US2727225A - Signaling apparatus for indicating the presence of a combustible gas - Google Patents

Signaling apparatus for indicating the presence of a combustible gas Download PDF

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US2727225A
US2727225A US278914A US27891452A US2727225A US 2727225 A US2727225 A US 2727225A US 278914 A US278914 A US 278914A US 27891452 A US27891452 A US 27891452A US 2727225 A US2727225 A US 2727225A
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contact
fixed
movable contact
chamber
engagement
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Lorenzetto Marcello
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N25/00Investigating or analyzing materials by the use of thermal means
    • G01N25/20Investigating or analyzing materials by the use of thermal means by investigating the development of heat, i.e. calorimetry, e.g. by measuring specific heat, by measuring thermal conductivity
    • G01N25/22Investigating or analyzing materials by the use of thermal means by investigating the development of heat, i.e. calorimetry, e.g. by measuring specific heat, by measuring thermal conductivity on combustion or catalytic oxidation, e.g. of components of gas mixtures
    • G01N25/28Investigating or analyzing materials by the use of thermal means by investigating the development of heat, i.e. calorimetry, e.g. by measuring specific heat, by measuring thermal conductivity on combustion or catalytic oxidation, e.g. of components of gas mixtures the rise in temperature of the gases resulting from combustion being measured directly
    • G01N25/30Investigating or analyzing materials by the use of thermal means by investigating the development of heat, i.e. calorimetry, e.g. by measuring specific heat, by measuring thermal conductivity on combustion or catalytic oxidation, e.g. of components of gas mixtures the rise in temperature of the gases resulting from combustion being measured directly using electric temperature-responsive elements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F17STORING OR DISTRIBUTING GASES OR LIQUIDS
    • F17DPIPE-LINE SYSTEMS; PIPE-LINES
    • F17D5/00Protection or supervision of installations
    • F17D5/005Protection or supervision of installations of gas pipelines, e.g. alarm
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01NINVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
    • G01N25/00Investigating or analyzing materials by the use of thermal means
    • G01N25/20Investigating or analyzing materials by the use of thermal means by investigating the development of heat, i.e. calorimetry, e.g. by measuring specific heat, by measuring thermal conductivity
    • G01N25/22Investigating or analyzing materials by the use of thermal means by investigating the development of heat, i.e. calorimetry, e.g. by measuring specific heat, by measuring thermal conductivity on combustion or catalytic oxidation, e.g. of components of gas mixtures
    • G01N25/28Investigating or analyzing materials by the use of thermal means by investigating the development of heat, i.e. calorimetry, e.g. by measuring specific heat, by measuring thermal conductivity on combustion or catalytic oxidation, e.g. of components of gas mixtures the rise in temperature of the gases resulting from combustion being measured directly
    • G01N25/38Investigating or analyzing materials by the use of thermal means by investigating the development of heat, i.e. calorimetry, e.g. by measuring specific heat, by measuring thermal conductivity on combustion or catalytic oxidation, e.g. of components of gas mixtures the rise in temperature of the gases resulting from combustion being measured directly using the melting or combustion of a solid
    • G01N25/385Investigating or analyzing materials by the use of thermal means by investigating the development of heat, i.e. calorimetry, e.g. by measuring specific heat, by measuring thermal conductivity on combustion or catalytic oxidation, e.g. of components of gas mixtures the rise in temperature of the gases resulting from combustion being measured directly using the melting or combustion of a solid for investigating the composition of gas mixtures

Definitions

  • This invention relates to signalling apparatus for indicating the presence of a combustible gas.
  • Fig. 1 is a longitudinal sectional view through a device constructed in accordance with my invention
  • Fig. 2 is a sectional view taken substantially along the line 22 of Fig. 1,
  • Fig. 3 is a circuit diagram for said device
  • Fig. 4 is a view similar to Fig. l of a device embodying a modified form of my invention
  • Fig. 5 is a sectional view taken substantially along the line 55 of Fig. 4,
  • Fig. 6 is a circuit diagram for the device of Fig. 4, and
  • Fig. 7 is an elevational view of one of the springs in the device of Fig. 4.
  • An electrically energizable ignition means is located in the chamber to provide a temperature higher than the point of inflammability of the gas.
  • Such a means may constitute, for example, a mechanism for intermittently producing a spark, or simply a hot wire resistance.
  • the latter ignition means may only be intermittently energized in order to conserve energy.
  • the device is energized by a source of power.
  • a switch is included in a circuit connecting the source of power to the ignition means. Said switch has a throw member which is movable between two positions.
  • the throw member is held in one position by a heat-destructible member located in the combustion chamber. In this position the switch connects the source of power to the ignition means.
  • the throw member is urged to its other position by a biasing means and in its other position it connects the source of power to an electric alarm of any desired type.
