CN101581390A - High-pressure hydraulic reinforced hose - Google Patents

Abstract

The present invention relates to a hydraulic hose, in particular a high-pressure hydraulic reinforced hose, comprising an inner-layer hose structure made of flexible material to be reinforced, at least a group of several steel cables made of high-tensile strength material, a group of the steel cables made of high-tensile strength material is winded in the inner-layer hose structure, the several steel cables made of high-tensile strength material form at least a reinforced layer, which covers a least 80% area of outer surface of the inner-layer hose structure. The invention has advantages of: high structure compactibility, high stability and flexibility of torsion, high flexibility in high pressure difference between inside and outside, in addition, the steel wires have greater filling factor, reduced reinforced thickness, anti-abrasion, long service life, may not effect explosion and pulse resistance, and need few material.

Description

High-pressure hydraulic reinforced hose

Technical field

The present invention relates to a kind of hydraulic hose, especially a kind of high-pressure hydraulic reinforced hose that adopts layer of steel wire to reinforce at least.

Background technique

As everyone knows, the demand for high-pressure hydraulic reinforced hose continues to increase.In fact, hydraulic hose extensively is applied to the hydraulic system in industry and any other field.No matter require body bear inner high voltage or outside the occasion of high pressure, or the interior occasion of body without any hydraulic pressure, especially requiring body to bear inside and outside High Pressure Difference, and keeping simultaneously in the environment of enough suppleness, hydraulic hose is being brought into play important effect.Because this special functional requirement, the design of hydraulic hose must be satisfied: guarantee internal structure closely as far as possible, and hose diameter reduce or situation about not strengthening at least under increase and reinforce steel wire quantity.Therefore the mentality of designing of hydraulic hose is round " under explosion that does not influence hydraulic hose and pulsating pressure prerequisite; use less raw material to produce closely knit, pliable and tough, as to reinforce thinner thickness hydraulic hose " all the time, its concrete grammar is: first kind: by increasing the stretching resistance of circular section steel wire, reduce diameter simultaneously; Or second kind: increase the axial cross section of steel wire, and reduce vertical vertical sectional height of steel wire.Use this two kinds of principles, thus caused employing " high strength ", " superhigh strength " and " utmost point superhigh strength " the reinforcing steel wire solution and adopt the mentality of designing of cross section flat wire." cross section flat wire " is meant by two rollers and rolls the flat wire that forms: this type of steel wire forms the plane rolling on the action direction, and rolls the streamlined arc edge that forms nature on the action direction in nothing.If use first kind of solution,, limited the intrinsic mechanical property of steel wire owing to the physics and the chemical characteristics narrow limitation of wire material itself.In fact, the common circular cross-section steel wire material that adopts, when reaching capacity tensile strength 3350MPa, very easily cause material section crack and material brittle failure, this has greatly limited and has used small-sized circular section steel wire further to strengthen the possibility of the ability of hydraulic hose in big, medium caliber flexible pipe.Different is, the cross section flat wire has two parallel surfaces and two owing to roll the side arc surface that nature forms, and forms more closely knit and compression resistance can not change the advantage of ruggedized construction thereby have.In addition, because to the effect that rolls of circular section steel wire, the cross section flat wire can produce bigger fracture stretch rate and yield rate, and that the tensile strength of steel wire can keep is identical with the circular section steel wire.Be used to weave or the cross section flat wire of winding structure, have benefited from that surface of contact increases between steel wire, thereby can reduce the friction that betides in the Round Steel Wire, be i.e. " microseism wearing and tearing " effect.More than the advantage of cross section flat wire is described, but this geometrical construction also has its some inherent shortcomings; In the processing of flat cross section steel wire, because the discontinuity at the excessive place of plane and arc surface can make it be prone to the crack under the dynamic loads situation, and this just dynamic loads of the pressure pulse in the application process of hydraulic hose.In addition, another shortcoming of known cross section flat wire is, because two circular arc sides of flat cross section steel wire are the arc convex surface that forms naturally in the process of rolling, this can cause the metallic crystal saturation ratio of this circular arc side to reduce, and this can be represented by " fill factor ".Fill factor is the cross sectional area of material and has and this cross section equal widths and height and ratio between the rectangular area that forms.The fill factor of known cross section flat wire is usually less than 90%.At last, the cross section flat wire also has a shortcoming, promptly owing to due to the roller compaction processes, easily form danger inner or that the surface produces rift defect, and unforeseen fault just takes place at the application initial stage in hydralic hose that this defective causes, especially under the dynamic pulse load action.The product of alternative above-mentioned hydraulic hose is described in patent US 6.390.141, a kind of hydraulic hose of twine reinforcing by wire of wherein touching upon, be wire by being spirally wound on the first layer tube of elastic material, and finally be embedded in formed hydraulic hose between first layer and the second layer elastic material.Describe according to this patent,, can produce and to resist the hydraulic hose that external high pressure reaches 28MPa based on its invention; This hydraulic hose with design is before this compared, and the collapse resistance of this hydraulic hose is significantly improved.This hydraulic hose has adopted the wire between one deck or limited which floor the embedding elastic material to reinforce, but can not be fit to require hydraulic pipe line to bear the applied environment of high and medium voltage.

