KR20100122764A - Duct damper assembly - Google Patents

Abstract

An object of the present invention is to provide a damper device for ventilation, the configuration of the present invention is a damper (110) rotatably installed in the damper body (100) connected to the building ventilation duct, and the rotary shaft in the damper (110) The drive is connected to the motor 120 for opening and closing the damper body 100 by rotating the damper 110 and is mounted to rotate together with the rotation axis of the motor 120, the circumference is eccentric along the circumferential direction A protrusion 131 is provided, and the eccentric protrusion 131 is mounted on the cam 130 having a top dead center 130B and a bottom dead center 130A, and the damper body 100, and the switching button 142. The micro switch 140 is switched to the switched off state at the top dead center 130B and the bottom dead center 130A of the eccentric protrusion 131 on the outer circumferential surface of the cam 130 and the micro switch 140. Switching button 142 is the top dead center (1) of the eccentric protrusion 131 of the cam 130 30B) and the solenoid 150 connected between the power supply unit and the micro switch 140 so that power is cut off by the micro switch 140 when the damper 110 is opened and closed, and the micro switch 140. And a main switch 105 connected between the motor 120, a relay 190 operated to supply power to the motor 120 according to an on / off operation of the main switch 105, and the main switch ( 105) a return spring 160 for rotating the rotation shaft of the driving motor 120 in reverse when the power is cut off, and a stopper mechanism 170 for keeping the damper body 100 closed by the damper 110. It includes.

Description

Vent damper device {Duct damper assembly}

The present invention relates to a damper device for ventilation, and more particularly, to a damper device for ventilation configured so that noise is not generated due to the continuous operation of the solenoid even when the ventilation duct is closed by the damper.

Ventilation fans are installed in kitchens and restrooms such as apartments or multi-family houses to emit smoke generated during cooking or odors generated in the bathroom to the outside. At this time, the passage through which the smoke or odor is discharged is not an individual discharge method, but adopts a common discharge method in consideration of convenience of construction and external aesthetics. That is, it is common to adopt a method in which a duct, which is an exhaust passage, is connected to a cavity for each furniture, and a ventilation fan is installed in the duct, which is a joint passage connected to the cavity, so that smoke or odor can be discharged jointly.

On the other hand, if there is no automatic damper device in the common discharge passage, smoke or odor of neighboring house may be introduced through the duct, which may cause inconvenience to life. Therefore, when the ventilation fan is not working or in case of emergency such as neighboring house fire, The automatic damper device is installed at the discharge part of the duct communicating with the ventilation fan to prevent odor from entering.

However, in the related art, the structure has a relatively complicated structure and a relatively large volume, which causes inconvenience in installation, and has a disadvantage in that a product cost increases due to a large number of parts and a failure occurrence rate increases in use. Since the structure of the main part, such as the connection structure of the part is complicated, there is a disadvantage that productivity is reduced.

In addition, conventionally, there is a disadvantage in that a lot of noise is generated due to the continuous operation of the solenoid in a state in which the ventilation duct is closed by the damper, and there is also a disadvantage in that the amount of power consumption increases due to the continuous operation of the solenoid.

The present invention is to solve the above problems, an object of the present invention is configured so that the noise is not generated due to the continuous operation of the solenoid even in a state in which the ventilation duct closed by the damper does not generate a higher convenience in use In addition, it is possible to provide an advantageous damping device for ventilation in terms of cost due to the reduction of power consumption.

According to the present invention for solving the above problems, the damper 110 rotatably installed in the damper body (100) connected to the building ventilation duct, the rotary shaft is driven to the damper (110) to drive the damper The motor 120 for opening and closing the damper body 100 by rotating 110 and the motor 120 are mounted to rotate together with the rotation shaft of the motor 120, and an eccentric protrusion 131 is provided along the circumferential direction of the circumferential portion. The eccentric protrusion 131 has a cam 130 having a top dead center 130B and a bottom dead center 130A, and is mounted to the damper body 100, and a switching button 142 is formed on an outer circumferential surface of the cam 130. The micro switch 140 and the switching button 142 of the micro switch 140 are switched to the off state at the top dead center 130B and the bottom dead center 130A of the eccentric protrusion 131. The damper 110 is positioned at the top dead center 130B of the eccentric protrusion 131 of 130. The main switch connected between the micro switch 140 and the motor 120 and the solenoid 150 connected between the power supply and the micro switch 140 so that the power is cut off by the micro switch 140 when opened and closed. 105, a relay 190 operated to supply power to the motor 120 according to the on / off operation of the main switch 105, and the driving motor 120 when the main switch 105 is powered off. Ventilation damper, characterized in that it comprises a return spring 160 for rotating the rotary shaft of the reverse rotation and the stopper mechanism 170 for maintaining the damper body 100 by the damper 110 in a closed state An apparatus is provided.

