US411769A - king-will - Google Patents

Description

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G01N GONTROLLED BLOW TESTING MACHINE.

No. 411,769. Patented Sept. 24, 1889;

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` UNITED STATESPATENT Prion.

JOHN F. KINGIILL, OF CHICAGO, ILLINOIS, ASSIGNOR TO T. J. HOLMES, C. YV. BECK, AND CHARLES L. IVAKEFIELD, ALL OF SAME PLACE.

C OINCONTROLLE.D BLOW-TESTING MACHINE.

SPECIFICATION forming part of Letters Patent No. 411,769, dated September 24, 1889.

Application filed February ll, 188.9. Serial No. 299,476. (No model.)

To all whom it may concern: acting against the power of the weight B. Be it known that I, JOHN F. KINGWILL, a Secured to the dog B is the rod B4, its lower citizen of the United States, and a resident of end secured to the arm B5, projecting from Chicago, in the county of Cook and State of the rock-shaft B, from which projects also the 5 Illinois, have invented a new and useful Imarm B7, as shown in Fig. 2. This structure 5 5 provelnent in Coin-Controlled Blow Testing will remain in the position shown in Fig. 2 or Striking Machines, of which the following when the arm Bis raised and supported-as,

is a speciication. for instance, by the pin C on the plate D, Fig. My invention relates to coin-controlled test- 3. The rock-shaft BG is supported on the 1o ing devices, and particularly such as are used stand BS, secured to the side of the case. 6o to test the striking power of a person or per- C is a case containing an ordinary clock sons, and has for its object to provide conmechanism, to the winding-shaft C6 of which Venient means whereby7 a series of tests may is secured the hand lever or arm C2, having be made duringa considerable period of time. the pin C3, as shown in Figs. 2 and 3. On the 15 This object I accomplish by means of the case C is secured the plate C4, having the 65 mechanism illustrated in the accompanying long notch C5, in which moves the pin C3. By drawings, wherein operating the arm C2 the main or winding Figure l isa front View of the device with shaft of the clock mechanism is rotated and some parts removed. Fig. 2 is a side View of the clock wound up, and when released the zo the interior. Fig. 3 is a detail of the clock clock will unwind or run until the arm is ar- 7o mechanism. Fig. a is a detail of the inechrested against the top of slot A12 in the frame anism which operates the indicating-hand; A, through which arm C2 projects, or until and Fig. is another detail of the same, taken the pin C3 engages the opposite end of the on the line 5 5 of Fig. 4f, with certain parts notch C5.

25 omitted. D is a pivoted dog upwardly held by the 75 The same or like parts are indicated bythe spring D', which dog is pivoted to the clocksaine letters in all the figures. case C at D2, said pivoted dog D having at A is a box or case having on the front one extremity a scoop D3 and at the other a thereof the dial A', and the striking-cushion lug D4 to engage the notch D5 on the plate D.

3o A2 on the rod A3, which is pivoted to the ver- This plate is secured upon the ordinary hand- 8o tical rod A4, which is in turn pivoted at A5 to shaft D12 of the clock mechanism in lieu of the stand AG on the bottom of and inside the the hands and carries the pins C C. It also case. carries the hlocl: D7, between which and the A7 is a bar projecting from the hack ot' the plate D6 is pivoted the bar D8, against which 35 case A, and secured to the stand AS, and rebears the spring D9. S5

