JP2009165453A - Planter with automatic water-supply function - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device intended for solving an operation trouble of a device having an automatic bottom water-supply function, and at the same time, excellent in a cost aspect and designability. <P>SOLUTION: This device comprises forming a wall surface 1-1 of a planter case 1 in a dual structure, using the inside as a water storage tank 2, and setting a partition to divide the planter case 1 in two. One of space 1-2 (first part) divided in two becomes a setting place for a flower pot, and the other space 1-3 (second part) becomes a water intake in a constantly opening condition and water is supplied therefrom to the water storage tank 2. The water storage tank 2 and the second part 1-3 are connected each other in space by a flow hole 2-1. Furthermore, the device comprises setting a partition flow hole 2-1 on the lower part of the partition so that water in the second part 1-3 can move to the first part 1-2 when the partition flow hole 2-1 opens, and setting a duct 5 followed by sealingly attaching the end of the duct 5 to a vent hole 1-4 set on the upper part of the water storage tank 2, and arranging the other end to place near the bottom of the first part 1-2. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a planter having a function of automatically supplying water to a bottom surface of a flower pot installed at a predetermined position in a case.

  Normally, watering plants planted in a flower pot is done by sprinkling water over the soil. On the other hand, if the flowerpot is placed in water at an appropriate depth, the plant absorbs only the necessary amount of water from the roots. This is the idea of bottom water supply. A planter that houses one or more flower pots, applying the concept of water supply from the bottom to automatically maintain the water in the water tank so that a constant water level is maintained in the planter. Various devices have been proposed that have the function of replenishing the flower pot housing, and some of them have become commodities. The greatest advantage of these devices is that they do not require watering for a long time and are effective in growing healthy plants.

  Conventionally, the elements common to this type of device are a planter case, a water storage tank installed inside and outside the planter case, a water outlet with an opening / closing device provided in the lower part of the water storage tank, and an upper part of the water storage tank. And a water supply opening with a switchgear provided.

  The operating sequence of these devices is to first open the water supply port, simultaneously close the water outlet, and supply water from the water supply port into the water storage tank. When the water supply is finished, close the water supply port and then open the water supply port. As a result, the water in the water supply tank flows into the planter case, the water level rises, and when the water outlet becomes below the water surface, the water supply from the water supply tank is stopped and a constant water level is maintained. This is because the upper space in the water supply tank is almost in a vacuum state.

  Next, the plants in the flower pots installed in the planter case consume water, and as a result, the water level drops, and when the water outlet is exposed to the outside air, water starts to drain from the water storage tank again, and the water outlet is below the surface of the water. Flooding continues until By repeating this, the constant water level in the planter case is maintained until there is no water in the water storage tank. This is the concept common to automatic bottom surface water supply devices.

  There are two major problems common to the aforementioned devices. One is that the switchgear is located at two locations, the water supply port and the water discharge port. However, the procedure for opening and closing the water supply port and the water discharge port must be performed in order before and after the water supply operation. It means that it is a work to be done. The other is that the water supply opening / closing device is required to have a level of airtightness that does not leak air, and is limited to a method such as a screw-type cap due to cost limitations. As a result, the area and shape of the water supply port are limited, and the water supply work is also taken care of when the apparatus is placed indoors or in an environment where water should not be leaked to the outside. The impact of these issues is not small for the spread of this type of device. It is an object of the present invention to solve the above problems.

  The wall of the planter case has a double structure, and the internal sealed space is a water storage tank. In addition, a partition wall that bisects the inside of the planter case is provided. One of the bisected spaces (first part) is a place where one or more flower pots (types having drain holes on the bottom) are installed. The other space (second part) is a water supply port that is always open and supplies water to the water storage tank. The water storage tank and the second portion are spatially connected by a water passage hole provided in a lower portion of the water storage tank facing the second portion. That is, even though the water storage tank is sealed, it is exceptionally released to the space of the second part through the water passage hole, and water can be circulated. Next, a partition water passage hole is provided in a lower portion of the partition wall, and an opening / closing device is provided thereon. When the partition hole is opened, the water in the second part can move to the first part. Further, a duct is provided, and the duct is hermetically attached to a vent hole provided in the upper part of the water storage tank so that the end of the duct communicates with the upper space in the water storage tank. Further, the other end portion of the duct is disposed so as to be positioned near the bottom surface of the first portion. The role of this duct is to form an air passage that leads from the upper part of the internal space of the water storage tank to the vicinity of the bottom surface of the first part. This duct is therefore also an exception for the sealing of the water tank. The important difference between the two exceptions is that the water vent is provided in the second part and the other end, which is the air intake of the duct, is provided in the first part.

