CN206682217U - Pagoda type multi-stage ball damper is fixed in a kind of self-locking - Google Patents

Abstract

It the utility model is related to a kind of self-locking and fix pagoda type multi-stage ball damper, its composition includes casing, support and shock-absorbing ball, it is characterized in, shock-absorbing ball is pagoda type multi-stage ball, there is cavity inside the multi-stage ball, the pagoda type multi-stage ball from be upwardly into be arranged be oriented to the conical surface, upper neck, at least one top shock-absorbing ball, pedestal shock-absorbing ball and lower bayonet slot, casing are fixed by the lower bayonet slot self-locking of the pagoda type multi-stage ball, support is fixed by the upper neck self-locking of the pagoda type multi-stage ball.The multistage pagoda type structure and more ball equilibrium layout designs of the utility model shock-absorbing ball, compared with the damping device of single spherical structure, antitorque effect is substantially increased, when mechanism has longitudinally, laterally and reversed etc. complicated vibrations, still can play preferable damping, the effect of noise-reducing.In addition, the design of various structures and multi-stage ball inside shock-absorbing ball, has expanded the scope of application of shock-absorbing ball, can meet being actually needed for various damping occasions.

Description

Pagoda type multi-stage ball damper is fixed in a kind of self-locking

Technical field

It the utility model is related to a kind of damping device, in particular a kind of support by damping Ball support damping.

Background technology

The problem of damping, sound insulation all be present in instrument, instrument, light duty compressor, minipump etc., frequently be inhale Spring, shock-absorbing ball etc. are shaken, though shock-absorbing spring can filter vibrations, spring itself can produce reciprocating motion, vibrations and friction；Conventional damping Ball is only single spheroid, and its damping effect has certain limitation, particularly when mechanism produces transverse vibration and waved, damping effect Without too big advantage.Preferably to consume complicated seismic source energy, the shock insulation such as longitudinally, laterally and reduce noise, we employ one Kind self-locking is fixed, pagoda type multi-stage ball damper.

The content of the invention

The purpose of this utility model be to provide one kind can preferably consume longitudinally, laterally etc. complicated seismic source energy, shock insulation and Reduce the damping device of noise.

To achieve the above object, technical solutions of the utility model are that pagoda type multi-stage ball damper is fixed in a kind of self-locking, its Composition includes casing, support and shock-absorbing ball, it is characterised in that：The shock-absorbing ball is pagoda type multi-stage ball, inside the multi-stage ball There is cavity, the pagoda type multi-stage ball is provided with the guiding conical surface, upper neck, at least one top shock-absorbing ball, pedestal and subtracted from top to bottom Shake ball and lower bayonet slot, casing are fixed by the lower bayonet slot self-locking of the pagoda type multi-stage ball, and support passes through the pagoda type multi-stage ball Upper neck self-locking is fixed.

In the above-mentioned technical solutions, the pagoda type multi-stage ball outer shape be to be arranged be oriented to the conical surface, on Neck, top shock-absorbing ball, pedestal shock-absorbing ball and lower bayonet slot, the top shock-absorbing ball to pedestal shock-absorbing ball intermediate location internal cavities In cylinder, pedestal shock-absorbing ball to lower bayonet slot part interior cavity is in cylinder.

In the above-mentioned technical solutions, the pagoda type multi-stage ball outer shape be to be arranged be oriented to the conical surface, on Neck, top shock-absorbing ball, pedestal shock-absorbing ball and lower bayonet slot, the pagoda type Multistage damping ball internal shape is top damping Cavity inside ball to pedestal shock-absorbing ball intermediate location is in cylinder, and pedestal shock-absorbing ball internal cavities are rounded, lower bayonet slot portion Position internal cavities are in cylinder.

In the above-mentioned technical solutions, the pagoda type multi-stage ball outer shape be to be arranged be oriented to the conical surface, on Neck, top shock-absorbing ball, pedestal shock-absorbing ball and lower bayonet slot, the top shock-absorbing ball internal cavities are rounded, top shock-absorbing ball For intermediate location internal cavities in cylinder, pedestal shock-absorbing ball to lower bayonet slot part interior cavity is in cylinder between pedestal shock-absorbing ball Shape.

