US631265A

US631265A - Valve mechanism for engines.

Info

Publication number: US631265A
Application number: US70551499A
Authority: US
Inventors: John Franklin Mowatt
Original assignee: DAVID P MCNEIL
Current assignee: DAVID P MCNEIL
Priority date: 1899-02-14
Filing date: 1899-02-14
Publication date: 1899-08-15
Anticipated expiration: 1916-08-15

Description

Patented Aug. l5, |899.

J. F.MOWATT.

VALVE MECHANISM FOR ENGINES.

(Application filed Feb. 14, 1899,)

2 Sheets-Sheet (No Model.)

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l Patented Aug.`|5, |899.

J. F. MWATT.

VALVE MECHANISM FOR ENGINES.

(Application led Feb. 14, 1899.)

2 Sheets-Sheet 2 (No Model.)

'UNITE-n Srnfriesl PATENT OFFICE.

JOHN FRANKLIN MOWATT, OF DENVER, COLORADO, ASSIGNOR OF ONE- HALF TO DAVID P. MCNEIL, OF SAME PLACE.

VALVE IVECHAN'ISM FOR ENGINES.

SPEFICATN forming part of Letters Patent No. 631,265, dated August 15, 1899. Application lled February 14, 1899. Serial No. 705 ,514. (No model.)

To all whom it may concern.-

Be it known that I, JOHN FRANKLIN Mow- ATT, a citizen of the United States of Am erica, residing at Denver, in the county of Arapahoe and State of Colorado, have invented 'certain new and useful Improvements in Valve Mechanism for Direct-Acting Engines; and I do declare the following to be a full, clear,- and exact description ofthe invention, such as will enable others skilled in the art to which it appertains to make and use the same, refe erence being had to the accompanying drawings, and to the figures of reference marked thereon, which form a part of this specification.

My invention rela-tes to improvements in valve mechanism for direct=acting engines, and will be considered in this application more especially with reference to its use for rockdrilling purposes, though it is evident that its utility is not limited thereto and that it may be employed to equal advantagein many other relations.

My object is to provide an apparatus of this class which shall be simple in construction, economical in cost, reliable,durable, and efficient in use; and to these ends the invention consists of the features, arrangements, and combinations hereinafter described and claimed, all of which will be fully understood by reference t the accompanying drawings, in which is illustrated an embodiment thereof.

In the drawings, Figure lis a vertical longitudinal section taken through my improved Valve mechanism and the cylinder upon which it is mounted. This section is taken on the line Y Y, Fig. 2. Fig. 2 is a top View of the cylinder, shown in detail, the valve casing or chest being removed. Fig. 3 isa vertical crosssection taken on the line X X, Figs. 2, 4, and 5. Fig. 4 is an underneath view of the valve chest or chamber. Fig. 5 is a horizontal section taken through the valve-chest on the line Z Z, Fig. 1.

Similar reference characters indicating corresponding parts in the views, let the nu'- meral 5 designatethe cylindenprovided on top with a dat smooth face or table forming a seat for the bottom of the valve-chest 6. The top of the cylinder and the bottom of the valvechest are provided with induction or supply ports 7 and 7a and eduction or exhaust ports 8 and 8a. The expansive fluid, as air or steam, enters the cylinder by way of' the

ports

7 and 7 alternately and escapes or exhausts therefrom alternately through the ports 8 and 8a. The

adjacent ports

7 and 8, as well as the ports 7 and 8a, are united underneath separatingpartitions 9 and at these points communicate with the long channels or passages 10 and 12, respectively, whose opposite extremities communicate with the extremities of the cylinderchamber. The air or other expansive fluid enters the cylinder and exhausts therefrom through these passages.

The valve 13, located within the casing or chest 6, is provided with two large

circumferential grooves

14 and 14, one being located on each side of its center. Adjacent the grooves 14 and 145L are two shallow grooves 15 and 15u, located between the grooves 14 and 14a. The grooves 15 and l5a also extend entirely around the valve. The valvel is further provided with two central longitudinal passages 16 and 16a, each leading from a point near the center of the valve to its extremity, where the passage is open. Each extremity of the valve is cut away around its central portion,- which is grooved to allow the air or steam to escape when the valve is at the extremity of the chamber. From the grooves 15 and 15 lead ducts 1S and 1S, respectively, to the inner extremities of the passages 16a and 16. The valve chest or casing is provided with a central inlet-openinglf') on one side and an exhaust=opening20 on the opposite side. Thetop of the cylinder is provided with two ports 2l and 22,centrallylocated at opposite ends of the space occu pied by the inlet and exhaust ports. The port 2l is the larger and located 4in the rear of the port 22 or farther toward the right, referring to Figs. 1 and 2.' The extremities of the valve-chest are respectively provided with two

