EP0105303A1 - Appareil d'arrosage pour plantes - Google Patents

Appareil d'arrosage pour plantes

Info

Publication number
EP0105303A1
EP0105303A1 EP83901188A EP83901188A EP0105303A1 EP 0105303 A1 EP0105303 A1 EP 0105303A1 EP 83901188 A EP83901188 A EP 83901188A EP 83901188 A EP83901188 A EP 83901188A EP 0105303 A1 EP0105303 A1 EP 0105303A1
Authority
EP
European Patent Office
Prior art keywords
housing
collar
winding mandrel
pump
insert
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP83901188A
Other languages
German (de)
English (en)
Inventor
Wilhelm Engel
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
ENGEL, ELLA
ENGEL, WILHELM
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Publication of EP0105303A1 publication Critical patent/EP0105303A1/fr
Pending legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G27/00Self-acting watering devices, e.g. for flower-pots
    • A01G27/005Reservoirs connected to flower-pots through conduits

Definitions

  • the electric components may be mounted for example inside the winding device.
  • the apparatus may be used for watering during vacations periods or for a permenent watering of the plants.
  • a big advantage of the watering apparatus is that it may be easily stored owing to the flexible material conduits.
  • the apparatus may be installed and disassembled in a few minutes and may also be used, taking in consideration the reduced height thereof, as a decorative element of a group of plants.
  • the device In the liquid container (22) of the device there is an insert (80) for winding main and distributor lines as well as a controllable pump (70) and S distributor connections (24).
  • the electrical components can be arranged, for example, in the winding mandrel of the insert.
  • the device can be used for holiday irrigation or for permanent irrigation of plants.
  • a particularly great advantage of the irrigation device is that the invention enables a clear ordering principle when cleaning up the hose lines.
  • the device can be set up and dismantled in just a few minutes and, due to its low overall height, adapts decoratively to a group of plants.
  • the invention relates to an irrigation device with a water tank, a programmable timer with a controllable drivable pump, as well as distribution main and single lines, which are arranged to individual plants at different locations, can be laid and supply the plants with water in a controlled, individually metered manner.
  • the invention is therefore based on the object of a simple device with great functional reliability. large water storage container and easy connection to an additional water storage container, which can be set up in a very short time by a housewife and can be dismantled just as quickly.
  • This object is achieved according to the invention. that the device housing is formed up to just below the upper edge as a liquid container and that the device has a Aufw ickeldorri formed as an insert, which can be inserted into the housing.
  • the winding mandrel is preferably designed as a housing for electrical parts. ie programmable timer and a battery pack are then housed in the housing.
  • the delivery lines to the pumps and distributors are preferably arranged on a collar of the insert and can be easily connected to or removed from the insert after removal.
  • a preferably perforated transparent housing can be provided on the insert plate, so that the housewife can check the correct torsion-free condition of the lines themselves before using them with them perforated transparent housing is inserted into the liquid container.
  • the object is achieved according to the invention in that the insert has a second collar in addition to the first collar and in that conveyor lines and a pump can be arranged between collar 1 and collar 2.
  • the liquid container can be filled with pouring liquid almost up to the upper edge.
  • a permanent arrangement of the device near plants can also be provided.
  • the device is provided with a lid which is used as a base for plants.
  • Fig. 1 is a schematic perspective view of a first embodiment of a watering device designed according to the invention. a line with a distributor is shown.
  • Fig. 2 is a perspective view of a device cover, with recesses through which conveyor lines can be led to the outside in the operating state.
  • Fig. 3 is a partial perspective sectional view of the irrigation device, consisting of liquid container and insert part with collar, the training options of the insert part are shown in more detail.
  • Fig. 4 is a perspective view of a container rib formed on the liquid container, which serves as a support surface of the insert collar.
  • FIG. 5 shows a further embodiment of an irrigation device housing in a perspective partial sectional view, which can be produced in a practical and flat design, a first and a second collar being provided on the insert part.
