KR20090053286A - Impact and water supplying apparatus of medium for pyogo-mushroom growing - Google Patents

Abstract

The present invention relates to a shock and moisture supply device of the culture medium for shiitake mushroom cultivation, the medium (A) loaded on an inclined loading table by the opening and closing operation of the opening and closing plate 21 by the retraction of the supply plate 30 ( 30 is supplied to the injection plate 30 by the air cylinder 32, the medium (A) is inserted into several injection pipes 42 of the water shocker 40 is fixed and then the injection pipe ( 42) the high pressure water injection and water supply and the electric shock by the electric shock 90 having the vicinity of the water supply to the medium (A) when the appropriate amount of water is supplied to the water supply pipe (41) The load sensor 72 detects this through the sensing rod 43 and stops the water supply, and simultaneously operates the pusher 50 to discharge the medium A. Significant productivity improvement due to workforce reduction and work efficiency improvement It is designed to bring income and increase income by preventing shock failure and optimizing water supply.

Description

IMPACT AND WATER SUPPLYING APPARATUS OF MEDIUM FOR PYOGO-MUSHROOM GROWING}

The present invention relates to an impact and moisture supply device for shiitake mushroom cultivation medium, and in particular, to automate the impact and moisture supply operation of the medium for promoting germination, and to provide an overall even impact and proper amount of moisture. .

Shiitake mushrooms mainly originate from oaks, which have been artificially cultivated by solid oak logs.However, it is difficult to obtain logs and the cost of purchase is high. Artificial cultivation.

Looking at the method of producing a medium made of oak sawdust, the sawdust mixed with nutrients was chopped into a plastic bag using a mouth bag, then sealed with a breathable cap, and sterilized into a shape (bundling). It is molded in the form of.

The molded medium is inoculated with the seed after incubation for 4 to 5 months, and after the incubation, supply the appropriate amount of moisture and shock for promoting the germination of the mushrooms, and then grow through the growing area.

At this time, the shock that is carried out to promote the germination of mushrooms is an important process to determine whether to germinate, light shock to sunshine, electric shock to discharge, tapping shock and water shock to spray high pressure water, etc. Various examples are given, and with proper water supply, large yields can be expected.

Light shock, electric shock, and impact shock among these kinds of shocks are performed separately from the water supply process, which makes the work very cumbersome and reduces work efficiency.However, in the case of water shock, water supply can be performed at the same time. You can expect an improvement.

However, the water shock is a labor intensive and large work space by simply spraying high pressure water onto the medium using a high pressure hose while the worker arranges the medium on the floor of the workplace without the help of special equipment. In addition to the need for high-pressure water splashing in all directions during the work process, so as to wet the clothes of workers and workers as well as the work is very difficult and difficult, in particular, it is not possible to apply the high pressure to each of the medium evenly Since it is difficult to supply an appropriate amount of water for each medium, there are a lot of problems such as improper impact and insufficient water supply or a large amount of money due to reduced yield of shiitake mushrooms due to excessive supply.

The present invention can reduce the workforce and improve work efficiency by automating the work for water shock and water supply, and can provide a proper amount of moisture at all times as well as to provide an appropriate amount of water at all times during water shock, high germination rate The purpose of the present invention is to provide a shock and moisture supply device for shiitake mushroom cultivation medium that can contribute to the income increase of farmers by increasing the yield by even growth.

An object of the present invention is that when one medium is fed from the inclined mounting table onto the supply plate below the advancing of the supply plate by the air cylinder, the medium is inserted into several injection pipes of the water shocker on the other side, so that the injection pipe Water shock and water supply are made by the water pressure sprayed through, and if the weight of the medium is increased by supplying the appropriate amount of water, the load sensor detects this through the sensing rod and rotates the water supply pipe due to its own weight. The operation of discharging the medium of the shiitake mushroom cultivation medium by stopping and simultaneously operating the straw to discharge the water shock and the medium supplied with the proper amount of water is achieved by the impact and water supply device of the shiitake mushroom cultivation medium.

In the present invention, the operator simply loads the medium (A) on the mounting table 20, and is sequentially transferred by the supply plate 30 provided under the mounting table, and several injection pipes of the water shocker 40 on the other side are provided. (42) is inserted into the water shock and moisture is supplied by the high pressure water, when the appropriate amount of water is supplied to drop discharged by the operation of the pusher 50 at the same time the water supply is stopped by the detection of the load sensor 72 It is possible to reduce the workforce by making the operation to be performed repeatedly and to improve the work efficiency, resulting in a significant productivity increase.

