CN203822927U - Vibration absorber and vibration absorbing assembly - Google Patents

Abstract

The utility model aims to solve the problems of complicated vibration absorber mold, high processing cost, complex procedure and low efficiency in the prior art, and provides a vibration absorber. The vibration absorber comprises a rubber body and a mass block, wherein the mass block comprises a plurality of mass clamping blocks; the mass clamping blocks are arranged on the surface of the rubber body, are mechanically and fixedly connected with one another, and are used for fixedly clamping the rubber block. Meanwhile, the utility model further provides a vibration absorbing assembly adopting the vibration absorber. The vibration absorbing assembly provided by the utility model has the advantages of simple mold, low processing cost, a small number of parts, simple procedure and high efficiency.

Description

A kind of bump leveller and absorbing assembly

Technical field

The utility model belongs to absorbing field, relates to a kind of bump leveller and has the absorbing assembly of this bump leveller.

Background technique

Automobile, under the specific rotating speed of motor, if energizing frequency overlaps with the natural frequency of certain part, will produce resonance, and then produce car load noise.At present, Consumer requires more and more higher to vehicle ride comfort, therefore, in the time that automobile is designed, need take measures to reduce vibration and the noise of automobile.

In prior art, for the vibration noise problem under single-frequency, often adopt bump leveller is set on associated components, reduce the vibration amplitude of associated components, and then reduce car load noise.

Bump leveller is an additional spring mass system, is conventionally made up of mass block, rubber body and skeleton.

Taking the pull bar bump leveller that suspends as example, as shown in Figure 1, the pull bar bump leveller that suspends of the prior art is sulfided by mass block 1, rubber body 2 and skeleton 4.Bump leveller is connected with the mounting bracket 5 on the pull bar body of rod 6 by rivet 3 or bolt again.

In above-mentioned bump leveller, mass block, rubber body and skeleton sulfide.In the time of processing bump leveller, mass block and skeleton all need to participate in sulfuration, cause vulcanization die complexity, and multiple mould cavity quantity reduces, and processing cost is high, and efficiency is low.

Meanwhile, above-mentioned bump leveller in use, need be on the pull bar body of rod welded and installed support, then bump leveller is connected with the mounting bracket on the body of rod with rivet or bolt.Cause number of spare parts many, operation is loaded down with trivial details, and cost is high.

Model utility content

Technical problem to be solved in the utility model is, complex procedures high for absorbing component die complexity of the prior art, processing cost, inefficient problem, and a kind of bump leveller is provided.

It is as follows that the utility model solves the problems of the technologies described above adopted technological scheme:

A kind of bump leveller is provided, comprises rubber body and mass block; Wherein, described mass block comprises multiple quality grip blocks, and described multiple quality grip blocks are arranged on mutual machinery on the surface of described rubber body and are fixedly connected with and grip described rubber body.

The bump leveller that the utility model provides comprises multiple quality grip blocks, and multiple quality grip block and rubber body are separated from each other.In this absorbing assembly, only rubber body individual curing moulding, the vulcanization die of rubber body is simple, and in a set of multiple mould, the quantity of die cavity increases, and can significantly enhance productivity, and reduces costs.Meanwhile, because mass block does not participate in sulfuration, the operations such as phosphatization, gluing, sulfuration have been saved.

Meanwhile, in use, rubber body fits in target assembly surface to above-mentioned bump leveller, and multiple quality grip blocks are arranged on rubber body surface.Multiple quality grip blocks are interfixed, and multiple quality grip blocks produce clamping action to rubber body, thereby mass block and rubber body are fixed on target assembly.Now, not needing increases the installation that component coordinate bump leveller in addition, has simplified operation, reduces costs simultaneously.

Further, on described multiple quality grip block, all there is attachment hole; Described multiple quality grip block is riveted mutually by described attachment hole or bolt connects.

Further, described rubber body offers through hole; In described rubber body, also offer the construction opening that is through to the outer wall of described rubber body from described through hole.

Under this structure, the installation process of absorbing assembly is more easy.Concrete, only need target assembly be snapped in the through hole of rubber body at above-mentioned construction opening place, and then installation quality piece.Simplify installation process.And the installation of absorbing assembly requires lowly to target assembly, and applicability is wide.

