JP2008075656A - Device used for retaining feed unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device used for retaining a feed unit in a reserve tank, which improves shock absorption of the vibration of the feed unit by a simple form by improving a form of the device provided with a pump holder having two holder partitions connected to each other through the medium of a stay placed in the longitudinal direction. <P>SOLUTION: The pump holder 2 is provided with at least one elastically constituted shock-absorption means 12. The diameter of the pump holder 2 is either contracted or expanded between the holder partitions 8, 9 so that it is elastically contracted in the axial direction by the bending of the stay 11 placed in the longitudinal direction. Then the shock-absorption means 12 controls the bending of the stay 11 placed in the longitudinal direction. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The invention is an apparatus for holding a feed unit in a storage tank according to claim 1, i.e. a device for holding a feed unit, comprising two holder sections which are connected to each other via a longitudinal stay. Start with a device of the type provided with a pump holder.

From German Offenlegungsschrift 103566061, an apparatus for holding a feed unit is already known which is provided with a pump holder having two holder sections which are connected to each other via a longitudinal stay. is there. One holder section holds the feed unit and the other holder section serves to support the pump holder in the collector tank of the fuel feed unit. Unfortunately, since the pump holder is configured to be relatively rigid, the vibration of the feed unit is significantly propagated to the adjacent collector tank as a solid propagation sound. Further propagation as solid propagation sound and aerial sound leads to acoustic recognition of the feed unit that exceeds a preset value.
German Patent Application Publication No. 103566061

  The object of the present invention is therefore an apparatus for holding a feed unit in a storage tank of the type mentioned at the outset, comprising two holder sections which are connected to one another via a longitudinal stay. It is to improve the damping of the feed unit in a simple manner by improving the type in which the pump holder is provided.

  In order to solve this problem, in the configuration of the present invention, the diameter of the pump holder is reduced or expanded so that it can be elastically contracted in the axial direction between the two holder sections by bending the longitudinal stay. It is configured to have a diameter, is elastic, and is provided with at least one buffering means that suppresses bending of the longitudinal stay.

  The device according to the invention for holding a feed unit with the features according to claim 1 differs from the prior art, advantageously in that the diameter of the pump holder between the holder sections is such that the pump holder has a longitudinal stay. The diameter is reduced or expanded so as to be elastically contractible in the axial direction by bending, and at least one buffer means is provided that is further elastically configured and suppresses bending of the longitudinal stay. As a result, the vibration damping of the feed unit is easily improved. In this way, a soft and elastic support of the feed unit and thus a very effective sound insulation is achieved. Since the vibration energy of the feed unit is at least partly dissipated by the pump holder, the solid-borne sound guided to adjacent components is negligible compared to the prior art.

  An apparatus for holding a feed unit according to the present invention is an apparatus for holding a feed unit in a storage tank and comprising two holder sections joined together via a longitudinal stay The diameter of the pump holder is reduced or expanded between the two holder sections so that it can be elastically contracted in the axial direction by bending the longitudinal stay. And is elastically configured, and is characterized in that at least one buffer means for suppressing bending of the longitudinal stay is provided.

  By means of the dependent claims, advantageous configurations and improvements of the device for holding a feed unit according to claim 1 are possible.

  It is particularly advantageous if the at least one buffer means is configured as a transverse stay that couples the two longitudinal stays together. This is because this configuration can be manufactured at a very low cost.

  It is further advantageous if the at least one buffer means is configured as a ring surrounding the longitudinal stay. This is because the swelling or expansion of the pump holder is thus avoided over the service life.

  It is very advantageous if at least one buffering means has at least one elastically deformable region which has a higher elasticity than the other buffering means. This elastic deformation region extends and / or compresses and / or bends in the circumferential direction of the pump holder. In this case, vibration energy is converted into heat very effectively. According to an advantageous configuration, the elastically deformable region is formed in a meander shape, a W shape, a U shape, a V shape, an S shape or similar shapes.

  It is further advantageous if the pump holder is formed in such a way that, during the relative movement between the pump holder and the feed unit, friction that buffers the vibration of the feed unit occurs between the pump holder and the feed unit. This is because the vibration buffer is further increased. According to a further advantageous configuration, the pump holder has friction elements that exert a frictional action on the feed unit.

  In the device for holding a feed unit according to the invention, the at least one buffering means is advantageously configured as a lateral stay, which couples at least two longitudinal stays together. .

  In the device for holding a feed unit according to the invention, the at least one buffering means is advantageously configured as a ring, which ring surrounds the longitudinal stay.

  In an apparatus for holding a feed unit according to the invention, advantageously, at least one buffer means has at least one elastically deformable region, the deformed region being the other of the buffer means. It has higher elasticity than the region.

