US1679418A - Automatic stoker control - Google Patents
Automatic stoker control Download PDFInfo
- Publication number
- US1679418A US1679418A US219109A US21910927A US1679418A US 1679418 A US1679418 A US 1679418A US 219109 A US219109 A US 219109A US 21910927 A US21910927 A US 21910927A US 1679418 A US1679418 A US 1679418A
- Authority
- US
- United States
- Prior art keywords
- stoker
- furnace
- strip
- control
- wire
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
- 239000000446 fuel Substances 0.000 description 10
- 239000003245 coal Substances 0.000 description 2
- 230000007423 decrease Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000008033 biological extinction Effects 0.000 description 1
- 238000001816 cooling Methods 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 230000010355 oscillation Effects 0.000 description 1
- 230000000630 rising effect Effects 0.000 description 1
Images
Classifications
-
- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05D—SYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
- G05D23/00—Control of temperature
- G05D23/19—Control of temperature characterised by the use of electric means
- G05D23/275—Control of temperature characterised by the use of electric means with sensing element expanding, contracting, or fusing in response to changes of temperature
- G05D23/27535—Details of the sensing element
- G05D23/2754—Details of the sensing element using bimetallic element
Definitions
- the object of my'invention is to provide meansauxiliary to the ordinar control of an automatic stoker which wil cause the stoker to operate occasionally and prevent extinction of the fire regardless of the conditions which operate the ordinary control.
- 1 and 2 represent ordinary 110 volt alternating current leads which supply transformer 3 andalso the stoke'r motor 4 through branch lead 5, wire 6, switch 7, wire 8, terminal 9, resistance. wire 10, terminal 11, and wire 12. Temperature of the space heated by furnace 1.3 is" controlled by thermostat 14. When the lower" limit of temperature is reached thermostat stri'p15 touches contact 16 closing a circuit from transformer terminal 17 through wire 18., terminal 19, coil 20, terminal 21, wire 22, strip 15, contact 16, wire 23, ground connection 24and wire 25 'to the transformer at terminal 26. When coil 20 is energized it attracts armature 27 and closes switch 7 causing the motor to operate the. stoker.
- the apparatus is housed in a metal box 28 and movement of armature 27 towards coil 20 brings the armature into contact with screw 29 which thereafter conveys the current from the coil direct to the switch frame and box whence it finds its way back through ground connection 24 to the transformer thus short eircuiting the thermostat and maintaining thecurrent through coil 20 after rising temperan insulating block 30 which also supports a bi-metallic thermostat strip 31, fastened by one screw 32.
- Strip 31 is adapted to contact, under the influence of temperature variations, with contact points 33 and 34.
- the position of strip 31 can be varied relative to the contact points by rotating pointer 35 about screw 32, thus causmg contact between strip 31 and contact 33 to take place at any desired temperature.
- the motor current passing through resistance wire 10 generates heat which raises the temperature of strip 31 and causes it to bend downward until it touches point 34.
- thermostat strip 15 touches contact 36 a circuit is closed from transformer terminal 17 through wire 18, wire 37, contact point 34, strip 31, wire 38,, contact 36, strip 15, wire 22, and screw 29 to the box and'back to the transformer through ground connection 24.
- This circuit shorts coil 20 and immediately releases armature 27 which falls back into the position shown and breaks contact with screw 29, thus breaking the transformer short circuit which acted to release the armature.
- Coil 20 is alsoenergized and the motor started when strip 31 cools sufiiciently to touch point 33 and close a circuit from the transformer terminal 17 through wire l8, coil 20, wire 22, strip 15, contact 36, wire 38, strip 31,- point 33, Wire 39, ground connection 24, and back to the transformer. This circuit is not operative when strip 15 does not touch con; tact 36.
- the effect of the circuit arrangement heretofore described is to cause the stoker to operate whenever decrease in temperature causes thermostat strip 15 to touch contact 16.- A short period of running causes sufficient heat to be given' off by resistance wire 10 to'bend strip 31 into contact with point 34. As soon as strip 15-touches contact 36 thestoker is stopped. Thereafter as long as the temperature at the thermostat is such that contact between strip 15 and contact 36 is maintained, strip 31 by its oscillation between points 33 and 34, due to heating and, cooling, causes an intermittent operation of the stoker. stoker will not be' stopped after starting until strip 15 touches contact 36.
- the intermittent control has no definite or wholly regular period of operation.
