DE595271C - Thread cutting machine in which the cutting of the first thread is effected with the aid of a spring - Google Patents

Description

GERMAN EMPIRE

ISSUED ON APRIL 7, 1934

REICH PATENT OFFICE

PATENT LETTERING

Vr 595271 CLASS 49 e GROUP l

49e L 30.

Landis Machine Company of Waynesboro, V. St. A.

Patented in the German Empire on March 6, 1928

is used.

The invention relates to a thread cutting machine for producing head screws or the like, in particular an automatically working bolt sharpening and thread cutting machine, in which the adjustment of the thread cutting tool slide and the cutting of the first thread turns is effected with the aid of a spring. There are feed springs known which -To begin its work, move the threading tool forward until it hits the Workpiece hits and is pressed into this something, so that after cutting of the first thread turns the tool is continued by the cut thread. The adjustment of the cutting tool is also carried out in a known manner, in addition to spring force caused by weights. It has also been suggested that only cutting the thread caused by spring force, while the further thread cutting by the self-feed of the thread just cut he follows. In a known nut cutting machine, the adjustment also takes place of the thread cutting head necessarily with the help of a cam on a control drum and the cutting of the thread also inevitably with the help of a "cam increase of the cam causing the thread cutting head to be adjusted with the simultaneous interposition of a spring to alleviate bumps and, for example, excessive feed with different thread pitches.

According to the invention, a machine of the type mentioned is also a Thread cutting device used in which not only the cutting of the first thread turns takes place with the aid of a spring, but in the case of the thread cutting tool slide forward by a double spring tensioning mechanism, which consists of a long and a short feed spring is moved. This double spring tensioning mechanism leads the thread cutting head as a whole to the workpiece, whereupon the special lead feed by the short spring is moved alone. According to the invention, a bushing is switched between the two springs, which surrounds the long spring that causes the slide to move in position and moves with the spring tensioning mechanism only during part of its run.

According to the invention, the sleeve _v expediently carries a flange at its end facing the thread cutting head,

against which the shoulder of the thread cutting tool slide is against when moving forward places to limit the expansion of the long spring.

The double spring tensioning mechanism can also be guided by a bumper, whose Backward movement is limited by a fixed arm of the main body and which Adjusting nuts to regulate the spring tension carries.

In relation to the acquaintance, the subject matter of the invention enables the Tool slide and the cutting of the thread by two special springs, namely a long lead and a short cut spring causes. Every single feather is adjustable, so that the device can be quickly and carefully adapted to different adjustment paths can adapt and also exactly the force is developed that experience has shown to cut a certain thread necessary is.

The great advantage of this design is that the conditions for queuing are based on the different lengths occurring in practice are preserved and that at the same time regardless of this, by setting the short spring accordingly, exactly the pressure is kept ready, which in a experience has shown that certain materials and certain thread cross-sections are the cleanest Thread results. The arrangement is extremely clear, saves space and reflects what the worker does in mechanical work would do the same by hand, d. H. Starting the carriage with even Pressure up to the start of cutting, then cutting with decreasing pressure. For example, in the drawings there is a Embodiment of the subject invention shown.

Fig. Ι is a perspective view of the entire machine, seen from the left side.

Fig. 2 is the left side view of the whole machine.

FIG. 3 is a plan view of the threading device and its drive, viewed in the direction of the arrow W ^x of FIG. 2. Fig. 4 is a front view of the head part of the machine and shows the thread cutting device, out of the plane W - W ^'1 of Figure 2 viewed..

FIG. 5 is a vertical longitudinal section along the line X ^s -X ³ of FIG. 4 and shows the thread cutting head, the sharpening head and the associated drive unit.

FIGS. 6 and 7 show in particular, on an enlarged scale, the uppermost part of FIG Fig. 5 forming double spring tensioning mechanism in different positions.

