KR100447079B1 - Hinge device for door - Google Patents

Abstract

PURPOSE: A hinge apparatus for a door is provided to rotatably mount the door and to close the door by the force of the hinge apparatus if external force is removed while the door is opened. CONSTITUTION: A hinge apparatus for a door for rotatably mounting the door to a doorframe comprises a cylinder body(10) mounted to one of the doorframe and the door; a hinge shaft(20) pivotably arranged through the inside of the cylinder body in the longitudinal direction; a vane(30) longitudinally arranged to the outer peripheral surface of the hinge shaft; a partitioning member(40) arranged in the cylinder body; and vent holes(15) making external air come in and out an air chamber according to the pivoting action of the hinge shaft. A cylinder(11) is formed to the inside of the cylinder body. The end of the hinge shaft is mounted to the other one of the doorframe and the door. The vane divides the inner space of the cylinder into a gas compression chamber filled with gas and the air chamber through friction with the inner wall of the cylinder. The inside(42) of the partitioning member comes in contact with the outer peripheral surface of the hinge shaft to intercept communication of the gas compression chamber and the air chamber.

Description

Hinge for Doors {HINGE DEVICE FOR DOOR}

The present invention relates to a hinge device for a door, and more particularly, to a hinge device for a door that rotatably supports one side of the door and automatically closes when an external force is removed in an open state.

In general, the door is installed in the door frame of the building entrance or widely used to open and close the interior of various electronic products. These doors are classified into various types according to the opening and closing method, but opening and closing doors are widely applied in consideration of installation space and ease of use.

Such a sliding door is rotatably mounted to the door frame through a hinge. At this time, the hinge simply performs a function of rotatably supporting the door.

Therefore, the door installed through the conventional hinge, as well as the opening operation and the closing operation is artificially made by a person, there is a considerable inconvenience in use. In other words, if the door is not necessarily closed in the open state, it causes considerable energy waste, and in the case of an industrial machine, there is a risk of a safety accident.

On the other hand, in recent years, there is known a configuration for automatically closing the door by installing a door check (Door check) between the upper door and the door frame, or the configuration to automatically close the door through a hydraulic or pneumatic cylinder. However, these configurations have the disadvantage of requiring considerable installation and maintenance costs.

The present invention is to solve this problem; It is an object of the present invention to provide a door hinge device that can close the door by the force of the hinge device itself, as well as to rotatably mount the door and remove the external force in the state of opening the door.

Figure 1 shows the installation of the door hinge device according to the present invention.

Figure 2 is an exploded perspective view schematically showing a hinge device for a door according to the present invention.

FIG. 3 is a cross-sectional view taken along the line III-III of FIG. 2, showing the internal structure of the door hinge device.

4 and 5 show the operating state of the hinge device for a door according to the present invention.

* Description of symbols on the main parts of the drawings

1..door frame 2..door

10. Cylinder body 13. Gas compression chamber

14..air room 15..vent hall

20. Hinge Shaft 30. Vane

40. Block member 41, 43. Seal

The present invention for achieving this object is; The hinge device is; A cylinder body mounted on one of the door frame and the door, the both ends being sealed and having a cylinder formed therein; A hinge shaft which penetrates the inside of the cylinder body in a longitudinal direction and is pivotally mounted, and an end portion of which is mounted to the other of the door frame and the door; A vane provided on the outer circumference of the hinge shaft in a longitudinal direction and pivoted integrally, wherein the edge rubs against the inner wall of the cylinder and divides the inner space of the cylinder into a gas compression chamber and an air chamber having a variable volume; It is provided inside the cylinder body, characterized in that the inner surface is provided with a partition member that is always in close contact with the outer circumference of the hinge shaft so that the communication between the gas compression chamber and the air chamber is blocked.

The gas compression chamber may be filled with nitrogen gas at a predetermined pressure.

In addition, the air chamber is characterized in that it is in communication with the outside through the vent hole so that the outside air in and out according to the pivoting operation of the hinge shaft.

