DE4013262A1 - Storage device for thin hose, wire or cable - has cable passed in random loops around rotary component within outer housing - Google Patents

Abstract

The storage device comprises a housing (1) enclosing a rotary component (2) which projects from the housing (1) at one end (10). One end of the stored hose, core or cable (6) is clamped to the opposite end wall of the housing (1) its stored length being wound around the outside of the rotary component (2) in random loops, with its free end fed out from the housing (1) by passing it through the hollow open end (10) of the rotary component (2). Pref. the housing (1) is filled with a fluid (3) which has a similar physical density to that of the stored hose, wire or cable (6) and the rotary component (2) pref. has a dia. at least double the min. flexure radius of the latter. ADVANTAGE - Low -cost device ensuring min. wear on stored material.

Description

The invention relates to a device for storage tern of thin hose, wire or cable-like elasti chemical material according to the features in the preamble of the An saying 1.

This can be e.g. B. hoses, power supply trade cables or wires. In principle, all concerns detects where a relatively fixed component with a be borders rotatable component so that physical quantities, for example electrical or op table signals and information, force or moment quantities or even media such as gases and liquids safely and di rect, d. H. without physical separation, forwarded and can be transferred. Typical areas of application are pneumatics, hydraulics, fiber optic technology and Electrical engineering.

The transmission of signals or media from a relative fixed on a rotating component takes place at known proposals in that with both components connected material stored in a device and is spent as needed. A corresponding store  length of the material is available. The storage the storage length is done in different ways and way. However, it is always defined and is defined by suitable mechanical aids, such as winding grooves, winding drums with drives (DE-OS 34 23 342), coil springs (DE- PS 38 08 778, JP 59-1 49 276), suitable winding sense (DE-PS 31 33 842, DE-OS 30 08 544) or memory arrangement (DE-PS 22 31 661) secured.

It is typical of all these suggestions that mechani There are necessary and available facilities that arrange and realize the location of the storage length. These Facilities are complicated, prone to failure and technical complex and affect the lifespan of each Materials.

The problem underlying the invention is a device of the type described in the preamble of claim 1 create that while increasing the value in use by Ver minimizing wear on the material used is inexpensive enables more manufacturing.

According to the invention, this problem is solved in the in the characterizing part of claim 1 listed to paint.

This now makes it possible to change the memory length of a thin elastic material gently and safely in one Take up storage space without expensive management and To use guidance mechanisms. The storage can due to the regular or irregular screw helical guidance of the material between the rotations capable component and the housing so that a Ver guaranteed rotation of the component in both directions becomes. Wear-promoting stress on the material is almost impossible.  

The embodiment according to claim 2 includes a particular great functional reliability. The disc also serves in addition, the material flawlessly in the rotatable construction to transfer part without the material in an impermissible manner to claim torsion.

The features of claim 3 have the advantage of a stabi len material positioning in the area between component and Housing inner wall.

The sleeves freely rotatable on the shaft according to claim 4 additionally ensure the unhindered wear and tear free movement of the helical material in the housing.

Another embodiment of the invention is in the claim 5 marked. The winding diameter of the thin thread shaped and elastic material lies between the diameter of the rotatable component and the housing inner wall.

The fluid used enables the winding layers of the Material to lead undefined by the buoyancy force the effect of gravity on the turns as far as possible is going to be balanced. It will also influence the Windings with each other and with the inner wall of the housing excluded by minimal friction of the fluid. The win The material is exposed due to its elasticity itself by supporting and guiding the fluid. By the Fluid will continue to have external influences on the location of the Turns, e.g. B. shocks and vibrations, so Inertia, through the inertia, friction and damping development behavior canceled.  

To approximate floating of the thin, thread-like elasti To reach the material in the fluid has the material according to claim 6, a physical density, which if possible is equal to the density of the fluid. This is feasible. B. in that the material one or more times in one Hose with a suitable diameter is drawn in. Here can by the medium enclosed in the hose, for. B. Air density can be regulated.

The outside diameter of the component with limited rotation is equal to or greater than twice according to claim 7 minimal elastic bending radius of the material, creating a Overuse of the material is prevented.

The ratio of the inside diameter of the housing to the outside diameter Knife of the component is according to the features of the claim 8 dimensioned so that the product of the size of the component and permissible number of revolutions at least the circumference of the inside wall of the housing corresponds to alternating stresses to avoid the material.

The inner housing wall is circular according to claim 9 or polygonal. This doesn’t obstruct any corners, Edges or projections allow the Windun to move freely gene.

The invention is illustrated below in the drawings illustrated embodiments explained in more detail. It shows

Fig. 1 in the diagram a device for storing thin thread-like elastic material and

Fig. 2 in vertical longitudinal section an embodiment of a device for storing thin bandför shaped elastic material.

Referring to FIG. 1, a limited rotation enabled construction is in a housing 1, which serves as a guide and memory space, stored in part 2, which is designed as a hollow shaft. The housing 1 is with a fluid 3 suitable toughness, for. B. a silicone oil filled. The rotational ability of the construction part 2 is indicated by the double arrow PF.

A length section 5 of a thin, thread-like, elastic material 6 is clamped onto the housing wall 4 . It can e.g. B. act as an optical fiber.

