KR20230019702A - Shock absorber capable of absorbing shock in both directions - Google Patents

Abstract

The present invention relates to a shock absorber capable of absorbing a shock in both directions which can minimize a shock transferred to a body part moved by a power means and a moving shaft inserted into the body part to move in the longitudinal direction of the body part by the operation of the power means and other external factors when a force is transferred to the body part and the moving shaft by allowing a first and a second elastic member to alleviate the force in the direction of the transferred force. The shock absorber capable of absorbing a shock in both directions comprises: a support member provided on one end of a moving shaft inserted into an end of a body part to be moved in the longitudinal direction of the body part; and a first elastic member and a second elastic member provided on one side and the other side based on the support member to be long in the longitudinal direction. When the moving shaft connected to an object such as a door and a panel moves into the body part in accordance with the movement of the body part moving by a power means, the first elastic member can alleviate a force transferred from the support member provided on one end of the moving shaft. When the moving shaft moves out of the body part, the second elastic member can alleviate a first transferred from the support member. Most of all, when a restoring force of the first elastic member or the second elastic member is applied to the support member while the first elastic member or the second elastic member is restored, the second elastic member or the first elastic member can alleviate the restoring force.

Description

Shock absorber capable of absorbing shock in both directions}

The present invention relates to a shock absorber capable of absorbing shock in both directions, and more particularly, to a body part moved by a power means and inserted into the body part to flow along the longitudinal direction of the body part by the operation of the power means and other external factors When force is transmitted to the moving axis, the first and second elastic members can alleviate the force according to the direction of the transmitted force, thereby minimizing the impact transmitted to the power means, the body and the moving axis. It relates to a shock absorber capable of absorbing shocks in both directions.

In general, shock absorbers are divided into oil shock absorbers that absorb shock by oil pressure and gas shock absorbers that use not only oil pressure but also gas repulsive force. This is to prevent the spring from repeatedly bouncing up and down, allowing the spring to slowly return to its original state.

In recent years, the above shock absorber has been applied to various devices such as sliding doors, panels, and trolleys for leisure sports that slide and flow by separate power as well as vehicles, and mechanisms such as doors, panels, and trolleys by power transmitted from power means It is used to mitigate the impact of

First, looking at the prior art,

Registration No. 10-2216438 In the trolley shock absorber installed to absorb the impact force when the trolley (T) that slides the occupants in a state caught on the wire connecting the upper and lower structures is collided, the lower structure (L) A housing 100 having a wire guide hole formed along an axial direction so that the wire W passes in a state in which one side is supported; A wire guide hole is formed along the axial direction and the rod 200 slides forward and backward inside the housing; A buffer spring 300 having one end supported on the front head of the rod 200 inside the housing 100 to generate compression and restoring force when the rod 200 moves forward and backward; a clamp 400 to prevent separation by engaging the front and rear heads of the rod 200 at the ends of the housing 100; a buffer pad provided on the rear head 240 of the rod 200 against which the trolley T collides; A spring 520a installed on the buffer pad to control the sliding rear head 240 to primarily absorb the impact force of the trolley T transferred to the rear head 240 of the rod 200; It includes an elastic pad 700 installed to elastically contact the end of the housing 100 to the lower structure (L); The surface of the buffer pad in contact with the trolley (T) forms tapered surfaces 560 and 561 inclined downward on both sides based on the center, and the surface of the trolley (T) in contact with the buffer pad is wrapped around the tapered surface A control protrusion 570 formed with tapered grooves 571 and 572 in a "V" shape is provided so as to contact each other, and the tapered surface forms a surface curved in a spiral direction with respect to the center; It is provided on the elastic pad 700 and elastically supports the elastic pad 700 through the spring 810 and the trolley for descending leisure sports, characterized in that it has an elastic support 800 in contact with the lower structure (L) It relates to a trolley shock absorber applied to the lowering operation.

