KR101986716B1 - Buffer Apparatus for open of door - Google Patents

Abstract

The present invention relates to an apparatus for absorbing shock of an opening door, to prevent the opening door from colliding with a wall. According to the present invention, the apparatus for absorbing shock of an opening door comprises a housing having an operational space with one opened side and mounted in a door, and a damper coupled to the housing to absorb shock of the opening door. The damper comprises: a body movably disposed in the operational space, accommodating an operational fluid therein, and coming in contact with a wall; a piston unit disposed in the body; a rod connecting the piston unit with the housing; an elastic member connected to the body and providing elastic force to allow the body to be withdrawn from the housing; and a fixed adaptor disposed between the housing and the body and restricting a moving range while guiding a moving body, wherein the diameter of one side of the housing is smaller than that of the other side.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a door opening shock absorber.

There are sliding doors and doors. One side edge of the hinged door is connected to the door hinge by a hinge, and a door lock having a locking function is mounted on the other side. Holding and pulling the door lock, the door opens and closes as it is rotated relative to the hinge.

When opening the door combined with the doorpipe, the door is opened by the sudden rotation of the hinge. As a result, the door lock or door installed on the door hits the wall, resulting in a large impact noise and impact. There is a problem that the door lock and the wall are damaged due to the impact that it hits.

Utility model registration No. 20-0363475 (September 20, 2004)

The present invention provides a door-opening shock absorber that prevents an open door from bumping against a wall.

A door opening shock absorber according to an embodiment of the present invention is a door opening shock absorber for cushioning an open door, comprising: a housing having an operation space with one side open; And a damper for buffering the door coupled to the housing,

The damper comprising: a body movably disposed in the working space and capable of receiving a working fluid therein and in contact with the wall; A piston disposed within the body; A rod connecting the piston and the housing; An elastic member connected to the body and applying an elastic force so that the body is drawn out from the housing; And a fixed adapter disposed between the housing and the body, the fixed adapter guiding the moving body and limiting the range of movement,

Wherein a diameter of one side of the housing is smaller than a diameter of the other side, a diameter of an inner surface of the fixing adapter does not change along a longitudinal direction, a diameter of an outer surface of the body gradually decreases from the inside to the outside of the housing, And the length of the fixed adapter is shorter than the length of the housing.

And the body is provided with a latching jaw which is engaged with the fixed adapter.

And a contact member which is coupled to the body and is in contact with the door, a recessed space is formed on a surface contacting the door, and an inner surface of the contact member faces the body with a gap to have a buffer space.

And a cap unit coupled to the body and penetrating the rod to prevent leakage of the working fluid.

The cap portion includes a cap coupled to the body and through which the rod passes; A seal disposed within the body and preventing the working fluid from leaking between the cap and the rod; A stopper and a support plate disposed at intervals in the body; And a volumetric member disposed between the stopper and the support plate,

The volumetric member shrinks when the working fluid located in the fluid space connected to one side of the volume member moves to the fluid space connected to the other side of the piston unit.

Wherein the piston portion comprises: a piston connected to the rod; A holder coupled to the piston and connected to the elastic member; And a check coupled to the piston and movable according to movement of the body,

And a passage through which the working fluid moves is formed in the piston, the holder, and the check.

Wherein the piston portion includes a rod engaging portion connected to the rod and a holder engaging portion connected to the holder, wherein the diameter of the rod engaging portion is smaller than the diameter of the holder engaging portion,

The check may include a ring portion surrounding the rod coupling portion and contacting the rod engaging portion when the body moves to the operation space, and a ring portion protruding from the ring portion toward the holder. When the body moves outside the operation space, Legs,

Wherein when the ring portion is in contact with the rod engaging portion, the movement amount of the working fluid is reduced when the ring portion is in contact with the rod engaging portion, Respectively.

Wherein the inside of the body is divided into first to fourth regions, the first and third regions and the diameters of the second and fourth regions are the same, and the diameters of the first and third regions are equal to the diameters of the second and third regions, Is larger than the diameter of the fourth region.

