CN203585754U - Supporting device with buffer rebound function and buffer mechanism combination of supporting device - Google Patents

Abstract

The utility model provides a supporting device with a buffer rebound function. The supporting device is arranged at the back of a plate and comprises a hinge module, a supporting arm and at least one buffer mechanism, the hinge module is provided with an elastic element and an axial rod, the supporting arm is fixedly connected to the axial rod, the buffer mechanisms are connected to the axial rod, the axial rod is provided with a buffer connecting section positioned on the outer side of a hinge seat, each buffer mechanism comprises a rotating damper, a holding shell and an adapter, each rotating damper comprises a body and an outer connecting portion, the bodies are fixed to the plate by the holding shells, and the adapters are fixedly connected to the outer connecting portions and the buffer connecting section. The utility model further provides a buffer mechanism combination, and a plurality of buffer mechanisms are serially connected or parallelly connected to form the buffer mechanism combination. The supporting device can provide damping force when the buffer mechanism combination returns to a folded position, so that the buffer mechanism combination cannot rapidly rebound to the folded position.

Description

Support device and the damping mechanism combination thereof of tool buffering resilience function

Technical field

The utility model relates to a kind of support device and damping mechanism combination thereof of tool buffering resilience function, refer to especially a kind of support device that is arranged at a plate body back side, this support device has damping mechanism combination can provide damping strength in returning back to stowed position process, to avoid recoiling to fast stowed position.

Background technique

Along with the progress of manufacturing technology, liquid crystal display is more and more universal, for example, as video display of computer equipment and TV etc.Liquid crystal display more provides touch-control and hand-written function in recent years.

The support device that becomes known for display device is typically provided with a hinge module and a supporting frame, and hinge module is provided with the strength that a torque spring rebounds to provide support support body.When display device is when being placed in desktop compared with wide-angle tilt, particularly approach the flat state of lying, supporting frame is upwards pulled larger angle.Now, supporting frame is because of the very large elastic force of torque spring savings one.If when user mentions display device by desktop, the strength that supporting frame rebounds is large and rapid, may accidentally knock or clamp user's hand.

In sum, the above-mentioned disappearance of inventor's thoughts can be improved, and proposes a kind of reasonable in design and effectively improve the technological scheme of above-mentioned disappearance.

Model utility content

For solving the problem of prior art, the utility model main purpose is to provide a kind of support device of tool buffering resilience function, and it has a damping mechanism combination provides damping whereby, to reach the function of buffering resilience.

Described above for reaching, according to one of mode of execution of the present utility model, provide a kind of support device of tool buffering resilience function, it is located at the back side of a plate body, and this support device comprises a hinge module, a support arm and at least one damping mechanism.Hinge module comprises that a hinge pedestal, is located at elastic element and the axial body of rod on this hinge pedestal, this axial body of rod is through this hinge pedestal and be connected in this elastic element, this elastic element provides this axial body of rod towards a rotation strength that folds direction, and this axial body of rod has a buffering linkage section that is positioned at the external side of this hinge base.This support arm is fixedly connected to this axial body of rod.Described at least one damping mechanism is connected in this buffering linkage section of this axial body of rod, and this damping mechanism comprises a rotation damper, a fixing housing and an adaptor.Rotation damper comprises a main body portion and an external portion, this external portion and this main body portion coaxial rotation and have viscous force; This fixing housing is fixed this main body portion of this rotation damper; This adaptor, is fixedly connected to this buffering linkage section of this external portion and this axial body of rod.

In order to solve the problems of the technologies described above, the utility model also provides a kind of damping mechanism combination, comprises several damping mechanisms that connect with serial arrangement, and it can adjust the strength of buffering, to increase damping.

Described above for reaching, according to one of mode of execution of the present utility model, provide a kind of damping mechanism combination, be connected in an axial body of rod, this damping mechanism combination comprises several damping mechanisms that connect with serial arrangement, each this damping mechanism comprises;

One rotation damper, comprise a main body portion and an external portion, this external portion and this main body portion coaxial rotation and there is each other viscous force, the axis direction of this rotation damper forms one and runs through the axis hole of this main body portion and this external portion, and wherein this axial body of rod is through this axis hole of each this damping mechanism;

One fixing housing, fixes this main body portion of this rotation damper; And

One adaptor, a side of this adaptor is fixedly connected to this external portion, and wherein this axial body of rod is regularly through this adaptor, and the rotation of this axial body of rod produces buffering by this adaptor because of the moment that this external portion applies.

