DE1294909B - Device for making wire screws - Google Patents

Description

1 2

The invention relates to a device that would take the design options for the production of wire screws with against that of the workpiece even further increased, including only one Wire screw axis inclined and against each other extremely simple measure is required, staggered turns, in which the wire from the feeder is sufficient, for example, a washer guiding rollers through a wire guide to 5 for the roller, so that this opposite the Drahtfüheinem Winding tool can be fed whose attack is higher.

point on the wire with regard to the wire guide itself- By the possible omission of a special one is active and continuously adjustable. The drive for the role is of course also that

Devices of this type are already known for the energy consumption of the entire device (See, for example, the British patents reduced to the known devices mentioned. 888 053, 496 215, the German patent 740185, in the drawing are exemplary embodiments of the

US Pat. No. 2,179,389), which, however, shows the subject matter of the invention schematically. Disadvantage show that it shows to drive and control

of the winding tool a complicated and therefore F i g. 1 is a side view of the invention

complex device is required. In addition to 15 total devices,

a special drive for the aforementioned movement. 2 shows a plan view of the device according to FIG

The known winding tools are shown here in FIG. 1 according to line 2-2,

Cam drives for the required pivoting Fig. 3 and 3a for details of the representation

of the winding tool with respect to the wire guide Fig. 2 in the manufacture of wire screws used, whereby by replacing the cam 20 straight axis,

disk a change in the sequence of movements and F i g. 4 and 4a a representation similar to the F i g. 3

thus a change in the shape of the wire screw and 3 a, but with changed displacements of the is made possible. Another disadvantage arises from the windings of the wire screw, by that through the known devices only F i g. 5 and 5 a representations similar to FIGS. 4th

Wire screws with a straight winding axis can be produced 25 and 4 a, but with a different diameter of the the can. Role and modified eccentricity for manufacturing

The invention is based on the object of having larger diameter wire screws Device of the type mentioned essentially to a straight axis,

simple. F i g. 6 and 6 a with corresponding representations

The solution to this problem by the invention 30 changes the diameter of the wire screws consists in the fact that the winding tool as an eccentrically curved axis,

freely rotatable roller is formed, the axis of rotation F i g. 7 is a side view of the device for

a certain adjustable distance from the manufacture of wire screws with curved Having wire feed. Axis in which the planes of the turns are opposite

This eliminates the need for special drive or control units that are inclined to one another.

guiding devices for the movement of the winch The in the F i g. 1 and 2 illustrated Auszeugs, because the used as a winding tool, free guide form shows a device for producing rotatable eccentric roller solely by its eccentricity of wire screws from a supply of the deformation of the wire in the required roll B causes the deformation of the wire in the required roll B counter to the way. The rotary drive of the winding roll is inclined 40 wire screw axis and thereby derived from the wire against each other. Another staggered turns.

The device has a horizontal table 1

position of the distance of the roller according to the invention on which, among other things, the feed device from the wire feed also wire screws with device for the wire F is arranged. curved axis can be generated. Thus, this device for feeding the wire offers the device according to the invention, despite essentially consisting of two opposite feeders of greater simplicity, more possibilities than the rollers 2, 3 with vertical axes for feeding devices. tion of the wire F in the horizontal direction. the

In a further embodiment of the invention it is possible to see that the rollers rotate against rollers with differently arranged bearings. One of these feeder diameters and roles with different, z. B. the role 2, 4 eccentricities is exchangeable by a motor. You want to be driven. Subsequent to this, the size of the radius of curvature r of the turns of the horizontal plane change a pair opposite the wire screw, but maintain a straight axis of rollers 5, 6 of the wire screw that form a wire guide, so that around theirs is necessary vertical axes are rotatable and Hch to change both the eccentricity and the passage between them a passage for the wire F knife of the roller according to the invention. form.

By simply changing the roll, the coiling tool consists of a

that is to say wire screws of different dimensions connected wire guide rollers 5 and 6, as well as produce different shapes. _{go to} the lying in the same horizontal plane, however

Finally, according to a further advantageous the rollers 5, 6 opposite the laterally offset angeord-feature of the invention is provided that the roller Neten, freely rotatable roller 7 in the form of a disc opposite the horizontal plane of the supplied with the diameter D, the vertical axis 8 wire is height adjustable. As a result, a wire screw with an additional mutual bearing 9 rotates in a wire screw arranged in the horizontal table. The vertical axis of rotation XX of this deflection of the windings, so that in the case of a roller, an upwardly curved distance is arranged eccentrically with respect to the center O around a side view of the roller. The position of the axis of the wire screw results. This axis of rotation XX of the roller 7 is opposite to the axis

