JPH09238586A - Water supply device and parts for it - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a water supply device capable of automatically and surely watering a plant planted in a flowerpot for a long period and suppressing the generation of an alga and slime in a liquid stored in a water storage container for a long period. SOLUTION: The water supply device is constituted of the water storing container 10 (A), a water gathering part 21 and an air gathering part 22 extended from the part 21, the lower end of the part 21 is provided with a water discharging port 23 and the side wall of the hollow member 20 is provided with a water guiding port 24 (B), a rod-shaped liquid bleeding member 30 consisting of felt having one tip inserted to the soil for bleeding the liquid and the other tip inserted to the port 23 of the hollow member (C), a water supply pipe 40 connecting the port 24 of the hollow member 20 and the water storing container 10 (D) and a copper ion generating source 50 arranged in the water storing container 10 (E) are provided.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water supply device and a part for a water absorption device for automatically supplying water to a plant planted in a flowerpot for a long period of time.

[0002]

2. Description of the Related Art There are known various water supply devices for automatically supplying water to plants planted in flowerpots over a long period of time. For example, in JP-A-55-78, one or a plurality of water-permeable pipes having a large number of capillaries are embedded in the cultivated soil of a flower pot, and a container having a water level lower than that of the water-permeable pipes There is disclosed a water supply device in which water is connected to a cultivated soil through a water permeable pipe. In this water supply device, the water absorption action of the crop advances and the cultivation soil becomes negative pressure, so that the water in the container leaks into the cultivation soil through the water supply pipe and the water permeable pipe.

Alternatively, in Japanese Utility Model Publication No. 3-13169, a porous ceramic cup is inserted into the soil,
An automatic irrigation device is disclosed in which water in a water storage portion is infiltrated into the soil from the surface of a ceramic cup by utilizing the water absorption of the soil. Further, in Japanese Patent Publication No. 56-15202, when the liquid flows out through the porous wall of the hollow body which is filled with the liquid and hermetically closed, a negative pressure is generated inside the hollow body, and as a result, A water supply device of the type in which liquid is sucked from a liquid container into a hollow body is disclosed.

[0004]

In these water supply devices, air that has been dissolved in water becomes bubbles due to changes in air temperature and water temperature, and as a result of blocking the water supply pipe, liquid from the water storage container into the soil is blocked. The supply may be stopped. There is also a problem that the amount of water infiltrating from the porous ceramic is small and the soil is not sufficiently wet. in addition,
The water in the water storage container is usually used for one week or more without being replaced, and thus bacteria and the like propagate, so that the water in the water storage container rots and algae, slime and the like are generated. As a result, there are problems that the water supply pipe is blocked and the porous material is clogged.

Therefore, it is an object of the present invention to, for example, automatically and reliably supply water to a plant planted in a flowerpot over a long period of time, and further to provide a liquid stored in a water storage container for a long period of time. An object of the present invention is to provide a water supply device that can reliably suppress the generation of algae, slime, and the like, and a water supply device component used in such a water supply device.

[0006]

Means for Solving the Problems A water supply device of the present invention for achieving the above object comprises (a) a water storage container, (b) a liquid reservoir, and an air reservoir extending from the liquid reservoir. A hollow member having a drainage port provided at the lower end of the liquid reservoir and a water guide port communicating with the liquid reservoir at the side wall, and (c) one end for exuding the liquid into the soil Is inserted into the soil, and the other end is inserted into the drainage port of the hollow member, the rod-shaped liquid exuding member made of felt,
(D) A water supply pipe connecting the water inlet of the hollow member and the water storage container, and (e) a copper ion generation source arranged in the water storage container.

A part for a water supply apparatus of the present invention for achieving the above object is (a) a liquid pool portion and an air pool portion extending from the liquid pool portion, and the lower end of the liquid pool portion. Is provided with a drainage port, and a side wall is provided with a water guide port communicating with the liquid reservoir. (B) One end is inserted into the soil to exude the liquid into the soil, and the other end is A rod-shaped liquid exuding member made of felt inserted into the drain port of the hollow member, and (c) a water supply pipe having one end connected to the water inlet of the hollow member and the other end to which a copper ion generation source is attached. It is characterized by consisting of.

In the water supply device or the parts for a water supply device of the present invention, it is preferable that a bellows type pump for absorbing the liquid in the water storage container into the liquid reservoir is provided at the top of the hollow member. With such a configuration, the liquid in the water storage container can be easily supplied to the liquid reservoir of the hollow member. The type of the pump is not limited to the bellows type, and for example, a teat type pump similar to that used in a dropper can be used. Alternatively, in some cases, the air reservoir is provided with a hole, and the hole is usually closed by a cap. Then, the cap may be removed and the air may be allowed to escape from the hole before air is accumulated in the air reservoir and air may be mixed in the water supply pipe.

