KR20200059790A - Growing plants that can be harvested every system properties - Google Patents

Abstract

The present invention relates to a plant growing system for harvesting raw grass every day, and more specifically, to a plant growing system comprising a sprouting room and a growing room. A rapid plant growing device positioned inside the growing room comprises: a plurality of horizontal frames; a plurality of vertical frames; and a plurality of perpendicular frames which support the plurality of horizontal frames and the plurality of vertical frames. The rapid plant growing device further comprises: an outer frame which is positioned in each end unit of the plurality of horizontal frames; a middle frame which is positioned in a middle unit of the plurality of horizontal frames; a support which is installed in each of the plurality of perpendicular frames; a seedbed which is provided in each support and in which plants grow; a one-hole fog spraying device which is installed in each outer frame and a two-hole fog spraying device which is installed in the middle frame; and an LED lamp which is installed in a lower part of a horizontal frame or a lower part of the support, and provides light to raw grass. The seedbed positioned in the support sets a set of 72 pieces per day, is grown through the rapid plant growing device from 2 days to 7 days, and is harvested on 8 days. The one-hole fog spraying device mounted in the outer frame of the rapid plant growing device and the two-hole fog spraying device mounted in the middle frame are alternately installed, and spray water to the rapid plant growing device.

Description

Growing plants that can be harvested every system properties

The present invention relates to a cultivation system for rapid growth that can be harvested every day, and more specifically, it enables all processes necessary for plant cultivation from germination and growth to harvesting in one space, and a large amount in a narrow space. It is related to the cultivation system of raw grass that enables not only harvesting of plants but also harvesting every day so that the plants can be harvested in the early days.

Many plant cultivation devices and plant cultivation systems for cultivating plants have been developed, and recently, various devices for cultivating plants indoors rather than outdoors have been developed.

In recent years, as the number of people who want to easily cultivate a small amount of vegetables on a home porch or grow a plant by creating a cultivation environment inside a container and installing a plant to grow plants, development of such a plant cultivation system It is an increasing trend.

However, such a plant cultivation system generally has a problem of sowing and harvesting in different spaces, and has a disadvantage that a large indoor space is required to harvest a large amount of plants.

In addition, it was difficult to efficiently provide moisture and light supplied to plants, and there was a problem that it took a lot of time from plant growth to harvest.

Prior art literature

Patent literature

(Patent Document 0001) KR 10-2013-0078394 A

(Patent Document 0002) KR 10-1240249 A

The present invention has been devised in consideration of various conventional matters as described above, and its purpose is to allow a large amount of plants to be harvested in a limited time, and to allow users to work in one space from planting to harvesting. To provide.

In addition, daily sowing and daily harvesting are possible, and even in the middle of winter, fresh grass can be harvested, so that fresh livestock can be provided to livestock every day, and an environment in which plants grow smoothly using a mist spraying device and LED lighting. The purpose is to provide.

As a means to achieve the above object,

The present invention is a plant cultivation system that enables daily harvesting of raw grass, wherein the plant cultivation system is composed of a germination chamber and a cultivation chamber; The plant property cultivation device located inside the cultivation room is composed of a plurality of horizontal frames, a vertical frame, and a plurality of vertical frames supporting each of the horizontal and vertical frames; The outer frame positioned at the end of each of the plurality of horizontal frames, the center frame positioned at the center of the plurality of horizontal frames, and a support installed inside each vertical frame, and a plant placed on each support This cultivated base plate, a 1-hole fog sprayer installed on each outer frame, a 2-hole fog sprayer installed on the central frame, and a lower portion of the horizontal frame or a lower portion of the support to provide light to the plant LED lighting; Dust measuring means installed at one end of the plant property cultivation device to measure dust, and to output an alarm signal if it is above a standard; It is characterized in that it comprises an odor coating device that is electrically connected to the dust measuring means and outputs a bad smell to the outside according to the control signal of the dust measuring means.

In addition, the malodor application device 1100, the housing 1110 and; A battery 1120 installed inside the housing 1110 and receiving electric power from outside to charge electricity to provide electricity to the device; A rotary motor 1130 electrically connected to the battery to receive power from the battery and convert it into a mechanical rotary motion; A motor shaft 1131 installed on a central axis of the rotating motor to rotate corresponding to the rotation of the rotating motor, wherein the bottom surface is formed in a wave form and the curved wave form continuously rotates; An up-and-down driving cylinder (1140) located at the lower end of the rotating motor and flowing while moving up and down by converting rotation of the rotating motor into a reciprocating vertical motion; Located on the upper portion of the vertical drive cylinder 1140, but located on the central axis, mechanically contacted while contacting the motor shaft 1131 of the rotary motor 1130, coupled with the motor shaft 1131 of the rotary motor 1130 And a rotating shaft 1141 that repeatedly moves up and down while repeating separation. It is installed on the outer periphery of the up and down drive cylinder 1140, but one side is fixed to the locking jaw inside the housing and the other side is fixed to the locking jaw of the up and down driving cylinder to support the up and down driving cylinder by bullet support to maintain the up and down driving cylinder. An elastic spring 1150 for supporting the elevating support; It is inserted and coupled to the inside of the up and down driving cylinder 1140, the cylinder shape as a whole is made of a plurality of holes 1161 for drug passage is installed on the bottom, and flows up and down according to the movement of the up and down driving cylinder to supply the drug A malodor drug applicator 1160; One side is coupled to the malodor drug applicator 1160 and the other side is coupled to one end of the housing 1110, and the upper and lower driving cylinders and the malodor drug applicator 1160 are temporarily fixed at the same time based on the housing to temporarily control the malodor drug applicator 1160. ) Is characterized by comprising a temporary fixing means (1180) for the malodor drug applicator to prevent the fall down by gravity action.

