CA2155881A1 - An lpg burning appliance - Google Patents

Abstract

An LPG burning appliance has a body (10) with connection means (30,82) for releasably connecting the body to a fuel canister (36). The body has a fuel inlet (48) and a burner assembly (12). The burner assembly has an outlet jet (26) secured to the body and a fuel flow passage extends from the fuel inlet (48) to the fuel outlet jet (26). The fuel flow passage includes a fuel flow conduit (14) both ends of which are secured to the body (10) and which extends through a flame zone of the burner assembly (12), thereby providing a fuel flow path which constrains all fuel from the canister (36) to pass from the body inlet (48) to a flame zone of the burner assembly (12) and back to the fuel outlet jet (26). The body further comprises a control valve (50) which is advantageously located between the fuel inlet (48) and the inlet to the fuel flow conduit (14).

Description

~_ 215~8~1 DESCRIPTION
AN LPG ~u~ G APPLIANCE
The present invention relates to LPG ( liquefied petroleum gas) burning appliances, and in particular to LPG burning appliances having a safety arrangement.
It is known from our United Kingdom Patent 2182765 to provide an LPG burning appliance in which fuel from a reservoir is fed through a tube which extends into a flame zone of the appliance, the outlet of the tube being connected to a jet of the appliance.
In this way, the fuel is heated before it is expelled through the jet, which ensures that all of the fuel is vaporised before it is burned. This arrangement reduces the likelihood of discharge of unvaporised fuel from the jet of the burner if the apparatus is upset, which might otherwise cause a larger than normal, yellow, sooty flame around the burner.
Many such appliances are intended to be releasably securable to a canister of fuel by means of a screw-threaded connection. The disconnection of such an appliance from the canister can in itself cause problems. In some cases, a regulating valve is releasably securable directly to the fuel canister and is connected to the burner by means of a tube, either flexible or rigid. When the regulating valve is closed 21S58~1 there is thus the possibility that the tube connecting the regulating valve to the burner can be full of fuel which can thereafter make its way out of the burner.
Alternatively, if the regulating valve is located nearer the burner in order to provide easier adjustment of the flow of fuel, the connection of the tube to the fuel canister is normally by means of a screw-thread arrangement which, upon separation of the tube from the canister causes a self-sealing valve in the canister to close. However, there is the possibility that the tube will be full of fuel which will not make its way to the burner and be burned off, since the regulating valve will be in the closed position.
Thus, in either case there is the risk of a loss of unburned fuel resulting from the fact that it is possible for a significant length of tube to be full of liquefied gas even after the regulating valve has been closed.
It is thus an object of the present invention to provide an LPG burning appliance in which the fuel path is minimised while at the same time permitting the preheating of fuel to prevent discharge of liquefied gas from the burner.
In accordance with the present invention, an LPG
burning appliance comprises a body having connection 2155~81 means for releasably connecting the body to a fuel canister to permit the flow of fuel from the canister, a body fuel inlet to permit the flow of fuel into the body, a burner assembly having an outlet jet secured to and extending from the body and a fuel flow passage between the fuel inlet and the fuel outlet jet for feeding fuel from a canister to the fuel outlet jet, the fuel flow passage including a fuel flow conduit, both ends of which secured to the body and which extends through a flame zone of the burner assembly, thereby providing a fuel flow path which constrains all fuel from the canister to pass from the body inlet to a flame zone of the burner assembly and back to the fuel outlet jet, the body further comprising a control valve located in the fuel flow passage in the body.
In such an appliance the maximum amount of unburned fuel within the appliance is essentially the amount of fuel remaining in the fuel flow conduit. In particular, there are no lengths of connecting tube in which fuel may be present when the assembly is removed from the canister.
The incorporation of the regulating valve, the burner and the gas flow conduit in a single assembly which is connectible directly to a fuel canister results in a compact assembly which is also cheaper to produce.

