DE1165799B - Fast running flat warp knitting machine - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: D 04 b

German KL: 25 a -15/01

Number: 1165 799

File number: F 22592 VH a / 25 a

Filing date: March 15, 1957

Opening day: March 19, 1964

The invention relates to a high-speed flat warp knitting machine, in which of the resilient Tension bar from one of the movements of the tension bar resulting from the loop formation process essentially eliminating damping device a continuously adjustable chain boom drive can be influenced.

In a known machine of this type, the resilient tensioning bar is on a speed control member attached, which in turn is movable against the action of another spring. the resilient tension bar absorbs the tension fluctuations of the warp threads with each knitting cycle. With a constant increase or decrease in the average voltage, however, the speed control element moves, and this movement brings about an increase or decrease in the speed with which the chain-tree inevitably becomes is driven. The speed control member is provided with a friction damping device, about an oscillation due to the movement of the tension bar as a result of the short-term fluctuations in tension of the threads during each knitting cycle to prevent. However, this friction damping device has the disadvantage that it is not sensitive works enough. When the speed control member is fixed, there is static friction and this must be accompanied by a substantial change in the average tension of the warp threads be overcome before the speed control member changes the voltage begins to move. Once the static friction has been overcome, only the smaller one is effective Movement friction, which is only about half as large as the static friction, so that either the damping effect is no longer so great, or because of the setting of a strong friction damping the then very high static friction on the responsiveness of the entire device Changes in the average voltage becomes very small. In addition, this known device has the Disadvantage that it is intricate.

By the invention, a damping device is created, which effectively counteracts the influence of the Voltage fluctuations, which are caused by the operating cycle, on the speed control element but prevents its sensitivity to changes in the average voltage not affected. In addition, the structural effort should be relatively small.

The invention consists in that the tension bar is attached to leaf springs mounted on a shaft Fast running flat warp knitting machine

Applicant:

Hobourn - F. N. F. Limited,

Burton-on-Trent, Staffordshire (UK)

Representative:

Dipl.-Ing. H. Beschich, patent attorney,

Regensburg 3, Lessingstr. 10

Named as inventor:
Allan William Henry Porter,
Burton-on-Trent, Staffordshire (UK)

Claimed priority:

Great Britain of March 16 "1956 (No. 8342) -

is a shaft rotatable against the action of a spring by the thread pull over the leaf springs Toothed segment carries, which is attached to a flywheel serving as a damping device Pinion meshes with a much smaller radius than that of the toothed segment, and that the Shaft and the flywheel containing system connected to the actuating means of the adjustable chain tree drive are. Because of the translation between the shaft, the tension bar and the flywheel in The connection with the low inertia of the tension bar arranged on leaf springs is the damping extremely effective even with a small flywheel, which is desirable for structural reasons.

An exemplary embodiment of the invention is described below with reference to the drawing. In this shows

F i g. 1 is a schematic plan view of the inside of a machine wall of a machine according to the invention Warp knitting machine,

F i g. 2 shows a plan view of the inside of the boom on the machine wall carrying the tensioning bars,

F i g. 3 is a plan view of the outside of the boom and

F i g. 4 is a schematic representation of the electrical Means for influencing the adjustable chain tree transmission.

As shown in FIG. 1 and 2, a warp thread sheet 1 runs from a chain tree 2 through a reed 2 α over a tension bar 3 to the point of action. One

409 539/67

Another warp thread sheet 4 runs from a chain tree 5 through a reed 5 α via a tensioning bar 6 also to the point of action. The tensioning bar 3 is carried by a shaft 8 by means of cantilevered springs 7 and the tensioning bar 6 is carried by a shaft 10 correspondingly by means of springs 9 the machine wall 12 are attached. ίο

As shown in FIG. 2, an angle lever 13 is attached to the shaft 8 and a similar angle lever 14 is attached to the shaft 10. One arm of the angle lever 13 is designed as a toothed segment 15 and meshes with a pinion 16 which is fastened to a stub shaft 17 passing through a bearing in the boom 11. The stub shaft 17 carries a flywheel 18 at the end facing away from the pinion 16 (FIG. 3). A rod 18α is articulated to the second arm 19 of the angle lever 13, and α is surrounded by a helical compression spring 19, which is supported with one end against a fixed to the arm 11 stop 20 and at the other end against a knurled nut 21 on the rod 18 .