In addition, the odor drug applicator temporary fixing means (1180) is made of a wedge shape with a sharp end, and is forcibly fitted through the coupling hole of the up-and-down driving cylinder and the coupling hole of the drug applicator, so that the odor drug applicator of the up-down driving cylinder A hook 1181 for retaining a state coupled to the inner periphery; A connecting piece 1182 integrally connected to the hooking hook 1181 in a diagonal direction and guiding the hooking hook 1181 to move clockwise or counterclockwise by a rotational movement; A rotation support hinge 1183 installed between the connection piece 1182 and the hook 1118 for locking and supporting rotation of the connection piece; It is installed between the connecting piece 1182 and the up-and-down driving cylinder 1140 to push the connecting piece outward so that the hook 1181 for locking flows counterclockwise to function to maintain the state in which the drug applicator is coupled to the up-and-down driving cylinder. , When the connecting piece is pressed by the external force and compressed in the direction of the up and down driving cylinder, the hook for hook 1181 is separated from the up and down driving cylinder 1140 and the drug applicator 1160 and the drug applicator 1160 is the up and down driving cylinder A spring 184 for supporting to be removed from the 1140; A sliding flow piece 1185 installed at the end of the connecting piece 1182 and moving at the same time when the hook 1181 for engaging and the connecting piece 1182 move up and down according to the up and down flow of the up and down driving cylinder 1140; Slidingly coupled with the sliding fluid piece 1185 supports the vertical movement of the sliding fluid piece 1185, and pushes the connecting piece 1182 by pushing the malodor drug applicator 1160 toward the vertical driving cylinder 1140 when replacing it. As the connecting piece 1182 is rotated about the hinge pin 1183 for rotation support by pressing, the hook 1118 for locking is separated from the up and down driving cylinder 1140 and the drug applicator 1160, and the malodor drug applicator 1160 ) Is characterized in that it comprises a push button (1186) to induce to be removed from the vertical drive cylinder (1140).

According to the plant cultivation system of the present invention, a large amount of plants can be harvested even in a small space by using a plant property cultivation device, and temperature control is possible, so there is an advantage of producing raw grass even in winter.

In addition, all operations from germination to harvest were made possible in one space, and daily sowing and daily harvesting were possible to provide fresh livestock to livestock at all times.

In addition, the fog sprayer and LED lights are efficiently arranged to create an environment where plants can grow well, and to facilitate drainage using preservative trees to create an environment inside the cultivation room.

1 is a perspective view of a plant property cultivation system capable of daily harvesting of the present invention.
Figure 2 is a perspective view showing a part of the plant property cultivation apparatus of the present invention.
Figure 3 is a fog sprayer arrangement of the plant cultivation system of the present invention.
Figure 4 is a block diagram of the dust measuring means and alarm signal output unit of the present invention.
5 is a conceptual diagram of infrared transmitting means and infrared receiving means constituting the dust measuring means of the present invention.
6 is a conceptual diagram for measuring dust using the infrared transmitting means and the infrared receiving means of the present invention.
7 is a first embodiment of the dust measuring means having a shape memory spring in the present invention.
8 is a second embodiment of the present invention having a heating means, a thermoelectric element and a shape memory spring.
9 is an embodiment of the fixing part in the present invention.
Figure 10 is a concave lens configuration applied to the present invention.
11 is an exploded perspective view of the malodor chemicals coating device of the present invention.
12 is a cross-sectional view and a main portion cross-sectional view of the malodor chemicals coating device of the present invention.
13 is an enlarged cross-sectional view of a main portion of a malodor chemicals applying device of the present invention.
14 is a block diagram of a rotary motor and a vertical drive cylinder of the malodorous chemical application device of the present invention.
Figure 15 is an enlarged view of the main part of the rotary motor and the vertical drive cylinder of the malodorous chemical application device of the present invention.
16 is a block diagram of the temporary fixing means of the malodorous chemical application device of the present invention.
17 is another angular configuration of the temporary fixing means of the malodorous chemical application device of the present invention.
18 is a configuration diagram of the hole for passing the malodorous chemicals of the present invention.

Hereinafter, an operation principle of a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. However, the drawings shown below and the descriptions described below are for preferred implementation methods among various methods for effectively describing the features of the present invention, and the present invention is not limited to the following drawings and description.

In addition, in the following description of the present invention, when it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, detailed descriptions thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice. Therefore, the definition should be made based on the overall contents of the present invention.

