US1667718A

US1667718A - Machine for driving nuts, screws, and the like

Info

Publication number: US1667718A
Application number: US74741A
Authority: US
Inventors: Edwin L Connell
Original assignee: Individual
Current assignee: Individual
Priority date: 1925-12-11
Filing date: 1925-12-11
Publication date: 1928-05-01
Anticipated expiration: 1945-05-01

Description

E.'L. CONNELL MACHINE FOR DRIVING NUTS, SCREWS; AND THE LIKE May 1, 1928.

- Filed Dec. 11. 1925 I HI 1 1' M .1 4 cm i BY (M Ills E'O'RNEY PATENT OFFICE,

EDWIN L. CONNELL, OF EAST CLEVELAND, OHIO.

MACHINE FOR DRIVING NUTS, SCREWS, AND THE LIKE.

Application filed December 11, 1925. Serial No. 74,741.

My invention relates to variable speed driving mechanisms and particularly to mechanisms adaptable for the purpose of driving a working spindle for the turning of screws, .nuts, bolt, and the like, to a full driven position, as, for instance, for the turning of nuts and bolts adapted to secure heavy metallic frames together, such as the different frame portions of an automobile chassis.

An object of my resent invention is to provide mechanism of this general character, which may be'employed to exert a sufficient driving torque to turn the nut, bolt, or the like, to home position, wherein it may not be turned more tightly without danger of breaking a part of the driving mechanism, or of the turned object being driven, or associated part, and which driving mechanism will at the same time permit the sudden stopping of the driving spindle resulting from the driving of the nut, bolt, or the like, to such home position.

Another object of my invention is to provide an improved driving mechanism, which may employed to turn a nut, bolt, or like part, to a predetermined, uniform torque.

Another object of my invention is to provi e an improved driving mechanism in which the motor element thereof may continue operating after the object has been turned up to the predetermined torque and without a considerable loss of power required to drive the motor element.

Another object of my invention is to provide in a mechanism of the above character, means whereby electric power operating the device taken from the source of electrical current is in part compensated for by electric current returned to the power supply line when the working spindle discontinuesitsrotation, due to the nut or bolt being driven home.

- Another object of my invention is to provide a driving mechanism of the above character, wherein the rotational speed under different conditions of torque may be varied in a' simple and expeditious manner.

Other. objects of my invention and the invention itself will be better understood by reference to the accompanying description of an embodiment of my invention, and in which description reference will be had to the accompanying drawings illustrating such embodiment, which drawings are a part of this specification.

Referring now to the drawings:

Fig. 1 is a plan view partly in section of a mechanism embodying my invention;

Fig. 2 shows an elevational view of certain parts, but with a driven pinion thereof shown in longitudinal medial vertical sectlOl, and which comprise a working spindle; an

Fig. 3 shows a graph containing curves showing possible properties of a specific embodiment of my invention.

Referring now to the drawings, in all of which like parts are designated by like refer ence characters, at 1, I show a frame carrying a pair of

electric motors

2 and 3 securely bolted thereto, the said motors being of any convenient type and which are herein, for the purpose of illustration, assumed to be alternating current, polyphase motors, but which may be direct current motors or motors of any other type, the said motors driving rotatable shafts l and 5 in opposite directions or, when desired, in the same direction. At 6 and 7, I show driven shafts coupled through jaw clutches 8, to the motor driving shafts 4 and 5. The shafts 6 and 7 are rotatably supported in like bearings 9 and 10 and carry at their ends driving pin- 'ions 11, for the

shaft

6, and 12, for the H shaft 7. At 13, I show a pair of bearing elements adapted to support the double ended

bevel pinion elements

14 and 15. At 16, I show a spider element having arms 17 and 18, each supporting a bevel pinion, the arm 17 supporting'a pinion 19 and the arm 18 supporting a pinion 20. The pi'nions 19 and 20 are rotatably carried upon the arms and are each heldby nuts 21 screw threade'd upon the threaded ends 22 of the spider arms, and by thrust bearing elements 23 in position, to be meshed with the opposing bevel gears 24 and '25,' each comprising an inner end of its respective

bevel pinion element

14 and 15, 'The spider 16 is keyed to the work shaft 26, which carries at its end a bevel pinion 27 and which meshes with and drives a bevel pinion 28. A work spindle 29 is adapted to' reciprocate through an axial opening through the pinion 28, which contains on its inner opening face a projecting key portion 80, and which fits within and slides along a longitudinal groove 40 in the working spindle, the object of this keying connection between the spindle 29 and the pinion 30 being to prevent relative rotation of the spindle and the pinion, at the same within the pinion, whereby positive driving of the spindle by the pinion may always occur in any position of the spindle.