Summary of the invention

One of purpose of the present invention is exactly to propose a kind of novel hydraulic flexible pipe that the requirement hydraulic pipe line bears inside and outside pressure that is suitable in order to solve the above-mentioned shortcoming that adopts prior art, show bigger torsional stability than known hydraulic hose, increase the high-pressure hydraulic reinforced hose of suppleness simultaneously.

Another target of the present invention is, a kind of high-pressure hydraulic reinforced hose is provided, and makes its reinforced structure have maximum fill factor in the allowed band.

Purpose of the present invention can be achieved through the following technical solutions:

High-pressure hydraulic reinforced hose, comprise the internal layer hose construction that flexible material to be reinforced is made, at least one group of several steel wires of making by high tensile, one group of several steel wire that described high tensile is made are wound in the internal layer flexible pipe, it is characterized in that: described several steel wires of being made by high tensile form one deck back-up coat at least, and described back-up coat covers 80% of internal layer flexible pipe exterior surface area at least.

High-pressure hydraulic reinforced hose is for twining the back-up coat that one deck at least is made up of high-tensile steel wires on the internal layer flexible pipe that the first floor is made by flexible material, thereby makes the flexible material of flexible pipe obtain reinforcement.

In addition, the feature of this high-pressure hydraulic reinforced hose and advantage also embody as follows at least:

This high-pressure hydraulic reinforced hose, wherein said when its back-up coat is two above multilayers, each back-up coat steel wire all can carry out coaxial positioning each other.

This high-pressure hydraulic reinforced hose, coaxial positioning between the steel wire of wherein said adjacent two layers back-up coat and the best winding angle that reaches can be realized volume utilization maximization.

This high-pressure hydraulic reinforced hose, wherein said each back-up coat steel wire winding direction is with respect to the axis alternate of internal layer hose construction.

This high-pressure hydraulic reinforced hose, wherein said have several cross section flat wires of one deck at least, each wall scroll steel wire cross section comprises two long edges and two minor face edge and forms with alternate the surrounding of length, described two long limits form inner concave arc surface with first radius R 1 to wall scroll steel wire central concave, and described two minor faces are to grow second radius R 2 between limit and the minor face and to form circular arc away from wall scroll steel wire center evagination natural torsion.

Other features and advantages of the present invention will be described (but do not have exclusiveness) in the first-selected embodiment to high-pressure hydraulic reinforced hose or similar flexible pipe, accompanying drawing paper according to the present invention is illustrated.Appended drawing is used for the purpose of explanation, not limit by shape or size.

Description of drawings

Fig. 1 represents in conjunction with Fig. 1 for the perspective structure schematic representation of cross section flat wire of the present invention.

Fig. 2 is two cross section flat wires of the present invention perspective structure schematic representation.

Fig. 3 is a structural representation of the present invention.

Embodiment

As shown in the figure, Ref. No. 1, be high-pressure hydraulic reinforced hose, the steel wire floor 2 that at least one floor height tensile strength steel wire is formed, its high-tensile of high tensile is 2750 ~ 3050Mpa, in first-selected embodiment, is preferably the high tensile steel, for the steel wire of at least one number of plies bar continuous bend is wound in the internal layer flexible pipe 3 that is made of flexible material, the flexible material of this internal layer flexible pipe can be rubber or polymer plastic (as industrial nylon formula plastics).This layer steel wire 2 determined one deck back-up coat 4,80% of minimum covering internal layer flexible pipe 3 outer surface 3a at least.

According to the present invention, the preferred forms that institute's desire forms is the shape of Fig. 1, it is characterized by the cross section that has two longer edges, the concave surface of first radius R 1 is towards wall scroll steel wire center, two than the minor face edge according to second radius R 2 between long limit and the minor face perpendicular to rolling the circular arc that direction forms naturally, its mode is along the peripheral formation of entire cross section circular contour.More accurate theory, first radius R 1 and second radius R 2 come down to equate.First-selected wire shape can adopt moulding instrument to form by mould roll extrusion and mould calendering procedure.And, obtain higher drag overall as desire, can adopt more back-up coats 4 of making by cross section flat wire 2a, can reach simultaneously the effect of each back-up coat coaxial positioning, its essence has been located the best angle that twines, promptly the axial direction along back-up coat accurately reaches 54 degree 44 minutes and 8 seconds, makes the volume utilization reach maximization simultaneously.Among the present invention, in the design of multilayer back-up coat, owing to consider the acting in conjunction effect maximization of each layer, the best winding angle of each layer is slightly different again, increases about 2～3 degree from inside to outside successively by experience.Among the present invention, the back-up coat winding direction is with respect to flexible pipe neutral axis alternate usually.