The illustrated bolt sharpening and thread cutting machine with automatic operation has a stand A. On this stand A , a clamping head D ¹ with a switching mechanism D, a sharpening device with a sharpening head E ¹ , a thread cutting device G with a cutting head G ¹ and a drive mechanism H are arranged. The machine is driven by a belt pulley 2.

The thread cutting head G ¹ is screwed onto the front end of a spindle 14 (Fig. 5). The spindle 14 is supported by tapered roller bearings 27 and 27 ¹ , which are fastened in a slide 28 between shoulders 28 ¹ and 28 ^2. The spindle 14 and its bearings 27 and 27 ¹ are prevented from moving axially by an adjusting nut 30.

As FIGS. 3 and 4 show in particular, the thread cutting slide 28 is seated on the head of a housing 31 which accommodates the main control ^{drive and which is provided with flat support surfaces 32 and 32 1} (FIG. 4). The thread cutting carriage 28 is provided with flat guide ^{plates 33 and 33 1} and an inclined bar 34, which are arranged so that the carriage 28 can move easily in its guide. The inclined bar 34 is provided with two screws 35 and 35 ¹ (Fig. 3), which are adjustable in order to eliminate excessive play or wear. A protective plate 36 (Fig. 5) closes the end of the carriage bearing. The thread cutting head G ¹ is attached to the tapered roller bearing 27 as tightly as is practically possible.

A bolt 37 (FIG. 5), which carries ^{a roller 37 1, is pressed into the thread cutting slide 28.} This rests on the edge of a control drum 38 on a shaft 58 which sets the thread cutting carriage 28 in motion.

The cutting head spindle 14 carries at the rear end a drive wheel 13 of large Tooth width, which is enclosed by a housing 45 on the thread cutting carriage 28 is attached.

Springs 46 and 47 (FIGS. 6 and 7) are carried by the tapping carriage 28. The spring 46 is seated in a bushing 46 ¹ , which can slide freely in the thread cutting carriage 28 and in a corresponding bore in the gear housing 45. A flange 46 ^{s is} provided on the bushing 46 ¹ and limits the action of the spring 46. An adjusting screw 4ο ³ , with which the tension of the spring can be changed, sits in an arm 4t ') ⁴ which is attached to the cutting carriage 28. A locking screw 46 ^s is provided to the bolt 46 determine ^s. The spring 47 is attached to a bumper 48. The ^{bushing 46 1} and the screw 4ο ³ are

pierced to accommodate the bumper 48, which can slide freely in both parts.

Adjusting nuts 48 ¹ are provided to the

Changing tension of the spring 47, while other ^s limit adjusting nuts 48 on the lower end of the bumper 48, the movement of the spring 47th

An arm 49 on the main housing 1 is fixed in relation to the moving tapping carriage 28. When the thread cutting carriage 28 moves backwards, the push rod 48 comes into contact with the arm 49 and presses the springs 46 and 47 together, as shown in FIG.

The complete operation of the tapping carriage 28 and its accessories is the following:

As soon as the switching of the chuck head D ^{1 is} almost complete, the control drum 38 begins to run off ^{the roller 37 1.} Since the springs 46 and 47 were strongly compressed by the pressure of the arm 4ο ⁴ and the push rod 48 against the arm 49, the thread cutting carriage 28 is driven forcefully against the workpiece, the roller 37 ¹ remaining in contact with the control drum 38 until the die jaws are almost touching the workpiece. At this point the machined stop 28 ^s on the cutting carriage 28 has ^{come into contact with the flange 4 o 2 of} the ^{bushing 46 1} and interrupts the action of the spring 46. As the control drum 38 continues to rotate, the short starting spring 47 presses the cutting jaws to cut the thread forcefully against the workpiece. The roller 37 ¹ now leaves the control drum 38, since the edge of the control drum 38 is held at an angle from below so that the roller 37 ¹ can no longer rest against the drum edge with regard to the pitch of the thread to be cut. When the cutting jaws move forward, the pressure of the spring 47 first drops rapidly, and then as soon as the cutting tools have advanced sufficiently that the cutting head G ¹ is guided through the thread being cut itself, the end of the screw 46 ^s comes into contact with the Adjusting nuts 48 ^s , which cancel the effect of the spring 47 causing the thread cutting on the cutting jaws and the thread cutting carriage 28. As the cutting carriage 28 moves further, the push rod 48 and its associated parts lose their independent movement, and they then run together with the thread cutting carriage 28. The feed movement of the thread cutting carriage 28 is now determined solely by the self-feed of the thread being cut. After completion of the movement of the thread cutting carriage 28 required for cutting the thread, the latter is ^{withdrawn into its rearward position by the action of the control drum 38 on the roller 37 1} , as can be seen from FIG. This backward movement brings the pushrod 48 into contact with the arm 49. The springs 46 and 47 are compressed again and the pushrod 48 and its accessories are returned to the working position.