In the water supply device of the present invention, it is preferable that one end of the water supply pipe extends into the water storage container, and a copper weight that is a copper ion generation source is attached to one end of the water supply pipe. Alternatively, in the parts for a water supply device of the present invention,
The copper ion generation source is preferably a copper weight. The shape of the weight may be an arbitrary shape such as a pipe shape, a plate shape, or a coil shape. The size (weight) of the weight may be such that one end of the water supply pipe is reliably positioned near the bottom of the water storage container.

Further, in the water supply device of the present invention, it is preferable that a flower pot mounting portion is provided above the water storage container. With such a structure, a place for storing the water storage container can be secured. Furthermore, with such a structure, the liquid level of the water storage container is lower than that of the water drain hole provided at the bottom of the flower pot. As a result, since the siphon is formed via the water supply pipe, it is possible to prevent water leakage from the water drain hole provided at the bottom of the flower pot.

If a groove is provided in the flower pot mounting portion and a receiving container is arranged at the end of the groove, when excess water is poured into the flower pot from the outside, the injected water will reach the bottom of the flower pot. It flows into the receiving container through the groove from the provided drainage hole. Therefore, it is possible to prevent the injected water from entering the water storage container and preventing the water from leaking to the outside. Furthermore, the injected water is a liquid exuding member, a hollow member,
Even if it is likely that the water supply pipe will flow backward and overflow from the water storage container, it will flow into the receiving container via the overflow port that connects the water storage container and the receiving container, preventing it from leaking to the outside. be able to.

In the water supply device or the parts for a water supply device of the present invention, the density of the liquid exuding member is 0.45 to 0.5.
It is 5 g / cm ³ and the other end of the liquid exuding member preferably extends into the hollow member. If the density of the liquid exuding member is less than 0.45 g / cm ³ , the liquid exuding member may be damaged when the liquid exuding member is inserted into the soil. Alternatively, when the liquid in the water storage container is sucked into the liquid reservoir of the hollow member by using a pump because the air permeability is too good, the water sealing state of the liquid exuding member may not be maintained and water absorption may become impossible. . When the density of the liquid exuding member exceeds 0.55 g / cm ³ , the liquid may not sufficiently exude from the liquid exuding member. By extending the other end of the liquid exuding member into the hollow member, the area where the liquid exuding member comes into contact with the liquid in the liquid pool portion is increased, and the liquid can be exuded from the liquid exuding member without fail. It is possible to extend the period until the member becomes unusable due to clogging or the like, and it is possible to reliably supply water over a long period of time.

The water reservoir may be made of glass, plastic or metal in a desired shape. Also, the hollow member
It may be formed in a desired shape from glass, plastic, or metal, but among them, it is preferably formed from transparent plastics such as polypropylene, acryl, polyethylene, and ABS. The felt that constitutes the liquid exuding member can be made of, for example, acrylic fiber, polypropylene fiber, polyester fiber, nylon fiber, or glass fiber. The cross-sectional shape of the liquid exuding member is circular, rectangular,
It may have any shape such as a polygon, and the drainage port of the hollow member may be provided in accordance with the cross-sectional shape of the liquid exuding member. The water supply pipe may be made of, for example, vinyl chloride, polyethylene, Teflon, silicone, or the like, and may be colored. However, it is preferable that the water supply pipe has transparency in order to confirm whether or not water is supplied reliably. The liquid may be any kind of liquid suitable for growing plants,
Most preferably water is used.

In principle, in the water supply device or the parts for a water supply device of the present invention, as in the case of the conventional water supply device described above, the liquid in the water storage container is supplied by utilizing the water absorbing power of the soil. It exudes into the soil through the pipe, the liquid reservoir of the hollow member, and the liquid exuding member. In the present invention, the liquid in the water storage container is introduced into the liquid reservoir of the hollow member, and even if the air dissolved in the liquid becomes bubbles, it is stored in the air reservoir of the hollow member. Therefore, it is possible to effectively prevent the water supply pipe from being blocked by such bubbles. Further, by forming the liquid exuding member from felt, the liquid can be exuded appropriately and a high water sealing property can be obtained. Further, copper ions can effectively prevent bacteria and the like from propagating in the water in the water storage container and spoiling the water or generating algae, slimes and the like. As a result, it is possible to avoid the problem that the water supply pipe is blocked and the liquid exuding member is clogged.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described based on embodiments with reference to the drawings. In the examples, water was used as the liquid.