  • FIG. 6 A closer perspective view of a device insert designed according to FIG. 5, only one distributor with individual lines, a line holder and plug strips being shown.
  • a plant irrigation device generally designated 20 is shown.
  • This device has a liquid container 22. in which a winding mandrel 80 is accommodated.
  • annular collar 10 is provided, the outer diameter of which is selected so that the winding mandrel with collar can be easily inserted into or removed from the liquid container.
  • one or more connections 24 can be provided for the liquid delivery lines. A possibility of designing the connections 24 is shown in FIG. 6.
  • a pump which is designed in the example shown as a submersible pump 70, delivers casting liquid from the liquid storage container 22 through the main line 77 to the branch lines 78 and 79 and from dcrt to distributors 123. From which individual lines 40 emanate, which can be laid to plants and expediently be attached to the plants as shown in FIG. 6. The individual lines 40 are preferably guided in line holders, as is also shown in FIG. 6 is shown.
  • main line 77 can also be led directly to a distributor 123, or several branch lines can also be provided instead of only two branch lines 78 and 79.
  • branch lines 78 and 79 commercially available plastic push-in connectors can be used, or a multi-way solenoid valve with multiple switching options can be provided, for example, which is controlled by the programmable timer.
  • Two or more pumps, which can be programmed differently, can also be used for different casting requirements.
  • feed pumps can also be used which are fixedly arranged in the insert or in the housing of the liquid container.
  • an electric drive is provided.
  • the device is equipped with a programmable timer.
  • the electrical components such as the battery, programmable time switch etc.
  • the electrical components can be placed, for example, in the insert 81 or in a special embodiment of the liquid container wall, as indicated in FIG. 5. It is also conceivable that a transformer arranged in the mains plug is provided, as a result of which a larger space in the insert part 81. ie in the winding mandrel 80 for housing the pump is available.
  • the lines 78 and 79 and the distributors r 123 with the single lines 40 are normally wound up on the winding mandrel 80 above the bundle 10 and with a device cover, as shown in FIG. 2 shown, closed.
  • the wound state of the lines is indicated in FIG. 6 and is to be expressed here by the line 679 and the dashed line 674.
  • the hose connectors between the lines 77, 78 and 79 can also be used to bring the line ends of the delivery lines 77, 78 and 79 relative to the collar 10 into a fixed, immovable position. This is done by, for example, Y-shaped or T-shaped hose connectors with a connection side so through the opening 82 of the collar 10 that z. on the underside of the federal government, the conveyor line 77 and on the upper side of the federal government, the forwarding lines 78 and 79 can be connected or plugged in, which is not shown further.
  • check valves 35 are arranged in the conveying lines, which prevent the backflow of pourable liquid from lines 78 and. 79 resp. Prevent 178 and 179.
  • the control buttons 90 of the time switch are then expediently arranged on the housing cover of the housing 88.
  • This housing is inserted into the winding mandrel up to the edge of the lid.
  • the programmable time switch. as well as the battery or. a battery pack and other electrical components can be accommodated in the winding mandrel.
  • a three-way solenoid valve is used to selectively open the lines 77 and 78 or 77 and 79, this is expediently arranged on the collar 10 or on the outside of the winding mandrel 80.
  • the submersible pump 70 is equipped with a delivery line 77 and with an electr. Connection line 92 connected.
  • the electrical connection line 92 is connected on the one hand to an electric motor in the submersible pump and on the other hand to a program-controlled power supply.
  • the pump can also be arranged in a secondary vessel, which can be larger than the liquid storage container 22.
  • the associated secondary vessel is not shown in any more detail, however.
  • the delivery line 177 is then led through a lateral edge opening 14 to a distributor 148, from which the delivery lines 178 and 179 extend.
  • a Y or T piece can be used as a distributor, as already described above.
  • This Y-piece or T-piece can then, as also described above, serve to firmly and immovably fix the conveyor line ends 177, 178 and 179 with respect to the collar 10.
  • the delivery lines can also be passed directly through the openings 82 in the collar 10.
  • the delivery lines 178 and 179 are connected at their other ends facing the plants to distributors 123, as already described.
  • lines 177, 178 and 179 can also be connected to connections 24.
  • the insert 81 can also be arranged fixedly, but releasably, on the liquid container 22, for example by means of screws or by means of corresponding screw threads on the liquid container and on the insert.
