US2420775A - Thermostatic switch - Google Patents
Thermostatic switch Download PDFInfo
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- US2420775A US2420775A US571555A US57155545A US2420775A US 2420775 A US2420775 A US 2420775A US 571555 A US571555 A US 571555A US 57155545 A US57155545 A US 57155545A US 2420775 A US2420775 A US 2420775A
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- wall
- tube
- container
- socket
- diaphragm
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H37/00—Thermally-actuated switches
- H01H37/02—Details
- H01H37/32—Thermally-sensitive members
- H01H37/36—Thermally-sensitive members actuated due to expansion or contraction of a fluid with or without vaporisation
Definitions
- This invention relates t improvements in a thermostat for use in connection with fire protection apparatus, for controlling an electric circuit adapted for operating an alarm, a signal and like devices, of the type disclosed in Patent No. 2,318,480, issued to me May 4, 1943.
- the object of my invention is'to provide a thermostat which is operable upon a rapid rate of rise in temperature or upon a predetermined ilxed temperature, with novel means for insuring its effective operation.
- a further object is to provide a thermostat, of the rate of rise type, with means actuated at a fixed temperature, in the form of a tubular container and a bearing mounting the container for axial movement when the temperature is suilicient for releasing the container, from the bearing by the fusing of solder, and permitting the container to be extended by the expansive action of air, or
- a further object is to provide a thermostat having a diaphragm forming a movable wall of an air chamber adapted for controlling an electric circuit, provide a tubular container normally secured within the air chamber by means fusible at a predetermined temperature and arrange a bearing within the air chamber for mounting vthe container for movement into engagement with the diaphragm by the action of an expansive medium sealed within the container, upon the fusing of said means.
- a further object is to provide a guide within the air chamber for directing the container toward the diaphragm for moving the latter into circuit closing position.
- a further object is to provide a closure, formed of insulating material, for sealing the end of the container which engages the diaphragm and also for electrically insulating the container from the diaphragm and from the guide.
- Fig. 1 is an enlarged vertical sectional view of a thermostat embodying my invention.
- Fig. 2 is a view similar to Fig. 1, showing the parts in the operative position.
- 5 represents a thermostat comprising a support, or base 6, formed of insulating material and provided with ears 'I for A thin metal shell 8 is secured upon the support 6, and a flexible metal wall, or diaphragm I0, is
- the shell 8 forms an air chamber I2 and the diaphragm forms a distendable wall I0 of said chamber.
- the periphery of the diaphragm, or wall I6, is secured upon a depending ange I3, formed upon the support 6.
- a guard I4 in the form of a metal disk, is also secured upon the flange I3 and ex-v tends adjacent to the wall I0, for limiting the movement of the latter toward the interior of the air chamber I2.
- the support 6 is provided with the usual slow leak vent I5, through which the air in the chamber I2 may equalize with the atmosphere, during normal changes in temperature, and a rapid rate in rise of temperature, due to a fire, will distend the wall I0 and actuate the thermostat.
- the support 6 has a relatively thin wall, or partition I6 located in spaced relation with the central portion of the diaphragm I0 and forms a' cavity II for the free movement of the diaphragm. Said Wall I6 also provides a cavity I8 adjacent to the cover plate I 9. The wall I6 has a vent 20 through ⁇ which the air in the cavity I1 may equalize through the cavity I6 with the atmosphere.
- the support 6 is provided with an opening 2
- a conductor plate 32 is secured upon the wall I6 by a tubular rivet 33, in which the screw 30 is mounted for adjustment.
- a binding screw 34 upon the plate 32 forms a means for attaching the wire 23, and electrically connects the terminal 30 in said circuit.
- a terminal 35 in the form of a spring metal plate is secured at one end thereof upon the wall I6 by a rivet 36, which is in electrical contact with a conductor plate3l, provided with a binding screw 38, for the attachment of the Wire 2l of the circuit 25.
- the terminal plate 35 normally holds the diaphragm IO in spaced relation with the terminal 30, and is adapted to engage the terminal 30 and complete the circuit 25, upon the wall or diaphragm I0 being distended. as shown in Fig. 2.
- the present invention is adapted to be embodied in a rate of rise thermostat such as above described and comprises novel means for actuating the diaphragm and closing the circuit by expansive means releasable by the fusing of solde at a predetermined temperature.
- a container 40 preferably in the form of a metal tube, is mounted for axial movement within the air chamber I2, between the shell 8 and the diaphragm i0.