The present invention is simple in structure and reduced in volume, reduces product cost, reduces the occurrence rate of failure during use, and can also improve productivity. By stopping the operation of the solenoid, there is an advantage to prevent the generation of noise due to the continuous operation of the solenoid, and also has the advantage of convenience in use due to the noise prevention during operation of the solenoid.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view showing an open state of the damper of the present invention, Figure 2 is a perspective view showing a closed state of the damper shown in Figure 1, Figures 3 and 4 shows the operation of the main part when opening and closing the damper of the present invention 5 and 6 are one side view conceptually showing the operation of the main part at the time of opening and closing the damper according to another embodiment of the present invention, and FIG. 7 is a circuit diagram of the main part of the present invention. As shown, the present invention is a damper 110 rotatably installed in the damper body (100) connected to the building ventilation duct, and the rotation shaft is operatively connected to the damper (110) to rotate the damper (110) A motor 120 that opens and closes the damper body 100, and is mounted to rotate together with the rotation shaft of the motor 120, and an eccentric protrusion 131 is provided at a circumferential direction along a circumferential portion thereof, and a top dead center is provided at the eccentric protrusion 131. 130B and the bottom dead center 130A and the cam 130 having a structure provided with the damper body 100 and the switching button 142 is the top dead center 130B of the eccentric protrusion 131 on the outer circumferential surface of the cam 130. ) And the micro switch 140 switched to the switched off state at the bottom dead center 130A, and the switching button 142 of the micro switch 140 is the top dead center 130B of the eccentric protrusion 131 of the cam 130. ) And the power supply unit to cut off the power by the micro switch 140 when the damper 110 is opened or closed. Power to the motor 120 according to the solenoid 150 connected between the positions 140, the main switch 105 connected between the micro switch 140 and the motor 120, and the on / off operation of the main switch 105. It has a relay 190 that is operated to supply a and a stopper mechanism 170 for keeping the damper body 100 closed by the damper 110.

The cam 130 is fixedly mounted to the rotating shaft of the motor 120 through a fastener such as a fixing bolt, the cam 130 is provided with an eccentric protrusion 131 in the circumferential direction at the periphery, such eccentric The protrusion 131 is provided with a top dead center 130B and a bottom dead center 130A. At this time, the eccentric protrusion 131 continues in a circumferential direction of the cam 130 in a 180 ° range, and both ends of the eccentric protrusion 131 become a bottom dead center 130A, and the eccentric protrusion 131 The middle part between the bottom dead center 130A at both ends becomes the top dead center 130B.

The micro switch 140 is mounted on the bracket such that the switching button 142 contacts the eccentric protrusion 131 of the cam 130. At this time, the micro switch 140 is a three-contact micro switch 140 having a common terminal and two contact terminals A and B electrically connected between the motor 120 and the main power supply, and such a micro switch 140. The switching button 142 of the cam 130 is switched to a switching on state or a switching off state at the top dead center 130B and the bottom dead center 130A of the eccentric protrusion 131 on the outer circumferential surface of the cam 130 to supply power to the motor 120. Enforce.

FIG. 5 is a circuit diagram of an essential part of the present invention, and referring to FIG. 5, a motor 120 is electrically connected to a main power supply, and a three-contact microswitch is connected to a circuit between the main power supply and the motor 120. One of the two contact terminals A and B of the micro switch 140 is connected to the motor 120, and a switch is connected between the other contact terminal of the micro switch 140 and the motor 120. have. In addition, a relay 190 for controlling power supply to the motor 120 by an electrical signal is connected between the main power supply unit and one contact point of the micro switch 140 and the main power supply unit and the switch. In this case, the relay 190 is an electrical switching element in a normally on state. In other words, when the switch is in the switching off state, power is supplied to the motor 120.

The present invention of such a configuration is configured in such a way that the damper 110 is opened when the ventilation fan is operated in conjunction with the ventilation fan and the damper 110 is closed when the ventilation fan is stopped. Referring to the operation of the automatic damper device of the present invention in detail, when the switch shown in the circuit diagram of Figure 7 is switched on (on), power is supplied to the motor 120 is mounted to the rotary shaft and the motor 120 The cam 130 and the damper 110 mounted to the shaft rotate. At this time, the switching button 142 of the micro switch 140 is at the bottom dead center 130A of the eccentric protrusion 131, and then the top dead center 130B (2) of the eccentric protrusion 131 as the cam 130 rotates. Proceed towards That is, the top dead center 130B of the eccentric protrusion 131 of the cam 130 rotates in one direction and rotates to the point where the switching button 142 of the micro switch 140 is pressed, and the two of the micro switches 140 are rotated. The contact terminals A and B are in a connected state. At the same time, the damper 110 continues to rotate in the direction of closing the damper body 100.