In order to solve the problems of the technologies described above, the utility model also provides the combination of a kind of damping mechanism, comprise several with and the damping mechanism that connects of the mode that connects, it can adjust the strength of buffering, to increase damping.

Described above for reaching, according to one of mode of execution of the present utility model, provide a kind of damping mechanism combination, be connected in an axial body of rod, this damping mechanism combination comprises a coaxial damping mechanism and at least one non-coaxial damping mechanism.Above-mentioned coaxial damping mechanism is connected in this axial body of rod coaxially, and this coaxial damping mechanism comprises:

One rotation damper, has a main body portion and an external portion, this external portion and this main body portion coaxial rotation and there is each other viscous force, and the axis direction of this rotation damper forms one and runs through the axis hole of this main body portion and this external portion;

One fixing housing, fixes this main body portion of this rotation damper; And

One adaptor, a side of this adaptor is fixedly connected to this external portion, and wherein this axial body of rod lock seaming is in this adaptor, and the rotation of this axial body of rod produces buffering by this adaptor because of the moment that this external portion applies.

The axial body of rod is non-is connected coaxially with this for above-mentioned non-coaxial damping mechanism, and this non-coaxial damping mechanism is engaged in this coaxial damping mechanism, and each this non-coaxial damping mechanism comprises:

One rotation damper, comprises a main body portion and an external portion, this external portion and this main body portion coaxial rotation and have each other viscous force;

One fixing housing, fixes this main body portion of this rotation damper; And

One adaptor, a side of this adaptor is fixedly connected to this external portion;

Wherein this adaptor of this non-coaxial damping mechanism is engaged in this adaptor of this coaxial damping mechanism; Damping strength with this this non-coaxial damping mechanism is passed to this axial body of rod.

According to above-mentioned design, this fixing housing forms a restraining groove, the peripheral outstanding stopper protrusion of this main body portion of this rotation damper, and this stopper protrusion is sticked in this restraining groove; Wherein this fixing housing comprises a lower shell body and a upper shell, and the both sides of this lower shell body respectively have a locking part, and this restraining groove is formed at this upper shell, and this upper shell is fixed on this lower shell body.

According to above-mentioned design, this external portion of this rotation damper has at least one inserted part, and this inserted part is outwardly by the outer side surface of this external portion, and this adaptor forms the buckling groove of at least always wearing, and this inserted part is sticked in this buckling groove; Wherein this buckling groove of this adaptor is stretched out along diametric(al) by the periphery of this center hole.

According to above-mentioned design, the shape of cross section of this axial body of rod is a non-circular shape of cross section, wherein this adaptor forms a center hole, and the profile of this center hole is corresponding to the shape of cross section of this axial body of rod, and this axial body of rod is connected in this center hole regularly.

The beneficial effects of the utility model are, the support device of tool buffering resilience function, relies on damping mechanism combination can provide support arm when rebounding because of hinge module, and damping can be provided, thereby slow down speed and the strength of support arm resilience, to avoid accidentally injuring user's hand.Buffering strength of the present utility model can also be optionally and elasticity adjustment, for example, in the mode of series winding, or with and the mode that connects, strengthen damping.

About the explanation of the utility model content and the explanation of following mode of execution, be in order to give an example and to explain principle of the present utility model above, and provide patent claim of the present utility model further to explain.

Accompanying drawing explanation

Fig. 1 is the constitutional diagram of the support device of tool buffering resilience function of the present utility model.

Figure 1A is the enlarged view of 1A part in Fig. 1.

Fig. 2 is another constitutional diagram of the support device of tool buffering resilience function of the present utility model.

Fig. 3 is the three-dimensional exploded view of hinge module of the present utility model.

Fig. 4 is the three-dimensional exploded view of damping mechanism combination of the present utility model.

Fig. 5 is the constitutional diagram of damping mechanism combination serial arrangement of the present utility model.

Fig. 6 is the constitutional diagram that damping mechanism of the present utility model combined and connected mode.

