FR2497059A1 - Automatic watering feed for potted plants - uses feed from tank with constant water level connecting to each pot via calibrated aperture - Google Patents

Abstract

The feed is for automatic watering of potted plants, using a header tank (2) with a constant water level. A pipe (3) feeds water from the tank to the pots (5) or other watering points, connecting to each pot via a calibrated discharge aperture (8). The apertures are located at different levels to suit the needs of the plant, and the tank may be fed from a domestic supply with the water level controlled by a float. Alternatively, the feed may be introduced through a main (1) and auxiliary tank, the main tank feeding the auxiliary through a float-actuated valve. The auxiliary tank may be incorporated in the bottom of the main tank, being fed through an opening controlled by a conical valve mounted on a float-actuated lever.

Description

The present invention relates to a device for watering plants in pots or other
The need to periodically water potted plants, especially in an apartment or on a balcony, creates a constraint when you are away for a certain period
There are means for their automatic watering.

The simplest means is a cotton wick, one end of which is buried in the pot and the other end of which dips into an annexed container of water, the water of which is gradually pumped through the wick under the effect of capillarity and conducted therefore in the earth at a constant and low flow rate which ensures sufficient humidification
Such a device, if it has the advantage of being inexpensive nevertheless has the disadvantage of being bulky since it is necessary to have a container of water near each pot to be watered
According to another known method each pot has a water reserve located in a compartment forming part of the volume of the pot itself and the water of which gradually diffuses into the earth by capillary action according to various known means
This device, which is presented in a more homogeneous form, has the disadvantage of being expensive, each pot having to include its water reserve and its device for moistening the soil.
The object of the present invention is therefore to overcome these various drawbacks. For this, the device comprises a single reserve of water capable of continuously supplying all the pots of flowers or other containers, at low flow rate, which are connected to said device by a simple tube. This makes it possible to have an inexpensive device since it includes a single water reserve, the pots themselves being practically similar to the known pots with the only exception being their
feed spout. And thus the maintenance is facilitated, a
only reserve of water being to be supplied and no longer as much as there is
pots to treat
The accompanying drawings, given by way of example only, show an embodiment of the object of the present invention.

Figure 1 is a schematic sectional view of the whole
ble of an automatic watering device in accordance with this invention
tion
Figure 2 is an exploded schematic view of the different
simple elements necessary for the realization of the device object of the
present invention
Figure 3 is a schematic sectional view of an industrial realization of the water distribution tank according to this first embodiment of the subject of the invention
Figure 4 is a schematic sectional view of the assembly of the device provided with a water delivery container according to a variant
Figure 5 is a schematic sectional view of an industrial embodiment of the water distribution container according to this latter variant
Figure 6 is a partial schematic view in plon mQn- entering the communication orifice of the two containers contained in this variant and contributing to a distribution- of water
Figure 7 is a schematic plan view of the single tripod bearing for guiding the control rod of the shutter of said communication orifice
As shown (Figure 1) the device comprises a water tank 1 provided with a constant level auxiliary tank 2 which is itself connected to the various containers to be irrigated by means of a tube 3 which has as much of T-shaped sockets 4 that there are containers to be irrigated, the position of each container 5 relative to the level of the constant level tank 2 being such that each container is moistened at the height which is suitable for the plant which 'it contains
FIG. 2 shows the different tubular elements such as the tube 3, the T 4 and the elbow 7 which make it possible to establish a conduit capable of supplying the various containers such as the vase 5 or the planter 6 each provided with one or more nozzles 8 necessary for a good distribution of the water in the soil they contain. The elbow 7 is used to feed the last container at the end of the pipe.