  • gas enters the combustion chamber through the screen it will be ignited by the ignition means and will destroy the heat-destructible means to permit the throw member to be moved to its alternate position whereby to deenergize the ignition means and energize the alarm. It will be appreciated that the fine screen will prevent propagation of the flame to the ambient atmosphere.
  • the reference numeral 1 denotes a base of insulating material of any desired shape, e. g. circular or square.
  • a cylindrical wall 2 is secured on the base, as by screws 3.
  • a plate 4 is fitted over the top of the wall and is held thereto, as by screws 5. Said plate is covered with asbestos.
  • the upper rim of the wall 2 is enlarged to receive a ring 6 which is dimensioned to be press-fitted into the rim.
  • the ring is secured to the rim by a hinge 7 and a clip (not shown) diametrically opposed to the hinge.
  • Said ring carries a metallic safety net 8 which preferably is dome-shaped.
  • a projection on the base mounts a pair of spaced leaf springs 10, 11 on the tips of which contacts 10a, 114, respectively, are secured.
  • a third leaf spring 9 is mounted on the projection between the leaf springs 10, 11. Said third leaf spring extends through an opening 4a in the plate 4 so that its upper end is located in the combustion chamber defined by the plate 4, the ring 6 and the net 8.
  • a heat-destructible strip 12 is located in said combustion chamber.
  • the strip has through openings at its opposite ends.
  • the upper end of the leaf spring 9 is threaded through the opening at one end of the strip.
  • the other opening receives the upstanding leg of an angle racket secured to the plate 4.
  • the spring 9 has contacts and if unrestrained it will assume a position in which said contact 9a engages the contact 10a.
  • the strip 12 holds the spring 9 in a position in which the contact 9a engages the contact 11a.
  • An electromagnetic coil 16 supported on the base 1 carries a metallic arm 15 provided with a contact 15a.
  • Another leaf spring 14 is supported by the base. Said last-named spring mounts an armature 17 for the coil 16. It also mounts a contact 14a which engages contact 15:: when the coil is deenergized.
  • the under surface of the base has terminals RI and RH for connection to a source of electric power and contacts C1 and C2 for connection with an audible or visual alarm, e. g. a bell C.
  • the upper ends of the spring 14 and arm 15 extend through an opening 412 in the plate 4 so that the contacts 14a, 15a likewise are located in the combustion chamber.
  • Figs. 4-7 The device illustrated in Figs. 4-7 is quite similar to that described with reference to Figs. 1-3, differing therefrom only in the nature of the ignition means. Hence the coil 16, spring 14, arm 15 and armature 17 are omitted and another ignition means substituted therefor. The other parts are the same and are denoted by the same reference numerals.
  • the substitute ignition means constitutes a spiral resistance 20 located in the combustion chamber and carried by leads 18, 19 extending from the base 1 through the plate 4.
  • a plate21 carries a contact 21a.
  • a second contact 22a is carried by a leaf spring 22.
  • the spring 22 biases the contact 22a away 'from the contact 21a.
  • the plate 21 and spring '22 are sup orted on the base 1.
  • Said base also sup orts a bimetallic strip 24 around which a heating coil 23 is wound.
  • the tip of the strip 24 rests against the middle 22b of the spring 22 and when the strip is cold causes the contacts 21a, 22a to engage. Heating the strip 24 warps it in a direction for its tip to flex away from the spring 22 permitting contacts 21a, 22a to disengage.
  • the contacts 21a, 22a are normally closed so that current passes from terminal RI through series-connected spring 9, spring 11, heating 'coil 23, spring 22, contacts 22a, 21a, plate 21, lead 19, ho't'wire resistance coil “20 and lead 1 to terminal RII.
  • Coil 23, bimetallic strip 24, spring 22, plate 21 and contacts 21a, 22a constitute a self-opening thermal switch so that after a period or time the contacts 21a, 22a 'will open upon the bimetallic 'srtip being warmed sufiiciently by the heating coil 23.
  • the coil 20 is heated to incandescence and will ignite any combustible gas that may be present in the combustion chamber.
  • the contacts 21a, 2211 open they will deenergize the heating coil 23 permitting the bimetallic strip to flex back and 'r'eclose said contacts. This action repeats cyclically, thus intermittently energizing the ignition means.
