KR20210001289A - The self-circulating water available irrigation assembled bench and flower bed kit - Google Patents

Abstract

The present invention relates to a circulating assembly irrigation block bench and flower bed kit capable of self-watering, wherein the circulating assembly irrigation block bench and flower bed kit capable of self-watering comprises: a flower bed block unit providing a plant growing space and a first water storage space for supplying water stored in the plant growing space; a bench block unit coupled to the flower bed block unit and providing a second water storage space for supplying water stored in a seating space and a plant cultivation space; and a lighting block unit formed in any one of the bench block unit and the flower bed block unit, and emits light in a specific color using sunlight.

Description

Circulation-type assembly watering block bench and flower bed kit capable of self-watering {THE SELF-CIRCULATING WATER AVAILABLE IRRIGATION ASSEMBLED BENCH AND FLOWER BED KIT}

The present invention relates to an assembled irrigation block bench and flower bed kit for vegetation management and a comfortable environment in the era of water shortage, lack of management, and lack of green space, and more specifically, circulating water supply by the bench and flower bed itself is possible, and suitable for installation sites. The size and shape of a simple bench and flower bed can be assembled and installed economically, and a circulation-type watering block bench capable of self-watering that can improve the beauty of the surroundings at night by applying solar lighting to the bench and flower bed. It is about a flower bed kit.

Recently, in order to improve the environment, landscaping flower beds in which various kinds of plants are planted are installed on roadsides or parks, and benches are installed so that people can sit and relax near the landscaping flower beds to appreciate the landscape.

Korean Registered Office No. 20-0362946 (2004.09.13) relates to a bench for both flower beds, a plurality of main body supports that are erected by a certain length toward the top from a support plate that is coupled with a plurality of screws to be fixed to the ground, and the main body One side along the length direction of the support is provided with a protruding hole that protrudes more than a certain width from the support plate toward the front side, and a flowerpot forming part located on the upper side of the main body support to plant flowers and flowers on one side, and a number of unspecified on the other side A planter body provided with a seating portion for a person to sit, a body receiving member for selectively installing one of the planter formation portion and the seating portion by removably accommodating the planter body, and a footrest of the user fixedly coupled to the protruding hole It is characterized in that it includes a stepping rod that functions and accommodates the droplet lake and the moisture supply member through the rear incision, and allows it to be withdrawn when necessary.

Korean Patent Registration No. 10-1800756 (2017.11.17) relates to a pull-out chair for installing a flower bed, and a horizontal guide groove is formed on one side of the flower pot, and a seat plate so that a person can sit and rest when the slide is taken out of the guide groove. The guide groove is positioned at the front and rear sides of the plant pots, and the seat plate is slide-coupled to the guide groove, and the guide grooves provided in different directions at the front and the rear of the plant pot cross each other in different vertical positions. And a pair of side flower pots larger than the outer diameter of the flower pot on both sides of the flower pot, and a side guide groove connected to the guide groove on the corresponding surface of the side flower pot centering on one side of the flower pot. To guide and support both side ends of the seat plate to be formed and drawn out, a support member is provided in the middle of the flower pot frame, and side guide grooves are formed on both corresponding surfaces of the support member corresponding to the side flower pot frame, and the side guide The groove is provided with a slide means for guiding the seat plate, wherein the slide means has an elastic restoring force and has a plurality of elastic bodies each of which one end is fixed through a fixed shaft on both sides of the seat plate, and is rotatably coupled to each other end of the elastic body. It is characterized by consisting of a plurality of rollers that are supported and rotated on the bottom surface of.

Korean Registered Office No. 20-0362946 (2004.09.13) Korean Patent Registration No. 10-1800756 (2017.11.17)

An embodiment of the present invention is capable of circulating water supply by itself for vegetation management and a comfortable environment in the era of lack of water, lack of management, and lack of green space, and economical bench and flower beds with a size and shape suitable for installation It is intended to provide a circular assembly watering block bench and flower bed kit that can be assembled and installed efficiently and can be self-watering that can improve the beauty of the surroundings at night by applying solar lighting to the bench and flower bed.