- the tube 40 is positioned with its axis approximately perpendicular to the plane of the diaphragm and is adapted for engaging the central portion of the latter and distending it into circuit closing position.
- the end of the tube forming the container 40 which is located adjacent to the diaphragm Il), is permanently sealed by a closure in the form of a plug 42, secured in the tube 40.
- a bearing 43 is provided upon the shell 3 for telescopically mounting the end of the tube 40 opposite to the diaphragm III.
- Said bearing 43 is preferably in the form oi' a socket formed integrally with the metal shell 8 and projects outwardly from the air chamber I2 and forms a.
- the tube 40 is secured and sealed within the socket 43 by fusible material, ,such as solder 45.
- Said material 45 secures the container 4II against movement, relatively to the wall or diaphragm III, until the temperature surrounding the socket 43 increases sumciently to fuse the solder and the expansion of the air within the container 40, due to said increase in temperature, will move the container, relatively to the socket 43, into engagement with the wall or diaphragm I and distend it into a position for closing the circuit between the terminals 30 and 35.
- the solder 45 when fused, forms 9, lubricant between the socket 43 and the tube 40 and insures the free movement of the latter.
- the socket 43 is preferably formed so that it projects outwardly from the surface of the shell 8, which permits the tube 40 to have a greater length and capacity for the expansive medium contained therein, without increasing the size of the shell 8, and the heat, in the event of a fire, will be readily conducted through the exposed metal socket for fusing the solder and expanding the contents of the tube.
- I'he plug 42 for confining the air, or expansive medium, within the tube 40 is secured in said tube after the tube has been soldered upon the socket 43 and the tube allowed to cool, so that the expansible medium will be sealed within the tube 4
- a guide 46 is provided for directing the tube 4I) into engagement with the wall, or diaphragm III, when the tube is moved relatively to the socket 43.
- Said guide 46 is formed by making radial slits in the center of the metal guard plate I4 and turning the points 41 so that they will form a sleeve projecting into the air chamber I2 and adapted for directing the tube 4I! into engagement with the central portion of the wall or diaphragm I 0.
- the shell 8 and the container 40 are electrically insulated by the plug 42 which is formed ci.' insulating material.
- Said plug 42 has a head 49 which extends beyond the metal tube 40 and is adapted to engage the diaphragm IIJ.
- the head 49 is of larger diameter than the tube 40 and prevents the latter from making electrical contact with the sleeve forming the guide 46.
- the operation is as follows: When there is a rapid rate in rise of temperature in the air sur- 4 of a tire, the wall, or diaphragm I0. will be distended by an increase in pressure of the air within the chamber I2 and close the circuit between the terminals 30 and 35.
- the pressure of the air in the cham'ncr I2 may equalire with the atmosphere, through the slow leak vent I5, without actuating the d.aphragm, in which event the heat from the re will be conducted through the thin metal socket 43 to the solder 45, which will fuse at a predetermined temperature and release the container 40 from the socket 43.
- the container 40 is then moved, relatively to the socket 43. by the expansive action oi' the air, or other expansive medium, sealed within the container 40, into engagement with the diaphragm I0 and distends the latter for closing the circuit between the terminals 30 and 35, and actuating the alarm.
- the chamber 4! is completelyclosed prior to melting o! the solder 45, whereas the chamber I2 is provided with a slow leak, so that on heating up. and especially on slow heating, when the chamber 40 is effective, the air in the chamber 40 will be confined and the air in the chamber I2 will be. connected to the atmosphere through the leak Il. Accordingly the pressure in the chamber 4I, especially during a slow fire, prior to the melting otY the solder, will be reliably greater than the pressure in thevchamber I2 and ei'i'ective to operate the device when the solder 45 melts.
- a thermostat comprising an insulating support, terminals upon said support adapted to be included in an electric circuit, a shell forming an air chamber mounted upon said support, a wall forming part of said chamber adapted to be distended by expanded air for closing the circuit between said terminals, a tubular container positioned in said chamber between said wall and said shell, a tubular socket upon said shell upon which the container is mounted for movement perpendicular to the plane oi said wall.
- means fusible at a predetermined temperature adapted to secure the container upon said socket, and expansive medium within said container tending to move the latter relatively to the socket into engagement with said wall upon the fusing of said means and distend said wall into circuit closing position.
