FR2566504A1 - Vibration-absorbent hose - Google Patents

Abstract

The hose with vibration-absorbent characteristics incorporates an absorbing component (S) inside the hose body (1). A thimble (2) bears against the inside wall of the body, and supports a tubular body (3) in one or more parts and of a fia. less by a predetermined amount than the internal dia. of the hose body. Two or more reflec-type dampers are formed on opposite sides of the absorbing component by the inner wall of the hose, the outer wall of the tubular body and the thimble.

Description

 The present invention relates to a flexible hose intended to be used for supplying pressurized fluids and, more particularly, to a flexible hose designed to absorb and absorb pulsations of pressurized fluids coming from a fluid supply pipe under pressure in order to eliminate the noises due to these pulsations.

 In general, pressurized fluid systems, such as power steering in motor vehicles, various equipment operating with oil or pressurized air and the like, include a provision for supplying pressurized fluid such as a pump, a working device to be actuated by the pressurized fluid and pressurized supply and exhaust pipes which connect the pressurized fluid supply device and the working device. However, in general, the pressurized fluid projected by an injection orifice has a pulsating effect, and consequently the pipe for supplying pressurized fluid vibrates and produces noises. When these vibrations are significant, they have drawbacks such as the instability and the functioning of the working device and the like.

To avoid the above drawbacks, it is conventional to use a flexible pulse absorbing hose (for example, the hose described in the published Japanese patent application No. 154586/1982) to constitute the pipe for supplying pressurized fluid coming from to be cited.

However; a conventional pulsation absorbing pipe has two flexible pipes moving in opposite directions in the body of the pipe, and their assembly is not only difficult but also expensive. In addition, a conventional pipe contains only a hollow space between the two flexible pipes and therefore its pulsation absorption effect is quite weak.

 Consequently, the subject of the present invention is a flexible hose absorbing pulsations which is free from the drawbacks of the prior art which have just been listed.

 Another object of the ## present invention is a flexible pulse absorbing hose which is easy to assemble and which can be obtained at a relatively low cost.

Another subject of the present invention is a flexible pulse absorbing hose which has a higher pulse absorption effect.
The present invention will be clearly understood from the following description given in conjunction with the attached drawings in which:
Figure 1 is a longitudinal sectional view of a first embodiment of the present invention;
Figure 2 is a longitudinal sectional view of a second embodiment of the present invention; and
Figure 3 is a graph showing test results.

A flexible pulsation absorbing hose according to the present invention comprises a body and at least one pulsation absorbing element which is provided in a through hole (or channel) formed in the body. The pulsation absorbing element comprises a plug element inserted in the through hole of the body so as to be in contact with a part of the inner peripheral wall of the body and a tubular element consisting of at least one element, supported on both sides of the plug member, each having an outside diameter smaller than the inside diameter of the through hole of the body. Therefore, the flexible pulse absorbing hose having this construction has at least two types of reflection in the part damping of pulsations, similar to the type of reflection of parts acting so silent
In this case, the body of the flexible pipe takes the place of an element placed at the outer periphery of the pulsation absorbing pipe of the present invention and is generally made of flexible material (for example, rubber, resin or the like). But it can also be made of metal.

 The pulsation absorbing element comprises 11 plug element arranged in the through hole of the body so as to be in contact with the inner peripheral wall of the body, and the tubular element comprising at least one element, supported on both sides of the plug member.

The plug member can be made of metals, such as steel, brass and the like, or of flexible material such as rubber, resin, and the like. The plug element is inserted into the through hole of the pipe body and fixed between a central part of the outer peripheral wall of the tubular element and the inner peripheral wall of the body, and it can, for example, be a rac cord. The plug element serves to divide into two parts an annular space formed between the inner periphery of the body and the outer periphery of the tubular element inserted in the through hole of the body. The plug element can be fixed as follows: that is to say, the plug element is first fixed to the outer peripheral wall # of the tubular element by matting or the like, then the plug element thus mated is fixed by a fixing element from the outer side of the body. Otherwise, first of all, only the plug element is fixed to the outer peripheral wall of the tubular element, then the tubular element provided with the plug element is inserted into the body. Then, the body of the flexible pipe, the plug element and the tubular element can be fixed by a fixing element in one piece with the preceding elements.

 The plug element can be placed in the center of the axial direction of the tubular element; however, it is not necessarily disposed in the center of the longitudinal direction of the tubular member. This position of the plug element is decided as a function of the type of pulsation of the pressurized fluid entering the inlet orifice of the flexible hose absorbing the pulsation.

