US1566854A - Thermostatically-controlled heating system - Google Patents

Thermostatically-controlled heating system Download PDF

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Publication number
US1566854A
US1566854A US654217A US65421723A US1566854A US 1566854 A US1566854 A US 1566854A US 654217 A US654217 A US 654217A US 65421723 A US65421723 A US 65421723A US 1566854 A US1566854 A US 1566854A
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United States
Prior art keywords
thermostat
car
radiator
housing
air
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Expired - Lifetime
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US654217A
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Egbert H Gold
Edward A Russell
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Vapor Car Heating Co Inc
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Vapor Car Heating Co Inc
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Priority to US654217A priority Critical patent/US1566854A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61DBODY DETAILS OR KINDS OF RAILWAY VEHICLES
    • B61D27/00Heating, cooling, ventilating, or air-conditioning
    • B61D27/0036Means for heating only
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S236/00Automatic temperature and humidity regulation
    • Y10S236/19Ventilated thermostat

Definitions

  • Our invention relates to a railway car heating system of the type employing a thermostat located in the car for controlling the circulation of steam through the radiator or radiators which supply the car with heat.
  • a thermostat located in the car for controlling the circulation of steam through the radiator or radiators which supply the car with heat.
  • the thermostat is provided with a housing open at both ends and the housing is arranged so that air from the car is constantly drawn through the same.
  • the housing is open at its lower end to the car while its upper end communicates with one of the ventilatingppenings of the car which is preferably provided with a ventilator of the suction type.
  • the temperature of the air coming into contact with the thermostat corresponds more nearly with the general temperature of the car atmosphere as a whole and is less likely to be exclusively aifected by the temperature in the immediate vicinity of the thermostat or by occasional and temporary drafts and eddy currents than would otherwise be the case.
  • the housing also protects the thermostat against being influenced by its proximity to the car wall which will vary in temperature according to the outside temperature, the position of the sun, the direc- 'tion of thewind, and similar conditions.
  • the thermostat housing communicates with a ventilator of the constantly open suction type, the draft of air in contact with the thermostat will cease, or be diminished at least, when the car stops, as a ventilator of this type pro prises its suction on the car atmosphere through movement of the car.
  • the stoppage or draft through the thermostat housing is likely to bring about a reduction of temperature in the air in contact with the heat sensitive member of the thermostat, particularly as outside air may blow or back in through the ventilator. This is not an objection but rather an advantage, because when the car is standing the doors are likely to be open and the car temperature cooled down at the ends of the car, particularly, rather rapidly. This heat loss is compensated by quicker actuation of the thermostat in its valve opening sense while the car is standing still than while it is in motion.
  • Fig. 1 is a fragmentary sectional view of a railway passenger car, the seats or berths being omitted, provided with a controlling thermostat housing, arranged in accordance with the invention, and illustrating, in a diagrammatic manner, the elements of the heating system and its controlling mechanism, and
  • Fig. 2 is a vertical sectional view through the thermostat housing.
  • Fig. 1 10 designates the side wall of the car, 11 the clere-story panel and 12 the roof. 13 designates the steam train pipe, 14 the car radiator located along the side wall of the car near the floor, 15 a valve for controlling the circulation of steam through the radiator, and 16 (Fig. 2) a mercury tube thermostat for actuating the opening and closing movements of the valve body 17 of valve 15. Steam passes from the train pipe 13 through pipe 18 to the high pressure side of the vapor regulator 19 and from the low pressure side of the vapor regulator through pipe 20 to chamber 21 of valve 15,thence to chamber 22 of the valve and by pipe 23 to the radiating coil 14.
  • the medium is returned from the radiator by pipe 24 to chamber 25 of the valve and from there passes into chamber 26 and throughpipe 27 to the thermostat casing 28 of the vapor regulator 19.
  • current is flowing from battery 29 through wire 30, resistance 31, wire 32, the core of a relay 33 and wire 34 to the battery.
