DE2016065B2 - Warp let-off device - Google Patents

Description

3 4

Spindle 21 screwed nut 34 is the actuator speed (/ J) regulated, but by the acting

33 articulated a transmission gear 4, the force of which on the chain the resulting warp thread

Output number changes from the position of the actuator 33 voltage.

is pending and that from a shaft 2 via a chain If the backrest 12 is driven against M due to 3 is driven. Moving on a shaft 5 as the warp thread tension increases, the fixed output gear 5 'of the transmission gear 4 rotates . The attached gear 7, a set arranged on the shaft 6 and the threaded spindle 21 and the nut 34, move the shaft 8, but not shown, downwards and thereby cause a sealing of bevel gears, a worm or a screwing of the actuator 33 the transmission gear 4 rad 9 and a gear 11 drives the warp beam 10. such that the speed of the gear 5 'increases. The devices of gear 5 'to gear 11 When the nut 34 or the actuator 33 is referred to as the means of rotation of the warp beam, moves upwards, the shaft 5 is decelerated.

In this warp let-off device, one change has links that are necessary for this effect, namely

the warp thread tension a movement of the warp beam 15 borrowed the rod 13, lever 15, rod 16, threaded spindle

12 result. When the voltage increases, 21 and nut 34 moves up to the actuator 33, as

the backrest 12 in the direction of O - * ■ M, as long as the transmission device referred to, which is also different

a compensation of the attack on the backrest 12 can be formed. The only requirement is that one

Force and the spring S, which at the with the stroke position change of the backrest tree 12 also directly

Baum 12 connected L-shaped lever 15 attached ao bar an adjustment of the actuator 33 results.

is achieved. The force of the spring S always acts on the mechanism of the back gear or the transmission

the backrest 12 and keeps a balance with the tongue gear 4 can also be selected. this

Warp tension. If the location of the backing tree is a summary of the first modulation of the

changes between M- + O ^ -L , therefore, warp let-off device changes.

also the force of the spring acting on the backrest 35

acts, and accordingly the string tree 12 - as already stated - does not change into his

Warp thread tension, which is a disadvantage when returning to the initial position. The following will be

borrowed tax system is. measures are now described by which there is a

To further explain the above-described warp let-off device of the type described above, an embodiment 30 is borrowed below to keep the warp beam in a desired position,
with reference to FIG. 5 described. In Fig. 5 is the In FIGS. 1, 2 and 3, the lower end of the elapsed period of time is slidably guided on the abscissa and the Ket threaded spindle 21 in the layer parts 22 and 22 'vertical discharge speed on the upper ordinate. Worn in the middle between the two. The standard chain lowering speed bearing parts 22, 22 'are drive or ratchet wheels 27 is defined as \, (i is fixed as a percentage plus and 35 and 28 on the threaded spindle 21 with a minus value above and below the stated stand G from each other, where the Direction of the standard line λ illustrated. On the lower ordi- of the teeth of the ratchet wheels facing each other, the position of the backrest is plotted. Above is. To drive the ratchet wheels 27, 28 is half 0, the middle position of the backrest is the position of lever 19 is provided, which has two lugs 23, 24. O -> L and below O is the position O -> M an- 40 with which it can also be rotated on the threaded spindle 24. At the time of commissioning, the is supported Both lugs 23, 24 are the lowering speed at (I), ie with the standard pawls 25 and 26 mounted on the lever 19. Furthermore, the backrest 12 is at a, ie at O. The lever 1 carries the lever 1 9, an arm 30 on which a roller 31, which is provided against a cam disk 32, takes the discharge speed as the time lapses. Warp threads gradually decrease and reach (II). The stroke 45 which is arranged on the front side of the gear 7 moves against M and reaches b. Is by net that is attached to the shaft 6. When the shift a - »■ b , the threaded spindle 21 rotates the cam 32, the lever 19 is pushed down and the discharge speed (β) oscillates around the threaded spindle 21. increases to match the standard deflation rate \ Wenn either of pawls 25 and 26 with this arrangement. The speed 50 changes with one of the ratchet wheels 27 and 28 in engagement (ß) to (II) - * ■ (III). During this period of time the langt holds, it causes the ratchet wheel and thus also the streichbaum to maintain its position (b - * ■ c) . Thereafter, the threaded spindle 21 takes to rotate at a predetermined let-off speed of the warp thread, which is the standard direction of rotation. As in Fig. 2, there is a turning speed (*) has returned, still from the threaded spindle 21 does not take place when the pawls 25 (III) -> (IV), and the backrest moves 55 and 26 in the space G are arranged. If the from "c" to "d". The associated adjustment threaded spindle 21 executes up and down movements, the actuator 33 has an increase in the drain, the pawls engage in the ratchet wheel, speed (/?) Result, which in turn moves from the z. B. the threaded spindle 21 down, value (IV) increases to (V). The pawls 25 and 26 mesh with the pawl tree in position "c /" or "e". This game repeats 60 rad 27 and the threaded spindle 21 rotates in a, as in F i g. 5 is shown several times, and the predetermined direction. If the thread backrest moves upwards from O -> ■ M spindle 21, on the other hand, the pawls 25 continue and reach "g". When the backrest engages its 26 with the ratchet 28. The thread position between O and M changes, the spindle 21 also changes, then rotates in the opposite direction, the force with which the backrest acts on the warp threads 65. When the lock acts with the upper ratchet wheel 27, since this force inter alia also from the mesh, the actuator 33 is pulled down, spring S comes from. As described above, when the lower ratchet wheel 28 meshes with the ratchets through the first control of the warp letdown, the actuator 33 is pulled upward.

