U.S. patent number RE46,600 [Application Number 13/859,576] was granted by the patent office on 2017-11-07 for multi-gas valve for a gas burning appliance.
This patent grant is currently assigned to COPRECITEC, S.L.. The grantee listed for this patent is COPRECITEC, S.L.. Invention is credited to Inigo Albizuri.
United States Patent |
RE46,600 |
Albizuri |
November 7, 2017 |
Multi-gas valve for a gas burning appliance
Abstract
.[.The cooking appliance (1) having a control panel (2) is
equipped with one or more gas flow (Q) regulating valves, wherein
the rotary regulating plug (6) is provided with various peripheral
through holes (16-19). The control knob (9) being interchangeable
for fitting to the actuating shaft (7), is chosen from the two
units available, one and the other permitting different angular
limit positions of the regulating plug (6) for the supply of a
constant minimum gas flow Qmin, adjusted each one for a different
type of gas N gas or LP gas. The outlet conduit (5) of the valve is
equipped with a further injector nozzle (21,23) for adjusting a
constant gas flow Qmax to be fed into the conduit (25) of the
correspondent burner, when the cooking appliance is supplied with a
LP gas..]. .Iadd.A valve adapted to regulate the flow of both a
natural gas and a liquefied petroleum gas. According to one
implementation the valve includes a valve body having a rotatable
regulating organ positioned between a valve inlet and a valve
outlet, the valve outlet having a first restriction and a second
restriction successive to the first restriction, the first
restriction including a first hole calibrated to provide a given
maximum flow rate of the natural gas at a first pressure in the
absence of the second restriction, the second restriction
removeably attached to the valve outlet, the second restriction
including a second hole calibrated to provide a given maximum flow
rate of the liquefied petroleum gas at a second
pressure..Iaddend.
Inventors: |
Albizuri; Inigo (Muxika,
ES) |
Applicant: |
Name |
City |
State |
Country |
Type |
COPRECITEC, S.L. |
Aretxabaleta (Guipuzcoa) |
N/A |
ES |
|
|
Assignee: |
COPRECITEC, S.L. (Aretxabaleta,
ES)
|
Family
ID: |
34586163 |
Appl.
No.: |
13/859,576 |
Filed: |
April 9, 2013 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
Issue Date |
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12069657 |
Jan 5, 2010 |
7641470 |
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11143785 |
Jun 1, 2005 |
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Reissue of: |
12639856 |
Dec 16, 2009 |
7963763 |
Jun 21, 2011 |
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Foreign Application Priority Data
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Feb 10, 2005 [ES] |
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200500309 U |
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Current U.S.
Class: |
1/1 |
Current CPC
Class: |
G01F
15/002 (20130101); F16K 5/0214 (20130101); F16K
5/08 (20130101); G01F 15/001 (20130101); F24C
1/02 (20130101); F24C 3/12 (20130101); F23N
1/007 (20130101); F23C 1/08 (20130101); F23D
17/002 (20130101); F23K 5/007 (20130101); F24C
3/124 (20130101); F23D 14/46 (20130101); F23C
1/08 (20130101); F23N 3/02 (20130101); F23N
1/007 (20130101); F23N 2235/24 (20200101); F23N
2241/04 (20200101); F23K 2900/05001 (20130101); Y10T
137/5109 (20150401); Y10T 137/0318 (20150401); Y10T
137/86823 (20150401); F23N 2235/16 (20200101); Y10T
137/87386 (20150401); F16K 5/103 (20130101); F23D
2204/10 (20130101); Y10T 137/87137 (20150401); F16K
5/10 (20130101); Y10T 137/5196 (20150401); F23N
2235/16 (20200101); F23N 2237/08 (20200101); Y10T
16/506 (20150115) |
Current International
Class: |
F23N
3/02 (20060101); F23N 1/00 (20060101); F23C
1/08 (20060101) |
Field of
Search: |
;126/25R,39E,39N,39R
;137/269,270 ;251/127,205-209,92 ;16/441
;431/2,12,18,61,62,65,72,354 |
References Cited
[Referenced By]
U.S. Patent Documents
Foreign Patent Documents
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201121736 |
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Sep 2008 |
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CN |
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201121736 |
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Sep 2008 |
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CN |
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3039378 |
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May 1982 |
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DE |
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3039378 |
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May 1982 |
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DE |
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0805310 |
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Nov 1997 |
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EP |
|
1069849 |
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May 2009 |
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ES |
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1517003 |
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Feb 1968 |
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FR |
