JP7305913B2 - hose cover - Google Patents

Description

TECHNICAL FIELD The present invention relates to hoses such as hydraulic hoses used in various types of machinery, and particularly to hose covers for their protection.

A hose cover is disclosed in Patent Document 1 below. This hose cover is woven using warp and weft and has a flat tubular shape. This hose cover is a so-called needle type. Nylon and polyester multifilaments are used for the warp and weft, and are not elastic.

Since such a needle type hose cover has a flat shape, it is troublesome to make a starting point when inserting the hose. Also, when installing the hose, metal fittings are required at the end of the hose, but since it is not elastic, the hose cover should be cut short, taking into consideration the length of the metal fittings so that it does not get caught on the metal fittings. I needed it. This was also one of the factors that made it difficult to cover the hose.

Furthermore, if the size of the hose cover is too large, it will become baggy, so it is necessary to tape the remaining portion, which is a time-consuming task.

The hose cover disclosed in Patent Document 2 below has a configuration in which linear bodies are woven into a cylindrical shape so that the inner diameter expands by contracting in the axial direction. The filamentous body is synthetic fiber, metal wire, or the like, and in the case of synthetic fiber, it is composed only of multifilaments as in the case of Patent Document 1. For this reason, although the knitting structure causes the fabric to shrink in the axial direction, it does not have high resilience.

In addition, when the hose to be covered is a heavy rubber hose used in a large machine or the like, a load is applied when the hose is rubbed, so high durability is required. However, the hose cover of Patent Document 2, which is woven only with multifilaments, does not have high durability.

Registered Utility Model No. 3187569 Japanese Utility Model Laid-Open No. 58-50295

SUMMARY OF THE INVENTION The main object of the present invention is to provide sufficient stretchability, resilience, and durability, and to facilitate insertion of a hose.

The means for that purpose is a hose cover that is made into a non-flat tubular shape using a wire and into which a hose is inserted, the wire is composed of a multifilament and a monofilament , and the wire is an S-twisted yarn. The hose cover is a Z-twisted yarn, and the S-twisted yarn and the Z-twisted yarn extend spirally in opposite directions with the longitudinal directions of the respective yarns oriented along the longitudinal direction of the hose cover.

In this configuration, the monofilaments that make up the wire, together with the multifilament, allow deformation of the wire and the gaps between the wires, and provide resilience when deformed. In addition, wear resistance and the like are improved to enhance durability.

According to the present invention, since a wire obtained by adding a monofilament to a multifilament is used, a hose cover having sufficient stretchability, resilience and durability can be obtained. Moreover, since the hose cover has a non-flat cylindrical shape, the hose can be easily inserted.

A perspective view of a hose cover. The front view of the hose cover in the state which covered the hose. The schematic diagram which shows the surface state of a hose cover. Explanatory drawing which shows the elasticity of a hose cover. Explanatory drawing which shows the formation aspect of an enlarged diameter part.

One mode for carrying out the present invention will be described below with reference to the drawings.

FIG. 1 shows a perspective view of the hose cover 11, and FIG. 2 shows a front view of the hose cover 11 in a state where the hose 31 is covered. The hose 31 is suitable for use in equipment with hydraulic actuators, and the hose cover 11 is particularly suitable for the rubber hose 31 . In FIG. 2, 32 is a fitting provided at the end of the hose 31 .

As shown in these figures, the hose cover 11 has an appropriate length substantially corresponding to the length of the hose 31 and has a non-flat cylindrical shape with a circular cross section. The interior of the hose cover 11 is an insertion space 12 having a circular cross-section into which the hose 31 is inserted. formed.

The hose cover 11 is formed by braiding the wire rod 14 into a braid using an existing string making machine (braiding device). The cross-sectional shape of the hose cover 11 is circular as described above, and the entire circumference is closed without cracks or openings in the circumferential direction. The thickness of the portion of the hose cover 11 other than the enlarged diameter portion 13 is appropriately set larger than the thickness of the hose 31 to be covered.