In particular, the water shock and water supply is made by several injection pipes 42 deeply inserted into the medium (A), and the electric shock 90 can be placed near the water shock 40 so that the electric shock can be made at the same time. It is possible to eliminate the shock impairment, as well as the constant amount of water is supplied at all times by the load sensor 72 that detects the weight of the medium (A) at the same time water supply at the same time to the overall shock evenly and optimal water supply Due to the high germination rate and even growth, the yield of shiitake mushrooms will increase, which can lead to increased profits.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the same reference numerals are used among the same elements in the drawings. In order not to be ambiguous, the description is omitted.

1 is a perspective view of the present invention, the present invention is fixed to the mounting table 20 having an opening and closing plate 21 on the upper side of the frame 10 inclined, the supply plate 30 under the mounting table 20 ) Is installed to operate horizontally, the water shocker 40 and the pusher 50 is installed on the other side of the upper frame 10, the inclined discharge plate 60 is installed below the water shocker 40, the control unit ( 70 is configured to perform a sequential operation.

Figure 2 is an enlarged perspective view of the main part of the present invention, the inclined mounting table 20 is provided with an opening and closing plate 21 is provided on the outlet side of the lower side of the other side, the opening and closing plate 21 is connected to the connecting piece (22) Supported to be rotatably installed on the mounting table 20 through the tack 23 and to be closed by a spring 24 between the connecting piece 22 and the fold piece 23 and extending from the front connecting piece 22. The closing point is given to the piece 25 by the contact with the stop piece 12 which the frame 10 side has.

In addition, the support piece 25 of the opening and closing plate 21 is engaged with the locking piece 31 on the front side of the supply plate when the supply plate 30 is retracted so that the opening and closing plate 21 is counterclockwise. It is configured to open by rotating at an angle.

At this time, the catching piece 31 of the supply plate 30 has an inclined surface formed at the other end thereof, so that the support plate 25 does not interfere when the supply plate is advanced, and the support piece 25 is caught when retracting. When the support piece 25 is rotated to reach the maximum opening point of the opening / closing plate 21, the support piece 25 is separated from the locking piece 31 by the bending due to its bendability to the spring 24. Since the opening and closing plate 21 is closed by the opening and closing operation of the supply plate 30, the opening and closing operation is performed, so that the medium A loaded on the loading table 20 is sequentially dropped onto the supply plate 30. Will let you.

3 and 4 is a plan view showing the operating state of the supply plate 30, the supply plate 30 under the mounting table 20 is fixed to the frame 10 is installed and controlled by the control unit 70 It is connected to the air cylinder 32 is to be horizontally operated from side to side, the base one side of the support 33 is protruding and the other side of the support piece 35 having a guide projection piece 34 is rotatably connected to the The supporting piece 35 extends horizontally when the supply plate 30 is advanced to open the outlet of the medium A, and when the supply plate 30 is retracted, the guide piece 34 reaches the complete retreat time point, and the guide piece 34 has a frame ( It is upright by the contact with the guide piece 14 having 10) to block the outlet, the pressing table 36 for operating the front and rear alignment plate 80 is protruded before and after one side.

The front and rear alignment plates 80 are connected to the front and rear pairs of inclined guides 82 which are rotatably installed on the frame 10, respectively, by shaft pins. It is maintained in the forested state, the maximum forest width is slightly wider than the front and rear length of the medium (A), and when the retraction of the supply plate 30 reaches the final retreat point, the inclined guide by the pressing table ( It is configured so as to secure a space in which the medium A can be leisurely supplied therebetween by being rotated back and forth by the rotation of 82).

5 is an enlarged perspective view of the recessed part of the present invention, wherein the water shocker 40 is rotatably installed in the frame 10 and is connected to a water pump through a solenoid valve connected to a controller, and the water At least two medium and long injection pipes 42 are formed to be connected to the other side of the supply pipe 41, and the medium A, which has been transported along the supply plate 30, is inserted into the injection pipe 42 in the state of water shock and The water supply is configured to be made, the rear end of the water supply pipe (41) is connected to the sensing rod 43, the load sensor connected to the control unit 70 made of a load cell or a piezoelectric sensor under the other side of the sensing rod 72 is positioned to sense the weight of the medium (A) supplied to the water shocker (40).

In addition, the push rod 50 is fixed to the frame 10 is installed and connected to the air cylinder 51 connected to the control unit 70, so as to be located deep between the injection pipe 42 of the water shocker 40 when retreating It is configured to separate the medium (A) inserted in the injection pipe 42 from the injection pipe 42 when advancing.

Meanwhile, the present invention is sufficiently satisfied to have a water shocker 40, but may further have an electric shocker 90.