An arm 22 of the angle lever 14 meshes with a pinion 23, which is similar to the pinion 16 and is connected to a flywheel 24 (FIG. 3). A second arm 25 of the angle lever 14 carries a spring 26 which is arranged in a similar manner to the spring 19 a . The flywheel 18 carries a blade 27 which is arranged between the arms 28 and 29 of switches 30 and 31. The flywheel 24 carries a blade 32 correspondingly arranged between the arms 33 and 34 of switches 35, 36. The position of the switches 30, 31 and 35, 36 can be changed by means of micrometer screws 37, 38, 39, 40.

The switches 30, 31 (Fig. 4) are in the circuits an electric motor 41 switched on. The motor 41 adjusts a controllable transmission 42, which is switched on in the drive of the chain boom 2. The variable speed transmission 42 includes an input shaft 43 on which a cone 44 is attached. An idle cone 45 is rotatable adjacent to the cone 44, and a third similar cone 46 is mounted on an output shaft 47. The drive is by friction from the cone 44 onto the cone 45 through a ring 48 and in a similar manner transferred to the cone 46 by a second ring 49. The gear ratio thus depends on the position of both rings 48, 49 along the cone axes. The position of the ring 48 can be changed by turning a threaded spindle 50 by hand and that of the ring 49 by turning a threaded spindle 51 can be changed with the aid of the motor 41.

Since the tension in the warp sheet 1 fluctuates during the formation of each row of stitches, the cantilever springs 7, which are relatively stiff and have a high natural frequency, bend and give the tension bar 3 the opportunity to oscillate. However, the shaft 8 is prevented from deflecting against the action of the relatively soft spring 19 α due to the inertia of the flywheel 18. If, however, the mean value of the brief tension fluctuations in the warp thread sheet changes, the center position of the tensioning bar 3 also shifts downward, as a result of which the shaft 8 is rotated clockwise with reference to FIG. 2. As a result, the angle lever 13 also rotates clockwise and rotates the pinion 16 through an angle approximately seven times larger, since the radius of the toothed segment 15 is approximately seven times as large as the radius of the pinion 16. The sheet 27 is pressed in this way against the arm 29 which closes the holder 31.

The motor 41 is thereby excited and rotates the shaft 51 counterclockwise. This will the ring 49 moves down and increases the speed of the chain tree.

If there is a sustained decrease in warp tension, sheet 27 will be against the Arm 28 pressed and switch 30 closed. The motor 41 is again excited, but in this Case rotates the shaft 51 clockwise and moves the ring 49 upwards, so that the speed of the chain tree is reduced.

The increase or decrease in the speed of the chain tree causes a decrease or increase the warp thread tension in the required manner.

The tension of the warp threads 4 is controlled in exactly the same way.

Claims (1)

Claim: High-speed, flat warp knitting machine, in which from the springy tension bar over one of the movements of the tension bar resulting from the stitch formation process eliminating damping device a continuously adjustable chain boom drive can be influenced is, characterized in that the tension bar (3, 6) is attached to leaf springs (7, 9) fastened on a shaft (8, 10), that the by the thread tension on the leaf springs (7, 9) against the action of a spring (19 a, 26) rotatable shaft (8,10) carries a toothed segment (13, 14) which is connected to a flywheel (18, 24) serving as a damping device attached pinion (16, 23) with a significantly smaller radius than that of the toothed segment (13, 14) meshes, and that the shaft (8,10) and the flywheel (18,24) containing system the actuating means of the controllable chain boom drive are connected. Documents considered: German Patent No. 807293; British Patent No. 736,396; U.S. Patent No. 2,539,295. 1 sheet of drawings 409 539/67 3.64 SS Bundesdruckerei Berlin