US10626A - Excluding dust from kaixroad-cars - Google Patents
Excluding dust from kaixroad-cars Download PDFInfo
- Publication number
- US10626A US10626A US10626DA US10626A US 10626 A US10626 A US 10626A US 10626D A US10626D A US 10626DA US 10626 A US10626 A US 10626A
- Authority
- US
- United States
- Prior art keywords
- cars
- air
- car
- cistern
- hatch
- 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
- 239000000428 dust Substances 0.000 title description 18
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 24
- 238000010276 construction Methods 0.000 description 6
- 241000167854 Bourreria succulenta Species 0.000 description 4
- 241000238631 Hexapoda Species 0.000 description 4
- 238000005192 partition Methods 0.000 description 4
- 230000001105 regulatory Effects 0.000 description 4
- 239000000779 smoke Substances 0.000 description 4
- 206010022000 Influenza Diseases 0.000 description 2
- 238000007664 blowing Methods 0.000 description 2
- 230000005494 condensation Effects 0.000 description 2
- 238000009833 condensation Methods 0.000 description 2
- 239000004020 conductor Substances 0.000 description 2
- 230000000875 corresponding Effects 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000003137 locomotive Effects 0.000 description 2
- 239000000203 mixture Substances 0.000 description 2
- 239000002245 particle Substances 0.000 description 2
- 230000036633 rest Effects 0.000 description 2
- 230000000717 retained Effects 0.000 description 2
- 239000000126 substance Substances 0.000 description 2
- 238000009423 ventilation Methods 0.000 description 2
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60H—ARRANGEMENTS OF HEATING, COOLING, VENTILATING OR OTHER AIR-TREATING DEVICES SPECIALLY ADAPTED FOR PASSENGER OR GOODS SPACES OF VEHICLES
- B60H1/00—Heating, cooling or ventilating [HVAC] devices
- B60H1/00421—Driving arrangements for parts of a vehicle air-conditioning
Definitions
- Our invention consists chiey in ventilating rail road cars by supplying them when in motion with a continual current of atmospheric air previously purified from dust or other foreign matter, whereby not only is the car thoroughly ventilated, but the in gress, through windows and crevices in the cars of dust, sparks, insects, &c., from outside is prevented, by the current of air which is thus caused to rush constantly out of the cars; the reverse of which is the case, when the cars are'not thusv artificially supplied with air.
- Figure l is a side elevation of a railroad car showing the blowing and purifying apparatus underneath the body of the car, and about equidistant from either end.
- Fig. 5 is a cross section of thef blowers and the purifying cistern, showing the internal arrangement of thevalve and airways.
- Fig. 4 is a viewshowing the facev of the plate upon which the valves are fas tened and operate and the vents through which the air passes by the upper valve and also thelower valve on its seat.
- a cross section of the end of the water cistern yshowing the' tunnel by which water 'is"supplied to the cistern.
- Fig. 6 representsthe eccentric intended to be fastened upon one of the car axles, the design of which is ton Fig. s is give motion to the blowers when it revolves,
- the level' of the vwater must not 'be kept-KMV so high in the cistern as to be in danger of being forced back by the action of the blowers into the valve chambers
- the proper depth can be known and maintained by a gage faucet in the end of the water cistern.
- flues may be formed in the construction thereof for the purpose.
- the system of pipes may be continuedgon one or both sides of the car.
- the holes or vents 4c, et, 4, in the horizontal pipe j, j, are formed in the side of the pipe inclining upward and not continued down to the lower side of the pipeso that any water that may be carried up with the air, may be conducted back to and down the pipes L, z', h, i, into the cistern f, Fig. 5.
- Fig. 4. shows the side of one of the plates upon which the valves c and e Fig. 5 and their corresponding valves are fastened and have their seat over their respective vents. It also shows a portion of the vent 3, 3, 3, under one of the valves and a portion of a valve 0 on its seat over the other vent in the same plate.
- blowers are or maybe increased in width sov as to extend from one side of the car to the other and the valves and vents may be carried thereby nearly the whole length of the bellows; at the same time being made as wi'de as the depth of the blowers will permit. Not to weaken the plate upon which the valves operate a portion of the. substance of the, plate is left y remaining at intervals crossing 4the vents as shown a 5, 5, Fig. 4.
- Fig. 6 is an eccentric intended to be fas-v tened on one of the car axles.