  In the device for holding a feed unit according to the invention, the elastic deformation region is advantageously stretched and / or compressed in the circumferential direction of the pump holder.

  In the device for holding a feed unit according to the invention, the elastic deformation region is advantageously formed in a meander shape, a W shape, a U shape, a V shape, an S shape or similar shapes. .

  The device for holding a feed unit according to the invention advantageously has a first holder section attached to the reservoir and another holder section supporting the feed unit.

  The device for holding a feed unit according to the invention is advantageously an accumulation tank in which the storage body is arranged in a storage tank.

  The device for holding a feed unit according to the invention is advantageously such that when the pump holder is in relative motion between the pump holder and the feed unit, there is a friction that cushions the vibration of the feed unit. Is formed.

  In an apparatus for holding a feed unit according to the invention, the pump holder advantageously has a friction element, which friction element exerts a frictional action on the peripheral surface of the feed unit.

  In the following, the best mode for carrying out the present invention will be described in detail with reference to the drawings.

  FIG. 1 shows a first embodiment of a pump holder according to the invention.

  A device for holding the feed unit is arranged in a storage tank 1, for example a fuel tank, and has a pump holder 2. An arbitrary feed unit 3 such as an electric fuel pump is supported by the pump holder 2. The feed unit 3 stores liquid, for example, fuel, and supplies it from the tank 1 to a consuming device 4, for example, an internal combustion engine.

  The pump holder 2 is supported by a storage tank 1 or a component disposed in the storage tank 1. According to the first embodiment, the pump holder 2 is attached to the accumulation tank 5. Since the storage tank 5 stores a sufficiently large volume of liquid around the feed unit 3, the feed unit 3 can suck up the liquid at any time as possible.

  The pump holder 2 has a first holder section 8 and a second holder section 9, in which case the first holder section 8 is adjacent to at least indirectly via the holding means 10. The member is attached to, for example, the accumulation tank 5. However, the first holder section 8 may obviously be supported on a storage tank 1 or a component arranged in this storage tank 1. For example, the first holder section 8 is formed in an annular or annular section shape. The second holder section 9 supports the feed unit 3 in the axial direction and / or the radial direction, and is configured in an annular shape, a cover shape, or a pot shape, for example. On the bottom 14 of the second holder section 9, a prefilter is provided, for example, clipped together. This prefilter filters fuel in advance before entering the feed unit 3.

  The holding means 10 in FIG. 1 is provided as a holding arm. These holding arms extend from the first holding ring 8 to the edge of the accumulation tank 5, where they are mechanically connected to the accumulation tank 5, for example by clips.

  The first holder section 8 and the second holder section 9 are separated from each other in the axial direction and fixedly coupled to each other by a longitudinal stay 11. These longitudinal stays 11 extend in a substantially longitudinal extending direction of the feed unit 3. For example, three to ten longitudinal stays 11 are provided and are distributed over the circumference of the holder sections 8, 9. The pump holder 2 is configured in a cage shape or a cage shape together with the holder sections 8 and 9 and the longitudinal stay 11.

  According to the invention, the dimension of the pump holder 2 between the holder sections 8, 9 is reduced, or the pump holder 2 can be elastically contracted in the axial direction by bending of the longitudinal stay 11 or In the case of a cylindrical configuration, the diameter of the pump holder 2 is reduced or increased. Furthermore, the pump holder 2 has at least one buffering means 12, which is elastically configured and acts against bending of the longitudinal stay 11.

  In the first embodiment of FIG. 1, the longitudinal stay 11 extends so that the peripheral surface of the pump holder 2 is squeezed between the holder sections 8, 9 or curved inward. Thus, the diameter of the pump holder 2 starts from the two holder sections 8 and 9 and decreases toward the other holder sections 8 and 9, that is, tapers. The at least one buffering means 12 is configured as a lateral stay, which couples at least two longitudinal stays 11 together, for example in one piece.

  When a tensile load acts on the pump holder 2 of FIG. 1 in the axial direction, the longitudinal stay 11 is bent radially outward. In this case, tension and / or bending force is applied to the at least one buffering means 12. The at least one shock absorber 12 has, for example, at least one elastically deformable region 15, which deforms significantly more elastically than the other shock absorbers 12, ie other regions of the shock absorber 12. It is configured as follows. Advantageously, this elastic deformation takes place mainly in the deformation region 15. The elastic deformation region 15 is formed in, for example, a meander shape, a W shape, a U shape, a V shape, an S shape, or a similar shape thereto. However, it can also be proposed that the elastic deformation occurs evenly throughout the buffer means 12. The rigidity of the pump holder 2 in the axial direction is mainly determined by the rigidity of the longitudinal stay 11 and the elasticity of the elastic deformation region 15.

