KR102143699B1 - Irrigation system of cultivating equipment of cone type crop - Google Patents

Abstract

The present invention provides an irrigation system for a chain conveyor type crop cultivation apparatus. The irrigation system of the chain conveyor-type crop cultivation apparatus according to the present invention is a crop medium unit of a crop cultivation stage that rotates integrally with the chain from a trunk hose connected orthogonally to a circular main hose that rotates in a caterpillar like a chain. The sub-hose supplying water to the circulating main hose is wound and unwound while the water is supplied to the set point, and the spring is connected to the reel of the sub-hose mounting reel to maintain the tension in the set size range. By providing it, smooth and stable irrigation without twisting of the hose is possible.

Description

Irrigation system of cultivating equipment of cone type crop}

The present invention relates to an irrigation system of a chain conveyor type crop cultivation apparatus, and more specifically, a crop cultivation end that rotates integrally with the chain from a trunk hose connected orthogonally to a circular main hose rotating in a caterpillar like a chain. The sub-hose supplying water to the circulating main hose is wound and unwound while the water is supplied to the crop medium unit of the plant, and the spring is connected to the reel of the sub-hose that is unwound, so that the tension of the set size range is reduced to the sub hose. It relates to an irrigation system of a chain conveyor type crop cultivation apparatus that enables smooth and stable irrigation without twisting of a hose by providing a retained structure.

In the agricultural environment that is becoming more advanced facilities day by day, it is not the era of farming with labor as an asset as in the past, but the era of enriching humans with technology, which is becoming a trend of future agriculture in line with the quality of human life. have.

Conventional irrigation techniques are divided into general irrigation and drip irrigation depending on the crop, which is the same as the irrigation technique, but the irrigation method in which the nozzle is different depending on which crop the cultivated crop is. In particular, in the case of mushroom crops sensitive to temperature and humidity, a sprinkler or fog nozzle is installed on the ceiling of the cultivation room for irrigation necessary for the mushroom crop, or a device is installed to supply water to the upper side of the cultivation bed.

On the other hand, the inventors have invented and applied for a device for cultivating mushrooms as in Patent Document 1, and the mushrooms or crop cultivation devices previously applied by the inventors are perpendicular to the ground so as to face each other as shown in FIG. Has a frame 20 to be installed, has a conveyor unit 30 disposed inside the frame 20 to rotate in a caterpillar manner in the vertical direction, both ends are fixed to the conveyor unit 30, and a plurality of cultivation It is characterized in that it has a plurality of cultivation units 40 that are placed on the bed 100 and rotate by the rotation of the conveyor unit 30.

And, the crop cultivation device of Patent Document 2 is to increase the production in the same area by improving the mushroom cultivation device of Patent Document 1, as shown in Figure 2, the connecting means in which the cultivation bed 100 is placed. It is characterized in that it is possible to increase the production of crop cultivation by further including (70).

On the other hand, since the mushroom or crop cultivation device of Patent Document 1 and Patent Document 2 is installed and used in a small farmhouse, home, or restaurant, it is difficult to install a device for supplying water to the ceiling of a mushroom or crop cultivation room.

Therefore, the present inventor can prevent the hose for supplying water from twisting when supplying water to the cultivation bed of a conveyor-type mushroom or crop cultivation device installed in a small farm house, home or restaurant, and measure the humidity of each cultivation bed. Thus, the present invention has been completed by inventing a device that enables efficient management of unnecessary cultivation work by enabling crops to optimize the growing environment.

Korean Patent Application Publication No. 10-2017-0108819 (filed on Aug 28, 2017) Simple chain conveyor type unmanned automatic mushroom cultivation device Korean Patent Application Publication No. 10-2018-0094904 (filed on August 14, 2018) Chain conveyor type unmanned automatic crop cultivation device for increasing production

Therefore, the present invention improves the problems of the prior art such as water from a trunk hose connected orthogonally to a circular main hose rotating in a caterpillar like a chain, and a crop medium unit of a crop cultivation group rotating integrally with the chain. By providing a structure in which the tension of the set size range is maintained in the sub hose, the mainspring spring is connected to the sub hose mounting reel where the sub hose that supplies water to the circulation type main hose is wound and released while it is supplied and fixed at the set point. The purpose of this study is to provide a new type of chain conveyor type irrigation system that enables smooth and stable irrigation without twisting the hose.