 The tubular member disposed in the through hole of the body has an outer diameter less than the inner diameter of the through hole of the body and is integral with the plug member. Preferably, the tubular element consists of a flexible pipe. In addition, the tubular element may include two elements connected to each other by the plug element, for example a connector.

 The tubular element can have the form not only of a pipe but also that of a bellows. In addition, the tubular member may have a plurality of small holes in its radial direction.

 On the other hand, two or more elements for absorbing pulsations can also be provided in the body in its axial direction.

 On both sides of the tubular member disposed in the through hole of the body are formed pulsation damping parts of the reflection type (muffler parts).

 The pulsation damping portions consist of spaces having a predetermined diameter which is greater than the outside diameter of the tubular member and each includes an annular space defined between the inner periphery of the pipe body and the outer periphery of the element tubular and another space connected to the annular space and located outside the tubular element. The pulsation damping parts thus formed guide part of the pressurized fluid entering from the intake orifice of the pipe absorbing the pulsations in the annular space so as to produce the movement of reflection of the fluid under pressure on the plug element, which has the effect of absorbing or damping the pulsations of the fluid under pressure. Pulsation damping can have the same length in the axial direction or have different lengths. The length of the pulsation damping parts can be appropriately chosen according to the type of pulsating effect of the pressurized fluid.

 According to the present invention, since at least one pulsation absorbing member is disposed in the body of the pipe, the pulsation absorbing portions of the reflection type are formed on both sides of a pulsation absorbing member. As a result, the pulse absorbing effect may be greater.

In addition, if one chooses the position of the pulsation absorbing element or the position of the plug to be fixed to the tubular element in the body of the pipe, it becomes possible to absorb the effect of the pulsations of the fluid under pressure in accordance with the frequency of the pulsations.

 Embodiments of the present invention will be described below in connection with the accompanying drawings.

 Figure 1 is a longitudinal sectional view of a flexible hose absorbing pulsations, according to a first embodiment of the present invention. In Figure 1, reference 1 designates the body of a flexible rubber hose (or so-called nylon material). The body 1 has a channel la through which a pressurized fluid from a device A for supplying fluid is supplied to a working device B via an inlet port lb and an outlet port lc of the channel la . Inside the channel passing through, an element S is arranged which absorbs pulsations. The element S consists of a sleeve 2 (plug element) fixed to the inner peripheral wall of the body 1 and a flexible pipe. 3 fixedly mounted in the channel la by the sleeve 2.To fix the element S to the body 1, a base 4 is generally matted to a predetermined part of the outer periphery of the body 1. However, the sleeve 2 is previously matted to the flexible pipe 3, then the fixing base 4 can be fixed to the external peripheral side of the body 1 by stamping. Otherwise, the sleeve 2 is mounted on the flexible pipe -3 not to be matted on it and inserted into the body l, then the resulting assembly can be matted by the base 4 from the outer peripheral side of the body 1. Thus , these four elements, that is to say the body 1, the sleeve 2, the flexible pipe 3 and the base 4, can be fixed simultaneously to each other.

 Thus, when the flexible pipe 3 and the sleeve 2 are fixed in the body, the lengths 11, 12 must be taken into consideration, as shown in FIG. 1.

More precisely, the length 11 and the length 12 represent the distances between the two ends of the sleeve 2 and the two ends 3a, 3b of the pipe 3, respectively. Between length 11 and length 12, we have the following relation <1
1î / 10 ffi. # 1 2 - 1
The flexible pipe 3 and the sleeve 2 must be assembled so as to satisfy this relationship.

 Between the outer periphery of the pipe 3 and the inner periphery of the body of the flexible pipe, annular spaces 5, 6 are formed, each end of which is closed by the sleeve 2. Part of the pressurized fluid coming from the ice-ice of intake lb is guided in the space 5 and brought to strike one end of the sleeve 2.

Consequently, the resulting pressurized fluid is reflected by this end of the sleeve 2, and thus, the pulsating effect of the pressurized fluid is absorbed and damped. The space 6 guides part of the pressurized fluid via the through hole of the pipe 3.

 The pressurized fluid thus guided strikes the other end of the sleeve 2 and is reflected by the latter so as to absorb and damp the pulsating action of the pressurized fluid.

 Figure 2 shows a second embodiment of the present invention. In this case,. parts identical to those of the first embodiment are represented by the same reference numbers.

 The second embodiment of the present invention has the following points of difference from the first embodiment.

 Connecting elements C, D are arranged at the two ends of the body 1 of the flexible pipe and, in addition, spaces 11, 12 having lengths 13 and 14 respectively, are provided between the connecting elements C, D and the two ends of the flexible pipe 3-disposed in the body l, respectively.

