KR101048564B1 - Fire door closer with stopper - Google Patents

Abstract

The present invention relates to a fire door closer equipped with a stopper, and in particular, the fire door closer includes a first interlocking arm having one end rotatably connected to the fire door, and one end rotatably connected to the other end of the first interlocking arm. And a door closing spring installed between the second interlocking arm and the first interlocking arm and the second interlocking arm, the door closing spring having an elastic force acting in a direction to close the fire door. A housing in which the first fixing panel, the second fixing panel, and the fixing bracket are installed at predetermined intervals; A rotating shaft rotatably connected to the fixing bracket and connected to the other end of the second interlocking arm, a circular panel penetrating through the rotating shaft to rotate together with the rotating shaft, and a supporting rod is installed at one side thereof, and both ends of the housing and the circular panel A power transmission means comprising a compression spring compressed to be in close contact with each of the supporting rods, and a power transmission rod having one end fixed to the circular panel and a stepped portion formed on one side thereof; Door deceleration means fixed to both ends of the first fixing panel and the second fixing panel of the housing and connected to the other end of the power transmission rod of the power transmission means to reduce the closing speed of the fire door while performing a linear motion; The stopper is installed inside the housing and restrains the stepped portion of the power transmission rod when the fire door is opened, and releases the restraint to close the fire door when a fire occurs, thereby providing a strong closing force to the fire door. In addition, the closing speed of the fire door can be adjusted appropriately, and the fire door is normally fixed by suppressing the closing force of the door closer, and the fire door is automatically closed by the closing force of the door closer in case of fire. There is an effect that can be closed.

Fire doors, door closers, stoppers, interlocking arms

Description

Fire door closer with stopper {Door Closer having stopper}

The present invention relates to a fire door closer having a stopper for closing a fire door in the event of a fire, and in particular, the fire door is normally closed and the fire door is automatically closed in case of an emergency such as a fire. It is related to a fire door closer equipped with a stopper that can not only block fire or fire, but also reduce manufacturing costs.

In general, large buildings with many floating populations, such as schools, government offices, department stores or large buildings, can cause large-scale human and property damages during emergencies such as fires. It is a very important factor in the country, and each country strictly regulates the installation of fire protection systems.

In particular, the above-mentioned fire protection system construction includes provisions for fire doors, and the related laws stipulate that fire doors are always kept closed or automatically closed due to the generation of smoke or fire due to fire. The fire door is provided with a door closer to provide a closing force so that the fire door can be automatically closed.

However, if the door closer is installed in the fire door, the fire door will always be closed, causing inconvenience to building occupants. Therefore, in order to alleviate the inconvenience of the occupants due to the closed fire doors, the fire doors are usually not closed due to friction between the bottom surface of the building and the wedges, such as wedges. When the wedge is installed in this way, the fire door can be fixed in an open state to solve the inconvenience of the occupants of the building, but in case of a fire, the wedge cannot be removed and the original function of the fire door cannot be realized. Therefore, it can be said that a lot of human and material damage occurs.

In order to solve this problem, fire doors have been recently proposed to keep the fire door open without using a wedge and to automatically close the fire door in the event of a fire.

Looking at the Patent No. 10-0823141 (application number: 10-2007-0027177) of the proposed technology for this purpose, the fixed bracket is installed on the door frame, the rotating gear is installed in the fixed bracket and the tooth groove, and It comprises a diffraction member that rotates in conjunction with the rotating gear, the locking lever shaft mounted to the rotating gear and provided with a projection member, and an electric motor for pressing the locking lever through the lock lever, these components are interlocked with each other. To close the fire door. However, the registered patent has a problem that the component itself is very complicated and the production itself is very difficult to increase the production cost, even if the production even if installed in the door frame due to frequent failures to increase the after-care costs. This problem is a problem that other technologies related to fire door stoppers other than the registered patents have in common.

