US476596A - baier - Google Patents
baier Download PDFInfo
- Publication number
- US476596A US476596A US476596DA US476596A US 476596 A US476596 A US 476596A US 476596D A US476596D A US 476596DA US 476596 A US476596 A US 476596A
- Authority
- US
- United States
- Prior art keywords
- car
- bars
- truck
- springs
- bar
- 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
- 230000036633 rest Effects 0.000 description 12
- 210000002832 Shoulder Anatomy 0.000 description 2
- 238000005266 casting Methods 0.000 description 2
- 238000010276 construction Methods 0.000 description 2
- 239000002184 metal Substances 0.000 description 2
- 230000000284 resting Effects 0.000 description 2
- 239000007787 solid Substances 0.000 description 2
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61F—RAIL 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
- B61F5/00—Constructional 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
- B61F5/02—Arrangements permitting limited transverse relative movements between vehicle underframe or bolster and bogie; Connections between underframes and bogies
- B61F5/22—Guiding of the vehicle underframes with respect to the bogies
- B61F5/24—Means for damping or minimising the canting, skewing, pitching, or plunging movements of the underframes
Definitions
- This invention relates to means for checking the seesaw motion of the car-body, to means for giving independent support to the body and the truck upon the wheels, and the described means of allowing the disconnection of the wheels and axles from the rest of the car or the truck from the body.
- Figure I is a top view of the truck with parts in horizontal section.
- Fig. 11 is a side elevation of the truckwith partin longitudi nal section.
- Fig. III is a detail transverse section taken at III III, Figs. 1 and 11.
- Fig. IV is a detail transverse section taken at IV IV, Figs. I and II.
- Fig. V is a detail perspective view showing the end bearing of one of the anti-oscillating bars.
- the truck has two parallel metal bars 1 and upon each side, these bars being connected by end bars 5.
- the side bars a 5 are connected by bolts to the flanges '7 of the truck-pedestals 8.
- the pedestals 8 have side extensions 9, having an aperture for the passage of a spiral spring 10, on which the body-pedestal l1 rests.
- the extensions 9 rest on spiral springs 12, surrounding the springs 10 and out of contact with the same.
- the springs10 and 12 rest at the lower end in a cup 13, that in turn rests within a cup 14 of the side extension 15 of the casting or shoe 16, having an oil-box 17.
- the body-pedestal 11 has plates or inverted cups 18 that rest on the upper ends of the springs 10.
- the pedestals 11 are between the side bars land out of contact with them, so that the pedestals have free vertical play between the bars.
- the bodypedestals are preferably provided with cups 19, containing spring-blocks 20, whose tops rest in inverted cups 21 at the bottom of the sill-plate 22, which is bolted to the body-sill, the position of whose under side is indicated by the line 23 23.
- each of the bolts 24 passes through the sill-plate 22, the plate or cup 18, and axially through the springs 10 and 12, and through a cup or block 26, in which the lower end of the spring 10 directly rests, also through the cups 13 and 14.
- a nut 27 Upon the lower end of the bolt 24 is a nut 27.
- the orifice 28 in the cup 14, through which the bolt passes, has size sufficient to allow the passage of the nut 27, so that the shoe 16 may be dropped off without removal of the nuts 27.
- the heads of the bolts 24 rest on the sill-plates. 29 is a guide-standard in form of a bridge, whose lower ends 30 are turned outward horizontally, and through which pass vertical bolts 31, that pass down beside the oil-box and through a cross-bar 32, passing across the bottom of the oil-box.
- each bar 35 are the anti-oscillator bars extending between the side bars t and 5 from pedestal to pedestal.
- One end 35 of each bar rests in a recess of the body-pedestal at the opposite ends of the car-truck, respectively, (see Fig. 11,) while the other end 35 of each bar has bearing on the oil-box at the other end, and consequently one end of each bar has bearing on attachment of the body and at the other end upon the axle.
- the bars 35 are pivoted together at about their midlength by a clamp 36, as shown, or by other means.
- the clamp is connected to one bar by a pivot-bolt 37 and embracing the other bar so loosely as to allow the bars to oscillate upon each other at this point. in a guide-slot 38 of the standard 29 and rests on a spiral or other spring 39. (See Fig. V.)
- the spring 40 is a stay-bolt or shackle mortised at the upper part to allow the passage of the end 35.
- the shackle has a head 41, upon which rests the lower end of the spring 39, the upper end of the spring bearing beneath the top of the standard.
- the spring 39 may be dispensed with and the end 35 have positive (or solid) connection with the oil-box but it is preferred that there should be some elasticity to relieve jar and strain. This end may be accomplished by reducing the bar 35 near the end 35 so that it will be rendered sufficiently flexible to act as a spring, and thus the spring 39 may be dispensed with.
- the action of the anti-oscillating bars may be explained as follows:
- the ends 35 may be regarded as fixed, as they are connected to the axles through the grease-boxes. They have, in fact, a little movement by means of the springs 31. Though by means of the springs 31 the ends 35 of the bars have a slight movement, for the purpose of the explanation, they may properly beregarded as fixed points, as they are connected to the axles by the means described.