In addition, a preferred embodiment of the present invention to be carried out below is already provided in each system functional configuration to efficiently describe the technical components constituting the present invention, or a system function commonly provided in the technical field to which the present invention pertains. The configuration is omitted as much as possible, and the functional configuration that should be additionally provided for the present invention will be mainly described.

If a person having ordinary knowledge in the technical field to which the present invention pertains, it will be possible to easily understand the functions of components already used in the prior art among the omitted functional configurations not shown below, and also the omitted components as described above The relationship between the elements and the components added for the invention will also be clearly understood.

In addition, the following examples will be used by appropriately modifying the terms so that those of ordinary skill in the art to which the present invention pertains can clearly understand in order to efficiently describe the core technical features of the present invention. It is never limited.

As a result, the technical spirit of the present invention is determined by the claims, and the following examples are one means for effectively explaining the technical spirit of the advanced invention to those skilled in the art to which the present invention pertains. It's just.

1 is a perspective view of a plant property cultivation system capable of daily harvesting of the present invention.

Figure 2 is a perspective view showing a part of the plant property cultivation apparatus of the present invention.

Figure 3 is a fog sprayer arrangement of the plant cultivation system of the present invention.

Figure 4 is a block diagram of the dust measuring means and alarm signal output unit of the present invention.

5 is a conceptual diagram of infrared transmitting means and infrared receiving means constituting the dust measuring means of the present invention.

6 is a conceptual diagram for measuring dust using the infrared transmitting means and the infrared receiving means of the present invention.

7 is a first embodiment of the dust measuring means having a shape memory spring in the present invention.

8 is a second embodiment of the present invention having a heating means, a thermoelectric element and a shape memory spring.

9 is an embodiment of the fixing part in the present invention.

Figure 10 is a concave lens configuration applied to the present invention.

11 is an exploded perspective view of the malodor chemicals coating device of the present invention.

12 is a cross-sectional view and a main portion cross-sectional view of the malodor chemicals coating device of the present invention.

13 is an enlarged cross-sectional view of a main portion of a malodor chemicals applying device of the present invention.

14 is a block diagram of a rotary motor and a vertical drive cylinder of the malodorous chemical application device of the present invention.

Figure 15 is an enlarged view of the main portion of the rotary motor and the vertical drive cylinder of the malodorous chemical application device of the present invention.

16 is a block diagram of the temporary fixing means of the malodorous chemical application device of the present invention.

17 is another angular configuration of the temporary fixing means of the malodorous chemical application device of the present invention.

18 is a configuration diagram of the hole for passing the malodorous chemicals of the present invention,

As shown in FIG. 1, the plant cultivation system 1 of the present invention includes a plantation cultivation room 10 equipped with a plant property cultivation device 30 and a foot formed by placing the cultivation room 10 and the partition 21. It consists of acyl (20).

In this way, the cultivation room 10 and the germination room 20 are separated and formed, and the germination room 20 is sterilized and sown, and the cultivation room 10 uses a plant property cultivation device 30. It is preferable to increase the efficiency of the work by installing the door 11 in the cultivation room 10 and the germination room 20, so that all work can be performed in the plant cultivation system by growing and harvesting.

In addition, the inside of the plant cultivation system (1) is provided with a plurality of ventilators 24 and a temperature control device 23 to maintain the internal temperature always 22 ~ 25 degrees and equipped with a water tank (22) to plant even in winter It was made easy to grow.

The plant property cultivation system capable of harvesting every day of the present invention aims to complete the work from sowing to harvesting over 8 days, after germination and sowing on the 1st day, and after cultivation from the 2nd to the 7th day It will be harvested on the 8th day.

In addition, the plant cultivation system (1) is formed in a space of an average of 10 pyeong, the purpose of cultivating a large amount of plants in a small space early in the early days.

Figure 2 is a perspective view showing a part of the plant property cultivation apparatus of the present invention.

The plant property cultivation apparatus 30 may form a skeleton by combining 5 horizontal frames 31, 7 vertical frames 32, and 35 vertical frames 33, as shown in FIG. Three horizontal frames 31, four vertical frames 32 and 12 vertical frames 33 become one unit, and these four units can be combined to form a skeleton of a plant property cultivation apparatus.

When the skeleton of the plant property cultivation device 30 is made of the horizontal frame 31, the vertical frame 32, and the vertical frame 33, the front and rear ends of the plant property cultivation device 30 are located at the ends. Each of the horizontal frames 31 forms an outer frame 31a, and the horizontal frame 31 in the center portion forms a central frame 31b.

Inside each of the vertical frames 33, support plates 34 on which the mother board 40 is placed are formed. At this time, the support 34 is formed in six stages along the height direction of the vertical frame 33 to form the base plate ( 40) was made to be placed in six steps between the vertical frame 33 and the vertical frame 33.

It is preferable to use the general mother board 40 in which a plurality of holes are formed so that the plant can be easily planted.