The present invention has been made to solve the above problems of the prior art, to simplify the structure to a mechanical structure to provide a fire door closer with a stopper that can reduce the cost by lowering the manufacturing cost or after-sales cost. There is this.

It is also an object of the present invention to provide a fire door stopper having a stopper for maintaining a fire door having a smoke control and disaster prevention function is normally kept open in the event of a fire.

In addition, by providing a large closing force to the fire door to ensure that the fire door is firmly closed in the event of a fire to provide a fire door closer with a stopper that can prevent the leakage of flame or fire smoke between the door frame and the fire door. There is this.

It is also an object of the present invention to provide a fire door closer with a stopper that can be prevented from being injured by a building user by closing the fire door at a too fast speed and closing it at an appropriate speed.

Fireproof door closer equipped with a stopper according to the present invention for solving the above problems, the fireproof door closer is the first interlocking arm is connected to the fireproof door rotatably, one end is rotated to the other end of the first interlocking arm The fire door door is configured to include a second interlocking arm that is connected to the possible connection, and a door closing spring installed between the first interlocking arm and the second interlocking arm so that an elastic force acts in a direction to close the fire door. A housing installed at an upper portion of the door frame and having a first fixing panel, a second fixing panel, and a fixing bracket at predetermined intervals therein; A rotating shaft rotatably connected to the fixing bracket and connected to the other end of the second interlocking arm, a circular panel penetrating through the rotating shaft to rotate together with the rotating shaft, and a supporting rod is installed at one side thereof, and both ends of the housing and the circular panel A power transmission means comprising a compression spring compressed to be in close contact with each of the supporting rods, and a power transmission rod having one end fixed to the circular panel and a stepped portion formed on one side thereof; Door deceleration means fixed to both ends of the first fixing panel and the second fixing panel of the housing and connected to the other end of the power transmission rod of the power transmission means to reduce the closing speed of the fire door while performing a linear motion; And a stopper installed inside the housing and restraining the stepped portion of the power transmission rod when the fire door is opened, and closing the fire door by releasing the restraint when a fire occurs.

The fire door closer equipped with the stopper of the present invention configured as described above has a simple mechanical structure, which not only reduces the manufacturing cost but also reduces the occurrence frequency of the failure and occurs the failure compared to the conventional hydraulic door closer. It is easy to repair and this has the advantage of reducing after-sales costs.

In addition, the stepped portion of the power transmission rod is normally restrained by the stopper, and the fire door is closed. When the fire occurs, the restraint is released, so that the fire door may be automatically closed.

In addition, since the closing force of the compression spring of the power transmission means and the door closing spring installed on the second interlocking arm when the fire door is closed is transmitted to the fire door at the same time, the fire door is firmly adhered to the door frame, whereby the door frame and the fire door There is an advantage to prevent the leakage of fire smoke or flame between the doors.

In addition, when the fire door is closed, the rotating ball of the door reduction means spirally moves along the spiral groove of the support rod, so that the closing speed of the fire door is reduced, and the fire door is closed at a too fast speed so that the building user may be injured. There is an advantage that can be prevented.

Hereinafter, an embodiment of a fire door closer equipped with a stopper according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view of a fire door closer with a stopper according to the present invention, Figure 2 is an exploded perspective view showing the door deceleration means of the fire door closer with a stopper according to the present invention.

3 is a perspective view showing a fire door closer with a stopper according to the present invention when the fire door is closed, and FIG. 4 is a fire door closer with a stopper according to the present invention when the fire door is opened. This is a perspective view.

Fire door closer according to the present invention is to release the physical fixed state of the fire door (D) that was normally open in the event of an emergency such as a fire to close the fire door (D) quickly and firmly, the first interlocking arm ( One end of C1) is connected to the fire door (D), one end of the second interlocking arm (C2) is rotatably connected to the other end of the first interlocking arm (C1), the other end of the second interlocking arm (C2) Is closed to the fire door (D) by being connected to the rotary shaft 21 of the power transmission means 20 to be described later.