  With the structure as described above, when water is supplied from the water supply port with the partition water passage hole closed, water flows from the second part into the water storage tank via the water passage hole, and the second part. And the water accumulates in the water storage tank while maintaining the same water level. When the opening / closing device is operated to open the partition water passage hole after the water supply is completed, the water in the second part first flows out to the first part through the partition water passage hole. If the amount of water in the second part is insufficient, the water in the water supply tank flows into the second part and is always replenished. When the water level of the first part is higher than the other end of the duct and as a result the upper space in the water storage tank and the outside air are shut off, the inflow of water from the water supply tank to the second part stops, Accordingly, the inflow of water from the second part to the first part is stopped. The water level at that time is a constant water level, but the water level in the second part is also a constant water level. Accordingly, the constant water level is determined by the height position of the other end of the duct. Next, when the plant consumes water, the water level of the first part is lowered and the other end of the duct is exposed to the outside air. As a result, the path between the upper space in the water storage tank and the outside air passes, and atmospheric pressure acts on the water in the water storage tank. Then, the water in the water storage tank starts to flow out again to the first part via the second part. By repeating the above process, the constant water level is maintained until there is no water in the water storage tank.

As described above, in the device according to the present invention, the switchgear is provided in one place, and the operation during the water supply operation is very simple. The reason why this is realized will be described.
The water tank and the second part of the planter case are spatially integrated by providing a water passage hole. The second part is also a second water storage tank and at the same time a water supply port in a conventional similar device. However, this water supply port is always open and does not require switching between opening and closing as in the conventional similar device. Here is the point to understand the superiority of the present invention. Water supply work by a person is not performed directly on the water storage tank, but water is first injected into the second portion from above. The injected water passes through the water passage hole in the lower part and flows into the water storage tank. This is possible because the upper space of the water storage tank is in contact with the outside air through the duct. When the partition hole is opened at the time when the water supply is completed, the inflow of water into the first part continues until the first part and the second part reach a constant water level as described above. The constant water level is when the other end of the duct is blocked by water. Therefore, the upper space in the water storage tank is automatically shut off from the outside air. On the other hand, the water passage hole that is another contact point with the outside air is blocked from the outside air by the water of the second portion immediately after the start of the water supply.
As can be understood from the above, in the present invention, it is not necessary to provide a water inlet and its opening / closing device in the water supply tank as in the conventional apparatus. This is because the injection of water into the water supply tank takes place through the second part. Further, it is not necessary to close the inlet in order to eliminate the influence of atmospheric pressure on the water in the water storage tank after the water supply is completed. This is because the upper space in the water storage tank is automatically cut off from the outside air by raising the water level of the first part.

The effect of the present invention is that the switchgear that has been conventionally required at two locations of the upper part (water supply port) and the lower part (water supply port) of the water supply tank is only the water supply port (the partition wall water hole in the present invention), Since the opening and closing device such as the screw type of the mouth is no longer necessary, and the flexibility of the size and shape of the water supply port is widened, the labor during water supply can be reduced to less than half. That is. In addition, there are four combinations of “open” and “closed”, it is important to think only of the choice of “open” and “closed”, and to be confused about how to operate and to make almost no mistakes Effect. For example, you only have to remember to close when you supply water. Which one opens first, closes, or closes one, closes the other, or opens, or closes the other when one is closed, as in the case of a switchgear in two places? But don't worry about whether it will open or not.
This kind of ease of use is a very important point for products that cover a wide range of age groups.

  By reducing the number of elements, not only the number of parts can be reduced, but also blow molding can be adopted depending on the design method, and the number of parts can be made extremely small. The structure becomes simple, and cost reduction and easy maintenance are realized.

