Chimney damper

Abstract

A chimney damper for round flues that includes a rigid peripheral frame surrounding an open window area, a cap moveable toward and away from the open window to selectively close and open the same and springs interconnecting the cap and frame resiliently urging the cap to an open position. The square, rectangular, or round frame includes a shirt adapted to form or connect to a cylindrical base which comprises a round open window and thus can be configured for use on a round flue. The springs are preferably torsion springs and are located within the cap assembly and the open window area defined by the peripheral frame. The cap is guided during its movement toward and away from the frame by the springs and during such movement the cap rotates a partial turn relative to the frame to which it is connected by the springs.

Description

TECHNICAL FIELD OF INVENTION

This invention relates generally to a spring biased chimney damper including locking mechanism and more particularly to improvements thereto.

BACKGROUND OF INVENTION

The application incorporates by reference Applicant's U.S. Pat. No. 7,422,519 which issued on September 2008 and published as publication US 2005/0250433 on Nov. 10, 2005 from application Ser. No. 11/080/355 filed on Feb. 17, 2005 and claims priority from U.S. application Ser. No. 10/927,783 filed on Aug. 27, 2004, now abandoned.

The prior art shows various type of dampers without and without spring means to hold the cap away from the frame in or on the chimney flue when not in use. For instance, U.S. Pat. No. 5,125,869 granted on Jun. 30, 1992, and U.S. Pat. No. 5,556,329 granted on Sep. 17, 1996 disclose a conventional spring biased chimney damper.

Typically, these prior art devices include a frame defining an open window area, a cap for selectively covering and uncovering the open window area, and spring means inter connecting the cap and frame and biasing the cap to it's open position. The springs are multi-component and connected to the frame outside of the window area. There may be a poorly designed alignment means to align the cap over the window opening as it is operative only the final phase of it's movement to the closed position. No means is provided for selectively adjusting the spacing between the cap and the frame in the cap open position.

Some chimney dampers include a lock mechanism to keep the damper in an open position in case of a chimney fire comprising a fusible link connected to spring means and in case of over heating, due to for example a chimney fire, the link melts causing the spring to move into a position in which it locks the cap in an open position. This fusible link must be replaced after each occurrence of overheating and because of the in use position of the damper on top of the chimney it is difficult to replace.

Moreover, some chimney damper embodiments require that the cap turn a quarter turn during each of the closing and opening movements. In another embodiment, the cap does not rotate and is captive in an outer skeleton frame limiting movement of the cap to reciprocal movement only wherein the spring system is connected to a plate that can move reciprocally on a shaft as well as rotate on that shaft.

SUMMARY OF THE INVENTION

The chimney damper disclosed in the present invention includes a rigid peripheral frame surrounding an open window area corresponding generally to that of an end of the flue having a square, rectangular, or round shape. The frame includes a shirt extending inwardly therefrom adapted to form or connect to a cylindrical base which comprises a round open window and thus can be configured for use on a round flue. A cap is included for covering the open window area. A round plate connecting to the bottom of the cap is interposed between the cap and the frame base. Spring means interconnecting the frame base and plate causes the plate to rotate relative to the frame base during opening and closing of the damper. The spring means biases the plate and cap connected thereto in a direction away from the frame base to a window open position. The cap is movable toward the frame against a spring bias to overlie and thereby close the open window area. Means pivotally interconnecting the cap and the plate are included together with means preventing rotation of the cap relative to the frame base when the cap is moved toward and away from the frame base during respectively closing and opening of the damper.

An object of the present invention is to provide an improved means that prevents rotation of the cap while the cap is being moved from one to the other of an open and closed position.

A further object of the present invention is to provide a means as described above while at the same time avoiding the use of an external frame for guiding the cap during it's movement toward an open and closed position.

Another object of the present invention is to provide an improved means for maintaining alignment of the cap outer downwardly directed peripheral flange with the upwardly directed outer peripheral flange on the chimney flue mounting flange.

An object of the present invention is to provide an improved spring arrangement biasing the cap to an open position.

A further object is to provide a spring arrangement which is self guiding and requires no additional guide means for aligning the cap over the open window area of the frame.