A one-eye fog injector 50 is installed in each of the outer frames 31a of the plant property cultivation device 30, and the LED lights 70 are located under each of the horizontal frame 31 and the support 34. A number of these are installed.

The LED lighting 70 provides light to the plants grown on the mother board 40, has a wavelength of 450-460nm, has blue wavelengths to promote the formation of leaves, and has a wavelength of 650-660nm to enhance photosynthesis. The growth of plants was promoted by mixing and using red, which serves as an accelerator.

Figure 3 shows the arrangement of the mist sprayer of the plant cultivation system of the present invention.

Each mist injector is composed of a 1-port fog injector 50 and a 2-port fog injector 60 according to the number of nozzles, and based on FIG. 6, the 1-port fog injector 50 is the plant property cultivation device ( Eight each is mounted on each outer frame 31a of 30), and seven are mounted on the central frame 31b of the plant attribute cultivation apparatus 30 for the two-hole fog sprayer 60.

When water is supplied from the nozzle of the one-hole fog sprayer 50, the angle at which water is sprayed is limited to supply water to a wide space between about 45 to 60 °.

Accordingly, based on FIG. 3, the nozzles of the one-hole fog sprayer 50 mounted on the upper side and the one-hole fog sprayer 50 mounted on the lower side are formed facing each other, but different positions are provided. desirable.

That is, the one-eye fog injector 50 formed on the upper part is formed in the first and fourth from the left, based on the order in which the mother plate 40 is placed, but the one-eye fog injector 50 formed on the lower portion is the first and third parent plate It is installed at the position of (40) to not only supply water to a wide range using each of the one-hole fog jets 50, but also the water sprayed from each nozzle collides with each other to prevent water supply from occurring. To avoid.

However, if the position of the one-hole fog injector 50 is differently formed, a blind spot in which water is not supplied to each of the one-hole fog injector 50 is generated. In order to solve this problem, the plant property cultivation device 30 ) Is installed on the central frame (31b) of the two-hole fog jet (60) to supply water to the plant property cultivation device (30) without blind spots.

That is, by installing the one-way fog sprayer 50 and the two-hole fog sprayer 60 at an intersection, water is supplied through the two-hole fog sprayer 60 to a blind spot where water is not supplied to the one-hole fog sprayer 50. In order to supply the water, the position of the one-eye fog injector 50 installed on each outer frame 31a of the plant cultivation system is differently installed to efficiently supply water.

Since water supplied to the one-way fog sprayer 50 and the two-way fog sprayer 60 is supplied by connecting a pipe to the water tank 22, a difference in water pressure may occur for each mist sprayer, so high pressure It is preferable to supply water to the inside of the plant property cultivation device 30 using a motor capable of spraying.

On the other hand, the present invention further installs a dust measuring means (1000a) at one end of the plant property cultivation apparatus, and when it is determined that there is more than the standard dust as a result of the measurement of the dust measuring means (1000a), outputs an alarm signal through an alarm signal output unit Therefore, since the fine dust around the body is above the standard value, the worker is evacuated or the dust is properly removed.

The dust measuring means (1000a) of the present invention is positioned to face the infrared transmitting means (A) for emitting infrared rays and the infrared transmitting means, and receives light emitted from the infrared transmitting means according to the degree of the received amount Infrared receiving means (B) for determining dust inflow, and dust measurement control unit for controlling so that the input voltage of the infrared transmitting means (A) increases when the output voltage of the infrared receiving means (B) is less than a set value. (C).

Then, the infrared transmission means (A) receives an infrared transmission control signal from the dust measurement control unit (C) to determine the infrared transmission amount and outputs the changed infrared transmission amount.

That is, when the result value of the infrared receiving means (B) is transmitted to the dust measurement control unit (C), the dust measurement control unit (C) predicts the amount of dust generated based on the data of the infrared receiving means (B), and according to the dust generation amount The control signal is output to the infrared transmission means (A) to control the amount of infrared transmission to induce the output.

That is, the dust measurement control unit reads the light amount data output from the infrared receiving means, and on the basis of this, automatically controls the light amount of the infrared light emitting means so that the sensitivity adjustment is automatically maintained to maintain the optimum dust detection even in the dust-contaminated situation. It was made to be able to measure by maintaining the sensitivity.

In other words, if the received light quantity of the infrared receiving means B is weak, the dust measurement control unit C determines that the degree of contamination is high and outputs a control signal to increase the light quantity of the infrared transmitting means A for more precise dust measurement. And, if the received light amount of the infrared receiving means (C) is too strong, there is no contamination or a precise measurement is difficult, so a control signal is output to lower the light amount of the infrared transmitting means (A). That is, it is necessary to keep the amount of infrared transmission light in an appropriate state. Only then, the amount of infrared light measured by the infrared receiving means becomes accurate, so that the amount of dust generated can be more accurately predicted. Therefore, the dust amount data measured by the dust measurement control unit of the present invention can output a highly reliable dust measurement result.

