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US42402A - Improvement in car-springs - Google Patents

Improvement in car-springs Download PDF

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US42402A
US42402A US42402DA US42402A US 42402 A US42402 A US 42402A US 42402D A US42402D A US 42402DA US 42402 A US42402 A US 42402A
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springs
spring
plates
car
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61FRAIL VEHICLE SUSPENSIONS, e.g. UNDERFRAMES, BOGIES OR ARRANGEMENTS OF WHEEL AXLES; RAIL VEHICLES FOR USE ON TRACKS OF DIFFERENT WIDTH; PREVENTING DERAILING OF RAIL VEHICLES; WHEEL GUARDS, OBSTRUCTION REMOVERS OR THE LIKE FOR RAIL VEHICLES
    • B61F5/00Constructional details of bogies; Connections between bogies and vehicle underframes; Arrangements or devices for adjusting or allowing self-adjustment of wheel axles or bogies when rounding curves
    • B61F5/02Arrangements permitting limited transverse relative movements between vehicle underframe or bolster and bogie; Connections between underframes and bogies
    • B61F5/04Bolster supports or mountings
    • B61F5/06Bolster supports or mountings incorporating metal springs

Definitions

  • Fig. 4 is a view of the cap-plate B inverted.
  • Fig. 5- is a top view of the combiningspring Gr.
  • Fig. Gis a side elevation of the same.
  • Fig. 7 is a side elevation of a spring, C, and asprin g, F, in combination.
  • Fig. 8 is a side elevation ot' aspring, C, with conical ends.
  • Fig. 9 is a vertical section of the bottomI plate, B, anda side Veleva-tion of one of the tubes E and a bottom or clamp, I), in connection,
  • Fig. l0 is a modified form of one of theclamps D.
  • Fig. ll is a perspective view of the plate I.
  • Fig. l2 is a view of one of the bolts for confining the spring to the car.
  • a and B are metallic plates, which I usually construct'of cast or wrought iron. They have recesses a au a,in which the ends of the spring C are inserted for the purpose of holding the said springs in their position.
  • the said plates are confined against the ends of the springs by means of the buttons or clamps D D, the stem and head of whichlit and slide in the tubes E E.
  • the buttons or catch parts of the clamps are passed through the slots b b ofthe plate B, and are turned at right angles thereto, and catch on the face of the plate or in the recesses c, which are represented in Fig. 4.
  • the tubes E E have heads d d, which are countersunk in the plate A.
  • washers may be used, the ends of the clamps being riveted against them, as represented in Fig. 10.
  • the springs F which surround t'he'springs C, are shorter than the latter, as their ends are not required to be sunk in the plates A B, but bear against the inner faces of the same. I construct the springs straight l.on their peripheries for the purpose of causing them to slide easily against each other, and to favor their tendency ot' moving in line when being compressed.
  • the springs C and the springs F of wire which has two acute angles, and which in the formation of the springs constitute the extreme parts of the top and bottom edges of the folds thereof, the perpendicular sides of the folds being parallel, and also their top and bottom edgesbeing parallel to each other, as shown in the drawings, so that when the springs are compressed to their maximum degree their folds will lay flat together and their perpendicular sides will be straight with each other-that is to say, the inner and outer peripheries of the springs will be of straight cylindrical form, like those of a solid cylinder which is turned straight forward from end to end.
  • the object of constructing the springs ofA wire which has acuteangles, as described, is that by having an increased depth to the folds much stronger springs are produced than can be made of wire of any other form, and having the inner and outer peripheries of the springs of straight cylindrical form is to cause them to slide easily against each other, and the springs F to slide easily against the spring G, which I will hereinafter describe.
  • the springs are represented as concentric with the plates A B; but I do not conne myself to this form of arrangement, as they may be arranged in the form of a parallelogram, or in any other form, without changing the re sult.
  • ⁇ spring G is a spring, which surrounds the springs above described, and its inner periphery slightly touches the outer periphery of the springs F, so that the latter are thereby kept in their lateral position.
  • ⁇ spring G has a Vdepression in the under side of its folds and a corresponding elevation on their upper side, so that when the spring is compressed the elevations will fit in the depressions, and thus the spring will be kept in its perpendicular position so as to maintain its strength, as well as to be a support to the springs F, on which it impinges. Great strength is also given to this peculiar form of the spring.
  • the screws e which coniine the spring G to the plates A and B, may be dispensed with, if desired.
  • Figs. 8 and 9 a modication of one of the springs C and the plates A and B is represented, the ends of the spring for a short distance being of conical form and the recess a of corresponding form, as represented.
  • the collars H, whiclrsurround the spring G, ' may be cast to the plates A and B, when the said lplates are made of cast-iron, or theymay be. madeseparate, either of cast or wrought iron, and con ned by means of screws or rivets.
  • the springs not only for sustaining lthe weight of the cars, but also to vbe used as bumpers, and for other purposes.
  • they maybe fastened to the plate I, which is represented in Fig. 11, the said plate being bolted on the front end of theframe of the car.
  • the center holes, j', in the plates A and B, are for the purpose of holding the whole spring perpendicular to the car, th ere being a stationary pin or bolt connected with the latter, on which the said holes fit.
  • the operation of the spring is as follows: There is a spring connected with each pedestal of a car, the plates A and B coming between the pedestal and carframe, and being confined or secured to the same by means of screwbolts or pins, which pass through the holes g' g g g of the plates, and as the weight of the car is distributed on all the springs, as the springs in each ⁇ series yield, they all support each other laterally in consequence of their sides being straight and perpendicular.
  • one of the plates may be secured at each end b'y bolts of the form represented in Fig. 12, the end one being secured in the frame .of the car and the other end playing freely in 2.
  • buttons or clamps D in combination with the tubes E, when arranged and operating in relation to the plates A and B, substantially as set forth.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Springs (AREA)

