Irrigation system ground spike

Abstract

An irrigation system ground spike for securing at least one component of an irrigation system includes a spike portion for penetrating soil to hold the ground spike in position and at least two holding portions. Each holding portion holds a respective component of an irrigation system wherein a first of the two holding portions differs from a second of the two portions so facilitating use of the spike for selectively securing respective different components. In particular one of the holding portions is arranged for holding tube or hose of a first diameter and another of the holding portions is arranged for holding tube or hose of a second diameter.

Claims

1. An irrigation system ground spike for securing at least one component of an irrigation system, the ground spike comprising a spike portion for penetrating soil to hold the ground spike in position and at least two holding portions, each holding portion for holding a respective component of an irrigation system wherein a first of the two holding portions differs from a second of the two portions so facilitating use of the spike for selectively securing respective different components, wherein the ground spike comprises a main body portion from which the spike portion projects, one of the holding portions comprises a supply hose securing lug which projects from the main body portion, the ground spike comprises a second supply hose securing lug such that there is a pair of hose securing lugs each projecting from a respective opposite side of the main body, the lugs configured to retain supply hose and for use by a user when removing the ground spike from the ground, and each lug defines a space between the main body portion and the respective lug which acts as a supply hose receiving portion.

2. An irrigation system ground spike according to claim 1 in which one of the holding portions is arranged for holding tube or hose of a first diameter and another of the holding portions is arranged for holding tube or hose of a second diameter.

3. An irrigation system ground spike according to claim 1 in which the ground spike comprises any one of, or any combination of: a micro tube grip, a supply hose securing lug, an irrigation connector attachment portion for attaching an irrigation connector to the ground spike, an irrigation outlet component mounting portion for mounting an irrigation outlet component on the ground spike.

4. An irrigation system ground spike according to claim 1 in which the ground spike is of a single piece of material.

5. An irrigation system ground spike according to claim 1 in which one of the holding portions comprises a part circular cut out in the main body portion, which cut out is for holding a micro tube.

6. An irrigation system ground spike according to claim 1 in which one of the holding portions comprises a part circular cut out in the main body portion which cut out is for holding a micro tube and in which the part circular cut out defines a tube receiving region having a mouth through which the tube may be introduced whilst the securing lug and main body define a hose receiving region having a mouth through which the hose may be introduced, wherein the mouth of the tube receiving region is smaller than the mouth of the hose receiving region.

7. An irrigation system ground spike according to claim 1 in which the ground spike comprises a pair of opposing arms extending from the main body portion, wherein an irrigation connector attachment portion and/or an irrigation outlet component mounting portion comprise the opposing arms.

8. An irrigation system ground spike according to claim 7 in which the arms define a first slot between the pair of arms on the one hand and the main body portion in the other hand.

9. An irrigation system ground spike according to claim 8 in which the arms define a second slot transverse to the first slot and between the arms themselves.

10. An irrigation system ground spike according to claim 1 in which a groove is provided in the main body portion to act as a guide for micro tube.

11. An irrigation connector arrangement comprising ground spike according to claim 1 and an irrigation connector attached to the ground spike.

12. An irrigation connector arrangement according to claim 11 in which the irrigation connector and ground spike comprise complementary attachment portions allowing the connector to be mounted on the spike and the orientation of the connector to be varied relative to the spike.

13. An irrigation connector arrangement according to claim 12 in which the attachment portion on the connector extends at least part way around a retaining portion of the connector so as to present a plurality of different angularly spaced attachment regions at which the attachment portion of the spike may be selectively located.

14. An irrigation connector arrangement according to claim 13 in which the complementary attachment portions comprise indexing means for indexing relative movement of the attachment portions as the orientation of the connector is altered relative to the spike.

15. An irrigation system comprising at least two ground spikes according to claim 1, and at least two of: a length of supply hose, a length of micro tube, an irrigation connector, and an irrigation outlet component, wherein each of said two ground spikes holds a respective different one of said at least two of: a length of supply hose, a length of micro tube, an irrigation connector, and an irrigation outlet component.

