CN204195210U - Damper spring hold down gag - Google Patents

Abstract

The utility model provides a kind of damper spring hold down gag, comprise support bar, and the linear moving mechanism that can move along the axis direction of support bar be arranged on support bar, also comprise the support mechanism be fixed on support bar, described support mechanism comprises the fixed support being fixed on support bar side, and first adjustable support with the first claw of support bar opposite side is arranged at relative to fixed support, with the hold-down mechanism be arranged on linear moving mechanism, described hold-down mechanism comprises and corresponds respectively to fixed support and the first adjustable support and be arranged at the pressure-adjustable locking bracket of linear moving mechanism both sides and have the second adjustable support of the second claw.Damper spring hold down gag described in the utility model, can eliminate the spring center line offset problem occurred in shock absorber dismounting, and can avoid the play of the spring point of application, can ensure that unloading process carries out smoothly.

Description

Damper spring hold down gag

Technical field

The utility model relates to auto parts and components maintenance technique field, particularly a kind of damper spring hold down gag.

Background technology

In prior art when changing shock absorber, for ensureing the stable of vehicle K & C characteristic, needing to use same set of spring at replacing shock absorber simultaneously, when mating spring, also needing to use same set of undamped shock absorber.Relative to spring, shock absorber belongs to consumable accessory, easily breaks, the destruction such as leakage of oil, and the work of therefore dismantling shock absorber also comes more.When dismantling shock absorber, existing mode mostly is fixes shock absorber body, then is moved down by spring top both sides simultaneously, and by spring compression, then dismantle the clamp nut of shock absorber body upper end, trip spring, can make shock absorber body be separated with spring.Though above-mentioned dismounting mode is comparatively simple, easy to implement, in the process that spring compresses downwards, the center line of spring easily offsets, if side-play amount is excessive, spring will interfere with shock absorber body, thus causes spring not to be compressed to precalculated position.And the point of application of spring top in this approach also easily play occurs, and can cause spring and shock absorber body interference or collide suddenly, thus easily cause changing the low of efficiency.

Utility model content

In view of this, the utility model is intended to propose a kind of damper spring hold down gag, can eliminate the spring center line offset problem occurred in shock absorber dismounting, and can avoid the play of the spring point of application, ensure that unloading process carries out smoothly.

For achieving the above object, the technical solution of the utility model is achieved in that

A kind of damper spring hold down gag, comprises support bar, and is arranged on the linear moving mechanism that can move along the axis direction of described support bar on described support bar, also comprise:

Support mechanism, be fixed on described support bar, described support mechanism comprises the fixed support being fixed on described support bar side, and first adjustable support with the first claw of described support bar opposite side is arranged at relative to described fixed support, described claw can along himself installing axis rotational positioning, and when its turning end bear external force, can position in the axis direction of described support bar;

Hold-down mechanism, be arranged on described linear moving mechanism, described hold-down mechanism comprises and corresponds respectively to pressure-adjustable locking bracket and the second adjustable support that described fixed support and the first adjustable support are arranged at described linear moving mechanism both sides, described pressure-adjustable locking bracket has the movement along described support bar axis direction under external force, described second adjustable support is with can along himself installing axis rotational positioning, and when its turning end bear external force, second claw that can position in the axis direction of described support bar.

Further, described fixed support is the fixing chuck plate being fixed on described support bar side, skewed in upwards of the free end of described fixing chuck plate.

Further, the first described adjustable support comprises the first lead rotating and be arranged at described support bar side, the first described claw slidably and and without being set on described first lead in relative rotation between described first lead, also comprise be connected at described first lead one end, under himself elasticity, make described first lead move along own axes direction, to carry out the first locking elasticity locking mechanism to described first lead along the rotation in own axes direction.

Further, between the axis of described first lead and support bar, there is the angle being not less than 3.5 °, in being arranged vertically between the axis of described first claw and support bar.

Further, described first elasticity locking mechanism comprises the dop being fixed on described first lead end, be connected in the fixture block with draw-in groove on described support bar, described dop and draw-in groove are equipped with the gear teeth, also comprise be sheathed on described first lead, under himself elasticity, make described first lead along its axially-movable, engage with fixture block the elastic component be connected to make described dop.