Each of these elements is made of flexible plastic so as to fit tightly on said nozzles 8
With a view to its industrial production, the container 2 containing the water reserve a-insi that its annex tank 2 at constant level, can be produced, according to FIG. 3, by means of a parallelepipedic tank 9 closed in leaktight manner by the cover 10 and itself forming the non-sealed closure also of a lower container 11 which is thus capped by the container 9
The latter has at its bottom an orifice 12 which can be closed at its lower part by the conical piece 13 which includes the centering pin 14 and which is articulated on the lever arm 41 which is itself articulated at one of its ends
on a fixed point 15 of the container 11 and which carries the float 16 at its other end. In order to make the assembly more compact, the bottom of the tank 9 is inclined at the level of the float 16 so as to release the space necessary for its travel
The orifices 17 and 18 ensure the communication of each of these containers with the atmosphere
According to another embodiment (fig. 4) of the constant-level tank, the tank 1 is made watertight at its filling plug 19 and is placed in communication with the tank 2 by an opening 20 which is made in the wall adjoining at a height corresponding to the desired water level in said tank 2
In this case the tank 1 is provided with a device making it possible to close the communication orifice 20 so as to avoid the untimely flow of water during the filling of the tank 1. This obturation can be carried out as a 'example, by means of the plug 21 capable of closing the conduit 22 located at the orifice 20 and making the two containers communicate. Said cap 21 is operated by the rod 23 provided with the spring 24 which exerts the pressure necessary to ensure the seal
The rod 23 passes through the wall of the reservoir 1 through an opening sealed by the O-ring 25. This rod, thanks to the lug 26, can be immobilized in any one of the two open or closed positions
Industrially, such a solution can be adapted to an embodiment conforming as a whole to FIG. 3. According to FIG. 5, in fact, in accordance with the embodiment last described, the reservoir 9 is closed by the watertight cap 27 which is fixed to the neck by rotation of a 1/4 turn for example by means of the sections of helical ramp 28 distributed around said neck
This plug 27 has in its center, at its lower part, a cylindrical cup 29 fluted along its generatrices, capable of rotating the fluted mandrel 30 which freely penetrates into said cup when the plug 27 is placed on the neck.

The grooved mandrel 30 is integral with the end of the rod 31 which controls at its other end the valve plate 32 which is driven by said rod 31 which is itself provided at its end with a hexagonal zone which penetrates into the housing hexagonal of plate 32 with sufficient play to allow said valve plate to sit perfectly on its seat
This valve plate 32 comprises. the orifice 33 which can be brought by rotation in coincidence with the orifice 12 which makes the reservoir 9 communicate with the reservoir 11 which it covers
The plate 32 comprises a circular lower boss 34, which the guide being trapped between the three bosses 35 which comprises the bottom of the container 9 and on which sits said plate 32, one of them including the orifice 33, the perfect sealing is thus ensured (fig. 6)
The rod 31 is therefore guided at its lower part by the plate 32. -And at its upper part it is guided by the tripod bearing 36 (fiv. 7) which includes the centering pins 37 and which is mounted freely at the lower orifice of the neck of the container 9 against which it is held by the spring 38 which rests on the key 39 of the rod 31. It is therefore understood that when the cap 27 is turned while maintaining its seal against the neck of the container 9, the plate 32 is driven which automatically closes the orifice 12 for communication of the two tanks. The cover 27 can therefore be removed for filling the reservoir 9 without it inadvertently discharging during this operation in the lower reservoir 11
Conversely, when the cap 27 is replaced on the neck of the container 9, its cup 29 naturally covers the grooved mandrel 30. So that when the cap 27 is rotated while keeping it pressed on the neck to lock it on the helical ramps 28, the plate 32- which drives the orifice 12 is driven at the same time, the tightness of the reservoir 9 having always been maintained during this operation, so that at no time has the reservoir 9 accidentally flowed into the tank 11, which will only be supplied again if its level has dropped to allow air to enter the tank 9 through the orifice 12, coming from the tank II
The reservoir is placed in communication with the atmosphere by the orifice 18 in the chamber created by the inclined bottom of the reservoir - see upper 9
So that the device thus being constituted the operation of filling the reservoir 9 is effected by means of the simple opening of the cap 27, the necessary simultaneous obturation of the orifice 12 being effected automatically without the operator having to And conversely closing the reservoir 9, after filling, is carried out by simply fitting the cap 27 -, the simultaneous opening of the orifice 12 also taking place automatically
Each of the pots thus connected to the constant level water reserve can thus be placed in height so that the water level is established within the earth it contains at a height sufficient for the whole of the soil in the vase is moistened, but no more, according to the needs of the plant it contains. The upper part of the vase, where the plant grows, is thus constantly but not excessively humidified, the water flow in each vase can be adjusted by interposing a calibrated orifice located in branch 40 of the fitting in T 4, which makes it possible to go as far as simple drip if necessary.