That is, as shown in FIG. 6, the electric shock absorber 90 is disposed on the cover 4 surrounding the water shock absorber 40, so that the terminal 92 of the electric shock shocker 90 has the injection tube 42 of the water shock absorber 40. And the electric shock impactor 90 is connected to the control unit 70 so that the electric shock during the water shock by the water shock absorber 40 can be satisfied at the same time.

Although the present invention is configured to continuously perform the operation under the control of the controller 70, it should be noted that the operation may be performed by a manual signal for each work step.

7 is a front configuration diagram showing the start of the work before the present invention, the present invention by supplying the medium (A) to the inclined loading table 20 and pressing the start button of the control unit 70 made the work sequentially You lose.

That is, when one medium A loaded on the mounting table 20 is dropped and supplied on the supply plate 30 by the opening and closing operation of the opening and closing plate 21, the advance of the supply plate 30 by the air cylinder 32 is performed. The medium (A) supplied on the supply plate 30 is a pedestal 32 and the support piece 35 of the supply plate 30 and the alignment plate 80 before and after it. Since it is located between the separation from the supply plate 30 when falling from the mounting table 20 is prevented.

In addition, when the supply plate 30 is advanced by the air cylinder 32, the inclined guide 82 connecting the front and rear alignment plate 80 as shown in FIG. 4 is a pressurizing table 36 provided in the supply plate 30. As the front and rear alignment plates 80 are not affected by the interference of the springs 84, the medium A on the supply plate 30 is positioned at the center of the center.

In addition, the support piece 35, which is upright on the outlet side of the supply plate 30 and blocks the outlet, expands horizontally as the guide protrusion 34 deviates from the interference influence zone of the guide piece 14 to open the outlet. .

8 shows a state in which the medium A is supplied to the water impactor 40 by the advancement of the supply plate 30, and the medium A is the water shocker 40 at the maximum advance of the supply plate 30. When it reaches, the medium (A) is inserted into and fixed to the several long and thin injection pipes 42 of the water shocker 40, followed by the retraction of the supply plate 30 and the solenoid valve of the water shocker 40 is opened. Thus, the water shock is applied to the whole of the strong pressure in the medium (A) through several injection pipes (42).

At this time, the injection tube 42 of the water shocker 40 has to form the number, length and spacing, etc. according to the size and shape of the medium (A) to be impacted appropriately, so that the water shock of the medium (A) is uniform and quick. Can be done.

When the water shock is generated by the high pressure injection of water through the injection pipe 42, the water absorbs the whole amount of the medium (A), which is the main ingredient of sawdust, and accordingly, the weight of the medium (A) is increased and input to the controller (70). When the weight is reached, the water supply pipe 41 connecting the injection pipe 42 is rotated by the load of the medium, so that the load sensor 72 detects it through the sensing rod 43, so that the control unit 70 is a solenoid valve The bar is to stop the water shock, bar (A) is a water shock and the appropriate amount of water supply is made at the same time.

In addition, in the present invention, when the electric shocker 90 is further provided, when power is applied to the electric shocker 90 through the control unit 70 during the water shock by the water shocker 40, the medium A is adjacent to the A. Since the electric shock is made at the same time by the discharge by the terminal 92 of the electric shock machine 90, there is no possibility of a bad shock.

After the impact and water supply is completed, the medium A is moved by the pusher 50 by the operation of the air cylinder 51 by the control unit 70 to release the medium A inserted into the injection pipe 42. The medium released from the officer 42 is discharged and dropped through the inclined discharge plate 60 below.

On the other hand, the supply plate 30 that supplies the medium A to the water shock absorber 40 and then retracts, as shown in FIG. 9, as shown in FIG. The support piece 25 of the opening and closing plate 21 is engaged, and when the retreat continues, the support piece 25 is rotated in a clockwise direction so that the opening and closing plate 21 is opened, and the opening and closing plate 21 is opened. ), One of the mediums (A) located on the outlet side of the mediums (A), which were loaded on the inclined mounting table 20 by dropping, is dropped and supplied onto the supply plate 30 below the same. When the opening and closing plate 21 reaches the maximum opening point due to the continuous retreat of the supply plate 30, the supporting piece 25 of the opening and closing plate 21 has its own bending property, and the locking piece 31 of the supply plate 30 is provided. And is closed by the elasticity of the spring 24 is terminated because it is loaded on the mounting table 10 when the supply plate 30 retreats. A medium (A) is supplied on the feed plate 30.