Looking at the above conventional technology, a buffer spring is supported by the front head of the rod inside the housing to generate compression and restoring force when the rod moves forward and backward, so that when the front head of the rod moves inside the housing, the buffer spring Although it is mainly described to compress the shock and mitigate the impact, a separate elastic member is not provided between the front and rear heads of the rod and the clamp to prevent separation by engaging the front and rear heads of the rod, so that the shock absorbing When the spring is restored, the restoring force is transmitted to the front and rear heads of the rod as it is, and the shock is transmitted to the front and rear heads of the rod and the part where the clamp is in contact with the clamp, so the overall durability of the shock absorber can be reduced. In the case of applying and using the conventional technology described above to a device operated by a power means, the shock is transmitted to the power means as it is, causing various problems such as causing a failure of the power means.

The present invention has been made to solve the problems of the prior art, and constitutes a support member at one end of a flow shaft that is inserted into the end of the body portion and configured to flow along the longitudinal direction of the body portion, and the support member As a reference, the first elastic member and the second elastic member are configured to be long in the longitudinal direction on one side and the other side, respectively, and are configured to be connected to objects such as doors and panels according to the movement of the body moving by the power means. When the flow shaft flows to the inside of the body, the first elastic member can relieve the force transmitted from the support member formed at one end of the flow shaft, and when the flow shaft flows to the outside of the body, the second elastic member The elastic member can relieve the force transmitted from the support member, and above all, when the first elastic member or the second elastic member is restored and the restoring force of the first elastic member or the second elastic member is applied to the support member, the second It has been completed as a technical task with an emphasis on providing a shock absorber capable of absorbing bi-directional shock so that the elastic member or the first elastic member can alleviate the restoring force.

According to the present invention for achieving the above object, the body portion is configured long in the longitudinal direction and the receiving space is formed therein; a flow shaft having one side inserted into an end of the body and configured to flow along the longitudinal direction of the body; a support member positioned in the receiving space of the body and configured at one end of the moving shaft; A first elastic member configured to be located in the accommodation space of the body portion and configured to be long in the longitudinal direction on one side with respect to the support member, and configured to be long in the longitudinal direction on the other side, but inserted into the accommodation space of the body portion on the inside It is intended to solve the problem by providing a shock absorber capable of absorbing bi-directional shock consisting of;

According to the shock absorber capable of absorbing bi-directional shock according to the present invention, more specifically, the body part moved by the power means and inserted into the body part flow along the longitudinal direction of the body part by the operation of the power means and other external factors When force is transmitted to the moving axis, the first and second elastic members can alleviate the force according to the direction of the transmitted force, and when the restoring force of the first or second elastic member is applied to the support member , The second elastic member or the first elastic member located on the opposite side of the support member can relieve the restoring force applied to the support member, thereby minimizing the impact transmitted to the power means, body and floating shaft to achieve shock-up In addition to improving the overall durability of the shock absorber, it minimizes the transfer of shock to the power means and objects connected to the shock absorber, preventing failures due to the transmission of more than necessary power to the power means and objects. It is a useful invention that can prevent it.

1 is a front cross-sectional view showing a preferred embodiment of the present invention
Figure 2 is an exploded view (front cross-sectional view) showing a preferred embodiment of the present invention
3 is a front view showing a preferred embodiment of the present invention
4 is an operating state diagram showing a preferred embodiment of the present invention
Figure 5 is a partial enlarged view (front cross-sectional view) and a side cross-sectional view showing (A - A') showing another embodiment of the present invention
Figure 6 is a partially enlarged view (front cross-sectional view) showing another embodiment of the present invention
Figure 7 is a partially enlarged view (front cross-sectional view) showing another embodiment of the present invention

In the present invention, when power is transmitted to a body part moved by a power means and a flow shaft inserted into the body part and flowing along the longitudinal direction of the body part by the operation of the power means and other external factors, the direction of the force transmitted According to the above, a shock absorber capable of absorbing bi-directional shocks is provided so that the first and second elastic members can alleviate the force, thereby minimizing the shock transmitted to the power unit, the body and the moving shaft.