ports

23 and 24. The port 23 leads downward to a passage 25, formed in the bottom of the valve-chestand extending forward around the inlet and exhaust ports to the port 22, leading to the cylinder-chamber. The port 24 leads downward to a passage 26, formed in the bottom of the valve-chest and IOO extending rearward on the opposite side of the inlet and exhaust ports to the port 21, leading to the cylinder-chamber. The channel or passage 25 is also arranged to communicate with a small port 22, located forward of the port 22. Then one port 22 or 22n is used, the other must be plugged or stopped. The cylinder is provided with ports 27 and 28, through which the exhaust passes from the extremities of the valve chamber. These ports register with

ports

29 and 30, formed lin the valve-chest.

In the use of my improved engine the air enters the valve chest or chamber by way of an opening 19. Assuming that the valve is in the position shown in Figs. 1-and 5 and that the piston is in the position shown in Fig. 1, the air as it enters the opening 19 (see Fig. 5) will pass to the grooves 14 and 15. From the groove 15 it passes by Way of the duct 18 (see Fig. 1) to the central passage 16, thence to the end of the valve-chest, thence through the port 24, thence through the passage 26 of the valve-chest to the port 21 of the cylinder, thence around the reduced portion 5 of the piston to the port 27 of the cylinder, and thence through the port 29 of the valve-chest and ont to the atmosphere by way of the exhaust-opening 20. By reason of this exhaust from or reduction of pressure in the forward extremity of the valve-chest the valve will remain in its present position until the conditions are changed. At the same time air orsteam en ters the groove 14 of the valve, passes through the registering ports 71 in the bottom of the valve-chest and the top of the cylinder into the passage 12 of the cylinder, and thence into the rear extremity of the cylinder behind the piston, driving the latter forward. During the forward movement of the piston the latter closes the port 21 and opens the port 22, cutting off the exhaust from the forward extremity of the valve-chest and opening an exhaust-passage from the rear extremity of the Valve-chest by way of the port 23 of the valve-chest and the passage 25, the port 22 of the cylinder, the space around the reduced portion 5 of the piston, the port 28 of the cylinder, the port 30 of the valvechest, and the outlet-opening 20. Hence the valve will immediately move to the rear extremity of the valve chest, bringing the grooves 14 and 15 into communication with and cutting oft grooves 14 and 15a from the airorsteam entering at the opening 19. Thus the rear extremity of the cylinder is cut off from air or steam,while the forward extremity of the cylinder is brought into communication with such air or steam by way of the ports in the valve-chest and cylinder and the passage 10 of the cylinder. At the same time the rear extremity of the cylinder is brought into communication with the atmosphere for exhaust purposes by way of the passage 12, the ports S, the groove 14, and the exhaustpassage 20, the exhaust being simultaneously cut off from the front end of the cylinder.

The piston is now driven again to its rearward limit of movement, closing the port 22 and opening the port 2l, thus cutting off the exhaust from the rear extremity of the valvechest and opening the exhaust-passage leading from the forward extremity of the chest. rlhe valve will now return to the forward extremity of the chamber, permitting the air or steam to enter the rear extremity of the cylinder and opening an exhaust-passage from the forward extremity of the cylinder by way of the passage 10, the ports 8 in the cylinder and valve-chest, the groove 14, and the exhaust-opening 2O in the valve-chest.

1t will be observed that the apparatus is so arranged that the position of the valve-chest may be reversed without interfering with the working of the mechanism. Hence the cylinder is provided with a port 27 and a port'28 on each side. (See Fig. 2.) Only one port 27 and one port 28 are in use at any time. The two sets of ports 27 and 28 are so arranged that one set will always register with the

ports

29 and 30, respectively. The channels or

passages

25 and 26, as well as the ports 7 7 and 8 S, are also correspondingly constructed and arranged, whereby whether the valve-chest is turned side for side or end for end there will be no difference in the working of the meollanism.

The

grooves

14 and 14,as well as the grooves 15 and 15, of the valve 13 are equidistant from its extremities. The passages 16 and 16 are exactly alike, as well as the ducts 1S and 18, while the extremities of the valve are of the same pattern. Hence the valve may bc reversed in the valve-chest without interfering in any way with the working of the parts.

