KR102094189B1 - Door closer - Google Patents

Abstract

Door closer according to the present invention is a door closer to close the door, the elastic member is disposed inside the housing, a spring pusher having a tooth on one side is elastically supported on the elastic member to be able to move linearly inside the housing The rotating body connected to the link rotated according to the opening and closing of the door is engaged with the teeth of the spring pusher and rotatably installed inside the housing. A piston is installed at the tip of the spring pusher, and the piston A cylinder member surrounding the body is disposed inside the housing, and a check valve and a pressure adjuster are installed at the bottom of the cylinder member to introduce external air to the check valve and to the pressure adjuster according to the internal pressure of the cylinder member. When the door is closed by adjusting the closing speed with air pressure, work of the spring pusher A brake member that is in contact with the surface and prevents the movement of the spring pusher is installed in the housing, and a brake piston operating the brake member is installed inside the brake cylinder member, and a brake pipe is provided between the brake cylinder member and the cylinder member. It consists of communication.
Since the present invention made as described above limits the movement of the spring pusher to the brake member by air pressure in the cylinder member, and also moves the spring pusher by air pressure in the cylinder member, the friction force between the brake member and the spring pusher in the initial stage and the cylinder member It is possible to reduce the moving speed of the spring pusher by pneumatic pressure, so that the closing speed of the door can be smoothly reduced in the key section of the door opening angle.

Description

Door closer {DOOR CLOSER}

The present invention relates to a door closer that closes a hinged door, such as a fire door, and more particularly, to a door closer that allows the speed of rotation of the door to be easily reduced by the brake using air pressure and the damping force by the air pressure with the brake itself. will be.

In general, a door closer that normally closes a door is installed on a door in an opening type door, such as a fire door or front door of a house, apartment, officetel, etc. A pinion gear coupled to the spring, a spring disposed on one side inside the housing, and a rack gear meshed with the pinion gear to press the spring when the door is opened to accumulate elastic energy for closing the door. It is provided.

The housing of the door closer is attached to the door, one end of the link is fastened to the link shaft, and the other end of the link is fastened to the door frame.

And, as an example, in order to compactly configure the housing, a technology previously applied and registered as patent application No. 10-2012-0139177 has been developed, which includes a housing fixed to a door; A link once connected to the frame of the door; A link shaft rotatably fitted in the housing and protruding outwardly of the housing, the upper end of which is connected to the other end of the link; A pinion gear rotating coaxially with the link shaft; A rack gear portion inserted into the inside of the housing reciprocally in the longitudinal direction of the housing and engaged with the pinion gear at one end, a piston base portion at the other end, and the rack gear portion and the piston A piston having a piston body connecting the base; And a coil spring which is fitted to the piston body and compresses and accumulates elastic energy when the link shaft rotates in the direction in which the door is opened, and the spring through which the coil spring is inserted in the housing, The rack gear portion is a reciprocating passage, and the rack gear through holes are formed to be connected in series with each other, a damping oil filled in the spring through holes, and a sealing unit preventing the damping oil from leaking into the rack gear through holes. (sealing unit) further comprises a structure.

Of course, a structure has been developed to replace the oil type damping structure with air pressure.

However, in the prior art, since the method of damping with air pressure uses one air cylinder, there is a limitation in controlling the closing speed of the door, and there is a limitation in reducing the closing speed of the door at the beginning of closing.

The present invention is to solve the problems of the prior art as described above relates to a door closer that makes it possible to easily reduce the rotational speed of the door with the brake using air pressure and the damping force caused by the air pressure with the brake itself.

In addition, by increasing the number of contact portions between the spring pusher and the gear, the wear between the spring pusher and the gear is easily reduced, thereby improving the durability and extending the service life.