The fuel flow conduit preferably extends upwardly from the body into the flame zone and then downwardly back into the body.
Preferably, the valve is located in the fuel flow passage between the body inlet and the inlet to the gas flow conduit.
This arrangement allows a user to turn off the appliance if the fuel flow conduit is perforated due to damage or corrosion. If the valve were located at the other end of the conduit and the conduit were damaged the burner orifice would not limit the ~ m rate of fuel flow and a large quantity of fuel could be released. Also in such an arrangement, if the valve is turned off then the maximum amount of unburned fuel which can remain in the appliance (e.g.
if the assembly is overturned when connected to a fuel canister) is the amount of fuel in the fuel flow passage between the fuel inlet and the valve.
In one embodiment, the connection means comprises a screw-threaded connection to a complimentarily-threaded connection on a fuel canister. In another embodiment, the assembly is provided with means for piercing a wall of a fuel canister and comprises means for releasably holding the assembly in position on the canister.
By way of example only, specific embodiments of `~ 21~81 the present invention will now be described, with reference to the accompanying drawings, in which:-Fig. 1 is a perspective view of a firstembodiment of burner assembly in accordance with the present invention, with a burner portion and a casing of the assembly removed;
Fig. 2 is a longit~1~inAl cross-section through the assembly of Fig. 1 with the burner portion and casing in posltlon;
Fig. 3 is a perspective view of a second embodiment of burner assembly in accordance with the present invention with a burner portion and a casing of the assembly removed; and Fig. 4 is a longitn~inAl cross-section through the assembly of Fig. 3 with the burner portion and casing in position.
Referring firstly to Figs. 1 and 2, a burner assembly comprises a cast metal valve body 10 and a metal casing 11 covering the upper and side portions of the body 10. A burner 12, a fuel flow conduit 14 and a regulating valve control knob 16 extend from the valve body beyond the casing 11. The burner 12 comprises a tubular conduit 18 and a burner head 20, and the lower portion of the conduit 18 is internally screw-threaded to engage with an externally-threaded boss 22 forming part of the valve body 10 and `~ 2155~81 extending upwardly therefrom. The boss 22 is provided with a threaded fuel exit aperture 24 which screw-threadedly receives a correspondingly-threaded portion of a burner jet 26 which in use extends into the conduit 18 of the burner 12.
An annular collar 28 extends downwardly from the base of the body 10 and is provided with an internal screw thread 30 which is engageable with a corresponding thread 32 forming part of a conventional sealing cap 34 of an LPG container 36. As seen in Fig. 2, the body 10 is also provided with a downwardly-projecting finger 38 which is adapted to open a self-sealing valve 39 (shown schematically) located in the sealing cap 34 of the canister 36. The valve body is also provided with an external flat rubber sealing ring 40 and an internal sealing O-ring 41 which, in use, sealingly engage an annular shoulder 42 of the canister sealing cap 34 and an upper face of the body of the self-sealing valve 39 respectively.
The fuel flow conduit 14 is brazed to the body 10 and is in the form of a metal tube which is shaped and dimensioned so that at least a portion of the tube 14 projects into a flame zone of the burner 12. A first, fuel inlet end of the tube is seated in a recess 42 in a side wall of the body 10 and the other end of the tube is seated in a second recess 44 located adjacent 215~8~1 to the recess 42. In Fig. 2 the recess 44 is shown, schematically, as being located above the recess 42 but this is shown for clarification only and the actual arrangement is as illustrated in Fig. 1 with the two recesses 42, 44 at the same height on the valve body 10.
The tube 14 forms part of a fuel flow passage comprising a first bore 46 extending vertically from a fuel inlet 48 in the base of the body 10 leading to a regulating valve 50, a horizontal bore 51 which leads from the valve 50 to the inlet end of the tube 14, the tube 14 and a horizontal bore 53 which leads from the outlet end of the tube 14 to the fuel exit aperture 24 of the hollow boss 22.
As best seen in Fig. 2, the regulating valve 50 is disposed in the passage means between the valve body fuel inlet 48 and the tube 14. The valve 50 comprises an elongate valve closure member 54 which is positioned in a stepped bore 55 in the valve and to which the valve control knob 16 is attached. The valve closure member 54 is provided with a frusto-conical shoulder 56 at the end remote from the control knob 16, the shoulder 56 being releasably sealingly engageable with a complimentarily-shaped valve seat 58 formed in the valve body 10. An enlarged portion 60 of the valve closure member 52 is screw-threadedly _ 215~881 engaged with an internally-threaded portion 62 of the bore 54, thereby enabling the valve closure member 52 to be displaced longitll~inAlly in both directions by rotation of the valve control knob 16 and permitting the frusto-conical shoulder 56 to be engaged with and disengaged from the valve seat 58. The portion of the valve closure member 52 adjacent to the frusto-conical shoulder 56 is provided with two O-rings 64 which are located in grooves in the valve closure member which are defined by circumferential ribs 66.
In use, the burner assembly is screw-threadedly connected to the sealing cap 34 of an LPG canister 36, whereupon the sealing ring 40 engages the annular shoulder 42 of the cap 34, the sealing O-ring 41 engages the upper face of the body of the self-sealing valve 39 and the finger 38 opens the self-sealing valve 39 in the valve cap 34. This permits vaporised fuel to enter the inlet 48 in the valve body lO. The valve 50 would normally be closed at this stage and thus fuel is able to travel no further than the valve closure member 54. When the valve 50 is opened by turning the knob 16, fuel is allowed to flow along the fuel flow passage, namely along bore 46, through the valve 50, through bore 51, through the tube 14, through horizontal bore 53 and thereby into the jet 26. The gas is then lit at the burner, and subsequent _ 2155881 g fuel flowing through the fuel flow conduit 14 will be heated since the upper end of the fuel flow conduit 14 is situated in the vicinity of the flame of the burner 12. This ensures that even if the burner is tipped over, any fuel reaching the burner will be vaporised rather than liquefied, thus preventing the discharge of liquefied fuel from the jet 26 and preventing flaring.
When it is desired to extinguish the flame, it is merely necessary to close the valve 50 by turning the knob 16, thereby bringing the shoulder 56 of the valve closure member 54 into sealing engagement with the valve seat 58. The assembly may then if desired be removed from the fuel canister 36 by unscrewing it from the canister. Even if the canister is inverted in this process, the amount of liquefied fuel present cannot exceed the volume of the inlet 48 surrounding the finger 34 and the volume of the passage 46. Thus, the risk involved in removing the burner assembly from the fuel canister is greatly reduced.
An amount of fuel may remain in the tube 14 but if the burner has recently been in use, the tube 14 will be at a relatively high temperature which will help to ensure that any fuel in the tube 14 will be gaseous and will either be burned before the flame is extinguished or will quickly vent to atmosphere 21558~1 without undue risk.
The second embodiment, illustrated in Figs. 3 and 4, is very similar to the first embodiment, and similar reference numerals have been used to describe similar features. The only significant difference is the method of securing the assembly to the fuel canister. In the first embo~iment the burner assembly is intended for use with a fuel canister which has a self-sealing valve which is opened by the finger 34 upon connection of the assembly to the canister. In contrast, the assembly of Figs. 3 and 4 is intended for use with a canister 68 which does not have a valve but which has a concave portion 69 which is pierced by the assembly.
The collar 26 of the first embodiment is replaced with an externally-threaded collar 70 which in turn is screw-threadedly connected to an annular yoke 71 which forms part of a conventional securing cover which covers the upper portion of the canister 68.
The collar 70 is provided with an internal bore 72 in which a metal piston 74 is slidably disposed, the piston being sealed with respect to the bore 72 by means of O-ring seals 76. The piston 74 is biassed downwardly by means of a compression spring 78 acting on the upper end of the piston. The piston is also provided with a through bore 80 which receives a 21~5~81 piercing spike 82 which bears against the upper end of the chamber. The lower end of the piston is also provided with a rubber seal 84 which surrounds the spike 82 and which is shaped complimentarily with the concave portion 69 of the canister 68.
In use, the piston extends beyond the end of the spike 82 and is brought into engagement with the recess 69 on the upper portion of the fuel canister 68. The assembly is then displaced downwardly which causes the tapered spike 82 to pierce the recessed wall portion 69 of the canister. This permits gas to flow past the spike 82 through the bore 72 of the piston and into the valve body 10, where it reaches the jet via the valve 50 and the tube 14. The assembly is held in position by means of conventional hingedly mounted legs (not shown) which are secured to the cap covering the upper portion of the fuel canister 68 and which are hinged to engage with the base of the canister 68 in the conventional manner.
The invention is not restricted to the details of the foregoing embodiments.

