US3467073A - Automatic ball throwing machine - Google Patents

FIGURE 4 is a sectional view taken along

line

44 on FIGURE 1;

FIGURE 5 is a sectional view taken along

line

55 on FIGURE 1.

Referring more particularly to FIGURES 1 and 2, there is shown a preferred embodiment of a ball launching machine designated generally 10 having a tubular

main frame

11 supported at one end by a

carriage

12 and having its

other end

13 bearing against the ground. Desirably,

support member

13 is securable to the main frame in any adjusted position, as by clamping

screw

14, and permits the user to adjust the launching barrel, to be described presently, in any of a variety of angles relative to the horizontal. The main frame includes a platform 15 supporting a

motor

16 driving an

air compressor

17 by a

belt

18. The compressor delivers compressed air through a flexible duct 19 to

air reservoir

20 preferably located to discharge air as directly as possible into the breech of the launching barrel.

The ball launching facility includes a

tubular barrel assembly

25 rigidly secured to

frame

11 with its axis inclined at a suitable angle to the horizontal, such as that indicated in FIGURE 1. The open muzzle end of the barrel projects through a

front panel

26 suitably secured to the main frame and having its upper end projecting upwardly to conceal the forward end of ball storage means indicated generally at 28 to be described more fully presently.

Launching

barrel assembly

25, as herein shown, comprises an outer digid tube 25a securely anchored in any suitable manner to main

frame

11 and having an internal diameter suitable for use in launching a ball such as a baseball. A rather loose fit is desirable for best results when launching balls like baseballs and softballs. Removably mounted within outer barrel a is an inner barrel 25b having an internal diameter suitable for use in launching a smaller diameter ball, such as a tennis ball. This inner barrel must be firmly anchored in assembled position to avoid possibility of being ejected by the pressuriized air used in launching the balls, a suitable means for this purpose being a

cap screw

27 carried by outer barrel 25a and mating with threads at the inner lower end of barrel 25b. It will be understood that the inner end of barrel 25b is cut off at an angle of 45 degrees with open bevel end in registry with the lower end of the ball feeder tube 33. The latter tube has an internal diameter freely passing the largest ball to be launched and its lower end opens freely into and is secured to the breech end of barrel 25a in an air-tight manner, as by brazing or welding. The fact that feeder tube 33 is over-size with respect to balls launched with liner 25b in place does not interfere in any way with the smooth operation of the machine. The lower or breech end 31 of

barrel assembly

25 underlies ball feeder tube 33 here shown as opening vertically through the upper side of breech 31. The length of feeding tube 33 is of importance and selected to hold a predetermined number of balls with the balls resting directly upon one another and upon a ball in launching position in breech 31, and with the topmost ball out of contact with the closed upper end of the tube as by a minor portion of the ball diameter. The importance of these features will become apparent in connection with the description of the operation cycle. Desirably, inner barrel 25b includes resilient seat means about its exterior cooperating with the interior surface of barrel 25a to prevent air leakage between these barrels during a ball launching cycle.

When the machine is being used to pitch baseballs or an object such as a flare or a military grenade at high velocity, it is desirable to equip feeder tube 33 with a combined air seal and ball holder and having the features best shown in FIGURE 4. The opposite sides of tube 33 are equipped with a housing 84 opening into the interior of the tube and slidably supporting a pair of C-shaped clamps 85 of nylon or other suitable material. The semicircular facing ends support resilient pads 86 contoured to grip a ball or the like resting against a ball in firing position in the barrel breech and to form an airtight seal therewith when closed against the ball. The clamps are normally urged to retracted position by springs 86 surrounding a connection with pistons 87, the latter operating in chambers 88 connected through conduits 89 to

air reservoir

20. Accordingly, as the air pressure increases after a ball-throwing operation, clamps 85 close against a ball therebetween to seal off virtually all air flow upwardly through tube 33 and hold the ball until the tank pressure falls to a low value whereupon springs 86 open the clamp and release the ball into the barrel breech for the next firing cycle.

