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Cushioning device.

Classifications

B60G11/26 Resilient suspensions characterised by arrangement, location or kind of springs having fluid springs only, e.g. hydropneumatic springs
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US1036340A

United States

Inventor
Albert F Rockwell
Charles F Schmelz
Current Assignee
New Departure Manufacturing Co

Worldwide applications
1906 US

Application US30265206A events
1912-08-20
Application granted
Anticipated expiration
Expired - Lifetime

Description

A. F. ROCKWELL & c. F. SCHMELZ.
GUSHIONING DEVICE.
APPLICATION FILED IEB.23,1906.
1,036,340, Patented Aug. 20, 1912.
WITNESSES: I Q INVENTORS QZQ FFOCkZI/EZZ .iuj cfimeiz Arrow BK WELL and CHARLES F. SoHMELz, citizens of.
m saa'r ea ours ALBERT F. ROCKW'ELL AND -CHARLES F. SCIl-IIVIIELZ,- 0F BRISTOL, CONNECTICUT, AS- SIGNORS TO THE NEW DEPARTURE MANUFACTURING COMPANY, OF BRISTOL, CON- NECTICUT, A CORPORATION OF CONNECTICUT} CUSHIONING DEVICE.
Specification of Letters Patent. Patented Aug. 20, 1912.
Application filed February 23, 1906. Serial No. 302,652.
To all whom it may concern: 1
Be it known that we, ALBERT F. RooK- the United States, residing at-Bristol, county of Hartford, State of Connecticut, have invented certain new and useful Cushioning Devices, of which the following is a full, clear and exact description, such as will enable others skilled in the art to which it appertains to make and use" the same, reference being had to the accompanying drawings, forming part of this specification.
This invention relates to a cushioning device which may be utilized in numerous ways, but it is particularly designed for use in connection with motor vehicles, wherein the body of the vehicle is cushioned upon a base or running-gear.-
ln patent granted to Albert F. Rockwell, on or about December 7 1909, No. 942219, means is shown for cushioning the body with respect to its base or support, and the present invention might be substituted for the cushioning device cooperating withthe rockable elements illustrated in the said patent. However we do not limit ourselves to the association of the present invention with the specific mechanism shown in the said patent, because various means may be utilized for connecting the invention forming the subject matter of this application with the part to be cushioned without afiecting the operation of the deviceherein shown.
One of the objects of the invention is to provide a cushioning device wherein its 00- the novel details of construction of this in-- vention will be specifically set forth hereinafter, it being understood that changes in form, proportion and minor details of construction may be resorted to withoutdeparting from the spirit or scope of this invention or sacrificing any of the advantages thereof.
The figure in the drawing illustrates a longitudinal, sectional view through a device constructed in accordance with our invention.
The invention is herein illustrated as comprising two co-acting parts, one being shown as movable within the other, and either or both of which may be provided with means for governing the cushioning effect or the amount of pressure exerted between said two parts to compensate for the load carried by the part to be cushioned as Well as to provide :means for absorbing shocks when the cushioning elements are recovering.
A simple form of accomplishing the desired result is illustrated in the drawings as comprising a cylinder 1, in one cylinderh'ead 2 of which is a port 3, through which a suitable fluid may be introduced from thevalve being normally seated by a spring 6,
one end of which bears against the cylinderhead 2 and the other end against a collar 7 on the end of the stem. A guide stem 8 is provided on the valve 4, distant from the stem 5, said guide stem 8 being slidable in a recess 9 in a cap piece 10, closmg the recess in the port 3 in which the valve operates.
The stems 5 and 8 are in alinement, so as to cause a proper unseatmg of the valve when it is necessary to admit'pressure into the cylinder, and the valve t may be normally retained upon its seat by the spring 6. The spring 6 may be located as shown or it may be interposed between the cap piece 10 andthe valve, in which'latter event the collar '2 may be eliminated. In the present instance the cylinder-headQ serves for one of the oppositely movable co-acting elements, while the other co-acting element is herein shown as a piston 11 longitudinally movaable within the cylinder and preferably provided with alternate layers of metallic and leather packing designated by the numerals l2'and L3 to prevent leakage. The piston is provided with a stem 1 1 which projects through the bushing 15 carried by the cylinder-head 16.0f the cylinder 1. Carried by/the piston 11 is a spring seated valve 17 having a stem 18 which projects beyond one face of the piston, the projecting porprovided in'the head 16, and said port may be provided with a valve 24 to regulate the size of the opening through the port 23. so