In the above-mentioned technical solutions, the pagoda type multi-stage ball outer shape be to be arranged be oriented to the conical surface, on Neck, top shock-absorbing ball, pedestal shock-absorbing ball and lower bayonet slot, the top shock-absorbing ball internal cavities are rounded, top shock-absorbing ball Intermediate location internal cavities are in cylinder between pedestal shock-absorbing ball, and pedestal shock-absorbing ball internal cavities are rounded, lower bayonet slot portion Position internal cavities are in cylinder.

In the above-mentioned technical solutions, the pagoda type multi-stage ball outer shape be to be arranged be oriented to the conical surface, on Neck, top shock-absorbing ball, middle part shock-absorbing ball, pedestal shock-absorbing ball and lower bayonet slot, the pagoda type multi-stage ball internal cavities are in cylinder Shape or spheroidal.

In the above-mentioned technical solutions, the middle part shock-absorbing ball at least one.

The utility model has the advantages that the multistage pagoda type structure of 1, the utility model shock-absorbing ball and more ball equilibrium cloth install Meter, compared with the damping device of single spherical structure, substantially increase antitorque effect, when mechanism exist longitudinally, laterally and reverse etc. During complexity vibrations, preferable damping, the effect of noise-reducing still can be played.2nd, a variety of internal structures and multilevel design of shock-absorbing ball Scheme, the scope of application of shock-absorbing ball is expanded, being actually needed for various damping occasions can be met.

Brief description of the drawings

Fig. 1 is the utility model embodiment structural profile illustration.

Fig. 2 is the utility model embodiment structure schematic top plan view.

Fig. 3 is one of two level shock-absorbing ball structure sectional view.

Fig. 4 is two structure sectional views of two level shock-absorbing ball.

Fig. 5 is three structure sectional views of two level shock-absorbing ball.

Fig. 6 is four structure sectional views of two level shock-absorbing ball.

In the figures above, 1 is casing, and 2 be shock-absorbing ball, and 3 be support, and 11 be to be oriented to the conical surface, and 12 be upper neck, and 13 be top Shock-absorbing ball, 14 be pedestal shock-absorbing ball, and 15 be lower bayonet slot, and 16 be cylindrical cavity, and 17 be cylindrical cavity, and 21 be to be oriented to the conical surface, 22 be upper neck, and 23 be top shock-absorbing ball, and 24 be pedestal shock-absorbing ball, and 25 be lower bayonet slot, and 26 be cylindrical cavity, and 27 be ball Shape cavity, 28 be cylindrical cavity, and 31 be to be oriented to the conical surface, and 32 be upper neck, and 33 be top shock-absorbing ball, and 34 be pedestal shock-absorbing ball, 35 be lower bayonet slot, and 36 be cylindrical cavity, and 37 be cylindrical cavity, and 38 be spheroidal cavity, and 41 be to be oriented to the conical surface, 42 be on Neck, 43 be top shock-absorbing ball, and 44 be pedestal shock-absorbing ball, and 45 be lower bayonet slot, and 46 be cylindrical cavity, and 47 be spheroidal cavity, 48 be cylindrical cavity, and 49 be spheroidal cavity.

Embodiment

Embodiment one, the present embodiment employ four self-lockings and fix pagoda type two level shock-absorbing ball, and shock-absorbing ball design feature is such as Shown in accompanying drawing 3, because damping ball material has a deformation nature and a reasons such as shock-absorbing ball internal cavities can be compressed, casing is from four The individual top of shock-absorbing ball 2 moves downward, and can be installed on the position self-locking of lower bayonet slot 11 and fix, and similarly, support 3 is from four shock-absorbing balls 2 Top moves downward, and can be installed on the position self-locking of neck 14 and fix, as shown in Figures 1 and 2.Two-stage in the present embodiment Shock-absorbing ball, as shown in Figure 3, take full advantage of the existing elastomeric state of rubber has the performance of the high damping for sticking state, sound insulation and buffering again, The characteristics of make use of rubber that there is hysteresis, damping and reversible large deformation can be carried out, by consuming vibroseis energy and shock insulation step by step, Particularly to vertically and horizontally waiting complicated vibrations caused by swing mechanism etc., preferable damping, noise reduction can be played.