Further, described first lead is provided with projection along its axis direction, described first claw with the sheathed Connection Block be connected of described first lead is provided with the groove coordinated with described projection slip setting-in.

Further, the second described adjustable support comprises the second lead rotating and be arranged at described linear moving mechanism side, the second described claw slidably and and without being set on described second lead in relative rotation between described second lead, also comprise be connected at described second lead one end, under himself elasticity, make described second lead move along own axes direction, to carry out the second locking elasticity locking mechanism to described second lead along the rotation in own axes direction.

Further, described second elasticity locking mechanism is identical with the structure of the first elasticity locking mechanism, and described second elasticity locking mechanism and the first elasticity locking inter-agency back to setting.

Further, described adjustable hold-down mechanism comprises the screw rod rotating and be arranged at described linear moving mechanism side, and be connected with described screw flight, and slide be posted by described linear moving mechanism sidewall, with when described bolt rotary, can along the mobile clamp of the axis direction movement of described support bar.

Further, base is connected with the bottom of described support bar is dismountable.

Relative to prior art, described in the utility model have following advantage:

(1) damper spring hold down gag described in the utility model, by the fixed support in support mechanism and the first claw, the spring bottom be installed on shock absorber body is supported, the pressure-adjustable locking bracket in hold-down mechanism and the second claw is made to be connected to spring top again, then hold-down mechanism is driven to move via linear moving mechanism, can compress spring, when compressing, the first claw and the second claw bear the active force of spring, the carrying out guaranteeing compaction process can be positioned in compaction direction, if occur, spring center line offsets, and moves by making the pressure-adjustable locking bracket in hold-down mechanism, to adjust the thrust of this side, thus can adapt with the second claw of opposite side, with the balance of thrust suffered by keep-spring both sides, avoid offseting.In this device, the first claw and the second claw also can carry out rotational positioning along its pivot center simultaneously, thus can adapt to the compression of the damper spring of different size, also improve the versatility of device.

(2) fixing chuck plate can adapt with the helical structure feature of spring in inclination upwards, to increase the contact area of fixing chuck plate and spring, ensures the stable of spring attitude.

(3) first claws slide on the first lead can adapt to the spring of differing heights, without relatively rotating between the first claw and the first lead, the rotational positioning of the first claw can be realized via the first elasticity locking mechanism to the locking of the first lead, thus also can adapt to the spring of various outer diameter specification.

(4) first leads and support bar axis have the angle being not less than 3.5 °, first claw and support bar axis are in being arranged vertically, between the axis of also i.e. the first claw and the first guide pillar, also there is the angle being not less than 3.5 °, like this when the first claw accepts the external force along support bar axis direction, because the position of the active force between the first claw and the first lead can be in the scope of angle of friction between the two, first claw is on the first lead, and first lead can realize on support bar along the self-locking on support bar axis direction, also the location of the first claw along support bar axis direction is just realized thus.

The locking organization establishes of (5) first elasticity is the dop with the engagement gear teeth and fixture block that cooperatively interact, can realize the stepless location of the first claw along its pivot center, thus can improve the adaptability of the first claw to various outer diameter specification spring.

(6) arrange projection and groove realize between the first claw and the first lead without relatively rotating, its structure is simply convenient to design and is implemented, and can ensure the first claw being free to slide on the first guide pillar.

(7) second elasticity locking mechanism and the first elasticity locking mechanism are back to setting, when the first claw and the second claw all accept the reaction force of spring, the dop in the first elasticity locking mechanism and the second elasticity locking mechanism can be made to engage locking state with all remaining between fixture block, thus can ensure that the first claw and the second claw are along the stability that support bar axis direction is located.

(8) sidewall of mobile clamp and linear moving mechanism reclines, can when bolt rotary, realize the rectilinear motion of mobile clamp along screw axis direction, and also can avoid mobile clamp that unnecessary rotation occurs, thus realize the stability of mobile clamp to spring compression effect.

(9) arrange the use everywhere that base can be convenient to device, base detachably also improves the portability of device.

