JP2549134Y2 - damper - Google Patents

Description

[Detailed description of the invention] "Industrial application field" This invention is installed in air-conditioning ducts of buildings such as buildings and used for air-conditioning control during normal times, and closes or opens when a fire occurs. In a damper, the present invention relates to a damper that can switch and operate each operation of the damper.

2. Description of the Related Art Generally, in a building such as a building, in the event of a fire, the inside of the duct must be immediately closed in order to prevent hot wind, smoke and the like from spreading through the duct and spreading. Or, it must be opened to discharge smoke and gas generated by a fire to the outside air. For this reason, such a duct is provided with a damper for air-conditioning control and a damper for automatically closing or opening the inside of the duct in the event of a fire.

The damper has a damper casing installed in the middle of the duct, a blade rotatably provided inside the damper casing, and an actuating mechanism for driving the blade to rotate and control the air volume or closing or opening the duct, A temperature fuse device is provided in the damper casing and detects a rise in temperature and operates an operation mechanism at a temperature equal to or higher than a set temperature.

[Problem to be Solved by the Invention] However, in the above damper, the damper connected to the air conditioning duct that normally performs air conditioning is an air conditioning damper for air conditioning control, a fire protection damper that closes in the event of a fire, and In order to discharge smoke and gas from the fire to the outside air, a separate smoke exhaust damper had to be installed.

In addition, in the case of a halon fire extinguishing facility, the fire damper installed outside the protective compartment remains closed when the thermal fuse device is activated, and is restored after the fire is extinguished. Also, the fire damper installed in the protection compartment cannot be restored by obtaining the thermal fuse device when the thermal fuse device is activated because the halon digestion gas becomes toxic gas due to the fire, so the thermal fuse device must be restored. If not, the fire protection damper must be restored by remote control. In some cases, a damper used on the air supply side in a smoke exhaust damper or the like does not need to operate with a temperature fuse device. Conventionally, dampers for various applications are connected to the duct according to their functions.

This invention was made in view of the above circumstances, and in normal times it was used as an air conditioning damper, in the event of a fire, as a fire protection damper or smoke exhaust damper, and the temperature inside and outside the protection compartment of the Ha Long fire extinguishing equipment. It is an object of the present invention to provide a dual-purpose damper capable of performing a manual recovery operation and a remote recovery operation of a fuse device by switching with a simple structure.

[Means for Solving the Problems] This invention is based on a damper casing connected between ducts, blades rotatably supported inside the damper casing, and rotating the blades to form a gap between the ducts. A damper provided with an operating mechanism for closing or releasing, a temperature fuse device provided in the damper casing to detect a rise in temperature and operating at or above a set temperature, and a driving means for adjusting the opening of the blade when the duct is used In the above, the operating mechanism may include a clutch mechanism for cutting off transmission of the axial force from the driving means by a clutch, and turning the blade in the closing or opening / closing direction when the transmission of the axial force from the driving means of the clutch mechanism is cut off. A spring to be urged and actuating the clutch mechanism such that transmission of axial force from a driving means is interrupted when the thermal fuse device is actuated. Operating mechanism, wherein the clutch mechanism is an operated member that is pressed and moved in a predetermined direction by the operating mechanism, and connects the operated member and the clutch to move the operated member in the predetermined direction. Connecting means for moving the clutch in a direction in which transmission of the axial force from the driving means is interrupted; and a clutch connected to the connecting means by pressing and moving the operated member moved in the predetermined direction to return to the original position. Restoring means for moving the clutch mechanism in a direction in which the transmission of the axial force from the driving means is connected, and the operating mechanism is provided rotatably and is actuated when the motor is turned by a predetermined angle. An operating member for pressing the operating member to move the operating member in the predetermined direction; a spring for urging the rotated operating member to return to the original position; A sliding piece that slides toward the operating piece and rotates the operating piece when the sliding operation is performed, and the sliding piece comes into contact with the operating piece when the sliding piece slides by a predetermined amount. Support in the moving state, and
When the slide piece slides beyond a predetermined slide amount, the operation part gets over and releases the support of the rotation state of the operation piece, and the slide amount is equal to or more than the predetermined slide amount or the predetermined slide amount. A regulating means for regulating the amount to one of the predetermined amounts.

According to this invention, when the amount of slide of the slide piece is set to the predetermined slide amount by the regulating means, the temperature fuse device operates in the event of a fire and the slide piece slides by the predetermined slide amount. By doing so, the clutch mechanism operates via the operating piece, the operated member, and the connecting means, thereby cutting off the axial force from the driving means and operating the operating mechanism, and closing or opening the blade by the spring in the closing direction. It turns and the space between the ducts is closed or opened.
In this state, the operation piece is supported in a rotating state,
The operated member cannot be moved by the restoring means, and the damper remains in operation and is not restored.