- the springs may be adjusted to a nieety and the relative position of the truck and axles be substantially the same at all times.
- the position of the body varies with the load without afitecting the position of the truck or the action of the bars 35.
- the springs 10 and 12 may be readily separated from each other, the springs 10 being drawn up with the body out of the springs 12 after removal of the nuts 27.
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Vehicle Body Suspensions (AREA)
Description
(No Model.) v 2 Sheets8heet 1.-
F. A. BAIER.
GAR TRUCK No. 476,596. Patented Jung 7, 1892.
In we]? far: I
(No Model.) I 2 Sheets-Sheet 2. P., A. BAIE-R.
CAR TRUCK.
No. 476,596. Patented June 7, 1892.-
Q Witness :4: I 2/ 3 4'4. aw, 4-
UNITED STATES PATENT OFFICE.
FREDERICK A. BAIER, OF ST. LOUIS, MISSOURI, ASSIGNOR TO THE BROVN ELL OAR COMPANY, OF SAME PLACE.
CAR-TRUCK.
SPECIFICATION forming part of Letters Patent No. 476,596, dated June 7, 1892.
Application filed February 25, 1892. Serial No. 422,778. (No model.)
To all whom it may concern:
Be it known that I, FREDERICK A. BAIER, of the city of St. Louis, in the State of Missouri, have invented a certain new and useful Improvement in Car-Trucks, of which the following is a full, clear, and exact description, reference being had to the accompanying drawings, forming part of this specification.
This invention relates to means for checking the seesaw motion of the car-body, to means for giving independent support to the body and the truck upon the wheels, and the described means of allowing the disconnection of the wheels and axles from the rest of the car or the truck from the body.
The novel features of the invention are set forth in the claims.
Figure I is a top view of the truck with parts in horizontal section. Fig. 11 is a side elevation of the truckwith partin longitudi nal section. Fig. III is a detail transverse section taken at III III, Figs. 1 and 11. Fig. IV is a detail transverse section taken at IV IV, Figs. I and II. Fig. V is a detail perspective view showing the end bearing of one of the anti-oscillating bars. v
1 are the wheels, 2 the axles, and 3 the axleboxes. These may have any ordinary or suitable construction.
The truck has two parallel metal bars 1 and upon each side, these bars being connected by end bars 5.
6 are cross-bars for support of a motor.
The side bars a 5 are connected by bolts to the flanges '7 of the truck-pedestals 8. The pedestals 8 have side extensions 9, having an aperture for the passage of a spiral spring 10, on which the body-pedestal l1 rests. The extensions 9 rest on spiral springs 12, surrounding the springs 10 and out of contact with the same. The springs10 and 12 rest at the lower end in a cup 13, that in turn rests within a cup 14 of the side extension 15 of the casting or shoe 16, having an oil-box 17. Thus it will be seen that the shoe is supported on the axle by means of a usual journal-box in the oilbox. The body-pedestal 11 has plates or inverted cups 18 that rest on the upper ends of the springs 10.
(See Fig. II.) The pedestals 11 are between the side bars land out of contact with them, so that the pedestals have free vertical play between the bars. The bodypedestals are preferably provided with cups 19, containing spring-blocks 20, whose tops rest in inverted cups 21 at the bottom of the sill-plate 22, which is bolted to the body-sill, the position of whose under side is indicated by the line 23 23.
24 are vertical bolts having square portions at the upper part. Each of the bolts 24 passes through the sill-plate 22, the plate or cup 18, and axially through the springs 10 and 12, and through a cup or block 26, in which the lower end of the spring 10 directly rests, also through the cups 13 and 14. Upon the lower end of the bolt 24 is a nut 27. The orifice 28 in the cup 14, through which the bolt passes, has size sufficient to allow the passage of the nut 27, so that the shoe 16 may be dropped off without removal of the nuts 27. The heads of the bolts 24 rest on the sill-plates. 29 is a guide-standard in form of a bridge, whose lower ends 30 are turned outward horizontally, and through which pass vertical bolts 31, that pass down beside the oil-box and through a cross-bar 32, passing across the bottom of the oil-box.
33 are nuts on the bolts 31, hearing against the under side of the bar 32.
or are stirrups swinging from the shoe 16 and surrounding the extended ends 32 of the bar 32 and limiting the descent of the oil-box relatively to the shoe.
The upward movement of the body-pedestals 11 on the oil-box is limited by shoulders 11 of the pedestals coming in contact with the extended ends 30 of the bracket 29. The upper ends of the bolts 31 are firmly attached to the standards, so as to hold them firmly in position.
35 are the anti-oscillator bars extending between the side bars t and 5 from pedestal to pedestal. One end 35 of each bar rests in a recess of the body-pedestal at the opposite ends of the car-truck, respectively, (see Fig. 11,) while the other end 35 of each bar has bearing on the oil-box at the other end, and consequently one end of each bar has bearing on attachment of the body and at the other end upon the axle. The bars 35 are pivoted together at about their midlength by a clamp 36, as shown, or by other means. The clamp is connected to one bar by a pivot-bolt 37 and embracing the other bar so loosely as to allow the bars to oscillate upon each other at this point. in a guide-slot 38 of the standard 29 and rests on a spiral or other spring 39. (See Fig. V.)