  • a device for automatically indicating the presence of a combustible gas comprising walls defining a chamber, an opening in one wall, a relatively fine mesh screen covering said opening, a 'fix'ed contact disposed within said chamber, a movable contact, resilient means for normally urging said movable contact into engagement "with said fixed contact, an ,electro'magn'e't 'for moving said movable contact out of engagement with "said fixed contact, a switch disposed in "said chamber comprising a movable contact 'and'two fi'xed contacts, resilient 'm'ea'n's torurging said last named movable contact into engagement with one of said fixed switch contacts, a heat-destructibie member normally maintaining said last named movable contact in engagement with the second of said fixed switch contacts, 'said last named movable contact being connected to a source ofpower, "said s'e'cond'fix'ed switch "contact being connected "to said first movable c
  • a device for automatically indicating the presence of a combustible gas comprising walls'defining a chamber, an opening in one wall, a relatively'fine'mesh screen covering said opening, a fixed contact disposed within said chamber, a movable contact, means for normally urging said movable contact into engagement with said fixed contact, an electromagnet for moving said movablecontact out of engagement with said -fixed contact, a switch disposed in said chamber comprising a movable contact 4 and two fixed contacts, means for urging said last named movable contact ifilf) engage 'l'il't With one Of said fiXed switch contacts, a heat-destructible member normally maintaining said last named movable contact in engagement with the second of said fixed switch contacts, sm'd last named movable contact being connected to a source of power, said second fixed switch contact being connected to said first movable contact, said first fixed contact being connected in series with said electromaguet and said source of power and an alarm connected to said first fixed switch contact and said source of
  • a device for automatically indicating the presence of a combustible gas comprising walls defining a chamber, an opening in one wall, a relatively fine mesh screen covering said opening, a fixed contact disposed within said chamber, a movable contact, means for normally urging said movable contact into engagement with said fixed contact, an electromagnet for moving said movable contact out of engagement with said fixed contact, a switch disposed in said chamber comprising a movable contact and two fixed contacts, means for urging said last namedmovable contact into engagement with one of said fixed switch contacts, a fusible member normally maintaining said last named movable contact in engagement with the second of said fixed switch contacts, said last named movable contact being connected to a source of power said second fixed switch contact being connected to said first movable contact, said first fixed contact being connected in series with said electromagnet and said source of power and an alarm connected to said first fixed switch contact and said source of power whereby said first movable contact will periodically engage and disengage said first fixed contact to provide an intermittent spark, said spar-k serving
  • a device torautomatically indicating the presence of a combustible gas comprising walls defining a chamber, an opening in one wall, -a relatively fine mesh screen covering said opening, a fixed contact disposed in said chamber, an ignition coil connetced to said fixedcontact and a source of power, a movable contact for engaging said fixed contact and carried -by a bimetallic strip, a heating element operatively associated with said strip, a switch disposed in said chamber comprising a movable contact and two fixed contacts, resilient means for urging said 'last named movable contact into engagement with one o fsaid fixed switch contacts, aheat-destructible member normally maintaining said last named movable contact in engagement with the second of said :fixed switch contacts, said last named movable contact being connected to said source of power, said second fixed switch contact being connected in series with said heating element and said first movable contact and an alarm connected to said first fixed switch contact and said source of power whereby said first movable contact will periodically engage and disengage said first
  • a device for automatically indicating the presence of a combustible gas comprising walls defining a chamber, an opening in one wall, a relatively fine mesh screen covering said opening, a fixed contact disposed in said chamber, an ignition means connected to said fixed contact and a source of power, a movable contact for engaging said fixed contact and carried by a bimetallic strip, a heating element operatively associated with said strip, a switch disposed in said chamber comprising a movable contact and two fixed contacts, means for urging said last named movable contact into engagement with one of said fixed switch contacts, a heat-destructible member normally maintaining said last named movable contact in engagement with the second of said first switch contacts, said last named movable contact being connected to said source of power, said second fixed switch contact being connected in series with said heating element and said first movable contact and an alarm connected to said first fixed switch contact and said source of power whereby said first movable contact will periodically engage and disengage said first fixed contact to intermittently energize said ignition means, said ignition means serving to ignite
  • a device for automatically indicating the presence of a combustible gas comprising walls defining a chamber, an opening in one wall, a relatively fine mesh screen covering said opening, a fixed contact disposed in said chamer, an ignition means connected to said fixed contact and a source of power, a movable contact for engaging said fixed contact and carried by a bimetallic strip, a heating element operatively associated with said strip, a switch disposed in said chamber comprising a movable contact and two fixed contacts, means for urging said last named movable contact into engagement with one of said fixed switch contacts, a fusible member normally maintaining said last named movable contact in engagement with the second of said fixed switch contacts, said last named movable contact being connected to said source of power, said second fixed switch contact being connected in series with said heating element and said first movable Contact and an alarm connected to said first fixed switch contact and said source of power whereby said first movable con tact will periodically engage and disengage said first fixed contact to intermittently energize said ignition means, said ignition means serving to
  • a device for automatically indicating the presence of a combustible gas comprising walls defining a chamber having an opening in a wall, a relatively fine screen covering said opening, a pair of contacts, electrically energizable ignition means in said chamber, a source of power, circuit means connecting said ignition means to said source of power through said contacts, means to open and close said contacts repetitiously to intermittently energize and deenergize said ignition means, an electric switch in said circuit means, said switch including a throw member movable between two positions, a heat-destructible member disposed in said chamber and normally maintaining said throw member in one position which permits intermittent energization of said ignition means, an electric alarm, circuit means connecting said alarm to said source of power when the throw member is in its second position, and means biasing the throw member to its second position, whereby gas entering said chamber through said screen will be ignited by said ignition means, said burning gas destroying said heatdestructible means to permit the throw member to be moved to its second position to energize the alarm and deenergize the ignition
  • a device for automatically indicating the presence of a combustible gas comprising walls defining a chamber having an opening in a wall, a relatively fine screen covering said opening, electrically energizable ignition means in said chamber, a source of power, an electric switch including a throw member movable between two positions, a heat-destructible member disposed in said chamber and normally maintaining said throw member in one position, circuit means connecting said ignition means to said source of power through said switch when the throw member is in its said one position, an electric alarm, circuit means connecting said alarm to said source of power when the throw member is in its second position, and means biasing the throw member to its second position, whereby gas entering said chamber through said screen will be ignited by said ignition means, said burning gas destroying said heat-destmctible means to permit the throw member to be moved to its second position to energize the alarm and deenergize the ignition means.

