DE10217080C1 - Hydraulic damper for pumps supplying polymer to injection molding machines has damping pipe with branch slits in its walls fitted with mouthpieces which have conical bores whose wider ends face outwards - Google Patents

Abstract

Reflection-type hydraulic damper has a central damping pipe (13) with branch slits (15) in its walls. Annular mouthpieces (21) are fitted on the inlet (7) and outlet (9) ends of the pipe. These have central bores (23) which fit on to the ends of the pipe and connect with conical bores (27) whose wider ends face outwards.

Description

The invention relates to a hydraulic damper of the reflection type Interference effect, with a damper housing that a fluid Has inlet opening and a fluid outlet opening, between which enters as a fluid line from inlet opening to outlet opening Damping tube extends in one within its length located area at least one through the pipe wall Has branch opening.

Such hydraulic dampers, also called "silencers", are commercially available and are described in the specialist literature, cf. for example "The Hydraulic Trainer", volume 3 , publisher Mannesmann Rexroth, page 107, picture 63. Such silencers serve to reduce vibrations that are generated by pressure pulsations that are periodically impressed on a particular hydraulic system, in particular by the operation of hydraulic pumps. This problem occurs to a great extent when operating hydraulic pumps, for example when using these pumps for plastic injection molding machines. As it has been shown, the damper effect of the known hydraulic damper available for such applications is not entirely satisfactory.

DE 697 04 870 T2 is a so-called silencer for known hydraulic systems, which has an elongated housing, the limits an axially extending bore in the housing. In the hole a bubble is arranged coaxially, the bubble passing through the bore a sleeve arrangement is supported. The bubble consists of one elastic material, such as a resistant EPR, or made of rubber-like material with a correspondingly long service life.

The sleeve arrangement is arranged coaxially in the bladder and the bore in the sleeve arrangement, this takes place flowing through the hydraulic system de fluid. When pulses or fluid pressure changes occur forms the sleeve assembly with its individual perforated sleeves layer a means to flow the fluid into the bubble cavity to let. With the arrangement in question is a fluid pulse damper or Given muffler, which in particular for noise reduction various hydraulic systems can be used. This one too Known solution is the damper effect, for example, when used of hydraulic pumps for plastic injection molding machines are not entirely satisfactory lend.

The invention has for its object to provide a hydraulic damper compared to the prior art through an improved Damping effect distinguishes.

With a hydraulic damper of the type mentioned, this task is solved according to the invention in that at least at one end of the Damping tube is provided a mouthpiece, the one Passage cross section of the fluid line against the end of the damper housing has funnel-like expanding inner wall.

Because of this design, the mouth of the damping tube forms one Reflective surface that has an inclined course to both that by the. Longitudinal axis of the damping tube defined fluid flow direction as also has the cross-sectional plane of the damping tube. As shown has, supports and improves this damping effect of the resonator system located in the damper housing. Further reduce the inflow losses or the outflow losses on the outlet side.

Are preferably appropriate at both ends of the damping tube trained mouth parts provided, the inner wall for example by a to the longitudinal axis of the damping tube concentric conical surface can be formed.

In embodiments in which the inlet opening of the Damper housing is in fluid communication with a connector block, the Interior via a pump connector with the output of one Hydropump is connectable, arise in cooperation with the the inclined reflection surfaces formed the mouth parts improved Damping properties if the interior of the terminal block than  Antechamber of the resonator system located in the damper housing is interpreted.

The invention is based on one shown in the drawing Embodiment explained in detail. The only figure shows one shortened longitudinal section of an embodiment of the Hydraulic damper according to the invention, attached to the output of a not Hydraulic pump shown in more detail.

The hydraulic damper shown in the figure has an elongated damper housing 1 in the form of a cylindrical tube with curved ends 3 and 5 , a fluid inlet opening 7 at the end 3 and a fluid outlet opening 9 at the end 5 . Between the inlet opening 7 and outlet opening 9 extends along the central longitudinal axis 11 of the damper housing 1, a damping tube 13 , which has wall openings in the form of bores 15 in the region of its half length, which branch openings for a fluid connection between the interior of the damping tube 13 and this inside the Form the damper housing surrounding fluid space 17 . In a known manner, this arrangement forms an interference or reflection damper in the form of a branch resonator, which dampens vibrations in the liquid which flows through the damper housing 1 from the inlet opening 7 via the damping tube 13 to the outlet opening 9 .

The damping tube 13 is mounted both at its end adjacent to the inlet opening 7 and at its end adjacent to the outlet opening 9 in the central inner bore of an annular body 21 which is concentric with the longitudinal axis 11 . The bore of the annular body 21 has a plurality of bore sections, namely an inner section 23 , in which the respective end of the damping tube 13 engages, a central section 25 , which continues the passage cross section of the damping tube 13 , and an outer section 27 , in which the inner wall expanded like a funnel towards the end of the ring body 21 . In the exemplary embodiment shown, this section 27 is formed by a conical surface which is concentric with the axis 11 , the conical angle being 90 °. In this embodiment, the ring bodies 21 each form a mouth part of the damping tube 13 , the mouth being designed as a mouth funnel.