Accompanying drawing explanation

The accompanying drawing forming a part of the present utility model is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the structural representation of the damper spring hold down gag described in the utility model embodiment;

Fig. 2 is the partial enlarged drawing of part A in Fig. 1;

Fig. 3 is the partial enlarged drawing of part B in Fig. 1;

Fig. 4 is the front view of the damper spring hold down gag described in the utility model embodiment;

Fig. 5 is the side view of damper spring hold down gag in Fig. 4;

Fig. 6 is structural representation during damper spring hold down gag band base described in the utility model embodiment;

Fig. 7 is the partial enlarged drawing of C part in Fig. 6;

Fig. 8 is the damper spring hold down gag using state figure described in the utility model embodiment;

Description of reference numerals:

1-support bar, mount pad under 2-, the upper mount pad of 3-, 4-fixing chuck plate, 5-first claw, 6-second claw, 7-moves clamp, 8-screw rod, 9-screw shell, 10-stud, 11-block, 12-base, 13-holding tank, 14-first lead, 15-lower installation board, 16-upper mounting plate, 17-end block, 18-projection, 19-dop, 20-fixture block, 21-engage spring, 22-Connection Block, 23-second lead, 24-first side plate, 25-second side plate, the upper rotation seat of 26-, rotation seat under 27-, 28-connecting rod, the locking seat board of 29-, the locking pin of 30-, 31-locking spring, 32-outer tube, 33, shock absorber body, 34-spring.

Detailed description of the invention

It should be noted that, when not conflicting, the embodiment in the utility model and the feature in embodiment can combine mutually.

Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.

The present embodiment relates to a kind of damper spring hold down gag, it comprises support bar 1, support bar 1 is provided with one can along the linear moving mechanism of the axis direction movement of support bar 1, also comprise the support mechanism that damper spring is supported be arranged on support bar 1, and correspond to support organization establishes coordinating with the hold-down mechanism compressed damper spring with support mechanism on linear moving mechanism.

It is a kind of example arrangement of this damper spring hold down gag as shown in Fig. 1 to Fig. 5, the present embodiment cathetus travel mechanism is the top being arranged on support bar 1, and linear moving mechanism is adopt the stud 10 rotating and be arranged on support bar 1, and the screw shell 9 be threadedly connected on stud 10, namely hold-down mechanism is arranged on screw shell 9.Screw shell 9 is close between one end of support bar 1 and support bar 1 and is slidably connected, and adopt the version such as guide rail, chute as setting-in coordinates, make can not relatively rotate between screw shell 9 and support bar 1, realize screw shell 9 thus and can move linearly along support bar 1 under the rotation of stud 10.

The setting on support bar 1 and screw shell 9 for ease of support mechanism and hold-down mechanism in the present embodiment, on support bar 1 and screw shell 9, be also respectively arranged with the lower mount pad 2 in cuboid and upper mount pad 3, certain support mechanism and hold-down mechanism also can not be directly connected on support bar 1 and screw shell 9 via lower mount pad 2 and upper mount pad 3.Support mechanism in the present embodiment comprises the fixing chuck plate 4 being arranged on lower mount pad 2 side, fixing chuck plate 4 can be as shown in Figure 3, be made up of vertically arranged first side plate 24 and the second side plate 25, and a block 11 is also provided with near its lateral edges place on the second side plate 25, block 11 damper spring that can be opposite on the second side plate 25 together with the first side plate 24 is well located.

In the present embodiment, according to the helical structure feature of damper spring, the free end of fixing chuck plate 4 is also set to be inclined upwardly, and when support bar 1 is vertically placed, can be the angle had as 5 ° between fixing chuck plate 4 free end and horizontal direction.Can be linear contact lay between the second side plate 25 thus on fixing chuck plate 4 and damper spring placed on it, thus the effect of stable damper spring attitude can be played.Support mechanism in the present embodiment also comprises the first adjustable support with the first claw 5 being arranged on lower mount pad 2 opposite side corresponding to fixing chuck plate 4.