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Claims (13)

1. An LPG burning appliance comprising:
(a) a body having connection means for releasably connecting the body to a fuel canister to permit the flow of fuel from the canister;
(b) a body fuel inlet to permit the flow of fuel into said body;
(c) a burner assembly having an outlet jet secured to and extending from said body and a fuel flow passage between said fuel inlet and said fuel outlet jet for feeding fuel from a canister to said fuel outlet jet;
(d) a control valve located in said fuel flow passage in said body;
said fuel flow passage including a fuel flow conduit, both ends of which are secured to said body and which extends through a flame zone of said burner assembly, thereby providing a fuel flow path which constrains all fuel from said canister to pass from said body inlet to a flame zone of said burner assembly and back to said fuel outlet jet.

2. An LPG burning appliance as claimed in claim 1, wherein said fuel conduit extends upwardly from said body into said flame zone and then downwardly back to said body.

3. An LPG burning appliance as claimed in claim 1, wherein said control valve is located between said fuel inlet and said inlet to said fuel flow conduit.

4. An LPG burning appliance as claimed in claim 1, wherein said control valve comprises a valve seat within said valve body and a valve closure member movable between a first, closed position in which it engages the valve seat and a second, open position in which it is displaced from said valve seat.

5. An LPG burning appliance as claimed in claim 4, wherein said valve closure member is screw-threadedly connected to said valve body.

6. An LPG burning appliance as claimed in claim 4, wherein a portion of said valve closure member projects from said valve body and has an actuating handle secured thereto.

7. An LPG burning appliance as claimed in claim 1, wherein said fuel flow conduit is fixedly secured to said valve body.

8. An LPG burning appliance as claimed in claim 7, wherein said fuel flow conduit is brazed to said valve body.

9. An LPG burning apparatus as claimed in claim 1, wherein said fuel flow conduit comprises a tube.

10. An LPG burning apparatus as claimed in claim 1, wherein said connection means comprises a screw-threaded connection to a complementarily-threaded connection on a fuel canister.

11. An LPG burning apparatus as claimed in claim 1, further comprising means for piercing a wall of a fuel canister and means for releasably holding the apparatus in position on said canister.

12. An LPG burning apparatus as claimed in claim 1, wherein said outlet jet is releasably secured to said body.

13. An LPG burning apparatus as claimed in claim 1, wherein said burner assembly is releasably secured to said valve body.