The housing includes: a first portion having the operating space with one side opened; And a second portion having one side connected to the other side of the first partial portion and having a hole through which the fixing member fixed to the door can pass,

The diameter of the second portion gradually increases as the distance from the first portion increases, and only the other portion of the second portion contacts the door.

According to the embodiment of the present invention, when the door is opened and the body end of the door-opening shock absorber is brought into contact with the wall, the body is drawn into the inside of the housing, so that the opening speed of the door is relaxed. Therefore, the impact generated when the door hits the wall can be minimized. It is possible to prevent damage to door locks, doors, and walls that may occur when the door that is open to the door hits the wall.

According to an embodiment of the present invention, when the rod is drawn out of the working space, the working fluid can move through a space formed between neighboring legs of the check. The speed at which the body is drawn into the working space can be further increased by the working fluid passing between the legs, so that the body can quickly return.

On the other hand, when the end of the body is directly contacted with the wall when the door is opened, a large impact and noise may occur. If the shock is large, the lifetime of the components of the door opening damping device can be shortened. Therefore, according to the embodiment of the present invention, the tip of the body is combined with the contact member that minimizes the impact and minimizes the noise when the door is brought into contact with the wall, thereby minimizing the impact on the components of the door opening and closing device.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an installation view showing a door opening damping device according to an embodiment of the present invention; FIG.
Fig. 2 is an enlarged perspective view of the door opening damping device shown in Fig. 1; Fig.
3 is an exploded perspective view of Fig.
4 is a cross-sectional view taken along line IV-IV of FIG. 2;
5 is a partially enlarged view of Fig.
6 is an exploded view of Fig.
7 is a perspective view showing the movement of the check according to the direction of movement of the working fluid.
Figs. 8 and 9 are operational states of the door open dampers. Fig.
10 is an exploded perspective view showing a door opening shock absorber according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated with like reference numerals throughout the specification.

A door opening damping device according to an embodiment of the present invention will now be described with reference to FIGS. 1 to 6. FIG.

1 is an enlarged perspective view of a door opening and closing device shown in FIG. 1, FIG. 3 is an exploded perspective view of FIG. 2, and FIG. 4 is a cross-sectional view taken along line IV-IV of FIG. 2, and FIG. 5 is an enlarged view of portion A of FIG. 4, and FIG. 6 is an exploded view of FIG.

1 to 6, a door opening / closing device 100 according to the present embodiment is installed on one side of a door 2 facing a wall so as not to hit against a wall when the door is opened, A fixed adapter 30, a body 40, a cap portion 60, a rod 70, a piston portion 80, and an elastic member 90.

The housing 10 has a body 40, a piston portion 80, a rod 70, an elastic member 90, and a fixing adapter 30, which are external to the door opening and closing device 100.

The housing 10 includes a first portion 11 having an operating space 111 and a second portion 12 being fixed to the door 2. The second portion 12 may be secured to the wall 3 facing the door 2.

The first portion 11 has a predetermined length and is formed in a cylindrical shape. The body 40, the piston portion 80, the rod 70, the elastic member 90, and the fixing adapter 30 are disposed in the working space 111 formed in the first portion 11. One side of the operation space 111 is opened so that a part of the body 40 is exposed to the outside of the housing 10. The circumferential surface diameter of the working space 111 decreases from the open portion toward the inside.

The second portion 12 is connected to the other side of the first portion 11 and the first portion 11 and the second portion 12 are integrally formed. The diameter of the second part (12) is larger than the diameter of the first part (11). The diameter of the second portion 12 increases as the distance from the first portion 11 increases.

A portion of the second portion 12 having the largest diameter is formed with a hole 122 through which the fixing member S such as a screw for fixing to the door 2 can come in contact with the door 2. The engaging groove 121 and the hole 122 completely penetrate the second portion 12. In order to reduce the weight of the housing 10, a space is formed in the second portion 12.