According to a feature of the present invention for achieving the above object, the present invention is a support 10 arranged vertically; Chain sprockets 20 spaced apart from each other at the upper and lower ends of the support 10; A chain 30 wound around the chain sprocket 20 and rotated in a caterpillar track; A plurality of crop cultivation ends 40 fixed to the chain 30 to rotate integrally with the chain 30; Water is supplied to the crop medium unit 50 of the chain conveyor-type crop cultivation apparatus 1 having a configuration including one or more disposed in each crop cultivation stage 40 and in which the crop individual grows In the irrigation system; Irrigation pump 60 disposed at the set point; An irrigation inlet pipe 70 fixed to the upper end of the support 10 and disposed horizontally through the support 10 and the chain sprocket 20; An irrigation supply hose 80 connecting the irrigation pump 60 and the irrigation inlet pipe 70; A main hose pulley 90 which is fixed to the upper and lower chain sprockets 20 to rotate integrally, and has an inner space formed therein; A circulation-type main hose 100 wound around the upper and lower main hose pulleys 90 and rotated in an infinite orbit; One end is connected to the irrigation inlet pipe 70 passing through the through hole 94 formed in the center of one side of the upper main hose pulley 90, and the other end is connected to the circulation type main hose 100 so that the circulation type main hose A sub hose 110 for supplying water to 100; While being arranged in a concentric circle structure in the inner space of the main hose pulley (90), it is combined with the main hose pulley (90) to rotate integrally, and a receiving space in which the end portion of the irrigation inlet pipe (70) is disposed is formed, and in the center The hose discharge port 121 through which the sub hose 110 connected to the irrigation inlet pipe 70 passing through the formed through hole exits is formed through the cylindrical body 122 surrounding the receiving space, and passes through the hose discharge port 121 A sub hose mounting reel 120 in which the sub hose 110 is wound around the outer surface of the cylindrical body 122; And a trunk hose 130 that is connected to the circulation type main hose 100 at a set interval to receive water, and is connected to the crop medium unit 50 to supply water to the crop medium unit 50. It provides an irrigation system of a chain conveyor type crop cultivation device, characterized in that.

The irrigation system of the chain conveyor type crop cultivation apparatus according to the present invention is installed in the crop medium unit 50 selected as the water level measurement sample, and measures the current water level value of the corresponding crop medium unit 50. ); A humidity sensor 150 installed in the crop medium unit 50 selected as a humidity measurement sample and measuring a current humidity value of the corresponding crop medium unit 50; The current water level value and current humidity value of the sample crop medium unit 50 are input from the water level sensor 140 and the humidity sensor 150, and the reference minimum water level value, the reference minimum humidity value, the reference appropriate water level value and the reference appropriate humidity A value is set, and when the current water level and current humidity values of the sample crop medium unit 50 are less than the reference minimum water level and the reference minimum humidity value, the irrigation pump 60 is operated, and the current of the sample crop medium unit 50 It may include a; controller 160 for stopping the irrigation pump 60 when the water level value and the current humidity value reach the reference appropriate water level value and the reference appropriate humidity value.

The irrigation system of the chain conveyor type crop cultivation apparatus according to the present invention includes a housing 171 having a circular flange 1711 integrally coupled with the sub-hose mounting reel 120; With a main spring module 170 having a configuration including a spring 172 having one end fixed to the irrigation inlet pipe 70 and the other end fixed to the housing 171, a circulation type main hose 100 ), the tension of the sub hose 110, which is wound and released by the sub hose mounting reel 120, can be maintained within a set range.

In the irrigation system of the chain conveyor-type crop cultivation apparatus according to the present invention, the sub-hose 110 may be connected to the T-type nipple 180 for connecting the sub-hose formed at the set point of the circulation-type main hose 100, The trunk hose 130 may be connected to a T-type nipple 190 for connecting a trunk hose formed at a set interval in the circulation-type main hose 100.

According to the irrigation system of the chain conveyor-type crop cultivation apparatus according to the present invention, the crop medium unit of the crop cultivation stage rotating integrally with the chain from the trunk hose connected orthogonally to the circular main hose rotating in a caterpillar like the chain The sub-hose supplying water to the circulating main hose is wound and unwound while the water is supplied to the set point, and the spring is connected to the reel of the sub-hose mounting reel to maintain the tension in the set size range. Provided, there is an effect that smooth and stable irrigation is possible without twisting the hose.