- a thermostat comprising an insulating support, terminals upon said support adapted to be included in an electric circuit, a shell forming an air chamber mounted upon said support, a wall forming part of said chamber adapted to be distended by expanded air vfor closing the circuit between said terminals, a tube forming an air container positioned within said chamber between said wall and said shell, a tubular socket upon said shell upon which the end of the tube opposite to said wall is mounted for axial movement of the tube into engagement with said wall,
- a thermostat comprising an insulating support, terminals upon said support adapted to be included in an electric circuit, a shell forming an air chamber mounted upon said support, a wail forming part of said chamber adapted to be distended by expanded air for closing the circuitl between said terminals, a tubular container positioned in ⁇ said chamber between said wall and said shell, a tubular socket upon said shell upon which one end of said container is slidably, mounted, a guide upon said support/adapted to embrace the end of the container-located adjacent to said wall, said socket and said guide positioned for holding the container withits axis approximately perpendicular to the plane of said wall, solder fusible at a predetermined temperature adapted to secure the container upon the socket, and means within the container tending to move the container relatively to the socket and into engagement with said wall and distend the latter into circuit closing lposition upon the fusing of the solder.
- a thermostat comprising an insulating support, terminals upon said support adapted to be inclined'in an electric circuit, a shell upon said support forming an air chamber, a wall of said chamber adapted to be distended for closing the circuit between said terminals, a metal tube forming a container positioned in said chamber between said wall and said shell, an expansible medium within said container, a metal socket upon the shell upon which'one end of said tube is mounted for movement toward said wall, solder fusible at a predetermined temperature securing and sealing said tube upon the socket, and a closure of insulating material permanently sealing the end of said tube adjacent to said wall and adapted for engaging the latter by a movement of said tube upon the fusing of the solder.
- a thermostat comprising an insulating support, terminals upon said support adapted to be included in an electric circuit, a shell forming an air chamber mounted upon said support, a wall forming part of said chamber adapted to be distended by expanded air in said chamber for controlling said circuit, a tube forming an air container positioned within said chamber, a tubular socket upon said shell for mounting the tube for movement for distending said wall, a guide upon said support adapted to embrace the end of the tube adjacent to said wall, a closure of insulating material permanently sealing the end of the tube located adjacent to said wal1,an enlarged head lupon said closure adapted for electrically insulating the tube from said guide and from said wall, means securing and sealing said tube upon said socket, and said means adapted to fuse at a predetermined temperature and release the tube for movement by the expansion of air Within the tube for distending said wall.
Description
May 20, 1947- rw. B. GRIFFITH 2,420,775
TI'IERMSTA'I'IC4 SWITCH n 'Filed Jan. e, 1945 45 fnvntor.- v v mm. Erw-d70 ./ttarlvzey Patented May 20, 1947 AUNITED STATES PATENT OFFICE y z,4zo,77`5
william n. Grimm, stone Harbor, N. J. Application January 6, 1945, serial N0. 571,555
This invention relates t improvements in a thermostat for use in connection with fire protection apparatus, for controlling an electric circuit adapted for operating an alarm, a signal and like devices, of the type disclosed in Patent No. 2,318,480, issued to me May 4, 1943.
The object of my invention is'to provide a thermostat which is operable upon a rapid rate of rise in temperature or upon a predetermined ilxed temperature, with novel means for insuring its effective operation.
A further object is to provide a thermostat, of the rate of rise type, with means actuated at a fixed temperature, in the form of a tubular container and a bearing mounting the container for axial movement when the temperature is suilicient for releasing the container, from the bearing by the fusing of solder, and permitting the container to be extended by the expansive action of air, or
'other expansive medium, sealed Within the container.
A further object is to provide a thermostat having a diaphragm forming a movable wall of an air chamber adapted for controlling an electric circuit, provide a tubular container normally secured within the air chamber by means fusible at a predetermined temperature and arrange a bearing within the air chamber for mounting vthe container for movement into engagement with the diaphragm by the action of an expansive medium sealed within the container, upon the fusing of said means.
A further object is to provide a guide within the air chamber for directing the container toward the diaphragm for moving the latter into circuit closing position.
A further object is to provide a closure, formed of insulating material, for sealing the end of the container which engages the diaphragm and also for electrically insulating the container from the diaphragm and from the guide.
These together with various other novel features of construction and arrangement of the parts, which will be more fully hereinafter described and claimed, constitute my invention.
Referring to the accompanying drawing:
Fig. 1 is an enlarged vertical sectional view of a thermostat embodying my invention.
Fig. 2 is a view similar to Fig. 1, showing the parts in the operative position.
