Gas valve with emergency shutoff and mechanical timer

Abstract

A mechanical valve assembly for the control of a gas flow to a gas appliance, the mechanical valve assembly comprising: a housing; a gas inlet port associated with the housing; a gas outlet port associated with the housing; a timer-controlled valve operable to open and close a gas flow between the inlet port and outlet port; and a manually-operated emergency shut-off valve positioned between the inlet port and the outlet port, ahead of the timer-controlled valve relative to a direction of the gas flow through the mechanical valve assembly.

Claims

1. A mechanical valve assembly for the control of a gas flow to a gas appliance, the mechanical valve assembly comprising: a housing; a gas inlet port associated with the housing; a gas outlet port associated with the housing; a non-electric timer-controlled valve operable to open and close a gas flow between the inlet port and outlet port; and a manually-operated emergency shut-off valve positioned between the inlet port and the outlet port, ahead of the timer-controlled valve relative to a direction of the gas flow through the mechanical valve assembly, and the timer-controlled valve and the emergency shut-off valve include a common shaft assembly that allows a gas flow when not seated and stops a gas flow when seated.

2. The mechanical valve assembly of claim 1, wherein the emergency shut-off valve is operable to interrupt the gas flow between the inlet port and the outlet port after the gas flow has been opened by the timer-controlled valve.

3. The mechanical valve assembly of claim 1, wherein the emergency shut-off valve is operable to independently close the gas flow, regardless of whether the timer-controlled valve is in an open or closed state.

4. The mechanical valve assembly of claim 1, wherein the timer-controlled valve includes a shaft assembly that allows a gas flow when not seated and stops a gas flow when seated.

5. The mechanical valve assembly of claim 1, wherein the emergency shut-off valve includes a shaft assembly that allows a gas flow when not seated and stops a gas flow when seated.

6. The mechanical valve assembly of claim 1, wherein depressing and simultaneously turning the emergency shut-off valve allows a gas flow through the housing from the inlet port to the outlet port.

7. The mechanical valve assembly of claim 1, wherein the timer-controlled valve and the emergency shut-off valve each include a shaft.

8. The mechanical valve assembly of claim 7, wherein the shaft of the emergency shut-off valve is not collinear with the shaft of the timer-controlled valve.

9. The mechanical valve assembly of claim 1, wherein the non-electric timer-controlled valve includes a timer mechanism.

10. A gas appliance; the gas appliance comprising: a mechanical valve assembly for the control of a gas flow to the gas appliance, the mechanical valve assembly including: a housing; a gas inlet port associated with the housing; a gas outlet port associated with the housing; a non-electric timer-controlled valve operable to open and close a gas flow between the inlet port and outlet port; and a manually-operated emergency shut-off valve positioned between the inlet port and the outlet port, ahead of the timer-controlled valve relative to a direction of the gas flow through the mechanical valve assembly, and the timer-controlled valve and the emergency shut-off valve include a common shaft assembly that allows a gas flow when not seated and stops a gas flow when seated.

11. The gas appliance of claim 10, wherein the emergency shut-off valve is operable to interrupt the gas flow between the inlet port and the outlet port after the gas flow has been opened by the timer-controlled valve.

12. The gas appliance of claim 10, wherein the emergency shut-off valve is operable to independently close the gas flow, regardless of whether the timer-controlled valve is in an open or closed state.

13. The gas appliance of claim 10, wherein the timer-controlled valve includes a shaft assembly that allows a gas flow when not seated and stops a gas flow when seated.

14. The gas appliance of claim 10, wherein the emergency shut-off valve includes a shaft assembly that allows a gas flow when not seated and stops a gas flow when seated.

15. The gas appliance of claim 10, wherein depressing and simultaneously turning the emergency shut-off valve allows a gas flow through the housing from the inlet port to the outlet port.

16. The gas appliance of claim 10, the timer-controlled valve and the emergency shut-off valve each include a shaft.

17. The gas appliance of claim 16, wherein the shaft of the emergency shut-off valve is not collinear with the shaft of the timer-controlled valve.

18. The mechanical valve assembly of claim 10, wherein the non-electric timer-controlled valve includes a timer mechanism.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The above-mentioned and other features and advantages of this invention, and the manner of attaining them, will become more apparent and the invention will be better understood by reference to the following description of an embodiment of the invention taken in conjunction with the accompanying drawings, wherein:

(2) FIG. 1 is a perspective view of an embodiment of a mechanical valve assembly of the present invention;

(3) FIG. 2 is a top view of the mechanical valve assembly of FIG. 1 in two parts;

(4) FIG. 3 is a top sectioned view of the mechanical valve assembly of FIG. 1 with selected components, showing gas flowing in an ON condition;

(5) FIG. 4 is a top sectioned view of the mechanical valve assembly of FIG. 1 with selected components, showing an OFF condition with no gas flowing;

(6) FIG. 5A is a sectioned side view of a portion of an emergency shut-off valve of the mechanical valve assembly of FIG. 1 in an ON position to allow gas flow;

(7) FIG. 5B is a sectioned side view of a portion of an emergency shut-off valve of the mechanical valve assembly of FIG. 1 in an OFF position to allow gas flow; and

(8) FIG. 6 is a top sectioned view of the mechanical valve assembly of FIG. 1 with selected components, showing an OFF condition with no gas flowing.

(9) Corresponding reference characters indicate corresponding parts throughout the several views. The exemplification set out herein illustrates an embodiment of the invention, in one form, and such exemplification is not to be construed as limiting the scope of the invention in any manner.