In order to solve the above problems, the present invention in the door closer to close the door, the elastic member is disposed inside the housing, a spring pusher having a tooth on one side is elastically supported on the elastic member of the housing A rotating body disposed linearly in the interior and connected to a link rotated according to the opening and closing of the door is engaged with the teeth of the spring pusher to be rotatably installed inside the housing, and a piston is installed at the front end of the spring pusher. Installed, a cylinder member surrounding the piston is disposed inside the housing, a check valve and a pressure regulator are installed at the bottom of the cylinder member to introduce external air to the check valve, and the pressure regulator adjusts the The air is discharged according to the internal pressure to adjust the closing speed with air pressure when the door is closed. A brake member which is in contact with one side of the spring pusher and prevents the movement of the spring pusher is installed in the housing, a brake piston operating the brake member is installed inside the brake cylinder member, and also between the brake cylinder member and the cylinder member. It provides a door closer consisting of communicating with the brake pipe.

The idle rotation body fitted to the rotating body is installed on one side or both sides of the rotating body to be rotatably installed inside the housing, and an auxiliary spring pusher having teeth on one side is integrally coupled with the spring pusher. It is characterized in that it is engaged with the idle rotation body, the spring pusher and the auxiliary spring pusher is formed in a U-shape.

The brake pipe penetrates the piston and is inserted into the inner surface of the cylinder member, a hole communicating with the outside air at an opening angle of 10 to 40 ° is formed in the brake pipe, and the brake pipe is provided with a brake pressure adjusting mechanism. Includes.

Since the door closer according to the present invention made as described above limits the movement of the spring pusher to the brake member by air pressure in the cylinder member, and also moves the spring pusher by air pressure in the cylinder member, initially between the brake member and the spring pusher It is possible to reduce the moving speed of the spring pusher by the friction force and the air pressure in the cylinder member, so that the closing speed of the door can be smoothly reduced in the key section of the door opening angle.

In addition, by forming the brake pressure adjusting mechanism and the pressure adjusting mechanism respectively, it is possible to smoothly adjust the closing speed of the initial and rear ends.

In particular, by providing idle rotors on both sides or one side of the rotating body, the number of contact areas in the driving process is increased due to the contact between the spring pusher and the gear, between the rotating body and the auxiliary rotating body, and between the auxiliary rotating body and the auxiliary spring pusher. Therefore, the wear of the meshing structure such as between the spring pusher and the gear is easily reduced, thereby improving the durability and extending the service life.

1 is a front view showing a part of a fire door to which the door closer according to the present invention is applied.
Figure 2 is a cross-sectional view taken along line A-A of Figure 1 showing an example of a door closer according to the present invention.
3 to 6 are cross-sectional views each showing another example of a door closer according to the present invention.
7 is a perspective view excerpted from part B of FIG. 6.
8 and 9 are cross-sectional views each showing another example of a door closer according to the present invention.
10 and 11 are cross-sectional views illustrating an operating state as an example of a door closer according to the present invention.

Hereinafter, specific contents for carrying out the present invention will be described together with the drawings.

1 to 11 is a view showing a door closer according to the present invention, the door closer is to compress the elastic member 12 inside the housing 11 when opening the door 1, as in the prior art, the door ( 1) When the external force to stop is not acting, the door 1 is closed by the elastic member 12 in the door closer, and the housing 11 of the door closer is usually installed on the door 1, and The link 2 connected to me is connected to the door frame 1a.

In any case, in the present invention, the spring pusher 13 elastically supported by the elastic member 12 in the housing 11 is intermeshed with the rotating body 14 to limit the moving speed of the spring pusher 13 The piston 15, the cylinder member 16, the check valve 17, and the pressure adjusting mechanism 18 are built-in, and the brake member 19, the brake piston 20, and the brake cylinder member member 21 are embedded.

Of course, it is obvious that the elastic member 12 can be adjusted in elastic force by an adjustment bolt installed in the housing 11.

Here, the spring pusher 13 is elastically supported by the elastic member 12 inside the housing 11 to be linearly movable inside the housing 11, and a tooth is formed on one side to form the rotating body ( 14) It meshes with the tooth formed on the circumferential surface.

