KR101384684B1 - Room type hydroponics growing equipment - Google Patents

Abstract

According to the present invention,
Hydroponic cultivation unit 100 and the hydroponic unit is formed by a plurality of spaced apart from the outer circumferential surface through the inlet port 110 to allow the insertion of the port 400 is inserted into the cushion member 410 inside the plant While supporting and supporting the lower end of the cultivation unit 100 and the support unit 200 for receiving a motor pump for supplying the water received inside the hydroponic cultivation unit 100, the upper side, while covering the top of the hydroponic cultivation unit 100 In the indoor hydroponic cultivation device consisting of a falling water induction unit 300 for receiving the water received in the support portion 200 by a motor pump to guide the free fall from the top of the hydroponic cultivation unit 100,
The hydroponic cultivation unit 100 is formed of a cylindrical body and forms a shape in which the upper and lower ends are opened, and the plurality of port insertion openings 110 through the outer circumferential surface are inclined perforated and arranged, and the port insertion opening 110 is a hydroponic cultivation unit ( By applying thermoforming in a state where the outer peripheral surface of the 100 is circularly drilled, the hydroponic cultivation unit 100 is inclined inwardly from the outer surface of the hydroponic cultivation unit 100 so as to have a recessed shape. (100) It characterized in that the protrusion 120 is formed to protrude inwardly, a plurality of port insertion openings are formed to be inclined along the outer circumferential surface of the hydroponic cultivation portion made of a cylindrical body, the port in which the plant is planted by the port insertion opening Inserted so that it is planted along the outer circumferential surface of the hydroponic cultivation area, it is possible to grow a large number of plants in a narrow space, so that the indoor narrow To maximize the utilization of available space, as well as relates to a hydroponic apparatus in a small space that can be expected the effect of growing plants in a large amount is possible.

Description

Indoor hydroponic cultivation device {ROOM TYPE HYDROPONICS GROWING EQUIPMENT}

The present invention relates to an indoor hydroponic cultivation apparatus, and has a hydroponic cultivation portion which is vertically fixed to a support member provided with a motor pump and is fixed vertically, and forms a port insertion hole that is inclined inwardly from an outer circumferential surface of the hydroponic cultivation portion. It is possible to insert the planted port, and the upper portion of the hydroponic cultivation is made of a falling water induction part to be dropped from the upper end after the water contained in the support member flows by the drive of the motor pump, even in a small space in the room The present invention relates to a hydroponic cultivation apparatus for indoor planting, which enables planting, management and cultivation of a large amount of plants, and maximizes the effect of the interior.

The proportion of people living in apartment houses such as apartments and villas is gradually increasing. In particular, in the case of large cities, the share of multi-family dwellings is nearly 80%.

The opportunities for encountering the natural environment are gradually decreasing in such large multi-family dwellings. Recently, legislation is being made to secure sufficient green space in large multi-family multi-unit houses, and the creation of green parks around the multi-family houses It is selected as an essential site development factor.

In addition, there are many cases where verandas or indoor spaces are used to create natural beauty through eco-friendly food and landscaping in apartment houses or general houses in urban areas, and installation cases using flower pots that have interior functions in general restaurants and offices have soared. There is a trend.

However, in the case of using such pollen, there is a problem that is limited to the cultivation or planting of a limited plant due to the difficulty in forming a large amount or various planting due to the narrow space.

Therefore, in order to solve such a problem, a pot may be formed in multiple stages so that fruit and vegetables or plants may be planted in a plurality of layers, and an apparatus for hydroponic cultivation is disclosed.

In the case of such hydroponic cultivation apparatus, there are usually disclosed examples of using hydroponic cultivation using a rectangular cabinet or using a water tank, and the size of the hydroponic cultivation device is considerable and occupies a lot of indoor space. Hydroponic cultivation of plants is impossible.

Domestic Patent Registration No. 10-1076055

Therefore, the present invention has been made to solve such a problem, the purpose of providing a hydroponic cultivation apparatus capable of cultivating a large amount of plants, as well as increasing the utilization of narrow space in the room.

In addition, the present invention has another object to provide a hydroponic cultivation apparatus having excellent indoor interior function as well as increasing the narrow space utilization.