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2642148 |
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Jul 1990 |
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FR |
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1165762 |
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Oct 1969 |
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GB |
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1298809 |
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Dec 1972 |
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GB |
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1329893 |
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Sep 1973 |
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GB |
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1444673 |
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Aug 1976 |
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GB |
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62188867 |
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Aug 1987 |
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JP |
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02286971 |
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Nov 1990 |
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JP |
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WO/2006/084690 |
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Aug 2006 |
|
WO |
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WO/2006/084690 |
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Aug 2006 |
|
WO |
|
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Primary Examiner: Huson; Gregory
Assistant Examiner: Namay; Daniel E
Attorney, Agent or Firm: Edell, Shapiro & Finnan LLC
Parent Case Text
The present application is a continuation application of copending
patent application Ser. No. 12/069,657, filed on Feb. 12, 2008,
which is entitled "MULTI-GAS COOKER, WITH A ROTARY VALVE PROVIDED
WITH INTERCHANGEABLE REGULATING MEANS", which is a continuation of
patent application U.S. Ser. No. 11/143,785, which was filed on
Jun. 1, 2005, and claims priority to Spanish Patent Application
ES-U200500309, which was filed on Feb. 10, 2005, the disclosures of
all of which being herein incorporated by reference.
Claims
What is claimed is:
.[.1. A valve comprising: a valve body having a rotatable
regulating organ positioned between a valve inlet and a valve
outlet, the regulating organ configured to vary the flow rate of
the gaseous fuel at the valve outlet as a function of an angular
position of the regulating organ, a first angular position of the
regulating organ determines a first minimum flow rate of a natural
gas, and a second angular position of the regulating organ,
successive to the first angular position, determines a second
minimum flow rate of a liquefied petroleum gas, a control knob used
to manipulate the angular position of the regulating organ coupled
to the regulating organ by an actuating shaft, the control knob
having a feature to prevent rotation of the regulating organ beyond
the first angular position, absent the presence of the feature on
the control knob the regulating organ is rotatable to the second
angular position, the valve outlet having a restriction that
determines a maximum flow rate of the natural gas..].
.[.2. A gas burning appliance adapted for a supply of natural gas
and liquefied petroleum gas to a burner comprising: at least one
regulating valve with a valve body, the valve body having a
rotatable regulating organ operationally coupled to an actuating
shaft that protrudes from a control panel of the cooking appliance,
the regulating organ positioned between a valve inlet and a valve
outlet and configured to vary the flow rate of the gaseous fuel at
the valve outlet as a function of an angular position of the
regulating organ, a first angular position of the regulating organ
determining a first minimum flow rate of the natural gas, and a
second angular position of the regulating organ, successive to the
first angular position, determining a second minimum flow rate of
the liquefied petroleum gas, a control knob attached to the
actuating shaft useable to manipulate the angular position of the
regulating organ, the control knob having a feature that cooperates
with a part of the appliance other than the valve to prevent
rotation of the regulating organ beyond the first angular position,
the regulating organ rotatable to the second angular position
successive to the first angular position absent the presence of the
feature on the control knob, the valve outlet having a restriction
that determines a maximum flow rate of the natural gas..].
.[.3. The gas burning appliance of claim 2 wherein the feature of
the control knob projects from a base of the control knob facing
the control panel and travels within a groove in the control panel,
the groove having an end corresponding to the first angular
position..].
.[.4. The gas burning appliance of claim 2 wherein the actuating
shaft has associated with it an engagement feature that cooperates
with a part of the valve to impede rotation of the regulating organ
beyond the second angular position..].