The fixed adapter 30 is disposed in an open portion disposed in the operation space 111. The fixed adapter 30 penetrates the inside of the fixed adapter 30 along the longitudinal direction. The diameter of the inner surface of the fixed adapter 30 does not change along the longitudinal direction but the outer surface diameter becomes smaller toward the inside from the open portion of the working space 111. [ The fixed adapter 30 can be smoothly inserted into the working space 111 by the reduced diameter structure. The length of the fixed adapter 30 is shorter than the length of the housing 10.

The body 40 is formed in a predetermined length and is disposed in the operation space 111 and one side of the body 40 passes through the fixed adapter 30 and is drawn out of the housing 10. When the door 2 is opened and the end of the body 40 comes into contact with the wall 3, the body 40 can move (enter) into the working space 111. Fluid spaces 41a and 41b are formed in the body 40 and fluid spaces 41a and 41b are opened to the other side of the body 40. [ In the fluid spaces 41a and 41b, a working fluid for buffering the movement of the body 40 is accommodated.

The inside of the body 40, that is, the fluid spaces 41a and 41b, is divided into first to fourth regions 411, 412, 413, and 414. The first to fourth regions 411, 412, 413, and 414 are sequentially partitioned from the other side of the body 40. Sectional areas of the first to fourth regions 411, 412, 413 and 414 are formed differently. Sectional areas of the first to fourth regions 411, 412, 413, and 414 may vary depending on the size of the body 40. [

The diameters of the first region 411 and the third region 413 are smaller than the diameters of the second region 412 and the fourth region 414. The neighboring regions are connected to each other by inclined planes.

Guide protrusions 411a are formed on the circumferential surface of the first area 411 along the longitudinal direction. The guide projections 411a are arranged along the circumferential direction.

The body 40 can be linearly moved into the fixed adapter 30. [ The outer surface diameter of the body 40 gradually decreases from the operating space 111 toward the outside. Accordingly, the movement of the body 40 into the operation space 111 can be smoothly performed.

A hook 42 is formed on the outer surface of the body 40 so that the body 40 is not separated from the operation space 111 when the body 40 is pulled out. The engaging jaw 42 is formed along the circumferential direction of the other outer surface of the body 40.

When the door 2 is opened and the end of the body 40 is directly contacted with the wall, a large impact and noise may occur. The life of the components of the door opening and closing device 100 can be shortened. At the end of the body (40), a contact member (50) is attached which mitigates impact and minimizes noise when the wall (3) is contacted.

The contact member 50 can be made of rubber having a buffering force and is hollow inside and surrounds one side of the body 40. The inner surface of the contact member 50 faces the body 40 with a gap therebetween. A buffer space (51) is formed in the contact member (50).

A recessed space 52 is formed on the outer surface of the contact member 50 which can be in contact with the wall 3. The recessed space 52 is recessed toward the inside of the contact member 50. The recessed space 52 minimizes the contact area between the wall 3 and the contact member 50 to minimize noise generation. When the wall 3 is in contact with the contact member 50, the shock absorption can be mitigated by the recessed space 52 and the buffer space 51, and the occurrence of noise can be minimized. However, the buffer space 51 may be omitted. The contact member 50 may also be omitted.

The cap portion 60 is disposed in an open portion of the fluid spaces 41a and 41b to prevent the leakage of the working fluid and includes a cap 61, a support plate 62, a seal 63, a stopper 64, (65).

The cap 61 of the cap portion 60, the sealing 63, the support plate 62, the volume member 65 and the stopper 64 are sequentially coupled from the open portion of the fluid spaces 41a, And the rod 70 penetrates them.

The cap 61 is disposed at the outermost portion of the fluid spaces 41a and 41b and the seal 63, the support plate 62, the volume member 65, the stopper 64, To the outside. A coupling band 611 and a groove 612 are formed at least at a portion where the outer surface of the cap 61 and the inner surface of the body 40 are in contact with each other so that the cap 61 is not coupled to the body 40 .

The support plate 62 is disposed in the fluid spaces 41a and 41b and faces the cap 61 with a gap therebetween.

