US2665683A - Thermally controlled fireplace damper - Google Patents

Description

Jan. 12, 1954 w. B. SNOOK THERMALLY CONTROLLED FIREPLACE DAMPER Filed Oct. 5, 1948 w vewron WALTER a. JNOOK A TTOR/VEY Patented Jan. 12, 1954 THERMALLY CONTROLLED FIREPLACE DAM Walter B. Snook, Palo Alto, Calif., assignor to W. B. Snook Mfg. 00., 1110., Palo Alto, Calif., a

corporation of California Application October 5, 1948, Serial No. 52,849

6 Claims.

This invention relates to thermo-responsive control devices possessing high sensitivity and high torque characteristics, and more particularly to such thermo-responsive control devices as are capable of releasing fireplace dampers and the like directly and without the use of auxiliary servo mechanism or external sources of power.

Efforts have heretofore been made to minimize fire hazards and prevent excessive smoking in fireplaces and other types of conventional heating systems by the use of automatic dampers and similar regulating devices. Most of the thermostatic control devices heretofore used either do not possess the power or sensitivity required for such applications, or employ complex control mechanisms which are relatively expensive to produce and which must be frequently inspected and adjusted in service. Moreover, such conventional thermostatic control devices usually are dependent upon a continuous source of electric power or other external power source for their operation, with the result that such control mechanisms cannot always be relied upon, particularly in instances in which suitable sources of external power are temporarily or permanently unavailable.

It is therefore an important object out this invention to provide a thermostatic control means for a fireplace damper or the like which is not dependent for its operation upon a continuous source of electrical power or other external source of energy.

It is another object of the instant invention to produce a highlysensitive thermostatic control device which is capable of developing sufficient power to directly release a fireplace damper or similar draft regulating device without the necessity of providing auxiliary servo units or relays.

It is also an object of the present invention to provide a thermostatic control means having high torque characteristics and which is quickly responsive to relatively small thermal changes.

A still further object of the instant invention is to provide a thermostatically responsive control device possessing high sensitivity and relatively large power output, which at the same time is light in weight, easily inspected, and readily adjusted without the employment of more than ordinary mechanical skill.

It is another object of this invention to produce a highly sensitive thermostatic control of relatively simple design, :for use in heating systems and the like, which is not adversely affected in its operation by prolonged exposure to heated 2 combustion products, and which at the same time can be readily constructed in quantity at a low price.

Further objects are to provide a construction of maximum simplicity, economy, and ease of assembly and disassembly, and such further objects, advantages, and capabilities as will fully appear and as are inherently possessed by the device and the invention described herein.

The invention further resides in the combination construction and arrangement of parts illustratecl in the accompanying drawings, and While there is shown therein a preferred embodiment thereof, it is to be understood that the invention is capable of modification and change and comprehends other details of construction Without departing from the spirit thereof or the scope of the appended claims.

Referring to the drawings:

Figure 1 is a perspective view of the complete damper assembly, showing the damper in the fully closed position.

Figure 2 is a cross sectional View showing, by means of the dotted and solid lines appearing thereon, the damper of Figure 1 in the open and closed positions, respectively.

Figure 3 is a rear elevational view to an enlarged scale showing the thermostatic control means in the normally closed position.

Figure 4 is a rear elevational view of the thermostatic control means in the fully released or open position.

Referring now more particularly to the drawing, in which like reference numerals indicate like parts in the several views, there is shown an unbalanced damper plate [0 disposed above a fireplace l l, the damper l0 being adapted upon release to move under the influence of gravity to an open position, thereby communicating with the chimney l2 the enclosure l2 formed by the two spaced apart end members l5 and the front and rear members l3 and [4, respectively.

The damper plate II] has disposed along its upper edge l6, in a position parallel to but spaced apart a predetermined distance from the geometric axis thereof, a rod ll of slightly greater length than the long edge of the damper plate. The rod I! is permanently afiixed to the upper surface [6 of the damper ID by conventional means, such as the welded strap It, the end portions I9 of the rod l1 projecting transversely across the upper edges 20 of the end members 15. The ends 19 of the rod I! are journaled in bearing blocks 21 secured to the upper edges 20 of the members 15; thus the blocks 2| pivotally support the unbalanced damper 10 for free turning movement about the rod I! as an axis.

