KR200375690Y1 - Floriculture apparatus growing in hothouse, using carbon heating film - Google Patents

Abstract

Disclosed is a plant growing device for greenhouse growth using a carbon heating film. The present invention is to be used in a greenhouse called a house to reduce the heating cost of maintaining the internal temperature of the greenhouse to 25 ℃ ~ 30 ℃ to grow flowers in general. To this end, a carbon heating film that generates heat by electric energy is used as a heating means, and in particular, the carbon heating film is directly heated to a temperature of 25 ° C. to 30 ° C. by using a carbon heating film in a flower pot in which the roots of plants are planted. A flower can be cultivated also in 15 degreeC-20 degreeC.

That is, in the case of a conventional greenhouse, plants may be grown only when the internal temperature is maintained at 25 ° C. to 30 ° C., but in the case of the present invention, the plants may be grown even when the internal temperature of the greenhouse is 15 ° C. to 20 ° C.

Therefore, in the case of conventional greenhouse cultivation, the fossil fuel should be maintained at 25 ° C. to 30 ° C., and thus, as the temperature difference between the outside and the greenhouse increases, the use of many fuels due to heating leads to an increase in planting costs. However, the present invention has the advantage of increasing the competitiveness of the house farming can be grown in the house temperature can be grown at a temperature of 15 ℃ ~ 20 ℃ greenhouse greenhouse can reduce the cost of planting.

Description

Greenhouse cultivation device using carbon heating film {FLORICULTURE APPARATUS GROWING IN HOTHOUSE, USING CARBON HEATING FILM}

The present invention is used to grow and cultivate flowers in a greenhouse, and in particular, when the temperature in the greenhouse at the temperature of the atmosphere and the unheated condition is difficult to grow the flowers, the carbon heating film is used to heat the potted plants planted with plants. Relates to a device.

Greenhouse cultivation refers to cultivating plants in a greenhouse (1), which is a building with a heating structure, with a skeleton set up for the purpose of plant cultivation and covered with glass or plastic or vinyl outside. The greenhouse 1 is a facility for artificially creating a growth environment suitable for the plants to be grown because it is a facility originally intended to protect plants from cold and promote growth during the low temperature of winter.

In such a greenhouse 1, it is common to install a boiler 2 which is usually a heating facility inside. As described above, the temperature in the greenhouse 1 should generally be maintained at 25 ° C. to 30 ° C. in order to provide the growth conditions of the plants, so that the temperature in the greenhouse 1 and the atmospheric temperature outside the greenhouse 1 are different from each other. It is for maintaining the temperature in the absence of sunlight or the temperature can not be maintained by heating using.

However, since the boiler (2) usually uses coal or kerosene, which is a fossil fuel, a large cost is required for heating, and the greater the temperature difference between the temperature in the greenhouse 1 and the temperature outside the greenhouse 1, the more the cost is consumed. There is a problem.

As a result, the economic power of the farmers is deteriorated due to the increase in the cultivation cost of the flower cultivation farmers using the greenhouse.

In order to solve such a problem, a conventional utility model (Application No. 20-2001-22882) using a sheet that generates electricity by electricity has been filed, but the prior art has been proposed in the home as mentioned in the prior art for its construction and purpose. In the case of potted plants grown in small quantities, it is intended to use in places where it is difficult to install a separate heating device, which is suitable for heating a small amount of potted plants, but difficult to install in places where plants are grown in large quantities such as greenhouse cultivation. There is a problem in that a lot of costs in accordance with the facility and facilities.

The present invention was devised to overcome the conventional problems as described above, and can provide an environment for growing flowers even when the temperature in the greenhouse is lowered, thereby lowering the cultivation cost during greenhouse cultivation. It is an object of the present invention to provide a plant growing device that is easy and inexpensive according to facility costs.