The best mode for carrying out the invention will be described with reference to the drawings.
FIG. 1 is a plan view of an embodiment of the present invention. 2 is a sectional view taken along the line CC ′, FIG. 3 is a sectional view taken along the line AA ′, and FIG. 4 is a sectional view taken along the line BB ′.
A part or all of the wall surface (1-2) of the planter case (1) has a double structure, and the internal sealed space is the water storage tank (2). As a result, a device with excellent design can be achieved while securing a sufficient amount of water storage.

  The internal space of the water storage tank has a sealed structure, but is exceptionally in contact with the outside air through a water passage hole (2-1) provided in the lower part and inside the planter case.

  As shown in FIG. 6, not only the wall surface of the planter case but also a water storage tank having a double structure with an integrated bottom surface may be used. When the planter case is integrally formed by blow molding, this is due to processing circumstances such as this.

  A partition wall (3) that divides the internal space of the planter case into a first part (1-2) and a second part (1-3) is provided. The first part is a space for installing a flower pot, and the second part is a space for a water supply port.

  The shape of the partition wall does not have to be flat as shown in FIG. 1, and various shapes are conceivable if the design, production method, and the like are taken into consideration. As shown in FIG. 5, the partition wall may be cylindrical. In short, it is a requirement that the inside of the planter case is spatially divided. 6 is a cross-sectional view of FIG.

  The 1st part (1-2) and the 2nd part (1-3) are connected by the partition water-flow hole (3-1) provided in the lower part of the partition (3), and a partition water-flow hole Is the only water path from the first part to the second part. An opening / closing device (4) is installed in the partition wall water hole.

  A vent hole (1-4) communicating with the water storage tank is provided in the upper part of the inner wall surface of the planter case (1), and one end (5-1) is attached to the vent hole in a sealed state, and the other end (5 -2) provides a duct (5) located in the first part (1-2) and in the vicinity of the planter case bottom (1-5). And the circulation route of the air which external air leads to the upper space of a water storage tank (2) through a duct from a 1st part is made. Therefore, the other end of the duct is also a contact point with exceptional outside air of the water storage tank (2) which is a sealed space.

In FIG. 1, the water level in the first part is a constant water level. The partition water passage hole (2-1) is in an open state, and the water level of the second part is the same constant water level as that of the first part. And the other end (5-2) of a duct is below the water level of a 1st part, and is interrupted | blocked from external air. The water passage hole (2-1) is also below the water level of the second part and is blocked from the outside air.

  The reason why the water in the water storage tank does not flow out is that the other end (5-2) of the duct and the water passage hole (2-1) are simultaneously blocked from the outside air by the water, so the water storage tank is in a sealed state, This is because atmospheric pressure does not act on the water in the water storage tank. And if the water level in a 1st part (1-2) falls by consumption of the water by a plant and the other end (5-2) of a duct is exposed to external air, it will pass through a water passage hole (2-1), and it will be 1st. Outflow of water from the water storage tank begins to the second part (1-3). At the same time, water flows from the second part through the partition wall water passage hole (3-1) to the first part until a constant water level is reached. This is because atmospheric pressure acts on the water in the water storage tank via the duct. When the water level reaches a constant level, the water in the storage tank is again blocked from the outside air, so that the inflow of water to the first portion stops. In this way, a “substantially constant water level” is maintained in the first part where the flower pots are installed until there is no water in the water storage tank. Therefore, the height position of the constant water level is almost the height position of the other end (5-2) of the duct. This is the mechanism of the automatic water supply function in the present invention.

  When the water in the water storage tank runs out, the second part is replenished with water from the outside. Therefore, the uppermost part of the second part is the water supply port. When water supply is started, the partition water passage hole (2-1) is first closed by the opening / closing device (4). The replenished water flows from the second part into the water storage tank via the water passage hole (2-1). Since the water level of the second part and the water tank are the same, when the water level of the second part reaches the top, the water tank is full, and the water supply is stopped. FIG. 7 illustrates the state at that time.

  Then, the opening / closing device (4) is operated to open the partition water passage hole (3-1). First, the water in the second part, and then the water in the water storage tank flows into the first part through the partition wall and continues until it reaches a constant water level as described above.