40 is a stay-bolt or shackle mortised at the upper part to allow the passage of the end 35. The shackle has a head 41, upon which rests the lower end of the spring 39, the upper end of the spring bearing beneath the top of the standard. Thus it will be seen that the spring is double-acting, checking both the descent and ascent of the end 35. The spring 39 may be dispensed with and the end 35 have positive (or solid) connection with the oil-box but it is preferred that there should be some elasticity to relieve jar and strain. This end may be accomplished by reducing the bar 35 near the end 35 so that it will be rendered sufficiently flexible to act as a spring, and thus the spring 39 may be dispensed with.
The action of the anti-oscillating bars may be explained as follows: The ends 35 may be regarded as fixed, as they are connected to the axles through the grease-boxes. They have, in fact, a little movement by means of the springs 31. Though by means of the springs 31 the ends 35 of the bars have a slight movement, for the purpose of the explanation, they may properly beregarded as fixed points, as they are connected to the axles by the means described. Now it will be seen that if either end of the car-body ascends the end 35, being directly connected to it, must rise too, and this would cause the elevation of the end 35 of the other bar 35, which is at the other end of the car-body, thus the ends of the car-body must rise and fall together, and the seesaw motion or longitudinal rocking of the car is only possible to a small degree.
As the truck and body are supported on separate springs and the weight of the truck does not vary, the springs may be adjusted to a nieety and the relative position of the truck and axles be substantially the same at all times. The position of the body varies with the load without afitecting the position of the truck or the action of the bars 35. As the body and truck are supported on separate springs 10 and 12, they may be readily separated from each other, the springs 10 being drawn up with the body out of the springs 12 after removal of the nuts 27.
The wheels, with the oil-boxes and shoes 16,-
1. The combination, in a car, of two bars 35, extending endwise of the car, pivoted together at or near their mid-length, and the contiguous ends of the two bars connected, respectively, with the car-body and with parts bearing directly upon the car-axle, substantially as set forth. The ends 35 of each bar plays 2. The combination, in a car, of two bars 35 at each side of the car, extending lengthwise of the car, two of each pair being pivoted together at or near their midlength, and the contiguous ends of each pair connected, re-
spectively, with car-body and with parts bearing upon the car-axle, substantially as and for the purpose set forth.
3. The combination, in a car, of a pair of bars 35, extending lengthwiseof the car, pivoted together at or about their mid-length,
with the contiguous ends 35 and 35*, con-- nected, respectively, to the car-body and to parts bearing directly upon the axle, and a spring interposed between the end 35 and the axle-bearing, for the purpose set forth.
#1. The combination, in a car, of a pair; of bars 35, pivoted together at or near the midlength of the bars,said bars extending-lengthwise of the cars and their contiguous ends 35 35 connected, respectively, to the carbody and the truck, for the purposeset forth.
5. The combination, in'a car, of a pair of bars 35, pivoted together at or near their midlength, extending lengthwise of the-car, with their contiguous ends 35 35 connected, respectively, with the car body and truck, and springs interposed between the said ends and the car body and truck.
6. The combination, in a car, of a pair of bars 35, pivoted together, substantially as described, extending lengthwise of the car, with the ends 35 of the bars connected with the car-body and the ends 35 connected withthe truck by means of the standard 29, shackle 40, and interposed spring 39, adapted to operate substantially as set forth.
7. The combination, in a car, of the pair of bars 35, pivoted together at or near their midlength, one end, as 35, of each bar connected with the car-body and the other end having doubleacting spring connection with the truck, substantially as set forth.
8. The combination, in a car, of pedestals connected to the truck, pedestals connected to the body, playing within the truck-pedestals, springs 12, supporting the truck-pedestals, and springs 10 within the springs 12, supporting the body-pedestals, and a shoe 16, connected to the grease-box and forming bearings for the springs 12 and 10, substantially as set forth.
9. The combination, in a car, of the shoe 16, attached to the grease-box and having cups 14, with central orifices 28, the springs 10 and 12, the bolts 2%, and the cups 13, resting in the cups 14, substantially as set forth.
10. Thecombinati0n, with the grease-box ITO 17 of a car, of the truck-pedestal 8, the bolts grease-box 17 or other part of the truck, sub- 31, with nuts 33, the bar 32, and the stirrups stantially as and for the purpose set forth.
34, substantially as set forth.
11. The combination, in a car, of the body FREDERICK BAIER' 5 and truck supported on separate springs and In presence ofthe bars 35, pivoted together and having ends SAML. KNIGHT, connected, respectively, to the body and the ED. S. KNIGHT.
Publications (1)
Publication Number | Publication Date |
---|---|
US476596A true US476596A (en) | 1892-06-07 |
Family
ID=2545451
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US476596D Expired - Lifetime US476596A (en) | baier |
Country Status (1)
Country | Link |
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US (1) | US476596A (en) |
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0
- US US476596D patent/US476596A/en not_active Expired - Lifetime
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