  • a preferably perforated transparent housing 30 can also be arranged on the insert. In this case, the torsion-free condition of the delivery lines can be easily checked and the insert with transparent housing can be inserted together in the liquid container. The perforation makes sense because the casting liquid can flow through the perforation.
  • recesses 2 are expediently provided. Similar recesses can also be provided in the cover, as described in FIG. 2.
  • the advantage of this embodiment described in FIG. 1 is that the preferably annular winding space formed from insert 81 and liquid container 22 above collar 10 can be used both as a water reservoir and as a winding container.
  • Another great advantage is that the submersible pump including the electrical connection line 192 and the extended main delivery line 177 are removed from the device and. can be relocated to a larger secondary vessel, not shown, whereby the delivery line 177 and the electrical connecting line of the pump 192 can remain connected to the device insert 81 at their ends pointing away from the submersible pump, so that the housewife can move the secondary vessel within a few seconds can be made.
  • the pump and motor can be combined in one housing. It is also possible to arrange the pump and drive motor separately.
  • the motor and pump can be connected by a long drive shaft, which is mounted in a tubular connecting piece, the pump being arranged near the bottom of the liquid storage container 22 and the electric drive motor preferably being arranged above the water level of the irrigation water.
  • the drive motor can be arranged in the winding mandrel and a further tubular riser pipe, for example arranged laterally or centrally in the winding mandrel, can serve to mount the pump drive shaft.
  • the drive motor can also be arranged below the water level in the device if the drive shaft of the electric motor can be sealed off from the pump arranged in the irrigation water.
  • the programmable time switch can preferably be adjustable in such a way that a casting time can be set in each case from a few seconds to several minutes and that a waiting time until the next casting process is possible from several hours to several days.
  • a work cycle then consists of a pre-settable casting time and a pre-settable waiting time. Then a new work cycle begins.
  • the delivery lines 77, 78 and 79 and 177, 178 and 179 are expediently made of silicone rubber, because such lines can be wound up more easily.
  • Distributors 123 with individual lines can be used in any version.
  • a device cover is shown.
  • an opening 19 is preferably provided, which is slightly larger than the wickeldbrh 80 and an approach 17, the vzw. is slightly smaller in the outside diameter than the inside of the wall 22. If the lid 21 is placed on the device, then the opening 19 must match the winding mandrel 80 and the shoulder 17 preferably the inner diameter of the liquid container 22.
  • Recesses 3 can be provided in the shoulder 17 of the cover and on the edge of the cover, through which the delivery hoses can be held when the device is closed and in the operating state. After use, the lines can be rewound around the winding mandrel as described above and the device can be closed again with all of the delivery lines that are properly wound in the device. If the device is used continuously, it can also be used as a base for a plant.
  • FIG. 3 the device housing is shown in a perspective partial sectional view.
  • the housing 322 is designed as a liquid container and has locking lugs 34 on the inner wall side, on which the insert part 381, consisting of the winding mandrel 380 and collar 310, can be placed, as is shown in more detail in FIG. 4.
  • a particular advantage is that a perforated transparent housing 330 can be provided on the underside of the insert 381, in which a submersible pump 370 together with a delivery hose 377, and an electrical feed line 392 can be accommodated.
  • a pump holder can be provided in the transparent housing, but is not shown in more detail. It can be useful to arrange a second winding mandrel for the lines 377 and 392 below the bundle 10, which is approximately in the form of the second bundle 611 shown in FIG. 6 and whose extension 509 or 609 is extended for this application and as Winding mandrel.
  • the winding mandrel 380 can also be extended so far down that the conveyor lines can be wound on it below the collar 310.
  • a pump holder can also be provided on this extended winding mandrel 380.
  • the transparent housing 330 can be plugged onto the extension 331 or connected in another suitable manner to the insert part 381. With such an arrangement, the housewife can convince herself at any time whether the hose lines are arranged in a proper condition, ie without being twisted.
