DE3520881A1 - Hose having a vibration-absorbent property - Google Patents

Abstract

A hose having a vibration-absorbent property comprises a hose body in whose interior at least one vibration absorption element is arranged on whose two sides reflex damper parts are formed in the interior of the hose body. The vibration absorption element comprises a plug which is arranged in the interior of the hose body such that it is contact with the inner wall of said hose body, and a tubular element which is supported in the interior of the hose body by the plug. The tubular element has a predetermined external diameter which is less than a predetermined internal diameter of the hose body.

Description

description

The invention relates to a hose according to the preamble of claim 1. It is a hose Hose for the distribution of pressurized fluids, which is designed so that a pulsation or Oscillation of the fluids supplied by a pressure medium source is absorbed and dampened so by this Noise caused by vibration can be eliminated.

In general, fluid systems such as vehicle power steering systems contain a variety of hydraulic or pneumatic pressure systems and the like, a pressure medium source, for example a pump, an actuator to be operated by the pressure medium (pressurized fluid), and pressure supply and -abführrohre that connect the pressure medium source and the actuator with each other. Usually that pulsates from one Injection port ejecting fluid, which leads to a vibration of the pressure supply pipe and thus to noise.

In the case of strong vibrations, there are disadvantages such as unstable operation of the actuator and the like.

To eliminate such disadvantages, a vibration-absorbing hose has been used as the pressure supply pipe (JP-A-154586/1982). The well-known vibration-absorbing Hose is provided with two flexible tubes that extend in opposite directions within the hose body move. Not only is this hose difficult to assemble, it is also expensive. This hose contains in addition, only a cavity between the two flexible tubes, so that the vibration absorption effect is low.

The object of the invention is to provide a hose with vibration-absorbing To create property that easily

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can be assembled, is inexpensive to manufacture and, moreover, an increased vibration absorption effect owns.

According to the invention, this object is achieved by a hose having the features of claim 1.

This hose contains a hose body and at least a vibration absorbing member provided inside the hose body (in the passage of the hose body) is. The vibration absorbing member includes a plug which is inserted into the hose body so that it is in contact with a part of the inner wall of the hose body, and a tubular member with at least a part that is held on both sides of the plug and has an outside diameter that is less than is the inner diameter of the hose body. The vibration-absorbing hose constructed in this way is therefore with at least two reflex vibration damper parts such as reflex sound damper parts Mistake.

The hose body here represents an element that is located on the outer peripheral edge of the vibration absorption element arranged according to the invention and usually made of a flexible material (such as rubber, resin or the like) will. The hose body can also be made of metal.

The vibration absorbing member includes the plug which is arranged inside the hose body so that it is in contact with the inner wall of the hose body, as well as the tubular element, which consists of at least one Part consists and is worn on both sides of the stopper. The stopper can be made of metal such as steel, or brass similar or made of a flexible material such as rubber,

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Resin or the like. The plug is inserted inside the hose body and between a middle one Section of the outer wall of the tubular member and the inner wall of the hose body attached. With the stopper it can be a nipple, for example. The plug is used to subdivide the between the inner wall of the tubular body and the outer wall of the tubular member into two parts. The stopper can be attached in the following ways. For example, it can first be attached to the outer wall of the tubular Element are fastened by caulking or the like and then with the aid of a fastening member from the outside of the hose body are attached. Instead, the plug can initially only be attached to the outer wall of the tubular element attached and then both inserted into the hose body. Then hose bodies, The plug and the tubular element are fastened together at once by means of a fastening member.

The plug can be arranged in the axial direction in the center of the tubular element or in the axial direction be offset from this center to one side or the other of the tubular element. The location of the plug is to be decided depending on the type of vibrations of the pressure medium entering an inlet of the hose.

The tubular element located in the interior of the hose body has an outer diameter which is smaller than the inner diameter of the hose body and is connected to the plug in one piece. Preferably the tubular element consists of a flexible hose. This tubular element can comprise two parts which are connected to one another by the plug, for example a nipple.

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The tubular member need not have a tubular shape, but can also be designed in the shape of a bellows. aside from that For example, the tubular member may be provided with a plurality of small holes in the radial direction.

Two or more vibration absorption elements can be arranged in the axial direction of the hose body.