Among the embodiments, a circulation-type assembly watering block bench and flower bed kit capable of self-watering may include: a flower bed block unit providing a plant cultivation space and a first water storage space for supplying water stored in the plant cultivation space; A bench block unit coupled to the flower bed block unit and providing a seating space and a second water storage space for supplying water stored in the plant cultivation space; And a lighting block part formed in one of the bench block part and the flower bed block part, and emitting light in a specific color using sunlight.

Here, the flower bed block unit surrounds the plant cultivation space, includes a double sidewall with an open top surface, and forms the first water storage space between the double sidewalls; A second assembly watering block assembled on an upper end of the first assembly watering block to cover an upper surface of the open double sidewall; It is installed between the plant cultivation space and the first water storage space through the first assembly watering block, and is connected to a flower bed irrigation channel for circulating water between the plant cultivation space and the first water storage space using an osmotic pressure phenomenon. absence; A support member assembled to the first assembly irrigation block to support the lower portion of the plant cultivation space at a predetermined interval from the ground, and to provide an irrigation passage through which water flows into the plant cultivation space; And an absorbing member absorbing water on the upper portion of the support member.

In addition, the first assembly irrigation block is characterized in that it comprises an outlet for exposing the first water storage space at an upper end of the inner side wall of the double side wall. In addition, the first and second assembly watering block is characterized in that the faces corresponding to each other are formed in an uneven shape to be fitted and assembled. The second assembly irrigation block includes a through hole exposing the first water storage space; And an assembly groove into which the lighting block unit is inserted and installed.

The bench block unit assembly seating block providing the seating space; An assembly storage tank block that is assembled under the assembly seating block to provide the second water storage space; An irrigation pipe member installed in the plant cultivation space and including a plurality of irrigation holes for supplying water into the plant cultivation space; And installed between the second water storage space and the inner space of the irrigation pipe member through the assembly water tank block, and installed through the first assembly irrigation block, and the plant cultivation space and the plant using an osmotic pressure phenomenon. It characterized in that it comprises a bench irrigation channel connection member for circulating water between the second water storage spaces.

The bench block unit may further include an automatic irrigation control unit for automatically controlling the supply of water supplied to the irrigation pipe member from the second water storage space through the bench irrigation channel connection member.

The lighting block unit comprises a solar cell that generates power using the sunlight; A charging unit for storing power generated from the solar cell; And a light emitting unit that emits light in a specific color by receiving the stored power.

The disclosed technology can have the following effects. However, since it does not mean that a specific embodiment should include all of the following effects or only the following effects, it should not be understood that the scope of the rights of the disclosed technology is limited thereby.

The circulating assembly watering block bench and flower bed kit capable of self-watering according to an embodiment of the present invention enables circulating water supply on the bench and flower bed itself, and economically efficient bench and flower bed with a size and shape suitable for the installation site. It can be assembled and installed, and lighting using sunlight can be applied to benches and flower beds to improve the beauty of the surroundings at night.

1 is a view illustrating a circulation-type assembly watering block bench and flower bed kit capable of self-watering according to an embodiment of the present invention.
2A to 2D are views illustrating a flower bed block unit illustrated in FIG. 1.
3 is a diagram illustrating a bench block unit shown in FIG. 1.
4 is a diagram illustrating a lighting block unit shown in FIG. 1.

Since the description of the present invention is merely an embodiment for structural or functional description, the scope of the present invention should not be construed as being limited by the embodiments described in the text. That is, since the embodiments can be variously changed and have various forms, the scope of the present invention should be understood to include equivalents capable of realizing the technical idea. In addition, since the object or effect presented in the present invention does not mean that a specific embodiment should include all of them or only those effects, the scope of the present invention should not be understood as being limited thereto.

Meanwhile, the meaning of terms described in the present application should be understood as follows.