as to govern the amount of the exhaust pass- 1ng therethrough during a given time.
Assuming that all of the parts are properly assembled, andthat the two movable parts, in the presentinstance the piston and its cylinder, are properly connected to the parts to be cushioned, the operation-will be as follows; When a sulficient load is placed I on the cushioning device, the piston 11 will have a tendency to travel toward the inlet end of the cylinder, or, indeed, both the cylinder and the piston may move one upon the other at the same time (provided, of course, that the cylinder is properly hung for this purpose). It is to be assumed that in the practical embodiment of the invention a certain quantity of fluid is in the cushioning chamber C of the cylinder. Un-' der normal. conditions the quantity of fluid will be sufiicient to cushion the load, it being desirable to maintain approximately the same relative position of the piston and cylinder as-shown in the drawing. In the event, however, that an abnormal pressure is applied to the piston or cylinder, or both of them, as the case may be, the'parts may be so actuated that the piston will assume'a position near the head 2 of the cylinder 1. As the piston assumes its position near the head 2 of the cylinder 1, it will contact with the stem 5 of the valve 4. so as to unseat the valve and admit a suiiicient quantity of cushioning fluid to move the piston away from the head 2, or back to its previous intermediate position, or at least to a position a suflicient'distance from the head 2 to give the desired cushioning effect. If a sufficient quantity of fluid is admitted into the cylinder, it is obvious that the load will be raised to its original position, as inthe 'case of a vehicle body. During the time that the piston 11 is moved toward the head 2, the
valve 21 will be unseated, so as to permit an inrush of air into the chamber D. Now as soon as air is admitted into the, chamber C to drive-the piston back toward the head 16, the air which has rushed into the chamber D, through the ort 2-2 will be caused to be come compresse but as there is an opening in the port 23, this air will slowly exhaust from the chamber D, due to the compression by the piston, and the cushion that has been previously provided by the compressed air in the chamber D will be slowly destroyed. Thus the tendency of the piston to. have a recovery strokeimparted thereto will be resisted by this cushion in the chamber D, so that the shock of the piston on its recovery stroke will be destroyed.
The desirability of maintaining a vehicle body at a predetermined height above the base or running-gear is obvious, and .it is the purpose of our invention to maintain approximately the same distance between the vehicle body and its base or runninggear at all times irrespective of the load carried, and it is for this reason that we desire to introduce a greater or lesser quantity of fluid into the cylinder to compensate for the difference in load under varying conditions. Owing to the expansibility of any cushioning fluid which might be introduced into the cylinder, the piston would remain in the proper relative position with respect to the cylinder, only so long'as the load and the raising force of the cushioning fluid are approximately equal. If,'for example, the load should become lightened or it an excess of fluid should be present in the cushioning portion G of the cylinder, there would be a tendency to force the-piston toward the head 16, so as to change the relativeposition of the load and its base, but weaim to overcome such an undesirable condition by providing the safety-valve 17 in the piston. It is obvious that if the piston moves toward the head 16 until the projecting portion 19 abuts against the head 16, the valve 17 .will be'unseated, 'so that part of the pressure from portion C of the cylinder 1 will be permitted to pass through the piston into.
, the portion D of the cylinder with the result that as the pressure in .the portion C of the cylinder is relieved, the piston will 'move back toward the head itsoriginal position.
Inactual practice we purpose to so connect the parts on the side D, of the cylinder, that the fluid which may escape from the side C, of the cylinder, may exhaust to atmosphere, so that there will be no pressure in the portion of the cylinder marked D.