- TheV use ⁇ of an eccentric is a well known, simple, and etlicient means ofobtaining a reciprocating motion from the rotary motion of a shaft in positions where a crank is inapplicable. Any further description of an eccentric and ⁇ the mode of applying it is not deemed requi- .necting the two blowers together, so that both derive an alternate motion from the eccentric.
- the connection is also shown by the same letters (m anda) at Figs. 5 and 6.
- FIG. 3 In the sectional view, Fig. 3, of the end of the water cistern through the tunnel p, the level of the water is indicated by the dotted line.
- the holes b are thus arranged near the bottom of the cistern so that the surface of the water may stand considerably above them and thereby prevent the escape of the air in that direction.
- the hatch On the under side of the hatch there is attached a beam from which is suspended a weight w the weight is heavy enough that when entirely out to the end of the beam nearest the spring, it shall entirely overcome the power of the spring and draw the hatch shut, retaining it there permanently; but when the weight is thrown to the opposite end of the beam it will present but little resistance to the spring which will then have sufficient independent power to throw the hatch up and retain it there.
- the hatch may be regulated inside of the car to operate as may be desired.
Description
A .equivalents for producing the same results O. NEWTON AND J. AVCREVER, OF PITTSBURGH, PENNSYLVANIA.
EXCLUDI'NG DUST FROM RAILROAD-CARS.
Specification of Letters Patent=1\l'o. 10,626, dated March 14s, 1854.
T0 all whom t may concern Be it known that we, ORRIN NEWTON and J. A. CREVER, of the city of Pittsburgh, in
the county of Allegheny and State of Pennsylvania, have invented a new and Improved Mode of Ventilating and Excluding Dust from Railroad-Cars;` and we do hereby declare the 'following to be a full and exact description of the same, reference being had to the accompanying drawings, forming part of this specification, and to the letters of reference marked thereon. l.
Our invention consists chiey in ventilating rail road cars by supplying them when in motion with a continual current of atmospheric air previously purified from dust or other foreign matter, whereby not only is the car thoroughly ventilated, but the in gress, through windows and crevices in the cars of dust, sparks, insects, &c., from outside is prevented, by the current of air which is thus caused to rush constantly out of the cars; the reverse of which is the case, when the cars are'not thusv artificially supplied with air. u f
In describing the mode in which we propose to accomplish the objects indicated, we do not design to confine ourselves to the use of exactly the same mode of putting our in' vention into practical operation, but we de sire to include the use of the contrivances hereinafter described, or any mechanical Before proceeding to describe ourrinvention in detail, we will premise that we do not deem it essential that the supply of purified air, by mechanical means should be continued when the cars are not in motion,
because atA such times the annoyances ofl dust, Sac., caused chiefly by the swift mo= tionof the cars, does not exist, and the supply of air from outside is sufficient.
To enable others skilled in the art, to make and use ourinvention, we will now proceed to describe its construction and operation.
In the drawings, Figure l is a side elevation of a railroad car showing the blowing and purifying apparatus underneath the body of the car, and about equidistant from either end. Fig. 5 is a cross section of thef blowers and the purifying cistern, showing the internal arrangement of thevalve and airways. Fig. 4 isa viewshowing the facev of the plate upon which the valves are fas tened and operate and the vents through which the air passes by the upper valve and also thelower valve on its seat. a cross section of the end of the water cistern yshowing the' tunnel by which water 'is"supplied to the cistern. Fig. 6 representsthe eccentric intended to be fastened upon one of the car axles, the design of which is ton Fig. s is give motion to the blowers when it revolves,
by means of a connecting rod. -Fig. 2 repre lsents ay detached portion of the pipes by means of which the purified air is conveyed kinto and distributed through the interior of;
the car. f
f In the cross section of the blowersy and purifying cistern, Fig. 5, the course or direction of the air is indicated by the arrows.
Presuming the blower a to betaking in aV lapsing of the blower is indicated; the air lpassing out of the chamber l under the valve e through the valve chamber m over the upper 'edge of the side of the water cistern f and downbetween the vside and a par tition g to near the bottomV of the cistern forcing thewater (indicated by the dotted line) before it until it passes the lower edge of the partition as indicated by the arrows.