[primary component symbol description]

Hinge module 10

Nut 11

Hinge pedestal 12

The first side plate 121

The second side plate 122

Torsional wheel 13a

Isolating ring 13b

Retaining washer 13c

Elastic element 14

Spring lining 140

First end 141

The second end 142

Snap fit pad 15a

Retaining washer 15b, 15c

The axially body of rod 16

Buffering linkage section 162

Resilient pad group 17

Spacing shim 18

Locating washer group 19

Retaining washer 19a

Friction pads 19b

Prominent rib 191,192

Support arm 20

Damping mechanism combination 30,30 '

Damping mechanism 30a, 30b, 30c, 30x, 30y, 30z

Axostylus axostyle 31

Rotation damper 32

Axis hole 320

Main body portion 322

Stopper protrusion 3221

External portion 324

Inserted part 3241

Fixing housing 34,34 '

Lower shell body 342

Locking part 3422

Upper shell 344

Restraining groove 346

Adaptor 36

Center hole 360

Buckling groove 361

Gear 38

Display device 9

Plate body 92

Embodiment

Please refer to Fig. 1 and Fig. 2, is the support device constitutional diagram of tool buffering resilience function of the present utility model.The utility model provides a kind of support device of tool buffering resilience function to be located at the back side of a plate body 92.The present embodiment illustrates with a display device 9, and plate body 92 is positioned at the back side of display device 9.Display device 9 can be computer, panel computer or the Show stand of integral type ... Deng.This support device comprises a pair of hinge module 10, a support arm 20 and damping mechanism combination 30.Support arm 20 is U font at the present embodiment, and the two ends of support arm 20 are connected to this to hinge module 10, and this provides support arm 20 and keep out the strength of the weight of display device 9 to hinge module 10.

As shown in Figure 1, can be considered that display device 9 keeps flat on the table completely; As shown in Figure 2, display device 9 is inclined with desktop.When user is by Fig. 1 state, when display device 9 entirety are upwards lifted from out to desktop, support arm 20 is because the effect meeting of hinge module 10 ejects downwards.The utility model is mainly to utilize above-mentioned damping mechanism combination 30 to provide support arm 20 when ejecting, and provides buffering resilience function, in order to avoid accidentally injure user's hand.Below each element is introduced by thin portion respectively.But the utility model is not restricted to this, can be for example only to have a hinge module 10, support arm 20 can be also other shapes.

As shown in Figure 1A, be the partial enlarged drawing of the 1A part of Fig. 1.Hinge module 10 at least comprises a hinge pedestal 12, elastic element 14 and an axial body of rod 16 of being located on this hinge pedestal 12.This axial body of rod 16 is through this hinge pedestal 12 and be connected in this elastic element 14, and this elastic element 14 is a torque spring, in order to this rotation strength that axial body of rod 16 ejects to be provided, and withstands the weight of display device 9.This axial body of rod 16 has a buffering linkage section 162 that is positioned at these hinge pedestal 12 outsides.Above-mentioned support arm 20 is fixedly connected to this axial body of rod 16.

Refer to Fig. 3, below describe the hinge module 10 of the present embodiment, and take the left side hinge module 10 of Fig. 1 as example.The hinge pedestal 12 of hinge module 10 has the first side plate 121 and the second side plate 122.Axially the body of rod 16 is regularly through support arm 20, and support arm 20 is positioned at the outside of the first side plate 121.The shape of cross section of the above-mentioned axial body of rod 16 is a non-circular shape of cross section, and the center hole of support arm 20 is same as the axial body of rod 16 shape of cross sections.Between support arm 20 and the first side plate 121, be provided with the retaining washer 15b that is fixed on the snap fit pad 15a of support arm 20 and is fixed on the first side plate 121 outsides.The first side plate 121 inner sides are provided with another retaining washer 15c.The second side plate 122 inner sides are provided with retaining washer 13c.Between two retaining washer 15c, 13c, this axial body of rod 16 is sequentially through spring lining 140, a torsional wheel 13a and an isolating ring 13b who is located at elastic element 14 inside.It is to be fixed on torsional wheel 13a that elastic element 14 has the first side plate 121 and the second end 142 that first end 141 is fixed on hinge pedestal 12.Torsional wheel 13a is socketed on the axial body of rod 16 regularly, and it is provided with multiple perforations around for the torsion of adjusting torque spring.

The second side plate 122 inner sides of hinge pedestal 12 are provided with a retaining washer 13c, and its outside is provided with a location shim pack 19, and locating washer group 19 comprises a retaining washer 19a and a friction pads 19b.Retaining washer 19a and friction pads 19b are respectively provided with prominent rib 191,192, and friction pads 19b is socketed on the axial body of rod 16 regularly.When the axial body of rod 16 rotates, drive in the lump friction pads 19b to push against retaining washer 19a, produce the locating effect of operation support arm 20.The outside of locating washer group 19 is also provided with a fixedly sleeved spacing shim in the axial body of rod 16 18, one group of resilient pad group 17 and and is locked in the nut 11 of the axial body of rod 16, the elasticity while relying on nut 11 and resilient pad group 17 adjustable axles to rotate to the body of rod 16.The outstanding spacing tab of spacing shim 18 and the second side plate 122, the second side plates 122 of being adjacent to hinge pedestal 12 have limited the rotating angle of spacing shim 18.