5 6

The operation of the downward movement of the warp let-off of the nut 34 and thus a precise

facility explained in more detail. additional acceleration of the warp beam.

At the beginning of weaving, the backrest is at O. The warp thread tension is reduced again, and

ordered and the pawls 25 and 26 take the in the backrest 12 begins under the influence of the

F i g. 2 position shown between the ratchet wheels 5 to move spring S from M to O. The L-shaped one

27, 28 a. A setting of these positions is under lever 15 is rotated clockwise and

among other things by turning a handwheel H the rod 16 and the threaded spindle 21 upwards

possible. drawn. The ratchet wheel 27 is also after

If during weaving the warp tension is pulled up and disengaged from the pawls 25,26

is too high, the backrest 12 is brought to a movement io, which in the space G between the pawl-

(O -> M) caused. Return the free end of the L-shaped wheels.

Lever 15 is in a counterclockwise direction. 4 is another embodiment for Set direction rotated to the rod 16 and the rotation of the threaded spindle 21 shown. here associated threaded spindle 21 downwards is a bevel gear 43 via a belt 41 and a push. Since the nut 34 rotates on the threaded spindle 21 15 belt pulley 38 which is screwed onto the shaft 6 is, it moves together with the one that is solidified.

The threaded spindle 21 is downward, thus causing a. The threaded spindle 21 is perpendicular to a

Adjusting the actuator 33 of the transmission gear shaft 42 on which the bevel gear 43 is attached,

Adjustment of the actuator 33 of the transmission and carries an upper and lower bevel gear 44 and 45, respectively,

drive 4. As a result, the beam is accelerated »o which are at a certain distance from one another,

and the warp thread tension is lowered accordingly. When the lead screw moves down, occurs

With the threaded spindle 21, the upper bevel gear 44 also move into engagement with the bevel gear 43

Ratchet wheels 27 and 28, which are on the threaded spindle 21 and causes a rotation of the threaded spindle 21 in the

are attached, downward, and the pawls 25 and 26 in the direction indicated by the arrow X. If the

come into engagement with the ratchet wheel 27. So that the threaded spindle 21 moves upwards,

If the second control of the Kettablaßeinrich- occurs the lower bevel gear 45 with the bevel gear 43 in

tion. The pawls of the lever 19 engage to rotate the threaded spindle 21 in

slow turning of the threaded spindle 21 by the opposite direction, namely in the by the

Ratchet wheel to gradually effect the nut 34 in the downward direction indicated by arrow Y. Together

to adjust. 30 with the rotation of the threaded spindle 21, as before

The threaded spindle 21 has already been described at the first standstill, and the courage control also moves moved down and the rotation of the ter 34, which is screwed onto the threaded spindle 21, Kettbaumes already accelerated. Following this up and down to steer the beam the second modulation causes another renewal.