  • the armature 35 of the relay is held up against a pair of upper contacts 36, 37.
  • Relay 33 is effectively deenergized, droppingits armature 35 on the lower contacts 42, 37.
  • Current now flows through a solenoid 43, the armature 44 of which engages the lever 45 that rotates the valve body 17 of valve 15, the circuit being as follows:
  • the valve is shifted to its closed position from pipe 20 is short circuited through valve chambers 21 and 26 and pipe 27 to the thermostat chamber of the vapor regulator 19.
  • Limit switch 49 will also be shifted to the left to break the circuit through the solenoid 43 after the valve movement has been completed.
  • thermostat circuit will be broken between themercury column 38 and contact point 39 and relay 133 will be energized raising its armature against the upper pair of contacts 36, 37, whereupon a circuit will be closed through the other valve operating solenoid 53 as follows:
  • the valve body 17 will now be rotated to the open position shown in Fig. 1 and the radiator again supplied with steam.
  • the function of thelimit switch 49 is to shut off .theicurrent to solenoids 43, 53 at the end of the valve movements.
  • the sgutcgi is provided with insulating portions
  • Thethermostat 16 which may be of any suitable type, is secured to a plate 61 suspended from a cross web 62 forming part of the head piece 63 of a sheet metal tubular housing 64, this housing having a flared opening 65 at the bottom and beingformed at the top with a neck 66 which is secured to a recessed plate 67 fastened to the inside of the c ere-story panelll across one of the ventilating openings 68 in said panel.
  • ventilator 69 designates a ventilator of a constantly open suction type arranged on the outside of the ventilating opening 68. While the car is in motion the impingement of air against the forward face of ventilator 69 produces a vacuum whichdraws air from the interior of the car. The air, so far as ventilator69 is concerned, is drawn wholly or in part through the thermostat casing 64 so that it flows past .and around the bulb 70 in the thermostat, the latter being preferably varranged to project below the bottom edge of support .61.
  • the thermostat casing 64 is provided with a lining 71 of heat insulating material.
  • the opening into ventilator 69 may be provided with a damper or shutter 69 adjustable by hand or automat ically in accordance with the speed of the train.
  • a radiator therein, a thermostat forcontrolling the circulation of heating medium through the radiator, and m ans independent of the radiator for creating a forced draft of air in contact with the thermostat.
  • a radiator therein, a thermostat for controlling the circulation of heating medium throughthe radiator. and means independent of the radiator for creating a forced draftof air 'in contact with the thermostat thermostat, vand means independentof the radiator for creating a forced draft of air through said housing.
  • a thermostat for controlling the circulation of heating .medium through the radiator, a housing for the thermostat. having an air inlet. opening into the car, and a-discharge duct opening to the outside atmosphere.
  • a thermostat for controlling the circulation of heating -medium through the radiator, a housing for the thermostat having an air inlet opening into the car, a discharge duct opening to the outside atmosphere, and means exposed to the air currents outside the car for creating a forced draft through the housing.
  • a radiator therein, a ventilator for discharging air from the car, and a thermostat arranged in the path of said discharging air current for controlling the circulation of heating medium through the radiator.
  • a radiator therein, a ventilator communicating with the outside atmosphere and adapted to discharge air from the car, a thermostat for controlling the circulation of heating medium through the radiator, and a housing for the thermostat having an air inlet opening into the car and an outlet duct leading to said ventilator.
  • a radiator therein, a ventilator for discharging air from the car, a thermostat for controlling the circulation of heating medium through the radiator, a housing for the thermostat having an air inlet opening into the car and an outlet duct leading to said ventilator, and means for supporting the thermostat centrally in the housing out of contact with the wall thereof.
  • a ventilating opening near the roof of the car, a ventilator for drawing the air through said opening, a radiator, a thermostat for controlling the circulation of heating medium through the radiator, and a housing for the thermostat having an inlet opening into the car and a discharge duct communieating with said ventilating opening.