  • insert 381 and transparent housing 330 can of course also be connected, for example by plugging the two parts together, in such a way that the detents 34 on the inside of the device liquid wall can be omitted.
  • the winding mandrel 380 can be closed on the underside, which is to be expressed by 399.
  • the interior of the rewinder can then be used as a housing for electrical components.
  • a riser 398 is expediently provided, which is preferably arranged either on the inside of the winding mandrel or in the wall of the winding mandrel, and its opening 397 on the upper side to the interior of the winding mandrel 380 and on the lower side to the Space leads under the plate 310/399.
  • the riser pipe can also be led laterally out of the wall of the winding mandrel, which is not shown in detail.
  • the feed line 392 is guided through the riser pipe into the interior of the winding mandrel 380.
  • connections 324 can be provided on the insert part 381, preferably on the collar 310, as is shown in more detail in FIG. 6.
  • a further very expedient and simple guidance of delivery lines can be achieved if openings 382 are provided in the collar 310 through which the hose lines are passed.
  • the lines 377 and 392 can be led through the recess 383 to a pump arranged in a secondary vessel.
  • cutouts 32 can be introduced at the edge of the vessel. If the lid 21 is placed on the device, then the opening 19 must match the winding mandrel 80 and the shoulder 17 preferably the inner diameter of the liquid container 22.
  • recesses 3 can be provided, through which the delivery hoses can be held when the device is closed and in the state of septicemia. After use, the lines can be rewound around the winding mandrel as described above and the device can be closed again with all the delivery lines that are properly wound in the device. If the device is used continuously, it can also be used as a base for a plant.
  • FIG. 3 the device housing is shown in a perspective ivischeh partial sectional view.
  • the housing 322 is designed as a liquid container and has latching lugs 34 on the inner wall side, on which the insert part 381, consisting of winding mandrel 380 and sound 310, can be placed, as is shown in more detail in FIG. 4.
  • a particular advantage is that a perforated transparent housing 330 can be provided on the underside of the insert part 381, in which a submersible pump 370 together with delivery hoses 377, 378, 379 and an electrical feed line 392 can be accommodated.
  • a pump holder can be provided in the transparent housing, but this is not shown in more detail. It can make sense to arrange a second winding mandrel for the lines 377, 378, 379 below the bundle 10, which is designed approximately in the manner of the second bundle 611 shown in FIG. 6 and whose extension 509 or 609 is extended for this application and serves as a winding mandrel.
  • winding mandrel 380 can also be extended downwards to such an extent that the delivery lines below the collar 310 can be wound thereon.
  • a pump holder can also be provided on this extended winding mandrel 380, 8
  • the transparent housing 330 can be plugged onto the extension 331, or can be connected to the insert part 381 in another suitable manner.
  • the time switch housing 388 with the adjustment buttons 309 is indicated by dashed lines and is preferably cylindrical towards the winding mandrel side and designed to accommodate the programmable time clock, which is to be indicated by the reference number 301.
  • the timer and a transformer connected to the power supply are housed together in an external housing outside the device, this electrical subunit having a cable connection to the power plug and a connection to the pump in the device. Parts of this version or the whole can also be integrated in the power plug.
  • This arrangement enables a submersible pump to be arranged directly in the winding mandrel and, if necessary, can also be removed and used in a secondary vessel.
  • a holder for the pump 370 (not shown in detail) can preferably be arranged on the underside of the base 399.
  • Ribs 44 are expediently arranged on the liquid container wall 422, which fit into recesses of the collar 410. As a result, the insert with collar 410 can be snapped into place in a simple manner.
  • FIG. 5 shows a further embodiment, the detailed function of which is described in more detail in FIG. 6.
  • the expanded version consists in that a second collar 51 1 can be placed on the insert 581, preferably on the winding mandrel 580 to the first collar 510, from below. which preferably has an extension 509. This will wi rd through housing 522 and. thus insert 581 completes a first winding space 515 for winding an extended main pump line and the pump 570 can also be arranged in this space, as shown in the drawing.
  • the space 516 above is used to wind up the extension lines with the distributors arranged thereon when the device is to be put out of operation and switched off. Irrigation water can be filled up to level 512 in the operating state.