Another object of the present invention is to provide a chimney damper for use on round flues.

Another object of the present invention is to provide a chimney damper which is inexpensive and easy to manufacture with relatively few moving parts.

In keeping with the forgoing there is provided a flue damper comprising: a rigid peripheral frame surrounding an open window area, said open window area being round, a round cap for covering said open window area, said cap being large enough to receive the round portion of said rigid peripheral frame, and spring means connecting said cap assembly to said frame, said spring means being located within said open window area and biasing said cap assembly in a direction away from said frame to a window open position, said cap assembly being forceably movable against said resilient bias toward said frame to overlie and thereby close said open window, and wherein said spring means includes at least three torsion spring members biasing said cap assembly from said window frame and capable of guiding said cap assembly to close said window without further guide means.

More particularly, the chimney damper of the present invention includes a rigid first peripheral frame surrounding an open window area, a cap including a plate of slightly smaller diameter nested or affixed to the underside of the cap, wherein moveable of the plate and cap toward and away from the open window to selectively close and open the same is accomplished by a plurality of springs interconnecting the plate with a base of the frame resiliently urging the cap to an open position. One end of the springs are connected to the bottom or sides of the plate and the other ends of the springs are attached to the base of the frame. The cap is mounted on the plate and allowed to pivot relative to the cap. The springs and the arrangement thereof are such as to cause the plate to rotate relative to the frame base during opening and closing of the damper with the rotation being about one quarter turn. An articulated link interconnects the frame base and coupling between the plate and the cap so as to prevent pivoting of the cap when moving the cap from one to the other of an open and a closed position.

Other objects, features, and advantages of the invention will be apparent with the following detailed description taken in conjunction with the accompanying drawings showing a preferred embodiment of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

A better understanding of the present invention will be had upon reference to the following description in conjunction with the accompanying drawings in which like numerals refer to like parts throughout the several views and wherein:

FIG. 1 is a perspective front view of a chimney damper showing the cap connecting to the base and peripheral frame;

FIG. 2 is a perspective front view of the chimney damper of FIG. 1 showing a plate affixed to the underside of the cap and the ends of the springs extending from the frame base and extending to the plate;

FIG. 3 is a perspective upper view showing a top of the plate with the cap removed and exposing the hidden torsion spring portions;

FIG. 4 is a perspective view without the cap and showing the damper in a partially closed condition whereby the plate is rotated with respect to the frame base and compressed thereby;

FIG. 5 is a side view of the spring attachment and stop lug;

FIG. 6 is an oblique view of a torsion spring; and

FIG. 7 is a perspective view of a torsion spring of a chimney damper configured to fit a round flue.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

As best illustrated in FIGS. 1 and 2 a preferred embodiment of the chimney damper 10 comprises a frame 20 having a peripheral lip extending along a edge thereof for mounting to a brick or concrete or metal flue pipe or chimney. A flange of skirt 25 extends from the peripheral edge of the frame 20 connecting to a short cylindrical base 23 extending upward therefrom sized in accordance with the flue pipe. The damper frame 20 includes an open window area 21 that is selectively opened and closed by moving a cap 30 upward or downward respectively away from and toward the frame 20. As shown, frame 20 has a peripheral flange 24 configured to fit onto a square flue. The cap 30 is connected to a disk or plate 46 by a screw 34 extending from the bottom surface of the cap 30 which is inserted through a center hole of the plate and secured there through by a nut 32. The plate or disk 46 is connected to frame 20 by a plurality of spring means 40 which are attached to the sides or bottom of the plate 46 and to the short cylindrical base 23 extending upward from a flange or skirt 25 adapted for connecting the peripheral frame 24 to the base 46 in order to biase the cap to it's open position. The cylindrical base 23, shirt 25 and peripheral frame 24 can be formed as individual members affixed together by welding, rivets, screws, or a friction fit; however, the unit can easily be formed as an integral one piece design from a pressed or molded part.