3 4

one of the wire guide rollers, e.g. B. the role 5, the following are some possibilities

determined by the coordinates χ and y (Fig. 3). these changes are described in detail:

These distances can be variable. For _L turns of wire screws with a straight axis

The purpose of their adjustment can e.g. be the bearing9 of (Fie 1 2 3 3a 4 4a 5 5 a)

the table 1 via a 5 '' '' '' '

ble slide 10 and one in the longitudinal direction The turns formed are aligned with one another

movable carriage 11, like that of a straight axis YY, if provision is made for it

schematically in FIG. 1 is indicated. What is affected is that by means of the carriage 11 (FIG. 1) the

The roller 7 can on the circumference an annular roller 7 at such a distance χ from the axis recess or a groove for the continuous io of the wire guide roller 5 is arranged that the wire F have. circumferential measured between points b and c

The operation of the device described is the length of the turn equal to the circumferential length of the as follows: Role 7 is. If this condition is met, every

After the end of the metal wire F has been inserted between the windings when the roller 7 revolves around the axis of the feed rollers 2, 3, 15 XX is shaped into the shape of a "6". In other words, the motor 4 is switched on, whereupon the rollers 2, 3 cause the words is the period of winding of each insertion of the wire F between the wire turns equal to the period of a complete guide roller 5, 6 at α. Subsequently, the winding roll 7 is rotated. All turns are formed, as can be seen from FIGS. 2 and 3, that is, with each revolution of the roll 7, the wire is brought up to the roll 1, which the ao identically reproduced curves with a translato wire deformed. . relative displacement ρ and are therefore on the axis

The roller 7 therefore causes the steel YY to be wound in alignment with one another,
wire F after a curve with the radius r, where

the wire at the point of application t (Fig. 3) tangential 2. Change in the extent of the dislocations

runs to the roller 7. The radius of curvature r 35 of the turns against each other as a function

depends on the position of the point of application t in relation to the eccentricity of the winding roller 7

the point α at which the wire between the (pjg _# 4 ^ 4 _a )

Wire guide rollers 5,6 passes through it. The at t in

tangential contact with the roller 7 As from the explanations given above

Wire rotates the roller 7 with which its feed 30 emerges, the offset of the windings by the speed-corresponding circumferential speed constant value ρ of the eccentricity e of the roller 7 is the speed. In every moment the situation of the dependent changes.

Point of application t depending on the case between the winding roll 7 now through a role la

the axis XX and the point t measured radius is replaced, which has the same diameter D, but the roller. In the in F i g. 3 phase shown is the 35 has a smaller eccentricity e _x , the zwi-length of the radius of the roller 7 at the point t almost see the axis XX and the point I ₁ measured a minimum. By turning the eccentric roller, the amplitude of the changes in the radius of this roller passes through between the axis XX and the. The same applies to the amplitude of the change point t measured radius, a minimum value and rungs of the radius of curvature r _x and thus for the then increases progressively up to a 40 degree P _{1 of} the offset of the turns against each other. Maximum value in order to decrease again. If now the eccentricity e _{x of} the roller la is zero, this course results as a result of the eccentricity e , the value of the offset P _{1 is also} zero, and it is the roller. The point of application t thus approaches the result then a wire screw with tightly-fitting wire guide rollers 5, 6 continuously to circular turns lying one behind the other. When reaching a certain minimum distance from 45 but on the other hand the eccentricity increases, remove these rollers S, 6 again. Accordingly, the amount of offset p _{v also} increases. The radius of curvature r of the reaching of the limit value in this direction, ie, the wound wire initially, is reduced, and then when the eccentricity 1 of the bending roller la grows immediately. For this reason, the wire F deforms its radius, measured from its center Q , from point b to point c (Fig. 2 is 50, the amount of displacement P ₁ becomes very large, and and 3 a) to a wire turn in the form of a »6«. is the winding area of the "6" shape formed

As a result, the following turns are strongly indented, so that the shape of the one obtained with a certain offset ρ with respect to the respective turn is a succession of small preceding turns. The diameter of the win-arcs is approaching.

fertilize is denoted by E. 55, ...,,. ",,, ....,

During the winding of the second turn, ³ · change in the outer diameter of the turns

the first turn around the changing ^ ¹ S ^{u &} '
The center of curvature of the second in formation has already been explained that the curvature-finding turn. During the formation of the third radius r of the turns is greater, when the attack turn, the first two previously formed turn / between the wire and the winding roll move away from the second turns in the same way as the wire guide rolls 5, 6, and vice versa, changing center of curvature of the third becomes smaller when the point t is located in these rolls forming the turn. approaching. As a result, the radius of curvature of the By the device wire screws with turns a value r ₂ and the outer diameter of various shapes and dimensions of the turns to a value E ₁ (Fig. 5 a), can be generated by changing the position of the roller 7 and which is greater than the value E when the roller Ib is changed in dimensions by exchanging the roller arranged at a distance X ₁ from the rollers 5, 6. will. Conversely, the outside diameter is the

Winding smaller than E when the distance between the winding roll and the rolls 5, 6 is smaller than x.