Then, the rotating body 14 connected to the link 2 rotated according to the opening and closing of the door 1 is engaged with the spring pusher 13 and rotatably installed inside the housing 11.

And the piston 15 is installed on the tip end of the spring pusher 13, the cylinder member 16 surrounding the piston 15 is disposed inside the housing 11, the bottom of the cylinder member 16 A check valve 17 and a pressure adjuster 18 are installed in the portion to introduce external air to the check valve 17 and discharge air according to the internal pressure of the cylinder member 16 to the pressure adjuster 18. When the door is closed, the closing speed is adjusted by air pressure.

In particular, a brake member 19 that is in contact with one side of the spring pusher 13 and prevents the movement of the spring pusher 13 is installed in the housing 11, and the brake piston operating the brake member 19 ( 20) is installed inside the brake cylinder member 21 and the brake member (22) and the cylinder member 16 communicate with the brake pipe (22) according to the pressure of the cylinder member (16) ( 19) is in close contact with the spring pusher (13) is to operate the brake force.

On the other hand, if one engagement structure is formed between the spring pusher 13 and the rotating body 14, it is easy to wear by the elastic force of the elastic member 12, so that the elastic member 12 can have a greater elastic modulus. Since it is difficult to elastically support the spring pusher 13 with a greater elastic force, a closing force assisting device (also referred to as a closing force supplementing device, etc.) is required as in the prior art.

So, in the present invention, in the structure as described above, the auxiliary spring pusher 13a having the teeth on one side is integrally coupled with the spring pusher 13, and the idle rotating body 14a meshed with the rotating body 14 ) Is installed on one side or both sides of the rotating body 14 to be rotatably installed inside the housing 11.

In addition, one of the spring pusher 13 and the auxiliary spring pusher 13a is engaged with the rotating body 14 and the other is engaged with the idle rotating body 14a, and the spring pusher 13 and auxiliary spring are engaged. The brake member 19 is in contact with one side of one of the pushers 13a and prevents movement of one of the spring pusher 13 and the auxiliary spring pusher 13a, the brake piston 20 and the brake cylinder member 21 It includes structures that are operated by.

Accordingly, the elastic force of the elastic member 12 is distributed to a plurality of positions, so that an elastic member having a larger elastic modulus can be selected, thereby eliminating the need for a closing force auxiliary device as in the prior art.

Of course, even if the brake member 19 is in close contact with any one of the spring pusher 13 and the auxiliary spring pusher 13a, the rotation speed of the rotating body 14 can be limited in the end, as in the drawings of the present invention. It can be installed in various positions, it is apparent that the structure of the spring pusher 13 and the auxiliary spring pusher 13a as shown in FIG. 7 can be changed according to the position of the brake member 19.

Moreover, as shown in the attached drawings, the brake member 19 may be formed to be inclined to form a greater frictional force in the direction in which the door 1 is closed.

By installing the brake pressure adjusting mechanism (23) for adjusting the air pressure inside the brake cylinder (21) on the brake pipe (22), and separately adjusting the brake pressure adjusting mechanism (23) and the pressure adjusting mechanism, the closing speed of the initial and rear ends is smoothly performed. It can be adjusted.

On the other hand, in the present invention, in order to reduce the width of the housing in the process of manufacturing the housing 11, as shown in FIGS. 2 to 6, the spring pusher 13 and the auxiliary spring pusher 13a are formed in a U-shape The product can be made compact.

Moreover, the brake member 19 and the brake piston 20 and the brake cylinder member 21 are installed between the spring pusher 13 and the auxiliary spring pusher 13a, and the brake pipe 22 is the brake piston ( 20), the tip portion thereof is positioned into the inner space of the cylinder member (16).

