Water retention net

Details Water retention net Water retention net

1997-08-26

2002-06-04

Juska, Cheryl A. (Department: 1771)

Fabric (woven, knitted, or nonwoven textile or cloth, etc.)

Scrim

C442S118000, C442S312000, C066S196000, C066S195000

Reexamination Certificate

active

06399523

ABSTRACT:

TECHNICAL FIELD
The present invention concerns a water retention net which is mainly utilized, for example, in greening stabilization of slopes or the like, greening treatment of deserts, cultivation of agricultural plants and the like.
BACKGROUND OF THE INVENTION
Heretofore, in a vegetation treatment with an aim of protection and greening stabilization of slopes, nets made of metal mesh or synthetic resin materials have been used in which the nets are laid over the slopes to prevent falling of soils and sands and then vegetation materials such as seeds and brought-in soils are sprayed.
However, since nets used generally have scarce water retentivity by themselves and tend to be dried and, accordingly, water required for growing plants can not be supplied enough for slopes in little rainfall districts or in arid places, so that it has been necessary to append non-woven fabrics retaining a water retention agent. Alternatively, it has been necessary to admix the water retention agent per se, for example, with brought-in soils.
Further, in recent years, use of steric structure nets in which string portions forming the net mesh are constituted into a wall or like other steric structure has been considered in the vegetation treatment with an aim of preventing the vegetation materials from being flushed away or scattered easily by window and rainfall or falling together with soils and sands (for example, JP-A-03183820(Japanese Patent Laid-Open Hei 3-183820)).
However, even in such nets, since constituent yarns are made, for example, of synthetic resin monofilaments and scarcely have water absorbing property by themselves, no sufficient water retention can be provided by the nets alone.
Further, if the net mesh is made excessively fine, it rather hinders fixation and growing of plants, increases the amount of yarns used, makes the net heavy and difficult to handle with, and expensive as well.
Furthermore, for the greening of deserts, porous pipe materials are buried underground or arranged on the surface of the ground and water is passed through the pipes to supply water to surface ground layers for instance. However, this results in problems that control for the amount of water supply is difficult and water supply is localized or partialized and it is difficult to economize water because of water evaporation.
Further, while it has been attempted to improve the water retentivity by directly mixing, for example, water absorbing resin polymers into soils and sands of deserts. However, since there is a difference in the specific gravity between the water absorbing resin polymers and soils and sands, they are not mixed uniformly but tend to be localized, so that it is difficult to ensure uniform water retention over the entire area. Further, since the water absorbing resin polymers are poor in the weather resistance, it is almost impossible to use them for long years with no loss of the water retaining effect.
The present invention has been accomplished in view of the foregoings and intends to provide a water retention net having a water retentivity not obtainable in conventional nets and capable of being used suitably to water retention or water absorption in vegetation treatment for slopes, greening treatment for deserts or green treatment of cities, particularly, in steric structure nets as well as in usual nets made of synthetic fiber yarns.
DISCLOSURE OF THE INVENTION
The water retention net according to the present invention for solving the foregoing subjects comprises a net prepared by warp-knitting in which a water absorbing resin or a water retention agent mainly comprising the resin is deposited to a string portion forming a net mesh.
According to the water retention net of the present invention, since the water absorbing resin or the water retention agent mainly comprising the resin is deposited to the string portion forming the net mesh, water given by spraying or rainfall or water in the ground or air is absorbed and retained in the water retention agent. Particularly, in the net prepared by warp-knitting, since the string portion comprises a continuous sequence of knit meshes, the water retention agent is easily retained in the knit mesh opening portion to increase the amount of water retained. Further, thus retained water is gradually released. Accordingly, a satisfactory function of supplying water can be provided by laying the net, for example, on the slopes of arid places or waste lands.
The water retention net of the invention is a steric structure net in which the string portion forming the net mesh has a steric shape having air transmittable and water transmittable gap spaces wherein the water absorbing resin or the water retention agent mainly comprising the resin is deposited at least on one side substantially over the entire area thereof.
According to the water retention net of the present invention, since the net constitutes, as a whole, a steric structure having a required thickness, it possesses satisfactory air transmittability and water transmittability by the possession of gap spaces in the steric string portion. In addition, since the water retention agent is deposited at least on one side of the net, it has excellent water retentivity in the same manner as described above. Therefore, when it is laid and used, for example, on the slopes of arid places or waste lands, it has an effect of preventing falling of soils and sands and vegetation materials by the net and provides a satisfactory function of supplying water.
In the steric structure net, according to the invention the string portion is constituted into a steric shape having air transmittable and water transmittable gap spaces with front and back fabric portions knitted at a width for one or plurality of wales respectively by warp knitting and connecting yarns for connecting both of the fabric portions, and the string portion is continuous in the knitting direction and knotted alternately with string portions which are in continuous on both sides in the front and back string portions respectively.
In this invention, not only satisfactory air transmittability and water transmittability can be ensured by the steric structure of the string portion defining the net mesh but also the water retention agent can be deposited concentrically by utilizing fine gap spaces and large surface area formed by knitting the front and back fabrics of the string portion. Therefore, the water absorption and water retention by the water retention agent, combined with the water retention by the assembly of the fibers, can increase the water retention as the entire net and, also in combination with the steric string portion that serves as the water supply channel, can provide a further excellent function of water supply.
Further, it is possible to use a steric structure net in which string portion formed by the front and back fabric portions and the connection yarns is knotted with adjacent string portions at the front and back fabric portions on every predetermined pitch in the continuing direction while being positionally displaced from each other, and the portions of the connection yarns for connecting the front and back fabric portions in each of the string portions are alternately inclined rightwardly and leftwardly to form a truss structure.
In this case, when load and pressure exert on the net in the direction of the thickness, they act so as to regulate the turning-down of the string portions to each other and the shape of the net mesh and the steric structure of the net are stabilized. That is, it is strong to the load and pressure in the direction of the thickness, excellent in the pressure resistance and shape retainability and has good. elastic force. Accordingly, also when it is buried and used underground, the string portion is not collapsed but keeps a steric state to possess a satisfactory water supply function.
Furthermore, even if a net mesh of a relatively large opening is formed, since the ratio of area occupied by the string portions is considerably large for the entire net in average and the surface area

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