DE41734C - Machine for cutting threads on screw bolts - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The present invention relates to a fully automatic thread cutting machine on screw bolts, the heads of which are square or hexagonal or round and are provided with an incision for the screwdriver.

The machine is shown in several views on the accompanying drawings. Fig. 1 shows the view from above, Fig. 2 from the front, Fig. 3 from the side with a section through the two main shafts (along line xx, Fig. 2), while the other figures show details of the machine.

The main shafts C and E are mounted on the frame A , of which the latter, E, serves as the drive shaft with the pulley F.

The second shaft C does not run directly in its bearings, but rotates with the sleeve B surrounding it, in which it can move lengthways. This sleeve is driven by E with the aid of the gears ZZ \ Z ² Z ³ and Z ⁴ Z ⁵ and the gear couplings belonging to these wheels. On the sleeve B is a double-sided tooth coupling for the wheels Z ⁵ respectively. Z ⁸ , a simple coupling for the ZZ ₁ wheels is arranged on the shaft.

The shaft C has at one end a slightly conical grooved washer C 'and at the other end a clamping chuck for receiving a screwdriver C ³ or a holder with four or more. hexagonal recess, depending on whether the screw heads are shaped with a notch or square or hexagonal. The rear end of the chuck is ^{expanded to form a disc C 2} , against the rear of which a pair of rollers run and cause the spindle C to move. In the extended axis of the spindle C lies the die D, formed as in the known screw cutting machines, which is fastened in the die holder D ^1. The latter can be slidably attached to the frame, depending on the length of the screws.

On the body frame A, the shaft G is also stored which eight edited according non-round discs HH ¹ H ^2. . . H ¹ carries.

Of these disks, H moves the double claw clutch of the spindle B (Fig. 4), H ¹ regulates the reciprocating movement of a spring-loaded square rod G 'on which a roller fork K is attached (Fig. 5), which the Pressure on the washer C ² and the screwdriver C ³ transfers.

The third disk H ² on G moves the claw clutch of the drive axle iLein when the screw to be cut is to be inserted and brought in front of the die.

The disk H ^B causes a short auxiliary shaft G ² (FIG. 6), which carries the lever L to move. The purpose of the latter is ^{to set the recessed slide L 1} of the die holder in motion. Through this slide L ^{1 , a lever L 2 is} moved at the same time by means of a connecting piece; At the time of insertion, both hold gripper N ¹ with the screw to be cut in the middle until the screwdriver has gripped the incision. With longer screws, the gripper is held in place by a

The second pair of levers L ^& L ^A (Fig. 7) causes ", in this case the levers L ¹ and L ' ² hold the shaft of the screw in the middle of the die. The disk H ^ moves the short shaft G ^{8 by means of the lever 4} (Fig. 6), which carries a gripper lever JV and a gripper N ₁ attached to it for gripping and inserting the screw to be cut; the gripper is surrounded by two springs, one of which holds it in the direction and the other holds it together with the screw. The disk H ⁵ acts on a lever 5 located on the auxiliary shaft G *, as a result of which a lever mechanism O O ¹ O ² (Fig. 1 and 2) is set in motion in order to set the fork Q in up and down motion, and also to move the hand R , which feeds the screw to be cut into the gripper TV _1. The fork Q. and the hand R are fastened to the feeder S and the latter by a stand S ¹ on the rack frame A. The feeder S as well as fork Q are to be connected depending on the thickness of the envious screws adjustable. Depending on the variety of the screw, an insert piece with a corresponding groove is inserted into the "hand R ": A plate T for receiving the screws to be cut is moved from the shaft G by means of a gear transmission.

The disk H ⁶ acts through leverage on a pin J e, in which retains ^{the clamping chuck C 2 as required.}

The washer H ⁷ (Fig. 8) is intended to ^{partially relieve the spring pressure on the W 7} elle G ¹ at the time the screwdriver is inserted into the screw head.

The drive of the shaft G takes place from the drive shaft E by change gears, the size of which depends on the length of the thread of the screw to be cut. The wheels are to be chosen so that the shaft G has to make a full turn for each finished screw.

On the frame A , a shaft G ^{5 is also} mounted, the lever M (Fig. 1 and 2) on the grooved disc C ^{1 of} the shaft C. is working. When lever M falls into one of the grooves in C ^! a slide V is moved, which acts on a pin of the release lever of the double dog clutch in such a way that the clutch is released. The auxiliary shaft G ⁶ (FIGS. 2 and 11) is connected to the rod G ¹ by a connecting piece W , which is ^{fixed on G 6} but movable on G ^1; the same has the purpose of temporarily imparting a stronger pressure to the roller fork K by means of a spring balancer when the thread is cut, in that W presses against an adjusting ring fastened on the shaft G ^1.