.Iadd.5. A valve adapted to regulate the flow of both a natural gas
and a liquefied petroleum gas comprising: a valve body having
disposed therein a rotatable regulating organ positioned between a
valve inlet and a valve outlet, the valve outlet having a first
restriction and a second restriction successive to the first
restriction, the first restriction comprising a first hole
calibrated to provide a given maximum flow rate of the natural gas
at a first pressure in the absence of the second restriction, the
second restriction removeably attached to the valve outlet, the
second restriction comprising a second hole calibrated to provide a
given maximum flow rate of the liquefied petroleum gas at a second
pressure, the second hole being smaller than the first hole, the
regulating organ being configured to vary the flow rate of the
gaseous fuel at the valve outlet as a function of an angular
position of the regulating organ, a first angular position of the
regulating organ determines a first minimum flow rate of the
natural gas, and a second angular position of the regulating organ,
successive to the first angular position, determines a second
minimum flow rate of the liquefied petroleum gas, the valve further
comprising a stop that prevents rotation of the regulating organ
beyond the second angular position..Iaddend.
.Iadd.6. The valve according to claim 5, wherein the first
restriction is formed within a press-in disc that is pressed in the
valve outlet..Iaddend.
.Iadd.7. The valve according to claim 6, wherein the first
restriction is formed within a press-in disc that is pressed in the
valve outlet..Iaddend.
.Iadd.8. The valve according to claim 6, wherein the first
restriction is formed within a threaded disc that is threaded in
the valve outlet..Iaddend.
.Iadd.9. The valve according to claim 5, wherein the first
restriction is formed within a press-in disc that is pressed in the
valve outlet..Iaddend.
.Iadd.10. The valve according to claim 5, wherein the first
restriction is formed within a threaded disc that is threaded in
the valve outlet..Iaddend.
.Iadd.11. The valve according to claim 5, further comprising a
control knob used to manipulate the angular position of the
regulating organ coupled to the regulating organ by an actuating
shaft, the control knob having a feature to prevent rotation of the
regulating organ beyond the first angular position, absent the
presence of the feature on the control knob the regulating organ is
rotatable to the second angular position..Iaddend.
.Iadd.12. A gas burning appliance adapted for a supply of natural
gas and liquefied petroleum gas to a burner, the gas burning
appliance comprising: at least one regulating valve with a valve
body, the valve body having disposed therein a rotatable regulating
organ operationally coupled to an actuating shaft that protrudes
from a control panel of the cooking appliance, the rotatable
regulating organ positioned between a valve inlet and a valve
outlet, the valve outlet being in fluid communication with the
burner, the valve outlet having a first restriction and a second
restriction successive to the first restriction, the first
restriction comprising a first hole calibrated to provide a given
maximum flow rate of the natural gas at a first pressure in the
absence of the second restriction, the second restriction
removeably attached to the valve outlet, the second restriction
comprising a second hole calibrated to provide a given maximum flow
rate of the liquefied petroleum gas at a second pressure, the
second hole being smaller than the first hole, the regulating organ
being configured to vary the flow rate of the gaseous fuel at the
valve outlet as a function of an angular position of the regulating
organ, a first angular position of the regulating organ determines
a first minimum flow rate of a natural gas, and a second angular
position of the regulating organ, successive to the first angular
position, determines a second minimum flow rate of a liquefied
petroleum gas, the valve further comprising a stop that prevents
rotation of the regulating organ beyond the second angular
position..Iaddend.
.Iadd.13. The gas burning appliance according to claim 12, wherein
the second restriction is removeably attached to the valve outlet
by a threaded connection..Iaddend.
.Iadd.14. The gas burning appliance according to claim 13, wherein
the first restriction is formed within a press-in disc that is
pressed in the valve outlet..Iaddend.
.Iadd.15. The gas burning appliance according to claim 13, wherein
the first restriction is formed within a threaded disc that is
threaded in the valve outlet..Iaddend.
.Iadd.16. The gas burning appliance according to claim 12, wherein
the first restriction is formed within a press-in disc that is
pressed in the valve outlet..Iaddend.
.Iadd.17. The gas burning appliance according to claim 12, wherein
the first restriction is formed within a threaded disc that is
threaded in the valve outlet..Iaddend.
.Iadd.18. The gas burning appliance according to claim 12, further
comprising a control knob attached to the actuating shaft useable
to manipulate the angular position of the regulating organ, the
control knob having a feature that cooperates with a part of the
appliance other than the valve to prevent rotation of the
regulating organ beyond the first angular position, the regulating
organ rotatable to the second angular position successive to the
first angular position absent the presence of the feature on the
control knob..Iaddend.