  In FIG. 1, the opening / closing device (4) includes a case (4-1), a stop cock (4-2) having a round bar-like shape and having a water passage hole penetrating in the diametrical direction in the lower portion, and the last of the stop cock. It is comprised with the lever (4-3) with which the upper part was mounted | worn. The stop cock rotates in the case according to the rotation of the lever, and the horizontal hole drilled in the case so as to communicate with the partition water passage hole (3-1) and the hole of the stop cock penetrate in a straight line. When set to, the switchgear opens. Then, if the water faucet is rotated from that position by approximately 90 degrees as indicated by an arrow, the water faucet closes the partition water passage hole and the switchgear is closed.

  8, FIG. 9 and FIG. 10 illustrate an embodiment of the invention of claim 2. The feature of this invention is that the partition, the duct, the opening / closing device for the partition water passage hole, and the second portion (water supply port) are integrated. The biggest merit of such a structure is that most of it can be made as one part by blow molding. As described above, the planter case provided with the water storage tank can also be integrally formed by blow molding. As a result, most of the apparatus according to the present invention is composed of two blow-molded parts, and it has become possible to realize a product with excellent cost reduction and excellent design.

  As described above, the height position of the water level of the first portion is substantially the height position of the other end (5-2) of the duct. The flower pot installed in the first part must have a drain outlet on the bottom. This is because the roots of the plant absorb moisture from the drain. The height position of the bottom surface varies depending on the type and size of the flower pot. Moreover, the height position of the most desirable constant water level changes with plants. Therefore, it is preferable for the health of plants to have a function of changing the height position of the constant water level corresponding to various conditions, that is, adjusting the height position of the other end (5-2) of the duct. is there. This is achieved by the invention of claim 3.

Industrial applicability

  In today's environment, where environmental problems are becoming more serious and nature is being lost, people's attachment to plants is deepening. One answer to that need is the present invention. According to the present invention, an automatic water supply apparatus that automatically realizes appropriate hydration and grows plants healthy can be provided at a low cost. Moreover, the operation is very easy and the structure is simple, which makes it possible to make the appearance design simple and beautiful. It will greatly contribute to the greening of homes and offices.

Example top view C-C 'sectional view of FIG. A-A 'sectional view of FIG. B-B 'sectional view of FIG. Plan view when partition wall is cylindrical A-A 'sectional view of FIG. Part of a plan cross-sectional view when the opening and closing device for the partition water passage hole is closed A portion of a top view illustrating the embodiment of claim 2 A-A 'sectional view of FIG. B-B 'sectional view of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Planter case 1-1 Wall surface of planter case 1-2 First part in planter case 1-3 Second part in planter case 1-4 Vent hole 1-5 Planter case bottom 2 Water storage tank 2-1 Water hole 2-2 Upper space 3 in the storage tank Bulkhead 3-1, Bulkhead water hole 4 Switchgear 4-1 Switchgear case 4-2 Switchgear 4-3 Switchgear lever 5 Duct 5- 1 Duct end 5-2 Duct other end

Claims (3)

A planter with a function to automatically supply water to the bottom of the flower pot,
a) The wall surface (1-1) of the planter case (1) is constituted by a double-structured sealed space, and the sealed space is the water storage tank (2),
b) A partition that divides the internal space of the planter case into a first part (1-2) for installing a flower pot and a second part (1-3) that serves as a water supply port inside the planter case (3) is provided,
c) A partition water passage hole (3-1) connecting the first part and the second part to the lower part of the partition wall, and an opening / closing device (4) thereof.
d) A water passage hole (2-1) leading to the second portion is provided in the lower part of the water storage tank,
e) A vent hole (1-4) leading to the water storage tank is provided in the upper part of the inner wall surface of the planter case,
The end (5-1) of the duct (5) is attached to the vent hole, and the other end (5-2) of the duct is positioned near the planter case bottom (1-5) in the first portion. The outside air of the lower part of the first part enters the duct from the other end part, passes through the end part and the vent hole, and passes through the upper space (2 -2) A planter with an automatic water supply function, characterized in that an air distribution route leading to 2) is configured.   The planter with an automatic water supply function according to claim 1, wherein the duct, the partition wall, and the switchgear are integrated.   The planter with an automatic water supply function according to claim 1 or 2, further comprising a device for adjusting a distance between the other end and the bottom of the planter case.

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