ceived int-o a pocketA9 in the rod A4. Upon D10 is a coin-chute through which the coin the rod A7 is the block A10, which bears D11 passes into the scoop D3, which is formed against the rod A4, and about the bar A7, beon the dog D. tween the block A10 and the stand A8, is the E is a ring on the face of the case which 4o helical spring A11. From an examination of contains the dial A', and through the dial 9o this structure it will be seen that when presspasses the shaft E', carrying the hand E2 and nre is applied or a blow struck on the cushpassing inward into the frame E3, which is seion A2 the rod A4, if free, will be oscillated cured to the inner side of the front of the on its pivot A5 against the action of the spring case. The shaft E is journaled in this frame A, but this barAis locked by means of the and in the cross-bar E4 behind the dial. 95 pivoted dog B, pivoted on `the hanger B, Rigid on this shaft E is the windlass and which is secured to the top of the case A. The the friction-plate E, provided with the lateral dog B has the weighted end B and the notch pin ES. B2, and above its inner or notched end is the E7 is a spring friction-bar, which bears L* 5o spring B3, which keeps it from rising too far, against and acts as a brake for said frictionroo plate E5. About the windlass E is coiled the cord E9, secured to the helical spring' E15, which is itself secured to the top of the case, and this cord E9 is secured at S12 to the windlass.

F is a drum loose on the shaft E' and having on one side (that next the plate E5) the pin F' to engage the pin E5, and on the other side the pin F2 to engage the pin F3, projecting from the frame E5. About this drum are coiled in opposite directions the cord G, secured to the spring G', which is in turn fastened to the bottom of the case, and the cord 'H, which passes over the pulley H', pivoted down the chute D into the scoop D2. Reference being had now to Fig. 3, it will be seen that the weight of this coin in the scoop D5, if the coin be of the right denomination, will be sufficient to counteract the influence of the spring D', rock the dog D on its pivot D2, and raise the lug D4 out of contact with the notch D5 and the end of the bar D5, as hereinafter stated. If the hand-lever C2 has been pushed down into the position indicated in Fig. 3 .and Fig. 2, the clock mechanism will be wound up to a certain degree, and as soon as the dog D is lifted outof engagement with the notch D5 andthe bar D8 the clock mechanism will begin to move the plate D5. In 0rder that the dog D may not re-engage the notch D5 before the mechanism has had time to move the plate D5, Ihave provided the bar D8, which as soon as released springs forward a certain distance beneath the lugI D4 of the dog. This bar D8 is .concentric with the plate D5, and its ends are arcs of a circle. The notches D5 D5 are on opposite sides of the plate D5, and the plate will continue to rotate and the clock mechanism to be in operation until the plate D5 is moved through one-half of its circumference, when the other notch D5 and the other endof the bar D8 will be engaged by the lug DA1 on the dog D. The relation of the pins C C to the notches D5 D55 is such that when one of these-notches is engaged by the lug D5,the pin is arrested at a point where it supports the arm B7, extending from the rock-shaft B5, as indicated in Figs. 3 and 2, and this turns the` rock-shaft B5 in its bearings and raises the arm B5 and rod B4, and hence turns the dog B on its pivot, so as to cause the shoulder B2 to engage the upper end of the rod A4, whereby said lattermentioned rod is locked in position. If a blow be struck on the cushion A2 while theparts arein this position, it is clear that no register will be made and that the -cushion will not move. Now, as soon as the plate D5 is moved any considerable distance, the pin C releases the end of the arm BT and permits the weight B' to cause the parts, including the dog B, to assume the position shown inv dotted lines, (see Fig. 2,) thus freeing the upper end of the bar A5. In this manner the mechanism is unlocked by means of the introduction of a coin through the chute D15. The scoop D3 is so made as not to respond to any but a coin of the right size and weight. The parts will thus remain unlocked until the arm B7 is again engaged and supported by one of the pins C, and this will not take place until the plate D5 is again locked, as shown in full lines in Figs. 2 and 3. If, now, a blow be struck at any time (when the parts are so released or unlocked) upon the cushion A2, it, with its rod A2, will be forced inward, rocking the rod A4, compressing the spring A11, and, by means of the c ord Hpassing over the pulley H', will rotate the drum F. These parts are shown in Figs. 4 and 2. The rotation of t-he drum F, however, since it must rotate in the direction indicated by thearrow in Fig. 4, will carry with it the frictionplate E5 and windlass E5, secured thereto and to the shaft E". This is accomplished by the engagement of the pin F', projecting from the side of the drum, with'the pin E5, projecting from the side of the friction-plate. Now, since the friction-plate E5 and windlass E5 are rigid on the shaft E', and the hand E2 is also rigid on such shaft, this hand will move in the direction indicated by the arrow in Fig. l, and hence will indicate the strength of a blow directed against the cushion A2. Now, of course, as soon as the pressure is removed from the cushion A2, or as soon as the force of the blow is lost, the spring A11 (shown in Fig. 2) reacts, restores the rod A4 to its normal position, slackens the cord H, and permit-s the spring G' .to unwind the drum in the opposite direction froln that indicated by the arrow in Fig. 4, or until its motion is stopped at substantially the ini- Ico IIO