Furthermore, the containers thus intended for such watering and which can be located outside of buildings, on a balcony for example, have at the level of the earth's surface one or more orifices which allow the flow of water. of rain that they can possibly receive, in order to avoid an excess of irrigation which would harm the conservation of the plant
It is therefore understood that thus constituted the device makes it possible to have a more or less large reserve of water depending on the number of pots to be watered and according to the duration of the desired automatic watering period, this reserve of water s flowing continuously and controlled in each of the pots, the flow in each of them being controlled both by the calibrated orifice placed in the corresponding T and by the height where the pot is located in relation to the constant level obtained in the Reserve
This allows not to fear the abandonment of potted plants
It is understood that the scope of the invention is not limited to the example or the exemplary embodiments which have been described therein, any variant considered to be equivalent cannot modify its scope. Thus, the container 2, where a constant level prevails, can be directly connected to the general water pipe of the dwelling, when the said container is provided with a float valve, such as that represented in the figure. 3
The present invention can be used for the automatic watering of potted plants and possibly even plants in the ground.

Claims (5)

CLAIMS 10) - Device for automatic watering of plants in pots or other, Characterized by the fact that it includes a water reserve having a constant level, connected by tubing to the various points which must receive water from watering, each of them being in relation to said tubing by means of a flow calibrating orifice being located at different levels according to the particular needs of the plant to be watered  20) - Device according to claim 1,  Characterized by the fact that the constant level water tank is connected to the general water pipe of the domestic installation, said tank comprising a level regulating float  30) - Device according to claim 1,  Characterized by the fact that the constant level water tank is connected to a larger water tank whose flow is controlled by a level regulator float valve  40) - Device according to claim 3,  Characterized by the fact that the constant level reservoir is capped by the larger reservoir with which it is placed in communication through an orifice formed in the bottom of the latter reservoir and closed by a needle carried by a lever contained in the lower reservoir at constant level and operated by a float located at the free end of said lever  5) - Device according to claim 1,  Characterized by the fact that the constant level tank is connected to a larger tank hermetically closed during its use and communicating with said tank through an orifice located at the level of the desired level in this second tank, which is in communication with on the one hand with the atmosphere, and on the other hand with the irrigation water distribution pipe, said orifice being able to be closed when filling the main tank  60) - Device according to claim 5,  Characterized by the fact that the orifice putting the main tank in communication, hermetically closed during its use, with the constant level tank is provided with a valve which can be operated from the outside of said main tank by means of a rod passing through its wall in a sealed manner and allowing two positions (open and closed) by axial transalation materialized by the positioning of a lug in two characteristic notches, a spring ensuring sufficient pressure of the valve on its seat to make it sealed  70) - Device according to claim 5,  Characterized by the fact that the constant level tank is capped by the main tank, airtight during its use, and communicates with it by an orifice located at the bottom of the latter, said orifice being able to be closed by a tray- rotary valve capable of occluding said orifice during its rotation automatically caused during rotation of the cap which sealingly closes the upper main reservoir, said cap locking by 1/4 turn rotation and causing in this movement the vertical rod which controls said valve plate, the connection of said plug with said rod being effected by means of a pair of male female members, cylindrical, vertically fluted and fitting together freely, and the connection of said rod with the plate - valve being carried out in a similar manner, the clearance left between these various members being sufficient to ensure perfect freedom of said plate in the horizontal plane  80) - Device according to any one of the preceding claims,  Characterized by the fact that the containers which contain the plants to be watered automatically have at their lower part an orifice provided with a nozzle making it possible to connect them to the irrigation water distribution pipe, and at their upper part one or more orifices located flush with the ground, the or said orifice (s) making it possible to evacuate any rainwater which would cause an excess of humidity