) having connection hole is mounted at a shaft hole of a reactor.

Description

Apparatus for making microorganism culture fluid

The present invention relates to a microbial culture medium production apparatus, and more specifically, to the water and organic material and the seed is introduced into the reaction tank is installed in the stirring rod is rotated by the electric motor, the organic material, water and the seed through the stirring rod uniform The present invention relates to a microbial culture medium production apparatus configured to rapidly produce a high quality microbial culture by maintaining rapid mixing while maintaining a mixed state.

As it is well known, the chemical fertilizer, which has been used mainly in the past due to the spread of organic methods, is gradually replaced by organic fertilizers, and thus, microorganism cultures can be prepared by fermenting organic substances including compost, salt, sawdust, etc., which can be easily collected even in farms. Small microbial culture medium production equipment that can be introduced one after another.

In the microbial culture medium production apparatus, generally, a stirring rod shaft is installed inside a reaction tank into which water, organic substances and seeds are added, and the water, organic substance, and seeds added to the reaction tank are uniformly mixed by rotating the stirring rod shaft. It is configured to culture the microorganisms.

Here, the stirring rod shaft is connected to the rotary shaft of the electric motor installed in the outside, and is rotated by receiving a rotational force from the rotary shaft of the electric motor, thus the end of the stirring rod shaft is formed through the shaft hole formed in the reaction tank.

In addition, since the high-pressure steam and gas generated during the high-speed fermentation of organic materials exist inside the reactor, a stable shielding structure should be formed between the stirring rod shaft and the shaft hole of the reactor.

For example, if a stable shielding structure is not formed between the shaft hole and the stirring rod shaft, the high-pressure gas and vapor present in the reaction tank are discharged to the outside, so that damage such as an electric motor located in the upper portion of the shaft hole occurs, resulting in durability. This weakening problem occurs.

In addition, while severe odor is generated in the surroundings, the internal air of the reaction tank may be leaked to the outside without difficulty to create a proper environment required for fermentation.

In order to solve this, in general, by providing a mechanical seal to enable airtightness and rotation between the stirring rod shaft and the shaft hole of the reactor, the shielding state is formed between them, The high pressure gas and vapor are intruded between the rotary ring and the fixed ring of the mechanical seal in close contact with each other, thereby causing a problem of weakening the airtightness therebetween.

Therefore, the conventional microbial culture medium production apparatus, there is not a structure that can stably shield the high-pressure gas and vapor generated in the reaction tank, the mechanical seal is easily damaged, so that a frequent maintenance and repair is required. .

An object of the present invention devised to solve the above problems, the high pressure steam and gas generated by the fermentation of organic matter between the reaction tank and the stirring rod shaft connected to the rotating shaft of the electric motor installed through the reaction tank to the outside It is to provide an apparatus for producing a microbial culture solution formed by forming an improved shielding structure to shield the discharge of, to ensure improved durability and work stability by this shielding structure.

The above object is achieved by the following configuration provided in the present invention.

Microbial culture medium production apparatus according to the present invention,
One end of the stirring rod shaft 20 provided with the stirring blade 21 penetrates through the shaft hole 18 formed in the reaction vessel 10, and one end of the stirring rod shaft 20 rotates the rotating shaft 41 of the electric motor 40. In this connection, in the microbial culture medium production apparatus configured to mix the organic material contained in the reaction tank 10 and the water and the seed is mixed by the stirring rod shaft 20 by the drive of the electric motor 40,
In the shaft hole 18 formed in the reactor 10, an extension bush 30 having a connection hole 31 communicating with the shaft hole 18 is provided, and a connection hole 31 formed in the extension bush 30. The inner wall of the annular grooves 32 are spaced apart up and down, while the outer diameter of the stirring rod shaft 20 passing through the connecting hole 31 of the extension bush 30 is formed in the inner wall of the connecting hole 31 The shielding rings 22 entering the 32 to form the stepped structure are disposed to be spaced apart from each other in the vertical direction,
The discharge pressure of the gas and the steam formed in the shaft hole 18 of the reaction tank 10 passes through the stepped structures formed between the inner wall of the connection hole 31 of the extension bush 30 and the outer diameter of the stirring rod shaft 20. Is configured to decay sequentially,