At this point it should be pointed out that to achieve a straight axis YY in the wire screws under such conditions it is necessary to simultaneously replace the roller 7 with a roller 7b with the diameter D ₁ , the circumferential length of which is the same as that of the new turns. In this case, the period of rotation of the roller one complete revolution must be equal to that of winding one complete turn. Therefore, if the diameter of the turns is increased from E to E ₁ , the diameter of the roller 7 must also be increased from D to D ₁ , and vice versa.

Finally, if the mutual offset of the turns of diameter JE _{1 is to have} the same value ρ as the turns of diameter E , then the size of the eccentricity of the new roller 7b of diameter D _{1 must have} a value of e ₂ which corresponds to the change in the diameter of the roll.

4. Winding wire screws with a

curved axis

(Fig. 6, 6a)

It has already been shown that the straight axis YY is obtained in the case of using a roller 7, 7 a or 7 b , the circumference of which is equal to that of the turns. If the circumferential length of the roller 7 with the diameter D is smaller than that of the turns with the diameter E ₂ (Fig. 6), which is achieved by appropriate adjustment of the radius of curvature, ie the distance x ₂ , the period is during one complete revolution of the roller is shorter than the winding period of a complete turn. In other words, after one complete revolution of the roller 7, a complete turn has not yet been produced. It is only formed between points b and c when the roller has made a little more than one complete rotation. If the turn formed in this way is compared with a "6", the hump of this "6" is more closed than in the case of a straight axis YY. As a result, the beginning of the following turn does not have the same radius of curvature as the beginning of the previous turn. Rather, the homologous points of the successive turns, i.e. the points at which the successive turns have identical curvatures, are offset from one another in the sense of a rotary movement, namely in such a way that the entirety of the turns is shaped like a ring part along the axis Y ₁ - Y _{1 forms a} curved outer jacket. A complete ring can be formed in this way by a sufficient number of turns. The wire screw produced in this way is in the case of FIG. 6, in which the circumferential length of the roller 7 is smaller than that of a turn, oriented to the right.

In the opposite case, shown in FIG. 6a, in which the circumferential length of the roller 7 is greater than that of the turns with the diameter Es, the wire screw is oriented to the left and has a curved axis F _{2 -Y 2} . In this case, the period within which a complete revolution of the roller 7 is carried out is no longer smaller, but rather greater than that during which the winding of a turn takes place. As in the previous case, the turns are therefore successively offset from one another in the sense of a rotary movement, but in the opposite sense.

5. Manufacture of wire screws

with mutually inclined winding planes

(Fig. 7)

Because the plane of the roller 7 is offset in height with respect to the plane in which the wire F is fed in, a mutual deflection of the windings is additionally effected, which then emerge inclined at a certain angle to one another. This then results in a wire screw with the curved axis Y _{3 -Y 3} , the outer jacket of which, shown in dash-dotted lines, has a toric shape.

Modifications are possible within the scope of the aforementioned exemplary embodiments.

Thus, the roller 7 could also be provided with its own drive, which is derived from the rollers 2, 3 or from their drive by a corresponding gear.

Further, for producing a wire screw with the curved winch axis F ₃ -F ₃ could with toric sheath of FIG. 7, the roller 7 may be height adjustable inclined in place also with respect to the horizontal plane of the fed wire F.

Finally, instead of the groove for receiving the wire, the roller 7 could also be cylindrical have smooth coat.

Claims (3)

Patent claims: 1. A device for producing wire screws with turns inclined towards the wire screw axis and offset from one another, in which the wire can be fed from feed rollers through a wire guide to a winding tool, the point of application of which on the wire is automatically and continuously adjustable with respect to the wire guide, characterized in that the winding tool is designed as an eccentrically freely rotatable roller (7), the axis of rotation (XX) of which has a certain adjustable distance from the wire feed (5, 6). 2. Apparatus according to claim 1, characterized in that the roller (7) can be exchanged for rollers (7 a, 7 b) with different diameters and with different eccentricity. 3. Apparatus according to claim 1 or 2, characterized in that the roller (7) is adjustable in height relative to the horizontal plane of the fed wire (F). 1 sheet of drawings