In the present embodiment, vavuum pump or compressor are fixed on support 3, the present embodiment damper can absorb longitudinal direction and Horizontal vibration energy, also has higher antitorque effect, and when focus machinery, there is longitudinally, laterally and the complexity such as torsion simultaneously In the case of vibrating mode, preferable damping, the effect of noise-reducing still can be played.

Casing and support self-locking are fixed on four self-lockings and fix pagoda type three-level shock-absorbing ball by embodiment two, the present embodiment In lower bayonet slot and upper neck, because three-level shock-absorbing ball adds middle part shock-absorbing ball, it absorbs the energy of longitudinal vibration energy and noise reduction Power is further strengthened.

Claims (7)

1. pagoda type multi-stage ball damper is fixed in a kind of self-locking, its composition includes casing, support and shock-absorbing ball, and its feature exists In：The shock-absorbing ball is pagoda type multi-stage ball, has cavity inside the multi-stage ball, and the pagoda type multi-stage ball is arranged with from being upwardly into It is oriented to the conical surface, upper neck, at least one top shock-absorbing ball, pedestal shock-absorbing ball and lower bayonet slot, casing and passes through the pagoda type multi-stage ball Lower bayonet slot self-locking fix, support is fixed by the upper neck self-locking of the pagoda type multi-stage ball.

2. pagoda type multi-stage ball damper is fixed in a kind of self-locking according to claim 1, it is characterised in that：The pagoda type Multi-stage ball outer shape be to being oriented to the conical surface, upper neck, top shock-absorbing ball, pedestal shock-absorbing ball and lower bayonet slot to being arranged with, The top shock-absorbing ball is to pedestal shock-absorbing ball intermediate location internal cavities in cylinder, pedestal shock-absorbing ball to lower bayonet slot part interior Cavity is in cylinder.

3. pagoda type multi-stage ball damper is fixed in a kind of self-locking according to claim 1, it is characterised in that：The pagoda type Multi-stage ball outer shape be to being oriented to the conical surface, upper neck, top shock-absorbing ball, pedestal shock-absorbing ball and lower bayonet slot to being arranged with, The pagoda type Multistage damping ball internal shape is that the cavity inside top shock-absorbing ball to pedestal shock-absorbing ball intermediate location is in Cylinder, pedestal shock-absorbing ball internal cavities are rounded, and lower bayonet slot part interior cavity is in cylinder.

4. pagoda type multi-stage ball damper is fixed in a kind of self-locking according to claim 1, it is characterised in that：The pagoda type Multi-stage ball outer shape be to being oriented to the conical surface, upper neck, top shock-absorbing ball, pedestal shock-absorbing ball and lower bayonet slot to being arranged with, The top shock-absorbing ball internal cavities are rounded, and intermediate location internal cavities are in circle between top shock-absorbing ball and pedestal shock-absorbing ball Cylindricality, pedestal shock-absorbing ball to lower bayonet slot part interior cavity is in cylinder.

5. pagoda type multi-stage ball damper is fixed in a kind of self-locking according to claim 1, it is characterised in that：The pagoda type Multi-stage ball outer shape be to being oriented to the conical surface, upper neck, top shock-absorbing ball, pedestal shock-absorbing ball and lower bayonet slot to being arranged with, The top shock-absorbing ball internal cavities are rounded, and intermediate location internal cavities are in circle between top shock-absorbing ball and pedestal shock-absorbing ball Cylindricality, pedestal shock-absorbing ball internal cavities are rounded, and lower bayonet slot part interior cavity is in cylinder.

6. pagoda type multi-stage ball damper is fixed in a kind of self-locking according to claim 1, it is characterised in that：The pagoda type Multi-stage ball outer shape be to be arranged be oriented to the conical surface, upper neck, top shock-absorbing ball, middle part shock-absorbing ball, pedestal damping Ball and lower bayonet slot, the pagoda type multi-stage ball internal cavities are in cylinder or spheroidal.

7. pagoda type multi-stage ball damper is fixed in a kind of self-locking according to claim 6, it is characterised in that：The middle part subtracts Shake ball at least one.