Communicating laterally through the upper end of tube 33 is a

third tube

34 here shown as overlying and parallel to

barrel

25, the

forward end

35 of this tube being open to receive additional balls to be launched. Owing to the downward and rearward inclination of

tube

34, the balls fed into

open end

35 gravitate rearwardly and discharge into

storage cage

28 through an

outlet

36 in the bottom of

tube

34. This opening is sufliciently large for the balls to fall freely and with certainty into

cage

28. If there is any tendency for the ball to roll past the opening then a barrier may be placed across the rearward end of opening 36, but in practice this is seldom found necessary.

The

ball storage cage

28, as here shown, comprises a pair of

end discs

39, 39 formed with openings journaled upon the exterior of the

tube

34 and held in spaced-apart relation thereon by an outer cylindrical covering of

wire mesh

40. Additional support for the mesh and for

end members

39 is provided by a pair of radially disposed

baflle members

41, 42 arranged as best shown in FIG- URE 3 along the opposite sides of the drum and interiorly of

mesh

40. These baffles serve to carry the balls upwardly .4 as the drum rotates about

tube

34. The lower rear ends of

baffles

41 and 42 are provided with a plurality of independent L-shaped

strip spring members

44 having their shorter legs spaced closely beside the exterior of

ball feeding tube

34. Accordingly, a considerable number of the balls are held captive between one of the baflles and

springs

44 as

storage drum

28 rotates clockwise, as shown in FIGURE 3, thereby carrying the captive balls upwardly into position to roll lengthwise of these springs and into the elongated ball inlet opening 45 formed along the upper half of

tube

34. The dotted line showing of these baflles in FIGURE 3 merely shows the baflles rotated to a position where the balls are ready to roll across opening 45 in

tube

34. Desirably, opening 45 is sufficiently long to accommodate several balls. Once opening 45 is full of balls the remaining balls simply pass over the top of the balls in the tube and onto the far side of the storage drum.

Drum

28 is driven in any suitable manner, as by a

motor

48 mounted on a

bracket

49 secured to the upper side of

tube

34. A

belt

50 interconnects a pulley of this motor and a

pulley

51 secured to the rear end of

drum

28.

The launcher is driven by compressed air contained in

reservoir

20 as pressurized air is released abruptly and suddenly axially into the breech end of

barrel

25 by a fast-action pressure differential flow control valve 52. The details of valve 52 are not shown since such valves are well known to persons skilled in the valve art and readily available in the marketplace. Normally closed valve 52 is controlled by a

solenoid

53 when energized by a normally open pressure-responsive switch 54 here shown as mounted on the side and in communication with the interior of

reservoir

20. This switch has an

adjustable control knob

55 operable to close switch when the pressure within the reservoir reaches any selected desired value for which

knob

55 is set.

Solenoid

53 thereupon opens valve 52 fully and abruptly allowing the full pressure of the air from the reservoir to flow through duct 56 axially into breech 31 of

barrel

25. As this is occurring, the high pressure air within the breech is communicated to the balls in feed tube 33 causing these to be momentarily lifted upwardly against the closed end of tube 33 and to be agitated but without causing them to flow backwardly into

tube

34. The halls in

tube

34 are also usually rolled backward against a crosspiece in

tube

34 between

openings

36 and 45. As the air pressure within the reservoir decays, switch 54 opens de-energizing

solenoid

53 and permitting valve 52 to close substantially instantly. While this is occurring the balls in

tube

34 roll to the left as viewed in FIGURE 1 and the balls in tube 33 drop toward breech 31. However, the inner end 58 of member 59 engages the side of the lowest ball just enough to delay the fall for a brief instant. This delay assures that the air pressure will be sufficiently low not to displace the lowest ball along the barrel as otherwise two balls could enter the breech. The inner end 58 of adjustable delay device 59 may be a light spring or the like effective to provide an effective delay without causing hang-up of the balls in tube 33 and failure of the lowest ball to feed into breech 31. As a new ball enters the breech, room is left in

tube

34 for the deposit of an additional ball at the upper rear end of

inlet opening

45.