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Description

Dec. 13. 1955 M. LORENZETTO 2,727,225
SIGNALING APPARATUS-FOR INDICATING THE PRESENCE OF A COMBUSTIBLE GAS Filed March 27, 1952 2 Sheets-Sheet 1 L51 2 AW IE --J IN V EN TOR. Ma Z 075N151 1a Dec. 13. 1955 M LQRENZETTO 2,727,225
SIGNALING APPARATUS FOR INDICATING THE PRESENCE OF A COMBUSTIBLE GAS Filed March 27, 1952 2 Sheets-Sheet 2 IN V EN TOR. fllo 7 11: Tro
lrrarw y United States Patent Ofliice 2,727,225 Patented Dec. 13, 1955 SIGNALING APPARATUS FOR INDICATING THE PRESENCE OF A COMBUSTIBLE GAS Marcello Loreuzetto, Milan, Italy Application March 27, 1952, Serial No. 278,914
Claims priority, application Spain March 31, 1951 8 Claims. (Cl. 340-237) This invention relates to signalling apparatus for indicating the presence of a combustible gas.
The presence of a combustible gas in air is a great danger in modern life. It is liable to occur, for example, from leakage of illuminating gas in apartments or laboratories, or from vaporization of volatile fuels. It also is likely to be present in mines where fire-damp or other inflammable gases escape into the tunnels.
It is diflicult to prevent such disasters because of the lack of a proper device for determining the presence of the gas before it accumulates in a sufllcient quantity to be explosive.
It is the principal object of the present invention to provide a device which is capable of immediately signalling the presence of small quantities of a combustible gas in the air.
It is another object of my invention to provide a device of the character described which can be used equally well to detect a combustible gas that is either heavier or lighter than air.
In the accompanying drawings, in which I have shown, by way of example, various possible embodiments of my invention,
Fig. 1 is a longitudinal sectional view through a device constructed in accordance with my invention,
Fig. 2 is a sectional view taken substantially along the line 22 of Fig. 1,
Fig. 3 is a circuit diagram for said device,
Fig. 4 is a view similar to Fig. l of a device embodying a modified form of my invention,
Fig. 5 is a sectional view taken substantially along the line 55 of Fig. 4,
Fig. 6 is a circuit diagram for the device of Fig. 4, and
Fig. 7 is an elevational view of one of the springs in the device of Fig. 4.
In general, I carry out my invention by providing a device which includes a combustion chamber having an opening covered with a fine screen similar to the one used in a conventional Davy lamp. An electrically energizable ignition means is located in the chamber to provide a temperature higher than the point of inflammability of the gas. Such a means may constitute, for example, a mechanism for intermittently producing a spark, or simply a hot wire resistance. Desirably, although not necessarily, the latter ignition means may only be intermittently energized in order to conserve energy. The device is energized by a source of power. A switch is included in a circuit connecting the source of power to the ignition means. Said switch has a throw member which is movable between two positions. The throw member is held in one position by a heat-destructible member located in the combustion chamber. In this position the switch connects the source of power to the ignition means. The throw member is urged to its other position by a biasing means and in its other position it connects the source of power to an electric alarm of any desired type. Thus when gas enters the combustion chamber through the screen it will be ignited by the ignition means and will destroy the heat-destructible means to permit the throw member to be moved to its alternate position whereby to deenergize the ignition means and energize the alarm. It will be appreciated that the fine screen will prevent propagation of the flame to the ambient atmosphere.