Further, described rubber body is cylindrical body, and in the axial direction of described rubber body, described construction opening extends to the other end from one end of described rubber body.

Further, described rubber body comprises multiple rubber clacks; Described multiple quality grip block grips described multiple rubber clack.

Under this structure, when assembling, can directly multiple rubber clacks be arranged on target assembly, then multiple quality grip blocks are sheathed on to rubber clack outside, and multiple quality grip blocks are fixed, make the acting in conjunction of multiple quality grip block, multiple rubber clacks are held on target assembly.Now, bump leveller is lower to the structural requirement of target assembly, and the Applicable scope of bump leveller is wider.

Further, the two ends of described rubber body on the bearing of trend of described through hole have respectively from the outer wall of described rubber body in the direction of the bearing of trend perpendicular to described through hole, stretch out form rubber body defining flange, the rubber body defining flange at described rubber body two ends is held in respectively the two ends of described multiple quality grip blocks to carry out spacing to described multiple quality grip blocks.

Further, the two ends of described multiple quality grip blocks have respectively mass block defining flange, and the mass block defining flange at described multiple quality grip blocks two ends clamps respectively the two ends of described rubber body on the bearing of trend of described through hole to carry out spacing to described rubber body.

Further, on the surface of described rubber body and described multiple quality grip block clamping contacts, there is rubber body spacing preiection, on the surface of described multiple quality grip blocks and described rubber body clamping contact, all offer the mass block limited impression matching with described rubber body spacing preiection.

Further, on the surface of described rubber body and described multiple quality grip block clamping contacts, offer rubber body limited impression, on the surface of described multiple quality grip blocks and described rubber body clamping contact, all there is the mass block spacing preiection matching with described rubber body limited impression.

Under above-mentioned four kinds of structures, can effectively avoid quality grip block to move with respect to rubber body vertically, improve the stability in use of bump leveller.

Meanwhile, the utility model also provides a kind of absorbing assembly, comprises above-mentioned bump leveller and target assembly; The rubber body of described bump leveller fits in the surface of described target assembly.

Brief description of the drawings

Fig. 1 is the pull bar bump leveller assembling condition schematic diagram that suspends of the prior art;

Fig. 2 is the first mode of execution explosive view of the absorbing assembly that provides of the utility model;

Fig. 3 is the first mode of execution schematic diagram of the absorbing assembly that provides of the utility model;

Fig. 4 be in Fig. 3 B-B to sectional view;

Fig. 5 is the second mode of execution schematic diagram of the absorbing assembly that provides of the utility model;

Fig. 6 is the third mode of execution schematic diagram of the absorbing assembly that provides of the utility model;

Fig. 7 is C place partial enlarged drawing in Fig. 6;

Fig. 8 is the 4th kind of mode of execution schematic diagram of the absorbing assembly that provides of the utility model;

Fig. 9 is D place partial enlarged drawing in Fig. 8;

Figure 10 is the 5th kind of mode of execution schematic diagram of the absorbing assembly that provides of the utility model;

Figure 11 is E place partial enlarged drawing in Figure 10.

Reference character in Figure of description is as follows:

1, mass block; 10, quality grip block; 11, attachment hole; 12, mass block defining flange; 13, mass block limited impression;

2, rubber body; 20, rubber clack; 21, construction opening; 22, rubber body defining flange; 23, rubber body spacing preiection; 24, through hole;

3, rivet;

4, skeleton;

5, mounting bracket;

6, the pull bar body of rod; 61, weld seam.

Embodiment

Clearer for technical problem, technological scheme and beneficial effect that the utility model is solved, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

In description of the present utility model, except as otherwise noted, the implication of " multiple " is two or more.

The bump leveller that the utility model provides comprises rubber body and mass block, and described mass block comprises multiple quality grip blocks; Described multiple quality grip block is arranged on mutual machinery on the surface of described rubber body and is fixedly connected with and grips described rubber body.

According to the utility model, when use, above-mentioned bump leveller is mounted on target assembly.For the target assembly in the utility model, can be regarded as the parts that bump leveller is installed, be generally the parts that occur vibration on vehicle body, the pull bar body of rod of for example suspension system.Shape and structure to target assembly in the utility model are not particularly limited, and typically, target assembly is tubular part.