A fixing ring 51 supported by a spring 53 between the inner diameter of the connection hole 31 of the extension bush 30 in which the stepped structures are formed in the lower portion, and the stirring rod shaft 20; A mechanical seal 50 made of a rotating ring 52 fixed to the outer diameter of the stirring rod shaft 20 and tightly attached to one surface of the hardened fixing ring 51 of the spring 53 is installed and attenuated through the stepped structure. It is characterized in that the configured gas and vapor is shielded by the mechanical seal (50).

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More preferably, the outer wall of the reaction tank 10 is formed by the partition wall 11 is a double pocket 12 which is a filling space of the fruit oil (W '), the double pocket 12 is a fruit oil (W') Heat transfer heater 13 is provided to heat the reaction tank 10, the outer wall is wrapped by the fruit oil (W ') heated by the heat transfer heater (13) through the fruit oil (W') It is configured to achieve adiabatic and indirect heating.

As described above, in the present invention, an extension bush is formed in the shaft hole of the reaction tank, a stepped structure is formed between the extension bush and the stirring rod shaft, and the discharge pressure of the gas and vapor formed in the shaft hole of the reaction tank is extended. It is configured to sequentially attenuate while passing through the stepped structures formed between the inner wall of the connecting hole and the outer diameter of the stirring rod shaft.

In this way, when the discharge pressure of the gas and vapor formed in the shaft hole of the reaction tank is reduced by the stepped structure, the high-pressure gas and vapor does not easily reach the mechanical seal formed on the stepped structure, thereby extending the life of the mechanical seal. Thus, there is an advantage that improved working stability can be achieved through improved durability and airtightness.

Particularly, in the present invention, the extension bushes forming the stepped structure and the shielding ring provided on the extension bushes are composed of a plurality of divided bodies to facilitate assembly.
In addition, in the present invention, the outer wall of the reaction tank is provided with a double pocket for forming a filling space of the fruit oil, and a heat transfer heater for heating the fruit oil filled in the double pocket, and thus the reaction tank is a heat transfer heater The outer wall may be wrapped by the heated fruit oil to achieve insulation and indirect heating through the fruit oil.

Hereinafter, with reference to the accompanying drawings will be described in detail a microbial culture medium production apparatus proposed as a preferred embodiment in the present invention.

Figure 1 shows the overall configuration of the microbial culture medium production apparatus proposed as a preferred embodiment in the present invention, Figure 2 is a microbial culture medium production apparatus proposed as a preferred embodiment in the present invention, the extension bush and the stirring rod shaft 2 shows a stepped structure and a mechanical seal structure formed in detail, and FIG. 2B shows an assembled state, and FIG. 2 shows an assembled state, and FIG. 3 shows the action of the step structure and the mechanical seal structure shown in FIG. 2. It shows the status.

In the microbial culture medium production apparatus 1 proposed as a preferred embodiment in the present invention, water and organic matter such as sawdust or jelly are added to the reaction tank 10, and then the temperature suitable for fermentation in the reaction tank 10 and By creating an environment containing air, they are designed to quickly produce fermented microbial culture.

According to this embodiment, a plurality of see-through windows 14 are formed on the outer wall of the reaction tank 10 so that the operator can easily check the fermentation process of the organic matter through the see-through window 14, and the air pump (not shown) When the air supply pipe 15 connected to the) is installed so that the appropriate amount of air required for fermentation in the reaction tank 10 through the air supply pipe 15 can be supplied.

The outer wall of the reaction tank 10 is formed with a double pocket 12 which is a receiving space of the fruit oil W 'by the partition 11, and the double pocket 12 is heated with the fruit oil W'. The heat transfer heater 13 is installed.