2,2, 2, it thenk rises through the water into the bodyA of thefcistern above the.water-,
whence it passes'into the pipes L, uand i, t', Fig. 2, into the horizontal pipe j, y. The pipe y', y', runs `along the'car'close inthe upper corner at the junction of thesidesand roof.r `Along the pipe j, y', atjintervals arek a number of holes 4, 4,4, to lvent the airV Y -into the car, thispipe extends the whole;v
lengthof the car softhat thevair may be supplied to all parts thereofr'and at the'same` time prevent an unpleasantly strongcurrent at any one place;` The reverse action of theV the c blowers a and (Z is ink all particulars saine as the 'action justL described. n
Here it is well to remark that it may-.not be required in' all-cases to use twoblowers if a sufficient supply of air can be `supplied f' fromv one, in which case one blower can he detached from the action of the eccentric or entirely dispensed'with in the arrangement. l
The level' of the vwater must not 'be kept-KMV so high in the cistern as to be in danger of being forced back by the action of the blowers into the valve chambers The proper depth can be known and maintained by a gage faucet in the end of the water cistern.
When it is desired to renew the supply of,
' purifying apparatus attached, flues may be formed in the construction thereof for the purpose. The system of pipes may be continuedgon one or both sides of the car.
The holes or vents 4c, et, 4, in the horizontal pipe j, j, are formed in the side of the pipe inclining upward and not continued down to the lower side of the pipeso that any water that may be carried up with the air, may be conducted back to and down the pipes L, z', h, i, into the cistern f, Fig. 5.
Fig. 4. shows the side of one of the plates upon which the valves c and e Fig. 5 and their corresponding valves are fastened and have their seat over their respective vents. It also shows a portion of the vent 3, 3, 3, under one of the valves and a portion of a valve 0 on its seat over the other vent in the same plate.
It may be observed here that on account of the rapid motion of the blowers, when the car is traveling at the rate of twenty or thirty miles an hour, it is `requisite that the motion of the blowers should be short and that the vents under the valves Vshould be large to permit the free passage of the air through them without being retarded suiiiciently in its passage to present a resisting force, either by vacuum or condensation, that Vwould endanger the strength of the blowers or connections. To accomplish this purpose the blowers are or maybe increased in width sov as to extend from one side of the car to the other and the valves and vents may be carried thereby nearly the whole length of the bellows; at the same time being made as wi'de as the depth of the blowers will permit. Not to weaken the plate upon which the valves operate a portion of the. substance of the, plate is left y remaining at intervals crossing 4the vents as shown a 5, 5, Fig. 4.
Fig. 6 is an eccentric intended to be fas-v tened on one of the car axles. TheV use` of an eccentric is a well known, simple, and etlicient means ofobtaining a reciprocating motion from the rotary motion of a shaft in positions where a crank is inapplicable. Any further description of an eccentric and` the mode of applying it is not deemed requi- .necting the two blowers together, so that both derive an alternate motion from the eccentric. The connection is also shown by the same letters (m anda) at Figs. 5 and 6.
In the sectional view, Fig. 3, of the end of the water cistern through the tunnel p, the level of the water is indicated by the dotted line. The tunnel 79 by which water is supplied to the cistern f, is attached to the end of the cistern and near the bottom 80 are a number of holes I) communicating with the cistern, whereby the water thrown into the tunnel finds its way into the cistern. The holes b are thus arranged near the bottom of the cistern so that the surface of the water may stand considerably above them and thereby prevent the escape of the air in that direction.