As shown in FIGS. 3 and 5, cap 30 has been removed from disk 46. Spring means comprises a plurality of torsion springs 40. As shown in the preferred embodiment four wire torsion springs 40 are employed, each one consisting of three arm portions 41, 42, 43 and a coiled portion 44 at one end. The arm portion 43 of the spring 40 is pivotally anchored to frame base 23 by a coiled portion 44. The coiled portion 44 is held by a pin 22 secured to frame base 23 and projects into an open window area 21. The coiled portion 44 of the spring 40 is held between two washers 60. Bracket 56 is fastened to frame 20 by pins 22 and 62. Lug 58 on bracket 56 acts as a stop for arm 43 preventing it from rotating up to a perpendicular attitude when damper 10 is open. Therefore, lug 58 keeps arm portion 43 biased toward a closing attitude so that when the plate 46 and cap 30 is first urged toward frame 20, it starts smoothly rotating in a controlled manner in a clockwise direction as viewed from above.

The spring means 40 comprises four equal spaced wire springs 41 each having one of the opposite ends thereof fitting into an elongate sleeve secured to an inside corner of the frame base 23 and a stub leg at the other end that projects into and passes though a hole and is pivotally connected to a plate 46. Means for holding such as a ‘C’-clip (or pressed on tight fit washer or the like) on the outer end of the leg such as is illustrated in FIG. 4, keeps the leg and coupling inter-connected. An enlargement at the end such as a cap nut or the like retains the post on the cap member and a loose connection allows the post to oscillate during opening and closing of the damper. The other end of the post has the previously described through hole transverse to the axis of the post or alternatively a slot into which the end of the spring can project and loop around a pin.

The wire springs bend and lie between the cap 30 and frame base 23 when the damper is in it's closed state. To accomplish this it is necessary for the plate 46 to rotate a partial turn, (approximately one quarter turn), relative to the frame. The cap is mounted on the plate 46 by a coupling means and allowed to rotate with the plate 46; however, the cap 30 can be prevented from rotating with the plate 46 by use of a rotation preventing link connecting at one end thereof to the frame base 23 and at the other end to the coupling means. Use of a biasing mechanism to prevent rotation of the cap 30 with respect to the plate 46 of the chimney damper 10 provides an embodiment suitable for use with rectangular chimney openings. Moreover, the device can be modified for use with hexagonal, octagonal or other unusually shaped chimney openings.

Opening and closing the damper is accomplished by rotation of the plate 46 and compression of the springs and lowering the cap toward the frame base 23. The pin 64 is attached to the bottom surface of the plate 46. The cable 68 is attached to the pin 64 at its upper free end and extends down through the flue and into the upper fireplace where a handle 66 is connected at its lower free end. Thus, a user can pull handle 66 to close or reduce the volume of the damper 10. In its open position, when damper 10 is closed by pulling handle 66, the arms 43 will be urged in a downward direction from a near vertical position toward a horizontal position which causes the plate 46 to rotate in a clockwise position and cap descend toward the frame base 23.

The cap may optionally utilize a seal means for example maybe a “U”-shape rubber, or the like gasket member 27 that fits onto the upper edge of the flange at the top of the frame base 23. It provides sealing contact with the under face of the cap when the latter is in it's closed position covering the open window of the frame. Obviously the gasket could be made of suitable material such as graphite, silicon, soft metal, or synthetic polymer materials to withstand heat that would be encountered even when a chimney fire occurs.

It is contemplated that cable 68 could be replaced with a chain, rod or any other attachment means appropriate for pulling cap 30 toward frame 20.

As shown best in FIG. 3, the spring arm portion 43 forms an approximate right angle to the torsion arm portion 42. It is not necessary that this be a right angle, but it must be an angle that allows rotating arm 43 to twist and therefore apply a torque to arm portion 42. Likewise, torsion arm portion 42 forms an approximate right angle with stop arm portion 41. And similarly, it is not necessary that this be a right angle, but it must be an angle that allows arm portion 41 to prevent torsion arm portion 42 from turning freely.