Description

G. A. RIEDEL.
Car Spring.
Patented Aplr. 19, 1864.
Inventor'.v
l wllllllk Witnesses= #QM/am ma .5 @MW PATENT OFFICE.
Gr. ADOLPH RIEDEL, OF PHILADELPHIA, PENNSYLVANIA.
luvnaaoviMENT IN cAasPmNes.
specification forming pm of Lettere Patent No. 42,402, dated April 19, 1864.
clear, and exact description of the construction and loperation of the same, reference being had to the annexed drawings, making a part otl this specification, in which-- Figure 1 is aperspective view ot' the spring. Fig. 2 is a vertical section of the same. Fig. 3
is ja top view with the cap-plate B detached.
Fig. 4 isa view of the cap-plate B inverted. Fig. 5- is a top view of the combiningspring Gr. Fig. Gis a side elevation of the same. Fig. 7 is a side elevation of a spring, C, and asprin g, F, in combination. Fig. 8 is a side elevation ot' aspring, C, with conical ends. Fig. 9 isa vertical section of the bottomI plate, B, anda side Veleva-tion of one of the tubes E and a bottom or clamp, I), in connection, Fig. l0 is a modified form of one of theclamps D. Fig. ll is a perspective view of the plate I. Fig. l2 is a view of one of the bolts for confining the spring to the car. c
`Like letters in all the igures represent the same parts.
The nature of my invention consists in a Vpeculiar construction and arrangement of a nest or series of springs for cars and otherpurposes, which will be understood by the following description.
A and B are metallic plates, which I usually construct'of cast or wrought iron. They have recesses a au a,in which the ends of the spring C are inserted for the purpose of holding the said springs in their position. The said plates are confined against the ends of the springs by means of the buttons or clamps D D, the stem and head of whichlit and slide in the tubes E E. The buttons or catch parts of the clamps are passed through the slots b b ofthe plate B, and are turned at right angles thereto, and catch on the face of the plate or in the recesses c, which are represented in Fig. 4. The tubes E E have heads d d, which are countersunk in the plate A. For the particular conY struction and combination ofthe clamps D D and tubes E E see Fig. 9.
In place of the buttons on the clamps, washers may be used, the ends of the clamps being riveted against them, as represented in Fig. 10.
The springs F, which surround t'he'springs C, are shorter than the latter, as their ends are not required to be sunk in the plates A B, but bear against the inner faces of the same. I construct the springs straight l.on their peripheries for the purpose of causing them to slide easily against each other, and to favor their tendency ot' moving in line when being compressed.
I construct the springs C and the springs F of wire, which has two acute angles, and which in the formation of the springs constitute the extreme parts of the top and bottom edges of the folds thereof, the perpendicular sides of the folds being parallel, and also their top and bottom edgesbeing parallel to each other, as shown in the drawings, so that when the springs are compressed to their maximum degree their folds will lay flat together and their perpendicular sides will be straight with each other-that is to say, the inner and outer peripheries of the springs will be of straight cylindrical form, like those of a solid cylinder which is turned straight forward from end to end. The object of constructing the springs ofA wire which has acuteangles, as described, is that by having an increased depth to the folds much stronger springs are produced than can be made of wire of any other form, and having the inner and outer peripheries of the springs of straight cylindrical form is to cause them to slide easily against each other, and the springs F to slide easily against the spring G, which I will hereinafter describe.
I have represented but four pairs of springs in the drawings merely for illustration, but in practice I have a much greater number, so that the outer springs, F, nearly touch each other.
The springs are represented as concentric with the plates A B; but I do not conne myself to this form of arrangement, as they may be arranged in the form of a parallelogram, or in any other form, without changing the re sult.
