SU821568A1 - Slay mechanism of terry loom - Google Patents

Description

The invention relates to textile machinery and is intended for use on shuttleless looms in the production of terry fabrics with cam drive drive.

Known batan mechanism for a loom for the production of terry fabrics, containing a reed mounted on a tucked shaft placed coaxially to the drive shaft, means for changing the stroke value of the reed, including single-arm levers rigidly attached to each shaft, kinematically connected to the stop lever placed between them, the axis whose swing is parallel to the axis of swing of one-arm levers, and the lever position lock, made in the form of a finger, kinematically connected to the machine control mechanism [1].

The disadvantage of this batan mechanism is that the means for changing the size of the reed stroke has a complex structure, including an eccentric pivotally mounted on a lined shaft and rigidly attached to it, pivotally mounted on the drive shaft and having a longitudinal hole for fixing the position of the levers.

The aim of the invention is to simplify the design.

This goal is achieved by the fact that a hole is made in the thrust ₅ lever, in which the latch is placed, and the swing axis of the thrust lever is rigidly connected to the one-arm lever placed on the lined shaft. In this case, the latch has a section with gear cutting and is connected to the control mechanism of the machine by means of a gear sector mounted on the thrust lever and a control lever interacting with it.

In the single-arm ^ lever located on the tamper shaft ^ί5 , a hole for the clamp is made, coaxial with the hole of the stop lever.

The stop lever in the area of the hole has a cylindrical protrusion, and the free end 20 of the control lever is made in the form of a hook to surround the protrusion.

In FIG. 1 shows a batan mechanism; in FIG. 2 - a device for changing the course of the reed along the axes of the shafts in section;

in FIG. 3, 4 - kinematic diagrams of the batan mechanism.

The winding mechanism contains cams 1 and 2, connected through rollers 3 and 4 to the drive shaft 5. Coaxial to the drive shaft 5 is fitted with a mated shaft 6. On the mated shaft 6, blades 7 supporting the reed 8 are mounted, and a lever 9 is rigidly fixed to the drive shaft 5 the lever 10 is rigidly fixed, in the longitudinal groove of which the pallet 11 is fixed with the stone 12 by means of the nut 13. The thrust lever 14, mounted with the possibility of rotation on the axis 15, rigidly mounted on the lever 9 of the mated shaft 6, has a longitudinal groove in which the stone 12 of the lever is placed 10. The stop lever 14 is provided with with a spring-loaded latch 16, the end of which enters the hole of the lever 9, In the lower part of the thrust lever 14 there is a cylindrical protrusion 17 for periodic interaction with the lever 18, control mechanism (not showing)!). In this case, the spring-loaded latch 16 and the cylindrical protrusion 17 of the thrust lever 14 are mounted coaxially. The spring-loaded latch 18 is provided with a gear cut 19 which is engaged with the gear sector 20, which is pivotally mounted in the thrust lever 14. The sector 20 has an inclined surface 21 for interacting with the lever 18 of the control mechanism (Fig. 2 and 3), made in the form of a hook for protrusion of the protrusion 17.

The mechanism works as follows.

From the cams 1 and 2 through the rollers 3 and 4 (Fig. 1), the movement is transmitted to the drive shaft 5 with a lever 10 fixed to it, which leads through the finger 11 and the stone 12 to the stop lever 14. If the spring-loaded latch 16 is in the position shown in FIG. 2, i.e., the stop lever 14 is rigidly connected to the lever 9, mounted on a knocked-out shaft 6, · in this case, the entire system of the mechanism, as a whole, moves from position I to position II (Fig. 3), which corresponds to " soft surf ”byrd 8.

When the reed 8 is in the back position (position I of FIG. 4) to turn on the “hard surf”, the adjustment lever 18, lowering and meeting the inclined plane 21 of the gear sector 20 (FIG. 2), brings the spring-loaded latch 16 out the holes of the lever 9, while simultaneously grasping the hook of the lever 18 of the control mechanism, the protrusion 17 located in the lower part of the thrust lever 14, and holds it in this position (Fig. 4). In this case, the reed 8 receives movements from the drive shaft 5 through a growl! 10, finger 11, stone 12, axis 15 of the thrust lever 14, • I lever 9, the rear shaft 6, turning around the latter to position III (Fig. 4). Since this creates a difference in the lengths of the shoulders on the levers 9 and 10, the rotation of the tucked shaft 6 occurs at an angle greater than when the latch 16 interacts with the lever 9. This provides a greater path for the reed 8. The height of the loop on the fabric is regulated by changing the ratio of the shoulders the lever 10 and the thrust lever 14 by moving the finger 11 with the stone 12 along the groove of the lever 10 with a screw 22.