- the box containing the apparatus is usually placed in the basement adjacent to the furnace and varying relative temperature conditions within the box and in the furnace room (ause some variation in the periods.
- the device will, however, maintain the fire in the average stoker in first class condition at all times when it might otherwise become extinguished if the stoker was actuated only by some form of control designed to maintain a fairly constant temperature in the space heated by the furnace.
- the plan and wiring diagram shown is one of several that I have used and it is not the intent of this application to restrict the use of the principles shown to the specific plan and wiring shown.
- thermostatic device housed within a compartment that is electrically heated during the operation of the fuel feed, which thermostatic device is actuated by the temperature variations within the compartment and causes the fuel feed to operate mtermit tently at such times as the fuel feed would otherwise be stopped by the action of'the first named control device.
Description
Aug. 7, 1928.
1,67%,418 L. GARRISON AUTOMATIC STOKER CONTROL Filed Sept. 12, 1927 INVENTOR .Patented Aug. 7, 1928.
1,679,418 PATENT OFFICE.
LLOYD GLBRISbN, OF SALT LAKE CITY, UTAH.
aumomrre s'roxmp conrnon Application filed September 12, 1927. Serial No. 219,109.
. The object of my'invention is to provide meansauxiliary to the ordinar control of an automatic stoker which wil cause the stoker to operate occasionally and prevent extinction of the fire regardless of the conditions which operate the ordinary control.
Heat producing devices using coal, 011,
6 gas, or other fuel are ordinarily controlled in their operation by a thermostatic or pressure device which has as the object of its operation the maintenance of a fairly uniform temperature in the rooms or space heated by the furnace to which such heat producing device supplies heat. With such control the temperature of the space heatedmay, on comparatively warm days, remain above the upper limit of the control device setting for considerablev periods of time, and, if such periods are too long, the failure of a coal stoker to operate may cause the fire to become extinguished. My invention pro vides means auxiliary to ordinary controls, which, by causing occasional operation of the stoker for. short periodstof time regardless of the'ordinary control prevents the fire becoming extinguished. 1
In the accompanyingv drawing which shows a plan and wiring diagram of my device, 1 and 2 represent ordinary 110 volt alternating current leads which supply transformer 3 andalso the stoke'r motor 4 through branch lead 5, wire 6, switch 7, wire 8, terminal 9, resistance. wire 10, terminal 11, and wire 12. Temperature of the space heated by furnace 1.3 is" controlled by thermostat 14. When the lower" limit of temperature is reached thermostat stri'p15 touches contact 16 closing a circuit from transformer terminal 17 through wire 18., terminal 19, coil 20, terminal 21, wire 22, strip 15, contact 16, wire 23, ground connection 24and wire 25 'to the transformer at terminal 26. When coil 20 is energized it attracts armature 27 and closes switch 7 causing the motor to operate the. stoker. The apparatus is housed in a metal box 28 and movement of armature 27 towards coil 20 brings the armature into contact with screw 29 which thereafter conveys the current from the coil direct to the switch frame and box whence it finds its way back through ground connection 24 to the transformer thus short eircuiting the thermostat and maintaining thecurrent through coil 20 after rising temperan insulating block 30 which also supports a bi-metallic thermostat strip 31, fastened by one screw 32. Strip 31 is adapted to contact, under the influence of temperature variations, with contact points 33 and 34.
It'bends toward 33 as the temperature decreases and'toward 34 with increasing temperature. The position of strip 31 can be varied relative to the contact points by rotating pointer 35 about screw 32, thus causmg contact between strip 31 and contact 33 to take place at any desired temperature.
The motor current passing through resistance wire 10 generates heat which raises the temperature of strip 31 and causes it to bend downward until it touches point 34. soon thereafter as thermostat strip 15 touches contact 36 a circuit is closed from transformer terminal 17 through wire 18, wire 37, contact point 34, strip 31, wire 38,, contact 36, strip 15, wire 22, and screw 29 to the box and'back to the transformer through ground connection 24. This circuit shorts coil 20 and immediately releases armature 27 which falls back into the position shown and breaks contact with screw 29, thus breaking the transformer short circuit which acted to release the armature. Coil 20 is alsoenergized and the motor started when strip 31 cools sufiiciently to touch point 33 and close a circuit from the transformer terminal 17 through wire l8, coil 20, wire 22, strip 15, contact 36, wire 38, strip 31,- point 33, Wire 39, ground connection 24, and back to the transformer. This circuit is not operative when strip 15 does not touch con; tact 36.