In addition 5 sheets of drawings

Claims (4)

1 2 that the backrest constantly changes its position, and claims: although essentially as a function of the winding diameter of the warp beam. This change in position of the 1. Warp let-off device with a drive boom but also has a change in force direction for the warp beam, through which the turning 5 according to size and direction result with which dei number of warp beam adjustable via an actuator, backrest against which warp thread prints, bm Konstantist, and with a movably mounted, the warp hold the warp thread tension is hardly here Threads exciting match tree, which is possible with the Stell-. In addition, there are also chain-blue members Connected via gear members, of which lines are known (CH-PS 371 406), in which the target position one is a threaded spindle on which two of the ίο of the backrest tree are retained. There the Attack gear links and only then change their speed of the warp beam, rotate the distance between the two points of application when the backrest tree extends beyond predetermined limits Inderbar is, thereby marked, moved out. Since there are none within these limits that on the threaded ring (21), which takes place in the axis influencing the speed of the warp beam, direction is slidably mounted, two to each other 15 is only one relatively slow and rough here spaced drive wheels (27, 28; regulation possible. 44, 45) are attached, between which in the target position The invention is therefore based on the object of the backrest tree (12) the fixed drainage device of the type mentioned at the beginning drive part (25, 26; 43) of a drive is to be designed so that a fast and fine control after a displacement of the threaded spindle by ao the warp thread tension is obtained even if a certain amount and depending on the different backstroke is held in a target position. These Exercise direction of the same on one or the other task is indicated by the claim 1 Drive wheel (27 or 28; 44 or 45) engages and solved the invention. thereby turning the threaded spindle (21) Dutch such a design is achieved that causes in one direction or another. as every shift of the backrest tree is also a turning 2. Warp release device according to claim 1, the number of changes in the warp beam and the characterized in that the drive wheels (44, Streichbaum after the control process in its desired position 45) and the fixed between these is brought back. This makes the movement-bearing Output part (43) are bevel gears. deflection of the backrest tree is smaller and the rule 3. Kettablaßeinrichtung according to claim 1, that 30 process runs faster. characterized in that the drive wheels (27, The object of the invention is hereinafter 28) are ratchet wheels and that the driven part is explained in more detail with reference to the drawing. It shows
(25, 26) is formed by pawls that are on a F i g. 1 is a front view of an embodiment oscillating driven and around the axis of a warp let-off device, Threaded spindle (21) pivoted lever 35 F 1 g. 2 shows a part of FIG (19) are arranged. Execution according to Fig. 1, 4. Warp let-off device according to one of the beginning. 3 is a sectional view along line AB of Proverbs 1 to 3, characterized in that on Fig. 2, the one end of the threaded spindle (21) the F i g. 4 is a front view of a modified one Drive wheels (27,28; 44,45) are attached and 40 rotating device for the threaded spindle,
the other end of the one of the two at the Fig. 5 on the basis of a graphical representation The threaded spindle (21) engaging the gear links relationship between the displacement of the streak (16, 34) is articulated, while the other gear tree and the lowering of the warp thread,
member (34) to which the actuator (33) is articulated. With reference to FIG. 1 are a warp beam 10 and is screwed onto the threaded spindle (21). 45 a stroke · ... · by 12 on a web chair frame 1 attached · warp threads W wound on the warp beam 10 x'r-. '. become to the loom by lead over 1? ^ circumference of the backing tree 12. Zur Regeiui.j .; of the warp let-off it is general 50 known to the rotation of the warp beam by taking advantage of the displacement of a backrest beam The invention relates to a Kettablaßein- control. In such a warp let-off device direction with a drive device for the warp beam 12 on one end of a rod 13 tree through which the speed of the warp beam can be rotated. The other end of the rod 13 is an actuator is adjustable, and articulated with a movable 55 at the end of an L-shaped lever 15, stored, the warp tensioning backrest, which is arranged on a shaft 14 and on which in the the center between its free end and the shaft 14, which is connected to the actuator via gear members one of which is a threaded spindle to which a spring 5 attached to the loom frame 1 attack two of the transmission members and attacks through them. At the free end of the lever 15 is a Rotating the distance between the two points of attack 60 rod or rod 16 can be changed with the aid of a fastening is. member, z. B. a clamp or a bracket 17, be-Kettablaßeinrichtung of this type are already attached. Up and down movements of the rod 16 are known (CH-PS 421 855). There every change of position has a collar 18 which is attached to the clamp 17 Streichbaumes also a change in the speed is prevented. At the bottom of the of the warp beam. The disadvantage here, however, is that the rod 16 is one end of a threaded spindle 21 that keeping the Kettablaßgeschwindigkei- by means of a universal joint 20 is attached. The other ten, which is one of the prerequisites for constant chain end of the threaded spindle 21 in bearing parts 22 and thread tension is, there can only be achieved thereby, 22 'displaceably guided. On one of the thread