  • Reference number 533 is intended to represent an electrical box arranged on the side wall, in which a programmable time switch can be accommodated. On this electrical equipment box, a cover can be arranged with control buttons, similar to the described embodiment, but this is not shown further.
  • the pump it is also conceivable for the pump to be held in a special embodiment of the lower winding part, which is to be expressed by reference number 555.
  • a submersible pump can be accommodated in this curved receptacle.
  • a pump arrangement permanently installed in the housing is also conceivable, as described above, instead of a submersible pump.
  • bottom cover 599 of the winding mandrel 80 can also be omitted in this embodiment if the electric housing is arranged in the liquid container wall or elsewhere or externally.
  • the submersible pump 671 is arranged laterally under the first collar 610 and between the housing wall 622 of the liquid container, indicated by dashed lines, on the one hand, and the winding mandrel 680, on the other hand, the intended position of the pump being indicated by dashed lines and designated 670.
  • the housing of the winding mandrel 680 can extend to the floor or in the vicinity of the floor.
  • a second collar 61 1 which can be plugged onto the winding mandrel 680 from below and which preferably has special receptacles for holding the pump after the pump side 670.
  • the delivery line 677 and the electric line 692 can be wound on the mandrel 680 without twisting between the first collar 610 and the second collar 61 1 and cannot slide downward, and on the other hand the pump 670, which also lies between the first collar 610 and the second collar 611, are additionally held in an immovable position.
  • Such a pump holder can also be provided directly on the winding mandrel 680.
  • the insert part 681 with the coiled lines 677 and 692 as well as with the pump can be inserted into the liquid container 622 and can also be removed without the lines and pumps slipping below the collar 610.
  • a plug connection for connecting the delivery lines 677, 678 and 679 can be provided.
  • a three-way connector which is designed as a Y or T connector, is expediently also used here. It makes sense to insert a connecting pipe of this connecting piece through the opening 614 in such a way that the delivery line 677 can be connected on the underside of the federal government 610 and the delivery lines 378 and 37 can be connected on the top side, but this is not shown further.
  • the delivery lines 377, 378 and 379 are each held at one end in a largely immovable position with respect to the collar 610.
  • Check valves 635 are expediently arranged in the conveying lines 378 and 379 above the collar 610.
  • connection options for the delivery lines 377, 378 and 379 are also conceivable.
  • the T-piece or Y-piece is arranged below the collar 610, for example, and therefore two openings 614 are arranged for the delivery lines 378 and 379.
  • connections 624 can also be provided, which are preferably arranged on the collar 610 or at another location on the insert part 681.
  • the connections 624 have connection pins 627 and 628 on the top and bottom. to which the production lines can be connected.
  • Check valves can be integrated into these connections 624.
  • Two or more connecting pins 627 can also be provided on the upper side of the connections 624. Then on the underside, ie on the connection pin 628, the delivery line 677 and on the top, ie on the connection pin 627, for example, the delivery lines 678 u. 679 can be connected. If there is more than one upper connecting line, the check valves are expediently integrated in the upper connecting pin part 627, so that each individual line is protected against backflow of pouring liquid.
  • the submersible pump 671 or 670 is connected to an electrical connection line 692 and a delivery line 677.
  • the electrical connection line 692 leads to the electrical components. i.e. in the Aufwickeldor rn 680 designed as a device housing.
  • the entry is preferably on the underside.
  • a recess 612 is provided on the edge of the collar 61 1 so that the electrical connecting line 692 can be guided from the outlet side at the bottom of the winding mandrel to the annular space 61 5 formed from the two bundles 610 and 611. If the second collar 61 1 has a ring-like distance piece 609 on the underside, then a recess 608 must also be provided on the side facing the bottom of the liquid container, which serves to pass the line 692 through.
  • a riser pipe 698 is provided, which is firmly connected to the housing of the winding mandrel 680 and the bottom 699 thereof, or is preferably integrated therein, and prevents watering water from rising up in the winding mandrel 680 designed as an effectro housing.
  • the electrical drive line 692 which is connected on the one hand to the submersible pump motor 671 or 670 and on the other hand to the electrical components, can be guided through this riser pipe 698.