The water supply device of the present invention is schematically shown in FIG.
In addition, in FIG. 1, in order to help understanding of the water supply apparatus of the present invention, some of the constituent elements are cut out. The water supply device of the present invention includes a water storage container 10 made of glass for storing water,
A hollow member 20 made of transparent plastic (composition: polypropylene) and having a substantially cylindrical shape, a rod-shaped liquid exuding member 30 made of an acrylic fiber felt, a transparent vinyl chloride water supply pipe 40, and a water storage container 10 A copper ion source located at. The hollow member 20 includes the liquid pool 2
1 and an air reservoir 22 extending upward from the liquid reservoir. A drain port 23 is provided at the lower end of the liquid pool 21, and a water guide port 24 communicating with the liquid pool 21 is provided on the side wall of the hollow member 20. One end of the liquid exuding member 30 is inserted into the soil in order to exude the liquid (water) into the soil. On the other hand, the other end of the liquid exuding member 30 is inserted into the drain port 23 of the hollow member 20 and extends to the liquid pool 21 of the hollow member 20. Water supply pipe 4
0, the water inlet 24 of the hollow member 20 and the water storage container 10
Is tied to.

In the embodiment, a bellows type pump 25 is arranged at the top of the hollow member 20. Specifically, the lower part of the pump 25 and the upper open end of the hollow member 20 are fitted together. By disposing the pump 25,
The liquid (water) in the water storage container 10 can be easily absorbed in the liquid reservoir 21. The pump 25 is made of soft polyethylene.

One end of the water supply pipe 40 extends into the water storage container 10. A weight 50 made of copper, which is a copper ion generation source, is attached to one end of the water supply pipe 40. Weight 5
0 is a copper pipe engaged with the outside of the water supply pipe 40.

On the upper part of the water storage container 10 is a flower pot mounting portion 11
Is provided, and the flowerpot 6 is placed on the flowerpot mounting portion 11.
0 is placed.

In the embodiment, the bottom surface 2 of the hollow member 20 is used.
The length from 6 to the top surface of the pump 25 was 47 mm, and the inner diameter of the hollow member 20 was 13 mm. In addition, the water conduit 24
Is provided 6 mm above the bottom surface 26. It has a circular cross-section and is made of acrylic fiber and has a density of 0.4.
Liquid exudate member 3 made of rod-shaped felt 8 g / cm ³
0 was used. The diameter of the liquid exuding member 30 in the portion to be inserted into the soil was 6 mm. On the other hand, the diameter of the liquid exuding member 30 extending into the hollow member 20 was set to 5 mm.
In addition, the diameter of the drain port 23 provided in the hollow member 20 is 5 m.
m. A ring-shaped protrusion 27 extending downward is provided on the outer side of the bottom surface 26 of the hollow member 20. The inner diameter of the protrusion 27 was 6 mm. By providing the hollow member 20 with such a structure and providing the liquid exudation member 30 with a step, the other end of the liquid exudation member 30 can be extended into the hollow member 20 by a prescribed length. In the example, the length of the liquid exuding member 30 protruding from the hollow member 20 was 40 mm. In addition, the length of the portion of the liquid exuding member 30 extending into the hollow member 20 was set to 18 mm.

The outline of the method of using the water supply device of the present invention will be described below.

First, after the liquid exuding member 30 is sufficiently moistened with water, the water storage container 10 and the hollow member 2 are brought into the state shown in FIG.
0, the liquid exuding member 30, the water supply pipe 40, the weight 50, and the flowerpot 60 are arranged. In this state, the water is the hollow member 2
0 and the water supply pipe 40 do not flow into the hollow member 20.
The inside and the inside of the water supply pipe 40 are empty.

Next, the bellows type pump 25 is pushed downward by hand, and then the hand is released from the pump 25. When the pump 25 is restored to its original shape, the water in the water storage container 10 is replaced by the water supply pipe 4
From the water inlet 24 to the liquid reservoir 2 of the hollow member 20.
It is sucked up to 1. In addition, since the liquid exuding member 30 is sufficiently moistened in advance, the liquid exuding member 30 retains a water sealing property. Therefore, the water in the water storage container 10 is filled with the hollow member 2
The liquid can be surely sucked up into the liquid pool 21 of 0.
After that, the water in the water storage container 10 can be automatically exuded into the soil through the water supply pipe 40, the liquid pool 21 of the hollow member 20, and the liquid exudation member 30 by utilizing the water absorption of the soil. it can.