Terms such as "first" and "second" are used to distinguish one component from other components, and the scope of rights is not limited by these terms. For example, a first component may be referred to as a second component, and similarly, a second component may be referred to as a first component.

When a component is referred to as being "connected" to another component, it should be understood that although it may be directly connected to the other component, another component may exist in the middle. On the other hand, when it is mentioned that a certain component is "directly connected" to another component, it should be understood that no other component exists in the middle. On the other hand, other expressions describing the relationship between the constituent elements, that is, "between" and "just between" or "neighboring to" and "directly neighboring to" should be interpreted as well.

Singular expressions are to be understood as including plural expressions unless the context clearly indicates otherwise, and terms such as “comprise” or “have” refer to implemented features, numbers, steps, actions, components, parts, or It is to be understood that it is intended to designate that a combination exists and does not preclude the presence or addition of one or more other features or numbers, steps, actions, components, parts, or combinations thereof.

In each step, the identification code (for example, a, b, c, etc.) is used for convenience of explanation, and the identification code does not describe the order of each step, and each step has a specific sequence clearly in context. Unless otherwise stated, it may occur differently from the stated order. That is, each of the steps may occur in the same order as specified, may be performed substantially simultaneously, or may be performed in the reverse order.

The present invention can be embodied as computer-readable codes on a computer-readable recording medium, and the computer-readable recording medium includes all types of recording devices storing data that can be read by a computer system. . Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, and optical data storage devices. Further, the computer-readable recording medium is distributed over a computer system connected by a network, so that the computer-readable code can be stored and executed in a distributed manner.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the field to which the present invention belongs, unless otherwise defined. Terms defined in commonly used dictionaries should be construed as having meanings in the context of related technologies, and cannot be construed as having an ideal or excessive formal meaning unless explicitly defined in the present application.

1 is a view for explaining a circulation-type assembly watering block bench and flower bed kit capable of self-watering according to an embodiment of the present invention.

Referring to FIG. 1, a circulation type assembly watering block bench and flower bed kit 100 capable of self-watering may include a flower bed block unit 110, a bench block unit 130, and a lighting block unit 150. The flower bed block unit 110 provides a plant cultivation space 1 in which plants are cultivated by filling soil and provides a first water storage space 2 for supplying water stored in the plant cultivation space 1. The flower bed block portion 110 may be formed of PS wood or general wood.

The bench block unit 130 is assembled to the flower bed block unit 110 to provide a seating space 3 in which a user can sit, and a second water storage space 4 for supplying water stored in the plant cultivation space 1 Provides. The bench block unit 130 may be formed of PS wood or general wood.

The lighting block unit 150 generates and stores power using sunlight, and drives lighting that emits light in a specific color by using the stored power. The lighting block unit 150 may be installed on at least one of the flower bed block unit 110 and the bench block unit 130.

2A to 2D are views illustrating a flower bed block unit illustrated in FIG. 1.

Referring to FIG. 2A, the flower bed block unit 110 includes a first assembly watering block 210, a second assembly watering block 230, a flower bed irrigation channel connection member 250, a support member 270, and an absorbent member 290. ) Can be included. The first assembly irrigation block 210 surrounds the plant cultivation space 1 of a certain form and includes a double sidewall 211 with an open top surface. The first assembled irrigation block 210 forms a first water storage space 2 inside the double side wall 211 to supply water stored in the first water storage space 2 to the plant cultivation space 1.

That is, the first assembly irrigation block 210 forms a storage tank inside the double sidewall 211 so that water can be supplied to the plant cultivation space 1 by itself. Here, the plant cultivation space 1 may be formed in a rectangular shape on a plane, but is not limited thereto, and may be formed in a circular or polygonal shape.

In addition, the inner sidewall 211a may include an outlet 213 having a predetermined size and a groove 215 connecting the flower bed irrigation path at the upper and lower ends of at least one surface. The discharge port 213 exposes the first water storage space 2 at the upper end of the inner sidewall 211a. Here, the discharge port 213 may be formed at a position of about 1 cm in the direction from the top to the bottom of the inner sidewall 211a. The discharge port 213 discharges excess water to the plant cultivation space 1 to the first water storage space 2, or discharges the water stored in the first water storage space 2 to the plant cultivation space 1 So that the irrigation efficiency can be improved.