1 and 2 are views for explaining a conveyor type mushroom or crop cultivation apparatus previously applied by the present inventors;
3 to 11 are graphic images for showing the irrigation system of the chain conveyor type crop cultivation apparatus according to an embodiment of the present invention
12 is a view for showing the technical idea of the irrigation system of the chain conveyor type crop cultivation apparatus according to an embodiment of the present invention;
13 is a view for showing an irrigation inlet pipe according to an embodiment of the present invention;
14 to 19 are views showing the configuration of a main hose pulley according to an embodiment of the present invention;
20 to 23 are diagrams for showing the configuration of a sub hose mounting reel according to an embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 3 to 23 of the accompanying drawings. On the other hand, in the drawings and detailed description, a general irrigation pump, irrigation system, hose, chain, chain sprocket, spring spring, water level sensor, humidity sensor, nipple, etc. Mention has been briefly or omitted. In particular, in the illustration and detailed description of the drawings, a detailed description and illustration of a specific technical configuration and operation of elements not directly related to the technical features of the present invention are omitted, and only the technical configuration related to the present invention is briefly illustrated or described. I did.

The irrigation system of the chain conveyor-type crop cultivation apparatus according to the present invention rotates in a caterpillar trajectory by being wound around a vertically arranged support 10, a chain sprocket 20 spaced apart from the upper and lower ends of the support 10, and a chain sprocket 20. A chain 30, a plurality of crop cultivation stages 40 that are fixed to the chain 30 and rotate integrally with the chain 30, one or more crop media arranged at each crop cultivation stage 40 and where crop individuals grow It is an irrigation system for supplying water to the crop medium unit 50 of the chain conveyor type crop cultivation apparatus 1 having a configuration including the unit unit 50. For this purpose, the irrigation system of the chain conveyor type crop cultivation apparatus according to the embodiment of the present invention includes an irrigation pump 60, an irrigation inlet pipe 70, an irrigation supply hose 80, a main hose pulley 90, a circulation main hose (100), sub hose 110, sub hose mounting reel 120, trunk hose 130, water level sensor 140, humidity sensor 150, controller 160, including a spring module 170 It consists of a composition.

The irrigation pump 60 is disposed at a set point and pumps water and delivers it to the irrigation supply hose 80. The irrigation inlet pipe 70 is fixed to the upper end of the support 10 and is disposed horizontally through the support 10 and the chain sprocket 20.

The irrigation supply hose 80 is a hose connecting the irrigation pump 60 and the irrigation inlet pipe 70.

The main hose pulley 90 is fixed to each of the upper and lower chain sprockets 20 to rotate integrally, and an internal space is formed. Here, the main hose pulley 90 according to the embodiment of the present invention has a polyhedral outer circumferential surface so that the circular main hose 100 rotates in an infinite orbit without slipping. In addition, the main hose pulley 90 according to the embodiment of the present invention is a circular plate chain cover 91 having a groove 911 through which the trunk hose 130 connected to the circulation type main hose 100 is inserted and passed at a set interval. Make the other side. Through this, the circulation type main hose 100 rotates in an infinite orbit without slipping.

On the other hand, the main hose pulley 90 according to an embodiment of the present invention forms a roller-arranged discharge port 92 through which the sub hose 110 exits. The roller arrangement type discharge port 92 is provided with a pair of rollers 93 spaced apart from each other, and the sub hose 110 passes between the pair of rollers 93 that rotate freely.

The circulation type main hose 100 is a hose that is wound around the upper and lower main hose pulleys 90 and rotates in an infinite orbit. The sub hose 110 has one end connected to the irrigation inlet pipe 70 passing through the through hole 94 formed in the center of one side of the upper main hose pulley 90, and the other end of the circulation main hose 100 It is a hose connected to supply water to the circulation type main hose (100). Here, the sub hose 110 according to the embodiment of the present invention is connected to a T-type nipple 180 for connecting a sub hose formed at a set point of the circulating main hose 100.