The rotation axis of the cam 130 and the motor 120 continue to rotate, and the damper 110 also continues to rotate so that the switching button of the micro switch 140 is formed by the top dead center 130B of the eccentric protrusion 131 of the cam 130. When 142 is pressed, since the contact terminal A of the micro switch 140 shown in FIG. 7 is turned off, the power supply to the solenoid 150 is cut off, so that the plunger 152 of the solenoid 150 is inside. The spring is pushed forward by the pushing force of the solenoid 150 is projected forward. At the same time, the power of the main power supply unit is cut off by the relay 190 to cut off the power supply to the motor 120 to stop the driving of the motor 120, the top dead center 130B of the cam 130 is the bottom dead center of the front end. Since it is positioned at 90 ° with 130A, the damper 110 is rotated by 90 ° while the driving of the motor 120 is stopped, thereby closing the damper body 100.

In the state in which the damper 110 closes the damper body 100, since the stopper pin 172 provided on the rotating shaft of the motor 120 is caught by the plunger 152 of the solenoid 150, the damper 110 ) Is maintained in the open state of the damper body 100, and at the same time the return spring 160 is in a state of receiving the force to return to the original position.

When the damper body 100 is closed by the damper 110 as described above, even if the ventilation fan does not rotate, no smoke or odor flows from neighboring homes. The same is true in case of emergency, such as a neighbor fire.

On the other hand, when the ventilation fan needs to be rotated again to open the damper 110, when the switch shown in FIG. 5 is operated in the OFF state, the relay 190 shown in FIG. 5 is switched on by an electrical signal. Being applied to the power supply of the main power supply to the solenoid 150.

Then, the plunger 152 of the solenoid 150 overcomes the force of the internal spring by the power supply and retreats into the solenoid 150 to release the locking state of the stopper pin 172, so that the damper 110 receives the force. The damper body 100 is opened while returning to the original position by the force of the return spring 160. Of course, when the damper 110 is rotated to its original position, since the stopper pin 172 provided on the rotation shaft of the motor 120 is caught by the stopper 174 protruding to the outside of the damper body 100, the damper 110 is It can be kept open. Then, while the switching button 142 of the micro switch 140 is positioned at the bottom dead center 130A of the eccentric protrusion 131 of the cam 130, the micro switch 140 is turned on but the switch is already switched off. In this state, the power to the motor 120 is cut off, and the damper 110 returns to its original position and the motor 120 is not driven when the damper body 100 is opened. When the bottom dead center 130A of the eccentric protrusion 131 returns to its original position, the power to the solenoid 150 is also cut off, so that the solenoid 150 also does not operate.

On the other hand, when it is necessary to close the damper body 100 by the damper 110 again, when the switch shown in FIG. 5 is operated in the ON state, the damper 110 is rotated by the operation as described above damper body When the damper 110 is switched off while the damper 110 is closed with the damper body 100 closed, the damper 110 returns to its original position by the operation as described above, and thus, the damper body 100 is opened. It can be maintained in one state, and the ventilation fan is not operated or smoke or odor generated by a fire in a neighboring house does not penetrate. By repeating this operation, the internal smoke or odor is sent out and the external smoke or odor is blocked.

According to the present invention, when the motor 120 is driven to close the damper body 100 by the damper 110, power is supplied to the solenoid 150 to operate the solenoid 150 as well. In the state in which the damper body 100 is closed by the 110, the driving of the motor 120 and the driving of the solenoid 150 are stopped, and the motor 120 is opened even when the damper body 100 is opened by the damper 110. Since the driving and the driving of the solenoid 150 is stopped, it can be said that the noise due to the operation of the solenoid 150 is not generated.

On the other hand, Figure 6 is a view conceptually showing the structure of the main portion of another embodiment of the present invention, the present invention according to Figure 6 in the damper body 100 via the hinge portion 182 so that both ends can be rotated One end is disposed to face the plunger 152 of the solenoid 150 and the other end is provided with a seesaw 180 having a locking piece extending outwardly in an intersecting direction, and the other end of the seesaw 180 It is configured to include a spring 190 to be pushed around the branch 182 to push one end of the bar of the sisoba 180 to the plunger 152 of the solenoid 150.