The present invention is a concave lens group (1) to limit the output of infrared light is mounted a plurality of concave lenses;

An infrared transmitting element (2) for outputting infrared light near the concave lens group;

It is installed on one side of the concave lens group so that the concave lens group flows so that the infrared output is controlled. However, if the ambient temperature is high according to the change in temperature, the concave lens group flows to the left to allow infrared rays to pass through the lens with a low depression angle. A shape memory spring (3) for controlling the output to be high and controlling the infrared output to be lowered by allowing the infrared light to pass through the lens having a high depression angle by flowing the concave lens group to the right when the ambient temperature is low;

It comprises a fixing portion (4) located at the right end of the shape memory spring to support the movement of the shape memory spring.

And, the housing (5) for receiving the spring and the fixing part;

It is installed on the inside of the housing, but is installed on one side of the shape memory spring, forcibly expands the shape memory spring through heat generation to move the concave lens group to the left, thereby allowing infrared rays to pass through the lens with a low depression angle. A heating means (6) for inducing the force to be high;

It is installed on the inside of the housing but is installed on the other side of the shape memory spring (3) to transfer cooling heat to force the shape memory spring (3) to contract, moving the concave lens group to the right, and thus having a high depression angle. And a thermoelectric element (7) that induces infrared rays to be lowered by allowing infrared rays to pass through;

Transmission control unit (8) that is electrically connected to the heating means and the thermoelectric element, controls to increase the infrared output by operating the heating means when there is much dust, and to lower the infrared output by operating the thermoelectric element when there is little dust. It comprises.

Then, a plurality of holes (5a, 5b 5c) are formed on the rim of the housing where the fixing part (4) is located, and a magnet (9) for setting the position of the fixing part (4) is inserted and coupled to the hole. Is done.

That is, the fixing part 4 is made of metal, and the magnet 9 is inserted into the hole to temporarily fix the fixing part. Accordingly, in a region with low temperature, the magnet is placed in the center hole 5b or the left hole 5a, and in a region with high temperature, the magnet 9 is placed in the center hole 5b or the right side 5c. do.

Then, the position of the first transmitting element 2 is located in the center of the concave lens group 1, and then it is appropriately expanded and contracted according to the temperature change so that the concentration of dust can be accurately determined.

In addition, the fixing part 4 of the present invention can be configured to be coupled by one touch, a ball spring 4a installed inside the case of the fixed part, and a sliding ball 4b installed at the end of the ball spring It is configured to install, and is configured to be coupled while clicking on the housing (5).

That is, a hole is formed at a predetermined interval in the housing 5 in advance, and the sliding ball 5b is temporarily coupled to the hole while the fixing part is moved, and the sliding ball unfolds from side to side by the action of the bullet spring 4a. This is to keep the fixed state.

Accordingly, it is possible to allow the user to freely adjust the position of the fixing part.

The present invention is configured such that the output of the transmitting element 2 is automatically adjusted according to a change in temperature. Since the shape memory spring 3 is set as a basic temperature, when the temperature increases, the shape memory spring increases and the transmitting element increases. The light is reduced and output, and when the temperature decreases, the shape memory spring 3 decreases and the light of the transmitting element 2 is lowered to output.

That is, since the dust is distributed in the gas, the movement becomes active when the temperature rises, so it is possible to check a more precise dust concentration than when the output of the transmitting element 2 is lowered, and when the temperature decreases, the movement becomes dull. More accurate dust concentration can be checked when the output of 2) is increased.

Accordingly, the present invention is to make it possible to more accurately grasp the dust concentration by flowing the concave lens group 1 by reflecting the temperature change.

Looking at the actual operation, first, the light of the transmitting element is output through the third concave lens 1c which is basically installed at the center of the concave lens group 1.

Then, when the ambient temperature rises, the shape memory spring expands and is located on the right side of the third concave lens 1c, and at the same time, the second concave lens 1b with a depression angle lower than that of the third concave lens 1c comes to the position of the transmitting element. Accordingly, the light output of the transmitting element 2 is lowered and output. In addition, when the ambient temperature decreases, the shape memory spring 3 contracts and is located on the left side of the third concave lens 1c, and at the same time, a fourth concave lens 1d having a depression angle higher than that of the third concave lens 1c is transmitted. It comes to the position of the element (2), thereby increasing the light output of the transmitting element (2) to output.

As described above, according to the present invention, the shape memory spring 3 automatically expands and contracts in response to ambient temperature, thereby facilitating a change in the amount of light according to the movement of dust, so that a more precise dust concentration can be grasped, and more accurate alarm output. This is done.

On the other hand, according to the present invention, the transmission control unit 8 is configured to forcibly determine the most accurate dust concentration by forcibly moving the concave lens group 1 according to the dust concentration. By adjusting, it was possible to grasp the exact concentration of dust.

That is, in the present invention, when the dust measurement control unit C outputs a control signal to facilitate the change in the amount of light in the infrared transmission unit, the transmission control unit 8 recognizes this and drives the heating unit 6 and the thermoelectric element 7 Therefore, the most appropriate infrared transmission was made.