DETAILED DESCRIPTION OF THE INVENTION

(10) Referring now to FIGS. 1-2, there is shown an embodiment of a mechanical valve assembly 10 according to the present invention. Mechanical valve assembly 10 includes housing 12, emergency shut-off valve 14, timer-controlled valve 16, and shaft assembly 26. It is to be understood that the spatial relationship between emergency shut-off valve 14 and timer-controlled valve 16, as well as their respective locations on mechanical valve assembly 10, may vary from the embodiment shown in FIG. 1 without changing the scope of the invention.

(11) FIG. 2 shows the housing 12 of mechanical valve assembly 10 disassembled into two sections: cover plate 18, and base 20. Screws or other fasteners used to removably join cover plate 18 to base 20 are not shown.

(12) Now referring to FIG. 3, base 20 of mechanical valve assembly 10 is shown with selected components, showing gas flowing in an ON condition. Base 20 includes gas inlet port 22, gas outlet port 24, and seat 28. As shown, it is to be understood that the ON position signifies gas 48 is able to flow unobstructed from gas inlet port 22 to gas outlet port 24 (from A to B). Shaft assembly 26 includes spring 34, seal 44 and shaft 46. Gas 48 is able to flow unobstructed from gas inlet port 22 to gas outlet port 24 because while in the ON position, seal 44 of shaft assembly 26 is not resting on seat 28 of base 20. Seal 44 of shaft assembly 26 is not resting on seat 28 of base 20 because timer-controlled valve 16, which includes timer mechanism 32 and activation bar 30, is in an ON position and has been set to a predetermined time for gas to flow through mechanical valve assembly 10. Until the predetermined time has expired, activation bar 30 displaces slidably attached seal 44 on shaft 46 of shaft assembly 26 from seat 28 of base 20 while simultaneously compressing spring 34.

(13) In the ON condition shown in FIG. 3, emergency shut-off valve 14 is also in an ON position (see FIG. 5A), the details of which are described in detail later in this specification. Spring plate 36, pivotally mounted in base 20, is undisplaced.

(14) Now referring to FIG. 4 with continued reference to FIG. 3, base 20 of mechanical valve assembly 10 is shown with selected components, showing gas flowing in an OFF condition. As shown, it is to be understood that the OFF position signifies gas 50 is not able to flow unobstructed from gas inlet port 22 to gas outlet port 24 (from A, stopping at C). Gas is not able to flow unobstructed from gas inlet port 22 to gas outlet port 24 because while in the OFF position, seal 44 of shaft assembly 26 is resting on seat 28 of base 20. Seal 44 of shaft assembly 26 is resting on seat 28 of base 20 because timer-controlled valve 16 is in an OFF position either because it was manually put into that position, or because a predetermined time for gas to flow through mechanical valve assembly 10 has expired. When timer-controlled valve 16 is in the OFF position, activation bar 30 does not displace shaft 46 of shaft assembly 26, thereby allowing spring 34 to decompress and urge seal 44 on shaft 46 of shaft assembly 26 to contact seat 28 of base 20.

(15) In the OFF condition shown in FIG. 4, emergency shut-off valve 14 is in an ON position (see FIG. 5A), the details of which are described in detail later in this specification. As is the case when timer-controlled valve 16 is in the ON position, spring plate 36 is undisplaced.

(16) Now referring to FIGS. 5A-B with continued reference to FIGS. 3 and 4, emergency shut-off valve 14 is detailed. Emergency shut-off valve 14, located ahead of and similar to timer-controlled valve 16, is capable of operating in two modes: ON and OFF. As detailed above and seen in FIGS. 3, 4, and 5A, emergency shut-off valve 14 is in an ON position during normal operation; that is, emergency shut-off valve 14 in an ON position does not affect the operation of timer-controlled valve 16 to act as a primary valve in allowing gas to flow or stopping gas from flowing through mechanical valve assembly 10.

(17) Emergency shut-off valve 14 includes shaft 38, spring 40, and knob 42. FIG. 5A shows a cross-section of emergency shut-off valve 14 in an ON position. In this position, spring plate 36 (also seen in FIGS. 3 and 4) is in a resting position with respect to shaft 38 of emergency shut-off valve 14 and seal 44 of shaft assembly 26; that is, it is proximate to but does not displace seal 44, thereby allowing timer-controlled valve 16 to determine whether or not gas is able to flow.

(18) In contrast to the ON position of emergency shut-off valve 14 shown in FIG. 5A, emergency shut-off valve 14 is also capable of operating in an OFF mode as shown in FIG. 5B and now also referring to FIG. 6. As can be seen particularly in FIG. 5B, timer-controlled valve 16 is in an ON position. As emergency shut-off valve 14 is activated by pushing knob 42, spring 40 is compressed and shaft 38 displaces spring plate 36 in a pivotal manner. The displacement of spring plate 36, which had previously been proximate to but not displacing seal 44 of shaft assembly 26, now displaces seal 44 and seats it against seat 28 of base 20, thereby preventing gas flow from gas inlet port 22 to gas outlet port 24.

(19) In addition to the above consequences of pushing knob 42 of emergency shut-off valve 14, it can also be seen in FIG. 5B that knob 42 is then captured by cover plate 18. In order to re-set emergency shut-off valve 14 (bring it back into an ON position) while timer-controlled valve 16 is in an ON position, knob 42 must be rotated. This rotation of knob 42 allows spring 40 to decompress, thereby urging shaft 38 upwards and consequently returning spring plate 36 to its neutral position, thereby allowing seal 44 to be unseated.

(20) As previously disclosed, emergency shut-off valve 14 can also be used when timer-controlled valve 16 is in an OFF position. This prevents the operation of timer-controlled valve 16 until knob 42 is rotated as described above. Thus, emergency shut-off valve 14 can also function as a safety device.

(21) While mechanical valve assemblies have been described with respect to at least one embodiment, the present invention can be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the invention using its general principles. Further, this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this invention pertains and which fall within the limits of the appended claims.