The seal 63 is disposed between the cap 61 and the support plate 62 and is compressed therebetween. The outer surface diameter of the seal 63 is larger than the inner surface diameter of the body 40 and is fixed in the body 40 in a compressed form. The working fluid in the working space 111 between the sealing 63 and the body 40 and between the sealing 63 and the rod 70 is not exposed to the outside of the body 40.

The stopper 64 is disposed in the fluid spaces 41a and 41b and faces the support plate 62 at an interval. The stopper 64 has a plurality of stopper flow paths 641 formed therein. The stopper flow path 641 is formed by vertically penetrating the interior of the stopper 64 and a part of the peripheral surface thereof is recessed inward.

The volume member 65 is disposed between the stopper 64 and the support plate 62. The working fluid in the fluid space 41a connected to one side of the piston portion 80 when the body 40 is drawn into the working space 111 flows through the piston portion 80 between the piston portion 80 and the inner surface of the body 40 80 to the fluid space 41b connected to the other side. At this time, the volume member 65 can be contracted by the pressure of the moving working fluid. However, when the working fluid of the fluid space 41b moves to the fluid space 41a, the volume member 65 can expand again. The volume member 65 may be made of a sponge or the like to facilitate shrinkage and expansion.

The rod 70 is formed in a predetermined length and is disposed in the working space 111 so that at least a portion of the rod 70 passes through the cap portion 60 and is located inside the rod 70. One side of the rod 70 located inside the body 40 is connected to the piston portion 80 and the other side located in the operation space 111 is connected to the periphery of the working space 111.

The piston (80) is positioned inside the body (40) to control the movement amount of the working fluid and adjust the moving speed of the body (40) when the body (40) moves. The piston portion 80 includes a piston 81, a holder 82 and a check 83. The third region 413 and the piston portion 80 can be overlapped when the body 40 is completely drawn into the operation space 111. When the body 40 is completely drawn out from the operation space 111, The region 411 and the piston portion 80 can be overlapped. In the first region 411, the piston portion 80 can be guided by the guide protrusion 411a.

The piston 81 includes a rod engaging portion 811 and a holder engaging portion 812. The rod engaging portion 811 and the holder engaging portion 812 are coupled to each other and penetrate along the longitudinal direction at the center of the inner portion.

One side of the rod 70 is inserted into the inside of the rod coupling portion 811. The outer surface diameter of the rod coupling portion 811 is larger than the diameter of the holder coupling portion 812. So that a tuck is formed between the rod coupling portion 811 and the holder coupling portion 812.

The outer surfaces of the rod coupling portion 811 and the holder coupling portion 812 are spaced apart from the circumferential surfaces of the fluid spaces 41a and 41b. A piston passage 813 is formed along the longitudinal direction on the outer surfaces of the rod coupling portion 811 and the holder coupling portion 812. The piston passage 813 has a rod coupling portion 811 and a holder coupling portion 812, As shown in FIG. Accordingly, the working fluid can move when the body 40 moves through the gap between the piston 81 and the surfaces of the fluid spaces 41a and 41b.

The holder 82 penetrates the inside of the holder 82, and a part of the holder coupling part 812 is inserted therein and is spaced apart from the rod coupling part 811. The outer surface of the holder 82 is spaced apart from the circumferential surface of the fluid spaces 41a and 41b. On the outer surface of the holder 82, a holder flow path 821 is formed along the longitudinal direction, and the holder flow path 821 is arranged along the circumferential direction of the holder 82. Accordingly, when the body 40 moves, the working fluid can move into the gap between the holder 82 and the surfaces of the fluid spaces 41a and 41b.

The check 83 is coupled to the holder engagement portion 812 and is located between the holder 82 and the rod engagement portion 811. The outer surface of the check 83 is spaced apart from the circumferential surface of the fluid spaces 41a and 41b. The check 83 includes a ring portion 831 surrounding the holder coupling portion 812 and a leg portion 832 protruding from the ring portion 831 in the direction of the holder coupling portion 812.