The proposed mechanism is simple in design. As a result, the reliability of the batan mechanism and the machine as a whole and the speed capabilities of the machine are increased.

Claims (3)

(54) THE BATTLE MECHANISM OF THE MOVING MACHINE FOR DEVELOPING TERRY FABRICS in FIG. 3, 4 - kinematic schemes of the bat;). || mechanism. The cam mechanism contains cams 1 and 2 connected via rollers 3 and 4 to the drive shaft 5. The coiled shaft 6 is mounted coaxially to the drive shaft 5. The blades 7 fixed to the drive shaft 6 (carrier 8 and the lever 9 are fixed). the drive shaft 5 is rigidly fixed lever 10, in the longitudinal groove of which is fixed a finger with a stone 12 by means of a nut 13. The thrust lever 14 mounted rotatably on an axis 15 rigidly fixed on the lever 9 of the batted shaft 6 has a longitudinal groove in which the stone is placed 12 levers 10. Thrust lever 14 supply a spring-loaded retainer 16, the end of which enters the hole of the lever 9. In the lower part of the stop lever 14 there is a cylindrical protrusion 17 for periodically interacting with the control mechanism lever 18 (not shown). In this case the spring-loaded lock 16 and the cylindrical post 7 of the stop lever 14 are aligned. 11 spring-loaded retainer 18 is provided with a serrated thread 19 meshed with a gear sector 20, which is hinged in the stop arm 14. Sector 20 has an inclined surface 21 for engagement with the arm 18 m The control mechanism (FIG. 2 and 3), made in the form of a hook to cover the protrusion 17. The mechanism works as follows. From cams 1 and 2 through rollers 3 and 4 of FIG. 1) the movement is transmitted to the drive shaft 5 with the lever 10 fixed on it, which leads the thrust lever 14 through the finger 11 and the stone 12. If the spring-loaded clamp 16 is in the position shown in FIG. 2, i.e., the thrust lever 14 is rigidly connected to the lever 9 fastened on the sub-shaft 6, then in this case the entire mechanism system, as a whole, moves from position I to position II (Fig. 3), which corresponds to "m By the Byrd surf 8. At the stand, the Byrd 8 is in the rear position (position I of Fig. 4) to turn on the "rigid rif arm 18, fall down and meet on its way the inclined plane 21 of the gear sector 20 (Fig. 2) displays spring-loaded the latch 16 of the hole of the lever 9, at the same time covering the hook lever 18 mechanism control a projection 17 disposed at the bottom of the stop lever 14 and uder alive it in this position (FIG. 4). In this case, the reed 8 receives movement from the drive shaft 5 through the lever 10, palei 11, stone 12, axle 15 of the thrust lever 14, lever 9, and the fixed shaft 6, turning around the latter to position III (Fig. 4). Since this results in a difference in the lengths of the shoulders on the levers 9 and 10, the rotation of the batten shaft 6 occurs at a greater angle than when the latch 16 interacts with the lever 9. This provides a greater way to the blade 8. The height of the loop on the fabric is adjusted by changing the ratio of the shoulders the lever 10 and the thrust lever 14 by moving the finger 11 with the stone 12 along the groove of the lever 10 with the screw 22. The proposed mechanism is simple in design. As a result, the reliability of operation of the battal mechanism and the machine as a whole and the speed capabilities of the machine are increased. Claim 1. Batting mechanism of a weaving machine for making terry fabrics, containing a reed mounted on a roll-up shaft placed coaxially with the drive shaft, and means for changing the reed stroke size, including one-arm levers fixed on each shaft, kinematically connected with a stop mounted between them lever, the swing axis of which is parallel to the swing axis of single-arm levers, and the lever position lock, made in the form of a finger, kinematically connected to the machine control mechanism, It is characterized by the fact that, in order to simplify the design, a hole is made in the stop lever, in which a clamp is placed, and the swing axis of the stop lever is rigidly connected to the single-arm lever placed on the battered shaft, while the lock has a section with a gear cut and is connected to the control mechanism machine by means of a toothed sector mounted on a stop lever and a control lever cooperating with one another. 2. The mechanism according to claim 1, characterized in that in a single-arm lever disposed on a single shaft, a retainer opening is made coaxial with the retaining lever hole. 3. Mechanism on PP. 1, 2, characterized in that the stop lever in the area of the hole has a cylindrical protrusion, and the free end of the control lever is designed as a hook to cover the protrusion. Sources of information taken into account in the examination 1. USSR author's certificate in application No. 2538543, cl. D 03 D 49/60, 10/20/77 (prototype). 22 13 // / Fig. / FIG. 2 S 2 (Riga.Z (Reg. Tf