An approach 28 * (Fig. 3) on the thread cutting tool slide 28 is drilled and grooved in such a way that it receives the end of a rope 177 which is connected to the main housing 1 via a cable attached pulley 178 is running (Figs. 2 and 3). The other end of the rope 177 is on one Disk 179 (Fig. 2) attached, which also sits on the main housing 1. Another rope 180 is attached to disk 179 at one end and a counterweight at the other 181. Additional plates 182 are in front of this counterweight for weight compensation. seen, the number of which can be changed to that which occurs on machines of this type To meet conditions.

The double spring tensioning mechanism 46, 47 is set up in such a way that it can take the following operating conditions into account. The distance by which the thread cutting head G ¹ moves away from the workpiece should be approximately 16 mm, for example. The distance covered by the short spring 47 causing the incision is then approximately 3 mm. The initial pressure of the spring 47 at the start of cutting should be about 36 kg and this pressure should drop from this level to about 9 kg, with an expansion of about 3 mm taking place.

The two springs 46 and 47 together create the necessary tension and ensure the necessary feed effect up to the gate, in which the short spring 47 then acts solely on the gate section. When the thread cutting head G ¹ is moved away from the workpiece, the springs 46, 47 are compressed as if they act as a single spring. When the thread cutting head G ¹ approaches the workpiece again, both springs initially expand like a single spring and move the thread cutting head G ¹ towards the workpiece. At the moment in which the thread cutting head G ¹ reaches the workpiece, the seated on the bushing 46 ¹ flange 4ο ² comes with the shoulder 28 ³ in stop and prevents the sleeve 46 ¹ on further sliding in its guide housing 45. The long spring 46 can as a result, do not expand any further. The thread cutting head G ¹ is then moved further by the short spring 47 during the thread cut.

Claims (3)

Patent claims:
-ι. Thread cutting machine, in which the cutting of the first thread turns is effected with the aid of a spring, characterized in that the thread cutting ^{tool slide (28) is moved forward by a double spring clamp which as a whole brings the thread cutting head (G 1} ) up to the workpiece, one of which is a spring (47) causes only the cutting of the workpiece and in which a bushing (46 ¹ ) is switched on between the two feed springs (46, 47), which surrounds the spring (46) causing the adjustment movement of the slide (28) and with the spring tensioning mechanism only goes along during part of its run. 2. Thread cutting machine according to claim i, characterized in that the bush (46 ¹ ) at its end facing the thread cutting head (G ¹ ) carries a flange (46 ^s ) against which the shoulder (28 ^s ) of the tool slide (28) when Forward gear of the same sets in order to limit the expansion of the spring (46). 3. Threading machine according to claims 1 and 2, characterized in that the double spring tensioning mechanism is guided by a bumper (48), the backward movement - is limited by an arm (49) of the main housing (1) and which adjusting nuts (48 ¹ and 48 ³ ) to regulate the tension of the spring (47). For this purpose 2 sheets of drawings