Located on both sides of the inside of the hose body tubular elements are reflex vibration damper parts (Silencer parts) formed.

The vibration damper parts are formed by spaces with a predetermined diameter which is larger than that Is the outer diameter of the tubular member, and each of which is one between the inner wall of the hose body and the outer wall of the tubular element and another annulus formed with the annulus communicating space formed on the outside of the tubular member. The so designed Vibration damper parts guide part of the pressure medium entering the inlet of the vibration-absorbing hose in the aforementioned annular space, so that a reflex movement of the pressure medium is caused by the plug and thereby the vibration of the pressure medium is absorbed or dampened. The two vibration damper parts can have the same or different axial lengths. The length of the vibration damper parts can depend on the Type of oscillation or pulsation of the pressure medium can be selected appropriately.

Since according to the invention at least one vibration absorption element is arranged in the hose body, on both sides of this one vibration absorption element Formed vibration damper parts of the reflex type. As a result

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of which can be the vibration absorption effect of the hose increase. By the position of the vibration absorbing element or the position of the plug with respect to the tubular Element, the absorption of the vibrations of the pressure medium can take place depending on their frequency.

The invention is to be explained in more detail below on the basis of exemplary embodiments with reference to the drawings will. Show it:

Fig. 1 is a longitudinal section of a first embodiment of the invention,

Fig. 2 shows a longitudinal section of a second embodiment of the invention and

Figure 3 is a graphical representation of test results.

Fig. 1 is a longitudinal section of a hose with vibration absorbing Property according to a first embodiment of the invention. In Fig. 1, 1 denote a rubber (or nylon) hose body. The hose body 1 has an inner wall 1a which has a cavity or passage limited through the pressure medium from a pressure medium source A via an inlet 1b to an actuator B via an outlet 1c of this passage. In this passage, that is, inside the hose body there is a vibration absorption element

S. The vibration absorption element S consists of a nipple 2 (plug) that is attached to the inner wall 1a of the hose body 1 is attached, and a flexible tube 3 which is fixed by the nipple 2 in the interior of the hose body 1 is held. To attach the vibration absorbing member S to the hose body 1 is usually a

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Use fastening sleeve 4, which is on a specific Part of the outer wall of the hose body 1 is pressed on. The nipple 2 is previously pressed onto the flexible pipe 3, and then the fastening sleeve 4 can be fastened on the outside of the hose body 1 by caulking or pressing. Alternatively, nipple 2 and flexible tube 3 can be assembled but not yet caulked into the hose body 1 are introduced and the resulting arrangement then with the aid of the fastening sleeve 4 from the outside of the hose body 1 are caulked. These four parts, i.e. the hose body 1, the nipple 2, the flexible one Tube 3 and the fastening sleeve 4 can be fastened to one another at the same time.

If the flexible tube 3 and the nipple 2 are fixedly arranged in the hose body 1, then those in FIG. 1 result lengths 11 and 12 shown, which shall now be considered. These lengths 11 and 12 show the distances from both ends of the nipple 2 to the two ends 3a, 3b of the flexible tube 3. Between the length 11 and the length 12 should the following relationship exist:

11/10 ζ 12 <11

The flexible pipe 3 and the nipple 2 must be assembled so that this relationship is fulfilled.

Annular spaces 5, 6 are between the outer wall of the flexible tube 3 and the inner wall 1a of the hose body 1 formed, which are each closed at one end by the nipple 2. Part of the pressure medium supplied to the inlet 1b is guided into the annular space 5 and strikes there against one end of the nipple 2. The pressure medium is therefore reflected from this one end of the nipple 2, whereby the pulsation of the pressure medium is absorbed and

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is dampened. Part of the pressure medium passing through the flexible pipe 3 is fed into the annular space 6. This Part of the pressure means hits the other end of the Nipple 2 and is reflected by this, so that the pulsation of the pressure medium is absorbed and dampened.

Fig. 2 shows a second embodiment of the invention. The same parts as in the first embodiment are provided with the same reference numerals.

The second embodiment of the invention differs from the first in that connectors C, D on both Ends of the hose body 1 are provided and that spaces 11, 12 with the length 13 and 14, respectively, between the connecting pieces C, D and the two ends of the flexible tube 3 are formed in the hose body 1.