Confirm that now high-pressure hydraulic reinforced hose of the present invention meets preplanned mission and target fully, can be at the inside and outside optimum pressure that bears, meanwhile, than existing state-of-the-art flexible pipe, have higher torsional stability and pliability.Another advantage of hydraulic hose of the present invention is that the cross section flat wire has uniform serial section.Another advantage of hydraulic hose of the present invention is that the fill factor maximization makes the volume that is not used to reinforce minimize.More accurate theory, the fill factor of steel wire of the present invention can reach 90% to 99%, and circular cross section steel wire maximum then is 78.5%.Hydraulic hose of the present invention also has an advantage, and promptly outer section does not have discontinuous, and this has just improved fatigue resistance greatly.An additional advantage of hydraulic hose of the present invention is, as shown in Figure 2, when described back-up coat 4 is two above multilayers, location between the steel wire of adjacent two layers back-up coat 4 is the convex surface mutual superposition that constitutes with the concave surface of a back-up coat first radius R 1 formation and another back-up coat second radius R 2, the stacked system of several in other words back-up coats 4 is that the concave surface and the end of steel wire joins, this can improve lateral stability and maximum anti-microseism abrasiveness, makes contact force along surface distributed, and non-linear or marginal distribution.

High-pressure hydraulic reinforced hose of the present invention can change to some extent at the concrete condition of reinforcement material type and shape.In addition to the implementation, the present invention can also have other mode of executions.All employings are equal to the technological scheme of replacement or equivalent transformation formation, all drop within the protection domain of requirement of the present invention.

Claims (14)

1. high-pressure hydraulic reinforced hose, comprise the internal layer hose construction that flexible material to be reinforced is made, at least one group of several steel wires of making by high tensile, one group of several steel wire that described high tensile is made are wound in the internal layer flexible pipe, it is characterized in that: described several steel wires of being made by high tensile form one deck back-up coat at least, and described back-up coat covers 80% of internal layer flexible pipe exterior surface area at least.

2. according to the described high-pressure hydraulic reinforced hose of claim 1, it is characterized in that: when described back-up coat was two above multilayers, each back-up coat was all with coaxial positioning.

3. according to claim 1 and 2 described high-pressure hydraulic reinforced hoses, it is characterized in that: the best angle of locating between the steel wire of described adjacent two layers back-up coat turns to benchmark to realize volume utilization maximum.

4. according to above-mentioned one or the described high-pressure hydraulic reinforced hose of omnibus claims, it is characterized in that: described each back-up coat steel wire winding direction is with respect to internal layer flexible pipe axis alternate.

5. according to above-mentioned one or the described high-pressure hydraulic reinforced hose of omnibus claims, it is characterized in that: described high tensile is the high tensile steel.

6. according to above-mentioned one or the described high-pressure hydraulic reinforced hose of omnibus claims, it is characterized in that: the flexible material of described formation internal layer hose construction is a rubber.

7. according to above-mentioned one or the described high-pressure hydraulic reinforced hose of omnibus claims, the flexible material that it is characterized in that described formation inner tube is a polymer plastic.

8. according to above-mentioned one or the described high-pressure hydraulic reinforced hose of omnibus claims, it is characterized in that: the steel wire of described at least one group of several extension cross sections, each wall scroll steel wire cross section comprises two long edges and two minor face edge and forms with alternate the surrounding of length, described two long limits form inner concave arc surface with first radius R 1 to wall scroll steel wire central concave, and described two minor faces are to grow second radius R 2 between limit and the minor face and to form circular arc away from wall scroll steel wire center evagination natural torsion.

9. described according to Claim 8 high-pressure hydraulic reinforced hose is characterized in that: described first radius R 1 equates with second radius R 2.

10. according to the described high-pressure hydraulic reinforced hose of claim 9, it is characterized in that: the steel wire of described at least one group of several continuous bend.

11., it is characterized in that: described at least one group of several steel wire of making by the mould rolling step according to the described high-pressure hydraulic reinforced hose of claim 10.

12., it is characterized in that: described at least one group of several steel wire of making by the mould calendering procedure according to the described high-pressure hydraulic reinforced hose of claim 10.

13. high-pressure hydraulic reinforced hose according to claim 8, it is characterized in that:: when described back-up coat was two above multilayers, the location between the steel wire of adjacent two layers back-up coat was the convex surface mutual superposition that the concave surface that constitutes with a back-up coat first radius R 1 and another back-up coat second radius R 2 constitute.

14. according to above-mentioned one or the described high-pressure hydraulic reinforced hose of omnibus claims, it is characterized in that: the fill factor of described at least one group of several steel wires is 90%～99%.

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