According to an aspect of the present invention,
Hydroponic cultivation unit 100 and the hydroponic unit is formed by a plurality of spaced apart from the outer circumferential surface through the inlet port 110 to allow the insertion of the port 400 is inserted into the cushion member 410 inside the plant While supporting and supporting the lower end of the cultivation unit 100 and the support unit 200 for receiving a motor pump for supplying the water received inside the hydroponic cultivation unit 100, the upper side, while covering the top of the hydroponic cultivation unit 100 In the indoor hydroponic cultivation device consisting of a falling water induction unit 300 for receiving the water received in the support portion 200 by a motor pump to guide the free fall from the top of the hydroponic cultivation unit 100,
The hydroponic cultivation unit 100 is formed of a cylindrical body and forms a shape in which the upper and lower ends are opened, and the plurality of port insertion openings 110 through the outer circumferential surface are inclined perforated and arranged, and the port insertion opening 110 is a hydroponic cultivation unit ( By applying thermoforming in a state where the outer peripheral surface of the 100 is circularly drilled, the hydroponic cultivation unit 100 is inclined inwardly from the outer surface of the hydroponic cultivation unit 100 so as to have a recessed shape. (100) It is characterized by forming a protrusion 120 to protrude inward.

delete

delete

delete

According to the present invention, a port insertion hole formed with a plurality of through holes is inclined along the outer circumferential surface of the hydroponic cultivation portion formed of a cylindrical body, and the plant is inserted into the port insert so that the plant is planted along the outer circumferential surface of the hydroponic cultivation portion in a narrow space. By allowing a large number of plants to be cultivated, it is possible to maximize the utilization of indoor narrow spaces, as well as to be able to grow a large amount of plants in a narrow space.

1 is a perspective view showing a hydroponic cultivation apparatus according to the present invention
Figure 2 is a view showing the hydroponic cultivation separation in the present invention
Figure 3 is a view showing the separation of the support portion in the present invention
Figure 4 is a view showing the separation of the induction guide in the present invention
5 is a schematic front sectional view of the present invention;
6 is a view showing a state in which plants are planted using the present invention;
7 to 8 are photographs taken with the present invention applied to an example

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention provides a device for hydroponic cultivation, as shown in the accompanying drawings, while the hydroponic cultivation unit 100 and the hydroponic cultivation unit 100 to form a cylindrical body while holding and supporting the bottom of the water and the water inside the top Hydroponic cultivation unit 100 and the support unit 200 for receiving a motor pump for pumping to be supplied to the side, while the water received in the support unit 200 is supplied upward while covering the top of the hydroponic cultivation unit 100 It consists of a falling water induction part 300 to guide the free fall from the top to the downward side.

The hydroponic cultivation unit 100 is formed of a cylindrical body, the upper and lower ends are formed to each open and the port insertion opening 110 consisting of a plurality of through holes to the outer peripheral surface is inclined perforated and arranged.

The port insertion opening 110 is applied to the thermoforming in the state that the outer peripheral surface of the hydroponic cultivation 100 in a circular shape, as shown in Figure 2 the shape of the port insertion opening 110 is the outer surface of the hydroponic cultivation 100 Inclined inward to have a shape to be recessed, the end side of the port insertion opening 110 formed a protrusion 120 to protrude in the hydroponic cultivation unit 100 inward direction.

Therefore, as shown in FIG. 6, when the pot 400 planted with the plant is inserted through the pot insert 110, the direction of the plant is inclined upward and the end side of the pot 400 is inserted into the pot insert 110. ) To protrude through the inner end protrusion 120 of the port insertion hole 110 in the inserted state.

As such, as described below, in the state in which the plant 400 is planted in the pot 400 is inserted through the port insertion opening 110, the water freely falling through the drip guide 300 is in the hydroponic cultivation unit 100. Soaking along the end side of the port 400, which protrudes into the protrusion 120 of the port insertion port 110, while free fall along the end of the pot 400 planted plant roots come out to fall It will inhale nourishment from water.

As shown in the drawing, the support part 200 has an outer cylinder 210 for receiving water mixed with nutrient solution therein, and an insertion hole 212 in the center and covers an upper portion of the outer cylinder 210. To support the cover 211, the support plate 220 of the band-shaped seated on the bottom surface of the outer cylinder 210, and the lower end is inserted into the support disc 220, the upper side is the hydroponic cultivation unit 100 ) And a fixture 230 to accommodate the motor pump therein.