.Iadd.19. The gas burning appliance according to claim 18, wherein
the feature of the control knob projects from a base of the control
knob facing the control panel and travels within a groove in the
control panel, the groove having an end corresponding to the first
angular position..Iaddend.
Description
TECHNICAL FIELD
The present invention relates to a gas valve of the conical rotary
plug type attached to an actuating shaft, being the gas valve
mounted on the panel of a cooking appliance and its outlet conduit
faced to a burner inlet, wherein the rotary plug is provided with a
control knob, and aperture means for adjusting the flow rate
according to the fuel gas family supplied to the cooking appliance,
and the outlet conduit with an injection means.
PRIOR ART
Gas valves of the above-defined type are already known, wherein the
gas valve is mounted on the front control panel with the actuating
shaft passing through a external control panel in the appliance,
and the valve body resting inside the appliance faced to the fuel
inlet of a burner. The external free end of the actuating shaft is
fitted with a rotary control knob inserted in the latter. The
control knob is removable from the shaft by pulling it out. The
hollow body of the valve has its own gas outlet conduit which is
connected to the respective appliance burner. The outlet conduit is
provided with an injector nozzle having a calibrated discharge
orifice in correspondence with the gas family supplied to the
appliance, LP gas or N gas. In the spacing apart between the
discharge nozzle of the valve and the burner inlet, is taken the
primary air to feed the fuel mixture into the burner.
An example of rotary valve of the above type is disclosed in U.S.
Pat. No. 6,520,481-B2, having its actuating shaft coupled to a
frusto-conical regulating plug or valve plug, which is able to
rotate a given angle for the supply of a gas flow from two angular
positions spaced around 120.degree. apart, corresponding
respectively to a high or maximum flow "Qmax" and to a low or
minimum flow "Qmin", the latter applied to "gentle boiling". The
rotation of the shaft as far as one of the angular positions, is
started from an initial valve closed "OFF" position.
In this type of known valves the actuating shaft has a pin
protruding in a radial direction to limit its angular travel,
guided on a circular surface in the inner face of the body cover or
valve cap, or in some other part of the valve body. The total
travel of the regulating plug thus limited is, for instance, 270
degrees from the OFF position. The end position corresponds to
Qmin. Any of the flows Qmax, Qint (intermediate flow) and Qmin is
regulated by way of a corresponding hole or groove in the
regulating plug facing the outlet conduit. All the flow rate are
supplied from a common inlet conduit through an inner chamber in
the regulating plug which is in communication with an outlet
conduit. The Qmin outlet hole or groove shaped opening has an area
of calibrated section for a standard type of given fuel gas,
adjusted according to the output power of the cooking appliance
burner.
Solutions are already known for a single valve to be mounted on
cooking appliances that use two different types of gas, such as
natural gas (NG) or liquefied petroleum gas (LPG). For example in
U.S. Pat. No. 5,009,393, an additional valve element in the form of
a sleeve is inserted in the inner chamber of the valve regulating
plug. The area of the opening section for the passage of gas flow
towards the outlet, that which corresponds to low flow or minimum
flow Qmin, is adjusted by rotating this added valve sleeve which
thus modifies the uncovered section area of the outlet opening.
This known solution has the disadvantage that for adjusting the
Qmin for the rotation of the valve sleeve, it is necessary to use a
screwdriver, which has to be inserted from an opening in the
actuating shaft until it reaches the valve sleeve and to transmit a
precise turn. A known regulating gas valve, for example the
disclosed in U.S. Pat. No. 4,947,891-A, comprises a rotary valve
plug coupled to a passage disc provided aperture means for
regulating the gas flow supplied to the burner, and an injector
nozzle threaded to the outlet conduit. The passage disc is held
stationary in the valve housing, and provides an arc groove
restricting the passage area for the flow, for use with both LP gas
and N gas, while the injection orifice of the nozzle is limiting
the large changes of gas flow.
DISCLOSURE OF THE INVENTION
The object of the invention is a gas domestic cooking appliance,
provided with at least a rotary valve of the type with a
frusto-conical regulating plug coupled to an actuating shaft and to
a control knob, being capable of supplying the different required
flows of gas lying at a plurality of angular positions, of either
of the two different types of gas, N gas or LP gas, the valve
having a control knob being interchangeable on the actuating shaft,
with a means for limiting the angle of rotation of the regulating
plug, and a mountable injector nozzle in the valve outlet conduit,
which can be or not provided, in order the valve to be adapted to
the type of gas used by the appliance.