Secured to the lower surface 22 of the unbalanced damper in in a position adjacent to the rear member [4 is a bracket 23 pivotally attached by the pin 26 to the upper end of a control arm 24. The control arm 24 extends through a flap or aperture 21 formed in a vertical plate 28 supported on the front member l3 by the wedge 31. The notches 29 and 29' formed in the lower edge of the arm 24 are adapted to coact with the edge 53 of the aperture 2'! to retain the unbalanced damper it] in the fully closed or open positions respectively. A handle 30 is formed on the free extremity of the control arm 24, and the weight of the arm assists the unbalanced damper it in moving from the closed to the open position under the influence of gravity whenever the notch 29 becomes disengaged with the coacting edge 43 of the aperture 2'1.

The thermostatic control means for releasing the unbalanced damper [0, indicated generally at 35, is shown in the closed and open positions in Figures 3 and 4, respectively. Pivotally supported along the lower extremity of the plate 28 by the pin 36 is a lever 37 having a horizontally disposed lower arm 38 and an upwardly directed vertical arm 39. The lower arm 38 carries a roller 40 attached by the screw 4! to the free end thereof. The upper surface 42 of the roller 46 is disposed adjacent to the lower edge 43 of the aperture 2?, and the roller 40 is adapted to be normally retained in rolling engagement with the lower edge 32 of the control arm 24, by the action of the lever ail. A relatively long rod 44 is attached by the bolt 45 to the vertical arm 39, and extends horizontally outwardly therefrom.

A right angle bracket 45 is secured to the upper portion of the plate 28 in a position diagonally opposite the pin 36. Horizontally supported by the upper leg 41 of the bracket 46 are a plurality of thin and relatively long but spaced apart bimetalic strips 48. The strips 43 are retained in a predetermined parallel and spaced apart relationship at one end 55 thereof b the spacer plates 5| alternately placed between the strips 48, the opposite ends 52 of which are similarly retained in a predetermined parallel andspaced apart relationship by the washers 53. The multiple layer assembly 54 formed by the plurality of equidistantly spaced apart bimetallic strips 48, and the spacer elements 5| interspersed therebetwen are secured at one end by the bolt 49 to the horizontal leg 4! of the bracket 46. The strips 48 are also retained in predetermined spaced apart relationship at the opposite end 52 thereof by the washers 53 interspersed therebetween and by the relatively long bolt 58 which carries at the free end 59 thereof a cylindrical member 55. A slot 6! formed in the member 66 is of suflicient width and depth to slidably accept and engage with the free end 62 of the rod 44, the latter being retained within the slot Bl by a small pin or cotter key 63.

Preferably, the thin bimetallic strip 48 which comprise the layer assembly 54 each consists of bonded pairs of dissimilar metals having different coefiicients of linear expansion, and are so selected that high sensivity to moderate changes in normal heating temperatures is obtained. Although such dissimilar metals as iron and brass may be used in some applications, when considerable power must be developed while preserving high thermostatic sensitivity the strips 48' preferably are formed of bonded layers of dissimilar steels, such as Invar steel and heat resistant stainless steel, the total thickness of each individual strip 48 being approximately .030 of an inch. A multiple layer assembly 54 constructed and arranged in accordance with this disclosure develops considerable operating torque without producing the time lag or delay which is an inherent operating characteristic of conventional thermostatic controls, particularly when comparatively large thermostatic power must be directly developed by the control device. Moreover the thermo-responsive action of such a multiple layer assembly 5 is not adversely affected by prolonged exposure to heat, smoke, or the combustion products normally present in fireplaces and other types of heating systems.

