CN105977591A - Sheath used for flexible waveguide assembly and flexible waveguide assembly - Google Patents

Abstract

The invention provides a sheath used for a flexible waveguide assembly. At least one side of the sheath is provided with an arc-shaped reinforcement member. The flexible waveguide assembly comprises a flange, a waveguide tube, and the sheath used for the flexible waveguide assembly. One end of the waveguide tube is disposed on the flange. The sheath used for the flexible waveguide assembly is disposed on the outer side of the waveguide tube in a sleeved manner, and one end of the above mentioned sheath is tightly attached to the flange. The sheath used for the flexible waveguide assembly and the flexible waveguide assembly are advantageous in that original assembly environment is not affected, and only the connection part of the sheath used for the flexible waveguide assembly is additionally provided with the reinforcement member, and therefore the strength of the interface between the sheath used for the flexible waveguide assembly and the flange is enhanced, and the service lifetime is prolonged; the sheath used for the flexible waveguide assembly is thinned, and the bending degree is increased, and the stress is reduced during the bending process, and then rubber consumption is reduced.

Description

A kind of sheath for flexible waveguide assembly and flexible waveguide assembly

Technical field

The present invention relates to a kind of sheath for flexible waveguide assembly and use the flexible waveguide group of sheath Part.

Background technology

Soft wave duct traffic condition and the restriction of installation environment, cause at rubber and flange-interface cracking or The problem affecting the life-span.

As shown in Figure 1 to Figure 3.Traditional soft waveguide assemblies includes: flange 1, rubber sleeve 2 and pipe Embryo 3.In order to improve the intensity at rubber and flange-interface, traditional method is the most just to increase rubber The wall thickness of set 2.

But, the increase of rubber sleeve thickness, the flexibility of waveguide certainly will be made to reduce, rubber materials Increase, cost increase.And, rubber sleeve is the thickest, and during bending, stress is the biggest, junction strong Although degree improves, but destructive power increases the most accordingly, and the damage of junction is not the most completely eliminated.

Summary of the invention

The purpose of the present invention aims to provide a kind of sheath for flexible waveguide assembly and flexible waveguide assembly, While increasing junction intensity, reduce the thickness of large-area sheath, above-mentioned existing to overcome The existing defects of technology.

The present invention provides a kind of sheath for flexible waveguide assembly, for the sheath of flexible waveguide assembly At least while having reinforcement；Reinforcement is circular arc.

Further, the present invention provides a kind of sheath for flexible waveguide assembly, it is also possible to have so Feature: reinforcement is symmetrical arranged.

Further, the present invention provides a kind of sheath for flexible waveguide assembly, it is also possible to have so Feature: reinforcement is semicircle.

Further, the present invention provides a kind of sheath for flexible waveguide assembly, it is also possible to have so Feature: reinforcement with for the sheath junction circular sliding slopes of flexible waveguide assembly.

Further, the present invention provides a kind of sheath for flexible waveguide assembly, it is also possible to have so Feature: reinforcement short transverse is divided into two ends, respectively straightway and tilting section；Straightway is tight Adjacent flange end.

Further, the present invention provides a kind of sheath for flexible waveguide assembly, it is also possible to have so Feature: it is characterized in that: the angular range of tilting section and straightway is 5 degree to 15 degree.

Further, the present invention provides a kind of sheath for flexible waveguide assembly, it is also possible to have so Feature: the length of tilting section is 2 to 5 times of length of straigh line.

It addition, the present invention also provides for a kind of flexible waveguide assembly, including, flange, waveguide embryo and on The sheath for flexible waveguide assembly stated；One end of waveguide embryo is arranged on flange；For soft ripple The sheath of guide assembly is enclosed within outside waveguide embryo；It is close to flange for one end of the sheath of flexible waveguide assembly.

Further, the present invention provides a kind of flexible waveguide assembly, it is also possible to has a feature in that and adds The circular arc of strong part is tangent with the maximum cylindrical of flange fastener.

Further, the present invention provides a kind of flexible waveguide assembly, it is also possible to have a feature in that method Orchid has connection boss；The profile of the profile and the sheath for flexible waveguide assembly that connect boss matches.

The present invention relates to a kind of sheath for flexible waveguide assembly and flexible waveguide assembly, former not affecting Under some assembly environments, increase reinforcement by the sheath for flexible waveguide assembly, reach to increase and use Sheath and flange-interface intensity and service life in flexible waveguide assembly.The structure of reinforcement is by flange Fitting surface carries out maximized utilization；Only enhance in junction for flexible waveguide assembly sheath with The intensity of flange-interface intensity, it is not necessary to the overall of sheath for flexible waveguide assembly increases wall thickness. So, the size for the wall thickness of the sheath entirety of flexible waveguide assembly effectively reduces so that flexibility Increasing, during bending, stress reduces, and rubber materials reduce the most therewith.

Accompanying drawing explanation

Fig. 1 is the axonometric chart of traditional soft waveguide assemblies.