In order to get the best results or the most powerful blow from a machine of this class, it is necessary that the ports shall be so arranged that the air or steam is only admitted to the front of the cylinder just before the piston has reached its forward limit of movement. When drilling soft rock and the most powerful blow is not required, the port 22 is used and the port 22, located in front of it, is closed, because the reduced portion 5n of the piston will reach the port 22 first and open the exhaust-passage communicating with the rear extremity of the valve, resulting in the shifting of the valve and the admission of air or steam to the cylinder in front ofthe piston. Of course the earlier this occurs the more the forward movement of the piston is retarded and the 'less forceful the blow delivered. Hence if the rock is Very hard the port 22 is plugged or stopped and one of the ports 22 employed, which admits the air or steam to the front of the piston an instant later than the port 22 and to the extent of this delay diminishes the retarding action of the air, steam, or other expansive fluid and allows the machine to strike the most powerful blow possible. There are two ports 22,

one on each side of the cylinder, one of which will always register with the extremity 25 of IOO IIO

the passage 25 or the extremity 26L of the passage 26, according to the position of the valvechest.

During the interval between the closing of the port 2l and the opening of the port 22 or 22, as the case may be, the valve remains inactive and perfectly balanced, since there is no exhaust from either extremity of the valvechamber, and the pressure of the expansive vapor is equal in both directions.

Having thus described my invention, what I claim isl. In a direct-acting engine the combination of the valvechest,the valve located therein, the cylinder, and the piston located therein, the valve-chest being provided with inlet and exhaust ports, a passage being formed from the inlet 0f the valve-chest through the valve, the bottom of the valve-chest into the cylinder, through the cylinder-chamber, and

through the cylinder and valve-chest to the exhaust-port of the latter, another passage being formed from the inlet of the valvechest, through the valve, the bottom of the valve-chest, through the cylinder to one end of the cylinder-chamber, the parts being so arranged and connected that, through the instrumentality of these passages, there is an exhaust from either extremity of the valvechest simultaneously with the initial admission of the air or steam to the opposite extremity of the cylinder.

2. In a direct-acting engine, the combination of the valve-chest,the valve located therein, the cylinder, and the piston located therein, the. valve-chest being provided with inlet and exhaust ports, a passage being formed from the inlet of the valve-chest through the valve to each extremity of the valve-chamber, thence through the valve-chest and through the cylinder into the cylinder-chamber,thence through the cylinder and valve-chest to the exhaust-port of the latter, another passage being formed from the inlet of the valve-chest through the valve to each extremity of the valve-chamber, thence through the Valvechest and through the Vcylinder to each extremity of the cylinder-chamber, the parts being so arranged and connected that,through the instrumentality of these passages there is an exhaust from each extremity of the valvechest simultaneously with the initial admission of the air or steam to the opposite extremity of the cylinder.

3. The combination with the valve-chest, the cylinder and the piston, of a valve having two large and two small circumferential grooves, two longitudinal passages and two ducts leading in opposite directions from the small grooves to the longitudinal passages respectively, a port being formed in each extremity of the valve chest leading down. wardly, the bottom of the valve-chest having a passage leading from the rear port forward and another passage leading from the forward port rearward, the cylinder having ports com municating with the respective extremities of the said passages, the cylinder being constructed to open and close the said ports to permit an exhaust therethrough alternately 7o from the opposite extremities of the valvechest, and suitable means for alternately dev livering air or steam to, and exhausting it from, the opposite ends of the cylinders by way of the large grooves of the valve.

4. The combination with the valve-chest, the cylinder and the piston, of a valve having two small circumferential grooves, two longitudinal passages and two ducts leading in opposite directions from the small grooves to 8o the longitudinal passages respectively, a port being formed in each extremity of the valvechest leading downwardly, the bottom of the valve-chest having a passage leading from the rear port forward and another passage leading from the forward port rearward, the cylinder having ports communicating with the respective extremities of the said passages, the cylinder being constructed to open and close said ports to permit an exhaust there- 9o through alternately from the opposite extremities of the valve-chest.

5. The combination, with the valve-chest and cylinder' provided with double induction and eduction ports arranged in pairs, an nduction-port and an eduction -port of each pair having their upper extremities separated and their lower extremities united and communicating with a passage leading to one extremity of the cylinder, and a valve provided roo with circumferential grooves arranged to cooperate with the induction and'eduction ports of the valve-chest and cylinder.

6. The combination with the valve-chest, a cylinder provided with suitable induction and ro 5 eduction ports, a valve provided with circumferential grooves coperating with these ports, passages leading from these ports to the opposite extremities of the cylinder,provision being made for an exhaust through the cyl- 11o inder from each extremity of the valve-chest simultaneouslywith the admission of air or steam to the opposite extremity of the cylinder.

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

JOHN FRANKLIN MOWATT.

Witnesses:

J. H. BocKENFELn, NELLIE G. DANIELs.