US759858A - Air-brake mechanism. - Google Patents

Description

PATENTED MAY 17, 1904-.

G. A. BROOKS. AIR BRAKE MEOHANISM.

APPLICATION FILED JUNE 15.1903.

NO MODEL.

[NVE/WOR l By C?, W, 24v/Ja( 4M/may Him D m M .m A w mi; onlus PErEfis co.. Pnorourm.. wAsmNsToN. n. c.

UNITED STATES Patented May 17, 1904.

PATENT OFFICE.

. AIR-BRAKE MECHANISNI.

SPECIFICATION forming' part of Letters Patent No. 759,858, dated May 1'7, 1904.

Application filed June 15, 1903. Serial No. 161,425. (No model.)

To all whom it may concern.-

Be it known that I, Guss A. BROOKS, a citi- Zen of the United States, residing at Covington, in the county of Kenton and State of-Kentucky, have invented certain new and useful Improvements in Air-Brake Mechanism; and I do hereby declare the following to be a full, clear, and exact description of the invention, such as will enable others skilled in the art to which it appertains to make and use the same.

My invention relates to improved apparatus for operating street-car brakes. One of its objeets'is to provide means whereby the air for operating the brakes is compressed by the motorsemployed to drive the cars during the intervals when not being used for propelling the ears.

Another object is to employ the momentum of the cars to maintain the supply of compressed air.

Another obj ectis to provide automatic regulating mechanism whereby the current from the motors when running idle is employed to main tain a maximum air-pressure and also whereby current from the `main line is employed to maintain the airpressure whenever the current from the car-motors is insufcient.

It also consists in certain details of form, combination, and arrangement, all of which will be more fully set forth in the description of the accompanying drawings, in which- Figure 1 is a longitudinal sectional diagram through a car, showing my improved apparatus in position for use and the wiring thereto. Fig. 2` is an enlarged top plan View of the automatic regulator. Fig. 3 is a central vertical section through the same. Fig. 4 is an enlarged detail of the movable contact-blades.

` A represents the car-body, F the motormans cab, and O the car-seat.

D represents the axles of the car-wheels of one truck, and A the motor employed to drive said axles, preferably by means of spurgears d. y

E represents the usual controller-box, by means of which the current to the car-motors from the line-wires is controlled and cut out. At the lower end of the controller-shaft c I provide two contactclosing blades, which serve to close the contacts e e when the controller-shaft is turned to the position to cut olf the current from the line-wires. The contacts e' e2 serve to connect the motor B by means of the branch wires I f f with the automatic regulator Gr, the movements of which are controlled by means of the air-pressure from the storage-tank through the branch pipe g.

I-I represents an air-compressor driven by the electric motor B.

The automatic regulator consists of a cylinder J in which is located a piston or plunger J having a rod J2, projecting through the cylinder-head at the upper end.

K K represent springs which respectively `tend to force the plunger in opposite directions and which therefore hold the plunger normally in position nearly equidistant from the respective ends of the cylinder.

The variable air-pressure from the storagetank entering the upper end of the cylinder above the plunger assists the spring K to depress the plunger to a greater or less degree, depending upon the air-pressure.

7c represent stationary electrical contacts mounted by an insulated bracket f2 on the top of the cylinder and to which the wiresff and also the wires Z l', leading to the motor B, are attached.

M M' represent blades mounted on the upper end of the piston-rod J 2, which enter between the stationary contacts to complete the circuit to the motor B.

m on represent stationary contacts mounted f by an insulated bracket m2 upon the upper end of the cylinder, the bracket fm? being longer than the bracket f2. 4

m mAL represent blades adapted to complete nection from the storage-tank to the brakecontroller I), and 5 the pipe connection from the brake-controller to the brake-cylinder.

IOO

The mode of operation is as follows: Say it is desired to maintain a pressure of eighty pounds per square inch in the storage-tank for use in applying the brakes. The hand-wheel O isturned to adjust the pressure of the spring K' against the under side of the plunger, so that the combined effect of the upper spring and the pressure of air from the storage-tank O2 through pipe g will depress the plunger at eightyV pounds to the position shown in Fig. 3 to break the circuit at the contacts In 7u. Now as air is applied to the brake-cylinder O by means of the controller IJ the pressure of air in the storage-tank is reduced and the plunger rises in cylinder J, making electrical contact first at lo 1', in which position the pumpmotor Will be started automatically whenever f the motor A is cut o from the supply-wires and is driven by the momentum of the car, such as in making a stop or descending a grade. If sufficient current is thus obtained from motor Ato drive motor B, so as to restore the maximum pressure in the storage-tank, the plunger is again depressed to break contact at 76 le until the pressure of the storage-tank is again reduced. If, however, a frequent application of the brakes reduces the pressure in thestorage-tank still further, then the plunger rises still farther and makes contact at m m, whereupon current from the line-Wires is automatically supplied through the branch wires a a to motor B, which causes the pump to increase the air-pressure until the plunger is depressed suificiently to contact atLlv k. vA sleeve Q on the inside of the upper head of cylinder J serves as a lstop to prevent the plunger rising farther than necessary to make contact at m m'. A groove q in the plunger-rod J 2, engaged by a screwv q', serves to prevent the plunger and rod turning in the cylinder and insures the blades M M afm* registering with the contacts It m mf. In order to prevent the formation of an arc when the blades break contact, I pivot said bladesl and provide springs R, l which as soon as the. contact is broken quickly increase the distance between the contacts and breaks the arc. Other arc-breaking devices, such as a magnetic blow-out, may also be used, .if desired.