In this way, a double pocket 12 having a heat transfer heater 13 is provided on the outer wall of the reaction tank 10, and the fruit oil W 'is filled in the double pocket 12 to heat the heat oil 13 by the heat transfer heater 13. When the heating of (W ') is achieved, the outer wall of the reaction tank 10 is covered with the heat oil W' heated by the heat transfer heater 13.

Therefore, since the heat insulation and heating of the reaction tank 10 are promoted by the heated fruit oil W ', the temperature of the inside of the reaction tank 10 is rapidly lowered by the heat insulation function through the fruit oil W'. This is prevented, and since the organic substance and water contained in the reaction tank 10 are gradually heated by indirect heating by the fruit oil W ', a uniform temperature distribution can be formed in the reaction tank.

In the present embodiment, the stirring rod shaft 20 in which the plurality of stirring blades 21 are disposed in the upper and lower sides of the reaction tank 10 is installed upright, and organic matter and water are rotated by the stirring rod shaft 20. It is made to ferment in this uniformly mixed state.

Referring to the drawings, the other end of the stirring rod shaft 20 is supported by the rotating structure by the bearing bush 16 formed to protrude upward on the bottom surface of the reaction vessel 10.

One end of the stirring rod shaft 20 penetrates through the shaft hole 18 formed in the upper portion of the reaction vessel 10 to rotate the shaft of the electric motor 40 fixed to the upper portion of the reaction vessel 10 by the auxiliary bracket 17. It is connected via the coupling 42 and the coupling 42, the stirring rod shaft 20 is rotated by the rotation of the rotary shaft 41 of the electric motor 40, the organic material and water and the seed put into the reaction tank 10 Promote the mixing.

On the other hand, in the present embodiment is a stable consisting of the step structure (S1) and the mechanical seal (S2) between the shaft hole 18 of the reaction tank 10 and the stirring rod shaft 20 rotating through the shaft hole (18). By forming a shielding structure (S), and prevents the phenomenon of high-pressure gas and vapor formed in the reaction tank 10 between the gap formed between the shaft hole 18 and the stirring rod shaft 20 of the reaction tank 10 and have.

To this end, in this embodiment, as shown in Figures 2 to 3 in the shaft hole 18 formed in the reaction vessel 10, the extension bush 30 is formed with a connection hole 31 in communication with the shaft hole 18 And annular grooves 32 are disposed on the inner wall of the connection hole 31 formed in the extension bush 30 so as to be spaced up and down.

In addition, an outer diameter of the stirring rod shaft 20 penetrating through the connection hole 31 of the extension bush 30 enters the annular groove 32 formed on the inner wall of the connection hole 31 to form a stepped structure S1. The shielding rings 22 are arranged to be spaced apart vertically.

At this time, a gap (G) of 0.05 mm to 20 mm is generated between the surface of the shielding ring 22 having the stepped structure S1 and the inner wall of the annular groove 32, thereby rotating the stirring rod shaft 20. In the shielding ring 22 installed in the stirring rod shaft 20 and the annular groove 32 formed in the connection hole 31 of the extension bush 30 does not interfere with each other. *** Unexplained reference numeral in the drawing, '33' is a bearing for fixing one end of the stirring rod shaft in a rotational structure. ***

As shown in the drawing, the extension bush 30 is not constituted by a single body, but forms a cylindrical structure by combining a pair of divided bodies 30A and 30B, and is installed in the annular groove 32 of the extension bush 30. Shielding ring 22 is also made of a pair of semi-circular split body (22A, 22B) to form a disk structure through the coupling.

If comprised in this way, the shielding ring 22 which wrapped the outer diameter of the stirring rod shaft 20 can be easily installed in the extension bush 30.

And, in the present embodiment, between the inner diameter of the connecting hole 31 of the extension bush 30, the stepped structure (S1) is formed in the lower portion, between the stirring rod shaft 20, the holding ring 51; A mechanical seal (S2) consisting of a rotating ring (52) fixed to the stirring rod shaft (20) and rotating in close contact with one surface of the rigid fixing ring (51) of the spring (53) is provided.