16. An irrigation connector arrangement comprising: a ground spike for securing at least one component of an irrigation system, the ground spike comprising a spike portion for penetrating soil to hold the ground spike in position and at least two holding portions, each holding portion for holding a respective component of an irrigation system wherein a first of the two holding portions differs from a second of the two portions so facilitating use of the spike for selectively securing respective different components; an irrigation connector attached to the ground spike; wherein the irrigation connector and ground spike comprise complementary attachment portions allowing the connector to be mounted on the spike and the orientation of the connector to be varied relative to the spike, and wherein the attachment portion on the connector extends at least part way around a retaining portion of the connector so as to present a plurality of different angularly spaced attachment regions at which the attachment portion of the spike may be selectively located.

17. An irrigation connector arrangement comprising: a ground spike for securing at least one component of an irrigation system, the ground spike comprising a spike portion for penetrating soil to hold the ground spike in position and at least two holding portions, each holding portion for holding a respective component of an irrigation system wherein a first of the two holding portions differs from a second of the two portions so facilitating use of the spike for selectively securing respective different components; and an irrigation connector attached to the ground spike; wherein the irrigation connector and ground spike comprise complementary attachment portions allowing the connector to be mounted on the spike and the orientation of the connector to be varied relative to the spike, and wherein the complementary attachment portions comprise indexing means for indexing relative movement of the attachment portions as the orientation of the connector is altered relative to the spike.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Embodiments of the present invention will now be described, by way of example only, with reference to the accompanying drawings, in which:

(2) FIG. 1 schematically shows a micro irrigation system;

(3) FIG. 2 schematically shows one irrigation connector arrangement mounted on a supply hose, which together form part of the irrigation system shown in FIG. 1;

(4) FIGS. 3A and 3B schematically show a needle connector arrangement of the type used in the irrigation system of FIG. 1, with FIG. 3A showing an irrigation connector of the irrigation connector arrangement in a vertical orientation and FIG. 3B showing the irrigation connector in a horizontal orientation;

(5) FIG. 4 shows a ground spike which forms part of the irrigation connector arrangement shown in FIGS. 3A and 3B;

(6) FIGS. 5A to 5D show the ground spike of FIGS. 4A and 4B being used in a number of different waysFIG. 5A shows the spike holding micro tube, FIG. 5B shows the spike holding supply hose, FIG. 5C shows the spike holding an irrigation connector and FIG. 5D shows the spike holding a dripper unit; and FIGS. 6A and 6B show an alternative ground spike.

DETAILED DESCRIPTION

(7) FIG. 1 schematically shows a micro irrigation system of the type which may be used for watering plants in, for example, a domestic garden or other similar situation. The micro irrigation system comprises a supply hose 1 which is connected to a water supply (not shown). Mounted on the supply hose 1 are a plurality of irrigation connector arrangements 2 which serve to make a connection to the water supply hose such that water flowing in the water supply hose can be tapped off by the irrigation connector arrangement 2 and allowed to leave the supply hose 1 for watering purposes. Each irrigation connector arrangement 2 may have connected to it a respective water outlet component 3 such as, for example, a further length of hose or tubing, a dripper unit, a sprinkler unit, or so on. Each irrigation connector arrangement 2 comprises an irrigation connector 4 and ground spike 5 for securing it in place. The irrigation system comprises further ground spikes 5 for directly securing other components such as the supply hose 1, micro tube, dripper units, sprinkler units and so on.

(8) In such an irrigation system, the water supply hose 1 and outlet components 3 may be standard commercially available products. For example, the water supply hose 1 may be a length of standard garden hose.

(9) FIG. 2 shows one of the irrigation connector arrangements of FIG. 1 in more detail whilst mounted on the water supply hose 1. On the other hand, FIGS. 3A and 3B show the irrigation connector arrangement 2 in isolation and FIG. 4 shows the ground spike 5 alone.