In the drawing, in which like reference characters refer to like parts, 5 represents a thermostat comprising a support, or base 6, formed of insulating material and provided with ears 'I for A thin metal shell 8 is secured upon the support 6, and a flexible metal wall, or diaphragm I0, is
mounting the thermostat upon a, wall or ceiling.
also secured upon said support. The shell 8 forms an air chamber I2 and the diaphragm forms a distendable wall I0 of said chamber.
The periphery of the diaphragm, or wall I6, is secured upon a depending ange I3, formed upon the support 6. A guard I4, in the form of a metal disk, is also secured upon the flange I3 and ex-v tends adjacent to the wall I0, for limiting the movement of the latter toward the interior of the air chamber I2.
The support 6 is provided with the usual slow leak vent I5, through which the air in the chamber I2 may equalize with the atmosphere, during normal changes in temperature, and a rapid rate in rise of temperature, due to a fire, will distend the wall I0 and actuate the thermostat.
The support 6 has a relatively thin wall, or partition I6 located in spaced relation with the central portion of the diaphragm I0 and forms a' cavity II for the free movement of the diaphragm. Said Wall I6 also provides a cavity I8 adjacent to the cover plate I 9. The wall I6 has a vent 20 through `which the air in the cavity I1 may equalize through the cavity I6 with the atmosphere. The support 6 is provided with an opening 2| for the passage of wires 23 and 24, forming an electric circuit 25, including a source of current 26 and an alarm device 21.
An adjustable terminal 30, in the form of a screw, is mounted upon the wall I6 and is rnor- Inally in spaced relation with the wall, or diaphragm I 0. A conductor plate 32 is secured upon the wall I6 by a tubular rivet 33, in which the screw 30 is mounted for adjustment. A binding screw 34 upon the plate 32 forms a means for attaching the wire 23, and electrically connects the terminal 30 in said circuit.
A terminal 35 in the form of a spring metal plate is secured at one end thereof upon the wall I6 by a rivet 36, which is in electrical contact with a conductor plate3l, provided with a binding screw 38, for the attachment of the Wire 2l of the circuit 25. The terminal plate 35 normally holds the diaphragm IO in spaced relation with the terminal 30, and is adapted to engage the terminal 30 and complete the circuit 25, upon the wall or diaphragm I0 being distended. as shown in Fig. 2.
The present invention is adapted to be embodied in a rate of rise thermostat such as above described and comprises novel means for actuating the diaphragm and closing the circuit by expansive means releasable by the fusing of solde at a predetermined temperature.
A container 40, preferably in the form of a metal tube, is mounted for axial movement within the air chamber I2, between the shell 8 and the diaphragm i0. The tube 40 is positioned with its axis approximately perpendicular to the plane of the diaphragm and is adapted for engaging the central portion of the latter and distending it into circuit closing position.
The end of the tube forming the container 40, which is located adjacent to the diaphragm Il), is permanently sealed by a closure in the form of a plug 42, secured in the tube 40.
A bearing 43 is provided upon the shell 3 for telescopically mounting the end of the tube 40 opposite to the diaphragm III. Said bearing 43 is preferably in the form oi' a socket formed integrally with the metal shell 8 and projects outwardly from the air chamber I2 and forms a.
closed socket for receiving the open end of the tube 40. The tube 40 is secured and sealed within the socket 43 by fusible material, ,such as solder 45. Said material 45 secures the container 4II against movement, relatively to the wall or diaphragm III, until the temperature surrounding the socket 43 increases sumciently to fuse the solder and the expansion of the air within the container 40, due to said increase in temperature, will move the container, relatively to the socket 43, into engagement with the wall or diaphragm I and distend it into a position for closing the circuit between the terminals 30 and 35.
The solder 45, when fused, forms 9, lubricant between the socket 43 and the tube 40 and insures the free movement of the latter. The socket 43 is preferably formed so that it projects outwardly from the surface of the shell 8, which permits the tube 40 to have a greater length and capacity for the expansive medium contained therein, without increasing the size of the shell 8, and the heat, in the event of a fire, will be readily conducted through the exposed metal socket for fusing the solder and expanding the contents of the tube.
I'he plug 42 for confining the air, or expansive medium, within the tube 40, is secured in said tube after the tube has been soldered upon the socket 43 and the tube allowed to cool, so that the expansible medium will be sealed within the tube 4|! at its normal density.