But above are only a kind of hinge module 10 of the present utility model, the utility model can be used different hinge modules, is not restricted to this mode of execution, as long as can provide the hinge module of revolution torsion all to can be applicable to the utility model.

Refer to Fig. 4, the damping mechanism of the present embodiment combination 30 comprises two damping mechanism 30a and 30b, and two damping mechanism 30a and 30b are connected in this buffering linkage section 162 of this axial body of rod 16 with serial arrangement.Above-mentioned two damping mechanism 30a and 30b have identical structure.The explanation as an example of damping mechanism 30a example, it comprises a rotation damper 32, a fixing housing 34 and an adaptor 36.Rotation damper 32 comprises a main body portion 322 and an external portion 324, and this external portion 324 is with these main body portion 322 coaxial rotation and have each other viscous force.About the structure that produces viscous force, a kind of example is in external portion 324, to extend multiple blades (figure slightly), to main body portion 322, in main body portion 322, to contain viscous grease, as silicone oil (Silicone oil).When external portion 324 rotates with respect to main body portion 322, viscous grease makes blade rotary slowly produce damping.The utility model can produce the damper of damping in the time of can utilizing various rotation, its internal structure is not subject to the limits, therefore holds and does not repeat.

Fixing housing 34 is fixed this main body portion 322 of this rotation damper 32 in above-mentioned plate body 92.Adaptor 36 is fixedly connected to this buffering linkage section 162 of this external portion 324 and this axial body of rod 16, with this, can transmit damping strength to adaptor 36 and the axial body of rod 16 by this external portion 324.When support arm 20 relies on the axial body of rod 16 to return back to stowed position, axially the body of rod 16 is passed to support arm 20 by the damping strength of rotation damper 32, makes support arm 20 have buffering resilience function.Thereby, make support device tool buffering resilience function of the present utility model.

Refer to Fig. 4, above-mentioned fixing housing 34 forms a restraining groove 346, the peripheral outstanding stopper protrusion 3221 of this main body portion 322 of this rotation damper 32, and this stopper protrusion 3221 is sticked in this restraining groove 346.With this, main body portion 322 is fixed in fixing housing 34.The fixing housing 34 of the present embodiment comprises a lower shell body 342 and a upper shell 344, and the both sides of this lower shell body 342 respectively have a locking part 3422 to be locked in above-mentioned plate body 92.Above-mentioned restraining groove 346 is formed at this upper shell 344, and this upper shell 344 is fixed on this lower shell body 342.

The external portion 324 of above-mentioned rotation damper 32 has a pair of inserted part 3241, and this is outwardly by the outer side surface of this external portion 324 to inserted part 3241.This adaptor 36 forms a pair of buckling groove running through 361, and this inserted part 3241 is sticked in this buckling groove 361.The quantity of inserted part 3241 can be at least one, and this is distributed in the present embodiment on same line inserted part 3241.The quantity of buckling groove 361 can be the quantity corresponding to inserted part 3241, and the present embodiment is provided with four, can facilitate external portion 324 to be connected to this adaptor 36.

The shape of cross section of the above-mentioned axial body of rod 16 is a non-circular shape of cross section, the present embodiment is similar capsule shape and form relative and parallel plane in both sides, wherein this adaptor 36 forms a center hole 360, the profile of this center hole 360 is corresponding to the shape of cross section of this axial body of rod 16, and this axial body of rod 16 is connected in this center hole 360 regularly.Wherein this buckling groove 361 of adaptor 36 is stretched out along diametric(al) by the periphery of this center hole 360.

After the textural association of the present embodiment Fig. 4, as shown in Figure 1A, show that this damping mechanism combination 30 comprises a pair of damping mechanism 30a, the 30b that with serial arrangement, connect.In this embodiment, damping mechanism combination 30 is coupled together with serial arrangement by two damping mechanism 30a, 30b, can increase damping strength, to offer hinge module 10 and support arm 20 with this utility model.Wherein the axis direction of rotation damper 32 formation one runs through the axis hole 320 of this main body portion 322 and this external portion 324, and wherein this axial body of rod 16 is through this axis hole 320 of each this damping mechanism 32a, 30b.The moment that the rotation of this axial body of rod 16 applies because of this external portion 324 is passed through this adaptor 36 and is produced buffering.