The flower bed irrigation path connection groove 215 is formed at the lower end of the inner sidewall 211a, and the flower bed irrigation path connection member 250 is penetrated and inserted. In addition, in an embodiment, the inner and outer side walls 211a and 211b may further include a connection groove 217 on at least one surface of the bench irrigation channel. The bench irrigation channel connection groove 217 is inserted through the bench irrigation channel connection members (330 and 340 of FIG. 3), which will be described below.

In addition, the upper surface of at least one of the inner and outer side walls 211a and 211b may be formed in an uneven shape to be assembled with the second assembly watering block 230 in a fitting manner. In addition, the inner sidewall 211a has a surface corresponding to the plant cultivation space 1 formed in an uneven shape, and thus may be assembled with the support member 270 in a fitting manner.

The second assembly irrigation block 230 is assembled on the top of the first assembly irrigation block 210 to cover the upper surface of the open double sidewall 211 of the first assembly irrigation block 210. The lower surface of the second assembly irrigation block 230 may be formed in an uneven shape to be assembled with the first assembly irrigation block 210 in a fitting manner.

In one embodiment, the first and second assembly irrigation by adding a metal support member (not shown) such as steel inserted through the corners of the first and second assembly irrigation blocks in a vertical direction and coupled to the ground The coupling between the blocks 210 and 230 may be firmly fixed.

The second assembly irrigation block 230 includes at least one through hole 231 and first and second assembly grooves 233 and 235, as shown in FIG. 2B. The through hole 231 is formed to penetrate in the vertical direction, and exposes the first water storage space 2 to allow water such as rainwater to be stored in the water storage space 2.

The first assembly groove 233 is formed at a predetermined height from the upper surface, and the inner surface is formed in an uneven shape, so that the first assembly groove 233 may be assembled in a fitting manner with the lighting block unit 170 in FIG. 1. The second assembly groove 235 is formed on the side of the second assembly watering block 230 and may be coupled to the bench block portion (130 of FIG. 1) through an assembly pin (not shown).

In one embodiment, the second assembly irrigation block 230 is divided into three unit blocks U1 to U3 in the longitudinal direction, a first assembly groove 233 is formed in the central unit block U2, and the rest A through hole 231 may be formed in the other unit blocks U1 and U3.

On the other hand, in one embodiment, the first and second assembly irrigation blocks 210 and 230 are formed to have different widths of the upper, middle, and lower sides, so that the first and second assembly irrigation according to the size of the required plant cultivation space 1 The width of the blocks 210 and 230 can be selected.

In addition, a third assembly watering block (not shown) may be additionally assembled between the first and second assembly watering blocks 210 and 230 to adjust the height of the flower bed block 110 in two or three stages. Here, the upper and lower surfaces of the third assembly watering block are formed in an uneven shape and can be assembled in a fitting manner with the first and second assembly watering blocks 210 and 230, and the upper and lower surfaces of the double sidewalls are opened, or The first water storage space 2 may be exposed using the through hole and the closing cap.

The flower bed irrigation path connection member 250 is inserted and installed in the flower bed irrigation path connection groove 215 and connects the plant cultivation space 1 and the first water storage space 2. The flower bed irrigation path connecting member 250 enables water circulation in both directions between the plant cultivation space 1 and the first water storage space 2 using an osmotic pressure phenomenon. Both ends of the flower bed irrigation channel connection member 250 are open and may be formed of a tube or pipe having a predetermined length.

Here, one end of the flower bed irrigation channel connection member 250 may be installed on the irrigation channel of the support member 270 to directly supply water stored in the first water storage space 2 to the irrigation channel. In addition, it is possible to drip irrigation by connecting a connector (not shown) having a hole of a predetermined size to one end of the connection member 250 through the flower bed irrigation, or by inserting a wick into the inside to perform wick irrigation.