Hereinafter, a preferred configuration and operation of the present invention for achieving the above object will be described with reference to FIGS. 1 to 7 with reference to the accompanying drawings.

First, prior to describing the present invention, the configuration is looked at with reference to FIGS. 1 to 4. The body portion 100 is configured long in the longitudinal direction and has an accommodation space 110 therein; a flow shaft 200 having one side inserted into the end of the body portion 100 and configured to flow along the longitudinal direction of the body portion 100; A support member 300 configured to be positioned in the accommodation space 110 of the body portion 100 and configured at one end of the flow shaft 200; The first elastic member 410 configured to be located in the accommodation space 110 of the body portion 100 and configured to be long in the longitudinal direction on one side with respect to the support member 300, and on the other side in the longitudinal direction An elastic member 400 composed of a second elastic member 420 configured to be long and configured to position the moving shaft 200 inserted into the accommodating space 110 of the body portion 100 on the inside.

If the present invention configured as described above is described in more detail,

First, as shown in FIG. 2, the body portion 100 is configured to be long in the longitudinal direction, but an accommodation space 110 is formed therein.

In addition, an insertion hole 120 penetrating into the accommodation space 110 from the outside is formed at the end of the body portion 100 .

Here, the insertion hole 120 is formed so that the flow shaft 200 to be described below can flow along the longitudinal direction of the body portion 100, and the inner diameter of the insertion hole 120 is the flow shaft 200 to be described below. ) It is preferable to be formed in the same or similar size as the outer diameter of.

As shown in FIGS. 1, 2, and 3, one side of the flow shaft 200 is inserted into the end of the body portion 100 and is configured to flow along the longitudinal direction of the body portion 100. .

As shown in FIGS. 1 and 2 , the support member 300 is configured to be located in the accommodation space 110 of the body 100 and connected to one end of the flow shaft 200 .

The elastic member 400 is composed of a first elastic member 410 and a second elastic member 420, and is positioned in the accommodation space 110 of the body 100.

The first elastic member 410 is configured to be long in the longitudinal direction on one side with respect to the support member 300 .

Here, the first elastic member 410 has one side connected to one end of the receiving space 110 of the body 100 and the other side connected to one end of the support member 300. It is desirable to configure

In addition, as another embodiment, as shown in FIG. 2 , an auxiliary support member 500 opposite to the support member 300 may be formed on the other side of the receiving space 110 .

That is, it is preferable that one side of the first elastic member 410 is connected to the auxiliary support member 500 and the other side is connected to the support member 300 .

Here, it is preferable that the auxiliary support member 500 is formed in the same shape as the support member 300 and configured to face each other inside the accommodation space 110, which is the first elastic member 410 This is to ensure that it can be more stably connected to the auxiliary support member 500 and the support member 300.

As shown in FIGS. 2 and 4 , the second elastic member 420 is elongated in the longitudinal direction on the other side of the support member 300 .

Here, the second elastic member 420 has one side connected to the other end of the support member 300 and the other side connected to the other end within the accommodation space 110 of the body 100. It is desirable to configure

In addition, as shown in FIG. 5, a guide member 125 protruding inward is formed on the inner surface of the insertion hole 120, and on the outer circumferential surface of the moving shaft 200 inserted into the insertion hole 120. The guide hole 210 into which the guide member 125 is inserted is formed by being inserted long in the longitudinal direction.

That is, the guide member 125 and the guide hole 210 are formed as the guide member 125 is inserted into the guide hole 210 of the flow shaft 200 flowing along the longitudinal direction of the body portion 100. This is to prevent rotation of the flow shaft 200 in the process of repeatedly flowing.

On the other hand, the end of the body portion 100 where the insertion hole 120 is formed is formed in an inclined shape in which the outer diameter decreases toward the outside, and the end portion of the body portion 100 has a packing surrounding the end portion. A member p is constituted.