In more detail, the fire door closer according to the present invention includes the first interlocking arm C1 and the second interlocking arm C2 as well as the housing 10 installed on the upper part of the building door frame P. And, the power transmission means 20 is installed in the housing 10 and the fire door (D) is firmly in close contact with the door frame (P) in the event of a fire, and connected to the power transmission means 20 and linear movement While reducing the speed of the fire door (D) is closed in the event of a fire, the door deceleration means (30) and the inside of the housing 10, the fire door (D) is normally maintained in the open state during the fire The stopper 40 is configured to close the fire door D.

The housing 10 is firmly installed on one side of the first fixing panel 11 by a welding method or the like, and the second fixing panel 12 at a predetermined distance from the first fixing panel 11. It is firmly installed by a method such as welding. In addition, the fixing bracket 13 is firmly installed at a spaced distance from the second fixing panel 12.

The first fixing panel 11 and the second fixing panel 12 are not restricted in a specific shape, but are configured in a 'c' shape to be firmly fixed to the inside of the housing 10.

The fixing bracket 13 is bent once the panel of steel material to fix one side to the inner surface of the housing 10, the other side is rotatably installed a rotating shaft 21 to be described later. Two fixing brackets 13 are installed to face each other inside the housing 10 in order to connect both ends of the rotating shaft 21, respectively.

The power transmission means 20 has a rotating shaft 21, a circular panel 22 connected to the rotating shaft 21, a compression spring 23 installed to surround the rotating shaft 21, and the circular panel ( It consists of a power transmission rod 24 connected to 22).

The rotating shaft 21 is installed so that both ends penetrate and rotate through two fixing brackets 13 installed to face each other, one end of which is formed to be angled and the second interlocking arm C2 of the second connecting arm C2. Connected to the other end.

The circular panel 22 penetrates through the rotation shaft 21 to rotate together with the rotation shaft 21, and the support rod 22a protrudes on one side thereof. Here, when the rotating shaft 21 penetrates the circular panel 22, it does not penetrate the center of the circular panel 22 but penetrates a point slightly deviated from the center of the circular panel 22. Therefore, the circular panel 22 is eccentric rotation when rotated by a certain angle along the rotation axis 21.

Both ends of the compression spring 23 are compressed to be in close contact with the inner surface of the housing 10 and the supporting rods 22a of the circular panel 22 and to surround the outer surface of the rotation shaft 21. The compression spring 23 has an elastic force acting to rotate the support rod 22a toward the door reduction means 30, and the circular panel 22 having the support rod 22a fixed as a result of the elastic force in this direction is It will rotate at a certain angle.

The power transmission rods 24 are disposed on each side of the circular panel 22 one by one, and one end thereof is connected to and fixed to the circular panel 22, and the other end thereof is the door deceleration means 30. Is fixed to. The power transmission rod 24 converts the rotational movement of the circular panel 22 that is rotated by the elastic force of the compression spring 23 into a linear movement so that the door reduction means 30 performs a linear movement. The stepped portion 24a is formed on one side of the power transmission rod 24.

The door deceleration means 30 includes a connection panel 31 to which the other end of the power transmission rod 24 of the power transmission means 20 is connected, a support rod 32 penetrating through the connection panel 31, and the support. A socket 33 penetrated by the rod 32 and a plurality of through holes 33a ', a rotating ball 34 fitted into the through hole 33a' of the socket 33, and the rotating ball ( It is composed of a cylinder 35 surrounding the socket 33 in which the 34 is fitted, and a coil spring 36 surrounding the cylinder 35.

The connection panel 31 is made of a 'c' shape by bending the steel panel, both sides of the bent is fixed to the ends of each of the two power transmission rods 24.

Both ends of the support rod 32 are fixed to the first fixing panel 11 and the second fixing panel 12 of the housing 10, and spiral grooves 32a are formed on the outer circumferential surface of a predetermined depth.