As shown in Figure 2, namely the first lead 14, first claw 5 that the first adjustable support comprises via upper mounting plate 16 and lower installation board 15 rotation installation is arranged on the first lead 14 via the Connection Block 22 be set on the first lead 14.In the present embodiment the first claw 5 can be shown in Fig. 1 in bending shaft-like, be also provided with a holding tank 13 at the free end of the first claw 5, for the secure support of the first claw 5 pairs of damper springs.One end of first lead 14 is fixed with end block 17, is then provided with a dop 19 with the gear teeth at the other end of the first lead 14.And the one end being close to dop 19 on lower mount pad 2 be also provided with one to should dop 19 arrange fixture block 20.Fixture block 20 is provided with the draw-in groove with the gear teeth, and when the first lead 14 moves along himself axis direction, dop 19 can enter in the draw-in groove on fixture block 20, and can be connected via the gear teeth meshing on dop 19 and draw-in groove.

Draw-in groove in the present embodiment on fixture block 20 can be semicircle shape as shown in Figure 2, and it also can be the overall circular hole slot of of being arranged on fixture block 20 certainly.And in the present embodiment between dop 19 and lower installation board 15, also be provided with the engage spring 21 be set on the first lead 14, and when engage spring 21 descends in the raw, the movement that first lead 14 also has to fixture block 20 side because of the elastic force of engage spring 21, and when the first lead 14 moves and makes end block 17 abut against with upper mounting plate 16, dop 19 is for entering in the draw-in groove on fixture block 20, thus can being meshed because of dop 19 and the gear teeth on fixture block 20, and the first lead cannot be rotated along himself axial direction.

Dop 19, fixture block 20, and the draw-in groove be arranged on fixture block 20 together constitutes in the first adjustable support with the gear teeth be separately positioned on dop 19 and draw-in groove the first elasticity locking mechanism making the first lead 14 carry out rotational positioning.And in the present embodiment fixture block 20 can be directly be fixed on lower mount pad 2 sidewall on, it also can as shown in Figure 4 for being arranged on lower installation board 15 certainly, and with between lower mount pad 2 for be indirectly connected., the first lead 14 is provided with the projection 18 arranged along its axis direction together in the present embodiment also as shown in Figure 2, Connection Block 22 is then provided with the groove that projection 18 can be made to be free to slide in the inner together.By projection 18 and the setting of groove that is slidably matched with it, thus make the first claw 5 can only have along the slip on the first lead 14 axis direction, and can not rotate relative to the first lead 14, also namely realize the rotational positioning to the first claw 5 by the first above-mentioned elasticity locking mechanism thus.

For making the first claw 5 can position in any position of the first lead 14 in the present embodiment, also making the first lead 14 when arranging and there is between the axis of support bar 1 angle being not less than 3.5 °, as can be 5 °.And holding tank 13 on the first claw 5 and the line between Connection Block 22 when arranging for the axis of support bar 1 between be arranged vertically, namely also the first claw 5 sees also have the angle that is not less than 3.5 ° on the whole between the first lead 14, and this angle also can be 5 °.Like this when the first claw 5 is when bearing the active force along support bar 1 axis direction, just can be in angle of friction between the two because of the position of the intermolecular forces of the first claw 5 and the first lead 14, thus make the first claw 5 can not have slip along the first lead 14.

Hold-down mechanism in the present embodiment comprises the adjustable hold-down mechanism being arranged on upper mount pad 3 side corresponding to fixing chuck plate 4, and corresponds to the second adjustable support that the first adjustable support is arranged on mount pad opposite side.Adjustable hold-down mechanism comprises the screw rod 8 being arranged on upper mount pad 3 side via upper rotor plate 26 and lower rotor plate 27, and the top of screw rod 8 is connected with adjusting bolt for the rotation ordering about screw rod 8.Adjustable hold-down mechanism also comprises the mobile clamp 7 be threaded on screw rod 8, and mobile clamp 7 can adopt the structure identical with fixing chuck plate 4, and mobile clamp 7 is just to setting between fixing chuck plate 4, and the free ending tool also namely moving clamp 7 has downward inclination.