Referring now in detail to the drawings, and more particularly to Figs. l3, the reference numeral 1 denotes a base of insulating material of any desired shape, e. g. circular or square. A cylindrical wall 2 is secured on the base, as by screws 3. A plate 4 is fitted over the top of the wall and is held thereto, as by screws 5. Said plate is covered with asbestos. The upper rim of the wall 2 is enlarged to receive a ring 6 which is dimensioned to be press-fitted into the rim. The ring is secured to the rim by a hinge 7 and a clip (not shown) diametrically opposed to the hinge.
Said ring carries a metallic safety net 8 which preferably is dome-shaped.
A projection on the base mounts a pair of spaced leaf springs 10, 11 on the tips of which contacts 10a, 114, respectively, are secured. A third leaf spring 9 is mounted on the projection between the leaf springs 10, 11. Said third leaf spring extends through an opening 4a in the plate 4 so that its upper end is located in the combustion chamber defined by the plate 4, the ring 6 and the net 8.
A heat-destructible strip 12 is located in said combustion chamber. The strip has through openings at its opposite ends. The upper end of the leaf spring 9 is threaded through the opening at one end of the strip. The other opening receives the upstanding leg of an angle racket secured to the plate 4. The spring 9 has contacts and if unrestrained it will assume a position in which said contact 9a engages the contact 10a. The strip 12 holds the spring 9 in a position in which the contact 9a engages the contact 11a.
An electromagnetic coil 16 supported on the base 1 carries a metallic arm 15 provided with a contact 15a. Another leaf spring 14 is supported by the base. Said last-named spring mounts an armature 17 for the coil 16. It also mounts a contact 14a which engages contact 15:: when the coil is deenergized.
The under surface of the base has terminals RI and RH for connection to a source of electric power and contacts C1 and C2 for connection with an audible or visual alarm, e. g. a bell C.
The upper ends of the spring 14 and arm 15 extend through an opening 412 in the plate 4 so that the contacts 14a, 15a likewise are located in the combustion chamber.-
The electric circuit for the device is apparent from Fig. 3 and from the following description of the operation of 9a against the contact 11a so that current passes from RI through spring 9, spring 11, spring 14, arm 15 and coil 16 in series to RII. This excites the coil. The armature 17 is attracted, thereby opening contacts 14a, 15a to create a spark. The coil deenergizes, reclosing contacts 14a, 15a and reexciting the coil. This produces intermittent sparking which will suflice to ignite any cornbusible gas which enters the combustion chamber through the net 8. In such event the ensuing flame quickly destroys the strip 12, allowing the spring 9 operating as a throw member to shift away from spring 11 and toward spring 10. This opens contacts 9a, 11a which supply current to the coil 16 and closes contacts 90, 10a and thereupon supplies current to the bell C. The alarm circuit will remain energized until cut out by some person. To reset the device after the source of combustible gas has been discovered and remedied, a new strip 12 is inserted.
The device illustrated in Figs. 4-7 is quite similar to that described with reference to Figs. 1-3, differing therefrom only in the nature of the ignition means. Hence the coil 16, spring 14, arm 15 and armature 17 are omitted and another ignition means substituted therefor. The other parts are the same and are denoted by the same reference numerals.
The substitute ignition means constitutes a spiral resistance 20 located in the combustion chamber and carried by leads 18, 19 extending from the base 1 through the plate 4. A plate21 carries a contact 21a. A second contact 22a is carried by a leaf spring 22. The spring 22 biases the contact 22a away 'from the contact 21a. The plate 21 and spring '22 are sup orted on the base 1. Said base also sup orts a bimetallic strip 24 around which a heating coil 23 is wound. The tip of the strip 24 rests against the middle 22b of the spring 22 and when the strip is cold causes the contacts 21a, 22a to engage. Heating the strip 24 warps it in a direction for its tip to flex away from the spring 22 permitting contacts 21a, 22a to disengage.
In the operation of the device shown in Figs. 4-7, the contacts 21a, 22a are normally closed so that current passes from terminal RI through series-connected spring 9, spring 11, heating 'coil 23, spring 22, contacts 22a, 21a, plate 21, lead 19, ho't'wire resistance coil "20 and lead 1 to terminal RII. Coil 23, bimetallic strip 24, spring 22, plate 21 and contacts 21a, 22a constitute a self-opening thermal switch so that after a period or time the contacts 21a, 22a 'will open upon the bimetallic 'srtip being warmed sufiiciently by the heating coil 23. In the interim the coil 20 is heated to incandescence and will ignite any combustible gas that may be present in the combustion chamber. When the contacts 21a, 2211 open they will deenergize the heating coil 23 permitting the bimetallic strip to flex back and 'r'eclose said contacts. This action repeats cyclically, thus intermittently energizing the ignition means.