The socket 33 is composed of a main body portion 33a and a flange portion 33b formed at the end of the main body portion 33a.

A plurality of, more precisely, six through holes 33a 'are formed in a spiral shape in the main body part 33a, and the rotary balls 34 are fitted in the six through holes 33a' to allow free movement. do.

The flange portion 33b has a larger diameter than the main body portion 33a and is in contact with the first fixing panel 11 of the housing 10 when the fire door D is closed.

The rotating ball 34 is also inserted into the through hole 33a ', but is also inserted into the spiral groove 32a formed in the support rod 32. The rotating ball 34 inserted into the spiral groove 32a moves along the spiral groove 32a while freely rotating.

The cylinder 35 is a cylindrical accessory surrounding the outer circumferential surface of the socket 33 into which the rotary ball 34 is fitted, and more particularly, the outer circumferential surface of the main body portion 33a of the socket 33, and the rotary ball 34. It serves to prevent the socket 33 from being separated from the through hole 33a '.

The coil spring 36 surrounds the outer circumferential surface of the cylinder 35, and one end is connected to and fixed to the connection panel 31, and the other end is connected to and fixed to the flange portion 33b of the socket 33.

The stopper 40 restrains the solenoid portion 41 and the power transmission means 20 which are supplied with power from the outside, and the power transmission means 20 of the power transmission means 20 when the solenoid portion 41 receives power. It consists of a locking member 42 for releasing the restraint.

The solenoid portion 41 is provided with a casing 41a installed inside the housing 10, a conductive portion 41b accommodated in the casing 41a, and a power supply at a predetermined interval from the conductive portion 41b. It is composed of a plunger (41c) to repeat the advance and retreat receiving the.

The wire part 41b is wired a plurality of times and receives power from the outside at a predetermined interval when a fire occurs. The application of this power is repeated intermittently 3 to 5 times, and the heat dissipation / flame treatment is performed to prevent melting by flame or high temperature when a fire occurs.

The plunger 41c advances by the power applied to the lead portion 41b when a fire occurs and retreats when the power is shorted. The plunger 41c is configured to be connected in a circuit such that the forward and backward processes are repeatedly performed about 3 to 5 times by intermittent electrical signals.

The locking member 42 is rotated by being pushed by the plunger 41c when the plunger 41c of the solenoid part 41 is advanced to release the restraint of the stepped portion 24a of the power transmission rod 24. ). The locking member 42 is composed of a rotation shaft 42a, a rotation lever 42b, a rotation spring 42c, and a rotation rod 42d.

The pivot shaft 42a is rotatably installed in the housing 10.

The pivot lever 42b is connected to the center of the pivot shaft 42a so that the stepped portion 24a of the power transmission rod 24 is engaged when the fire door D is opened.

The rotating spring 42c inclines the lower end of the rotating lever 42b toward the solenoid portion 41.

One end of the rotation rod 42d is connected to the rotation lever 42b, and the other end is pushed in contact with the plunger 41c when the plunger 41c of the solenoid portion 41 is advanced.

Meanwhile, the second interlocking arm C2 is connected to the first interlocking arm C1 by a binding device such as a pin, and one end of the second interlocking arm C2 on which the binding device is installed is bent downward and then again. It is bent in the horizontal direction to form a seating portion (C2 '). The seating part C2 'is further provided with a door closing spring S, and a binding hole such as a pin connecting the first interlocking arm C1 and the second interlocking arm C2 is formed of the door closing spring S. Penetrates the center;

The door closing spring (S) is installed so that the elastic force acts in the direction to close the fire door (D).

Looking briefly at the operation of the fire door closer with a stopper according to the present invention configured as described above are as follows.

First, the usual situation in which an emergency such as a fire does not occur. In this case, since the fire door D is kept open, the flange 33 of the socket 33 of the door reduction means 30 is The first fixing panel 11 of the housing 10 is spaced apart from the predetermined distance.