  • the riser pipe should be so high that even with a slight inclination of the device, irrigation water cannot get into the electrical sub-tank.
  • a winding or battery pack or other components can also be arranged in the winding mandrel.
  • the water level of this embodiment can then, as already described above, reach up to about the rim of the liquid storage container in the filled state.
  • the opening On the lower side of the riser pipe, the opening can also be arranged laterally, which is not shown further. It is also conceivable to lead the line 692 down on the outside of the winding mandrel.
  • the irrigation water can rise in the riser pipe 698 without the water getting into the drying room.
  • a seal in the riser pipe can also be used, or the riser pipe can be completely dispensed with when the line 692 is sealed off from the interior of the housing 680 into the space containing the casting liquid. This also applies to the embodiment shown in FIGS. 1 to 3.
  • a housing 688 which is preferably hollow-cylindrical on the side facing the winding mandrel 680, which is to be indicated by 693, has a plate 689 with a collar arranged thereon. Operating buttons 690 are provided on the plate 689 and are connected to a programmable timer which is expediently housed in the housing 688.
  • the cylindrical part of the housing 688 is preferably dimensioned in its outer diameter such that it can be inserted to match the inner diameter of the winding mandrel housing 680 and can be inserted flush with the plate 689 there.
  • a battery pack can be provided under the programmable timer.
  • the line 692. which is led through tias riser pipe 698 is on the one hand with the electric pump 671 and with the programmable
  • Time switch and a power source on the other hand in operative connection.
  • the delivery line 677 and the electrical connection line 692 must also be able to be laid there.
  • the conveying line 677 remains connected to the collar 610 in the manner described above, and the electrical connecting line 692 remains connected to the winding mandrel 680 designed as a device housing.
  • an attachment that can be pushed onto the mandrel from below can be used as a counter-support for the pump, the shape of which can be adapted to the shape of the pump and which can be configured approximately similarly to the collar 61 1 described.
  • the irrigation water is led to the distributors and from there through individual lines to the plants, which is shown using an example.
  • Single lines 640 are arranged on the distributor 623, but are only clearly recognizable when exiting the distributor and are then continued with dashed lines.
  • individual lines 640 can be easily and quickly arranged by moving the line holder back and forth.
  • the inline lines 640 are preferably guided at their hose ends in plug-in strips 660 or in hose guide tubes 662.
  • the plug-in strips 660 and the hose guide tubes 662 are inserted with their tips 654 and 656 into the humus soil of the plant pots so that the hose ends of the individual lines 657 and 653 preferably point in the direction of the plants to be poured and just above the humus soil are arranged. Openings 620 are preferably provided in the plug strips 660 and tubes 663 are provided in the hose guide parts 662 for guiding the individual lines 640.
  • the delivery lines 678 and 679 can be wound up in the space 616 with the associated distributors 623.
  • the space 61 6 is formed from the winding mandrel 680, the first collar 610 and the side wall 622 and can be closed with a cover, as shown in FIG. 2. It is conceivable that instead of the distributors 123, 623 electromagnetically operated lift valves are provided, which are controlled via an electrical connection line, not shown, which is arranged on the delivery line 678 or 679.
  • a irrigation water connection piece 645 is shown and reference number 647 is intended to indicate that the electrical connection line can also be arranged on the other side of the submersible pump.
  • the electrical line (92, 192) can also be routed in a shoulder 38 formed on the collar 10, e.g. can be formed as a column, or as a U profile or as an outer wall piece on the edge of the federal government 10. Then the electric line 92, 192 need not first be led into the winding mandrel 80, but can be led directly from the underside of the collar 10 into the neck 38 and a connection to the electric part container 37 can be provided at the upper part of the neck.
  • an additional electrical connection line from the winding mandrel (80, 380, 580, 680) to the electrical appliance housing (37) must be present. which is expediently guided along the collar 10, 310, 510, 610 and is then likewise guided to a plug in the aforementioned attachment (38).
  • This electrical connection line can also be integrated in the insert housing.
  • All device housing parts can be made of plastic.