In order to achieve the technical problem of the present invention as described above, the present invention is a vertical cylindrical shape opened up and down the body 110 made of a synthetic resin material, the heat insulating material to attach one side to the inner surface of the body ( 120, a carbon heating film 130 that is attached to the other side of the heat insulating material 20, and generates heat by the supplied electrical energy, the power line 132 to be bonded to the carbon heating film 130, the A heat generating component 10 comprising a temperature sensor 140 for detecting a heat generation temperature of the carbon heat generating film 30 and a signal line 142 contacting the temperature sensor 140; and a power line of the carbon heat generating film 130. A power supply line 210 connected to the power supply line 210, an output unit 220 coupled to the power supply line 210 to output DC power, and a signal input unit 230 connected to the signal line 142 to receive a predetermined signal; ), To set the heat supply temperature Power control unit 240 for supplying power of a predetermined DC voltage through the output unit 220 according to the selection of the switch unit 260 and the switch unit, and cuts off the power supply according to the signal of the signal input unit 230. It characterized in that consisting of; a power supply means 20 comprising a).

In addition, the heating potted plant 10 is formed with a potted plant insertion hole 152 suitable for the size of the potted plant to be installed in the heating potted plant 10, is continuous to the outer peripheral surface of the potted plant insertion hole 152 downward for drainage It is preferable that the inclined surface 154 and the planter bracket 150 having a coupling jaw 156 having a shape for engaging with the upper open portion of the body 110 on the distal end of the inclined surface 154 is further included.

In addition, the body 110 of the pyrotechnic squad 10 is a pair of upper and left outwards of the body 110 for hanging the pyrotechnic squad 10 to the side planter means (3) installed inside the greenhouse Hanging means 160; preferably further comprises.

In addition, the power supply means 20 includes an emergency switching circuit 250 for detecting when the external AC power supply is stopped and for switching the power supply source from the external power supply to the reserve power; And a preliminary power supply unit 252 for supplying electric energy to the heat generating constituent 10 by the emergency switching circuit 250.

In addition, the power supply line 210 of the power supply means 20 is a power line 132 and the power supply line 210 of the carbon heating film 130 to supply electrical energy to a plurality of heat generating components (10). It is preferable to further include; a plurality of connection tabs 214 bonded at predetermined intervals so as to be connected in parallel.

Hereinafter, with reference to the accompanying drawings will be described in detail through the embodiment of the greenhouse plant growing apparatus using the present invention carbon heating film.

2 is a view for conceptually comparing and explaining the cultivation of plants using a greenhouse according to the prior art and the present invention. As shown in Fig. 2 (a) and 2 (b), when there is a potted plant 30 in which the plants for growth are planted in the greenhouse 1 and the outside air temperature is minus 5 ° C. (a ) Should maintain the temperature in the greenhouse (1) 25 ℃ ~ 30 ℃, in the case of the present invention (b) can grow plants normally even if the temperature in the greenhouse (1) is 15 ℃ ~ 20 ℃.

In other words, the present invention is the temperature of the soil in the potted plant with the root of the plant for the purpose of growth by directly heating the potted plant 30 to 25 ℃ ~ 30 ℃ by the carbon heating film of the heat generating constituent 10 to generate heat by electrical energy By maintaining the 25 ℃ ~ 30 ℃ to provide an environment in which the flowers can be grown.

As a result, the temperature in the greenhouse 1 can be relatively lowered. That is, a large difference occurs in the fuel cost for heating by the temperature difference of conventional (a) up to 35 ℃ and the fuel cost for heating by the temperature difference of up to 25 ℃ in the case of the present invention (b).

3 is a view for conceptually explaining the coupling between the components of the greenhouse plant growing device using the present invention carbon heating film. As shown in FIG. 3, the present invention is divided into two parts.

One is a heating potted component 10 is equipped with a potted plant, one is a power supply means 20 for operating the heating potted component 20.

The heating component 10 is composed of a body 110, the heat insulating material 120, the carbon heating film 130, the power line 132, the temperature sensor 140 and the signal line 142.