(10) As mentioned above, each irrigation connector arrangement comprises an irrigation connector 4 mounted to a ground spike 5 for securing the irrigation connector 4 and hence a carried supply hose in position, as schematically illustrated in FIGS. 1 and 2. In the present embodiment the irrigation connector 4 is arranged for movement relative to the ground spike 5, such that the irrigation connector 4 may be orientated at different orientations relative to the spike 5. For example, in FIG. 3A the irrigation connector 4 is shown in an upright (or vertical) position whereas in FIG. 3B the irrigation connector 4 is shown in a horizontal position.

(11) The irrigation connector 4 comprises a hose retaining portion 41 for holding the supply hose 1 as shown in FIGS. 1 and 2. The needle connector 4 further comprises a hollow needle 6 with an open side window 61, which is arranged for projecting into a hose receiving region of the hose retaining portion 41, so as to penetrate into the interior of a supply hose 1 when located in the hose retaining portion 41.

(12) The irrigation connector 4 comprises a drive mechanism 45 for driving the hollow needle 6 from a retracted position, where the needle 6 does not extend into the hose receiving region, towards the extended position, shown in FIG. 3B, where it can penetrate through the wall of a carried supply hose.

(13) The irrigation connector 4 comprises a water outlet portion 43 which comprises a sealing clamp portion 44 for connecting an outlet component 3 such as a dripper, sprinkler unit or tubing to the irrigation connector 4.

(14) When the hollow needle 6 penetrates into the interior of a carried supply hose 1, there is a fluid communication path between the interior of the supply hose 1 and the interior of the irrigation connector 4 and any water outlet component 3 (see FIGS. 1 and 2) held in the irrigation connector 4.

(15) Referring particularly to FIG. 4, the ground spike 5 comprises a main body portion 51 from which a spike portion 52 projects. The spike portion 52 is arranged for penetrating ground to secure the ground spike and items held by it. The spike portion 52 comprises a strengthening rib 52a. A pair of securing lugs 53 project from the main body 51. These lugs project from opposing sides of the main body 51 and are useful for retaining supply hose as well as for use by a user when removing the ground spike 5 from the ground. Rib portions 51a are also provided on the main body 51 to assist the user grip of the ground spike 5.

(16) The main body 51 comprises a part circular cut-out 54 which is arranged as a micro tube grip, thus allowing the ground spike 5 to secure micro tube in position. A groove 55 (see FIG. 3A) is provided in one side of the main body 51 which is arranged for guiding and/or gripping micro tube which is connected to an irrigation outlet component held in an irrigation outlet component mounting portion 56 of the spike. The ground spike 5 also comprises an attachment portion 57 for use in attaching the irrigation connector 4 of the type described above to the ground spike 5.

(17) The lugs 53, part circular cut-out 54, groove 55, mounting portion 56 and attachment portion 57 can each be considered as respective holding portions. These holding portions differ from one another and are arranged for holding respective different components which will be used in an overall irrigation system.

(18) FIGS. 5A-5D show examples of a ground spike 5 being used to hold different components and making use of these different holding portions.

(19) The lugs 53 define a space between the main body portion 51 and the respective lug 53 which can act as a supply hose receiving portion. It will be noted that this region has a mouth of a dimension which is chosen for allowing the insertion of a supply hose diameter such that the lug 53 may be located over a supply hose when the ground spike is driven into the ground. FIG. 5B shows a ground spike 5 holding supply hose 1 in this way.

(20) On the other hand, the part circular cut-out 54 and groove 55 are arranged to have a dimension which is suitable to accept micro tube. Thus the part circular cut-out 54 has a mouth of a smaller dimension than that between the lugs 53 and the main body 51. FIG. 5A shows micro tube located and held in the part circular cut-out 54.

(21) FIG. 5C shows an irrigation connector 4 held in the attachment portion 57 of the ground spike 5 whilst FIG. 5D shows a multi-function unit M arranged as a dripper unit held in the irrigation outlet component mounting portion 56.