The effect of the circuit arrangement heretofore described is to cause the stoker to operate whenever decrease in temperature causes thermostat strip 15 to touch contact 16.- A short period of running causes sufficient heat to be given' off by resistance wire 10 to'bend strip 31 into contact with point 34. As soon as strip 15-touches contact 36 thestoker is stopped. Thereafter as long as the temperature at the thermostat is such that contact between strip 15 and contact 36 is maintained, strip 31 by its oscillation between points 33 and 34, due to heating and, cooling, causes an intermittent operation of the stoker. stoker will not be' stopped after starting until strip 15 touches contact 36. The practical effect of the apparatus is to cause the It will be observed that the Ill" Stoker tobe operated by the thermostat as l long as the temperature of the space heated is below the upper limit of the thermostat, but as soon as the temperature rises to the upper limit there is substituted for the thermostat control an intermittent control which serves to maintain the fire regardless of the temperature requirements.
The intermittent control has no definite or wholly regular period of operation. 'The box containing the apparatus is usually placed in the basement adjacent to the furnace and varying relative temperature conditions within the box and in the furnace room (ause some variation in the periods. The device will, however, maintain the fire in the average stoker in first class condition at all times when it might otherwise become extinguished if the stoker was actuated only by some form of control designed to maintain a fairly constant temperature in the space heated by the furnace. The plan and wiring diagram shown is one of several that I have used and it is not the intent of this application to restrict the use of the principles shown to the specific plan and wiring shown.
What I claim as my invention is:
1. The combination of a mechanical fuel feed, a furnace operated in connection therewith, a device to control the operation of the fuel feed according to the amount of heat required to be delivered by the furnace, and a device actuated by the operation and nonoperation of an electrically heated unit to cause intermittent operation of the fuel feed at such times as the operation of the fuel feed would otherwise be stopped by action of the first named control device.
2. The combination of a mechanical fuel feed, a furnace operated in connection therewith, a device to control the operation of.
the fuel feed according to the amount of heat required to be delivered by the furnace, and a thermostatic device housed within a compartment that is electrically heated during the operation of the fuel feed, which thermostatic device is actuated by the temperature variations within the compartment and causes the fuel feed to operate mtermit tently at such times as the fuel feed would otherwise be stopped by the action of'the first named control device.
3. The combination of astoker, a furnace operated in connection with the stoker, a device to control the operation of the stoker according to the amount of heat required to be delivered by the furnace, and a heat operated device to cause intermittent operation of the stoker at such times as the operation of the stoker would otherwise be stopped by action of the first named control device.
4. The combination of a stoker, a furnace operated in connection with said stoker, a device to control the operation of the stoker according to the temperature of the air heated by the furnace, and an auxiliary device actuated by heat to cause intermittent operation of the stoker when the temperature of the air heated by the furnace is above a certain predetermined value.
5. The combination of a stoker, a furnace operated in connection with the stoker, a device to control the operation of the stoker according to the amount of heat required to be delivered by the furnace, and a device actuated by heat to cause intermittent operation of the stoker at such times as the operation of the stoker would otherwise be stopped by the action of heat delivered by the furnace.
' 6. The combination of a stoker, a furnace operated in connection with the stoker, a. device to control the operation of the stoker according to the amount of heat required to be delivered by the furnace, and a device actuated by heat generated during the operation of the stoker to cause intermittent operation of the stoker at such times as the operation of the stoker would otherwise be stopped by the action of heat delivered by the furnace.
7. The combination of a stoker, a furnace operated in connection with the stoker, a device to control the operation of the stoker according to the amount of heat required to be delivered by the furnace, and a device actuated by the heat emanating from a resistance wire in series with the motor driving the stoker to cause intermittent operation of the Stoker at such times as the operation of the stoker would otherwise be stopped by the action of the first named control device.
LLOYD GARRISON.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US219109A US1679418A (en) | 1927-09-12 | 1927-09-12 | Automatic stoker control |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US219109A US1679418A (en) | 1927-09-12 | 1927-09-12 | Automatic stoker control |
Publications (1)
Publication Number | Publication Date |
---|---|
US1679418A true US1679418A (en) | 1928-08-07 |
Family
ID=22817918
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US219109A Expired - Lifetime US1679418A (en) | 1927-09-12 | 1927-09-12 | Automatic stoker control |
Country Status (1)
Country | Link |
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US (1) | US1679418A (en) |
-
1927
- 1927-09-12 US US219109A patent/US1679418A/en not_active Expired - Lifetime
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