The body 110 is preferably made of synthetic resin and has a vertical cylindrical shape penetrating up and down. The lower opening of the body 110 is to drain the water discharged from the pot 30.

The heat insulator 120 is attached to the entire inner inner surface of the body 110. That is, as shown, the heat insulator 120 is inserted into the body 110 is fixed to the inner wall surface. Such a heat insulating material 120 prevents the heat dissipation to the outside of the heat generating pot (10). At this time, the material of the heat insulating material 120 can be selected in various ways and is not limited to any particular heat insulating material.

The carbon heat generating film 130 is a conventional one that dissipates heat by electrical energy, according to the present invention, it is preferable to generate heat by a DC voltage power source between 20V to 30V. However, the specified driving voltage is not limited to this embodiment and can be changed.

The carbon heat generating film 130 is inserted into the inside of the body 110 to which the heat insulating material 120 is attached as shown in one side is fixed to the heat insulating material 120. Therefore, the heat generating carbon heat generating film 130 supplies heat to the inside of the heat generating component 10, thereby heating the pot 30.

At this time, the carbon heat generating film 130 is connected to the power line 132, the power line 132 is connected in parallel with the power supply line 210 of the power supply means 20 receives the electrical energy.

The temperature sensor 140 is for maintaining the exothermic temperature of the carbon heating film 130. This is to maintain a specific temperature as the carbon heat generating film 130 is continuously raised to a predetermined temperature when the supply of electrical energy continues.

For example, when the carbon heating film 130 generates heat up to 50 ° C. and the user wants a heating temperature of 30 ° C., the power supply is turned on based on the heating temperature of the carbon heating film 130 at 30 ° C. Turn on / off to maintain approximately 30 ° C. Therefore, the temperature sensor 140 is preferably located adjacent to the carbon heating film 130 as shown.

As described above, the on / off of power supply by the temperature sensor 140 transmits a predetermined signal to the power supply means 20 through the signal line 142, and the power supply means 20 according to the received signal. Control the power supply.

The power supply means 20 will be described in detail with reference to FIG.

4 is a view for explaining a power supply means according to the present invention. As shown in FIG. 4, the power supply means 20 of the present invention includes a power supply line 210, an output unit 220, a signal input unit 230, a switch unit 260, and a power control unit 240. It is preferably configured to further include an emergency switching circuit 250 and the preliminary power supply means 252.

The power supply line 210 is connected to the power line 132 connected to the carbon heat generating film 130 to supply electrical energy to the carbon heat generating film 130, and the output unit 220 for outputting DC power. Is bound.

The signal input unit 230 is connected to the signal line 142 connected to the temperature sensor 140 to receive a predetermined signal from the temperature sensor 140.

The switch unit 260 is for allowing a user to set a predetermined state so as to select a power supply on / off or a heating temperature.

The power controller 240 receives an external AC power source (110V / 220V) and converts it into a DC power source and simultaneously drops the voltage. In addition, the power supply on / off according to the operation of the switch unit 260, and automatically controls the power supply in accordance with the signal of the temperature sensor 140.

In addition, the power supply unit 20 further includes an emergency switching circuit 250 and a preliminary power supply unit 252 to temporarily maintain a state of supplying electric energy using the preliminary power supply when external power supply is cut off due to a power failure. Keep it.

To this end, the emergency switching circuit 250 monitors whether there is a power outage, and switches from the external power supply to the preliminary power supply unit 252 at the time of power failure.

The preliminary power supply unit 252 is a battery that stores electrical energy and is connected to the emergency switching circuit 250 to supply electrical energy in case of power failure.

Therefore, the power supply means 20 controls the heat generation by supplying electrical energy to the carbon heat generating film 130 as a binding between the configuration as shown.