The sub-hose mounting reel 120 is arranged in a concentric circle structure in the inner space of the main hose pulley 90 and is coupled with the main hose pulley 90 to rotate integrally, and the end of the irrigation inlet pipe 70 is arranged. A receiving space is formed. In addition, the sub hose mounting reel 120 has a hose discharge port 121 through which the sub hose 110 connected to the irrigation inlet pipe 70 penetrating through the through hole formed in the center exits, is located on the cylindrical body 122 surrounding the receiving space. It is formed through penetration. The sub hose 110 exiting the hose discharge port 121 is wound around the outer surface of the circumferential surface 122 of the sub hose mounting reel 120.

Meanwhile, the sub hose mounting reel 120 according to the embodiment of the present invention has a hose discharge port 121 formed between a pair of guide pieces 123, and the guide piece 123 has an arc shape and is bent into the receiving space. Due to the shape structure, damage to the sub hose 110 is prevented during the process of winding and unwinding the sub hose 110.

The trunk hose 130 is connected to the circulation type main hose 100 at a set interval to receive water, and is connected to the crop medium unit 50 to supply water to the crop medium unit 50. Here, the trunk hose 130 according to the embodiment of the present invention is connected to the T-type nipple 190 for connecting the trunk hose formed at a set interval in the circulation-type main hose 100.

The water level sensor 140 is installed in the crop medium unit 50 selected as a water level measurement sample, and measures the current water level value of the corresponding crop medium unit 50 and transmits it to the controller 160.

The humidity sensor 150 is installed in the crop medium unit 50 selected as a humidity measurement sample, and measures the current humidity value of the corresponding crop medium unit 50 and transmits it to the controller 160.

The controller 160 receives the current water level value and the current humidity value of the sample crop medium unit 50 from the water level sensor 140 and the humidity sensor 150. Here, the controller 160 is set to a reference minimum water level value, a reference minimum humidity value, a reference appropriate water level value, and a reference appropriate humidity value. Based on this, the controller 160 operates the irrigation pump 60 when the current water level value and the current humidity value of the sample crop medium unit 50 are less than the reference minimum water level value and the reference minimum humidity value, and the sample crop medium unit 50 ), the irrigation pump 60 is stopped when the current water level value and the current humidity value reach the reference appropriate water level value and the reference appropriate humidity value.

The spring module 170 is composed of a configuration including a housing 171 and a spring 172.

The housing 171 has a circular flange 1711 integrally coupled with the sub hose mounting reel 120 and may be formed of a circular ring having a set width.

The spring 172 is one end is fixed to the irrigation inlet pipe 70, while the other end is fixed to the housing 171. Here, since the housing 171 is integrally coupled with the sub hose mounting reel 120, the spring 172 may impart elasticity to the sub hose mounting reel 120.

Such a spring module 170 is wound around the sub-hose mounting reel 120 according to the rotation of the circulating main hose 100 and the tension of the sub-hose 110, which is unwound, is maintained within a set range.

The irrigation system of the chain conveyor type crop cultivation apparatus according to the embodiment of the present invention configured as described above is the trunk hose 130 connected orthogonally to the circulation type main hose 100 rotating in a caterpillar like the chain 30 Water is supplied to the crop medium unit 50 of the crop cultivation stage 40 that rotates integrally with the chain 30 from the sub-hose supplying water to the circulation type main hose 100 while being fixed at the set point. The spring 172 is connected to the sub-hose mounting reel 120 where 110 is wound and unwound to provide a structure in which the tension of the set size range is maintained on the sub-hose 110, so that smooth and stable irrigation without twisting of the hose is provided. It becomes possible.

As described above, although the irrigation system of the chain conveyor type crop cultivation apparatus according to the embodiment of the present invention is illustrated in accordance with the above description and drawings, this is only described as an example, and within the scope not departing from the technical idea of the present invention It will be well understood by those of ordinary skill in the art that various changes and changes are possible.