In particular, the brake pipe 22 penetrates the brake piston 20 and is inserted into the inner surface of the cylinder member 16, and a hole 22a communicating with the outside air at an opening angle of 10 to 40 ° of the door 1 is provided. It is characterized in that it is formed on the brake pipe (22).

This structure is such that the air in the cylinder member 16 flows smoothly through the brake pipe 22 to the brake cylinder member 21 and guides the piston 15 smoothly.

Of course, the check valve 17 is a structure that blocks the flow of air inside the cylinder member 16 when the door is closed and smoothly flows outside air into the cylinder member 16 when the door is opened. , The pressure adjuster 18 is a spring and a valve unit to adjust the air pressure so that the air pressure in the cylinder member 16 compressed by the piston 15 increases to a pressure that interferes with the speed of the spring pusher 13, etc. Equipped, it is obvious that the air is discharged to the outside to exert a damping force by adjusting the amount of air discharged, and the cylinder member 16 to smoothly flow out of the cylinder member 16 through the pressure regulator 18 It is preferable to form an air passage around the periphery or to allow the air to gradually flow out to the outside with the structure of the pressure adjusting mechanism 18 itself.

In particular, when the door is completely closed, the air pressure inside the cylinder member 16 and the air pressure of the outside air are the same, so that the fire door needs to be prevented from being opened by itself due to an increase in pressure caused by a fire generated in the room.

Thus, in the present invention, as shown in FIGS. 8 and 9, the tip portion of the valve portion 18a of the pressure adjusting mechanism 18 extends into the interior of the cylinder member, and immediately before the door is closed, the piston 15 By pressing the front end of the valve portion 18a of the pressure adjusting mechanism 18, the pressure difference between the air and the outside air inside the cylinder member 15 is removed to remove the force against the elastic force of the elastic member 12.

Of course, it is obvious that each component such as the above-described room is formed in accordance with each component in a groove shape such as a straight shape or a fan shape formed in the housing 11, in particular for limiting the movement or rotation angle of the brake member. It is preferable that a groove is formed.

The door closer according to the present invention made as described above is intended to describe its operation as one embodiment as shown in FIGS. 10 and 11, and other examples may be operated in the same manner in light of the above description, so that the description of the operation of other examples is omitted. do.

In any case, when the link 2 is rotated in the direction of the arrow while the door is initially closed while the door is completely open as shown in FIG. 10, the air pressure in the cylinder member 16 is caused by the movement of the spring pusher 13 and the piston 15. The air pressure in the brake cylinder member 21 is formed by the air flowing through the brake pipe 22 while increasing, and the brake member 19 is in close contact with one side of the spring pusher 13 by the brake piston 20. By limiting the movement of the spring pusher 13, the rotational speed of the rotating body 14 is reduced, thereby reducing the rotational speed of the link 2, thereby reducing the closed speed of the door 1.

10 to 11, the elastic force of the elastic member 12 decreases, and as the air pressure in the cylinder member 16 increases as the piston 15 moves, the speed of the spring pusher 13 increases. Since it is much reduced, the hole 22a of the brake pipe 22 is blocked by the piston 15 at the opening angle of 10 to 40 ° so that the air in the cylinder member 16 does not flow to the brake cylinder member 21. In addition, further, finally, it is exposed to the outside, and the air pressure in the brake pipe 22 becomes equal to the air pressure of the outside air, so that the adhesive force between the brake member 19 and the spring pusher 13 is removed, and thereafter, the cylinder member 18 ) Only the air pressure in the limit the movement speed of the spring pusher (13).

And just before the door is closed, the piston 15 presses the front end of the valve portion 18a of the pressure adjusting mechanism 18 to remove the pressure difference between the air inside the cylinder member 15 and the outside air, and thus to the elastic force of the elastic member 12. By removing the opposing force, in the case of the fire door, the fire door due to the pressure difference between the front and rear of the fire door is not opened.