  For example, the pump holder 2 is manufactured in one piece with the at least one buffering means 12 by injection molding.

  FIG. 2 shows a second embodiment of the pump holder according to the invention.

  Parts similar to or acting in the same manner as the pump holder of FIG. 1 of the pump holder 2 of FIG.

  The pump holder 2 in FIG. 2 is different from the pump holder 2 in FIG. 1 in that the diameter between the holder sections 8 and 9 is increased. This results in a circumferential surface that is curved outward or extends conically from both sides.

  When a tensile load acts on the pump holder 2 in FIG. 2 in the axial direction, the longitudinal stay 11 is bent radially inward. In this case, a pressing force and / or bending force is applied to at least one buffering means 12. In the case of the second embodiment, the elastic deformation region 15 is U-shaped and extends radially inward toward the feed unit 3. In this case, the U-shaped legs move closer to each other by bending when an axial tensile load is applied to the pump holder 2.

  FIG. 3 shows an improved version of the first embodiment of the pump holder according to the invention.

  The parts of the pump holder 2 shown in FIG. 3 that are the same as or similar to those of the pump holder shown in FIG.

  The pump holder of FIG. 3 differs from the pump holder 2 of FIGS. 1 and 2 in that the longitudinal stay 11 and the buffering means 12 are configured as separate components. These components are connected to each other, for example, in a shape connection. The buffering means 12 is configured, for example, in an annular shape and surrounds the longitudinal stay 11.

  At least one deformation region 15 is formed in the annular buffering means 12 by a V-shaped notch 16. This buffer means 12 has, for example, a square cross section.

  The modified version of the pump holder of FIGS. 1 to 3 is such that, when relative movement takes place between the pump holder 2 and the feed unit 3, friction is additionally produced that damps the vibration of the feed unit 3. (Not shown) is provided in the pump holder 2. The friction element can be arranged at any location of the pump holder 2 fundamentally. The U-shaped deformation area 15 in FIG. 2 may extend, for example, until it contacts the feed unit 3, which causes the desired friction during relative movement. Similarly, the longitudinal stay 11 may rub against the feed unit 3. The friction element is formed separately and may be made of a material different from that of the pump holder 2. The magnitude of the friction can be defined by the choice of friction partner material.

  The holder sections 8, 9, the longitudinal stay 11 and the buffer means 12 are made, for example, from metal or plastic, for example POM.

1 is a cross-sectional view of a first embodiment of a device according to the invention for holding a feed unit; FIG. FIG. 6 is a sectional view of a second embodiment of the device according to the invention for holding a feed unit. FIG. 6 is a sectional view of a third embodiment of the device according to the invention for holding a feed unit.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Storage tank, 2 Pump holder, 3 Feed unit, 4 Consumption apparatus, 5 Accumulation tank, 7 Edge, 8 1st holder division, 9 2nd holder division, 10 Holding means, 11 Longitudinal stay, 12 Buffer means , 15 deformation area

Claims (10)

  Pump holder (2) for holding a feed unit in a storage tank and having a pump holder having two holder sections joined together via a longitudinal stay Is reduced in diameter or expanded so that it can be elastically contracted in the axial direction by bending the longitudinal stay (11) between the two holder sections (8, 9). A device for holding a feed unit, characterized in that it is provided with at least one buffering means (12) that suppresses bending of the longitudinal stay (11).   2. The device according to claim 1, wherein the at least one buffering means (12) is configured as a lateral stay, which couples the at least two longitudinal stays (11) together.   2. The device according to claim 1, wherein the at least one buffering means (12) is configured as a ring, which surrounds the longitudinal stay (11).   At least one buffering means (12) has at least one elastic deformation region (15), the deformation region (15) having a higher elasticity than other regions of the buffering means (12). The apparatus of claim 1, comprising:   The device according to claim 4, wherein the elastic deformation region (15) contracts and / or is compressed and / or bent in the circumferential direction of the pump holder (2).   5. The device according to claim 4, wherein the elastic deformation region (15) is formed in a meander shape, or a W shape, or a U shape, or a V shape, or an S shape or the like.   2. The device according to claim 1, wherein the first holder section (8) is attached to the reservoir (5) and the other holder section (9) supports the feed unit (3).   8. The device according to claim 7, wherein the storage body (5) is an accumulation tank (5) arranged in a storage tank (1).   The pump holder (2) is formed so as to generate friction for buffering the vibration of the feed unit (3) during relative movement between the pump holder (2) and the feed unit (3). The apparatus of claim 1.   10. The device according to claim 9, wherein the pump holder (2) has a friction element, which friction element exerts a frictional action on the peripheral surface of the feed unit (3).

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