In other words, the water is pumped so that the water can be freely dropped to the hydroponic cultivation unit 100 by the operation of the motor pump provided in the support unit 200 in which the mixed nutrient solution is accommodated therein. After flowing to the downfall induction part 300 provided in the, through the downfall induction part 300 has a configuration to allow the water free fall.

On the other hand, the support portion 200 to form the outer cylinder 210 and the cover 211, the center of the cover 211 is provided with a fixture 230 for mounting the hydroponic cultivation portion 100 forming a cylindrical body.

As shown in FIG. 3, the fixture 230 is connected and fixed by a spaced support 234 in which the upper support 231 and the lower support 233 of a circular shape are spaced apart from each other, and the upper support 231. A step 232 toward the outer circumferential surface side of the) so that the lower end of the hydroponic cultivation unit 100 can be seated and supported, and the lower support 233 is in contact with the inner surface of the support disc 220 to fix the fixture 230. ) To prevent fluidity.

Therefore, even if the fixture 230 is inserted into the outer cylinder 210 of the base portion 200, the inner peripheral surface of the strip-shaped support disc 220 provided on the bottom surface of the base portion 200 and the lower edge of the fixture 230 It can be fixed and supported by the support between the earth (233).

The falling water induction part 300 is configured to induce the water induced by pumping from the motor pump accommodated in the outer cylinder 210 of the supporting part 200 to freely drop through the hydroponic cultivation part 100. to be.

As shown in FIG. 4, the downfall induction part 300 having such a role is an upper cover body 310 inserted into the upper part of the hydroponic cultivation part 100 and a spaced apart fixture 320 to the lower end of the upper cover body 310. The nozzle 330 is fixed to be spaced apart by the space but is configured to be smaller than the outer diameter of the upper cover body 310, the hose 330 is fitted to guide the water in the center portion 200 to the center and a plurality of falling holes (341) ) Is made of a lower cover body 340 which is perforated.

On the other hand, it is preferable to form a peripheral edge step 342 so that the height of the peripheral edge side than the upper surface side surface of the lower cover body 340, the image through the nozzle 330 by the peripheral edge step 342. When the water guided in the direction hits the bottom surface of the upper cover body 310 and then flows to the lower cover body 340, the falling water does not flow to the lower cover body 340 outer circumferential side without being discharged to the lower cover body ( It is preferable to make the downfall through the falling hole (341) is a plurality of perforations 340.

Hereinafter will be described the operational relationship of the present invention.

6 is an example of a state in which the pot 400 is planted is inserted into the port insertion opening 110 that is punched in the hydroponic cultivation unit 100 of the present invention hydroponic apparatus.

The lower end side of the hydroponic cultivation unit 100 is seated on the step 232 of the upper support 231 of the fixture 230 accommodated in the base 200, and at the same time the top of the outer cylinder 210 of the base 200 It is inserted into the center side insertion hole 212 of the cover 211 to cover the fixed state.

On the other hand, by supplying a certain amount of nutrient solution to the water accommodated inside the support portion 200 can be made to supply the nutrients required for the plant.

In addition, the outer peripheral surface of the lower support 233 of the fixture 230 is in close contact with the inner circumferential surface of the support disc 220, which is seated in the form of a band on the bottom surface of the outer cylinder 210 constituting the support portion 200, the fixture 230 ).

In this state, the water contained in the support portion 200 is pumped by a motor pump located in the inner center of the fixture 230, the drip induction portion 300 to cover the top side of the hydroponic cultivation unit 100 by a hose The lower cover body 340 is guided to the nozzle 330 is fixed to the center.

The guided water is discharged upward through the nozzle 330, and the discharged water falls after hitting the bottom of the upper cover body 310, and the dropped water falls directly into the hydroponic cultivation unit 100. Instead, it is dispersed and falls through the falling holes 341 of the lower cover body 340.

In addition, the water falling down to the lower cover body 340 flows to the lower edge of the lower cover body 340 and does not fall outwards, and to be able to fall through the downfall hole 341, the lower cover body 340 to the peripheral side The peripheral edge step 342 is integrally formed to prevent the water supplied through the nozzle 330 from falling down to the outer circumference of the lower cover body 340 by the peripheral edge step 342.

As such, the water flowing down through the dripping hole 341 is dispersed and freely falls. The falling water along the insertion end of the port 400 inserted into the port insertion opening 110 side of the hydroponic cultivation unit 100 during the falling process. As the water flows, the root of the plant protruding toward the insertion end of the port 400 is wetted, and the nourishment can be supplied to the plant side.