Thus, in the present invention, the movement of the spring pusher can be smoothly restricted by the frictional force of the brake member and the air pressure of the cylinder member. Furthermore, the door is closed and stopped due to a pressure adjusting mechanism for maintaining the air pressure of the cylinder member above a predetermined pressure. Even when it is closed again later, the door closing speed can be reduced.

1: Door 2: Link
11: Housing 12: Elastic member
13: spring pusher 13a: auxiliary spring pusher
14: rotating body 14a: auxiliary rotating body
15: piston 16: cylinder member
17: check valve 18: pressure regulator
19: brake member 20: brake piston
21: brake cylinder member 22: brate pipe
23: brake pressure adjustment port

Claims (7)

In the door closer to close the door,
An elastic member is disposed inside the housing, and a spring pusher having teeth on one side is elastically supported by the elastic member to be linearly movable inside the housing and connected to a link that rotates according to the opening and closing of the door. The whole is engaged with the teeth of the spring pusher to be rotatably installed inside the housing, a piston is installed at the distal end of the spring pusher, and a cylinder member surrounding the piston is disposed inside the housing, and the cylinder member A check valve and a pressure adjuster are installed at the bottom of the air to flow outside air to the check valve and discharge air according to the internal pressure of the cylinder member with the pressure adjuster to adjust the closing speed with air pressure when the door is closed. The brake member is in contact with one side of the spring pusher and prevents the movement of the spring pusher. Installation is, the brake piston to actuate the brake member installed inside the brake cylinder member and the well is made by a communication between said brake cylinder member and the cylinder member to the brake pipe,
It is characterized in that the tip portion of the valve portion of the pressure regulator is extended to the inside of the cylinder member, and the piston presses the tip portion of the valve portion of the pressure regulator before the door is closed to eliminate the pressure difference between air and outside air in the cylinder member. Door closer. In the door closer to close the door,
An elastic member is disposed inside the housing, and a spring pusher having teeth on one side is elastically supported by the elastic member to be linearly movable inside the housing and connected to a link that rotates according to the opening and closing of the door. The whole is meshed with the teeth of the spring pusher so as to be rotatably installed inside the housing, and an idle rotation body fitted to the rotor is installed on one side or both sides of the rotor to be rotatably installed inside the housing. , An auxiliary spring pusher having a tooth on one side is integrally coupled with the spring pusher to be engaged with the idle rotation body, a piston is installed at the tip of the spring pusher and the auxiliary spring pusher, and a cylinder member surrounding the piston is provided. It is disposed inside the housing, and a check valve and a pressure regulator are installed at the bottom of the cylinder member. The outside air is introduced into the check valve and the air pressure is adjusted according to the internal pressure of the cylinder member to adjust the closing speed with air pressure when the door is closed. A brake member that prevents the movement of a spring pusher is installed in the housing, a brake piston operating the brake member is installed inside the brake cylinder member, and a communication between the brake cylinder member and the cylinder member is made with a brake pipe. Door closer. According to claim 2,
The door closer, characterized in that the spring pusher and the auxiliary spring pusher is formed in a U-shape. According to claim 3,
A door closer comprising a brake pressure adjusting mechanism installed on the brake pipe. According to claim 2,
The brake member, the brake piston, and the brake cylinder member are installed between the spring pusher and the auxiliary spring pusher, and the brake pipe penetrates the brake piston so that the tip of the brake pipe is positioned in the inner space of the cylinder member. Door closer. The method of claim 5,
The brake pipe is inserted into the inner surface of the cylinder member penetrating the piston, the door closer, characterized in that the opening in the opening angle of 10 ~ 40 ° communicating with the outside air is formed in the brake pipe. According to claim 2,
It is characterized in that the tip portion of the valve portion of the pressure regulator is extended to the inside of the cylinder member, and the piston presses the tip portion of the valve portion of the pressure regulator before the door is closed to eliminate the pressure difference between air and outside air in the cylinder member. Door closer.

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