In addition, the vent hole is characterized in that perforated in the cylinder body to communicate with the air chamber.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

Door hinge device according to the present invention for rotatably mounting the door to the door frame, as shown in Figure 1, is mounted on any one of the door frame (1) and the door (2) and the gas inside The filled cylinder body 10 and the inside of the cylinder body 10 are rotatably disposed in a longitudinal direction, and end portions thereof are mounted on the other of the door frame 1 and the door 2. The hinge shaft 20 is provided. In the embodiment of the present invention, the cylinder body 10 is mounted on the door frame 1 side and the hinge shaft 20 is mounted on the door 2 side. }

2 and 3, the cylinder body 10 is firmly mounted on the side of the door frame 1 through a fixing bracket 3 (see FIG. 1), and a cylindrical cylinder 11 in the longitudinal direction thereof is provided therein. Is formed. And both ends of the cylinder body (10) is tightly sealed through the sealing cap (12).

The hinge shaft 20 penetrates the inside of the cylinder 11 of the cylinder body 10 in the axial direction, and both ends thereof are firmly mounted to the door 2 side through the fixing bracket 4 (see FIG. 1). Accordingly, the door 2 is rotatably assembled around the hinge shaft 20. Reference numeral "5" denotes a bush fitted to both ends of the hinge shaft 20 for coupling with the fixing bracket 4.

Moreover, the vane 30 which rotates integrally is provided in the longitudinal direction in the middle outer periphery of the hinge shaft 20 accommodated in the cylinder 11. The vane 30 has an edge in close contact with the inner wall of the cylinder 11, so that the inner space of the cylinder 11 is changed into the gas compression chamber 13 and the air chamber 14 together with the partition member 40 described later. It serves to nourish. In addition, the cylinder body 10 is provided with a partition member 40 whose inner surface is always in close contact with the outer circumference of the hinge shaft 20 so that communication between the gas compression chamber 13 and the air chamber 14 is blocked.

As such, the inner space of the cylinder 11 includes a vane 30 pivoted together with the hinge shaft 20, and a gas compression chamber 13 and an air chamber having a variable volume through a fixedly arranged partition member 40. The nutrient is divided into (14), the detailed structure thereof is as follows.

First, the partition member 40 is provided in the longitudinal direction on the inner surface of the cylinder body 10, that is, the cylinder 11 wall, and the gas compression chamber 13 in close contact with the wall surface of the cylinder 11 on the outer surface of the partition member 40 ) And a seal 41 for blocking communication between the air chamber 14 are arranged. In addition, the inner surface 42 of the partition member 40 is made of a predetermined curvature surface, and always keeps in close contact with the outer circumference of the rotating hinge shaft 20. The inner surface 42 of the partition member 40 is also provided with a seal 43 to prevent the occurrence of a gap with the outer circumference of the hinge shaft (30).

And the vane 30 is provided in the longitudinal direction on the outer circumference of the hinge shaft 30, as described above, is integrally pivoted together with the hinge shaft 30. The edge of the vane 30 is maintained in close contact with the inner wall of the cylinder 11, the inner space of the cylinder 11 by the rotational movement of the vane 30 together with the hinge shaft 20, the volume of the gas compressed The chamber 13 is divided into a chamber 13 and an air chamber 14.

The gas compression chamber 13 is filled with nitrogen gas at a predetermined pressure. In the embodiment of the present invention, the gas compression chamber 13 is approximately 0.5 to 1 kgf / cm ² at the maximum volume state Nitrogen gas was charged to maintain the gas pressure. At this time, the maximum volume of the gas compression chamber 13 is a state in which the door 2 is completely closed. When the vane 30 is pivoted together with the hinge shaft 20 while the door 2 is opened, the gas compression chamber ( 13) gradually decreases in volume. In addition, even when the volume of the gas compression chamber 13 varies, nitrogen gas charged therein does not leak. This is because the gas compression chamber 13 and the air chamber 14 are cut through the vanes 30 and the partition member 40. It is because it is partitioned solidly.

In addition, the air chamber 14 is configured to allow outside air to enter and exit the pivot shaft 15 through the vent hole 15. In an embodiment of the present invention, the vent hole 15 is drilled in the cylinder body 10 so as to communicate with the air chamber 14. Accordingly, the hinge shaft 30 pivots due to the opening of the door 2 and the volume of the gas compression chamber 13 decreases while the volume of the air chamber 14 gradually increases. 14), the outside air enters through the vent hole 15.

Next, the operation of the hinge device for a door according to the present invention configured as described above and the effects thereof will be described.

First, in the state in which the door 2 is closed, as shown in FIG. 3, the gas compression chamber 13 has a maximum content while the air chamber 14 has a minimum volume. At this time, since the gas compression chamber 13 is filled with nitrogen gas, the hinge shaft 30 receives pressure in the direction in which the door 2 is closed.