On the other hand, when the slide amount of the slide piece is changed by the regulating means so as to exceed the predetermined slide amount, when the slide piece slides beyond the predetermined slide amount, the operation piece slides. Since the operating member is returned to the original position by overcoming the operating member, the operating member is released from the pressing of the operated member, and the restoring means can be operated to return the operated member to the original position. When the blade is restored, the blade can be restored to the set opening again (the damper is restored), and the duct can be used again.

"Example" Hereinafter, an example of the present invention will be described with reference to the drawings.

1 to 6 show an embodiment of the present invention, wherein reference numeral 1 denotes a damper.

As shown in FIG. 6, the damper 1 is rotatably supported via a rotating shaft 3 inside the damper casing 2 with a rectangular tubular damper casing 2 connected between the ducts 30. It is mainly composed of a blade 4 and an operating mechanism 7 for rotating and driving the blade 4 to close or open the space between the ducts.

As shown in FIGS. 1 and 2, the operating mechanism 7 includes a motor 8 attached to a unit U attached to the damper casing 2 and a speed reduction gear connected to a drive shaft 9 of the motor 8 and formed of a spur gear train. A mechanism 10 (only some spur gears are shown in FIGS. 1 and 2) and an output shaft 11 that transmits the driving force of the motor 8 to the rotating shaft 3 of the blade 4 via the speed reducing mechanism 10. Provided driving means is provided. Further, the deceleration mechanism 10 is provided with a clutch mechanism 12 shown in FIG. 3 for interrupting the axial force. Further, one end (lower side in FIG. 2) of the output shaft 11 A coupling 13 for connecting the shaft 3 is mounted, and a spring 13a for urging the blade 4 in the closing or opening direction when using the duct is built in the coupling 13. Note that reference numeral 1
Reference numeral 4 denotes a pointer for displaying the rotation angle of the output shaft 11, that is, the rotation angle of the blade 4.

According to the damper having the above configuration, the rotation of the motor 8 is reduced by the speed reduction mechanism 10 by driving the motor 8, the rotation shaft 3 is rotated through the output shaft 11 by a predetermined angle, and the blade 4
Can be set to the target opening.

Further, by operating the clutch mechanism 12, the blades 4 are driven to rotate by the action of the urging force of the spring 13a, and the space between the ducts is closed or opened. The clutch mechanism 12 is a device that disconnects a gear clutch (clutch) 15 from a gear train in the speed reduction mechanism 10 to interrupt transmission of the axial force from the motor 8, and as shown in FIG. 10 gear clutches 15
, A link mechanism (connecting means) 17 pin-connected to the upper end of the shaft 16, a spring 20 for keeping the gear clutch 15 in the normal gear train, and a shaft center of the operating solenoid 18. A solenoid pin (operated member) 22 that is connected to the member 18a and the link mechanism 17 and is pressed and moved in a direction in which the link mechanism 17 is in a linear state (that is, a direction in which the gear clutch 15 is separated from the gear train); And a recovery solenoid 19 for returning the gear clutch 15 to the gear train via the link mechanism 17 by pressing and moving the solenoid pin 22 that has been provided.

The operating solenoid 18 is connected to the temperature fuse device 6.
The guar clutch 15 is electrically connected to a smoke detector or the like provided separately from the gear train and separated from the gear train via a link mechanism 17 independently of the temperature fuse device 6.

The operating mechanism 7 includes an operating mechanism 21 for operating the clutch mechanism 12 by operating the thermal fuse device 6 shown in FIG.
Is provided. This operating mechanism 21 is provided with a solenoid pin
It comprises a rotatable operation piece 23 for moving the shaft member 18a of the operation solenoid 18 by operating the operation solenoid 22, and a slide piece 24 for operating the operation piece 23 by operating the temperature fuse device 6. The operation piece 23 is supported by a shaft pin 26 on the flat plate 25, is rotated against the return force of the spring 27, and presses and moves the solenoid pin 22 by the operation part 23a on the front surface. . The slide piece 24 is slidably attached to the side surface of the flat plate 25 via a spring. When the duct is used, the slide piece 24 is locked rearward by the thermal fuse device 6 via the locking piece 24a. 6
Is provided with a convex operation portion 24b that presses the pressing portion 23b of the operation piece 23 when the operation is performed. As shown in FIG. 2, a long hole 24c is formed in the slide piece 24 in the longitudinal direction.
By appropriately changing the position of the mounting screw (restriction means) 28 attached to the side surface of the flat plate 25 through the
The slide amount can be changed. The mounting screw 28 can be mounted at each of the positions 28a and 28b in FIG. 2, and the following two modes can be separately set.