Here, the wick is formed of a special fiber having excellent absorbency or other material having a good absorbent property, and is a member having a rope shape, and is supplied to the plant in a natural absorption method using a capillary phenomenon. In one embodiment, a plurality of wicks may be formed and distributed on the entire surface of the support member 270 to evenly supply moisture.

One embodiment is not limited thereto, and may be formed in a form in which one end of the connection member 250 is branched into two paths through the flower bed irrigation. That is, as shown in FIG. 2C, the flower bed irrigation path connecting member 250 may be formed as a T-shaped tube (or pipe) having three paths S1 to S3.

And, the first path (S1) is arranged in the plant cultivation space (1), the second path (S2) is arranged in the first water storage space (2), and the third path (S3) is adjusted to the valve 250a It is also possible to adjust the flow rate of water supplied to the plant cultivation space (1) by connecting to. Here, the control valve 250a may be installed outside the second assembly irrigation block 230, thereby allowing the user to adjust the flow rate of water from the outside.

The support member 270 supports the plant cultivation space 1, and forms an irrigation channel and a drainage channel. The support member 270 may have a side surface formed in a concave-convex shape to be fitted and assembled to the lower end of the first assembly watering block 210. The support member 270 may be spaced apart from the ground by a predetermined height, including legs. For example, the support member 270 may include a leg of about 10 cm to enable ventilation of the plant cultivation space 1.

Here, the support member 270 includes at least one drain hole 271, a vent hole 273, and a watering groove 275, as shown in FIG. 2D. The drain hole 271 is formed by penetrating through the central portion in the vertical direction, and discharges water inside the plant cultivation space 1 to the outside. The ventilation hole 273 is formed by penetrating in the vertical direction on the front surface, and allows the plant cultivation space 1 to be ventilated. The irrigation groove 275 is formed to have a certain level, and forms an irrigation channel through which water flows into the plant cultivation space 1.

The absorbent member 290 is disposed above the support member 270, absorbs water on the support member 270 and diffuses it to the entire surface, and prevents premature leakage. Here, the absorbent member 290 may be formed of a nonwoven fabric or a sponge material.

3 is a diagram illustrating a bench block unit illustrated in FIG. 1.

Referring to FIG. 3, the bench block unit 130 includes an assembly seating block 310, an assembly water tank block 320, a first bench irrigation channel connection member 330, a second bench irrigation channel connection member 340, and automatic An irrigation control unit 350 and an irrigation pipe member 360 may be included. Assembly seating block 310 provides a seating space (3). The assembly seating block 310 includes at least one top block 311 and a leg block 313. The plurality of upper plate blocks 311 are disposed at predetermined intervals in the plane direction. At least one of the plurality of upper panel blocks 311 may include an insertion groove 311a into which the lighting block unit 150 is inserted.

The plurality of leg blocks 313 support the plurality of upper plate blocks 311, and accommodate a first irrigation channel connection member 330, a second irrigation channel connection member 340, and an automatic irrigation control unit 350 therein. May contain blank spaces.

In one embodiment, the lower surface of the upper plate 311 and the upper surface of the plurality of leg blocks 313 may be formed in an uneven shape to be fitted and assembled with each other. In addition, an iron plate (not shown) supporting a load may be additionally fitted and assembled between the plurality of upper plate blocks 311 and the plurality of leg blocks 313.

The assembly reservoir block 320 is coupled to the assembly seating block 310 to provide a second water storage space 4. The assembly water tank block 320 may be screwed or fitted with the top block 311. The assembled water tank block 320 may be formed in a substantially rectangular cylindrical shape, and may be formed to have the same height as the leg block 313 to bring the bottom surface into contact with the ground. In this case, it is possible to prevent freezing of water stored in the assembled reservoir block 320 by using geothermal heat in winter when the temperature is low.