 The assembly elements C, D are intended to facilitate the connection of the device A for supplying pressurized fluid and the working device-B at the two ends of the body 1, respectively. Element C comprises a sleeve 13 fixed to one end of the hole passing through, a base 14 fixed to one end of the body 1 and a ring 15 forming a mouth and fixed to the projecting end of the sleeve 13. The other element D comprises a sleeve 16 fixed to the other end of the channel passing through, a base 17 fixed to the other end of the body 1 and a ring 18 forming a mouth and fixed to the projecting end of the sleeve 16. These assembly elements C and D are mounted on the body 1 and so as to satisfy the following definitions, respectively.

13 = 20 - 45 mm
14 = 35 - 60 mm
When a pulsating current supplied by the device A for supplying pressurized fluid is introduced into the space 11 via the through-hole of the sleeve 13, a point of the current is guided to enter the annular space 5 formed around the inner peripheral wall of the body of the flexible pipe The resulting pulsating current hits the sleeve 2 and is reflected by the latter to produce the damping effect - so that the pulsating current is damped moreover; the pulsating current passing through the flexible pipe 3 reaches the other space 12 and part of it is guided to enter the annular space 6. As a result, the current is still damped. Consequently, the pulsating current of the pressurized fluid passing through the sleeve 16 is remarkably damped.

 Figure 3 is a graph showing the results of the tests. the damping effect of pulsations.

 The test conditions common to the three tests 1, 2, 3 are as follows.

Oil temperature: 400C
Number of pump revolutions: 700 to 2000 rpm.

Charging pressure: 5 MPa, and
Pipe body (made of nylon)
inner diameter = 9.5 mm
length (not including a part to
muffler) = 370 mm
Flexible pipe (metal)
inner diameter = 5.1 mm
outer diameter = 7.3 mm
Flexible hose absorbing pulsations according to the present invention.

Example 1: 11 = 230 mm, 12 = 50 mm 13 = 25 mm, 14 25 mm
4
Example 2: 11 230 mm, 12 = 140 mm 13 = 25 mm, 14 25 mm
4
Example 3: 11 = 230 mm, 12 = 50 mm 13 = 25 mm, 14 50 mm
4
Classic flexible hose without silencer (pulsation damping part).

 Figure 3 shows that each of the pulsation absorbing flexible hoses of the present invention has a high damping value over a wide range of frequencies compared to the conventional hose.

 The previous embodiments use only one element S absorbing the pulsations, but one can provide two or more elements S in the axial direction of the body and the sleeve 2 and the base 4 can be fixed to the respective flexible pipes 3 of the S elements.

 The first embodiment represented in FIG. 1 and the second embodiment represented in FIG. 2 use only one flexible pipe 3, but the following modification is also possible, that is to say that two pipes can be fixed. hoses separated from each other inside the sleeve 2, by this sleeve.

 The present invention is not limited to the exemplary embodiments which have just been described, it is on the contrary liable to modifications and variants which will appear to those skilled in the art.

Claims (5)

 1 - Flexible hose absorbing pulsations, characterized in that it comprises  - a body (1) in which is formed a through channel,  - at least one element of absorption of the pulsations placed in the channel of the body, comprising  - a plug element (2) disposed in the channel in contact with the inner peripheral wall of the body; and  - a tubular element (3) comprising at least one element, which is arranged in the channel of the body of the pipe and supported by the plug element and has a predetermined diameter smaller than the predetermined internal diameter of the body; and  - at least two damping parts of the reflection type formed in the channel passing through the body on both sides of the element for absorbing pulsations, each part being defined by the inner peripheral wall of the body, the outer peripheral wall of the body, the outer peripheral wall of the tubular member and the plug member.  2 - Pipe according to claim 1, characterized in that the plug element is disposed in the center of the tubular element in its axial direction, or in a part of the tubular element in its axial direction so as to be biased towards either side of the tubular member.  3 - Pipe according to claim 1, characterized in that the tubular element (3)> disposed in the through channel of the body, is a flexible pipe.  4 - Pipe according to claim 1, characterized in that each of the damping parts of the reflection type comprises an annular space (5; 6) formed between the outer peripheral wall of the tubular element and a part of the inner peripheral wall of the body, and a space (11; 12) communicating with the annular space, formed between another part of the inner peripheral wall of the body and a lateral end of the tubular element.  5 - Pipe according to claim 1, characterized in that the body (1) further comprises an assembly element (15; 18) provided at the two ends of the body.