For above-mentioned rubber body, as known in the art, it for example, forms a spring mass system for being mounted between target assembly (the pull bar body of rod) and mass block with mass block, the vibration of target assembly is converted into the vibration of mass block.In prior art, rubber body structure has multiple, and in the utility model, described rubber body offers.Above-mentioned through hole is used for holding target assembly, and as known to those skilled in the art, target assembly is generally tubulose, and rubber body can be sheathed on target assembly by above-mentioned through hole.

In the utility model, rubber body can adopt the column structure of conventional hollow.When installation, column target assembly is inserted in the through hole of rubber body inside.Then by other structure, restriction rubber body is slided on target assembly.

Because vibrative parts on automobile are more, need the portion structure of installation bump leveller each variant, in order to expand the applicability of bump leveller, according to the utility model, under preferable case, in described rubber body, also offer the construction opening that is through to the outer wall of described rubber body from described through hole.Now, target assembly can be pressed in the through hole of rubber body from this construction opening, and this structure has improved the Applicable scope of bump leveller greatly, especially target assembly two-end structure complexity, and cannot insert through hole from rubber body end time, said structure is more applicable.

For the setting of above-mentioned construction opening, can adopt variety of way, only need to reach above-mentioned functions.In the utility model, under preferable case, described rubber body is cylindrical body, and in the axial direction of described rubber body, described construction opening extends to the other end from one end of described rubber body.Now, be more conducive to target assembly and snap in the through hole in rubber body.

In order to expand the Applicable scope of bump leveller, rubber body also can adopt other structures, and for example, described rubber body comprises multiple rubber clacks; Described multiple quality grip block grips.

Now, multiple rubber clacks are fixed between quality grip block and target assembly by the clamping action of multiple quality grip blocks.

The concrete number of rubber clack can be two, three, four or more, considers in conjunction with assembly technology, for ease of assembly manipulation, preferably adopts two rubber clacks.

The processing of above-mentioned rubber body can adopt usual manner, for example, obtain by sulfuration.In the bump leveller that the utility model provides, rubber body is vulcanized separately, without vulcanize with mass block or miscellaneous part simultaneously.

For above-mentioned mass block, its material is well known in the art, is generally metal material.

In the utility model, mass block need have the effect of mass block in conventional bump leveller on the one hand, and on the other hand, this mass block need to apply chucking power to rubber body, and rubber body is clamped and fastened on target assembly.

According to the utility model, the mode that realizes above-mentioned functions is: described mass block comprises multiple quality grip blocks.Between multiple quality grip blocks, mutually machinery is fixedly connected with, and after multiple quality grip block interfixes on rubber body surface, rubber body is applied to chucking power.

When mass block has after above-mentioned functions, before bump leveller assembling, mass block needn't link together completely with rubber body, can simplify the processing of bump leveller, and reduce costs.When after assembling, bump leveller can be realized its decrease of noise functions.

The mass block of specific implementation above-mentioned functions can adopt various structures.For example, on described multiple quality grip block, all there is attachment hole; Described multiple quality grip block is riveted mutually by described attachment hole or bolt connects.

According to the utility model, the concrete number of quality grip block can be that two, three, four are even more.For ease of installing, under preferable case, above-mentioned quality grip block is two.

As previously mentioned, the rubber body and the mass block that have said structure and a function can form the bump leveller that the utility model provides.In the using process of bump leveller, bump leveller can be in company with the component vibration of its installation position.So the stable fixing work that to bump leveller can more stable of bump leveller on target assembly is extremely important.

In the utility model, for preventing that rubber body and multiple quality grip block from producing and relatively moving in the axial direction, can on rubber body and/or multiple quality grip block, limit structure be set.

Concrete, the two ends of described rubber body on the bearing of trend of described through hole have respectively from the outer wall of described rubber body in the direction of the bearing of trend perpendicular to described through hole, stretch out form rubber body defining flange, the rubber body defining flange at described rubber body two ends is held in respectively the two ends of described multiple quality grip blocks to carry out spacing to described multiple quality grip blocks.