That is, when the mounting screws 28 shown in FIG. 2 is located in 28a, the sliding amount as shown in FIG. 4 of the slide piece 24 1 ₁
After the temperature fuse is actuated, the operating portion 24b of the slide piece 24 after sliding is at a position where the operating piece 23 is pressed, and the operating piece 23 is at a position where the solenoid pin 22 presses and moves (FIG. 4). In this position, the operation solenoid 18 is fixed in the same state as when it is operated. That is, the gear clutch
15 is disengaged from the gear train of the speed reduction mechanism 10,
Since the solenoid pin 22 is in the pressed state, the restoration of the clutch mechanism 12 (that is, the restoration of the fire prevention damper 1) is disabled even by the restoration solenoid 19.

On the other hand, if the mounting screw 28 shown in FIG. 2 is the position of 28b, the slide amount of the slide piece 24, as shown in FIG. 5, the a predetermined sliding amount 1 ₁ or more slides of 1 _2, The operation part 24b of the slide piece 24 once contacts the pressing part 23b of the operation piece 23 to rotate the operation piece 23, and the operation part 2
3a is located at a position over the operation piece 23 after pressing and moving the solenoid pin 22 (FIG. 5).
Since the spring 23 returns to the original position by the spring 27, the pressing on the solenoid pin 22 is released, and as a result, the restoration solenoid 19 allows the clutch mechanism 12 to be restored,
The damper 1 can be restored. At this time, the solenoid pin 22 is also returned to the original position by the recovery solenoid 19 (FIG. 5).

The operation of the damper 1 configured as described above is as follows.

When the duct is used, the temperature fuse device 6 does not operate, so that the damper 1 does not operate, and the blade 4 is at the normal set opening position and performs normal air conditioning and exhaust functions.

In the damper 1 outside the halon digestion protection section, the mounting screw 28 is screwed into 28a in FIG. 2, and in this case, the temperature fuse device 6 is operated, and the slide piece 24 is slid by return of the spring. (Slide amount 1 ₁ ),
The operation piece 23 is rotated (FIG. 4), the shaft member 18a of the operating solenoid 18 is moved via the solenoid pin 22, the clutch mechanism 12 is operated, and the speed reduction mechanism 10 and the gear clutch 15 shown in FIG. Are separated from each other, whereby the return of the spring 13a causes the blade 4 to rotate in the closing direction and close the gap between the ducts. In this state, further sliding of the slide piece 24 is regulated by the slide piece 24, and the position of the shaft member 18a of the operating solenoid 18 is maintained. Restoration cannot be performed, and the damper 1 blocks the ducts during fire extinguishing. To enable recovery, a thermal fuse is set in the thermal fuse device, and the holding piece 24a of the slide piece 24 in FIG. 1 is locked to the thermal fuse device 16 so that the operating piece 23 returns to its original position by the spring 27. Since the movement of the solenoid pin 22 is free, it can be restored.

On the other hand, in the damper 1 which is in protected compartment, a mounting screw 28 advance by screwing the 28b in the figure is set to the amount of sliding of the slide piece 24 to 1 _2. In this case, at the time of the fire, the thermal fuse device 6 is activated at the same time, and the slide piece 24 is activated.
Slides due to the return of the spring (slide amount
1 _2), in its course of sliding amount 1 ₁ by rotating the operation lever 23, as well as the blade 4 that described above closes the inter-duct. When the slide is further moved, the operation section 24 of the slide piece 24 is moved.
b moves over the pressing portion 23b of the operation piece 23, and the engagement with the operation piece 23 is released. Therefore, the operation piece 23 returns to the original position by the spring 27 (FIG. 5), and the clutch mechanism is operated by the recovery solenoid 19. 12 remote recovery is possible.

Thus, in this embodiment, by setting switching slide amount of the slide piece 24 to any one _1, 1 _2, to allow the switching of the operation and recovery of the clutch mechanism 21 by the recovery solenoid 19, the As a result, the operation of the damper 1
Each operation of the recovery can be switched and performed.