The assembled water tank block 320 includes a bench irrigation channel connection groove 321 and a water inlet groove 323. A plurality of bench irrigation channel connection grooves 321 are formed on at least one side of the assembly reservoir block 320 so that the first and second bench irrigation channel connection members 330 and 340 are inserted.

The water inlet groove 323 is formed on the front surface of the assembly storage tank block 320 to supply water in the second water storage space 4. The water inlet groove 323 may be formed at a predetermined height of the assembly reservoir block 320 to limit the maximum storage capacity of the second water storage space 4. That is, by setting the maximum storage capacity of the second water storage space 4 with the water inlet groove 323 as the boundary, it is possible to prevent water from overflowing into the upper plate block 311 in the assembled reservoir block 320 during the rainy season. have.

Each of the first and second bench irrigation channel connection members 330 and 340 passes through the bench irrigation channel connection grooves 321 and 217 to connect the second water storage space 4 and the inner space of the irrigation pipe member 360 do. Both ends of the first and second bench irrigation channel connecting members 330 and 340 are open and may be formed of a tube or pipe having a predetermined length.

The first bench irrigation channel connection member 330 circulates water between the plant cultivation space 1 and the second water storage space 4 using the osmotic pressure phenomenon, and the second bench irrigation channel connection member 340 is automatically irrigated. Water stored in the second water storage space 4 is supplied to the plant cultivation space 1 through the control unit 350.

An embodiment of the present invention is not limited thereto, and the first bench irrigation channel connection member 330 is connected to the flower bed irrigation channel connection member (250 in FIG. 2) to store the first water storage space 2 and the second water. Watering efficiency can be improved by supplying all of the water stored in the space 4 to the plant cultivation space 1. In addition, the first bench irrigation path connection member 330 and the flower bed irrigation path connection member 250 are connected, and the first bench irrigation path connection member 330 and the flower bed irrigation path are connected using a control valve (250a in FIG. 2). The total flow rate of water supplied to the plant cultivation space 1 may be adjusted through the connection member 250.

The automatic irrigation control unit 350 automatically controls the supply of water supplied to the irrigation pipe member 360 from the second water storage space 4 through the second bench irrigation channel connecting member 340. The automatic irrigation control unit 350 may supply water from the second water storage space 4 to the irrigation pipe member 360 according to a preset time and supply amount. To this end, the automatic irrigation control unit 350 is electrically connected to the lighting block unit 150 to receive power, and may include a timer (not shown) and a pump (not shown) for setting a time.

The irrigation pipe member 360 is installed in the plant cultivation space 1 in a vertical direction and provides water supplied from the second water storage space 4 to the plant cultivation space 1. One embodiment is not limited thereto, and liquid fertilizer for plant nutrition may be added to the irrigation pipe member 360 and provided to the plant cultivation space 1.

The irrigation pipe member 360 includes a lid 361, a pipe body 363, a bottom body 365 and an irrigation hole 367. The lid 361 is coupled to the upper end of the pipe body 363 to prevent foreign matter from entering the pipe body 363. The pipe body 363 has a certain length and is formed in a tube shape with an empty inside.

The bottom body 365 is coupled to the lower end of the pipe body 363, and soil and water are accommodated therein. In one embodiment, a water meter or a stick may be inserted into the bottom body 365 to check the moisture in the lower part of the plant cultivation space 1. The irrigation hole 367 is formed through the pipe body 363.

4 is a diagram illustrating a lighting block unit illustrated in FIG. 1.

Referring to FIG. 4, the lighting block unit 150 includes a solar cell 410, a charging unit 430, a power supply unit 450, and a light emitting unit 470. The solar cell 410 generates power using sunlight. The solar cell 410 may be installed on at least one of the flower bed block unit 110 and the bench block unit 130, and an embodiment of the present invention is not limited thereto, and can be assembled to the bench block unit 130. It may be installed on the top of the shade curtain (not shown).