The leg portion 832 is arranged along the circumferential direction at the ring portion 831. [ A check flow path 833 is formed on the outer surface of the ring portion 831 and the leg portion 832. Here, the space between adjacent legs 832 is also a check flow path 833. When the body 40 moves, the working fluid can move to the gap between the check 83 and the surfaces of the fluid spaces 41a and 41b. The check 83 can be in contact with the rod engaging portion 811 or the holder 82 as the body 40 is pulled in or pulled out. That is, when the body 40 is drawn out from the operation space 111, the leg portion 832 contacts the holder coupling portion 812 (see FIG. When the body 40 is drawn into the working space 111, the ring portion 831 abuts against the rod engaging portion 811 (see FIG. 7B).

The elastic member 90 is formed of a coil spring and disposed in the fluid spaces 41a and 41b. One side of the elastic member 90 is in contact with the inner surface of the fluid spaces 41a and 41b and the other side is in contact with the holder 82. [ The elastic member 90 applies an elastic force to the body 40 so that the body 40 drawn into the working space 111 can be drawn out. On the other hand, by the elastic force of the elastic member 90, the piston portion 80 can be kept in contact with the rod 70 continuously.

Although the elastic member 90 is disposed in the fluid spaces 41a and 41b in the above description and drawings, the elastic member 90 is disposed between the cap 61 and the inner surface of the working space 111, Elastic force can be imparted.

Next, the operation of the door opening damping device of the present invention according to the door opening will be described with reference to Figs. 4, 8, and 9. Fig.

4, the second part 12 of the housing 10 is fixed to the fixing member S on one side of the door 2 facing the wall 3 when the door 2 is opened.

When the door 2 is closed, no external force is applied to the body 40, so that a part of the body 40 is drawn out of the housing 10. The elastic member 90 is expanded and the piston portion 80 overlaps with the first region 411.

Referring to Fig. 8, which shows a state in which the peripheral portion of the second region of the body and the piston are overlapped, the contact member 50 is brought into contact with the wall 3 when the door 2 is opened. At this time, the contact member 50 is in contact with the wall 3, thereby alleviating shock and noise applied to the door opening and closing device 100.

By continuous opening of the door 2, the body 40 is brought into the working space 111 (moved). The working fluid located in the fluid space 41a connected to one side of the piston unit 80 flows through the holder space 821, the check passage 833, and the piston 813 to the fluid space (41b). The ring portion 831 of the check 83 contacts the rod engaging portion 811 of the piston portion 80 by the moving direction of the working fluid. The door 2 is not rapidly rotated so that it does not hit the wall 3 much.

On the other hand, the continuous opening of the door 2 causes the first region 411 of the body 40 to move out of the piston portion 80 and the second region 412 to come into contact with the piston portion 80. The clearance between the piston portion 80 and the second region 412 is smaller than the clearance between the first region 411 and the piston portion 80 so that the amount of movement of the working fluid is reduced and the speed of the body 40 is reduced. Thus, the opening speed of door (2) can be reduced.

9 showing a state in which the circumferential surface of the third region of the body overlaps the piston, the circumferential surface of the second region 412 is moved out of the piston portion 80 by the movement of the body 40, And the piston portion 80 are overlapped with each other. The clearance between the third region 413 and the piston portion 80 is wider than the clearance between the second region 412 and the piston portion 80 so that the amount of movement of the fluid can increase again. Accordingly, the pulling speed of the body 40 in which the pulling speed has been reduced may slightly increase. At this time, the elastic member 90 maintains the compressed state and gives the elastic force so that the body 40 can be drawn out from the operation space 111.

On the other hand, when the body 40 is drawn into the working space 111, the rod 70 is gradually inserted into the body 40. The working fluid can not move as the inserted body 40 fills the fluid space 41b. However, the volume member 65 is reduced by the volume of the rod 70 so that the working fluid of the fluid space 41a can move to the fluid space 41b.

4, 8 and 9, when the open door 2 is closed, the pressure for pressing the body 40 is released. At this time, the body 40 is pulled out of the operating space 111 by the elastic force of the elastic member 90 and can be pushed in a direction in which the door 2 is closed.