The use of a single valve unit for regulating the flow of two
different gas families is an advantage of the gas valve invention,
when mounted on a cooking appliance. During the startup of the
cooking appliance the user only has to carry out a choice for a
control knob from the two possible units accompanying the valve in
accordance with the type of fuel gas NG or LP appropriate for the
cooking appliance. In this way, there is no need to use tools for
adjusting the flow, nor to learn how to adjust the regulating plug
as is required in the prior art valve.
The gas valve according to the invention is capable of providing
two angular positions of the regulating plug, both spaced apart
from each other to supply a different minimum flow Qmin according
to the type of gas, NG or standard LPG, used as the fuel for the
appliance, being the two different angular positions established by
means of a respective rotation stop. At the same time, the user
chooses for providing or not the outlet conduit of the valve with
an injector nozzle to supply a maximum flow, Qmax, of LP gas or N
gas respectively. Neither it is necessary to use tools for carrying
out this mounting operation.
DESCRIPTION OF THE DRAWINGS
FIG. 1 is a sectional view of a gas valve according to the
invention, fitted on a panel of a cooking appliance.
DETAILED DESCRIPTION OF AN EMBODIMENT OF THE INVENTION
In reference to FIG. 1, an embodiment of a gas cooking appliance 1
such as a barbecue comprises a control panel 2 on which are mounted
one or more rotary gas valves 3 of the type with a frustro-conical
regulating plug 6. The cooking appliance 1 may be of two types in
respect of the type of gas supplied, natural gas (NG) or liquefied
gas (LPG) from the external source--GAS IN--through a valve inlet
conduit 4 in the valve body 3a. Each one of the valves 3 mounted on
the panel 2 is always of a single type, all with a same valve body
3a and regulating plug 6. The inlet flow "Q" is transmitted to an
internal chamber 8 in regulating plug 6 in communication with an
outlet conduit 5 in the valve body 3a. The regulating plug 6
rotates around a central axis 10 actuated by shaft 7 for the supply
of the flow "Q", which is directed towards a burner inlet duct 25
on the appliance, being the latter specifically adapted to either N
gas or LP gas supplying.
The valve body 3a has an elongated shape with a frusto-conical
central housing cavity 15, wherein the regulating plug 6 is pushed
by a spring 11 for a tight sealing. The free end of the actuating
shaft 7 is installed passing through a hole 2a in the appliance
panel 2, and afterwards the user fits it with a control knob 9,
which is chosen from the two different units of control knob 9,
both supplied to the user with each valve unit 3. A cover or valve
cap 12 protecting the housing cavity 15, has a tubular bushing 12b
for guiding the actuating shaft 7 in rotation.
The regulating plug 6 may rotate with the shaft 7 an angle "A" in
either of the two directions from an initial angular position
"zero" degrees corresponding to the valve closed condition "OFF",
to an angular position "A" between 90.degree. and 270.degree. The
OFF position is the initial end of the rotational travel "A", and
it is established for example by a radial pin 13 on the shaft. The
cover 12 presents a sliding surface for the radial pin 13, up to a
recess 12a in the cover acting as a stop for the rotation of the
radial pin 13.
In reference to the valve embodiment represented in FIG. 1, from
the angular position OFF rotating in a clockwise direction, the
frusto-conical plug 6 may regulate the supply of different gas
flows, a maximum flow "Qmax", a minimum "Qmin" and an intermediate
flow "Qint" between the Qmax and the Qmin, in function of the
rotated angle "A". A constant minimum flow "Qmin" of the N gas must
be higher than a "Qmin" of the LP gas, when supplied to a
respective burner in both cases of the same power. In function of
whether N or LP gas is supplied to the cooking appliance, the
control knob 9 to be fitted on the actuating shaft 7 is
distinguished for example by means of a lug 14 integral with the
control knob. The control knob 9 represented on the appliance in
FIG. 1 is adapted for the supply of N gas, having a protuberance or
lug 14 projecting from a knob base 9a facing the panel 2. The
second type of control knob 9 having not the protuberance 14, is
chosen for its mounting on a cooking appliance that uses LP
gas.