As the equivalent deformation of said structure, similarly, the two ends of described multiple quality grip blocks have respectively mass block defining flange, and the mass block defining flange at described multiple quality grip blocks two ends clamps respectively the two ends of described rubber body on the bearing of trend of described through hole to carry out spacing to described rubber body.

Or, on the surface of described rubber body and described multiple quality grip block clamping contacts, there is rubber body spacing preiection, on the surface of described multiple quality grip blocks and described rubber body clamping contact, all offer the mass block limited impression matching with described rubber body spacing preiection.

Equally, as the equivalent deformation of said structure, similarly, on the surface of described rubber body and described multiple quality grip block clamping contacts, offer rubber body limited impression, on the surface of described multiple quality grip blocks and described rubber body clamping contact, all there is the mass block spacing preiection matching with described rubber body limited impression.

Understandable, in the time that above-mentioned rubber body adopts rubber clack structure, above-mentioned rubber body defining flange, rubber body limited impression or rubber body spacing preiection are positioned on rubber clack.

In addition, above-mentioned spacing preiection and limited impression can also replace by corresponding salient point and concave point.Understandable, above-mentioned spacing preiection and limited impression or salient point and concave point can be multiple, are more conducive to ensure limit effect.

Can effectively avoid being subjected to displacement vertically between rubber body and multiple quality grip block by above-mentioned various structures.

According to the utility model; because rubber body is easy to process, under preferable case, can be according to the concrete structure of target assembly; size or size to rubber body are adjusted; by the dependency structure on target assembly, rubber body is carried out spacing, for example, taking the pull bar body of rod as example; on the pull bar body of rod, conventionally can there is weld seam; rubber body is sheathed on the pull bar body of rod, makes rubber body between the weld seam of the pull bar body of rod, carry out spacing by weld seam to rubber body.

Meanwhile, the utility model also provides a kind of assembly, comprises above-mentioned bump leveller and target assembly; The rubber body of described bump leveller fits in the surface of described target assembly.

Bump leveller the utility model being provided below in conjunction with Fig. 2-Figure 11 and absorbing assembly are further described.

Fig. 2-Fig. 4 shows the first mode of execution of the absorbing assembly that the utility model provides.

Concrete, this bump leveller comprises rubber body 2 and mass block 1.

In present embodiment, the cylindrical body that rubber body 2 is hollow, its inside has through hole 24.Meanwhile, in rubber body 2, offer construction opening 21.The outer wall rubber body 2 that construction opening 21 is through to described rubber body 2 from described through hole 24 is sheathed on the pull bar body of rod 6.

Mass block 1 is made up of two quality grip blocks 10.Quality grip block 10 is metal semicircular ring.Two quality grip blocks 10 are spliced into a complete annulus mutually, and described annulus grips described rubber body 2.

Two ends of each quality grip block 10 all offer attachment hole 11.On two quality grip blocks 10, be positioned at corresponding perforation of two attachment holes 11 of homonymy.Rivet 3 is arranged in attachment hole 11, and two quality grip blocks 10 are riveted fixing.

Now, the bump leveller being made up of mass block 1 and rubber body 2 is fixed on the pull bar body of rod 6.

Said structure assembly process is as follows: the construction opening of rubber body 2 21 is aimed to the pull bar body of rod 6, then the pull bar body of rod 6 is pressed in the through hole 24 of rubber body 2 from construction opening 21, rubber body 2 is sheathed on the pull bar body of rod 6.Then two quality grip blocks 10 are spliced on rubber body 2 outer walls, and by rivet 3, two quality grip blocks 10 are riveted, two quality grip blocks 10 grip described rubber body 2.

Fig. 5 shows the second mode of execution of the absorbing assembly that the utility model provides.

Concrete, this bump leveller comprises rubber body 2 and mass block 1.

In present embodiment, rubber body 2 comprises that two 20, two rubber clacks 20 of rubber clack that are semi-annular shape are spliced into an annulus mutually, form through hole 24 between two rubber clacks 20.

Two rubber clacks 20 are arranged on the pull bar body of rod 6, and the pull bar body of rod 6 forms in through hole 24 between two rubber clacks 20.