The wire 14 is composed of a multifilament 21 and a monofilament 22, as shown in FIG. That is, the wire 14 is constructed by adding a monofilament 22 to a multifilament 21 made up of a plurality of filaments. The mode of adding the monofilaments 22 is aligning, in which the longitudinal directions of the multifilaments 21 and the monofilaments 22 are aligned. Specifically, the monofilament 22 is positioned inside the multifilament 21 and the outer peripheral surface of the monofilament 22 is covered with the multifilament 21 . In addition, the wire rod 14 can be configured by, for example, spirally winding the monofilament 22 around the outer peripheral surface of the multifilament 21 .

The multifilament 21 and the monofilament 22 are made of appropriate synthetic resin, and chemical fibers such as polyester and nylon are preferably used. Super fibers and high-performance fibers can also be used.

The number of monofilaments 22 used for one wire rod 14 is appropriately set according to the thickness and elasticity of the monofilaments 22, but from the viewpoint of handleability, etc., it is preferable to use one as shown in the illustrated example. . Moreover, all the wires 14 may be provided with the monofilaments 22 , or only some of the wires 14 may be provided with the monofilaments 22 . In this case, it is considered that the monofilaments 22 are evenly arranged.

The ratio of the multifilament 21 and the monofilament 22 is appropriately set. About 30% is preferable.

For example, one wire 14 can be four or five 1000 denier multifilaments 21 made of polyester and two 600 denier monofilaments 22 made of polyester. When four 840-denier multifilaments 21 made of nylon are used, two 600-denier monofilaments 22 made of polyester can be used.

The number of wires 14 (the number of strands) varies depending on the desired thickness of the hose cover 11, but can be set to 24 to 96, for example. A case where one wire 14 is composed of three 1000 denier multifilaments and one 600 denier monofilament will be described. When the hose cover 11 is manufactured using 24 wires 14, the multifilament is 72 by the formula [3 × 24], so 1000 denier × 72, and the monofilament is 24 by the formula [1 × 24]. It is 600 denier x 24 and the ratio of monofilament to multifilament is 20%. In addition, when the hose cover 11 is configured using 96 wires 14 consisting of six 1000 denier multifilaments and three 600 denier monofilaments, the number of multifilaments is 576 according to the formula [6 × 96]. 1000 denier x 576, and since there are 288 monofilaments according to the formula [3 x 96], it is 600 denier x 288, and the ratio of monofilaments to multifilaments is 30%.

As shown in FIG. 3, there are two types of wire rods 14 used in the production of the cord: S-twisted yarn 14a and Z-twisted yarn 14b. The ratio of S-twist 14a to Z-twist 14b is 1:1. The S-twisted yarn 14a and the Z-twisted yarn 14b extend spirally in opposite directions with the longitudinal directions of the respective yarns 14a and 14b directed along the longitudinal direction of the hose cover 11. As shown in FIG. Such a braid is formed by braiding the S strands 14a on the clockwise carrier of the stringer and the Z strands 14b on the counterclockwise carrier.

The braided sleeve 11a made by the braiding machine is heat-set to stabilize its form and dimensions, then cut to a required predetermined length, and finally the enlarged diameter portion 13 is formed. be done.

The braided wire 14, that is, the braid made up of the S-twisted yarn 14a and the Z-twisted yarn 14b has fine mesh-like gaps between the wires 14, and deformation of the intersections of the wires 14 themselves and the wires 14 causes the deformation of the wires 14. As shown in 4, it is deformable to expand and contract in the longitudinal and radial directions.

For this reason, the aforementioned enlarged diameter portion 13 is set and formed in a widened shape as shown in FIG. That is, using the jig 17 shown in FIG. 5, the end portion of the hose cover 11 is shaped while heating the portion to be the enlarged diameter portion 13 again. The jig 17 has a substantially conical shaping portion 17a having a shape corresponding to the desired enlarged diameter portion 13, and a base 17b for supporting the shaping portion 17a, and is entirely made of metal.

When shaping, the end of the braided sleeve 11a before the enlarged diameter portion 13 is formed is heated to be softened, and the end of the braided sleeve 11a is inserted into and pressed against the shaping portion 17a of the jig 17. The part is set to the shape of the outer peripheral surface of the shaping part 17a.