In addition, when the medium (A) is supplied to the supply plate 30 by the opening and closing operation of the opening and closing plate 21 by the retraction of the supply plate 30, the pressing table 36 on one side of the supply plate 30 is Since the inclined guide 82 is pushed forward and backward alignment plate 80 connected to the inclined guide 82 is opened to secure enough space for the medium (A) can be supplied.

In addition, the supply plate 30 in which the new medium A is supplied and waiting is dropped and discharged by the pusher 50 when the medium A, in which the shock and water supply by the water shocker 40 is completed, is dropped and discharged by the control unit 70. By advancing by the operation of the air cylinder 32 by repeating the operation of supplying the medium (A) to the water shocker (40).

1: perspective view of the present invention

2 is an enlarged perspective view of the present invention

3: Plan configuration before operation of the supply plate of the present invention

4 is a plan view of the operation of the supply plate of the present invention

5: An enlarged perspective view of the present invention

6 is a bottom perspective view of the present invention an electric shock machine

7: Front configuration diagram of the standby state of the present invention

8 is a front configuration diagram showing the advancement of the operating plate of the present invention

9 is a front configuration diagram showing the retraction of the operating plate of the present invention.

10: Front configuration diagram showing the retreat after the operation plate of the present invention

<Description of the symbols for the main parts of the drawings>

(A)-badge (10)-frame

(12)-Pause (14)-Guide

(20)-Loading Table (21)-Opening and Closing Board

(22)-Connection (23)-Folding

(24)-Spring (25)-Support

(30)-Supply Plate (31)-Jang

(32)-Air Cylinder (33)-Base

(34)-Guidestone (35)-Base

(36)-Presser Rod (40)-Water Shocker

(41)-Water Supply Pipe (42)-Injector Pipe

(43)-Detect Rod (44)-Cover

(50)-Mold (51)-Air Cylinder

(60)-drain plate (70)-control unit

(72)-Load Sensor (80)-Arrangement Plate

(82)-Incline Guide (84)-Spring

(90)-Electric Shocker (92)-Terminal

Claims (8)

A mounting table 20 installed on one side of the frame 10; A supply plate 30 installed below the mounting table 20 and operated by an air cylinder 32; A water shocker 40 installed at the other side of the frame 10 to allow water shock and water supply to pass through several injection pipes 42; Shock and moisture supply device of shiitake mushroom cultivation medium, characterized in that consisting of a discharge plate 60 located below the water shocker (40). According to claim 1, wherein the mounting table 20 is installed inclined so that the outlet is directed downward and the outlet shock and moisture supply apparatus of the culture medium for shiitake mushrooms, characterized in that configured to have an opening and closing plate (21). According to claim 2, The opening and closing plate 21 is connected to the mounting table 20 through the connecting piece 22 and the folding piece 23, the spring 24 and the connecting piece 22 is installed between the connecting piece and the folding piece ) Is maintained by the contact between the support piece 25 extending from the support piece 25 and the stop piece 12 on the frame 10 side, and when the supply plate 30 is retracted, the engaging piece 31 of the supply plate is supported by the support piece ( 25) shock and moisture supply device of shiitake mushroom cultivation medium, characterized in that configured to open by rotating clockwise. According to claim 1, wherein the supply plate 30 is a pedestal 33 is fixedly formed on one side and the support piece 35 having a guide protrusion piece 34 on the other side is rotatably connected to the support piece when retracting ( The guide stone piece 34 of 35 is held upright by the interference of the guide piece 14 of the frame 10 side, and is unfolded by its own weight when it moves out of the interference influence zone of the guide piece 14 when moving forward. Shock and moisture supply device of shiitake mushroom cultivation medium, characterized in that the configuration. According to claim 1, wherein the water shocker 40 is rotatably installed on the frame 10, the water supply pipe 41 for supplying water, and at least two or more injection pipes are formed on the other side of the water supply pipe 41 ( Shock and water supply device of shiitake mushroom cultivation medium, characterized in that consisting of 42). The water supply pipe 41 of the water shocker 40 has a sensing rod 43 connected to the rear end thereof, and has a load sensor 72 under the sensing rod. Impact and moisture supply device of shiitake mushroom cultivation medium characterized in. According to any one of claims 5 and 6, characterized in that the pusher 50 which is operated by the air cylinder 51 is located inside the injection pipe 42 of the water shocker 40 is characterized in that the configuration Impact and moisture supply device of shiitake mushroom cultivation medium. The impact and moisture supply of shiitake mushroom cultivation medium according to claim 1, characterized in that the terminal 92 has an electric shocker 90 facing the water shocker 40 in the vicinity of the water shocker 40. Device.

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