(22) The ground spike 5 comprises a pair of arms 57b which provide the attachment portion 57 for attaching an irrigation connector 4 to the spike 5. The arms 57b project from the main body 51 of the ground spike 5 towards one another. As such they define a first slot between the arms 57b and the main body 51 and a second slot between the arms 57b themselves. The arms 57b also provide a location at which a irrigation component can be attached. This is supplementary to the irrigation component mounting portion 56 provided in the side of the main body 51. In both cases a flange F (see FIG. 5D) of the irrigation component can be slid into engagement with a slot provided in the spike 5. The two mounting portions allow an irrigation component to be connected at respective different orientationse.g one vertical and one horizontal.

(23) As mentioned above, the irrigation connector 4 is arranged to be orientatable at different angles relative to the ground spike 5. The irrigation connector 4 comprises an attachment portion 47 which is arranged to be complimentary with the attachment portion 57 on the ground spike 5. These complementary attachment portions 47, 57 allow the connector 4 to be mounted on the spike 5 and the orientation of the connector 4 to be varied relative to the spike 5. The attachment portion 47 on the irrigation connector 4 extends part way around the retaining portion 41 so as to present a plurality of different angularly spaced attachment regions at which the attachment portion 57 of the spike 5 may be selectively located.

(24) The attachment portion 47 of the irrigation connector 4 comprises a runner 47 which is accepted in the slots defined by the arms 57 on the spike 5. The attachment portions 47, 57 comprise indexing means for indexing relative movement of the attachment portions as the orientation of the irrigation connector 4 is altered relative to the spike 5. The attachment portion 47 on the irrigation connector 4 comprises a series of projections and recesses 47a and 47b (see FIGS. 3A and 3B) and the attachment portion on the spike comprises projections 57a. The projections on the spike 5 are arranged to ride over a respective one of the projections 47a on the irrigation 4 connector as the irrigation connector 4 is moved from one index position determined by a respective one of the recesses 47b to another. When the spike 5 is mounted on the irrigation connector 4, the runner 47 is captured in the slots defined by the arms 57. The runner 47 is mounted on a supporting stem 47c and projects from either side of the stem. The arms 57b of the attachment portion 57 on the spike wrap around the extending portions of the runner and capture the runner 47. Resilience in the arms 57b allows the indexing movement. The projections 57a on the spike 5 act on a face of the retaining portion 41 which is opposite the extending portions of the runner.

(25) In an alternative the projections 57a may be omitted. This reduces the force needed to move between indexed positions.

(26) The multi-function unit M shown in FIG. 5D comprises a body portion M1 and a nut portion M2. The body portion M1 has a spigot (not shown) arranged to connect to micro-tube and comprises the flange F mentioned above which can be accepted and held in a spike 5. In FIG. 5D the multi-function unit M is held in a first (horizontal) orientation in the spike 5. In this case the flange F is held in the irrigation component mounting portion 56. The unit M may also be held in a second (vertical) orientation. In this case the flange F is held by the arms 57b in the above mentioned slot. The nut portion M2 provides the function for the unit M and can be tightened onto the body portion M1. In FIG. 5D the nut portion is a dripper nut portion. In alternatives the unit may be provided with a shrubbler nut (providing a mini-sprinkler outlet) or a clamping nut to allow connection to another piece of micro tube.

(27) FIGS. 6A and 6B show an alternative spike 5 which is similar to that described above but has a different arrangement in the main body 51 and attachment arms 57b.

(28) In this case, the part circular cut-out 54 is provided in the side of the main body 51. Further the arms 57b are L-shaped and project from the main body with their respective foot uppermost. As best seen in FIG. 6B, the free ends of the L-shaped arms 57b are shaped so as to provide a keyhole shaped slot in what is the upper surface of the spike. This keyhole shaped slot provides the irrigation component mounting portion 56 in this case. A dripper unit such as the one shown in FIG. 5D may be slid into engagement with the large dimension portion of the keyhole shape slot 56.