  • a radiator therein, a thermostat for controlling the circulation of heating medium through the radiator, a housing having an air passage therethrough in which the thermostat is positioned, and means for creating a forced draft of air through said air passage.
  • a radiator therein, a thermostat for controlling the circulation of heating medium through the radiator, a housing having an air passage therethrough, a bracket for supporting the housing in position spaced from the car wall, means for supporting the thermostat in the air passage out of contact with the walls of the housing, and means for creating a forced draft of air through said air passage.
  • a radiator therein, a thermostat for controlling the circulation of heating medium through the radiator, a housing having an air passage therethrough, a ventilator in a wall of the car, a hollow bracket for supporting the housing in position spaced from the car wall, the hollow bracket being in communication with the ventilator at one end and with the air passage at the other, and means for supporting the thermostat in the air passage and out of contact with the walls of the housing.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Air-Conditioning For Vehicles (AREA)

Description

E. H. GOLD ET KL THERMOSI'ATICALLY CONTROLLED HEATING SYSTEM Dec. 22, 1925- Filed July 27, 1923 Patented Dec. 22, 1925.
UNITED STATES PATENT OFFMIEEL IEGBERT H. GOLD AND EDWARD A. RUSSELL, OF CHICAGO, ILLINOIS; SAID RUSSELL ASSIGNOR TO VAPOR CAR HEATING COMPANY, INC, OF CHICAGO, ILLINOIS, A.
CORPORATION OF NEW YORK.
THERMOSTATICALLY-CONTROLLED HEATING SYSTEM.
Application filed July 27, 1923. Serial No. 654,217.
To all whom it may concern:
Be it known that we, EGBERT H. GOLD and EDWARD A. RUssrLL, citizens of the United States, residing at Chicago, in the county of Cook and State of Illinois, have invented certain new and useful Improvements in Thermostatically-Controlled Heating Systems, of which the following is a specification.
Our invention relates to a railway car heating system of the type employing a thermostat located in the car for controlling the circulation of steam through the radiator or radiators which supply the car with heat. On account of the shape of a railway car and the fact that it is at times standing still with perhaps the doors at the ends of the car open and at other times is moved at varying rates of speed, under difierent con ditions of sun and wind, it is a difficultmat ter to'locate the controlling thermostat so that the thermostat will respond with any approximate degree of accuracy to changes in temperature 1n the car as a whole. The difficulty is particularly serious in the heating of sleeping cars in a system of this type because when the berths are made up the car is divided into a number of more or less completely enclosed spaces, the temperatures of which may differ quite widely. In accordance with our invention the thermostat is provided with a housing open at both ends and the housing is arranged so that air from the car is constantly drawn through the same. Preferably the housing is open at its lower end to the car while its upper end communicates with one of the ventilatingppenings of the car which is preferably provided with a ventilator of the suction type. As a result of this arrangement the temperature of the air coming into contact with the thermostat corresponds more nearly with the general temperature of the car atmosphere as a whole and is less likely to be exclusively aifected by the temperature in the immediate vicinity of the thermostat or by occasional and temporary drafts and eddy currents than would otherwise be the case. The housing also protects the thermostat against being influenced by its proximity to the car wall which will vary in temperature according to the outside temperature, the position of the sun, the direc- 'tion of thewind, and similar conditions.
here, as is preferred, the thermostat housing communicates with a ventilator of the constantly open suction type, the draft of air in contact with the thermostat will cease, or be diminished at least, when the car stops, as a ventilator of this type pro duces its suction on the car atmosphere through movement of the car. With the thermostat located near the roof of the car and not far from the ventilating openings in the clerestory, the stoppage or draft through the thermostat housing is likely to bring about a reduction of temperature in the air in contact with the heat sensitive member of the thermostat, particularly as outside air may blow or back in through the ventilator. This is not an objection but rather an advantage, because when the car is standing the doors are likely to be open and the car temperature cooled down at the ends of the car, particularly, rather rapidly. This heat loss is compensated by quicker actuation of the thermostat in its valve opening sense while the car is standing still than while it is in motion.