5 is a cross-sectional view for explaining the heating of the pot by the heat of the exothermic pot according to the present invention. As shown in the drawing, the heat generating component is a body 110, the heat insulating material 120 and the carbon heating film 130 is formed in a laminated structure, the potted plant 30 installed in the heating heating component is the carbon heating film 130 Heated by That is, when the heat generation temperature of the carbon heating film 130 is 30 ℃ ~ 31 ℃ approximately the temperature of the soil in the pot 30 is about 30 ℃.

Figure 6 is a view for explaining the plant pot stand of the greenhouse plant growing device using the present invention carbon heating film. The pot holder 150 shown in the drawing is for installing a pot 30 that is smaller than the diameter of the heating pot 10, the size of the pot is installed in the heating pot (150).

That is, as shown in Figure 6 (a) is formed in the potted plant insertion hole 152 suitable for the size of the potted plant to be installed in the heat generating pot (10), the drainage is continuous to the outer peripheral surface of the potted plant insertion hole (152) In order to engage with the upper end of the body 110 is formed on the inclined surface 154 formed downward and the distal end of the inclined surface 154 is formed.

At this time, the pot insert hole 152 is formed to match the diameter of the pot 30 to be installed can be installed without changing the pot pot of the various size pot 10.

Therefore, the potted plant smaller than the diameter of the heating component 10, as shown in Figure 6 (b) can be installed by coupling the pot planter 150 to the top of the heating component (10).

In addition, the inclined surface 154 formed on the planter stand 150 prevents water from entering the heat generating component 10 during water supply. Therefore, the excess water flows down the inclined surface 154, and the water absorbed into the pot 30 passes through the pot 30 and exits to the lower opening of the exothermic pot 10.

This prevents water from flowing into the exothermic squad 10 so that the temperature in the exothermic squad 10 falls by the water.

7 is a view for explaining that a pair of hook means is coupled to the body according to the present invention. The hook means 160 shown in FIG. 7 (a) is provided with a pair of upper and left outwards of the body 110. This is to install the heating element 10 to the flowerpot hanger means (3) installed side by side using a steel wire or piano wire in the greenhouse to hang the pots during greenhouse cultivation.

That is, a pair of hanger means 160 coupled to the body 110 to the planter hanger means (3) installed side by side is caught, as shown in Figure 7 (b) a plurality of heat generating components 10 potted hanger means (3) can be installed.

That is, the heating element 10 is stably installed by the hook means 160 formed in the body 110.

8 is a view for explaining a power supply line according to the present invention. As shown in FIG. 8 (a), the power supply line 210 has a coupling jack 212 formed at one end of the coupling jack 212 for coupling with the main body of the power supply means 20. Combined in series. That is, it is composed of one coupling jack 212 and a plurality of connection tabs 214, which are connected in series. At this time, the spacing between the connection tabs 214 is preferably 30 cm, but is not limited thereto. The spacing may be set as necessary, and the number of connection tabs 214 may be selectively selected.

As shown in FIG. 8 (b) by the power supply line 210 as described above, the plurality of heating components 10 and the power supply means 20 spanning the flowerpot hanger means 3 are connected to the power line 132 and the power source. The supply line 210 supplies the electric energy. In this case, the power line 132 and the power supply line 210 are connected in parallel by the connection tab 214.

In addition, as shown, one signal line 142 and the power supply means 20 are connected to control the heating temperature of the entire heating component 10.

Although the present invention described above has been described in detail only with respect to specific examples described in the present specification, it is apparent to those skilled in the art that various modifications and changes are possible within the technical spirit of the present invention, and the utility model registration request with such modifications and modifications is attached. Being in scope is a matter of course.

As described above, the greenhouse plant growing device using the carbon heat generating film of the present invention heats only the potted plants in which the plants are planted using the carbon heating film that generates heat by electric energy, so that the temperature of the whole greenhouse in the greenhouse is increased. It is possible to reduce the heating cost of heating the greenhouse because the flowers can grow normally even under the temperature suitable for growth, and shorten the growth period of the flowers shipped as a product by growing the flowers normally in winter. There is.