The working fluid located in the fluid space 41b connected to the other side of the piston portion 80 by the withdrawal of the body 40 is pressurized by the cap portion 60 and flows through the piston passage 813, the check passage 833, 821 to the fluid space 41a connected to one side of the piston portion 80. [ And the rod 70 gradually deviates from the inside of the body 40. The shrunk volume member 65 can expand again.

The ring portion 831 of the check 83 is dropped from the rod engaging portion 811 and the leg portion 832 is brought into contact with the holder 82 by the moving direction of the working fluid. The working fluid moving between the check 83 and the fluid spaces 41a and 41b is passed through the adjacent legs 832 to the holder flow path 821. [ The moving amount per unit time in which the working fluid moves from the fluid space 41b to the fluid space 41a is larger than the moving amount per unit time in which the working fluid moves from the fluid space 41a to the fluid space 41b, (40). The body 40 can quickly return to the outside in the working space 111 (see Figs. 7 and 9 enlarged view).

The extraction speed of the body 40 varies as the third area 413, the second area 412 and the first area 411 of the body 40 pass through the piston part 80. [ When the latching jaw 42 of the body 40 to be drawn out is caught by the fixing adapter 30, the body 40 is no longer drawn out from the working space 111.

The opening speed of the door (2) is relaxed when the door (2) being opened contacts the door opening shock absorber (100). It is possible to minimize the impact, noise and the like that may occur when the door 2 comes into contact with the wall 3 because the door 2 is not in direct contact with the wall 3 due to the reduced speed.

Next, another embodiment of the present invention will be described with reference to FIG.

The door-opening dampers 200 according to the present embodiment have most of the components of the embodiment described with reference to Figs. However, there is a difference in the configuration of the housing 10.

The housing 10 according to the present embodiment includes a first portion 11 having an operating space 111, a second portion 12 fixed to the door 2, and a cover 20 ). A sliding door can be applied to the door (2) according to the present embodiment. The body 40 can be brought into contact with the door post 1 provided with the sliding door.

The first part 11 and the second part 12 are integrally formed and the body 40, the piston part 80, the rod 70, The elastic members 90 and the fixing adapters 30 are disposed. One side of the operation space 111 is opened so that a part of the body 40 is exposed to the outside of the housing 10. The circumferential surface diameter of the working space 111 decreases from the open portion toward the inside.

Both sides of the second portion 12 are depressed and the recessed portion is provided with a coupling groove 121 and a hole through which the fixing member S such as a screw for fixing the housing 10 to the door 2 can pass (Not shown). The engaging groove 121 and the hole 122 completely penetrate the second portion 12.

The cover 20 is disposed on one surface and the other surface of the second portion 12 so that the fixing member S and the like are not exposed to the outside, and the plate member 21, the pattern member 22, .

The plate member 21 has a predetermined width and is embedded in the depressed portion of the second portion 12 and does not protrude outward. The outer surface of the plate member 21 and the outer surface of the second portion 12 are coplanar.

The pattern member 22 is formed on the outer surface of the plate member 21 to increase the appearance of the housing 10. Furthermore, the appearance of the door opening / closing device 200 is enhanced by the pattern member 22.

The engaging member 23 is vertically protruded from the inner surface of the plate member 21 toward the inside of the second portion 12. The engaging member 23 is engaged with the engaging groove 121 so that the plate member 21 is not separated from the second portion 12.

On the other hand, it is not easy to separate the lid 20 into the second portion 12 because the outer surface of the plate member 21 and the outer surface of the second portion 12 are located on the same plane. A tool insertion hole 123 is formed at one side of the second portion 12 and connected to the depression. When the tool is inserted into the tool insertion hole 123 and pressure is applied to the plate member 21, the engaging member 23 is disengaged from the engaging groove 121 and the lid 20 can be disengaged from the second portion 12.

In addition, one surface of the second portion 12 may be selectively in contact with the door 2, and the cover 20 disposed on the contacting surface may be omitted. However, both of the covers 20 coupled to one surface and the other surface may be omitted.

In other respects, the configuration of the embodiment of Figs. 1 to 9 can be applied as it is.