Operation 7 The operation of the unbalanced damper l0 and the thermostatic control means 35 directly associated therewith will now be described in conjunction with a conventional fireplace wherein the damper I0 is interposed between a chimney l2 and the fireplace interior Hi. It is the usual practice to maintain such a damper It in the fully closed position whenever no fire is burning in the fireplace, thereby preventing objectionable drafts from being created in the room and also preventing soot and moisture from becoming deposited in the bed of the fireplace H. Whenever the fire is completely out the damper Hl is normally moved manually to the fully closed position indicated by the solid lines, in Figure 2, and is retained in that position by engagement of the slot 29 with the lower edge 43 of the aperture 21. It is highly desirable that such a damper be automatically opened soon after the next combustion cycle is initiated. If the damper I6 is not opened by a reliable means at this time the fire which is being started in the fireplace H multiple layer assembly 54 is constructed and arranged a comparatively small rise in temperature within the enclosure l2 above the ambient room temperature is sufiicient to quickly actuate the control 35. and the damper It directly associated therewith without the use of complex servo units orother relatively expensive auxiliary devices which require a continuous source of electricity or external source of power. Thus,

power is developed directly by the thermostatic 1 action of the multiple layer assembly of suflicient magnitude to depress the rod 4:! to the position illustrated in Figure 4, thereby angularly displacing the lever 34 above the pin 36 and moving the contact surface 42 of the roller 40 against the coacting lower edge 32 of the control arm 24. This action of the multiple layer assembly 54 occurs with suflicient force to raise the notch 29 out of engagement with the lower edge 43 of the aperture 27, and as soon as the lower edge of s eeagoas't;

the arm: 21! has been raised suflicientlyr above the? aperture 2il',\theunbalancedw damper I is: free to:

turn under the influence oftgravity about the rod ll as an axis, thereby moving the. damper E0:

to the open positionin. a sufiiciently short time to eliminateany potentially dangerousfire hazard and prevent objectionable quantities of. smoke produced by the combustion process from enterJ-I ing the room.

The multi-layer construction and arrangement of the thermostatic control 35' enables the inherent sensitivity of a thin section of thermostatically responsive material 48 to be preserved while enabling the power or torque normally developed by a bar of thermostatically responsive material ofsubstantial size, through the plurality of individual layers d8 comprising the assembly 54, to be utilized to directly actuate the relatively heavy control arm 24. Because of the rapid thermal response or high: thermostatic sensitivity of the multiple layer assembly 55, the air which is drawn into the fireplace H as soon as the unbalanced damper H] has been opened has a sufficient cooling action to quickly lower the ambient temperature around the thermostatic control 35, so that the notch 29 placed at a predetermined position along the lower edge 32 of the arm 24 will engage with the lower edge 53 of the aperture 2"! and retain the unbalanced damper ii] in a predetermined open position. After the combustion process has ceased and the fire in the bed of the fireplace ll has completely died out, the unbalanced damper it] may readily be closed manually by merely depressing the handle 3d at any convenient time so as to reengage the notch 29 with the lower edge 43 of the aperture 27.

From the above description it will be apparent that there has been produced an automatic means of opening a fireplace damper in such a manner as to avoid the objectionable distribution of smoke into the room and to eliminate any potential fire hazard which would exist if the fireplace damper were inadvertently left closed after a new fire had been started in the fireplace. There has also been produced a thermostatic control device of multiple layer construction which retains the high sensitivity characteristic of a thin section of thermostatically responsive metal, while at the same time permitting the total power developed by a bar of thermostatically responsive material of considerable size to be utilized for directly actuating the device to be controlled thereby. It will also be apparent that there has been produced a control device which develops relatively large amounts of thermostatic power response to relatively small temperature increases above normal room temperatures, and which is not adversely affected in its operation by continued exposure to the heat and combustion products normally present in the chimneys or fiues of fireplaces and other types of conventional heating systems.

I claim:

1. A fireplace structure of the character described comprising a fire box, a flue therefor, a damper in said flue directly above said fire box, means mounting the damper in the fiue for swinging between an open position and a closed position and being biased so as normally to swing to open position, a lever secured to said damper for swinging said damper to either position, nonfusible type of thermo-responsive means operable by a relatively slight increase in temperature caused by igniting a fire in said fire box, and

6 latch. means: for latching said lever when the damper is in closed position. operatively connected to said thermo-responsive means forim.-- mediatelyunlatching said lever and opening said damper whena fire has been.startedin said fire box.