I claim:
1. A device for automatically indicating the presence of a combustible gas comprising walls defining a chamber, an opening in one wall, a relatively fine mesh screen covering said opening, a 'fix'ed contact disposed within said chamber, a movable contact, resilient means for normally urging said movable contact into engagement "with said fixed contact, an ,electro'magn'e't 'for moving said movable contact out of engagement with "said fixed contact, a switch disposed in "said chamber comprising a movable contact 'and'two fi'xed contacts, resilient 'm'ea'n's torurging said last named movable contact into engagement with one of said fixed switch contacts, a heat-destructibie member normally maintaining said last named movable contact in engagement with the second of said fixed switch contacts, 'said last named movable contact being connected to a source ofpower, "said s'e'cond'fix'ed switch "contact being connected "to said first movable ccmtact, said first fixed contact being connected in series with "said electromagnet and said source of power and an alarm connected to said first fixed switch contact and said source of power whereby, said first movable contact'will periodically engage and disengage said first fixed contact 'to provide an intermittent spark, said spark s'erving'to ignite a gas entering said chamber through said screen, said burning gas destroying "said heat-destructible member to permit movement of said movable switch contact into engagement with said first fixed swtich contact thereby energizing said alarm and deene'r'gizing said electromagnet.
2. A device for automatically indicating the presence of a combustible gas comprising walls'defining a chamber, an opening in one wall, a relatively'fine'mesh screen covering said opening, a fixed contact disposed within said chamber, a movable contact, means for normally urging said movable contact into engagement with said fixed contact, an electromagnet for moving said movablecontact out of engagement with said -fixed contact, a switch disposed in said chamber comprising a movable contact 4 and two fixed contacts, means for urging said last named movable contact ifilf) engage 'l'il't With one Of said fiXed switch contacts, a heat-destructible member normally maintaining said last named movable contact in engagement with the second of said fixed switch contacts, sm'd last named movable contact being connected to a source of power, said second fixed switch contact being connected to said first movable contact, said first fixed contact being connected in series with said electromaguet and said source of power and an alarm connected to said first fixed switch contact and said source of power whereby said first movable contact will periodically engage and disengage said first fixed contact to provide an intermittent spark, said spark serving to ignite a gas entering said chamber through said screen, said burning gas destroying said heat-destructible member to permit movement of said movable switch contact into engagement with said first fixed switch contact thereby energizing said alarm and deenergizing said electromagnet.
3. A device for automatically indicating the presence of a combustible gas comprising walls defining a chamber, an opening in one wall, a relatively fine mesh screen covering said opening, a fixed contact disposed within said chamber, a movable contact, means for normally urging said movable contact into engagement with said fixed contact, an electromagnet for moving said movable contact out of engagement with said fixed contact, a switch disposed in said chamber comprising a movable contact and two fixed contacts, means for urging said last namedmovable contact into engagement with one of said fixed switch contacts, a fusible member normally maintaining said last named movable contact in engagement with the second of said fixed switch contacts, said last named movable contact being connected to a source of power said second fixed switch contact being connected to said first movable contact, said first fixed contact being connected in series with said electromagnet and said source of power and an alarm connected to said first fixed switch contact and said source of power whereby said first movable contact will periodically engage and disengage said first fixed contact to provide an intermittent spark, said spar-k serving to ignite a gas entering said chamber through said screen, said burning gas melting said fusible member to permit movement of said movable switch contact into engagement with said first fixed switch contact thereby energizing said alarm and deenergizing said electromagnet.
4. A device torautomatically indicating the presence of a combustible gas comprising walls defining a chamber, an opening in one wall, -a relatively fine mesh screen covering said opening, a fixed contact disposed in said chamber, an ignition coil connetced to said fixedcontact and a source of power, a movable contact for engaging said fixed contact and carried -by a bimetallic strip, a heating element operatively associated with said strip, a switch disposed in said chamber comprising a movable contact and two fixed contacts, resilient means for urging said 'last named movable contact into engagement with one o fsaid fixed switch contacts, aheat-destructible member normally maintaining said last named movable contact in engagement with the second of said :fixed switch contacts, said last named movable contact being connected to said source of power, said second fixed switch contact being connected in series with said heating element and said first movable contact and an alarm connected to said first fixed switch contact and said source of power whereby said first movable contact will periodically engage and disengage said first fixed contact to intermittently :heat said ignition coil, said heated coil serving to ignite a gas-entering said chamber through said screen, said burning gas destroying said heat-destructible member to permit movement of said movable switch contact into engagement with said first fixed switch contact thereby energizing said alarm and opening the circuit to said heating element.