The invention is illustrated, in a preferred embodiment, in the accompanying drawing, wherein- Fig. 1 is a fragmentary sectional view of a railway passenger car, the seats or berths being omitted, provided with a controlling thermostat housing, arranged in accordance with the invention, and illustrating, in a diagrammatic manner, the elements of the heating system and its controlling mechanism, and
Fig. 2 is a vertical sectional view through the thermostat housing.
Referring first to Fig. 1, 10 designates the side wall of the car, 11 the clere-story panel and 12 the roof. 13 designates the steam train pipe, 14 the car radiator located along the side wall of the car near the floor, 15 a valve for controlling the circulation of steam through the radiator, and 16 (Fig. 2) a mercury tube thermostat for actuating the opening and closing movements of the valve body 17 of valve 15. Steam passes from the train pipe 13 through pipe 18 to the high pressure side of the vapor regulator 19 and from the low pressure side of the vapor regulator through pipe 20 to chamber 21 of valve 15,thence to chamber 22 of the valve and by pipe 23 to the radiating coil 14. The medium is returned from the radiator by pipe 24 to chamber 25 of the valve and from there passes into chamber 26 and throughpipe 27 to the thermostat casing 28 of the vapor regulator 19. For this position of the parts of the apparatus current is flowing from battery 29 through wire 30, resistance 31, wire 32, the core of a relay 33 and wire 34 to the battery. The armature 35 of the relay is held up against a pair of upper contacts 36, 37.
Assoon as the mercury column 38 reaches the circuit closing contact 39 in the mercury tube of thermostat 16 a circuit is closed which short circuits relay 33, this circuit being as follows: i
From battery 29 through wire 30, resistance 31, wire 40, mercury column 38, wire 41 and wire 34 to the battery.
Relay 33 is effectively deenergized, droppingits armature 35 on the lower contacts 42, 37. Current now flows through a solenoid 43, the armature 44 of which engages the lever 45 that rotates the valve body 17 of valve 15, the circuit being as follows:
Battery 29, wire 30, wire 46, solenoid coil 43, wire .47, one of the pair of spring con tests 48 of ,a reciprocating limit switch 49 engaged by the lever 45, conductingportion 50 of the limit switch, the other spring contact .48, .wire 51, contact 42, armature relay 35, contact- 37*, wire 52 and wire 34-to the battery.
The valve is shifted to its closed position from pipe 20 is short circuited through valve chambers 21 and 26 and pipe 27 to the thermostat chamber of the vapor regulator 19. Limit switch 49 will also be shifted to the left to break the circuit through the solenoid 43 after the valve movement has been completed. When the temperature adjacent thermostat 38 falls below the temperature for which the thermostat is set, the
thermostat circuit will be broken between themercury column 38 and contact point 39 and relay 133 will be energized raising its armature against the upper pair of contacts 36, 37, whereupon a circuit will be closed through the other valve operating solenoid 53 as follows:
Battery 29, wire 30, wire 46, wire 54, solenoid 53, wire 55, one of the pair of cont-act springs 56, conducting portion 57 of limit .switeh49, the other contact spring 56, wire 58, contact 36, armature 35, contact 37 and wires 52 and 34 to the battery.
' The valve body 17;will now be rotated to the open position shown in Fig. 1 and the radiator again supplied with steam. The function of thelimit switch 49 is to shut off .theicurrent to solenoids 43, 53 at the end of the valve movements. To that end the sgutcgi is provided with insulating portions Thethermostat 16, which may be of any suitable type, is secured to a plate 61 suspended from a cross web 62 forming part of the head piece 63 of a sheet metal tubular housing 64, this housing having a flared opening 65 at the bottom and beingformed at the top with a neck 66 which is secured to a recessed plate 67 fastened to the inside of the c ere-story panelll across one of the ventilating openings 68 in said panel. 69 designates a ventilator of a constantly open suction type arranged on the outside of the ventilating opening 68. While the car is in motion the impingement of air against the forward face of ventilator 69 produces a vacuum whichdraws air from the interior of the car. The air, so far as ventilator69 is concerned, is drawn wholly or in part through the thermostat casing 64 so that it flows past .and around the bulb 70 in the thermostat, the latter being preferably varranged to project below the bottom edge of support .61. Preferably the thermostat casing 64 is provided with a lining 71 of heat insulating material. The opening into ventilator 69 may be provided with a damper or shutter 69 adjustable by hand or automat ically in accordance with the speed of the train.