Where the car motor or motors are serieswound, an increased number of contact-plates may be employed on-the automatic controllercylinder and in the controller E to properly connect up the field-coils of the car-motors to utilize them as current-generators, it being obvious that as many separate contacts as desired may be carried by said automatic regulator. I am thus enabled under all ordinary circumstances to secure suflicient current from the car-motors used as generators to run the compressor-motor and automatically maintain and regulate the air in the storage-tank, and only in exceptional instances will it be necessary to take current from the lines to maintain the air-supply. It will also be noted that the car-motors when employed as generators serve to a certain extent as a brake mechanism to stop the car, and I am thus enabled to secure the air-pressure to operate the brakes while descending grades and in making stops, where the generation thereof is not detrimental to the other operations of the car or car-motors. There more than one motor is employed to drive the car, either one or more of said motors may be employed, as desired, as a generator. The usual electrical switches in the electrical line-wires and branch wires may be. employed wherever desired, but have been omitted from the drawings.

Having described my invention, what I claim isl. In a brake mechanism for cars, an airbrake cylinder, an air-storage tank, a motor- I driven compressor, an electric car-propelling motor, and means for converting the car-propelling motor into an electric generator when not employed for propelling the car, and using the current so generated in driving the compressor-motor.

' when not employed in propelling the car, contacts for automatically directing the current generated by the car-propelling motor to the compressor-motor to maintain the air-supply in the storage-tank, and an automatic rheostat interposed inthe line to the compressor-motor.

4. In an air-brake mechanism for cars, an air-brake cylinder, an air-storage tank, a motor-driven compressor, an electric car-propelling motor, contacts adapted to connect up the car-propelling motor as an electric generator when not propelling the car, and contacts automatically' operated by the pressure of air in the storage-tank for directing the current generated by the car-motor to the compressormotor to maintain the air-supply in the storage-tank.V

5. In an air-brake mechanism for cars, an

air-brake cylinder, an air-storage tank, a motor-driven compressor,- an electric car-propelling motor, contacts adapted to connect up the car-propelling motor as an electric generator when the line-current is cut off therefrom, contacts automatically operated by the pressure of air in the storage-tank for directing the current generated by the car-propelling IOC motor to the compressor-motor, and contacts also automatically operated to admit current from the line-Wire to the compressor-motor Whenever the current generated by the carmotor is insufcient to maintain the air-supply in the storage-tank.

6. In an air-brake mechanism for ears, an air-brake cylinder, an air-storage tank, a motor-driven compressor, an electric car-propelling motor, contacts adapted to connect up the car-propelling motor as an electric generator when not in use for propelling the car, contacts automatically operated by the pressure of air in the storage-tank for directing the current generated by the car-propelling motor to the compressor-motor, contacts also automatically operated to admit current from the line-Wire to the compressor-motor Whenever the current generated by the car-motor is insuiicient to maintain the air-supply in the storage-tank, and an automatic rheostat interposed in the circuit of the compressormotor.

7. In an air-brake mechanism for cars, an air-brake cylinder, an air-storage tank, a motor-driven compressor, an electric car-propelling motor, contacts adapted to connect up the car-propelling motor as an electric generator when not propelling the car, and automaticallyoperated contacts for directing the current generated by the car-motor to the compressormotor to maintain the air-supply in the storage-tank.

8. In an air-brake mechanism for cars, a pneumatic brake mechanism, an air compressor, a motor adapted to drive said coinpressor, an electric car -propelling motor, mechanism for convertingsaid car-propelling motor into an electric generator when not in use as a motor, and an automatically-operated regulator adapted to direct the current from said generator to the compressor-motor Whenever required to maintain the'air-supply.

9. In a brake mechanism for ears, in combination with a car-motor and a controller adapted to alternately connect the car-motor with the line-circuit and With an air-compressor motor-circuit, a regulator for automatically controlling the current to the-compressor-motor for maintaining the air-supply, said regulator consisting ot' a cylinder, a plunger reciprocating therein, spring-pressure operating in one direction on said plunger, and the pressure of the com pressed air operating on said plunger in the opposite direction, and a series of electric contacts adapted to he closed and opened by the movements of said plunger to automatically drive the compressor and thereby maintain the air-supply.

l0. In a brake mechanism ifor cars, a regulater for automatically directing the current to the compressor-motor for maintaining the air-supply, said regulator consisting of a cylinder, a plunger reciprocatingtherein, springpressure operating in one direction on said plunger, and the pressure oi' the compressed air operating on said plunger in the opposite direction, and two series of electric contacts adapted to be successively brought into use by the movements of said plunger to automatically supply current from different sources to drive the compressor-motor and thereby maintain the air-supply.

In testimony whereof I have aliixed my signature in presence of two Witnesses.

GUSS A. BROOKS.

Witnesses;

C. WV. MILES, C. HOGAN.

Images