First, the infrared light is output through the third concave lens 1c, which is basically installed at the center of the concave lens group 1, and when the infrared light needs to be reduced and output, the transmission control unit 8 generates heat (6). ) To generate heat to expand the shape memory spring, and accordingly, the transmitting element 2 is fixed, so that the concave lens group 1 moves, but the second concave is installed on the right side of the third concave lens 1c. As the lens 1b moves to the position of the transmitting element 2, the output light of the transmitting element is output through the second concave lens.

In addition, when the infrared light needs to be further reduced and output, the transmission control unit 8 activates the heat generating means 6 to generate more heat so that the shape memory spring 3 expands more, thereby concave lens group 1 ) Is moved but heated so that the first concave lens 1a is moved to the position of the transmitting element 2, and accordingly, the light of the transmitting element 2 is output through the first concave lens 1a.

In addition, when the infrared light needs to be increased and output, the transmission control unit 8 drives the thermoelectric element 7 to generate cooling heat so that the shape memory spring 3 contracts, and accordingly the concave lens group 1 moves. 3 The fourth concave lens 1d on which the left side of the concave lens 1c is installed is located on the transmitting element, so that the light of the transmitting element 2 is output through the fourth concave lens 1d.

In addition, when the infrared light needs to be increased and output, the transmission control unit 8 drives the thermoelectric element 7 to generate more cooling heat, so that the shape memory spring 3 contracts more and concave lens group 1 accordingly. ) Is moved, but the fifth concave lens 1e is moved to the position of the transmitting element 2, so that the light of the transmitting element 2 outputs light through the fifth concave lens 1e.

In addition, the concave lens group is designed to vary the degree of output of infrared light according to the depression angle of the center, and the third concave lens 1c is basically installed at the center of the working rod and forms a depression angle of 25 degrees.

Further, the second concave lens 1b is used when the infrared light needs to be reduced and output, and is installed on the right side of the third concave lens 1c to form a depression angle of 15 degrees.

In addition, the first concave lens 1a is used when more infrared light needs to be output, and is installed on the right side of the second concave lens 1b to form a depression angle of 5 degrees.

In addition, the fourth concave lens 1d is used when the infrared light needs to be increased and output, and is installed on the left side of the third concave lens 1c to form a depression angle of 35 degrees.

In addition, the fifth concave lens 1e is used when more infrared light needs to be increased and output, and is installed on the left side of the fourth concave lens 1d to form a depression angle of 45 degrees.

On the other hand, the present invention is equipped with a malodor chemicals application device as an alarm signal output means, if the fine dust is higher than the reference, it outputs the odors from the malodor chemicals application device 1100 to force the operator to move away from the device.

That is, it is electrically connected to the dust measuring means (1000a) and further comprises a malodorous chemicals application device (1100) that applies malodor to the outside according to the control signal of the dust measuring means. In order to protect, it is to output the odor.

The malodor chemicals applying device 1100 includes a housing 1110, a battery 1120, a rotating motor 1130, an up and down driving cylinder 1140, an elevating support spring 1150, and an odor drug applicator It consists of (1160), the chemical storage means (1170), and the temporary fixing means (1180) of the applicator.

The housing 1110 has a space portion therein, and is formed by embedding various devices. That is, the housing is configured by bonding two cases with one open side to each other, and various devices are installed in a space portion generated in the process of bonding the cases. These housings are generally similar in structure to means having spaces therein.

The battery 1120 is installed inside the housing 1110 and serves to provide electricity to a device after charging electricity by receiving power from the outside. That is, the battery is installed on the upper portion of the housing and is electrically connected to an external power supply to receive electricity and temporarily store the supplied power to supply electricity to various devices requiring power.

The rotating motor 1130 is electrically connected to a battery and receives power from the battery, converting it into a mechanical rotating motion to freely rotate the motor shaft. At this time, the motor shaft 1131 is a shape in which the bottom surface is formed in a wave form in the vertical direction, and the curved wave form continuously rotates. That is, the rotating motor is rotated by receiving power from a battery, and the bottom surface of the motor shaft is formed in a curved waveform to rotate.

The up-and-down driving cylinder 1140 is mechanically connected to the rotating motor, but flows while moving up and down by converting rotation of the rotating motor into a reciprocating vertical motion. At this time, the rotating shaft 1141 of the upper and lower driving cylinders 1140 is formed in a wave shape in the vertical direction, and repeats the coupling and separation with the waveform of the motor shaft of the rotating motor, thereby moving up and down. That is, the upper and lower driving cylinders are formed in the form of a curved waveform in which the rotational shaft is curved in the same way as the motor shaft of the rotational motor so that the vertical movement cylinder is raised and lowered when the rotary motor rotates. Will do.