The connecting pieces C, D are used for easier connection between the two ends of the hose body 1 and the pressure medium source A or the actuator B. The one connecting piece C contains a nipple 13 which is inserted and fastened at one end of the hose body in the interior thereof is, a sleeve 14 which is attached to one end of the hose body 1, and a connecting ring 15, which is attached to the protruding end of the nipple 13. The other connector D includes a nipple 16, the at the other end of the hose body 1 is inserted into the interior and fastened there, a sleeve 17, which is attached to this other end of the hose body 1 is attached, and a connecting ring 18 which is attached to the protruding end of the Nipple 16 is attached. The fittings C and D are attached to the hose body 1 so that the following Relationships are fulfilled:

13 = 20 - 45 mm

14 = 35 - 60 mm

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When a pulsating pressure medium flow from the pressure medium source A is delivered through the nipple 13 into the space 11 is, a part of this pulsating flow in the annular space 5 between the outer wall of the flexible tube 3 and the inner wall 1a of the hose body 1 out. This pulsating current pushes against the nipple 2 and is from repelled this, resulting in a damping effect that dampens the oscillation of the pulsating current. The pulsating flow passing through the flexible pipe reaches the other space 12 and a part of this flow is led into the annular space 6. This further dampens the oscillation of the pulsating current. It results Overall, there is a significant damping of the vibrations in the pressure medium flowing through the nipple 16.

Fig. 3 is a graph showing test results of the vibration damping effect.

The test conditions for Test Examples 1, 2 and 3 were similarly as follows:
oil temperature: 40 ⁰ C

Pump speed: 700 to 2000 rpm. Load pressure: 4.9 MPa

Inner diameter of the hose body (made of nylon): 9.5 mm Length of the hose body (excluding the damper part):

370 mm inner diameter of the flexible tube (made of metal):

5.1 mm outer diameter of the flexible tube: 7.3 mm

Hose according to the invention:

Example 1: 11 = 230 mm, 12 = 50 mm 13 = 25 mm, 14 = 25 mm Example 2: 11 = 230 mm, 12 = 140 mm 13 = 25 mm, 14 = 25 mm

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Example 3: 11 = 230 mm, 12 = 50 now

13 = 25 mm, 14 = 50 mm

From Fig. 3 it is clear that all hoses according to the invention compared with the conventional hose have strong damping over a wide temperature range.

The embodiments described above make use of only one vibration absorption element S, it can but two or more vibration absorption elements S are provided in the axial direction of the hose body, and the nipple 2 and the fastening sleeve 4 can with the respective flexible tubes 3 of the vibration absorption elements S to be connected.

In the embodiments shown in FIGS. 1 and 2, only one flexible tube is used. Instead of Two flexible tubes can be attached to the nipple 2, which are separated from each other within the nipple 2 are.

Claims (5)

10 15 claims 1. Hose with vibration-absorbing property with a hose body (1) and at least one vibration absorption element (S), which is located within the Hose body is arranged, characterized by a stopper (2) which is arranged inside the hose body (1) and touches the inner wall (1a) thereof and a tubular element (3) made of at least one piece, which is arranged inside the hose body (1) is carried by the plug (2) and is a predetermined diameter smaller than the inner diameter of the Hose body (1) has, wherein at least two damper parts of the reflex type inside the hose body (1) on both sides of the Vibration absorption element (S) are present, each of which is supported by the inner wall (1a) of the hose body (1) the outer wall of the hose body (1), the outer wall of the tubular member (3) and the plug (2) will. 2. Hose according to claim 1, characterized in that the plug (2) in the axial direction is arranged in the center of the tubular element (3) or axially offset from the center. 3. Hose according to one of the preceding claims, characterized in that the tubular Element (3) is a flexible hose. 4. Hose according to one of the preceding claims, characterized in that each of the Damper parts one between the outer wall of the tubular element (3) and part of the inner wall of the hose body (1) comprises formed annular space (5, 6) and a space which is in communication with the annular space and between another part of the inner wall (1a) of the hose body and one side end of the tubular member (3) is. 5. Hose according to one of the preceding claims, further characterized by in each case one connector (C, D) provided at both ends of the hose body (1). 25th 30th 35