The charging unit 430 stores power generated from the solar cell 410. The power supply unit 450 selectively supplies power stored in the charging unit 430 to the light emitting unit 470. The power supply unit 450 may supply power to the light emitting unit 470 for a preset time. An exemplary embodiment is not limited thereto, and power may be supplied to a USB terminal (not shown) through which the power unit 450 is exposed to the outside. The light-emitting unit 470 receives power from the power supply unit 450 and emits light in a specific color. Here, the light-emitting unit 470 may include an LED device or the like. In addition, the light-emitting unit 470 may emit light by receiving power from a street light power source other than the power source 450.

In an embodiment, a heating wire (not shown) may be added to the inside of the lighting block unit 150 to prevent freezing of water supplied to the plant cultivation space 1 in winter when the temperature is low.

Although the above has been described with reference to preferred embodiments of the present invention, those skilled in the art will variously modify and change the present invention within the scope not departing from the spirit and scope of the present invention described in the following claims. You will understand that you can do it.

100: Self-watering circulating watering block bench and flower bed kit
110: flower bed block portion 130: bench block portion
150: lighting block unit

Claims (8)

A flower bed block unit providing a plant cultivation space and a first water storage space for supplying water stored in the plant cultivation space;
A bench block part coupled to the flower bed block part and providing a seating space and a second water storage space for supplying water stored in the plant cultivation space; And
It is formed in any one of the bench block part and the flower bed block part, and includes a lighting block part that emits light in a specific color using sunlight.
The method of claim 1, wherein the flower bed block portion
A first assembly irrigation block surrounding the plant cultivation space, including a double sidewall having an open top surface, and forming the first water storage space between the double sidewalls;
A second assembly watering block assembled on an upper end of the first assembly watering block so as to cover the upper surface of the open double sidewall;
It is installed between the plant cultivation space and the first water storage space through the first assembly watering block, and is connected to a flower bed irrigation channel for circulating water between the plant cultivation space and the first water storage space using an osmotic pressure phenomenon. absence;
A support member assembled to the first assembly irrigation block to support the lower portion of the plant cultivation space at a predetermined interval from the ground, and to provide an irrigation passage through which water flows into the plant cultivation space; And
Self-supplying water circulation type assembly irrigation block bench and flower bed kit, characterized in that it comprises an absorbing member for absorbing water above the support member.
The method of claim 2, wherein the first assembly watering block
A circulation type assembly watering block bench and flower bed kit capable of self-watering, characterized in that it comprises an outlet for exposing the first water storage space at an upper end of the inner side wall among the double side walls.
According to claim 2, wherein the first and second assembly watering blocks are self-watering circulation type assembly watering block bench and flower bed kit, characterized in that the surfaces corresponding to each other are formed in a concave-convex shape and fitted and assembled.
The method of claim 2, wherein the second assembly watering block
A through hole exposing the first water storage space; And
Self-watering circulating assembly watering block bench and flower bed kit, characterized in that it comprises an assembly groove into which the lighting block unit is inserted.
The method of claim 1, wherein the bench block portion
An assembly seating block providing the seating space;
An assembly reservoir block that is assembled under the assembly seating block to provide the second water storage space;
An irrigation pipe member installed in the plant cultivation space and including a plurality of irrigation holes for supplying water into the plant cultivation space; And
It is installed between the second water storage space and the inner space of the irrigation pipe member by penetrating the assembly water tank block, and is installed through the first assembly irrigation block, and the plant cultivation space and the agent using an osmotic pressure phenomenon. 2 Circulation type assembly watering block bench and flower bed kit capable of self-watering, characterized in that it includes a bench irrigation channel connection member for circulating water between water storage spaces.
The method of claim 6, wherein the bench block portion
An automatic irrigation control unit for automatically controlling the supply of water supplied to the irrigation pipe member from the second water storage space through the bench irrigation channel connection member. And flowerbed kit.
The method of claim 1, wherein the lighting block unit
A solar cell generating power using the sunlight;
A charging unit for storing power generated from the solar cell; And
Self-watering circulating assembly watering block bench and flower bed kit, characterized in that it comprises a light emitting unit that emits light in a specific color by receiving the stored power.

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