The lifting spring support 1150 is installed on the outer periphery of the upper and lower driving cylinders 1140, but one side is fixed to the locking jaw inside the housing 1110 and the other side is fixed to the locking jaw of the up and down driving cylinder 1140. The upper and lower driving cylinders 1140 are supported by bullets so that the upper and lower driving cylinders 1140 can maintain a vertical movement. That is, since the elastic spring 1150 for raising and lowering supports the elastic action of continuously pushing up and down the driving cylinder 1140 in the upper direction, the rotation motor 1130 rotates with the waveform of the motor shaft 1131 of the rotating motor when rotating. As the waveform of the rotating shaft 1141 of the up and down driving cylinder 1140 is staggered, the up and down driving cylinder descends, and the up and down driving cylinder 1140 is raised while the up and down driving cylinder 1140 is raised by the elastic spring 1150 after the jamming is finished. The waveform of 1141) and the waveform of the motor shaft 1131 of the rotating motor 1130 are in close contact. Therefore, the up and down driving cylinder 1140 is repeatedly spaced apart from the rotating motor 1130, so that the up and down driving cylinder 1140 is continuously moved up and down around the rotating motor 1130.

The malodor drug applicator 1160 is a body cylinder shape and is made of a plurality of malodor drug passage holes 1161 installed on the bottom surface, and is inserted and coupled inside the upper and lower drive cylinders 1140 to supply malodor drugs Plays a role. That is, the malodor drug applicator 1160 allows the malodor drug stored therein to be discharged to the outside through the hole 1161 for passing the malodor drug, wherein the malodor drug applicator 1160 is installed inside the upper and lower driving cylinders. Therefore, the odor drug applicator 1160 is hit during the up and down operation of the up and down driving cylinder 1140 to output the drug to the outside according to the law of inertia.

The malodorous drug storage means 1170 is a state in which malodorous drugs are stored, and is inserted into the malodorous drug applicator 1160 and output through the malodorous drug passage hole 1161 of the malodorous drug applicator 1160. . That is, the malodor chemical liquid storage means 1170 is in a state in which the drug is stored, and the lower part is coupled to the malodor drug applicator 1160 in an open form, and when the upper and lower driving cylinder 1140 is driven, the malodor of the malodor chemical liquid storage means The drug is output to the outside. In fact, since the hole 1161 for the odor drug passage is formed fine, it is not easily discharged to the outside when the up and down driving cylinder 1140 is not operated.

The malodor drug applicator temporary fixing means 1180 is coupled to one end of the malodor drug applicator 1160, the other side is coupled to one end of the housing 1110, the upper and lower driving cylinder 1140 based on the housing 1110 and Temporarily fixing the malodor drug applicator 1160 at the same time prevents the malodorous drug applicator 1160 from falling down due to gravity while the vertical driving cylinder 1140 and the malodor drug applicator 1160 flow up and down. In the case of replacing the malodor drug applicator 1160, pressing the button releases the fixation of the malodor drug applicator based on the housing so that the malodor drug applicator is detached from the up-and-down driving cylinder and detached downward. That is, the temporary fixation means for the malodor drug applicator temporarily fixes the up and down driving cylinder and the malodor drug applicator to prevent the malodor drug applicator from being removed during operation, and after using all the drugs present in the malodor drug applicator, Press to release the malodor drug applicator and induce the malodor chemical storage means to be restored.

The temporary fixing means 1180 is a hook 1181 for engaging, a connecting piece 1182, a hinge 1183 for supporting rotation, a spring 1183 for supporting, a sliding flow piece 1185, and a push button ( 1186).

The hook 1118 is made of a wedge shape with a sharp end, and is forcedly fitted through a coupling hole 1140a of the up-and-down driving cylinder 1140 and a coupling hole 1160a of the drug applicator 1160 to apply a malodorous drug. The base 1160 maintains a state coupled to the inner periphery of the vertical drive cylinder 1140.

The connecting piece 1182 is integrally connected in a diagonal direction to the hook for hook 1181 and induces the hook for hook 1181 to move clockwise or counterclockwise by a rotational movement.

The rotating support hinge 1183 is installed between the connecting piece 1182 and the hook 1118 for locking and serves as a central axis in which the connecting piece is rotated.

The support spring 1188 is installed between the connecting piece 1182 and the up and down driving cylinder 1140 so that the hook 1118 is flowed counterclockwise by pushing the connecting piece outward, so that the drug applicator is coupled to the up and down driving cylinder. It functions to maintain the state, and when the connecting piece is pressed by an external force and compressed in the direction of the up and down driving cylinder, the hook for hook 1181 is separated from the up and down driving cylinder 1140 and the malodor drug applicator 1160, and the malodor drug The applicator 1160 is induced to be removed from the vertical drive cylinder 1140.

The sliding flow piece 1185 is installed at the end of the connecting piece 1182 and moves at the same time when the hook 1118 and the connecting piece 1182 move up and down according to the up and down flow of the up and down driving cylinder 1140.

The push button (1186) is slidingly coupled to the sliding fluid piece (1185) to support the vertical movement of the sliding fluid piece (1185), and when the malodor drug applicator (1160) is replaced in the direction of the vertical driving cylinder (1140) By pressing the connecting piece 1182 by pushing, the connecting piece 1182 rotates around the hinge pin 1183 for rotation support, so that the hook 1181 for locking is driven from the vertically-driven cylinder 1140 and the malodor drug applicator 1160. As it is separated, the malodor drug applicator 1160 functions to induce to be removed from the vertical driving cylinder 1140.