Refer to Fig. 5, show that this damping mechanism combination 30 comprises the 3rd the damping mechanism 30c that can also contact again outside above-mentioned two damping mechanism 30a, 30b, with the demand in response to larger damping.

Referring again to Fig. 6, show this damping mechanism combination 30 ' comprise three damping mechanism 30x, 30y, 30z with and the mode that connects connect.For the third embodiment of damping mechanism combination of the present utility model.Show this damping mechanism combination 30 ' comprise three damping mechanism 30x, 30y, 30z with and the mode that connects connect.Wherein damping mechanism 30x can be described as coaxial damping mechanism, is connected in coaxially this axial body of rod 16, and other damping mechanism 30y, 30z can be described as non-coaxial damping mechanism, and the axial body of rod 16 is non-is connected coaxially with this.The present embodiment is the mode by bridle joint, and this non-coaxial damping mechanism is engaged in this coaxial damping mechanism, and the damping strength of three damping mechanism 30x, 30y, 30z can be added.

The damping mechanism 30x of above-mentioned coaxial arrangement is similar to above-mentioned damping mechanism, comprises a rotation damper 32, a fixing housing 34 and adaptor 36.In addition, axially the body of rod 16 outermost end are also fixedly connected with a gear 38.Damping mechanism 30y, the 30z of above-mentioned two non-coaxial arrangements comprises rotation damper 32, a fixing housing 34, adaptor 36 and gear 38 equally.The gear 38 of the coaxial damping mechanism 30x arranging is engaged in the gear 38 of damping mechanism 30y, the 30z of two non-coaxial arrangements.With these above-mentioned three damping mechanism 30x, 30y, 30z, also can be added and offer the axial body of rod 16, make support arm 20 there is buffering resilience function.

The advantage of above-mentioned the 3rd mode of execution is that the axial body of rod 16 can not need excessive prolongation.In addition, damping mechanism 30y, the 30z of two non-coaxial arrangements divides in the both sides of the coaxial damping mechanism 30x arranging, do not take the space on axle center.A bit of supplementary notes, damping mechanism 30y, the 30z of non-coaxial arrangement, can be used less fixing housing 34 ', also can be provided with in addition another axostylus axostyle 31 with fixing gear 38 and adaptor 36.But the present embodiment can also more be simplified, directly as gear shape, utilize the adaptor of gear shape to be engaged with each other adaptor 36.

By the support device of tool buffering resilience function of the present utility model, rely on damping mechanism combination can provide support arm when rebounding because of hinge module, damping can be provided, thereby slow down speed and the strength of support arm resilience, to avoid accidentally injuring user's hand.In addition, buffering strength of the present utility model can also be optionally and elasticity adjustment, for example, in the mode of series winding, or with and the mode that connects, strengthen damping.

The above revealer of institute, is only the utility model preferred embodiment, and from not limiting interest field of the present utility model with this, the equalization of therefore doing according to the utility model application range changes or modifies, and still belongs to the scope that the utility model is contained.

Claims (10)

1. a damping mechanism combination, is connected in an axial body of rod, and this damping mechanism combination comprises several damping mechanisms that connect with serial arrangement, it is characterized in that, each this damping mechanism comprises;

One rotation damper, comprise a main body portion and an external portion, this external portion and this main body portion coaxial rotation and there is each other viscous force, the axis direction of this rotation damper forms one and runs through the axis hole of this main body portion and this external portion, and wherein this axial body of rod is through this axis hole of each this damping mechanism;

One fixing housing, fixes this main body portion of this rotation damper; And

One adaptor, a side of this adaptor is fixedly connected to this external portion, and wherein this axial body of rod is regularly through this adaptor, and the rotation of this axial body of rod produces buffering by this adaptor because of the moment that this external portion applies.

2. damping mechanism combination as claimed in claim 1, is characterized in that, this fixing housing forms a restraining groove, the peripheral outstanding stopper protrusion of this main body portion of this rotation damper, and this stopper protrusion is sticked in this restraining groove; Wherein this fixing housing comprises a lower shell body and a upper shell, and the both sides of this lower shell body respectively have a locking part, and this restraining groove is formed at this upper shell, and this upper shell is fixed on this lower shell body.