5. A device for automatically indicating the presence of a combustible gas comprising walls defining a chamber, an opening in one wall, a relatively fine mesh screen covering said opening, a fixed contact disposed in said chamber, an ignition means connected to said fixed contact and a source of power, a movable contact for engaging said fixed contact and carried by a bimetallic strip, a heating element operatively associated with said strip, a switch disposed in said chamber comprising a movable contact and two fixed contacts, means for urging said last named movable contact into engagement with one of said fixed switch contacts, a heat-destructible member normally maintaining said last named movable contact in engagement with the second of said first switch contacts, said last named movable contact being connected to said source of power, said second fixed switch contact being connected in series with said heating element and said first movable contact and an alarm connected to said first fixed switch contact and said source of power whereby said first movable contact will periodically engage and disengage said first fixed contact to intermittently energize said ignition means, said ignition means serving to ignite a gas entering said chamber through said screen, said burning gas destroying said heat-destructible member to permit movement of said movable switch contact into engagement with said first fixed switch contact thereby energizing said alarm and opening the circuit to said heating element.
6. A device for automatically indicating the presence of a combustible gas comprising walls defining a chamber, an opening in one wall, a relatively fine mesh screen covering said opening, a fixed contact disposed in said chamer, an ignition means connected to said fixed contact and a source of power, a movable contact for engaging said fixed contact and carried by a bimetallic strip, a heating element operatively associated with said strip, a switch disposed in said chamber comprising a movable contact and two fixed contacts, means for urging said last named movable contact into engagement with one of said fixed switch contacts, a fusible member normally maintaining said last named movable contact in engagement with the second of said fixed switch contacts, said last named movable contact being connected to said source of power, said second fixed switch contact being connected in series with said heating element and said first movable Contact and an alarm connected to said first fixed switch contact and said source of power whereby said first movable con tact will periodically engage and disengage said first fixed contact to intermittently energize said ignition means, said ignition means serving to ignite a gas entering said chamber through said screen, said burning gas melting said fusible member to permit movement of said movable switch contact into engagement with said first fixed switch contact thereby energizing said alarm and opening the circuit to said heating element.
7. A device for automatically indicating the presence of a combustible gas, said device comprising walls defining a chamber having an opening in a wall, a relatively fine screen covering said opening, a pair of contacts, electrically energizable ignition means in said chamber, a source of power, circuit means connecting said ignition means to said source of power through said contacts, means to open and close said contacts repetitiously to intermittently energize and deenergize said ignition means, an electric switch in said circuit means, said switch including a throw member movable between two positions, a heat-destructible member disposed in said chamber and normally maintaining said throw member in one position which permits intermittent energization of said ignition means, an electric alarm, circuit means connecting said alarm to said source of power when the throw member is in its second position, and means biasing the throw member to its second position, whereby gas entering said chamber through said screen will be ignited by said ignition means, said burning gas destroying said heatdestructible means to permit the throw member to be moved to its second position to energize the alarm and deenergize the ignition means.
8. A device for automatically indicating the presence of a combustible gas, said device comprising walls defining a chamber having an opening in a wall, a relatively fine screen covering said opening, electrically energizable ignition means in said chamber, a source of power, an electric switch including a throw member movable between two positions, a heat-destructible member disposed in said chamber and normally maintaining said throw member in one position, circuit means connecting said ignition means to said source of power through said switch when the throw member is in its said one position, an electric alarm, circuit means connecting said alarm to said source of power when the throw member is in its second position, and means biasing the throw member to its second position, whereby gas entering said chamber through said screen will be ignited by said ignition means, said burning gas destroying said heat-destmctible means to permit the throw member to be moved to its second position to energize the alarm and deenergize the ignition means.