Here, the packing member (p) is preferably configured so that the flow shaft 200 can smoothly flow along the longitudinal direction of the body portion 100, and the body portion 100 through the insertion hole 120 ) to prevent inflow of foreign substances or rainwater into the interior.

In addition, the other end of the first elastic member 410 configured to be located on one side of the support member 300 is interpolated and connected to one end of the support member 300, and the support member ( 300), one end of the second elastic member 420 configured to be located on the other side is interpolated and connected to the other end of the support member 300.

That is, the other end of the first elastic member 410 and the one end of the second elastic member 420 are interpolated and connected to one and the other end of the support member 300, respectively. This is so that the first elastic member 410 and the second elastic member 420 can be more firmly fixed to the support member 300 .

According to the shock absorber capable of absorbing bi-directional shock according to the present invention, more specifically, the body part moved by the power means and inserted into the body part flow along the longitudinal direction of the body part by the operation of the power means and other external factors When force is transmitted to the moving axis, the first and second elastic members can alleviate the force according to the direction of the transmitted force, and when the restoring force of the first or second elastic member is applied to the support member , The second elastic member or the first elastic member located on the opposite side of the support member can relieve the restoring force applied to the support member, thereby minimizing the impact transmitted to the power means, body and floating shaft to achieve shock-up In addition to improving the overall durability of the shock absorber, it minimizes the transfer of shock to the power means and objects connected to the shock absorber, preventing failures due to the transmission of more than necessary power to the power means and objects. It is a useful invention that can prevent it.

100: body part
110: accommodation space
120: insertion hole 125: guide member
200: floating axis
210: guide hole
300: support member
400: elastic member
410: first elastic member 420: second elastic member
500: auxiliary support member
p: packing member

Claims (5)

A body portion 100 having a receiving space 110 formed therein, which is configured long in the longitudinal direction;
a flow shaft 200 having one side inserted into the end of the body portion 100 and configured to flow along the longitudinal direction of the body portion 100;
A support member 300 configured to be positioned in the accommodation space 110 of the body portion 100 and configured at one end of the flow shaft 200;
The first elastic member 410 configured to be located in the accommodation space 110 of the body portion 100 and configured to be long in the longitudinal direction on one side with respect to the support member 300, and on the other side in the longitudinal direction An elastic member 400 composed of a second elastic member 420 configured to be long and configured to position the moving shaft 200 inserted into the accommodation space 110 of the body portion 100 on the inside; A shock absorber capable of absorbing shock.
According to claim 1,
An insertion hole 120 penetrating into the accommodation space 110 from the outside is formed at the end of the body portion 100,
An auxiliary support member 500 opposite the support member 300 is formed on the other side of the receiving space 110,
The first elastic member (410) is a shock absorber capable of absorbing bidirectional shock, characterized in that one side is connected to the auxiliary support member (500) and the other side is connected to the support member (300).
According to claim 2,
A guide member 125 protruding inward is formed on the inner surface of the insertion hole 120,
A shock-up capable of absorbing bidirectional shock, characterized in that the guide hole 210 into which the guide member 125 is inserted is formed by being interpolated long in the longitudinal direction on the outer circumferential surface of the moving shaft 200 inserted into the insertion hole 120. Shober.
According to claim 2,
The end of the body portion 100 where the insertion hole 120 is formed is formed in an inclined shape with an outer diameter decreasing toward the outside,
A shock absorber capable of absorbing bi-directional shocks, characterized in that a packing member (p) surrounding the end end of the body portion (100) is configured.
According to claim 1,
The other end of the first elastic member 410, which is located on one side of the support member 300, is interpolated and connected to one end of the support member 300,
One end of the second elastic member 420 located on the other side of the support member 300 is interpolated and connected to the other end of the support member 300, characterized in that the bi-directional shock absorption available shock absorbers.

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