Landscapes

  • Engineering & Computer Science (AREA)
  • Water Supply & Treatment (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Environmental Sciences (AREA)
  • Structures Of Non-Positive Displacement Pumps (AREA)
  • Details Of Reciprocating Pumps (AREA)

Abstract

Il est prévu dans le récipient contenant le liquide de l'appareil un dispositif (80) pour l'enroulement des conduites principales et de distribution, ainsi qu'une pompe (70) et des raccords (24) de distribution. Les composants électriques peuvent par exemple être montés à l'intérieur du dispositif d'enroulement. L'appareil peut être utilisé pour l'arrosage pendant les vacances ou pour l'arrosage permanent des plantes. Un grand avantage de l'appareil d'arrosage est de pouvoir être rangé facilement, grâce aux conduites en matière souple. L'appareil peut être installé et démonté en quelques minutes et aussi être utilisé vu sa faible hauteur comme élément décoratif d'un groupe de plantes.
EP83901188A 1982-04-10 1983-04-11 Appareil d'arrosage pour plantes Pending EP0105303A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE19823213492 DE3213492A1 (de) 1982-04-10 1982-04-10 Bewaesserungsgeraet fuer pflanzen
DE3213492 1982-04-10

Publications (1)

Publication Number Publication Date
EP0105303A1 true EP0105303A1 (fr) 1984-04-18

Family

ID=6160770

Family Applications (1)

Application Number Title Priority Date Filing Date
EP83901188A Pending EP0105303A1 (fr) 1982-04-10 1983-04-11 Appareil d'arrosage pour plantes

Country Status (6)

Country Link
EP (1) EP0105303A1 (fr)
JP (1) JPS59500499A (fr)
AU (1) AU1474283A (fr)
DE (1) DE3213492A1 (fr)
IT (1) IT8348076A0 (fr)
WO (1) WO1983003520A1 (fr)

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Publication number Priority date Publication date Assignee Title
IT218393Z2 (it) * 1989-07-20 1992-05-05 Uniflex Utiltime Spa Apparecchiatura integrata di distribuzione idrica.
FR2653638B1 (fr) * 1989-10-31 1993-02-19 Baissus Claude Dispositif automatique et autonome d'arrosage des plantes en pot.
FR2666719B1 (fr) * 1990-09-13 1994-01-21 Peugeot Outillage Electrique Dispositif d'arrosage, notamment de plantes d'appartement.
WO2003084311A1 (fr) * 2002-04-05 2003-10-16 Karakilic Mehmet Dispositif d'irrigation electromecanique programmable a usage domestique
EA015113B1 (ru) * 2009-04-21 2011-06-30 Игорь Александрович Лайков Механизм запуска сифона в системе полива растений
JP6455769B1 (ja) * 2018-03-12 2019-01-30 光テクノ株式会社 太陽光発電灌水装置

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Publication number Priority date Publication date Assignee Title
DE2114205A1 (de) * 1971-03-24 1972-09-28 Gross & Froelich Vorrichtung zum selbsttaetigen Giessen von Pflanzen
DE2556536A1 (de) * 1975-12-16 1977-06-30 Peter Dipl Ing Gratza Geraet zur bewaesserung von topfpflanzen

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See references of WO8303520A1 *

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JPS59500499A (ja) 1984-03-29
DE3213492A1 (de) 1983-10-27
IT8348076A0 (it) 1983-04-11
AU1474283A (en) 1983-11-04
WO1983003520A1 (fr) 1983-10-27

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