A guide 46 is provided for directing the tube 4I) into engagement with the wall, or diaphragm III, when the tube is moved relatively to the socket 43. Said guide 46 is formed by making radial slits in the center of the metal guard plate I4 and turning the points 41 so that they will form a sleeve projecting into the air chamber I2 and adapted for directing the tube 4I! into engagement with the central portion of the wall or diaphragm I 0.
The shell 8 and the container 40 are electrically insulated by the plug 42 which is formed ci.' insulating material. Said plug 42 has a head 49 which extends beyond the metal tube 40 and is adapted to engage the diaphragm IIJ. The head 49 is of larger diameter than the tube 40 and prevents the latter from making electrical contact with the sleeve forming the guide 46. By this construction the current will not be conducted from the diaphragm through the container 40 to the shell 8.
The operation is as follows: When there is a rapid rate in rise of temperature in the air sur- 4 of a tire, the wall, or diaphragm I0. will be distended by an increase in pressure of the air within the chamber I2 and close the circuit between the terminals 30 and 35.
In the event of a slow smoldering tire the pressure of the air in the cham'ncr I2 may equalire with the atmosphere, through the slow leak vent I5, without actuating the d.aphragm, in which event the heat from the re will be conducted through the thin metal socket 43 to the solder 45, which will fuse at a predetermined temperature and release the container 40 from the socket 43. The container 40 is then moved, relatively to the socket 43. by the expansive action oi' the air, or other expansive medium, sealed within the container 40, into engagement with the diaphragm I0 and distends the latter for closing the circuit between the terminals 30 and 35, and actuating the alarm.
It will be evident that the chamber 4! is completelyclosed prior to melting o! the solder 45, whereas the chamber I2 is provided with a slow leak, so that on heating up. and especially on slow heating, when the chamber 40 is effective, the air in the chamber 40 will be confined and the air in the chamber I2 will be. connected to the atmosphere through the leak Il. Accordingly the pressure in the chamber 4I, especially during a slow fire, prior to the melting otY the solder, will be reliably greater than the pressure in thevchamber I2 and ei'i'ective to operate the device when the solder 45 melts.
Various changes in the constructionA and arrangement of the parte may be made without departing from my invention I claim:
1. A thermostat comprising an insulating support, terminals upon said support adapted to be included in an electric circuit, a shell forming an air chamber mounted upon said support, a wall forming part of said chamber adapted to be distended by expanded air for closing the circuit between said terminals, a tubular container positioned in said chamber between said wall and said shell, a tubular socket upon said shell upon which the container is mounted for movement perpendicular to the plane oi said wall. means fusible at a predetermined temperature adapted to secure the container upon said socket, and expansive medium within said container tending to move the latter relatively to the socket into engagement with said wall upon the fusing of said means and distend said wall into circuit closing position.
2. A thermostat comprising an insulating support, terminals upon said support adapted to be included in an electric circuit, a shell forming an air chamber mounted upon said support, a wall forming part of said chamber adapted to be distended by expanded air vfor closing the circuit between said terminals, a tube forming an air container positioned within said chamber between said wall and said shell, a tubular socket upon said shell upon which the end of the tube opposite to said wall is mounted for axial movement of the tube into engagement with said wall,
.means normally securing and sealing said end of the tube within said socket, a closure permanently sealing the end of said tube located adjacent to said wall, and said means fusible at a predetermined temperature for releasing the tube from the socket for movement by the expansive action of the air within the tube when heated for distending said wall into circuit closing position.
3. A thermostat comprising an insulating support, terminals upon said support adapted to be included in an electric circuit, a shell forming an air chamber mounted upon said support, a wail forming part of said chamber adapted to be distended by expanded air for closing the circuitl between said terminals, a tubular container positioned in `said chamber between said wall and said shell, a tubular socket upon said shell upon which one end of said container is slidably, mounted, a guide upon said support/adapted to embrace the end of the container-located adjacent to said wall, said socket and said guide positioned for holding the container withits axis approximately perpendicular to the plane of said wall, solder fusible at a predetermined temperature adapted to secure the container upon the socket, and means within the container tending to move the container relatively to the socket and into engagement with said wall and distend the latter into circuit closing lposition upon the fusing of the solder.
4. A thermostat comprising an insulating support, terminals upon said support adapted to be inclined'in an electric circuit, a shell upon said support forming an air chamber, a wall of said chamber adapted to be distended for closing the circuit between said terminals, a metal tube forming a container positioned in said chamber between said wall and said shell, an expansible medium within said container, a metal socket upon the shell upon which'one end of said tube is mounted for movement toward said wall, solder fusible at a predetermined temperature securing and sealing said tube upon the socket, and a closure of insulating material permanently sealing the end of said tube adjacent to said wall and adapted for engaging the latter by a movement of said tube upon the fusing of the solder.