It will be apparent that .by a construction similar to the one heretofore described, we. have provided means for automatically introducing fluid into the cylinder to compensate for variations in the load with re-- sultant variations in the pressure oflered to the piston and cylinder by the load, and by so arranging the parts, all liability to suddenstrains or jars due to the vibratory action of the body, or to the variation in the load will be avoided. Attention is directed to the fact that the actions of the valves are entirely automatic, and that the valves are preferably contained within the 2, to approximately cylinder, thereby protecting them against deterioration and enabling them to be responsive to the action of the cooperating mechanism at the proper time.
We reserve the right to mount or hang the devices so that oneis movable while the other is-stationary, the movable part being either the piston or the cylinder, or we may arrange the parts so that both the cylinder and the piston move. events, the generic principle is the same and each form would involve the arrangement of two parts, one of which is movable with relation to the other, and. one of the parts having automatic means for governing the fluid pressure in proportion to the load to be cushioned. L
What we claim is:
1. In a deviceof the class described, a cushioning cylinder having a valved inlet port, a piston working inthe cylinder and adapted to actuate the valve to open the inlet port, an inlet valve at the end of the cyl-' inder opposite to the supply port, said last mentioned valve being adapted to admit air into the cylinder under natural pressure, and an exhaust port for permitting the air to exhaust from said cylinder. 2. A cushioning cylinder, means for introducing fluid into the cylinder, a piston working in said cylinder and havin a valve for letting ofi some of the fluid w thin the cylinder, an inwardly opening valve at the exhaust end of the cylinder, and an exhaust port in said exhaust end of the cylinder.
i 3. A cushioning cylinder having an inlet port, a valve in the inlet port and-provided with a stem projecting within the cylinder, 9. piston working in said cylinder and adapted to contact with the stem to admit suflicientfiuid within the cylinder to provide the requisite cushion, and means for providing a shock absorbing cushion in the cylinder at the end of the piston opposite to the inlet port. I
a. The combination of a cylinder having a valved inlet openin at one end and an exhaustopening at tie opposite end, the stem of the valve in the inlet opening projecting within the cylinder, a freely mov-- able piston in the cylinder and normally out of contactwith the said valve stem, and a valve iff the said; piston, said 1sto1 1 belng capable of movement in one lrection for contact with the first named valve stem to unseat said valve, so asto' admit pressure,
said piston heing also capable of movement In any of these,
tween said cylinder ends.
cushioning cylinder having a valved inlet port, a freely movable piston in said cylin der and'provided with an exhaust valve which when unseated will permit, pressure to exhaust through the piston, the movement of said piston being effective in controlling the pressure within the cylinder.
6. A cushioning device comprising-a cylinder having a valved supply port, a piston in said cylinder, and a valved exhaust port in the piston, said 'piston being capable of movement in one direction to open the supply port and movable in an opposite direction to permit the supply port to close, and open theexhaust port.
7. A cushioning device comprising a cylinder having a valved inlet port, a piston in said cylinder having an independent valve for normally closing an exhaust port in said piston, a stem on the valve in the piston adapted to engage a part of the cylinder to unseat said valve when the piston is near the limit of its stroke in one direction, said piston being effective to unseat the valve in the supply port when the piston is near the limit of its stroke in the opposite direction.
8. In a cushioning device, the combination with a cylinder, of a freely movable.
piston in said cylinder and inclosed thereby,
a valved inlet port at one end of the cylinder v to admit pressure between one end of the cylinder and piston, an inwardly opening valve at the other. end of the cylinder t9 ad mit a fluid between one end of the cylinder and the piston, an exhaust port at one end of .the cylinder, and a valve in the piston. normally closed but adapted to be opened during themovement of the piston in one direction so that communication may be established bet-ween the spaces in the cylinder formed by the piston which is interposed be- In testimony whereof we hereunto afiix our signatures, in the presence 0 two Wlt-- ncsses. r v
ALBERT F. ROCKWELL. CHARLES F. SGHMELZ.
- Witnesses i Josnrrr D. BROWN.