tial point by the engagement of the pin F2 n it has reached, so as to give opportunity toread the indication; hence it is that the drum F is not rigid with the shaft E' or with the friction-wheel thereon, and hence it is that I have provided the spring frictionbar E7, which bears againstthe side of the friction-plate E5, and which retains the said plate and hence the shaft ,and indicatinghand in the position they reachA Now, this indication having been read, it is only necessary to force inwardly the push .I (shown in Fig. 2) until the friction-bar E' is freed from the friction-plate E5, when the drum E5 and shaft E and hand E2 will be restoredto their normal positions bythe reaction of the spring El drawing upon the cord E9. In like manner tests can continuato be taken until the clock mechanism has run down suficient to cause the dog D to again engage one notch D5 and one end of the bar D8, when the parts are again locked and can be opened only by the introduction of a coin. By lowering the hand-lever C2 the clock mechanism will again be wound up, and when released will continue to run for a period of, say, one or two minutes, during which a number of tests can be made.` The dog B, which locks the bar A4, together with the clock mechanism which controls such lock, I call the time-lock. The object of the spring-connection between the cord H on the drum and the bar A4 is to compensate for the inertia of the moving indicating parts, and it prevents breaking of such cord when the blow is given.

I claim as new and desire to secure by Letters Patentl. In a coin-controlled testingmachine, the combination of a testing apparatus, a lock therefor, a clock mechanism which controls such lock, and a coin-controlled release for such clock mechanism.

2. In a coin-controlled testing-machine, the combination of an apparatus with a lock therefor, a clock mechanism which when at rest holds such lock in engagement and when in operation leaves the same free, and a coin-controlled catch for such clock mechanism.

3. In a coin-controlled testingdnachine, the

combination of a testing apparatus, a lock therefor, with a clock mechanism having a movable part which when at restholds the lock, and a coin-controlled catch for such movable part which normally holds the same locked.

4. In a coin-controlled testing-machine, the combination of a pivoted bar with Va spring on one side and a striking-cushion on the other connected therewith, a lock which normally prevents the bar from rocking, a clock mechanism which controls such lock, and a coin-controlled catch for such clock mechanism which normally prevents said clock mechanism from moving and thus from yreleasing the lock.

5. In a coin-controlled testing-machine, the combination of a testing apparatus with a time-lock therefor independent of said testing apparatus when the same is released, and a coin-controlled catch for such lock which, when operated by a coin, releases said lock, and thereby releases the testing apparatus and after a predetermined period of time antomatically again locks the same independent of any operation of said apparatus.

6. In a coin-controlled testing-machine, the combination of a testing apparat-ns with a lock thcrefor,a time mechanism which,when in operation, releases said lock for a considera-ble period, and a coin-controlled catch for suchtime mechanism which normally holds it out of operation and adapted to release the time mechanism when the coin is introduced.

7. In` a coin-controlled testing-machine, the combination of a testing' apparatus with a lock therefor, a clock mechanism controlling said lock, anotched disk rotated by the said clock mechanism, connections therefrom to the lock so as to hold the apparatus locked whenthe clock mechanism is not in motion, and a dog which engages a notch on such disk at one end and locks the disk and carries' a scoop atthe other to receive the coin and release the dog from said disk and allow the same to rotate and release said apparatus.