3. damping mechanism combination as claimed in claim 2, it is characterized in that, this external portion of this rotation damper has at least one inserted part, and this inserted part is outwardly by the outer side surface of this external portion, this adaptor forms the buckling groove of at least always wearing, and this inserted part is sticked in this buckling groove; Wherein this buckling groove of this adaptor is stretched out along diametric(al) by the periphery of this center hole.

4. damping mechanism combination as claimed in claim 3, it is characterized in that, the shape of cross section of this axial body of rod is a non-circular shape of cross section, wherein this adaptor forms a center hole, the profile of this center hole is corresponding to the shape of cross section of this axial body of rod, and this axial body of rod is connected in this center hole regularly.

5. a damping mechanism combination, is connected in an axial body of rod, it is characterized in that, this damping mechanism combination comprises:

One coaxial damping mechanism, is connected in this axial body of rod coaxially, and this coaxial damping mechanism comprises:

One rotation damper, has a main body portion and an external portion, this external portion and this main body portion coaxial rotation and there is each other viscous force, and the axis direction of this rotation damper forms one and runs through the axis hole of this main body portion and this external portion;

One fixing housing, fixes this main body portion of this rotation damper; And

One adaptor, a side of this adaptor is fixedly connected to this external portion, and wherein this axial body of rod lock seaming is in this adaptor, and the rotation of this axial body of rod produces buffering by this adaptor because of the moment that this external portion applies;

At least one non-coaxial damping mechanism, the axial body of rod is non-is connected coaxially with this, and this non-coaxial damping mechanism is engaged in this coaxial damping mechanism, and each this non-coaxial damping mechanism comprises:

One rotation damper, comprises a main body portion and an external portion, this external portion and this main body portion coaxial rotation and have each other viscous force;

One fixing housing, fixes this main body portion of this rotation damper; And

One adaptor, a side of this adaptor is fixedly connected to this external portion;

Wherein this adaptor of this non-coaxial damping mechanism is engaged in this adaptor of this coaxial damping mechanism; Damping strength with this this non-coaxial damping mechanism is passed to this axial body of rod.

6. damping mechanism combination as claimed in claim 5, it is characterized in that, this fixing housing forms a restraining groove, the peripheral outstanding stopper protrusion of this main body portion of this rotation damper, this stopper protrusion is sticked in this restraining groove, and wherein this fixing housing comprises a lower shell body and a upper shell, and the both sides of this lower shell body respectively have a locking part, this restraining groove is formed at this upper shell, and this upper shell is fixed on this lower shell body.

7. damping mechanism combination as claimed in claim 6, it is characterized in that, this external portion of this rotation damper has at least one inserted part, this inserted part is outwardly by the outer side surface of this external portion, this adaptor forms the buckling groove of at least always wearing, this inserted part is sticked in this buckling groove, and wherein this buckling groove of this adaptor is stretched out along diametric(al) by the periphery of this center hole.

8. damping mechanism combination as claimed in claim 7, it is characterized in that, the shape of cross section of this axial body of rod is a non-circular shape of cross section, wherein this adaptor forms a center hole, the profile of this center hole is corresponding to the shape of cross section of this axial body of rod, and this axial body of rod is connected in this center hole regularly.

9. tool cushions a support device for resilience function, is located at the back side of a plate body, it is characterized in that, this support device comprises:

One hinge module, comprise that a hinge pedestal, is located at elastic element and the axial body of rod on this hinge pedestal, this axial body of rod is through this hinge pedestal and be connected in this elastic element, this elastic element provides this axial body of rod towards a rotation strength that folds direction, and this axial body of rod has a buffering linkage section that is positioned at the external side of this hinge base;

One support arm, is fixedly connected to this axial body of rod; And

At least one damping mechanism, is connected in this buffering linkage section of this axial body of rod, and this damping mechanism comprises;

One rotation damper, comprises a main body portion and an external portion, this external portion and this main body portion coaxial rotation and have viscous force;

One fixing housing, fixes this main body portion of this rotation damper; And

One adaptor, is fixedly connected to this buffering linkage section of this external portion and this axial body of rod.

10. the support device of tool buffering resilience function as claimed in claim 9, it is characterized in that, this fixing housing forms a restraining groove, the peripheral outstanding stopper protrusion of this main body portion of this rotation damper, this stopper protrusion is sticked in this restraining groove, and wherein this fixing housing comprises a lower shell body and a upper shell, and the both sides of this lower shell body respectively have a locking part, this restraining groove is formed at this upper shell, and this upper shell is fixed on this lower shell body.

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