On this machine, the cutting tools as well as the gripper, feeder and plate are like formed in the known machines of this type; what is new, however, is the facility for Grasping the incision or of the hexagonal or square head, as well as the rest of the mechanism the machine.

When the machine is started, the fork Q. will pick up one or more screws to be cut on the plate T and, lifted by the levers O O ¹ and O ² , feed them to the feeder S , whereby they get into the hand R. _{The gripper JV 1} attached to the gripper lever JV will, when the hand arrives with the screw to be cut in it, grasp the screw slightly jerkily down and hold it by a spring, whereupon the hand returns to pick up another screw. The jerky movement is brought about by a recess in the non-circular disk H * into which the lever 4 strikes.

This movement guides the screw to the center of the die and holds it in place by the slide L ¹ and the lever L ² . Part of the spring pressure on axis C, which was previously canceled by the unround disk H ¹ (as a result of transferring G ¹ to K and C ² ), now comes into play, whereby the screwdriver C ³ presses against the head of the screw and the latter against the die . The stronger spring of the pressure piece W is held back by the washer H ¹ until it is cut. During this time, the claw clutch of the drive shaft has also been engaged by the non-circular disk H ² , whereby the spindle B and at the same time the screwdriver are set in the slowest motion by means of the wheels Z and Z ^1. The double claw clutch is still on engagement. This slow movement, performed with pressure, is intended to grip the screwdriver into the incision in the head. After this has been safely done after a single tour, the clutch of the drive shaft E is disengaged again by the disk H ² and the double claw clutch of the spindle B is engaged by H for cutting, so that the wheels Z " ¹ and -Z ³ now the spindle C in In the meantime, the disc H ⁿ has advanced so far that the stronger spring of the pressure piece W can act on the rod G ^1. The slide L ¹ and lever L ² now release the gripper JV ¹ and go back so far To leave enough space for the head of the screw, after which the gripper JV ₁ can go up in order to fetch another screw to be cut while the screw is being cut

If the screw is cut up to the head, the lower ^{disk C 1} is also advanced so far that on the last half round one of the grooves passes over the lever M , whereby the latter is forced by means of spring pressure to intervene deeper and deeper (Fig. 9); as a result, the lever M ^{1 is} moved and the slide V works with an inclined attack side on the release lever of the double claw clutch and exposes the same. The disk H will then feed the clutch to the opposite wheel Z " ⁵ and thereby bring the spindle B or C into rapid and opposite rotation and thus unscrew the screw that has been cut. In the reverse gear, the grooved disk C will push off the lever M again, the same is stored again on the circumference of the disk, and the slide V returns to its original position. During the turning out of the cutting cell, the pressure of the roller fork K on the spindle C is released by the disk H ¹ screw out of the cutting dies of the screwdriver securely remains in the incision, the Nuthe disc C is slightly conically shaped ^1, whereby the pressure on the lever M is also in the axial direction to effect. If the screw is completely screwed out, as is represented by a steeper approach of disc H ^1, the axis G ¹ is retracted even further, as a result of which a driver lever attached to the roller fork K. K ¹ withdraws the spindle C even more to create enough space for a new screw to be cut; At the same time, the double claw clutch also ceases to work, and the gripper N ¹ can now feed in a new screw.

Should the case occur that no screw is fed in, i.e. that the pressure of the shaft G ¹ does not act on a screw to be cut, the spindle C would snap forward too quickly against the gripper N ¹ . In order to prevent contact, the lever 6 located on the disk H ^e lifts a pin J, which would advance in front of the disk C ^{2 of} the spindle C and stop until the gripper N ^{1 has} returned. With further revolutions, H ^l allows the spindle C to advance further until the lever M comes into a groove in the grooved disk C ^l and the dog clutch stops.

So that when the finished screw is quickly unscrewed, the same does not get stuck in the die in the last turn, a housing D ^{2 (Fig. 11) is attached to the back of the die holder D 1} , in which a pin leads which goes into the die protrudes and thus cuts off. This pin is forced by two springs to follow the movements of the screw and this prevents it from getting caught in the last gear when unscrewing.

Likewise, in order to achieve a safe fall out of the screwdriver, a spring C * (Fig. 1) is attached to the shoulder of the spindle C , which presses against the head of the screw in order to eject it when it becomes free. The levers working on the non-circular disks are compelled by springs to carry out the movements in a closed manner.

Claims (1)

Patent claims: A machine for cutting threads on screw bolts, featured by: a) a spindle C, only longitudinally displaceable in the sleeve B and rotatable with the same, the latter can be set in slow and faster clockwise and anticlockwise rotation by wheels Z ¹ Z ³ Z ^{5 and couplings;} b) an auxiliary shaft G, which is rotated from the main shaft E with gear transmission corresponding to the thread length to be cut and with the . to initiate the various spindle movements required non-round disks HH ¹ H ^{2 is} occupied. In addition 4 sheets of drawings.