When the water supply device of the present invention is used for a long period of time, the air dissolved in the water becomes bubbles due to changes in the air temperature and the water temperature, and the air starts to accumulate in the air reservoir 22 of the hollow member 20. In this case, when the liquid level of the liquid pool 21 is above the water guide port 24, the air stored in the air pool 22 is pushed to the liquid pool 21 by guiding the pump 25 downward by hand. It is discharged from the water storage container 10 to the outside of the system via the water outlet 24 and the water supply pipe 40. When the pump 25 is released, when the pump 25 returns to its original shape, the water in the water storage container 10 is sucked up from the water guide port 24 to the liquid pool 21 of the hollow member 20 via the water supply pipe 40.
Since the liquid exuding member 30 is sufficiently wet, the liquid exuding member 30 retains the water sealing property.

In the water supply system of the embodiment, when 1 liter of water is put in the water storage container 10, it is used for 1-2 weeks in summer.
For 1-2 months in the winter without replenishing water,
It was possible to automatically irrigate the soil without clogging the water supply pipe 40 and the liquid exuding member 30. still,
The liquid exuding member 30 made of felt could be used without clogging even after 3 months or 6 months depending on conditions.

The present invention has been described above based on the preferred embodiments, but the present invention is not limited to these. The structure and material, size and dimension of the hollow member 20, the structure and type of the pump 25, and the liquid exuding member 3 described in the embodiment.
The structure and material, size and size of 0, and the structure and material of the water storage container 10 are all examples, and can be appropriately changed.
In some cases, the water supply pipe or the water storage container may be colored in green in order to more effectively prevent the generation of algae or the like in the liquid.

For example, instead of the bellows type pump 25, a rubber teat type pump 25A can be used as shown in a schematic end view in FIG. As the pump 25A, for example, a pump attached to the upper end of the dropper can be used. In the example shown in FIG. 2, the other end of the liquid exuding member 30 does not extend into the hollow member 20.

Alternatively, as shown in a schematic end view in FIG. 3, an air vent hole 70 is formed in the upper portion of the air reservoir 22.
Is normally provided, and the hole 70 is normally closed by a cap 71 that is screwed onto the upper portion of the hollow member 20. When air is stored in the air reservoir 22, the cap 71 may be removed to let the air escape from the hole 70. In the case of such a structure, at the start of use of the water supply device, the liquid may be injected into the hollow member 20 through the hole 70 to fill the hollow member 20 and the water supply pipe 40 with the liquid.
Alternatively, as shown in the schematic end view in FIG. 4, the hinge 73 and the lid 72 are integrally formed from the upper end of the air reservoir 22 with the upper portion of the air reservoir 22 as the open end.
Then, normally, the lid 72 is closed and the air reservoir 2
When air is stored in 2, the lid 72 may be opened to allow air to escape from the air reservoir 22.

Further, as shown in a schematic end view in FIG. 5, the liquid exuding member 30 is shaped to have a constant diameter without steps, and a stopper 80 extending inward from the side wall of the hollow member 20 is formed as the hollow member 20. It may be integrally molded. An opening 81 is provided in the stopper 80. Stopper 8
By providing 0, the other end of the liquid exuding member 30 can be extended into the hollow member 20 by a specified length. If the axis of the liquid exuding member 30 and the axis of the pump 25 are not aligned and the top surface is provided above the air reservoir 22 on the axis of the liquid exuding member 30, the formation of the stopper 80 can be omitted. . That is, if the liquid exuding member 30 is inserted into the hollow member 20 through the drain port 23 and the top surface of the liquid exuding member 30 is abutted against the top surface of the air reservoir 22, the other end of the liquid exuding member 30 is defined. Can be extended into the hollow member 20.

Further, as shown in the schematic sectional view of FIG. 6, if the groove 12 is provided in the flower pot mounting portion 11 and the receiving container 13 is arranged at the end of the groove 12, the flower pot 60 should be prepared. When excess water is injected from the outside, the injected water flows into the receiving container 13 through the groove 12 from the drain hole provided at the bottom of the flower pot. Even if leaked water leaks out through the drainage hole at the bottom of the flower pot, it can be prevented from leaking to the outside. Further, even when the injected water flows back through the liquid exuding member, the hollow member, and the water supply pipe and is likely to overflow from the water storage container, the overflow port 14 for communicating the water storage container 10 and the receiving container 13 with each other. Since it flows into the receiving container 13 via the, it can be prevented from leaking to the outside.