Fig. 2 is the semi-cutaway of traditional soft waveguide assemblies.

Fig. 3 is the top view of conventional flange.

Fig. 4 is the axonometric chart of flexible waveguide assembly in the present invention.

Fig. 5 is the semi-cutaway of flexible waveguide assembly in the present invention.

Fig. 6 is the top view of flange in the present invention.

Fig. 7 is the semi-cutaway of the flexible waveguide assembly in the present invention.

Detailed description of the invention

The present invention will be further described with specific embodiment below in conjunction with the accompanying drawings.

As shown in Figures 4 to 7, flexible waveguide assembly includes: flange 10, sheath 20 and waveguide Embryo 30.

Flange 10 is rectangle, has center stepped hole 11, fixing groove 12, connects boss 13 and Screw hole 14.Waveguide embryo 30 is also arranged on the center stepped hole of flange 10 for one end of rectangle On 11.

In the present embodiment, the material of sheath 20 is rubber.The four of the position of flange are close to by sheath 20 Limit respectively has a reinforcement.Certainly, if flexibility be not very big in the case of, reinforcement can Only to arrange two, it is symmetrically disposed on relative two limit.

Reinforcement includes: straightway 21, tilting section 22 and changeover portion 23.

The cross section of straightway 21 is semicircle.The securing member that this semicircle and screw hole 14 are joined The maximum cylindrical of 14-1 is tangent.Largest fasteners 14-1 can be nut, can also be pad； Primarily to reserve the position that securing member is installed.As it is shown in fig. 7, tilting section 22 and straightway The angle of 21 is α, the angle α scope of tilting section and dielectric resilience pipe be 5 degree to 15 degree, excellent Elect 8 degree, 10 degree, 12 degree or 13 degree as.Length B of tilting section is the 2 of length of straigh line A To 5 times, preferably 3 to 4 times.Straightway 21 and tilting section 22 form adding of a fin shape Strong part.

Changeover portion 23 is quarter circular arc, and diameter dimension is identical with the cylindrical of screw gasket 14-1. Changeover portion 23, it can be appreciated that straightway 21 and the rounding in sheath 20 sideline, plays round and smooth The effect of transition, eliminates and connects stress.One end connecting boss 13 and sheath 20 of flange 10 Profile consistent.

Certainly, if the whole end face of flange 10 is bigger, the straightway 21 of reinforcement can also Not tangent with the maximum cylindrical of securing member 14-1, there is certain gap between the two.

Sheath 20 is enclosed within outside waveguide embryo 30；And be fixed in the fixing groove 12 of flange 10.Protect The connection boss 13 of flange 10 is close in one end of set 20.

The performance of flexible waveguide assembly:

Under not affecting original assembly environment, increase reinforcement by sheath, reach to increase sheath With flange-interface intensity and service life.Flange fitting surface is carried out maximized by the structure of reinforcement Utilize.

Only enhance the intensity of sheath and flange-interface intensity in junction, it is not necessary to the entirety of sheath Increase wall thickness.So, the size of the wall thickness C that sheath is overall effectively reduces so that flexibility increases, During bending, stress reduces, and rubber materials reduce the most therewith.

Claims (10)

1. the sheath for flexible waveguide assembly, it is characterised in that: described for flexible waveguide group The sheath of part at least while having reinforcement；Described reinforcement is circular arc.

2. the sheath for flexible waveguide assembly as claimed in claim 1, it is characterised in that: Described reinforcement is symmetrical arranged.

3. the sheath for flexible waveguide assembly as claimed in claim 1, it is characterised in that: Described reinforcement is semicircle.

4. the sheath for flexible waveguide assembly as claimed in claim 1, it is characterised in that: Described reinforcement and the described sheath junction circular sliding slopes for flexible waveguide assembly.

5. the sheath for flexible waveguide assembly as claimed in claim 1, it is characterised in that: Described reinforcement short transverse is divided into two ends, respectively straightway and tilting section；Described straightway It is close to described flange end.

6. the sheath for flexible waveguide assembly as claimed in claim 4, it is characterised in that: Described tilting section is 5 degree to 15 degree with the angular range of described straightway.

7. the sheath for flexible waveguide assembly as claimed in claim 4, it is characterised in that: The length of described tilting section is 2 to 5 times of described length of straigh line.

8. a flexible waveguide assembly, it is characterised in that: include, flange, waveguide embryo and such as The sheath for flexible waveguide assembly described in claim 1 to 7；

One end of described waveguide embryo is arranged on described flange；Described for flexible waveguide assembly Sheath is enclosed within outside described waveguide embryo；Institute is close in described one end for the sheath of flexible waveguide assembly State flange.

9. flexible waveguide assembly as claimed in claim 8, it is characterised in that: described reinforcement Circular arc tangent with the maximum cylindrical of described flange fastener.

10. flexible waveguide assembly as claimed in claim 8, it is characterised in that: described flange has There is connection boss；The profile of described connection boss is with described outside the sheath of flexible waveguide assembly Shape matches.