Since the reserve supply of balls in

cage

28 is constantly being rotated, new balls are always being presented to

opening

45. As soon as a new ball is deposited to replace one gravitating into the upper end of feed tube 33, the remaining balls in

cage

28 simply flow over the top of and have momentary contact with the balls exposed through

opening

45. As will be appreciated from the showing in FIGURE 3, the shorter legs of the L-shaped

spring

44 perform an important function in this connection since these legs are spaced close to the balls in

tube

34 and prevent other balls in the cage from coming into contact therewith except when one of the

baffies

41 or 42 is rotating between the 9:30 and 10:30 oclock position. When moving through this small arc, the balls present on the bafile to the left of

tube

34 can roll along the fingers and across the top of balls already present in

opening

45. However, at all higher positions of the baflles, springs 44, and particularly their shorter legs, shield the balls in

tube

34 from contact with the remaining supply of balls.

The launching device preferably includes a fail-safe

pressure release valve

60 for dumping

reservoir

20 as soon as

motor

16 is de-energized or upon a power failure.

Motor

60 is preferably controlled by

master switch

61 mounted in any convenient position as on the

back cover

62 for

ball storage cage

28. The latter is preferably enclosed by a suitable cover member, not shown, having its opposite ends supported on

members

26 and 62, respectively.

Machine preferably includes automatic power driven means for imparting spin to the balls as an incident to being launched, the means provided for this purpose comprising a unitary subassembly designated 70 having a telescopic fit over the muzzle end of

barrel assembly

25. This accessory has a barrel 71 the internal diameter of which corresponds with that of the launching barrel with which it is to be used. Mounted upon the exterior of barrel 71 is a

housing

72 supporting shafts each keyed to a resilient roller 73 projecting through diametrically opposed openings in tube 71 with their surfaces contoured and positioned to contact the surface of a ball as it is being projected through the barrel. Each of the shafts carrying a roller 73 is provided with a smaller gear in mesh with the teeth of a

drive gear

74 secured to the shaft of a high-speed

reversible motor

75. This motor must have sufiicient speed to impart a desired rate of spin to the ball as it passes between the oppositely-rotating rollers 73. The various operating components of spinning

device

70 are carried in a

suitable housing

76 encircling and secured to the exterior of tube 71.

In order to vary the spin plane of the ball, tube 71 preferably includes means for rotating

accessory

70 about the barrel axis comprising a worm gear ring 78 secured to its exterior and meshing with a

worm

79 driven by a

slow speed motor

80 mounted on

front panel

26 of the machine. It will be understood that this motor includes a suitable remote control which may be activated when and for as long a period as desired to rotate

device

70 bodily about the outer end of

barrel

25. In this manner the plane of spin may be varied infinitely and in any desired degree from the spin plane of the previously launched ball. If

motor

80 is reversible. as is desirable, the time required to change to a new adjustment is reduced to a minimum.

It will be understood from the foregoing that the described ball launching machine operates fully automatically to launch balls sequentially in short intervals at any desired velocity and direction. The direction is controlled by adjusting the

rear support members

13, 14, and additionally by operation of the

ball spinning accessory

70 mounted on the muzzle end of

barrel

25. This accessory functions to spin the ball in either direction about its own center and in a plane determined by the position of spinning rollers 73 as adjusted by

motor

80.

Compressor

17 quickly restores the air supply in reservoir so that within a matter of a few seconds after one ball has been ejected the supply pressure is restored to close switch 54 and initiate a new firing cycle. Likewise, the continuous rotation of

ball cage

28 assures a continuous and even charge of balls awaiting delivery into the barrel breech. The number of balls maintained in the feeding tube remains constant thereby assuring uniform and certain agitation of the balls awaiting launching as well as the free gravity of these balls into launching position immediately following a preceding launching cycle.