In more detail, when the fire door D is open, the rotation shaft 21 of the power transmission means 20 rotates by the rotation of the second interlocking arm C2, which rotates the circular panel 22. Rotate eccentrically in the same direction. When the circular panel 22 is eccentrically rotated, the connection panel 31 of the door reduction means 30 connected to the power transmission rod 24 moves toward the second fixing panel 12 of the housing 10, and the coil spring The flange 33b of the socket 33 is pulled toward the second fixing panel 12 of the housing 10 by the 36 to be spaced apart from the first fixing panel 11 of the housing 10 by a predetermined distance. Then, in order to maintain the open state of the fire door D, the stepped portion 24a of the power transmission rod 24 is engaged with the corner of the rotation lever 42b of the locking member 42. For this reason, even if the elastic force of the power transmission means 20, the compression spring 23 pushes the power transmission rod 24 toward the first fixing panel 11 of the housing 10, the power transmission rod 24 is not pushed. It is to keep the fire door D open.

The fire door (D) is to be closed when a fire occurs while maintaining the state as described above, in which case the current flows through the conductive portion 41b of the solenoid portion 41 and the plunger 41c is continuously advanced. When the plunger 41c moves forward in this manner, the rotating rod 42b of the locking member 42, which is arranged to be spaced apart from the plunger 41c, is pushed by the plunger 41c, and the pivoting lever 42b rotates at an angle. Done.

When the rotation lever 42b rotates, the stepped portion 24a of the power transmission rod 24 that is physically constrained to the rotation lever 42b is released. When the power transmission rod 24 held on the rotation lever 42b moves freely, the rotation shaft 21 of the power transmission means 20 rotates by the rotation of the second interlocking arm C2. The circular panel 22 is eccentrically rotated by the elastic force of the compression spring 23 acting on the support bar 22a of the circular panel 22.

When the circular panel 22 rotates as described above, the power transmission rod 24 makes a linear motion toward the first fixing panel 11 of the housing 10. The door deceleration means 30 causes the door deceleration means 30 to perform the linear motion. A linear movement toward the first fixing panel 11 causes the flange portion 33b of the socket 33 to be in contact with the first fixing panel 11.

Here, the linear motion toward the first fixing panel 11 of the door reduction means 30 will be described in more detail as follows.

When the power transmission rod 24 makes a linear movement toward the first fixing panel 11 of the housing 10, the connection panel 31 connected to the power transmission rod 24 pushes the coil spring 36 while supporting the support rod ( Move along the 32) to the first fixing panel (11). At this time, the rotary ball 34 fitted into the through hole 33a 'of the main body portion 33a of the socket 33 rotates on the spiral groove 32a formed on the support rod 32, and the spiral groove 32a. Move along.

On the other hand, the door closing spring (S) installed in the second interlocking arm (C2) acts in the direction to close the fire door (D) when the fire door (D) is closed to compress the power transmission means (20) Together with the spring 23 serves to close the fire door (D) more firmly.

1 is a cross-sectional view of the fire door closer with a stopper according to the present invention.

Figure 2 is an exploded perspective view showing the door deceleration means of the fire door closer with a stopper according to the present invention.

Figure 3 is a perspective view showing a fire door closer with a stopper according to the present invention when the fire door is closed.

Figure 4 is a perspective view showing a fire door closer with a stopper according to the present invention when the fire door is opened.

<Explanation of symbols on main parts of the drawings>

10: housing 11: first fixing panel

12: second fixing panel 13: fixing bracket

20: power transmission means 21: rotating shaft

22: circular panel 22a: support rod

23: compression spring 24: power transmission means

30: door reduction means 31: connection panel

32: support rod 32a: spiral groove

33: socket 33a: main body

33b: flange 34: rotating ball

35: cylinder 36: coil spring

40: stopper 41: solenoid part

41a: lead portion 41b: lead portion

41c: plunger 42: locking member

42a: pivot shaft 42b: pivot lever

42c: rotating spring 42d: rotating rod

D: fire door C1: first interlocking rock

C2: 2nd linked rock P: Door frame

S: Door closing spring

Claims (5)