The bore section 23 of the ring body 21 which receives the respective end of the damping tube 13 has a seat for an O-ring 29 which forms an elastic bearing element for the tube end. This avoids the risk of the damping tube 13 rattling during operation, even if no narrow tolerances with regard to the tube diameter and bore section 23 are observed. In particular, good results are also obtained if large tolerances are provided in a cost-effective manner. A small vent hole 31 is formed in the wall of the damping tube 13 in the vicinity of each of the ring bodies 21 . The ring members 21 forming the mouth parts are each provided with an external thread 33 , by means of which they are screwed into an internal thread 35 , which are each provided in the fluid inlet opening 7 and the fluid outlet opening 9 of the damper housing 1 . The ring bodies 21 are both of identical design, apart from the fact that one of them, in the exemplary embodiment shown the ring body 21 located at the inlet opening 7 , is provided with a notch 37 machined into its peripheral edge, which serves as a screwing aid. The assembly of the hydraulic damper is very convenient in this way, because the preassembled unit made of damping tube 13 and end-mounted ring bodies 21 which form the mouth parts can be rotated in a simple manner for screwing into the damper housing 1 , which is open at both ends 3 and 5 . In the example shown, the housing end surrounding the outlet opening 9 is provided with an external thread 39 onto which a flange sheet 41 is screwed to form a consumer connection. The housing end surrounding the inlet opening 7 has an external thread 43 in which a thread seal 45 is seated. By means of this external thread 43 , the end 3 of the damper housing 1 is tightly screwed to a connection block 47 which has an inner chamber 49 which is in fluid communication with the outlet 53 of a hydraulic pump (not shown) via a pump connection piece 51 . With the outlet 53 , the end flange 55 of the pump connection piece 51 is screwed to the flange halves 57 by means of an SAE connection arrangement.

The inner space 17 of the damper housing 1 does not need to be prefilled for the start-up of the hydraulic damper, because during the start-up air accumulations are automatically discharged via the vent holes 31 on the damping tube 13 . The provided as mouth parts of the damping tube 13 ring body 21 form oblique reflecting surfaces 27, which increase the damping efficiency in connection with the intended area jump in its bore portion. Particularly good damping values are obtained if the diameter of the inner chamber 49 of the connection block 47 is chosen to be sufficiently large so that the flow velocity within the damping tube 13 is substantially higher than in the chamber 49 , which means that the chamber 49 for the resonator system formed in the damper housing 1 Pre-chamber acts, which reduces damping losses caused by the "coupling".

By selecting the shape and size of the bore 15 in the damping tube 13 , which form the branch openings, the damping effect can be optimized in the desired frequency range, which in connection with hydraulic pumps is, for example, in the range of pulsation frequencies of 250 Hz or less. It goes without saying that, in relation to the cone angle of the enlarged sections 27 on the ring body 21 shown in the figure, other cone angles or other funnel shapes can be selected for optimal adaptation of the damping curve to the respective frequency ranges.

Claims (9)

1. Hydro damper of the reflection type with interference effect, with a damper housing ( 1 ) having a fluid inlet opening ( 7 ) and a fluid outlet opening ( 9 ), between which there is a damping tube as a fluid line from inlet opening ( 7 ) to outlet opening ( 9 ) ( 13 ), which has at least one branch opening ( 15 ) extending through the pipe wall in a region lying within its length, characterized in that at least at one end of the damping pipe ( 13 ) there is a mouth part ( 21 ) which has a passage cross section of the Has fluid line towards the end of the damper housing ( 1 ) funnel-like expanding inner wall ( 27 ). 2. Hydraulic damper according to claim 1, characterized in that both the at the inlet opening ( 7 ) and at the outlet opening ( 9 ) of the damper housing ( 1 ) end of the damping tube ( 13 ) is provided with a corresponding mouth part ( 21 ). 3. A hydraulic damper according to claim 1 or 2, characterized in that the inner wall of the mouth part ( 21 ) has a conical surface ( 27 ) concentric with the longitudinal axis ( 11 ) of the damping tube ( 13 ). 4. Hydraulic damper according to one of claims 1 to 3, characterized in that each mouth part is formed by an annular body ( 21 ), the inner bore of which has a bore section ( 23 ) into which the relevant end of the damping tube ( 13 ) engages, and one Has bore portion ( 27 ) which has the funnel-like widening inner wall. 5. A hydraulic damper according to claim 4, characterized in that the bore portion ( 23 ) of the ring body ( 21 ) receiving the end of the damping tube has a seat for an O-ring ( 29 ) surrounding the damping tube ( 13 ). 6. Hydraulic damper according to claim 4 or 5, characterized in that each ring body ( 21 ) has an external thread ( 33 ) and in an associated, in the inlet opening ( 7 ) or the outlet opening ( 9 ) of the damper housing ( 1 ) formed internal thread ( 35 ) can be screwed in. 7. Hydraulic damper according to claim 6, characterized in that at least one ring body ( 21 ) at its outer end a shape irregularity ( 37 ) as a screw-in aid to form the screw connections with the internal threads ( 35 ) of the inlet opening ( 7 ) and the outlet opening ( 9 ) of the Damper housing ( 1 ). 8. Hydraulic damper according to one of claims 1 to 7, characterized in that the inlet opening ( 7 ) of the damper housing ( 1 ) with a connection block ( 47 ) is in fluid communication, the interior ( 49 ) via a pump connector ( 51 ) with the outlet ( 53 ) of a hydraulic pump, and that the interior ( 49 ) of the connection block ( 47 ) serves as a prechamber of the resonator system located in the damper housing ( 1 ). 9. Hydraulic damper according to one of claims 1 to 8, characterized in that the damping tube ( 13 ) is provided in the region of its half length with at least one slot opening serving as a branch opening ( 15 ) and in that near both ends of the damping tube ( 13 ) vent holes ( 31 ) are provided in the tube wall.