1: Chain conveyor type crop cultivation device
10: support
20: chain sprocket
30: chain
40: crop cultivation group
50: crop medium unit
60: irrigation pump
70: irrigation inlet pipe
80: irrigation supply hose
90: main hose pulley
91: cover
911: Yohom
92: Roller arrangement type discharge port
93: roller
94: through hole
100: circulation type main hose
110: sub hose
120: sub hose mounting reel
121: hose discharge port
122: circumferential body
123: Guide
130: trunk hose
140: water level sensor
150: humidity sensor
160: controller
170: Manual spring module
171: housing
1711: round flange
172: Manual spring
180: T-type nipple for sub hose connection
190: T-type nipple for connecting trunk hose

Claims (5)

A support 10 disposed vertically; Chain sprockets 20 spaced apart from each other at the upper and lower ends of the support 10; A chain 30 wound around the chain sprocket 20 and rotated in a caterpillar track; A plurality of crop cultivation ends 40 fixed to the chain 30 to rotate integrally with the chain 30; Water is supplied to the crop medium unit 50 of the chain conveyor-type crop cultivation apparatus 1 having a configuration including one or more disposed in each crop cultivation stage 40 and in which the crop individual grows In the irrigation system;
Irrigation pump 60 disposed at the set point;
An irrigation inlet pipe 70 fixed to the upper end of the support 10 and disposed horizontally through the support 10 and the chain sprocket 20;
An irrigation supply hose 80 connecting the irrigation pump 60 and the irrigation inlet pipe 70;
A main hose pulley 90 which is fixed to the upper and lower chain sprockets 20 to rotate integrally, and has an inner space formed therein;
A circulation-type main hose 100 wound around the upper and lower main hose pulleys 90 and rotated in an infinite orbit;
One end is connected to the irrigation inlet pipe 70 passing through the through hole 94 formed in the center of one side of the upper main hose pulley 90, and the other end is connected to the circulation type main hose 100 so that the circulation type main hose A sub hose 110 for supplying water to 100;
While being arranged in a concentric circle structure in the inner space of the main hose pulley (90), it is combined with the main hose pulley (90) to rotate integrally, and a receiving space in which the end of the irrigation inlet pipe (70) is disposed is formed, and in the center The hose discharge port 121 through which the sub hose 110 connected to the irrigation inlet pipe 70 passing through the formed through hole exits is formed through the cylindrical body 122 surrounding the accommodation space, and passes through the hose discharge port 121 A sub hose mounting reel 120 in which the sub hose 110 is wound around the outer surface of the cylindrical body 122; And
It is connected to the circulation type main hose 100 at a set interval to receive water, and is connected to the crop media unit 50 to supply water to the crop media unit 50; Irrigation system of a chain conveyor type crop cultivation device, characterized by. The method of claim 1,
A water level sensor 140 installed on the crop medium unit 50 selected as a water level measurement sample and measuring the current water level value of the corresponding crop medium unit 50;
A humidity sensor 150 installed in the crop medium unit 50 selected as a humidity measurement sample and measuring a current humidity value of the corresponding crop medium unit 50;
The current water level value and current humidity value of the sample crop medium unit 50 are input from the water level sensor 140 and the humidity sensor 150, and the reference minimum water level value, the reference minimum humidity value, the reference appropriate water level value and the reference appropriate humidity A value is set, and when the current water level and current humidity values of the sample crop medium unit 50 are less than the reference minimum water level and the reference minimum humidity value, the irrigation pump 60 is operated, and the current of the sample crop medium unit 50 A controller 160 for stopping the irrigation pump 60 when the water level value and the current humidity value reach the reference appropriate water level value and the reference appropriate humidity value. The irrigation system of a chain conveyor type crop cultivation apparatus comprising: The method of claim 1,
A housing 171 having a circular flange 1711 integrally coupled with the sub hose mounting reel 120; A spring module 170 consisting of a mainspring spring 172 fixed at one end to the irrigation inlet pipe 70 and fixed to the other end to the housing 171; including,
Irrigation of a chain conveyor-type crop cultivation apparatus, characterized in that the tension of the sub-hose 110, which is wound and unwound according to the rotation of the circulation type main hose 100, is maintained within a set range. system. The method of claim 1,
Sub-hose 110 is a chain conveyor type irrigation system of a crop cultivation apparatus, characterized in that connected to the T-type nipple 180 for connecting the sub-hose formed at the set point of the circulation type main hose (100). The method of claim 1,
Trunk hose 130 is an irrigation system of a chain conveyor type crop cultivation apparatus, characterized in that connected to the T-type nipple 190 for connecting the trunk hose formed at a set interval in the circulation-type main hose 100.

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