According to the present invention of FIG. 6, when the switch shown in the circuit diagram of FIG. 7 is turned on, the damper 110 is rotated in one direction by the driving of the motor 120 and the stopper pin 172 is rotated. Rotating to one side, the force of the spring 190 provided on the other end side of the seesaw bar 180 acts so as to tilt the other end side of the seesaw 180 around the hinge portion 182 to stop the pin Since the 172 is caught by the other end side locking piece of the seesaw 180, the damper 110 is kept closed, and the plunger 152 of the solenoid 150 protrudes by the power supply so that the hinge portion ( 182 to rotate the other end side of the seesaw 180 by pressing one end side of the seesaw bar 180 around the hinge portion 182 to the opposite side, the stopper pin ( 172 is released, the damper 110 is returned to its original position by the return force of the return spring 160. The damper 110 is rotated to an open position, and the damper 110 is caught by the stopper pin 172 provided in the damper body 100 of the stopper pin 172 in the open state. It is possible to maintain the open state of.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various permutations, modifications, and changes can be made without departing from the spirit of the present invention. It will be apparent to those who have it.

1 is a perspective view of the present invention

2 is an enlarged perspective view of the main part of the present invention;

3 and 4 are plan views showing operating states of the present invention.

5 is a circuit diagram of an essential part of the present invention.

Claims (7)

A damper 110 rotatably installed in a damper body 100 connected to a building ventilation duct, and a rotation shaft is operatively connected to the damper 110 to rotate the damper 110 to rotate the damper body 100. The motor 120 is opened and closed, and is mounted to rotate together with the rotation shaft of the motor 120. An eccentric protrusion 131 is provided at a circumference along the circumferential direction, and the eccentric protrusion 131 has a top dead center 130B and a bottom yarn. A cam 130 having a structure having a point 130A and a damper body 100 are mounted, and a switching button 142 is the top dead center 130B of the eccentric protrusion 131 on the outer circumference of the cam 130. And the micro switch 140 switched to the switched off state at the bottom dead center 130A, and the switching button 142 of the micro switch 140 is the top dead center of the eccentric protrusion 131 of the cam 130. Positioned at 130B and powered by the micro switch 140 when the damper 110 is opened or closed The solenoid 150 connected between the power supply and the micro switch 140 to be cut off, the main switch 105 connected between the micro switch 140 and the motor 120, and the main switch 105 are turned on. A relay 190 operated to supply power to the motor 120 according to an off operation, a return spring 160 which reversely rotates the rotation shaft of the driving motor 120 when the main switch 105 is turned off; Ventilation damper device characterized in that it comprises a stopper mechanism (170) for maintaining the damper body (100) in a closed state by the damper (110). The micro switch 140 of claim 1, wherein the micro switch 140, in which the switching button 142 contacts the eccentric protrusion 131 of the cam 130, has a common terminal and two contact terminals A and B. Ventilation damper device, characterized in that the micro switch (140). The eccentric protrusion 131 is continuous along the circumferential direction of the cam 130 in a 180 ° range, and both ends of the eccentric protrusion 131 become a bottom dead center 130A and the eccentricity. Ventilation damper device, characterized in that the middle portion between the bottom dead center (130A) of both ends of the projection (131) is configured to be a top dead center (130B). According to claim 2, wherein the three-contact micro-switch 140 is connected between the motor 120 and the power supply, the cam 130 and the damper 110 is rotated at the same time by the drive of the motor 120 At the top dead center 130B of the eccentric protrusion 131 of the cam 130, the switching button 142 of the three-contact micro switch 140 is positioned so that one of the two power terminals A and B is powered. Terminal B is switched to the off state to cut off the power supply to the motor 120 to maintain the interior of the damper body 100 opened by the damper 110, the motor 120 Supplying power in the reverse direction to rotate the rotary shaft and the damper 110 to reverse the switching button 142 of the three-contact micro switch 140 is the bottom dead center 130A of the eccentric protrusion 131 of the cam 130 Located in the damper body 10 by cutting off the power of the motor 120 to the damper body (10) Ventilation damper device characterized in that maintained in a closed state 0). The damper body of claim 1, wherein the stopper means includes a stopper pin 172 provided to rotate at the same time as the rotation shaft of the motor 120, and the damper body 100. (100) Ventilation damper device, characterized in that configured to include a stopper (174) to keep the stopper pin (172) is caught when closing. The tip of the stopper pin 172 is rotated at the same time as the rotation axis of the motor 120 when the damper 110 is opened by the motor 120 at the tip of the plunger 152 of the solenoid 150. Ventilation damper device characterized in that the inclined portion (152a) is formed so that the ride over. According to claim 1, wherein both ends are rotatably mounted to the damper body 100 via a hinge portion 182, and one end is disposed to face the plunger 152 of the solenoid 150, and the other end has a locking piece. The provided sisoba 180 and the other end of the sisoba 180 is held in the center of the hinge portion 182 so that one end of the sisoba 180 is oriented in the plunger 152 of the solenoid 150. Ventilation damper device characterized in that it comprises a spring 190 to be pushed to.

Images