A first interlocking arm C1 having one end rotatably connected to the fire door D, and a second interlocking arm C2 rotatably connected to the other end of the first interlocking arm C1. In the configured fire door closer, The fire door closer is installed on the upper part of the building door frame (P), the first fixing panel 11 is installed on one side of the inside and the second fixing panel 12 to be spaced apart from the first fixing panel 11 by a predetermined distance. ) Is installed, the housing 10 in which the fixing bracket 13 is installed to be spaced a predetermined distance from the second fixing panel 12; The rotating shaft 21 is rotatably connected to the fixing bracket 13 and connected to the other end of the second interlocking arm C2, and penetrates through the rotating shaft 21 to rotate together with the rotating shaft 21 and on one side. A circular panel 22 provided with a supporting rod 22a, a compression spring 23 both of which is pressed against the housing 10 and a supporting rod 22a of the circular panel 22, and the circular panel 22 A power transmission means (20) consisting of a power transmission rod (24) having one end fixed thereto and a stepped portion (24a) formed on one side thereof; Both ends are fixed to the first fixing panel 11 and the second fixing panel 12 of the housing 10, and one side is connected to the other end of the power transmission rod 24 of the power transmission means 20, thereby linearly moving. And door deceleration means 30 for reducing the closing speed of the fire door (D); It is installed inside the housing 10, restrains the stepped portion 24a of the power transmission rod 24 when the fire door D is opened, and releases the restraint to release the fire door D when a fire occurs. Fire stop door closure provided with a stopper, characterized in that consisting of; stopper (40) for closing. The method according to claim 1, The door deceleration means 30 includes a connection panel 31 to which the other end of the power transmission rod 24 of the power transmission means 20 is connected; A support rod having both ends fixed to the first fixing panel 11 and the second fixing panel 12 of the housing 10 and penetrating the connection panel 31 and having a spiral groove 32a formed on an outer circumferential surface thereof ( 32); A socket 33 penetrated by the support rod 32 and having a plurality of through holes 33a 'formed in a spiral shape; A rotating ball 34 rotatably fitted in the through hole 33a 'of the socket 33 and moving while rotating on the spiral groove 32a of the support rod 32; A cylinder 35 surrounding the outer circumferential surface of the socket 33 into which the rotary ball 34 is fitted; A fire door closer with a stopper, comprising: a coil spring (36) wrapped around the outer circumferential surface of the cylinder (35) and both ends fixed to the connection panel (31) and the socket (33), respectively. The method according to claim 1, One end of the second interlocking arm C2 connected to the first interlocking arm C1 is bent downward to form a seating part C2 ', and a door closing spring S is formed on the seating part C2'. Fire door closer with a stopper, characterized in that the further installed. The method according to claim 1, The stopper 40 includes a casing 41a installed inside the housing 10, a lead portion 41b housed inside the casing 41a and supplied with power at a predetermined interval from the outside, and when a fire occurs. A solenoid portion 41 comprising: a plunger 41c which receives power from the conductive portion 41b at a predetermined interval and repeats forward and backward retreat; Locking member to close the fire door D by closing the stepped portion 24a of the power transmission rod 24 by being rotated by the plunger 41c when the plunger 41c of the solenoid portion 41 is advanced. (42); A fire door closer with a stopper, characterized in that consisting of. The method according to claim 4, The locking member 42 includes a rotation shaft 21 rotatably installed in the housing 10; A rotation lever 42b connected to the center of the rotation shaft 21 and engaging the stepped portion 24a of the power transmission rod 24 when the fire door D is opened; A rotating spring (42c) which inclines the lower end of the rotating lever (42b) toward the solenoid portion (41); A stopper having one end connected to the rotation lever 42b and a rotation rod 42d having the other end contacting the plunger 41c when advancing the plunger 41c of the solenoid portion 41. Fire door closure.

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