For one or both of the motors, I provide means to vary its speed, and comprehended in my invention means to "reverse the rotation of one or both of the motors. A speed varying means is indicated diagrammatically at 31 for the motor 3, wherein resistance coils, star connected, may be inserted variably to a greater or less extent in the circuits of the conductors 32, which lead to such socalled secondary controller for the motor. At 33, I show an electric switch which-may be operated to close or open its contacts to start or stop the motor mechanism by connecting or disconnecting the circuit conductors 34 leading to the motors from the circuit conductors 35 leading from the source of electric current, which in the illustrated case may be assumed to be a source of polyphase alternating current.

A casing 36 is provided to house the pinions, such casing being preferably, asillustrated, substantially lubricant proof and conmounted on a support eomprisingan arm. pivotally carried on a fixed support, the arm taining bearings as shown at 9, 10 and 13,

and not shown but also carrying a bearing for the pinion 28.

' It will be noted that the driving connections between the pinions 11 and 37, which are carried on the outer side of the pinion element 14, and that for the pinion 12 and pinions 38, carried on the outer end of the pinion element 15, are of the straight bevel type and are reversible, so that power maybe transmitted freely in either direction. This is necessary to secure the results sought for in a mechanism of this kind.

In operating the driving mechanism, which has just been described, the

motors

2 and 3 are driven, preferably at difierent speeds and preferably in different directions, The mechanism comprising the

gear pinions

24, 25, 19 and 20 being a differential gear mechanism, will cause rotation of the spiders 16 and its shaft 26 to which said ider is keyed, the speed of rotation of the spider and shaft 26 being that speed which is half of the difference between the speeds of rotation of the two elements 14 and .15 driven by the

motors

2 and 3, respectively. 7

The apparatus of my invention is mounted so that the nut or bolt to be turned may be grasped by the clutch 39 carried at the lower end of the work spindle 29, and is preferably eing rotatable radially'to permit the clutch 39 to be attached to the bolt or nut to be turned. The electric motors being both connected to the source of electric current, when there is no load on the spindle it will rotate at a s eed and in a direction determined by the re ative characteristics of the two motors and the setting of the controllers, such as the controller 31 controlling such motors. Whenever the work spindle 29 is driving a nut or'bolt or performing other work, its rotation is retarded sufiiciently to cause the differential mechanism to function in such a way that one of the motors, for instance the motor 2, will drive the other motor 3 at a rate of speed in excess of that at which it would rotate, except for the retardation exercised on the work spindle 29 by the driving of such nut or bolt. Motor 3 then acts as a generator. If the retarding force exerted on the spindle is suflicient to prevent its rotation, one of the motors, such as the motor 3, will act as a generator and return a larger part of the power to the line. A torque is maintained on the spindle substantially proportional to the torque delivered by the motor through the differential mechanism. Whenever the force resisting rotation of the work spindle is insufficient to prevent its rotation, the speed will correspond to the difference in speed of the two

elements

14 and 15, and the power transmitted will be the product of the resultant speed and tlie'torque being transmitted. The torque transmitted at all speeds and when the spindle is held stationary with the motors in operation, can be regulated by suitably adjusting the characteristics of the motors as by adjusting the controller 31 for'* portioned and disposed as to exert a maximum stalling torque of 50 ft. poundsif it be assumed that a 50 per cent overload of the motors is permissable at this load, the normal torque rating would be 33 ft. pounds. Let us further assume that the apparatus should operate at 300 revolutions per minute under no load conditions, which speed represents half of the difference in speed of the two driving ears-24 and 25 of the differential gear mec anism under the conditions above referred to. Assuming no reduction of speed from the pinions 11 and 12 to the

meshed pinions

37 and 38, respectively, a 600 revolution per minute difference in speed at pinions. 37 and 38 would represent a 600 revolution per minute difference in speed of the pinions 11 and 12, which are directly driven by the motor shafts 4 and. 5, respectively. 1800 revolutions per minute for the shaft 4 of the

motor

2 and 1200 revolutions per minute for the shaft 5 of the motor 3 would fulfill this requirement for a difference of 600 revolutions per minute in motor speeds, and 5 H. P. and 3 H. P. mo

tors for the

motors

2 and 3, respectively, would have approximately the desired normal torque rating.

