US2792822A - Mechanical baseball pitching machines - Google Patents

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Classifications

• • A—HUMAN NECESSITIES
  • A63—SPORTS; GAMES; AMUSEMENTS
  • A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
  • A63B69/00—Training appliances or apparatus for special sports
  • A63B69/40—Stationarily-arranged devices for projecting balls or other bodies
  • A63B69/407—Stationarily-arranged devices for projecting balls or other bodies with spring-loaded propelling means
  • A63B69/408—Stationarily-arranged devices for projecting balls or other bodies with spring-loaded propelling means with rotating propelling arm

Definitions

• the present invention relates to a mechanical baseball pitching machine.
• the prime object of the invention is to provide an automatic pitching machine for use by high schools, junior league baseball activities, industrial league baseball clubs, minor and major baseball leagues, which can be sold at a sufiiciently low price to reach this market.
• Another objects of this invention are to provide a simple mechanism which obviates the necessity for complicated or intricate parts and reduces maintenance costs to a minimum, means to provide a smooth mechanical action with follow through and shock absorbing capacities so as not to require securing the machine to the ground to prevent shifting while in operation; a light-weight portable designed to facilitate quick and convenient movement of the machine onto and off the pitchers mound; means to quickly and easily adjust while the machine is in continuous operation, the trajectory of the ball for horizontal and vertical flight, and the speed of the pitched ball; an automatic warning bell mechanism to alert the batter immediately prior to each delivered pitch; an automatic feeding mechanism to feed balls into 'the machine from a volume supply hopper; a construction and operating design completely safe for vthe operator with no moving parts exposed; provision for projecting fly :balls and ground balls with its subsequent practice potential by simple adjustment while the machine remains incontinuous operation; accurate delivery of the pitched ball into the strike zone with maximum of eiciency for ybatting practice and complete safety to the batter; and in general, a completely automatic, safe, practical
• Fig. l is a side elevation View of the entire machine
• Fig. 2 is a rear fragmentary section ⁇ View of a feeder hopper
• Fig. 3 is a front elevation view of the entire machine
• Fig. 4 is a cross section front view of the basic mechanism on the lines V--V of Fig. l,
• Fig. 5 is a cross section side view 'of an adjustable suspension bracket and horizontal adjusting mechanism substantially on the lines R-R of Fig. 4,
• Fig. 6 is a side elevation View of a speed control mechanism, parts vbeing broken away and,
• Fig. 7 is a side elevation View illustrating the throwing cycle.
• the baseball pitching machine of the present invention includes a thin generally cylindrical housing or container 2 within which impetus is ⁇ given toa baseball by mechanism hereinafter to be described so that the baseball will thereafter be ejected from a tangential opening or nozzle at a relatively great velocity.
• the container 2 is supported on a frame which in turn is mounted upon three triangularly- 2,792,822 Patented May 21, 1957 spaced wheels 41. More particularly, the rear wheel is connected to a portion of the frame 43 so as to be rotatable about a substantially vertical axis thereby permitting the machine to be guided as it is moved.
• This portion 40 of the frame is itself pivotally connected to the main portion of the frame 43 so that upon arrival of the machine at the pitching mound, the rear wheel may be pulled upwardly from the ground whereupon a spike 42 depending from the rear portion 40 can be lowered into the ground to stablize the machines position.
• the two front wheels 41 can be removed from the frame 43 so that similar spikes adjacent these wheels can also enter the ground. While the described spikes 42 do provide for stabilization of the machine in the manner described, it is desired to point out that they usually need not be utilized because, as will become apparent hereinafter, the forces which propel the baseball are balanced so that the machine will be held against turning on the pitchers mound even when supported on the wheels 41.
• the cylindrical container with its tangential opening is pivotally supported on the frame 43 by means of swivel collers 44 bearing on container hubs 11 and secured thereto by a retainer collar 45, supported by pivot bolts 47 and ball bearings 46 in a stationary suspension bracket 9 and an adjustable suspension bracket 10 as shown in Fig. 4.
• This construction design permits the centrifugal container 2 to rotate freely on the frame without interference to the remaining operating mechanism, providing a means for adjusting the height of a pitched ball at any time during continuous operation of the machine, as controiled by an elevation adjustment gear box 27 shown in Fig. l.
• the elevation adjustment gear box 27 is linked to the container 2 by an elevation adjusting cable 29 with equalizing tension being provided by an elevation adjusting tension spring 30.
• the adjustable suspension bracket 10 is actuated forwards and backwards on the frame 43, as seen in Fig. 5, by means of a horizontal adjusting lever 24 secured to a horizontal adjusting shaft 48, brought to bear against the face of a horizontal adjustment helical cam 25 by a horizontal adjustment tension spring 26.
• spring tension retains the lever Z4 against the face of the helical cam 2S thusly moving the shaft 4E and the adjustable suspension bracket 10 forward to position X; by lowering the lever 24 to position Z, the shaft 4S is moved back with the adjustable suspension bracket moving backward to position Z; this action results in the ball bearing and the pivot bolt 47 in the stationary suspension bracket 9 acting as a fulcrum,
• container 2 in itself consists of: a receptacle to hold the balls in position for the propelling mechanism; guides to insure controlled iiight of the ball during original propulsion; a support for the feeding mechanism; and a support for a speed control yoke l5.
• container side panels 49 are held together ⁇ by a perimeter guide track 3l, with this track 31, stainless steel side plates 33, and tangential outlet guides 34 performing the function of guiding the ball in a directed (see Figs. 4 and 6).
• the gravity feeder hopper 35 (see Figs. 1 and 2) is attached to the container side panel 49 in a manner as to permit balls placed in said hopper to flow by gravity through a provided opening in said side panel and come ⁇ to rest on a ball receptacle nest 37.