When the stepped structure S1 is formed between the extension bush 30 and the stirring rod shaft 20 as in the present embodiment, as shown in FIG. 3, the gas and vapor formed in the shaft hole 18 of the reactor 10 are shown. The discharge pressure of is gradually reduced while passing through the gap G of the stepped structure S1.

Therefore, the microbial culture medium production apparatus 1 according to the present embodiment, before the high-pressure gas and steam generated during the fermentation process of organic matter, water and spawn reaches the mechanical seal (S2) for the airtight action and rotational action Since the step is attenuated sequentially by the step structure (S1), the phenomenon that the mechanical seal (S2) physical damage by the gas and steam can be suppressed or prevented.

Figure 1 shows the overall configuration of the microbial culture medium production apparatus proposed as a preferred embodiment in the present invention,

Figure 2 is a microbial culture solution manufacturing apparatus proposed as a preferred embodiment in the present invention, showing the step structure and the mechanical seal structure formed between the extension bush and the stirring rod shaft in detail, Figure 2a is a cut state, Figure 2b Shows the assembly status,

FIG. 3 shows the operation state of the stepped structure and the mechanical seal structure shown in FIG. 2.

*** Explanation of symbols for main parts of drawing ***

1. Microbial culture solution production device

10. Reactor 11. Bulkhead

12. Double pocket 13. Heater heater

14. Viewing window 15. Supply pipe

16. Bearing Bush 17. Auxiliary Bracket

18. Axes

20. Stirring Rod Shaft 21. Stirring Wing

22. Shielding Ring

30. Extension Bush 31. Connector

32. Annular groove 33. Bearing

40. Electric motor 41. Rotary shaft

42. Coupling

50. Mechanical Seal 51. Retaining Ring

52. Swivel Ring 53. Spring

Claims (3)

One end of the stirring rod shaft 20 provided with the stirring blade 21 penetrates through the shaft hole 18 formed in the reaction vessel 10, and one end of the stirring rod shaft 20 rotates the rotating shaft 41 of the electric motor 40. In this connection, in the microbial culture medium production apparatus configured to mix the organic material contained in the reaction tank 10 and the water and the seed is mixed by the stirring rod shaft 20 by the drive of the electric motor 40, In the shaft hole 18 formed in the reactor 10, an extension bush 30 having a connection hole 31 communicating with the shaft hole 18 is provided, and a connection hole 31 formed in the extension bush 30. The inner wall of the annular grooves 32 are spaced apart up and down, while the outer diameter of the stirring rod shaft 20 passing through the connecting hole 31 of the extension bush 30 is formed in the inner wall of the connecting hole 31 The shielding rings 22 entering the 32 to form the stepped structure are disposed to be spaced apart from each other in the vertical direction, The discharge pressure of the gas and the steam formed in the shaft hole 18 of the reaction tank 10 passes through the stepped structures formed between the inner wall of the connection hole 31 of the extension bush 30 and the outer diameter of the stirring rod shaft 20. Is configured to decay sequentially while A fixing ring 51 supported by a spring 53 between the inner diameter of the connection hole 31 of the extension bush 30 in which the stepped structures are formed in the lower portion, and the stirring rod shaft 20; A mechanical seal 50 made of a rotating ring 52 fixed to the outer diameter of the stirring rod shaft 20 and tightly attached to one surface of the hardened fixing ring 51 of the spring 53 is installed and attenuated through the stepped structure. Microbial culture solution production apparatus (1), characterized in that the configured gas and vapor is shielded by the mechanical seal (50). delete According to claim 1, wherein the outer wall of the reaction tank 10 is formed by the partition wall 11 is a double pocket 12 which is a filling space of the fruit oil (W '), the double pocket 12 is a fruit oil (W) The heat transfer heater 13 for heating the ') is installed, and the reaction tank 10 is surrounded by the fruit oil W' heated by the heat transfer heater 13 to surround the fruit oil W '. Microbial culture solution production apparatus characterized in that configured to achieve heat insulation and indirect heating through (1).

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