I preferably would make the smallermotor operating at the lower speed of the wound rotor type with a secondary controller, as illustrated. The other motor would preferably be of a standard squirrel-cage type. Although 1- preferably operate the

motors

2 and 3 at different speeds, good results can be obtained with motors of the same inherent speed by choosing proper ratios for the gear trains 11-37 and 1238 to replace the assumed identical ratios, described and shown herein.

Fi 3 shows theoretical curves, illustrating t e relations between speed and torque of the two motors of this description. Referring to this figure, the maximum working torque or stalling torque, is that torque at which the speed of the motor acting as a generator equals that of the motor, and by means of the secondary controller, or like controlling means, this torque can be adjusted to meet any requirement within the capacity of the machines. For instance, if a certain nut to be turned by the work spindle requires a setting torque equivalent to 15 ft. pounds at the motor, the secondary resistance controller 31 is adjusted to bring the two speed torque curves together at this torque, as indicated by the intersection of the two top curves at the dotted line Aextending from the torque valve 15, the intersection of these curvesis that condition for stalling of the working spindle, because the speed of this spindle is proportional to the generator speed and torque. As we have assumed no speed reduction between the motors and difierential elements 14: and 15, the actual values of torque on the work spindle will be double that shown and the speed will be one-half. Ordinarily, the nut or bolt will require very little torque. until it reaches full driven position, so that until this position is reached, the speed will be near the maximum obtained without load. For the final setting, much reater torque is available at low speed anf at standstill.

Although I have described my invention in an embodiment employing alternating current motors, I wish it to be understood that I may use motors disposed as are the

motors

2 and 3 of Fig. 1, but which are direct current motors having the same relative speed characteristics as described herein for the

motors

2 and 3, and whose speed may be varied in any of the well-known ways for varying the speed of such motors, as,

for instance, by introducing resistance in' the circuit of the field or armature, or both,

circuit. My invention comprehends such an arrangement, and I hereby disclose it for the purpose of conveying an understanding of the scope of my invention.

I find that with the mechanism of my invention, nuts and bolts may be driven home efiiciently, with dispatch and to a uniform predetermined torque, which torque may be indicated in any of the wellknown ways, without'the necessity of providing friction clutches, or the like, to limit the driving torque, and which in practice overheat and are soon worn out and at the same time require an excessive power to operate them.

Although I have described but a single embodiment of my invention and, for the purpose of impartlng a better understanding of the same, have described a specific case wherein my invention is employed, I do not ing spindle which must drive to a standstill and exert considerable torque without rotation, driving mechanism therefor comprising'two electric motors adapted to be driven from a common source of current, shafts therefor, reversible driving means difierentially joining the motor shafts, one of said motors adapted to be driven through said differential driving means by the other motor to cause it to generate current whenever the spindle is restrained from free rotation while exerting torque on the spindle, and circuit connection adapted to communicate the generated current to the source of current.

2. In a machine for driving screws, nuts and the like, of the type employing a Working spindle which must drive to a standstill and exert considerable torque without rotation, driving mechanism therefor comprising two electric motors adapted to be driven from a common source of current, shafts therefor, reversible driving means difi'erentially joining the motor shafts, one of said motors adapted to be driven through said difierential driving means by the other motor to cause it to generate current whenever the spindle is restrained from free rospeed torque'charac-teristics of at least one of said motors so that the torque exerted on the working spindle at standstill may be regulated, whereby the working spindle will cease rotation when the driving torque exerted upon it reaches the desired limit.

3. In a machine for driving screws, nuts and the like, of the type employing a working spindle which must drive to a standstill and exert considerable torque without rotation, driving mechanism therefor comprising two electric motors, shafts therefor, reversible driving means differentially joining the motor shafts, one of said motors ada ted 15 to be driven through said differential riving means by the other motor to cause it to generate current whenever the spindle is restrained from free rotation while exerting torque on the spindle, and means for regulating the speed torque characteristics of at least one of said motors so that the torque exerted on the working spindle at standstill EDWIN L. CONNELL.