• the propelling mechanism is actuated by a drive sprocket 3 which is in turn driven by a motor 4 through a reduction pulley 5 and a reduction sprocket 6 (see Fig.
• the revolutions per minute made by the drive sprocket determines the time interval between each pitched ball, (i. e., each revolution completes one operating cycle resulting in one pitched ball). Therefore the reduction ratio between the motor and the drive sprocket is computed and designed to produce a predetermined R. P. M. at the drive sprocket with approximately 8 R. P. M. being satisfactory with a pitched ball every 7.4 seconds.
• the drive sprocket 3 revolves on its bearing over the main shaft 1, see Fig.
• the multiple torsion springs 7 which have one end secured to the drive sprocket -and the other end to a driver tlange 8, actuate the main shaft l1 to revolve until a speed control cam 15 makes contact with a speed control tensioner bar roller 19 thereby momentarily stopping rotation of the shaft 1 Attached to the main shaft 1 inside of the container is a propelling arm 13 by means of a propelling hub 12, in a position relative to the speed control cam such that the propelling arm rotates and picks up a ball from the receptacle nest 37 immediately prior to the cam 15 making contact with the roller 19 (see Fig.
• the drive sprocket 3 With the cam in contact with the roller and the ball having been picked up and being held by the arm, the drive sprocket 3 continues to revolve and in so doing exerts increased pressure to the tensioner bar roller 19 through the cam 15 by energy being built up in the multiple torsion springs 7.
• the cam 15 passes under the roller and releases the main shaft with the propelling arm attached resulting in the ball being propelled up and out of the container (see Fig. 7), through the tangential orifice 32, guided by the perimeter guide track, the stainless steel side plates, and the tangential outlet guides.
• the propelling arm continues around to the end of its centrifugal sweep as shown in Fig. 7, reverses its direction and adjusts itself to a neutral pressure position in relation to the multiple torsion springs which have continued to revolve as driven by the drive sprocket 3.
• the cam and arm continue around until the arm picks up a succeeding ball and the cam again makes contact withv the roller, thereby completing one entire cycle. This cycle is repeated uninterruptedly so long as the motor 4 is supplying power to the driver sprocket 3.
• Speed of the pitch is determined by the amount of resistance otfered by the speed control tensioner bar (Fig.
• a ball pitching machine comprising a container fromwhich balls are adapted to be propelled, a rotatably mounted shaft projecting through said container, a propelling arm secured to said shaft and arranged to propel balls from said container upon rotation of said shaft, drive means including a member mounted for concentric relative rotation with respect to said shaft, a torsion spring surrounding said shaft -and connecting said member to said shaft to establish a torsional driving connection therebetween, a cam secured to said shaft, and a roller resiliently urged into the rotative path of said cam to impede rotation of said shaft until a predetermined driving torque is established whereby a ball is propelled at a predetermined rate of speed.
• a ball pitching machine comprising, an upright frame, a pair of horizontally spaced brackets on said frame, one stationary and the other movable in a horizontal plane, a horizontal shaft rotatable in said brackets, a thin, cylindrical ball container carried by and rotatable on said shaft in a vertical plane between the brackets and having a tangential opening through which balls are adapted to be propelled, a ball-propelling arm xedly attached to the shaft within said container, means for rotating said shaft whereby to propel balls from said container through the opening therein, said container and the stationary bracket having a pivotal connection on a vertical axis, and means operative to shift the movable bracket selectively to various positions of adjustment in the horizontal plane of its movement whereby to pivot the container on said vertical axis of its connection with the stationary bracket.
• a ball pitching machine means to guide a ball along a predetermined path, an arm movable to propel a ball along said path, drive means, means drivingly connecting said drive means to said movable ballpropelling arm including a force-transmitting resilient member, a cam connected to said arm for movement therewith, a member movable into Vthe path of said movable cam to impede rotation of said arm, and means resiliently urging said impeding member into impeding position, said cam being arranged to push said impeding member out of impeding position when a predetermined force is exerted by said arm against the impeding member.
• a ball pitching machine comprising, a container from which balls are adapted to be propelled, a rotatably mounted shaft projecting through said container, a propelling arm secured to said shaft and arranged to propel balls from said container upon rotation of said shaft, drive means including a member mounted for concentric relative rotation with respect to said shaft, a torsion spring surrounding said shaft and connecting said member to said shaft to establish a torsional driving connection therebetween, means for impeding advance of said arm until a predetermined amount of torque is transmitted to said shaft, and means for adjusting said impeding means to determine such amount of torque.
• ball pitching machine having a ball propulsion delivery member movable under the force of a spring which exerts a driving force thereon continuously while the machine is in operation; ball speed regulating means comprising, a second spring exerting on the delivery member periodical-1y, While the machine is in operation, an impeding force in opposition to the force of the driving spring, and means manually adjustable, while the machine is in operation, selectively to vary the force being exerted by the mpeding spring.

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• Health & Medical Sciences (AREA)
• General Health & Medical Sciences (AREA)
• Physical Education & Sports Medicine (AREA)
• Friction Gearing (AREA)

Description

Priority Applications (1)

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Publications (1)

Family

ID=23699701

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Cited By (11)

Citations (8)

• 1954
  • 1954-05-10 US US428623A patent/US2792822A/en not_active Expired - Lifetime

Patent Citations (8)

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