The hose cover 11 having such a configuration is highly deformable. A hose cover 11 (a multifilament is a formula [4 × 64] 1000 denier × 256 because there are 256, and 600 denier × 128 because there are 128 monofilaments according to the formula [2 × 64], and the ratio of monofilaments to multifilaments is 30%). , were as follows:

The inner diameter of the hose cover 11 was about 13 mm, and a hose with an outer diameter of 17 mm or a hose with an outer diameter of 33 mm could be easily inserted into this hose cover 11 . As for the length, when the length of 20 cm was compressed in the longitudinal direction, it became 12 cm. That is, the length is 60% shorter and the thickness is 180% thicker.

The hose cover 11 made of the braid configured as described above can be stretched and contracted as described above. The wire rod 14 constituting the hose cover 11 is composed of a multifilament 21 and a monofilament 22 . Therefore, when the hose cover 11 is contracted in the longitudinal direction, it becomes thicker in the radial direction as indicated by the phantom lines in FIG. be. When the contracting force is released, the repulsive force of the monofilament 22 causes the hose cover 11 to return to its original shape, as indicated by the solid arrow in FIG. Since the monofilament 22 is aligned with the multifilament 21, the repulsive force of the monofilament 22 can be used well. In particular, since the monofilament 22 is positioned inside the multifilament 21 , the repulsive force can also be transmitted to the multifilament 21 .

In order to cover the hose 31 with the hose cover 11 , the hose 31 is inserted from the enlarged diameter portion 13 at one end of the hose cover 11 . Since the hose cover 11 has the enlarged diameter portion 13, it is easy to aim and insert the hose 31. - 特許庁In addition, since the hose 31 can be expanded and contracted, even if the mouthpiece 32 of the hose 31 exists, the portion through which the mouthpiece 32 passes expands in the radial direction. Therefore, the insertion work is easy.

In the state of covering the hose 31, the range of applicable hoses 31 is wide due to the stretchability and resilience of the hose cover 11. FIG. In other words, there is no need to manufacture a hose cover 11 having an optimum shape for each hose 31, and labor can be saved in the manufacture and handling of the hose cover 11.例文帳に追加

Further, since the hose cover 11 has both stretchability and resilience, it has a high followability to the hose 31 and can protect the hose 31 well in the covered state.

Moreover, since the wire rod 14 constituting the hose cover 11 is composed of the multifilament 21 and the monofilament 22, the wear resistance is improved as compared with the case where the wire rod 14 is composed of the multifilament 21 alone. In addition, since the monofilament 22 is positioned inside the multifilament 21, the mesh between the wires 14 can be made finer than when the wire 14 is composed only of the monofilament 22, and no extra gaps are formed. The hose 31 can be well protected.

In addition, since the wire rod 14 is twisted yarn, it tends to become three-dimensional when stretched and has high abrasion resistance. In addition, in spite of being highly deformable as described above, it also has the effect of preventing filament loosening during deformation.

In addition, since the S-twisted yarn 14a and the Z-twisted yarn 14b, which are the wires 14, have their longitudinal directions oriented along the longitudinal direction of the hose cover 11, durability against wear is also enhanced from this point. can improve.

Since the gap between the wires 14 is small and the wear resistance is high, the hose cover 11 can sufficiently function as a protective cover even when the hose 31 is made of rubber and is heavy. can be done.

Although the monofilament 22 has a circular cross section in FIG. 3 showing one embodiment, the monofilament 22 may have an irregular cross section other than a circular cross section.

DESCRIPTION OF SYMBOLS 11... Hose cover 13... Expanded diameter part 14... Wire rod 14a... S twisted yarn 14b... Z twisted yarn 21... Multifilament 22... Monofilament 31... Hose

Claims (4)

A hose cover in which a hose is inserted into a non-flat cylindrical string made of wire,
The wire is composed of a multifilament and a monofilament ,
The wires are S-twisted yarn and Z-twisted yarn,
The S-twisted yarn and the Z-twisted yarn extend spirally in opposite directions with the longitudinal direction of each yarn oriented along the longitudinal direction of the hose cover.
hose cover. 2. The hose cover of claim 1, wherein said monofilament is aligned with said multifilament. 3. A hose cover according to claim 2, wherein said monofilament is located inside said multifilament. 4. The hose cover according to any one of claims 1 to 3 , wherein the longitudinal ends are formed with enlarged diameter portions that widen toward the ends.

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