[0031]

In the water supply device or the parts for a water supply device of the present invention, even if the air dissolved in the liquid becomes bubbles, the water supply pipe can be effectively prevented from being blocked by the bubbles. Therefore, it is possible to irrigate the soil reliably and continuously. Further, since the liquid exuding member is made of felt, the liquid can be exuded appropriately and a high water sealing property can be obtained. Further, it is possible to effectively prevent the bacteria, etc., from breeding in the water in the water storage container, causing the water to rot or generating algae, slime, etc., as a result of which copper ions can be effectively blocked. The problem that the liquid exuding member is clogged can be avoided, and the liquid can be exuded into the soil automatically and stably over a long period of time. Furthermore, since the liquid is not forcibly supplied into the soil, it is possible to effectively prevent root rot from occurring. Further, in the present invention, since the liquid exuding member made of felt is used, it is possible to make the size smaller than that of producing the liquid exuding member from a porous ceramic or the like. The device can be used.

[Brief description of drawings]

FIG. 1 is a schematic view in which a part of a water supply device and parts for a water supply device of the present invention is cut away.

FIG. 2 is an enlarged schematic end view of a part of the water supply device component of the present invention having a different form from FIG.

FIG. 3 is an enlarged schematic end view of a part of the water supply device component of the present invention, which is different from FIG.

FIG. 4 is an enlarged schematic end view of a part of a component for a water supply device of the present invention having a different form from that of FIG.

FIG. 5 is an enlarged schematic end view of a part of the component for a water supply device of the present invention having a different form from that of FIG.

FIG. 6 is a schematic view in which a part of a water supply device of the present invention having a different form from FIG. 1 is cut away.

[Explanation of symbols]

 10 Water Storage Container 11 Flower Pot Placement Section 12 Groove 13 Receiving Container 14 Overflow Port 20 Hollow Member 21 Liquid Reservoir 22 Air Reservoir 23 Drainage Port 24 Water Intake 25, 25A Pump 26 Bottom 27 Projection 30 Liquid Exudation Member 40 Water Supply Pipe 50 Weight 60 Flower pot 70 Hole for venting air 71 Cap 72 Lid 72 Hinge part 80 Stopper 81 Opening part

Claims (9)

[Claims] 1. A storage container comprising: (a) a water storage container; (b) a liquid reservoir and an air reservoir extending from the liquid reservoir, and a drain port is provided at a lower end of the liquid reservoir, and a side wall. A hollow member provided with a water inlet communicating with the liquid reservoir, (c) One end is inserted into the soil to exude the liquid into the soil, and the other end is inserted into the drain of the hollow member. Was
A rod-shaped liquid exuding member made of felt, (d) a water supply pipe connecting the water inlet of the hollow member and the water storage container, and (e) a copper ion generation source arranged in the water storage container. Water supply device. 2. The water supply device according to claim 1, wherein a bellows type pump for absorbing the liquid in the water storage container into the liquid reservoir is provided at the top of the hollow member. 3. The water supply pipe according to claim 1, wherein one end of the water supply pipe extends into the water storage container, and a weight made of copper, which is a source of copper ions, is attached to one end of the water supply pipe. Water supply device. 4. The water supply device according to claim 1, further comprising a flower pot mounting portion provided on an upper portion of the water storage container. 5. The density of the liquid exuding member is 0.45 to 0.5.
5 g / cm ³ , and the other end of the liquid exuding member extends into the hollow member.
The water supply device according to any one of 1. (A) A liquid reservoir and an air reservoir extending from the liquid reservoir, a drain port is provided at a lower end of the liquid reservoir, and the liquid reservoir is provided on a side wall. A hollow member provided with a water inlet communicating with, (b) one end inserted into the soil for exuding liquid into the soil, and the other end inserted into the drain of the hollow member,
A rod-shaped liquid exuding member made of felt, and (c) a water supply pipe having one end connected to the water inlet of the hollow member and the other end to which a copper ion generation source is attached. parts. 7. A component for a water supply device according to claim 6, wherein a bellows type pump for absorbing the liquid in the water storage container into the liquid reservoir is arranged at the top of the hollow member. . 8. The water supply device component according to claim 6 or 7, wherein the copper ion generation source is a copper weight. 9. The density of the liquid seepage member is 0.45 to 0.5.
It is 5 g / cm ³ , and the other end of the liquid exuding member extends into the hollow member.
A part for a water supply device according to any one of 1.