In the present embodiment, mobile clamp 7 also and recline between the sidewall of upper mount pad 3 and arrange, can not rotate relative to screw rod 8 because of the restriction of upper mount pad 3 sidewall to make mobile clamp 7, also make when screw rod 8 rotates thus, mobile clamp 7 can only have the movement along support bar 1 axis direction.In the present embodiment, the second adjustable support comprises the second lead 23 rotating and be arranged on mount pad 3 side, second lead 23 is set with the second claw 6, also comprises second lead 23 that makes being arranged on second lead 23 one end and carry out the second elasticity locking mechanism of rotational positioning.In the present embodiment, the second elasticity locking mechanism is adopt the structure identical with the first elasticity locking mechanism, and other structure of the second adjustable support also can adopt the structure identical with the first adjustable support.

Being just to setting between the second claw 6 and the first claw 5 in the present embodiment, is also that the holding tank 23 on both is just right fastening shape.And in order to make the first claw 5 and the second claw 6 when stressed, the stability of rotational positioning both ensureing, first elasticity locking mechanism and the second elasticity locking mechanism are also back to setting as shown in Figure 2, also namely the first elasticity locking mechanism and the second elasticity locking mechanism lay respectively at two ends that lower mount pad 2 and upper mount pad 3 deviate from mutually, now also make to be back to arranging state on the whole between the first adjustable support and the second adjustable support.

Damper spring hold down gag in the present embodiment in use, can the bottom of support bar 1 be fixed on arbitrary objects, and for the ease of being originally installed on the use of arbitrary site, also can be as shown in Figure 6, connect in the bottom of support bar 1 and a dismountable base 12 is set.The mode of removably connecting between base 12 and support bar 1 can shown in figure Fig. 7, now be connected with one section of connecting rod 28 in the bottom of support bar 1, connecting rod 28 can be set on the not shown center-pole at base 12 center, and also in being engaged shape between connecting rod 28 and the outer tube 32 be arranged on outside center-pole, the support to support bar 1 can be realized thus, also can prevent support bar 1 from rotating on center-pole.Certainly except arranging the situation of connecting rod 28, the form that the center-pole of support bar 1 directly on base 12 and outer tube 32 are connected can in the present embodiment, also be adopted.

Outer tube 32 is also provided with the locking seat board 29 of a rectangular shape, connecting rod 28 and center-pole correspond to locking seat board 29 place and is also respectively arranged with not shown through hole, locking seat board 29 is then provided with a locking pin 30 that can run through in the through hole inserted on connecting rod 28 and center-pole.By the insertion of locking pin 30, can to realize between base 12 with support bar 1 reliable is connected, and on locking seat board 29, being also provided with a locking spring 31 be set on locking pin 30, locking spring 31 can keep the insert state in the through hole of locking pin 30 on connecting rod 28 and center-pole.When needs by base 12 by when support bar 1 is removed, locking pin 30 can be pulled, make it deviate from from the through hole connecting rod 28 and center-pole.

State when this damper spring hold down gag uses can as shown in Figure 7, and the bottom of the spring 34 on shock absorber body 33 is supported by fixing chuck plate 4 and the first claw 5, and mobile clamp 7 and the second claw 6 are then placed in the top of spring 34.According to the difference of spring 34 specification, by adjusting the mobile position of clamp 7 on screw rod 8, and the first claw 5 and the second claw 6 adapt to the spring of differing heights respectively at the position on the first lead 14 and the second lead 23.And when spring 34 external diameter changes, then first can press dop 19 or pull end block 17 that dop is deviate from from the draw-in groove of fixture block 20, then the first claw 5 is rotated, when the first claw 5 amount of spin is suitable for, unclamp the active force to dop 19 or end block 17, dop 19 can reenter in draw-in groove under the effect of engage spring 21, to recover the rotational positioning to the first claw 5, is also identical with said process to the adjustment of the second claw 6.