As a result, it is possible to increase the economic power of farmers by reducing the cost of growing plants and shortening the growth period of plants in greenhouse-cultivated farmers.

1 is a view for conceptually explaining the cultivation of flowers using a common greenhouse.

2 is a view for conceptually comparing the cultivation of plants using a greenhouse according to the prior art and the present invention.

Figure 3 is a view for conceptually explaining the coupling between the components of the greenhouse plant growing device using the present invention carbon heating film.

4 is a view for explaining a power supply means according to the present invention.

5 is a cross-sectional view for explaining the heating of the pot by the heat of the exothermic pot according to the present invention.

Figure 6 is a view for explaining the planter stand of the greenhouse plant growing device using the present invention carbon heat generating film.

Figure 7 is a view for explaining that a pair of hook means is coupled to the body according to the present invention.

8 is a view for explaining a power supply line according to the present invention.

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

1: greenhouse 2: boiler

3: pot hanger means 10: heating pot

20: power supply means 30: pollen

110: body 120: insulation

130: carbon heating film 140: temperature sensor

132: power line 142: signal line

150: planter stand 152: planter insertion hole

154: slope 156: coupling jaw

160: hook means 210: power supply line

220: output unit 230: signal input unit

240: power control unit 250: emergency switching circuit

252: spare power means 260: switch unit

Claims (5)

Body 110 made of synthetic resin material in a vertical cylindrical shape opened up and down, Insulation material 120 for attaching one side to the inner side of the body 10, One side surface is attached to the other side of the heat insulating material 20, the carbon heat generating film 130 to generate heat by the supplied electrical energy, A power line 132 to be in contact with the carbon heat generating film 130, Temperature sensor 140 for detecting the heat generated temperature of the carbon heat generating film 30 and A heating component 10 consisting of a signal line 142 which is in contact with the temperature sensor 140; and A power supply line 210 to be in contact with the power line 132 of the carbon heat generating film 130, An output unit 220 coupled to the power supply line 210 to output a DC power; A signal input unit 230 which is connected to the signal line 142 to receive a predetermined signal; Switch unit 260 for setting the supply and cut off of the power supply and the heating temperature by the user and Power supply means including a power control unit 240 for supplying power of a predetermined DC voltage through the output unit 220 according to the selection of the switch unit, and cuts off the power supply according to the signal of the signal input unit 230. (20); Greenhouse growth plant growing apparatus using a carbon heating film, characterized in that consisting of. The method according to claim 1, wherein the heating component 10 The potted plant insertion hole 152 is formed in accordance with the size of the potted plant to be installed in the heating pot 10, the inclined surface 154 and the inclined surface (continuously formed downward for the drainage continuous to the outer peripheral surface of the potted plant insertion hole 152 ( Greenhouse growth plants using a carbon heat generating film, characterized in that it further comprises; a planter stand 150 formed with a coupling jaw 156 of the shape for engaging with the upper opening of the body 110 at the distal end of the body 154; Cultivation device. According to claim 1, wherein the body 110 of the heating pot 10 A pair of hook means (160) installed on the left and right outwards of the body (110) for hanging the heat generating pot (10) on side by side hanger means (3) installed in the greenhouse; and further comprising carbon Plant growing device for greenhouse growth using a heating film. The method of claim 1, wherein the power supply means 20 An emergency switching circuit 250 for detecting when the external AC power supply is stopped and switching the power supply source from the external power source to the spare power source; And Greenhouse planting apparatus for growing greenhouse using a carbon heat generating film, characterized in that it further comprises; a preliminary power supply unit (252) for supplying electrical energy to the heat generating pot (10) by the emergency switching circuit (250). According to claim 1, wherein the power supply line 210 of the power supply means 20 In order to supply electrical energy to a plurality of heat generating components 10, a plurality of connection tabs connected at predetermined intervals so that the power line 132 and the power supply line 210 of the carbon heating film 130 are connected in parallel ( 214); greenhouse growing plants using a carbon heating film, characterized in that it further comprises.