References Cited in the file of this patent UNITED STATES PATENTS 872,039 Adams Nov. 26, 1907 977,947 Grohs Dec. 6, 1910 1,088,611 Neufaver Feb. 24, 1914 1,390,497 Chance et a1 Sept. 13, 1921 1,756,749 Hunt et a1. Apr. 29, 1930 1,821,871 Bayer Sept. 1, 1931 2,102,457 Gandy Dec. 14, 1937 2,345,772 Robertson et al. Apr. 4, 1944

Claims (1)

1. A DEVICE FOR AUTOMATICALLY INDICATING THE PRESENCE OF A COMBUSTIBLE GAS COMPRISING WALLS DEFINING A CHAMBER, AN OPENING IN ONE WALL, A RELATIVELY FINE MESH SCREEN COVERING SAID OPENING, A FIXED CONTACT DISPOSED WITHIN SAID CHAMBER, A MOVABLE CONTACT, RESILIENT MEANS FOR NORMALLY URGING SAID MOVABLE CONTACT INTO ENGAGEMENT WITH SAID FIXED CONTACT, AN ELECTROMAGNET FOR MOVING SAID MOVABLE CONTACT OUT OF ENGAGEMENT WITH SAID FIXED CONTACT, A SWICH DISPOSED IN SAID CHAMBER COMPRISING A MOVABLE CONTACT AND TWO FIXED CONTACTS, RESILIENT MEANS FOR URGING SAID LAST NAMED MOVABLE CONTACT INTO ENGAGEMENT WITH ONE OF SAID FIXED SWITCH CONTACTS, A HEAT-DESTRUCTIBLE MEMBER NORMALLY MAINTAINING SAID LAST NAMED MOVABLE CONTACT IN ENGAGEMENT WITH THE SECOND OF SAID FIXED SWITCH CONTACTS, SAID LAST NAMED MOVABLE CONTACT BEING CONNECTED TO A SOURCE OF POWER, SAID SECOND FIXED SWITCH CONTACT BEING CONNECTED TO SAID FIRST MOVABLE CONTACT, SAID FIRST FIXED CONTACT BEING CONNECTED IN SERIES WITH SAID ELECTROMAGNET AND SAID SOURCE OF POWER AND AN ALARM CONNECTED TO SAID FIRST FIXED SWITCH CONTACT AND SAID SOURCE OF POWER WHEREBY, SAID FIRST MOVABLE CONTACT WILL PERIODICALLY ENGAGE AND DISENGAGE SAID FIRST FIXED CONTACT TO PROVIDE AN INTERMITTENT SPARK, SAID SPARK SERVING TO IGNITE A GAS ENTERING SAID CHAMBER THROUGH SAID SCREEN, SAID BURING GAS DESTROYING SAID HEAT-DESTRUCTIBLE MEMBER TO PERMIT MOVEMENT OF SAID MOVABLE SWITCH CONTACT INTO ENGAGEMENT WITH SAID FIRST FIXED SWITCH CONTACT THEREBY ENERGIZING SAID ALARM AND DEENERGIZING SAID ELECTROMAGNET.
US278914A 1951-03-31 1952-03-27 Signaling apparatus for indicating the presence of a combustible gas Expired - Lifetime US2727225A (en)

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US3090038A (en) * 1959-06-08 1963-05-14 Great Lakes Pipe Line Company Hazardous atmosphere detecting and signalling system
US3452350A (en) * 1966-04-05 1969-06-24 Fenwal Inc Explosion suppression system including explosion simulation and testing apparatus
US9642290B2 (en) 2013-03-14 2017-05-02 Emprimus, Llc Electromagnetically protected electronic enclosure

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US872039A (en) * 1903-09-30 1907-11-26 Daniel B Adams Automatic alarm and stopping device for engines.
US977947A (en) * 1910-06-15 1910-12-06 Anton Grohs Danger-signal apparatus for mines, &c.
US1088611A (en) * 1913-02-25 1914-02-24 Heinrich Neubauer Device for signalizing the presence of explosive gas mixtures in fire-damp mines.
US1390497A (en) * 1917-04-17 1921-09-13 Edwin M Chance Method and apparatus for the detection of combustible and vitiated atmospheres
US1756749A (en) * 1928-08-13 1930-04-29 Oxweld Acetylene Co Filament mounting for gas-detecting apparatus
US1821871A (en) * 1927-11-23 1931-09-01 Bayer Adolph Gas detection apparatus
US2102457A (en) * 1935-01-15 1937-12-14 Gandy Raymond Alfred Gas detecting apparatus
US2345772A (en) * 1940-03-23 1944-04-04 W L Garland Gas detecting apparatus

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Publication number Priority date Publication date Assignee Title
US872039A (en) * 1903-09-30 1907-11-26 Daniel B Adams Automatic alarm and stopping device for engines.
US977947A (en) * 1910-06-15 1910-12-06 Anton Grohs Danger-signal apparatus for mines, &c.
US1088611A (en) * 1913-02-25 1914-02-24 Heinrich Neubauer Device for signalizing the presence of explosive gas mixtures in fire-damp mines.
US1390497A (en) * 1917-04-17 1921-09-13 Edwin M Chance Method and apparatus for the detection of combustible and vitiated atmospheres
US1821871A (en) * 1927-11-23 1931-09-01 Bayer Adolph Gas detection apparatus
US1756749A (en) * 1928-08-13 1930-04-29 Oxweld Acetylene Co Filament mounting for gas-detecting apparatus
US2102457A (en) * 1935-01-15 1937-12-14 Gandy Raymond Alfred Gas detecting apparatus
US2345772A (en) * 1940-03-23 1944-04-04 W L Garland Gas detecting apparatus

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3090038A (en) * 1959-06-08 1963-05-14 Great Lakes Pipe Line Company Hazardous atmosphere detecting and signalling system
US3452350A (en) * 1966-04-05 1969-06-24 Fenwal Inc Explosion suppression system including explosion simulation and testing apparatus
US9642290B2 (en) 2013-03-14 2017-05-02 Emprimus, Llc Electromagnetically protected electronic enclosure
US10136567B2 (en) 2013-03-14 2018-11-20 Emprimus, Llc Electromagnetically protected electronic enclosure

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FR1062463A (en) 1954-04-23
CH304216A (en) 1954-12-31

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