After spring 34 fixes via fixing chuck plate 4, first claw 5, mobile clamp 7 and the second claw 6, i.e. rotatable stud 10 and compressing via mobile clamp 7 and the second claw 6 pairs of springs 34, in the process compressed, if there is skew in the center line of spring 34, then rotatable screw rod 8 and adjust mobile clamp 7, eliminates shift phenomenon by mobile clamp 7 along the movement of support bar 1 axis direction.In the process that spring 34 compresses, first claw 5 and the second claw 6 also can bear the reaction force along support bar 1 axis direction of spring, and by the structural design with angle of the first lead 14 and the first claw 5 and the second lead 23 and the second claw 6, also can ensure that the first claw 5 and the second claw are located on support bar 1 axis direction stable.Also can ensure that unnecessary rotation can not occur for the first claw 5 and the second claw 6 via the first elasticity locking mechanism and the second elasticity locking mechanism simultaneously, thus carrying out smoothly of compaction process can be ensured.

When rotating stud 10 and making spring 34 be forced into appropriate level, dismounting and change can be carried out to shock absorber body 33, after shock absorber body 33 is more finished changing, stud 10 can be rotated backward and make spring 34 return to original length.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a damper spring hold down gag, comprises support bar, and is arranged on the linear moving mechanism that can move along the axis direction of described support bar on described support bar, characterized by further comprising:

Support mechanism, be fixed on described support bar, described support mechanism comprises the fixed support being fixed on described support bar side, and first adjustable support with the first claw of described support bar opposite side is arranged at relative to described fixed support, described claw can along himself installing axis rotational positioning, and when its turning end bear external force, can position in the axis direction of described support bar;

Hold-down mechanism, be arranged on described linear moving mechanism, described hold-down mechanism comprises and corresponds respectively to pressure-adjustable locking bracket and the second adjustable support that described fixed support and the first adjustable support are arranged at described linear moving mechanism both sides, described pressure-adjustable locking bracket has the movement along described support bar axis direction under external force, described second adjustable support is with can along himself installing axis rotational positioning, and when its turning end bear external force, second claw that can position in the axis direction of described support bar.

2. damper spring hold down gag according to claim 1, is characterized in that: described fixed support is the fixing chuck plate being fixed on described support bar side, skewed in upwards of the free end of described fixing chuck plate.

3. damper spring hold down gag according to claim 1, it is characterized in that: the first described adjustable support comprises the first lead rotating and be arranged at described support bar side, the first described claw slidably and and without being set on described first lead in relative rotation between described first lead, also comprise be connected at described first lead one end, under himself elasticity, make described first lead move along own axes direction, to carry out the first locking elasticity locking mechanism to described first lead along the rotation in own axes direction.

4. damper spring hold down gag according to claim 3, is characterized in that: have the angle being not less than 3.5 ° between the axis of described first lead and support bar, in being arranged vertically between the axis of described first claw and support bar.

5. damper spring hold down gag according to claim 3, it is characterized in that: described first elasticity locking mechanism comprises the dop being fixed on described first lead end, be connected in the fixture block with draw-in groove on described support bar, described dop and draw-in groove are equipped with the gear teeth, also comprise be sheathed on described first lead, under himself elasticity, make described first lead along its axially-movable, engage with fixture block the elastic component be connected to make described dop.

6. damper spring hold down gag according to claim 3, it is characterized in that: on described first lead, its axis direction is provided with projection, described first claw with the sheathed Connection Block be connected of described first lead is provided with the groove coordinated with described projection slip setting-in.

7. damper spring hold down gag according to claim 3, it is characterized in that: the second described adjustable support comprises the second lead rotating and be arranged at described linear moving mechanism side, the second described claw slidably, and and without being set on described second lead in relative rotation between described second lead, also comprise and be connected at described second lead one end, under himself elasticity, make described second lead move along own axes direction, to carry out the second locking elasticity locking mechanism to described second lead along the rotation in own axes direction.

8. damper spring hold down gag according to claim 7, is characterized in that: described second elasticity locking mechanism is identical with the structure of the first elasticity locking mechanism, and described second elasticity locking mechanism and the first elasticity locking inter-agency back to setting.

9. damper spring hold down gag according to claim 1, it is characterized in that: described adjustable hold-down mechanism comprises the screw rod rotating and be arranged at described linear moving mechanism side, and be connected with described screw flight, and slide be posted by described linear moving mechanism sidewall, with when described bolt rotary, can along the mobile clamp of the axis direction movement of described support bar.

10. damper spring hold down gag according to claim 1, is characterized in that: be connected with base the bottom of described support bar is dismountable.