The structure of mass block 1 is identical with the first mode of execution.

Said structure assembly process is as follows: two rubber clacks 20 are arranged on the pull bar body of rod 6.

Then according to the method identical with the first mode of execution, two quality grip blocks 10 are arranged on two rubber clacks 20, by two quality grip blocks 10, two rubber clacks 20 are clamped and fastened on the pull bar body of rod 6.

Fig. 6 and Fig. 7 show the third mode of execution of the absorbing assembly that the utility model provides.

Concrete, this bump leveller comprises rubber body 2 and mass block 1.

In present embodiment, the cylindrical body that rubber body 2 is hollow, its inside has through hole 24.Meanwhile, in rubber body 2, offer construction opening 21.Construction opening 21 is through to the outer wall of described rubber body 2 from described through hole 24.Rubber body 2 is sheathed on the pull bar body of rod 6, and between two weld seams 61 on the pull bar body of rod 6.

And, the two ends of described rubber body 2 on the bearing of trend of described through hole 24 have respectively from the outer wall of described rubber body 2 in the direction of the bearing of trend perpendicular to described through hole 24, stretch out form rubber body defining flange 22

The structure of mass block 1 is identical with the first mode of execution.

The rubber body defining flange 22 at described rubber body 2 two ends is held in respectively the two ends of described two quality grip blocks 10 to carry out spacing to above-mentioned two quality grip blocks 10.

Said structure assembly process is as follows: the construction opening of rubber body 2 21 is aimed to the pull bar body of rod 6, then the pull bar body of rod 6 is pressed in the through hole 24 of rubber body 2 from construction opening 21, makes to be sheathed on the pull bar body of rod 6 between two weld seams 61 of rubber body 2 on the pull bar body of rod 6.

Then according to the method identical with the first mode of execution, mass block 1 is arranged in rubber body 2, and the two ends of two quality grip blocks 10 are held in respectively on two rubber body defining flanges 22 in rubber body 2.

Fig. 8 and Fig. 9 show the 4th kind of mode of execution of the absorbing assembly that the utility model provides.

Concrete, this bump leveller comprises rubber body 2 and mass block 1.

In present embodiment.The cylindrical body that rubber body 2 is hollow, its inside has through hole 24.Meanwhile, in rubber body 2, offer construction opening 21.Construction opening 21 is through to the outer wall of described rubber body 2 from described through hole 24.Rubber body 2 is sheathed on the pull bar body of rod 6, and between two weld seams 61 on the pull bar body of rod 6.

Mass block 1 is made up of two quality grip blocks 10.Quality grip block 10 is metal semicircular ring.And the two ends of two quality grip blocks 10 have respectively mass block defining flange 12.

Two quality grip blocks 10 are spliced into a complete annulus mutually, rubber body 2 is held on to this annulus inside, and the mass block defining flange 12 at two quality grip block 10 two ends clamps respectively the two ends of described rubber body 2 on the bearing of trend of described through hole 24, carry out spacing to described rubber body 2.

Two ends of each quality grip block 10 all offer attachment hole 11.On two quality grip blocks 10, be positioned at corresponding perforation of two attachment holes 11 of homonymy.Rivet 3 is arranged in attachment hole 11, and two quality grip blocks 10 are riveted fixing.

Said structure assembly process is as follows: the construction opening of rubber body 2 21 is aimed to the pull bar body of rod 6, then the pull bar body of rod 6 is pressed in the through hole 24 of rubber body 2 from construction opening 21, makes to be sheathed on the pull bar body of rod 6 between two weld seams 61 of rubber body 2 on the pull bar body of rod 6.

Then according to the method identical with the first mode of execution, mass block 1 is arranged in rubber body 2, and makes two mass block defining flanges 12 on quality grip block 10 by spacing rubber body 2 fixing.

Figure 10 and Figure 11 show the 5th kind of mode of execution of the absorbing assembly that the utility model provides.

Concrete, this bump leveller comprises rubber body 2 and mass block 1.