2. A fireplace structure of the character. de-

scribed comprisingv a fire box, a flue therefor, a

damper in. said flue directly abovesaid fire box, means mounting the damper in the: fine for swinging between open position and closed posi tionxandso. as normally. to swing by gravity to" open: position, a lever for operatingsaid damper and securedltheretc, non-fusible type of thermoresponsive means operable by arelatively slight increase in temperature above room temperature: from startinga fire in the fire box, said thermoresponsive means being in the form of a plu.- rality: of superimposed, spaced bimetallic; ele:-

ments, and latch means for latching said lever when the damper is in closed position operatively connected with said thermo-responsive means to immediately unlatch said lever and.

open said damper when a fire has been started in the firebox giving a temperature rise above room temperature.

3. A structure of the character described comprising a fire box, a flue communicating with the fire box, an unbalanced damper supported for pivotal movement between a closed position closing the flue and an open position opening the flue, said damper being urged by gravity to open position unless otherwise restrained, a lever for pivoting the damper and mounted on the heavy side thereof, said lever being of relatively massive construction to resist the heat to which it is normally subjected, latch means for said lever operable to support and latch the lever to maintain the damper in closed position, and non-fusing thermo-responsive means operatively connected with said latch means to lift and unlatch said lever when subjected to a rise: in temperature of approximately 50 F. above room temperature within the fire box, said thermoresponsive means comprising multileaf bimetallic members capable of developing suflicient power to lift said massive lever free of said latch means.

4. A structure or" the character described comprising a fire box, a flue communicating with the fire box, an unbalanced damper supported for pivotal movement betweena closed position closing the flue and an open position opening the flue, said damper being urged by gravity to open position unless otherwise restrained, a lever for pivoting the damper and mounted on the heavy side thereof, said lever being of relatively massive construction to resist the heat to which it is normally subjected, latch means for said lever operable to support and latch the lever to maintain the damper in closed position, and nonfusing thermo-responsive means operatively connected with said latch means to lift and unlatch said lever when subjected to a slight rise in temperature, said thermo-responsive means comprising multileaf bimetallic members capable or developing sufficient power to lift said massive lever free of said latch means in responsive to approximately a 50 F. rise in temperature above room temperature within the firebox.

5. A fireplace damper adapted to be automatically released by thermostatic power when a fire is lighted in the fireplace, comprising a flue for the passage of combustion products, an unbalanced damper plate mounted in said flue operable upon release to move under the influence of gravity from a position closing said flue passage to open the same, a lever arm attached to said damper operable to latch the same in closed position and operable to release the said unbalanced damper plate to open position, latching means for said lever, and a multiple layer nonfusing type of thermo-responsive device operatively connected to said latch and so constructed and arranged as to move the said latch to the release position for said lever by the direct application of thermostatic power thereto in response to the heat of a fire lighted in said fireplace.

6. A fireplace damper adapted to be automatically released when a fire is lighted in the fireplace to minimize fire hazards and prevent smoke damage, comprising a flue for the passage of combustion products, an unbalanced damper plate mounted in said flue operable to move upon release the influence of gravity from a position closing said flue passage to open the same, a control arm attached to said damper plate op"- erable to latch the same in closed position and operable to release the said damper plate to open position, latching means for said control arm, and a highly sensitive multiple layer nonfusing type of the thermostatic actuator opera- 8 tively connected to said latching means and operable to develop sufficient thermostatic power for directly moving the said latching means to the release position for said control arm in response to a predetermined increase in temperature of relatively small magnitude above normal room temperature caused by igniting a fire in the fireplace.

WALTER B. SNOOK.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 314,121 Gilman Mar. 17, 1885 583,633 Roesch June 1, 1897 926,183 Guy June 29, 1909 1,048,659 Claus Dec. 31, 1912 1,219,516 Whittelsey Mar. 20, 1917 1,278,483 Leonard Sept. 10, 1913 1,352,255 Emerson Sept. 7, 1920 1,627,013 Cowie May 3, 1927 1,688,121 Larson Oct. 16, 1928 1,994,365 Mathews Mar. 12, 1935 2,148,530 Burke Feb. 28, 1939 2,249,887 Dayton July 22, 1941 2,275,493 Benjamin Mar. 10, 1942 2,339,614 Breese Jan. 18, 1944

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