G is a spring, which surrounds the springs above described, and its inner periphery slightly touches the outer periphery of the springs F, so that the latter are thereby kept in their lateral position. rIhel said `spring G has a Vdepression in the under side of its folds and a corresponding elevation on their upper side, so that when the spring is compressed the elevations will fit in the depressions, and thus the spring will be kept in its perpendicular position so as to maintain its strength, as well as to be a support to the springs F, on which it impinges. Great strength is also given to this peculiar form of the spring. The screws e, which coniine the spring G to the plates A and B, may be dispensed with, if desired.
I construct all the springs above described with their inner and outer periph eries straight and parallel with each other, so as to cause them to slide easily against each other and maintain their perpendicular position.
In Figs. 8 and 9 a modication of one of the springs C and the plates A and B is represented, the ends of the spring for a short distance being of conical form and the recess a of corresponding form, as represented.
`In the series of ysprin gs I have represented but one spring, F, surrounding a spring, G, but it will readily be seen that any number may in succession be arranged so as to produce an increased action in the'combination; and so, also, in relation to the spring G, any desirable number may be used by forming them' of different sizes so that the outer periphery of one will lit the inner periphery of the next succeeding one.
The collars H, whiclrsurround the spring G, 'may be cast to the plates A and B, when the said lplates are made of cast-iron, or theymay be. madeseparate, either of cast or wrought iron, and con ned by means of screws or rivets.
'-I design the springs not only for sustaining lthe weight of the cars, but also to vbe used as bumpers, and for other purposes. When used as bumpers, they maybe fastened to the plate I, which is represented in Fig. 11, the said plate being bolted on the front end of theframe of the car.
The center holes, j', in the plates A and B, are for the purpose of holding the whole spring perpendicular to the car, th ere being a stationary pin or bolt connected with the latter, on which the said holes fit.
The operation of the spring is as follows: There is a spring connected with each pedestal of a car, the plates A and B coming between the pedestal and carframe, and being confined or secured to the same by means of screwbolts or pins, which pass through the holes g' g g g of the plates, and as the weight of the car is distributed on all the springs, as the springs in each `series yield, they all support each other laterally in consequence of their sides being straight and perpendicular.
Instead of confining the plates A and B each separately by meansy of independent bolts, one of the plates may be secured at each end b'y bolts of the form represented in Fig. 12, the end one being secured in the frame .of the car and the other end playing freely in 2. Combining the springs F with the springs C and the plates A B, substantially as de@ scribed and shown.
3. Surrounding the springs F with the sprin gs G, for the purpose of giving greater strength to the rest of springs, and also to preserve their perpendicular position, substantially as described.
4. Constructing the springs C and the springs F of wire which has two acute angles, which in the formation of the springs constitute the extreme top and bottom parts of the foldsthereof, the top and bottom edges of the folds being parallel, and their perpendicu-` lar sides also parallel to each other, substantially as described, and for the purposes above set forth.
5. Constructing the top and bottomedges of the'folds of the spring G with a V-depres.- sion in one edge and a corresponding elevation in the other, substantially in the manner and for the purpose set forth. l
6. The buttons or clamps D, in combination with the tubes E, when arranged and operating in relation to the plates A and B, substantially as set forth. Y
In testimony that the above is my invention I have hereunto set my hand and seal this 10th day of Februar y, 1864. Y
G. ADOLPH RIEDEL. [L s.]
Witnesses:
CHAs. E. PANcoAsT, STEPHEN Us'rroK.'
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