In` railroad cars there are innumerable crevices, occurring chiefly around the windows and doors, through which smoke and sparks from the locomotive, with ne particles of dust with which the air is loaded in dry weather, find admission intothe cars to the great annoyance of the passengers. These are introduced constantly by the currents of air rushing into the cars. This cannot be avoided in cars of ordinary construction as the admission of air from the outside is essential for ventilation. It is manifest however that if pure air is supplied to the cars by mechanical means, on the plan proposed by us, in quantities greater than is necessary to supply the demand, the rushing of air through these chinks and crevices into the cars will be stopped, and in as much as the excess of air thus supplied must khave some egress, it will -find its way out of the cars into the open air through these same crevices, if no other exit'beprovided for it. Thus the current of air will be reversed, passing now out from the car, instead of into it, and no air can, under this state of things, now enter the car at these crevices. This will,it is 115 clear, entirely prevent the entrance of any sparks, dust, smoke, or insects from `outside through kthese holes and crevices, and it is in this way that our improved mode ofventilation, accomplishes the secondary but 12o scarcely less important object of the exclusion of dust &c'. from the inside of the cars. In order to secure this effect in cars constructed on our plan, we do not provide any other airholes, or passages for the egress of the purified air, which wev force into the` cars as before described (excepting the ventilating hatch, hereinafter mentioned) for the purpose of compelling it to escape through those chinks and crevices `through which the dust &c. would otherwise enter. Vhen, however, the cars are moving rapidly and a large volume of purified air is forced into the cars by our apparatus these crevices would prove insufficient (unless some of the windows were opened) to allow of the escape of the excess of air, and an unnatural pressure of air would be the consequence. In order to provide for this emergency, we employ an adjustable hatch or balance valve, fixed in the roof of the car which is so constructed as to exclude the rain, and to be entirely under the control of the conductor of the cars and may be kept opened or closed at pleasure. It is also designed to be self acting so that it will o-pen of itself, when there is too great a pressure of air in the cars, and close so soon as the pressure is relieved, repeating this operation as often as circumstances require. The external view of this hatch is seen on top of the car in Fig. l. Its internal arrangement is seen in Figs. 7 and 8 where one side is removed to shew the means by which the hatch is regulated. At Fig. 7 the hatch r is down on its seat upon the sides s, s. In Fig. 8 it is shown as thrown up on one side, being made to open and shut on the hinge t. ancing the hatch is shown in both figures, u being a spiral spring, having a seat'o permanently attached to the side s of the box: upon this seat o, rests the one end of the spring u permanently; the other end of the spring operates against the hatch r, the spring being strong enough to throw the The mode of bal-' hatch up readily. On the under side of the hatch there is attached a beam from which is suspended a weight w the weight is heavy enough that when entirely out to the end of the beam nearest the spring, it shall entirely overcome the power of the spring and draw the hatch shut, retaining it there permanently; but when the weight is thrown to the opposite end of the beam it will present but little resistance to the spring which will then have sufficient independent power to throw the hatch up and retain it there. By having the weight and spring properly -adjusted with regard to each other, the hatch may be regulated inside of the car to operate as may be desired. If required it may be retained shut or kept open or so adjusted that the least impulse from the inside will open it and when the force is removed it will close by its own action thereby allowing the air when it cannot find sufiicient vent by the crevices in the car to lthrow the hatch up and escape through it by its own action.-
What we claim as our invention and desire to secure by Letters Patent is- The combination of the bellows and water cistern, connected with each other and with lating rail road cars constructed and operating in the manner hereinbefore described.
ORRIN NEWTON.
J. A. CREVER.
Vitnesses:
JAMES TAssEY, A. Y. BUCKMASTER.
the cars by pipes, for the purpose of venti- Y.
Publications (1)
Publication Number | Publication Date |
---|---|
US10626A true US10626A (en) | 1854-03-14 |
Family
ID=2070952
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US10626D Expired - Lifetime US10626A (en) | Excluding dust from kaixroad-cars |
Country Status (1)
Country | Link |
---|---|
US (1) | US10626A (en) |
-
0
- US US10626D patent/US10626A/en not_active Expired - Lifetime
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US10626A (en) | Excluding dust from kaixroad-cars | |
US49227A (en) | Improvement in construction of railway trains and cars | |
US297835A (en) | Ventilating railroad-cars | |
US13204A (en) | Improvement in ventilating railroad-cars | |
US704808A (en) | System for ventilating tunnels. | |
US34898A (en) | Ventilator foe | |
US11101A (en) | Bailroad-car ventilator | |
US10216A (en) | Railroad-cab | |
US1481394A (en) | Railroad-car attachment | |
US1278309A (en) | Ventilator. | |
US453057A (en) | Wright | |
US8298A (en) | Ventilating- and excluding dust from railroad-cars | |
US603170A (en) | caldwell | |
US1437709A (en) | Air-intake device | |
US2081106A (en) | Ventilating apparatus | |
US8998A (en) | Smoke and spark deelectok | |
US1113302A (en) | Car-ventilator. | |
US10449A (en) | neilson | |
US204271A (en) | Improvement in railroad-car-ventilator valves | |
US953244A (en) | Grain-car door. | |
US147266A (en) | Improvement in privy-houses | |
US536721A (en) | Refrigerator-car | |
US1077078A (en) | Ventilator. | |
US832856A (en) | System of ventilating railway tunnels or subways. | |
US775938A (en) | Observation passenger-car. |