5. A thermostat comprising an insulating support, terminals upon said support adapted to be included in an electric circuit, a shell forming an air chamber mounted upon said support, a wall forming part of said chamber adapted to be distended by expanded air in said chamber for controlling said circuit, a tube forming an air container positioned within said chamber, a tubular socket upon said shell for mounting the tube for movement for distending said wall, a guide upon said support adapted to embrace the end of the tube adjacent to said wall, a closure of insulating material permanently sealing the end of the tube located adjacent to said wal1,an enlarged head lupon said closure adapted for electrically insulating the tube from said guide and from said wall, means securing and sealing said tube upon said socket, and said means adapted to fuse at a predetermined temperature and release the tube for movement by the expansion of air Within the tube for distending said wall.
WILLIAM B.` GRIFFITH.
REFERENCES CITED UNITED STATES PATENTS Name Date Grimm May 4, 19a
Number 2,318,480
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US571555A US2420775A (en) | 1945-01-06 | 1945-01-06 | Thermostatic switch |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US571555A US2420775A (en) | 1945-01-06 | 1945-01-06 | Thermostatic switch |
Publications (1)
Publication Number | Publication Date |
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US2420775A true US2420775A (en) | 1947-05-20 |
Family
ID=24284165
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US571555A Expired - Lifetime US2420775A (en) | 1945-01-06 | 1945-01-06 | Thermostatic switch |
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US (1) | US2420775A (en) |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2919320A (en) * | 1956-07-25 | 1959-12-29 | Bendix Aviat Corp | Diaphragm-type pressure-actuated switch and method of fabricating same |
US3171935A (en) * | 1961-12-29 | 1965-03-02 | Star Sprinkler Corp | Heat responsive device |
US3226025A (en) * | 1963-02-21 | 1965-12-28 | Kysor Industrial Corp | Electrically driven thermostatically controlled heat regulating mechanism for automotive vehicles |
US3271547A (en) * | 1964-01-14 | 1966-09-06 | Fire Devices Mfg Ltd | Fire detector device |
US3303308A (en) * | 1964-01-20 | 1967-02-07 | Gilbert Levy | Fire detection thermostat |
DE2509894A1 (en) * | 1974-03-08 | 1975-10-09 | Hochiki Co | FIRE MONITORING DEVICE |
DE102005060965A1 (en) * | 2005-06-28 | 2007-01-04 | Inter Control Hermann Köhler Elektrik GmbH & Co. KG | Thermal fuse with process for its preparation |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2318480A (en) * | 1942-06-30 | 1943-05-04 | William B Griffith | Thermostat |
-
1945
- 1945-01-06 US US571555A patent/US2420775A/en not_active Expired - Lifetime
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2318480A (en) * | 1942-06-30 | 1943-05-04 | William B Griffith | Thermostat |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2919320A (en) * | 1956-07-25 | 1959-12-29 | Bendix Aviat Corp | Diaphragm-type pressure-actuated switch and method of fabricating same |
US3171935A (en) * | 1961-12-29 | 1965-03-02 | Star Sprinkler Corp | Heat responsive device |
US3226025A (en) * | 1963-02-21 | 1965-12-28 | Kysor Industrial Corp | Electrically driven thermostatically controlled heat regulating mechanism for automotive vehicles |
US3271547A (en) * | 1964-01-14 | 1966-09-06 | Fire Devices Mfg Ltd | Fire detector device |
US3303308A (en) * | 1964-01-20 | 1967-02-07 | Gilbert Levy | Fire detection thermostat |
DE2509894A1 (en) * | 1974-03-08 | 1975-10-09 | Hochiki Co | FIRE MONITORING DEVICE |
US4020442A (en) * | 1974-03-08 | 1977-04-26 | Hochiki Corporation | Composite-type heat-system fire sensing device |
DE102005060965A1 (en) * | 2005-06-28 | 2007-01-04 | Inter Control Hermann Köhler Elektrik GmbH & Co. KG | Thermal fuse with process for its preparation |
DE102005060965B4 (en) * | 2005-06-28 | 2007-08-16 | Inter Control Hermann Köhler Elektrik GmbH & Co. KG | Thermal fuse with process for its preparation |
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