IVhile we have described our invention in a preferrefdembodiment, we wish to be understood as intending to cover all modifications thereof within the scope of the appended claims.
We claim:
1. In combination with a railway car,.a radiator therein, a thermostat forcontrolling the circulation of heating medium through the radiator, and m ans independent of the radiator for creating a forced draft of air in contact with the thermostat.
2. In combination with a railway car, a radiator therein, a thermostat for controlling the circulation of heating medium throughthe radiator. and means independent of the radiator for creating a forced draftof air 'in contact with the thermostat thermostat, vand means independentof the radiator for creating a forced draft of air through said housing.
4. In combination with .a railway car, a
radiator therein, a thermostat for controlling the circulation of heating .medium through the radiator, a housing for the thermostat. having an air inlet. opening into the car, and a-discharge duct opening to the outside atmosphere.
5. In combination witha railway car, a
.radiator therein, a thermostat for controlling the circulation of heating -medium through the radiator, a housing for the thermostat having an air inlet opening into the car, a discharge duct opening to the outside atmosphere, and means exposed to the air currents outside the car for creating a forced draft through the housing.
6. In combination with a railway car, a radiator therein, a ventilator for discharging air from the car, and a thermostat arranged in the path of said discharging air current for controlling the circulation of heating medium through the radiator.
7 In combination with a railway car, a radiator therein, a ventilator communicating with the outside atmosphere and adapted to discharge air from the car, a thermostat for controlling the circulation of heating medium through the radiator, and a housing for the thermostat having an air inlet opening into the car and an outlet duct leading to said ventilator.
8. In combination with a railway car, a radiator therein, a ventilator for discharging air from the car, a thermostat for controlling the circulation of heating medium through the radiator, a housing for the thermostat having an air inlet opening into the car and an outlet duct leading to said ventilator, and means for supporting the thermostat centrally in the housing out of contact with the wall thereof.
9. In combination with a railway car, a ventilating opening near the roof of the car, a ventilator for drawing the air through said opening, a radiator, a thermostat for controlling the circulation of heating medium through the radiator, and a housing for the thermostat having an inlet opening into the car and a discharge duct communieating with said ventilating opening.
10. In combination with a railway car, a radiator therein, a thermostat for controlling the circulation of heating medium through the radiator, a housing having an air passage therethrough in which the thermostat is positioned, and means for creating a forced draft of air through said air passage.
11. In combination with a railway car, a radiator therein, a thermostat for controlling the circulation of heating medium through the radiator, a housing having an air passage therethrough, a bracket for supporting the housing in position spaced from the car wall, means for supporting the thermostat in the air passage out of contact with the walls of the housing, and means for creating a forced draft of air through said air passage.
12. In combination with a railway car, a radiator therein, a thermostat for controlling the circulation of heating medium through the radiator, a housing having an air passage therethrough, a ventilator in a wall of the car, a hollow bracket for supporting the housing in position spaced from the car wall, the hollow bracket being in communication with the ventilator at one end and with the air passage at the other, and means for supporting the thermostat in the air passage and out of contact with the walls of the housing.
EGBERT H. GOLD. EDWARD A. RUSSELL.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2428078A (en) * 1943-04-02 1947-09-30 Stewart Warner Corp Heater system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2428078A (en) * 1943-04-02 1947-09-30 Stewart Warner Corp Heater system

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