The regulating plug 6 rotates to a determined angular position for
the supply of a maximum flow "Qmax" of either NG or LPG on both
types of cooking appliance 1. The Qmax inflow is regulated by a
through hole 16 in the regulating plug, facing the inlet conduit 4.
If the regulating plug 6 is rotated further, an intermediate flow
"Qint" will be supplied through a groove which has a decreasing
area. In accordance with the angle rotated, a through hole 18 or a
through hole 19 for a "Qmin" flow is facing the inlet conduit 4 at
an ensuing angular position different from one another depending on
the gas supplied to the valve, N gas or LP gas respectively.
Diameter of each one of holes 18 and 19 are calibrated for the
correspondent supply of a Qmin.
When installed on the panel 2, the control knob unit 9 chosen for
the supply of LPG, this has no lug 14 or any other element for
limiting the angle "A" of rotation. Thus, the regulating plug 6 may
rotate as far as an angular position of 270 degrees. The cover 12,
provided with the tubular portion 12b for guiding the valve shaft
7, and said recess 12a for limiting said longer angular travel
corresponding to the LP gas Qmin, is made economically by
die-stamping operations only. The economical cost of moulding two
types of control knob 9, with and without integral lug 14 for
guiding its rotation, is also low.
Besides that described above, other embodiments of the regulating
passage openings 18,19 for the different values of Qmin are
possible. Half of the control knob 9 units of the kind applied to
the NG appliance, may be manufactured with some integrated guiding
means 14 on the control knob 9, and interact with some part of the
cooking appliance 1 associated with the panel 2, for example a
running slot 20 in a panel wall, in order a limit position to be
arranged of rotation travel other than that imposed by the
actuating shaft.
The arrangement of the two different stop means 12a and 20,
respectively in the valve body 3a and on the control panel 2, each
one with a pre-set circular extension, matches up with the two
angular travels "A" corresponding to that of the two hole passages
18 and 19 for supplying a constant NG Qmin or a constant LPG Qmin.
In this way, a single valve unit 3 is used, without having to make
any adjustment, valid for any type of gas supplied to the cooking
appliance 1.
The burner of the cooker appliance (not represented in the
drawing), supplied by the valve unit 3, is placed with its feed
conduit 25 facing the valve outlet conduit 5. The space of air
apart from the burner conduit 25 permits the fuel mixture 26 of
primary air with the Qmax flow of outgoing gas from the valve 3 for
injection into the burner feed conduit 25.
In accordance with the type of gas, N gas or LP gas, in order to
provide the valve 3 with means for adjustment and injection of the
Qmax gas flow outgoing from the regulating plug 6, the valve outlet
conduit 5 has a press-in or threaded disc 21 inserted for the
restriction of the Qmax flow through a calibrated central hole 22,
which permits the passage of a given Qmax flow of N gas,
substantially higher than the Qmax of LP gas which it is necessary
to inject into the burner of the same output. The restrictor disc
21 remains fitted on the valve all the time irrespective of the
type of gas used. When the cooker appliance 1 is supplied with LP
gas, it is necessary to restrict the outgoing Qmax flow so as to
adapt the output of the burner, so the valve outlet conduit 5 is
also fitted with an injection nozzle 23, threaded manually into the
mouth of the conduit 5, and it has a calibrated hole 24 for a given
Qmax flow of LP gas, substantially smaller than the hole in the
restrictor disc, the latter secured in a manner valid for the
passage of a Qmax both of N gas and of LP gas.
Thus, by means of the interchangeable control knob 9 and the
installation or otherwise of the injection nozzle 23, all the
cooker appliances, whether they be N gas or LP gas, are fitted with
the same valve units 3 without the need to make any flow regulating
adjustment. Together with the valve unit 3, the user receives a kit
containing two different control knob units 9, easily
distinguishable from each other, and an injection nozzle 23. In
accordance with the type of gas used, the user chooses one of the
controls 9 for manual installation on the actuating shaft 7, and
also decides whether or not to install the injection nozzle 23,
which is also fitted manually for the injection of LP gas without
the need for tools.
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