10: cultivation room 11: door
20: germination room 21: partition
22: water tank 23: temperature control device
24: ventilator 30: plant property cultivation device
31: horizontal frame 31a: outer frame
31b: center frame 32: vertical frame
33: vertical frame 34: support
40: mother's bed 50: 1 mouth fog sprayer
60: 2-hole fog sprayer 70: LED lighting

Claims (3)

In the plant cultivation system to enable the daily harvest of raw grass,
The plant cultivation system is composed of a germination room and a cultivation room;
The plant property cultivation device located inside the cultivation room is composed of a plurality of horizontal frames, a vertical frame, and a plurality of vertical frames supporting each of the horizontal and vertical frames;
The outer frame positioned at the end of each of the plurality of horizontal frames, the center frame positioned at the center of the plurality of horizontal frames, and a support installed inside each vertical frame, and a plant placed on each support This cultivated base plate, a 1-hole fog sprayer installed on each outer frame, a 2-hole fog sprayer installed on the central frame, and a lower portion of the horizontal frame or a lower portion of the support to provide light to plants LED lighting;
Dust measuring means installed at one end of the plant property cultivation device to measure dust, and to output an alarm signal if it is above a standard;
It is electrically connected to the dust measuring means and comprises a malodor spreading device that outputs an odor to the outside according to the control signal of the dust measuring means. According to claim 1,
The malodor coating device 1100,
A housing 1110;
A battery 1120 installed inside the housing 1110 and receiving electric power from outside to charge electricity to provide electricity to the device;
A rotary motor 1130 electrically connected to the battery to receive power from the battery and convert it into a mechanical rotary motion;
A motor shaft 1131 installed on a central axis of the rotating motor to rotate corresponding to the rotation of the rotating motor, wherein the bottom surface is formed in a wave form and the curved wave form continuously rotates;
An up-and-down driving cylinder (1140) located at the lower end of the rotating motor and flowing while moving up and down by converting rotation of the rotating motor into a reciprocating vertical motion;
Located on the upper portion of the vertical drive cylinder 1140, but located on the central axis, mechanically contacted while contacting the motor shaft 1131 of the rotary motor 1130, coupled with the motor shaft 1131 of the rotary motor 1130 And a rotating shaft 1141 that repeatedly moves up and down while repeating separation.
It is installed on the outer periphery of the up and down drive cylinder 1140, but one side is fixed to the locking jaw inside the housing and the other side is fixed to the locking jaw of the up and down driving cylinder to support the up and down driving cylinders to support the up and down driving cylinder to maintain the up and down operation. An elastic spring 1150 for supporting the elevating support;
It is inserted and coupled to the inside of the up and down driving cylinder 1140, the cylinder shape as a whole is made of a plurality of holes 1161 for drug passage is installed on the bottom, and flows up and down according to the movement of the up and down driving cylinder to supply the drug A malodor drug applicator 1160;
One side is coupled to the malodor drug applicator 1160 and the other side is coupled to one end of the housing 1110, the upper and lower driving cylinders and the malodor drug applicator 1160 are temporarily fixed at the same time based on the housing to temporarily control the malodor drug applicator 1160. ) Is a odor cultivation system capable of daily harvesting, characterized in that it comprises a temporary fixing means (1180) for malodor drug applicator to prevent the fall down by gravity action. According to claim 1,
The odor drug applicator temporary fixing means (1180),
The end is made of a sharp wedge shape and is forcedly fitted through the coupling hole of the up-and-down driving cylinder and the coupling hole of the drug applicator. Wow;
A connecting piece 1182 integrally connected to the hooking hook 1181 in a diagonal direction and guiding the hooking hook 1181 to move clockwise or counterclockwise by a rotational movement;
A rotation support hinge 1183 installed between the connection piece 1182 and the hook 1118 for supporting the rotation of the connection piece;
It is installed between the connecting piece 1182 and the up-and-down driving cylinder 1140 to push the connecting piece outward so that the hook 1181 for locking flows counterclockwise to function to maintain the state in which the drug applicator is coupled to the up-and-down driving cylinder. , When the connecting piece is pressed by the external force and compressed in the direction of the up and down driving cylinder, the hook for hook 1181 is separated from the up and down driving cylinder 1140 and the drug applicator 1160 and the drug applicator 1160 is the up and down driving cylinder A spring 184 for supporting to be removed from the 1140;
A sliding flow piece 1185 installed at the end of the connecting piece 1182 and moving at the same time when the hook 1181 for engaging and the connecting piece 1182 move up and down according to the up and down flow of the up and down driving cylinder 1140;
Slidingly coupled with the sliding fluid piece 1185 supports the vertical movement of the sliding fluid piece 1185, and pushes the connecting piece 1182 by pushing the malodor drug applicator 1160 toward the vertical driving cylinder 1140 when replacing it. As the connecting piece 1182 is rotated about the hinge pin 1183 for rotation support by pressing, the hook 1118 for locking is separated from the up and down driving cylinder 1140 and the drug applicator 1160, and the malodor drug applicator 1160 ) Comprises a push button (1186) to induce to be removed from the vertical drive cylinder (1140).

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