8. In a coin-controlled testing-machine, the combination of a testing apparatus with a lock therefor, a clock mechanism, a disk ro tated by the said clock mechanism, and connections therefrom to the lock, so as to hold the apparatus locked when the clock mechanism is not in motion, a dog which engages a notch on such disk at one end and carries a scoop at the other to receive the coin, and aspring-bar pivoted on such disk adapted as soon as the dog is raised to slip under the end thereof and prevent the clock mechanism from again being locked until it has made a portion of its revolution.

9. In a coin-controlled testing-machine, the combination, with mechanism the movement of which is to be registered, of a dial with a hand which moves over the same, a shaft to which the hand is secured, a drum loosely mounted on such shaft, flexible connections between said drum and said mechanism, whereby the drum is rotated in one direction when such mechanism is operated, a spring to return the drum toits normal position, and two pinswone'on such shaft and one onsuch drum-so that when the drum is rotated in one direction it carries the shaft and hand with it, but does not so carry them when rotated in the opposite direction.

l0. In a strength-testin g machine, the combination of mechanism the movement of which is to be registered, a dial, a shaft carrying a hand to move over the dial, a drum loosely mounted on such shaft, a fieXible connection between said drum and said mechanism to rotate the drum in one direction, a spring connected with the drum to return the same to its normal position, pins on the shaft and drum to cause the shaft to rotate in one direction with the drum, a spring e011-, nected with and adapted to return the shaft and its hand to zero, and stops or pins to prevent the shaft rotating in the opposite direction past zero, substantially as described.

, ll. In a coin^controlled testing-machine, the combination, with mechanism the movement of which is to be registered, of a dial with a hand which moves over the same, a frame, a shaft to which the hand is secured, a drum loosely mounted on such shaft, iieXible connections between such drum and mechanismto rotate the drum in one direc- IOO IZO

tion, and four pins-two on the, drum, one rigid with the shaft, and one rigid with the frame-those on the drum adapted to engage the other two in opposite directions, so that the drum cannot move beyond a certain point in one direction and when traveling in the .other direction may carry the shaft with it.

12. In a' coin-controlled strength-testing machine, the combination of a spring rocking-bar and a striking cushion attached thereto, a rotary shaft having an indicatinghand attached thereto, a rotary drum loosely mounted on said shaft, means to lock the shaft to the drum when rotating in one direction', springs to return the shaft and drum to their normal'positions, and a cord connecting the free end of said rocking-bar with said drum to rotate the same and the hand, substantially as described.

13. The combination, With a registering mechanism, of a spring rocking-bar connected with and adapted to operate said mechanism, a lock for the bar to hold the same rigid, and a coin-controlled lever or catch adapted, when operated by a coin, to release said lock and hence the bar, as and for the purpose set forth.

14. The combination of a rocking-bar, a pivoted lock or catch for the bar, arock-shaft connected with said lock to release said bar, a clock mechanism to operate said shaft, and

a coin-controlled catch for said clock-Work which, When operated by a coin, releases the clock and thereby unlocks the bar for a predetermined period of time, as and for the purpose set forth. 5

15. The combination, with mechanism the movement of which is to be iegistered, of a time-lock for said mechanism which, when operated, releases the mechanism and after a predetermined time automatically relocks the same independent of any movement of the mechanism, said time-lock comprising a lock and clock-Work controlling the same, and a coin-controlled release for the clock-Work, substantially as described.

16. The combinatiomwith a case and mechanism the movement ot Which is to be registered, of a time-lock for said mechanism com prising a lock and clock-Work controlling the same, means connected with the Winding-shaft of saidclock-Work and extending to the eXtel In witness whereof I have hereunto set myL hand this 9th day of February, 1889.

JOHN F. KINGNVILL.

Witnesses:

FRANCIS W. PARKER, CELESTE P. CHAPMAN.

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