From the clamping point 7 , the material 6 with its entire storage length is wound approximately helically and regularly around the component 2 . The other end 8 of the material 6 engages radially in the component 2 at 9 and is led out of the housing 1 via the section 10 of the component 2 protruding from the housing 1 .

Depending on the state of rotation of the component 2 relative to the housing 1 , the material 6 either lies against the component 2 or against the inner wall 11 of the housing or it is located arbitrarily in the fluid 3 in the form of irregular screw turns.

The technical design of the type shown in FIG. 1 is seen even with not further illustrated sealing devices, oil fill and drain plug, and the vent hole ver and has a display means also not shown in detail for each of the component 2 Verdrehzustand.

Fig. 2 shows a device 12 for storing tape-like material 6 a. This material 6 a is in the manner of a helical torsion spring between the inner surface 13 of a housing end face 14 and an adjacent to the opposite inner surface 15 of the other housing end face 16 , he stretching disc 17 clamped. The disc 17 is rotatably connected to a shaft 2 a, which is led beyond the housing end 16 . In this length section 18 , the shaft 2 a is provided with a longitudinal bore 19 . The longitudinal bore 19 is used to receive a longitudinal portion 20 of the disc 17 in the shaft 2 a transferred material 6 a. The other end 21 of the material 6 a is led out beyond the housing end face 14 .

So that when twisting relative to the housing 1 a, the turns of the material 6 a do not rub against the shaft 2 a inadmissibly, the shaft 2 a is covered with a plurality of sleeves 22 , which adjoin one another in the longitudinal direction of the shaft. The bushes 22 are arranged both rotatable relative to one another and to the shaft 2 a.

The outer diameter of the bushes 22 is smaller than the inner diameter of the band-shaped material 6 a. The radial extent of the band-shaped material 6 a is about four to eight times the material thickness. For example, it can be a material that has an outer diameter of 95 mm, an inner diameter of 65 mm and a material thickness of 2 to 3 mm.

Fig. 2 can still be seen that the ends of the shaft 2 a via bearings 23 in the housing end faces 14, 16 are ge.

In addition, FIG. 2 that the side on the housing end 16 led out end 18 of the shaft 2 a is coupled via a multi-V-belt 24 with a worm gear 25 which forms part of a not further illustrated twist indicator.

List of reference symbols

1 - housing
1 a - housing
2 - component
2 a - wave
3 - fluid
4 - housing end wall
5 - length section from 6
6 - material
6 a - band-shaped material
7 - clamping point
8 - end of 6
9 - Intervention in 2
10 - above section v. 2nd
11 - housing inner wall
12 - device
13 - inner surface
14 - housing face
15 - inner surface
16 - front of housing
17 - disc
18 - length section from 2 a
19 - longitudinal bore in 2 a
20 - length section from 6 a
21 - end of 6 a
22 - sockets
23 - rolling bearings
24 - multiple V-belts
25 - worm gear

Claims (9)

1. Device for storing thin hose, wire or cable-like elastic material ( 6, 6 a) of greater length, which is clamped between two mutually rotatable components ( 1, 1 a; 2, 2 a), characterized in that that the material ( 6, 6 a) in a screw-like arrangement wraps around a component ( 2, 2 a) rotatably mounted in a housing ( 1, 1 a), one end ( 5, 21 ) of the material ( 6, 6 a) fixed at one end ( 4, 14 ) of the housing ( 1, 1 a) and the other end ( 8, 20 ) at the opposite end of the housing ( 1, 1 a) via the rotatable component ( 2, 2 a) from the housing ( 1, 1 a) is performed. 2. Apparatus according to claim 1, characterized in that the material ( 6 a) designed like a band and in the manner of a helical torsion spring between the inner surface ( 13 ) of a housing end face ( 14 ) and an adjacent to the opposite inner surface ( 15 ) of the other housing end face ( 16 ) extending, with the component ( 2 a) rotatably connected disc ( 17 ) is clamped. 3. Apparatus according to claim 2, characterized in that the radial extent of the band-shaped material ( 6 a) corresponds approximately to four to eight times the material thickness. 4. Device according to one of claims 1 to 3, characterized in that the component ( 2 a) as a one-sided out of the housing ( 1 a) guided shaft formed from and of several, in the longitudinal direction of mutually closing bushes ( 22 ) relatively rotatable umman telt is whose outer diameter is smaller than the inner diameter of the material ( 6 a). 5. The device according to claim 1, characterized in that the material having a smooth surface ( 6 ) is thread-like and a fluid in the housing ( 1 ) ( 3 ) irregularly interspersed mechanically. 6. The device according to claim 5, characterized in that the material ( 6 ) has a physical density which is approximately equal to the density of the fluid ( 3 ). 7. The device according to claim 5 or 6, characterized in that the outer diameter of the construction part ( 2 ) is equal to or greater than twice the minimum elastic bending radius of the material ( 6 ). 8. Device according to one of claims 5 to 7, characterized in that the ratio of the housing inner diameter and outer diameter of the construction part ( 2 ) is dimensioned such that the product of the circumference of the component ( 2 ) and permissible number of revolutions at least the circumference of the inner wall of the housing ( 1 ). 9. Device according to one of claims 1 to 8, there characterized by that the inner Housing design is circular or polygonal.