On the other hand, the fallen water is collected in the support 200 as it is to perform the above series of steps by the pumping motion of the motor pump again.

In addition, the operation time of the motor pump may be controllable through a separate timer.

In addition, in order to enable easy planting of the plant in the pot 400 and to be maintained in a fixed state, it is preferable to insert the cushion member 410 into the pot 400.

Depending on the type of plant that is planted in the pot 400, rotting may occur when the root is always in contact with water. To prevent this, a tubular shape is formed inside the cushion member 410 as shown in FIG. Root protection tube 420 of the, to protect the surrounding and root portion of the plant roots.

100; Hydroponic cultivation 110; Port Insert
120; Protrusion 200; [0030]
210; Outer cylinder 211; cover
212; Insertion hole 220; Support disc
230; Fixture 231; Upper support
232; Step 233; Bottom support
234; Spacing support 300; Drain Guidance Department
310; Upper cover body 320; Spacing fixture
330; Nozzle 340; Bottom cover
341; Droplet 342; Perimeter
400; Port 410; Cushion member
420; Root Protector

Claims (8)

delete Hydroponic cultivation unit 100 and the hydroponic unit is formed by a plurality of spaced apart from the outer circumferential surface through the inlet port 110 to allow the insertion of the port 400 is inserted into the cushion member 410 inside the plant While supporting and supporting the lower end of the cultivation unit 100 and the support unit 200 for receiving a motor pump for supplying the water received inside the hydroponic cultivation unit 100, the upper side, while covering the top of the hydroponic cultivation unit 100 In the indoor hydroponic cultivation device consisting of a falling water induction unit 300 for receiving the water received in the support portion 200 by a motor pump to guide the free fall from the top of the hydroponic cultivation unit 100,
The hydroponic cultivation unit 100 is formed of a cylindrical body and forms a shape in which the upper and lower ends are opened, and the plurality of port insertion openings 110 through the outer circumferential surface are inclined perforated and arranged, and the port insertion opening 110 is a hydroponic cultivation unit ( By applying thermoforming in a state where the outer peripheral surface of the 100 is circularly drilled, the hydroponic cultivation unit 100 is inclined inwardly from the outer surface of the hydroponic cultivation unit 100 so as to have a recessed shape. (100) Indoor hydroponic cultivation apparatus comprising forming a protrusion 120 to protrude inward.
3. The method of claim 2,
The support portion 200 has an outer cylinder 210 for receiving water mixed with nutrient solution therein, and a cover 211 for covering an upper end of the outer cylinder 210 with an insertion hole 212 in the center thereof. And, while the lower end is inserted and supported by the support disk 220 of the band-shaped seated on the bottom surface of the outer cylinder 210, the upper side to support the hydroponic cultivation unit 100 and the inside Indoor hydroponic cultivation apparatus comprising a fixture 230 to accommodate the motor pump.
The method of claim 3, wherein
The fastener 230 is connected and fixed by a spaced support 234 in which the upper end support 231 and the lower end support 233 of a circular shape are spaced apart from each other, and stepped toward the outer circumferential surface side of the upper end support 231. 232 to allow the lower end of the hydroponic cultivation unit 100 to be seated and supported, and the lower support 233 is in contact with the inner surface of the support disc 220 to prevent fluidity of the fixture 230. Indoor hydroponic cultivation apparatus comprising a.
delete 3. The method of claim 2,
Indoor hydroponic cultivation apparatus comprising a root-protection tube 420 of the tubular shape inside the cushion member 410.
3. The method of claim 2,
The falling water induction part 300 is fixed to the top cover body 310 is inserted into the upper portion of the hydroponic cultivation unit 100 and spaced apart by the fixing fixture 320 to the lower end of the upper cover body 310 but the upper cover The lower cover body 340 is provided with a nozzle 330 for fitting the hose to guide the water of the support portion 200 to the center while being configured to be smaller than the outer diameter of the sieve 310 and the plurality of falling holes 341 are perforated. Indoor hydroponic cultivation apparatus comprising a.
The method of claim 7, wherein
Indoor hydroponic cultivation apparatus comprising integrally forming the peripheral edge step 342 so that the height of the peripheral portion side than the upper surface side surface of the lower cover body (340).

Images