"Effects of the invention" As described in detail above, according to the damper of the invention, the damper casing connected between the ducts, the blade rotatably supported inside the damper casing,
An operating mechanism for rotating and driving the blades to close or release between the ducts, a temperature fuse device provided in the damper casing to detect a temperature rise and operate at a set temperature or higher, and an opening degree of the blades when the duct is used And a drive mechanism for adjusting the force, the operating mechanism comprises a clutch mechanism for cutting off transmission of the axial force from the drive means by a clutch, and interruption of the transmission of the axial force from the drive means of the clutch mechanism. A spring for energizing the blades in the closing or opening / closing direction during operation, and an operating mechanism for operating the clutch mechanism such that transmission of axial force from driving means is interrupted when the temperature fuse device is operated, The clutch mechanism includes an operated member that is pressed and moved in a predetermined direction by the operating mechanism, and an operated member that connects the operated member and the clutch. A coupling means for moving the clutch in a direction in which the transmission of the axial force from the driving means is interrupted when the operating member is moved in the predetermined direction; and a pressing member for moving the operated member moved in the predetermined direction to the original position. And return means for returning the clutch mechanism by moving the clutch connected to the connecting means in the direction in which the transmission of the axial force from the drive means is connected, and the operating mechanism is rotatable. An operation piece for pressing the operated member to move in the predetermined direction when the operation piece is rotated by a predetermined angle; a spring for urging the rotated operation piece to return to the original position; and a slide. A sliding piece that is provided freely and slides toward the operating piece when the temperature fuse device is operated, and that rotates the operating piece. The sliding piece has a predetermined sliding amount. In this case, the operating piece comes in contact with the operating piece and is supported in a rotating state, and when the sliding piece slides beyond a predetermined sliding amount, the operating piece gets over and releases the support of the rotating state of the operating piece. Since the operation unit and the regulating means for regulating the slide amount to the predetermined slide amount or the predetermined amount equal to or larger than the predetermined slide amount are provided, it is possible to easily switch each operation of the operation and the recovery of the damper. Thus, a damper having such a switching function can be provided with a simple structure.

[Brief description of the drawings]

Figure 1 is a plan view showing a main part of the damper, FIG. 2 is a side view thereof, FIG. 3 is a side view showing a clutch mechanism, the operation when FIG. 4 is obtained by setting the slide distance of the slide piece 1 ₁ actuating view of mechanism, Fig. 5 operation view of the operating mechanism in the case of setting the amount of sliding of the sliding piece 1 _2, FIG. 6 is an overall view of the damper. 1 damper, 2 damper casing, 4 blades,
5 ... operating mechanism, 6 ... temperature fuse device, 7 ... driving means, 8 ... motor, 12 ... clutch mechanism, 18 ... operating solenoid, 19 ... restoring solenoid (restoring means), 21 ...
... Operation mechanism, 22 ... Solenoid pin (operated member), 23
…… Operation piece, 24 …… Slide piece, 24b …… Operation section, 1 ₁ , 1
₂ …… Slide amount.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Masakuni Tamura 617 Miebuki, Nobashi, Chiba Pref.Hie Kiki Co., Ltd. Inside the company Noda factory (72) Inventor Kozo Aida Mebuki 617, Noda-shi, Chiba Hie Machinery & Equipment Co., Ltd. Hiroshi Yoshikawa 11-4 Aobadai, Midori-ku, Yokohama-shi, Kanagawa

Claims (1)

(57) [Scope of request for utility model registration] A damper casing connected between the ducts, a blade rotatably supported inside the damper casing, an operation mechanism for rotating the blade to close or release a gap between the ducts, In a damper provided in the damper casing and detecting a temperature rise and operating at or above a set temperature and a driving unit for adjusting an opening degree of a blade when a duct is used, the operating mechanism includes a clutch. A clutch mechanism for cutting off the transmission of the axial force from the driving means, and a spring for urging the blades to close or open and close in the opening and closing direction when the transmission of the axial force from the driving means of the clutch mechanism is interrupted.
An operating mechanism for operating the clutch mechanism so that transmission of axial force from driving means is interrupted when the thermal fuse device is operated, wherein the clutch mechanism is pressed and moved in a predetermined direction by the operating mechanism. An operating member, connecting means for connecting the operated member and the clutch, and moving the clutch in a direction in which transmission of axial force from the driving means is interrupted when the operated member is moved in the predetermined direction; The operated member, which has been moved in the predetermined direction, is pressed and moved back to the original position, and the clutch connected to the connecting means is moved in the direction to which the transmission of the axial force from the driving means is connected to return the clutch mechanism. An operating piece that has a restoring means, and the operating mechanism is provided rotatably and presses the operated member to move in the predetermined direction when rotated by a predetermined angle; A spring for rotating and urging the moved operation piece to return to the original position; and a slidably provided spring that slides toward the operation piece when the temperature fuse device is operated to rotate the operation piece. When the slide piece slides over a predetermined slide amount, the slide piece comes into contact with the operation piece and is supported in a rotating state, and when the slide piece slides beyond a predetermined slide amount. An operation unit for releasing the support of the rotating state of the operation piece by the operation piece climbing over, and a regulating means for regulating a slide amount to either the predetermined slide amount or a predetermined amount equal to or more than the predetermined slide amount. A damper characterized by being made.