In this state, as shown in FIGS. 4 and 5, when the user grabs the door handle (not shown) and opens the door 2 (arrow A direction), the vanes 30 together with the hinge shaft 20 are removed. As the cylinder body 10 pivots inside, the volume of the gas compression chamber 13 decreases while the volume of the air chamber 14 gradually increases. Therefore, the nitrogen gas pressure of the gas compression chamber 13 is gradually increased, and outside air enters the air chamber 14 through the vent hole 15. (In the embodiment of the present invention, when the door 2 is completely opened (see FIG. 5), the nitrogen gas filling pressure in the gas compression chamber 13 is increased to 2 to 2.5 kgf / cm ^2. )

Further, since the door handles are usually provided on the opposite side of the door 2 on which the hinge device is installed, the door 2 can be easily opened on the principle of the lever even if the gas pressure in the gas compression chamber 13 gradually increases. Can be.

When the user releases his or her hand while the door 2 is opened, the vane 30 is pivoted in the direction in which the door 2 is closed together with the hinge shaft 20 by the nitrogen gas expansion pressure of the gas compression chamber 13. do. That is, when the external force is lost, the vane 30 pivots in the reverse direction together with the hinge shaft 20 due to the nitrogen gas expansion pressure of the gas compression chamber 13 (see arrow B direction in FIG. 4), thereby causing the gas compression chamber. (13) The door 2 automatically closes as the volume increases again.

At this time, in the process of pivoting the vane 30 together with the hinge shaft 20 in the opposite direction, the air in the air chamber 14 gradually exits to the outside through the vent hole 15. Therefore, by controlling the speed at which the air chamber 14 exits through the vent hole 15, the closing speed of the door 2 may be adjusted. In other words, if the air chamber 14 is configured to allow the air to escape quickly, the closing speed of the door 2 is increased, and if the air chamber 14 is configured to gradually escape the air, the door 2 closing operation is also made slowly.

On the other hand, this technical idea has been described as an example that the door 2 is applied to the hinge device rotatably installed in the door frame (1), by improving the structure of the fixing bracket (3) (4) various home appliances such as refrigerator doors Of course it can be easily applied to.

In addition, it is a matter of course that the desired purpose of the present invention can be achieved even if the gas compression chamber 13 is filled with helium gas in addition to nitrogen gas.

As described in detail above; According to the hinge device for a door according to the present invention; As the door is opened, the vanes pivot together with the hinge shaft in the cylinder body, which increases the pressure of the gas compression chamber filled with nitrogen gas. When the external force is removed from the door, the vane and hinge shafts pivot in the reverse direction due to the expansion pressure of the nitrogen gas, thereby closing the door automatically.

Accordingly, when the door hinge device according to the present invention is applied to a door door or various electronic products and industrial doors, there is an effect of effectively preventing energy waste or safety accidents. In addition, the closing speed of the door is controlled according to the speed at which the air escapes through the air chamber, and thus, the door closing speed may be variously adjusted according to the type and application of the door.

Claims (4)

What is claimed is: 1. A hinge device for a door for rotatably mounting a door (2) to a door frame (1); The hinge device is; A cylinder body (10) mounted to one of the door frame (1) and the door (2), the both ends of which are sealed and a cylinder (11) formed therein; A hinge shaft 20 penetrates the inside of the cylinder body 10 in a longitudinal direction and pivotally mounted, and an end of which is mounted on the other of the door frame 1 and the door 2; It is provided in the longitudinal direction on the outer circumference of the hinge shaft 20 pivotally integrally, the edge is friction with the inner wall of the cylinder 11, the volume of the inner space of the cylinder 11 is variable and the gas compression chamber is filled with gas ( 13) and vanes 30 for dividing into an air chamber 14; The partition member is provided inside the cylinder body 10, the inner surface 42 is always in close contact with the outer circumference of the hinge shaft 20 so that the communication between the gas compression chamber 13 and the air chamber 14 is blocked ( 40); A vent hole 15 for guiding external air into and out of the air chamber 14 according to a pivoting operation of the hinge shaft 20; The hinge device for a door, characterized in that it is provided. The method of claim 1, The gas compression chamber 13 is a hinge device for a door, characterized in that the nitrogen gas of a predetermined pressure is filled. delete The method of claim 1, The vent hole (15) is a hinge device for a door, characterized in that perforated in communication with the outside of the air chamber (14) in the cylinder body (10).