Although the door opening and closing device of the present invention has been described as being mounted on the sliding door in the above description and drawings, the door opening and closing device of the present invention is not limited thereto. Can be applied.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

1: doorpost 2: door
100: door opening shock absorber 10: housing
11: first part 111: working space
12: second part 121: engaging groove
122: hole 123: tool insertion hole
20: lid 21: plate member
22: pattern member 23: engaging member
30: Fixed adapter 40: Body
41a, 41b: fluid space 411: first region
412: second area 413: third area
414: fourth region 42:
50: contact member 51: buffer space
52: depression space 60: cap part
61: Cap 611: Coupling strip
612: groove 62: support plate
63: sealing 64: stopper
641: stopper channel 65: volume member
70: Rod 80: Piston part
81: Piston 811: Rod coupling portion
812: a holder coupling portion 813:
82: Holder 821: Holder channel
83: check 831:
832: Leg portion 833: Check Euro
90: elastic member S: fixing member

Claims (9)

A door-opening shock absorber for buffering open doors,
A housing having an open working space on one side and mountable on the door; And
And a damper for buffering the door coupled to the housing,
The damper comprising: a body movably disposed in the working space and capable of receiving a working fluid therein and in contact with the wall; A piston disposed within the body; A rod connecting the piston and the housing; An elastic member connected to the body and applying an elastic force so that the body is drawn out from the housing; And a fixed adapter disposed between the housing and the body, the fixed adapter guiding the moving body and limiting the range of movement,
The diameter of one side of the housing is smaller than the diameter of the other side,
The diameter of the inner surface of the fixed adapter does not change along the longitudinal direction and the diameter of the outer surface of the body gradually decreases from the inside to the outside of the housing, the length of the fixing adapter is shorter than the length of the housing,
Further comprising a contact member which is coupled to the body and is in contact with the door, a recessed space is formed on a surface contacting the door, and an inner surface of the contact member faces the body with a gap to have a buffer space. Device. The method according to claim 1,
Wherein the body is provided with a latching jaw which is engaged with the fixed adapter. delete The method according to claim 1,
Further comprising a cap portion coupled to the body and configured to penetrate the rod and prevent leakage of the working fluid. 5. The method of claim 4,
The cap unit includes:
A cap coupled to the body and through which the rod passes;
A seal disposed within the body and preventing the working fluid from leaking between the cap and the rod;
A stopper and a support plate disposed at intervals in the body; And
And a volumetric member disposed between the stopper and the support plate,
The above-
Wherein when the working fluid located in the fluid space connected to one side of the piston moves to the fluid space connected to the other side of the piston, the volume member shrinks. The method according to claim 1,
Wherein,
A piston connected to the rod;
A holder coupled to the piston and connected to the elastic member; And
And a check coupled to the piston and movable according to the movement of the body,
Wherein a passage through which the working fluid moves is formed in the piston, the holder, and the check. The method according to claim 6,
Wherein the piston portion includes a rod engaging portion connected to the rod and a holder engaging portion connected to the holder, wherein the diameter of the rod engaging portion is smaller than the diameter of the holder engaging portion,
The check may include a ring portion surrounding the rod coupling portion and contacting the rod engaging portion when the body moves to the operation space, and a ring portion protruding from the ring portion toward the holder. When the body moves outside the operation space, Legs,
Wherein when the ring portion is in contact with the rod engaging portion, the movement amount of the working fluid is reduced when the ring portion is in contact with the rod engaging portion, The door opening buffering device being characterized in that the door opening buffering device is increased. The method according to claim 1,
Wherein the inside of the body is divided into first to fourth regions, the first and third regions and the diameters of the second and fourth regions are the same, and the diameters of the first and third regions are equal to the diameters of the second and third regions, Is larger than the diameter of the fourth region. The method according to claim 1,
The housing includes:
A first part formed with the operating space with one side opened; And
And a second part having one side connected to the other side of the first part and having a hole through which the fixing member fixed to the door can pass,
Wherein the second portion gradually increases in diameter away from the first portion, and only the other side of the second portion abuts against the door.

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