Arm portions 42 and 43 of spring 40 are pivotally attached to the plate 46 by a block 53 disposed on the upper surface close to the outer edge along the periphery of the plate. Each one of the arm portions 42 and arm portions 41 are attached to a respective block 51 evenly spaced apart from one another along the periphery of the plate 46. As the pin 64 is pulled toward frame 20, arm 43 is rotated toward frame 20 because coil portion 44 rotates around pin 22. This rotating motion causes torsion arm portion 42 to twist because arm portion 41 prevents arm 42 from rotating in blocks 51 and 53. Therefore a torsion effect is realized within arm portion 42, which acts as a torsion spring.

It is contemplated that blocks 51-54 may be replace with U-brackets, eyelets screws or any other suitable means that can pivotally attach spring portions 41-43 to disk 46.

As shown in FIG. 4, all four springs 40 react in the same way and therefore guide disk 46 and cap 30 down to frame 20 in a rotating manner.

Other embodiments could use three, five or more evenly spaced torsion springs to bias the cap assembly above the frame. Also, note that with the torsion springs evenly spaced and pivotally connected to the frame as shown, no other guiding means is necessary. The springs keep the damper cap in alignment as it is urged down onto the window frame.

Frame 20 is shown in FIGS. 1-4 in a configuration wherein a round window 21 has been configured within frame 20 which fits a square flue. Another embodiment contains a frame which is configured to fit a rectangular flue. The chimney cap maybe manufactured in rectangular or square configurations that fit conventional flues of the following nominal sizes: 8″×8″; 8″×17″; 9″×13″; 13″×13″; 13″×18″; 18″×18″ or any size circular flue as well.

Still another embodiment, shown in FIG. 7, contains a frame with flange 26 which is configured to fit a round flue.

The foregoing detailed description is given primarily for clearness of understanding and no unnecessary limitations are to be understood therefrom, for modification will become obvious to those skilled in the art upon reading this disclosure and may be made upon departing from the spirit of the invention and scope of the appended claims. Accordingly, this invention is not intended to be limited by the specific exemplification presented herein above. Rather, what is intended to be covered is within the spirit and scope of the appended claims.

Claims

1. A flue damper comprising: a frame comprising a square peripheral edge surrounding an open window area, said open window area being round;a round cap assembly for covering said open window area, said cap being large enough to receive the round portion of said rigid peripheral frame;means for urging said cap assembly toward said peripheral frame; andspring means connecting said cap assembly to said frame, said spring means being located within said open window area and biasing said cap assembly in a direction away from said frame to a window open position, said cap assembly being forceably movable against said resilient bias toward said frame to overlie and thereby close said open window.

2. The flue damper as defined in claim 1 wherein said spring means includes at least three torsion spring members biasing said cap assembly from said window frame and capable of guiding said cap assembly to close said window without further guide means.

3. The flue damper as defined in claim 2 with said torsion springs having a coiled portion pivotally connected to said frame, said coiled portion having a rotating arm extending therefrom, said rotating arm having a torsion arm extending at an approximate right angle therefrom, said torsion arm having a free outer arm extending at an approximate right angle therefrom, means connecting said free outer arm to said cap assembly, and means rotatably connecting said torsion arm to said cap assembly.

4. The flue damper as defined in claim wherein a lug mounted next to said coiled portion of said torsion springs biases said rotating arm portion of said torsion springs towards a closed attitude when said cap assembly is released to a fully open position.

5. The flue damper as defined in claim 3 wherein said cap assembly comprises a disk connected to a cap, said disk containing means connecting said free outer arm to said cap assembly, and means rotatably connecting said torsion arm to said cap assembly.

6. The flue damper as defined in claim 1 wherein said frame is configured to be attached to a square flue.

7. The flue damper as defined in claim 1 wherein said frame is configured to be attached to a rectangular flue.

8. The flue damper as defined in claim 1 wherein said frame is configured to be attached to a round flue.

9. The flue damper as defined in claim 1 wherein said urging means comprises a cable and handle combination, said cable having a first free end connected to said cap assembly and a second free end connected to said handle.

10. The flue damper as defined in claim 1 wherein said urging means comprises a chain and handle combination, said chain having a first free end connected to said cap assembly and a second free end connected to said handle.