In present embodiment, the cylindrical body that rubber body 2 is hollow, its inside has through hole 24.Meanwhile, in rubber body 2, offer construction opening 21.Construction opening 21 is through to the outer wall of described rubber body 2 from described through hole 24.Rubber body 2 is sheathed on the pull bar body of rod 6, and between two weld seams 61 on the pull bar body of rod 6.

Meanwhile, on the surface of rubber body 2 and two quality grip block 10 clamping contacts, there is rubber body spacing preiection 23.

Mass block 1 is made up of two quality grip blocks 10.Quality grip block 10 is metal semicircular ring.Two quality grip blocks 10 are spliced into a complete annulus mutually, and described annulus grips described rubber body 2.Meanwhile, on the surface of quality grip block 10 and described rubber body 2 clamping contacts, all offer the mass block limited impression 13 matching with described rubber body spacing preiection 23.Rubber body spacing preiection 23 in rubber body 2 is arranged in mass block limited impression 13.

Two ends of each quality grip block 10 all offer attachment hole 11.On two quality grip blocks 10, be positioned at corresponding perforation of two attachment holes 11 of homonymy.Rivet 3 is arranged in attachment hole 11, and two quality grip blocks 10 are riveted fixing.

Said structure assembly process is as follows: the construction opening of rubber body 2 21 is aimed to the pull bar body of rod 6, then the pull bar body of rod 6 is pressed in the through hole 24 of rubber body 2 from construction opening 21, makes to be sheathed on the pull bar body of rod 6 between two weld seams 61 of rubber body 2 on the pull bar body of rod 6.

Then according to the method identical with the first mode of execution, mass block 1 is arranged in rubber body 2, and makes the rubber body spacing preiection 23 in rubber body 2 be positioned at mass block limited impression 13.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any amendments of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.

Claims (10)

1. a bump leveller, is characterized in that, comprises rubber body and mass block;

Wherein, described mass block comprises multiple quality grip blocks, and described multiple quality grip blocks are arranged on mutual machinery on the surface of described rubber body and are fixedly connected with and grip described rubber body.

2. bump leveller according to claim 1, is characterized in that, on described multiple quality grip blocks, all has attachment hole; Described multiple quality grip block is riveted mutually by described attachment hole or bolt connects.

3. bump leveller according to claim 1, is characterized in that, described rubber body offers through hole;

In described rubber body, also offer the construction opening that is through to the outer wall of described rubber body from described through hole.

4. bump leveller according to claim 3, is characterized in that, described rubber body is cylindrical body, and in the axial direction of described rubber body, described construction opening extends to the other end from one end of described rubber body.

5. bump leveller according to claim 1, is characterized in that, described rubber body comprises multiple rubber clacks; Described multiple quality grip block grips described multiple rubber clack.

6. according to the bump leveller described in claim 3 or 4, it is characterized in that, the two ends of described rubber body on the bearing of trend of described through hole have respectively from the outer wall of described rubber body in the direction of the bearing of trend perpendicular to described through hole, stretch out form rubber body defining flange, the rubber body defining flange at described rubber body two ends is held in respectively the two ends of described multiple quality grip blocks to carry out spacing to described multiple quality grip blocks.

7. according to the bump leveller described in claim 3 or 4, it is characterized in that, the two ends of described multiple quality grip blocks have respectively mass block defining flange, and the mass block defining flange at described multiple quality grip blocks two ends clamps respectively the two ends of described rubber body on the bearing of trend of described through hole to carry out spacing to described rubber body.

8. according to the bump leveller described in any one in claim 1-5, it is characterized in that, on the surface of described rubber body and described multiple quality grip block clamping contacts, there is rubber body spacing preiection, on the surface of described multiple quality grip blocks and described rubber body clamping contact, all offer the mass block limited impression matching with described rubber body spacing preiection.

9. according to the bump leveller described in any one in claim 1-5, it is characterized in that, on the surface of described rubber body and described multiple quality grip block clamping contacts, offer rubber body limited impression, on the surface of described multiple quality grip blocks and described rubber body clamping contact, all there is the mass block spacing preiection matching with described rubber body limited impression.

10. an absorbing assembly, is characterized in that, comprises target assembly and the bump leveller as described in any one in claim 1-9;

Wherein, the rubber body of described bump leveller fits in the surface of described target assembly.