SU1089189A1 - Zig-zag sewing machine - Google Patents

Abstract

A ZIGZAG SEWING MACHINE containing mechanisms of needle bar, shuttle and engine fabric mounted in the housing and kinematically connected to the main shaft, the latter of which has a crank and is associated with a zigzag mechanism having a toothed rack with a pivot mounted on it a pusher in contact with a copy unit and connected to the frame - needle bar deviations, a stitch selection knob connected to the pusher, a fabric engine control mechanism having a handle, on the axis of which a stitch length adjustment cam is mounted, associated with the engine of the fabric engine, and a puller in contact with one of the copiers of the zigzag mechanism, and a drive characterized in that, in order to increase ease of use by simplifying the sewing machine control process, the handle of the fabric engine control mechanism has an additional cam for software control of the motor of the fabric, and a cam for adjusting the stitch length is associated with the crank of the engine of the fabric by means of a pull with an adjustable stop in contact with the crank, the puller being made in The two shoulders lever, one arm of which is in contact with one of the copiers of the zigzag mechanism, the other is connected to the crank of the fabric engine mechanism by means of a three-arm arm having a support pin, and the axis of rotation of the lever is connected by means of a double arm to a cam for programmatically controlling the fabric engine, while (A stitch selection L has a cam mounted on its axis to change the direction of movement of the fabric engine, associated with its crank and with the cams mounted on the handle of the machine and motor control tissue by the lever contacting the support pin and having a three-armed rocker roller contacting the cam for changing the direction of movement of the fabric with dvi00 tor. 00 (X)

Description

This invention relates to a sewing machine industry and concerns zigzag sewing machines for making straight zigzag, special and decorative stitches.

A zigzag sewing machine is known, comprising mechanisms of an needle bar, a shuttle and a motor mounted in a housing and kinematically connected with the main shaft, the latter of which has a crank and is associated with a zigzag mechanism having a toothed rack with a pusher hinged on it that contacts a copier unit. and connected to the needle bar deflection frame, a stitch selection knob connected to the pusher, a fabric motor control mechanism having a knob, on the axis of which a stitch length adjustment cam is mounted ka, associated with the fabric engine mechanism, and a puller in contact with one of the copiers of the zigzag mechanism, and the drive 1.

The main disadvantage of the known construction is the presence of a large number of control knobs, which complicates the mastering of the machine and its operation, and the presence of a large number of mechanisms complicates the design and increases the cost of masking.

The purpose of the invention is to improve ease of use by simplifying the control of the sewing machine.

The goal is achieved by the fact that in a sewing machine there is a zigzag containing mechanisms of an needle bar, a shuttle and a motor mounted in the housing and kinematically connected with the main shaft, the latter of which has a crank and is connected to a zigzag mechanism having a toothed rack with hinged on it a pusher in contact with the copier unit and connected to the needle bar deflection frame, a stitch selection knob connected to the pusher, a fabric motor control mechanism having a knob, on the axis of which is mounted a stitch length adjustment knob associated with a fabric engine mechanism and a puller; in contact with one of the copiers of the zigzag mechanism, and the actuator, the knob of the fabric engine control mechanism has an additional cam for programmatically controlling the fabric engine, and the stitch length adjustment cam is connected to the crank of the fabric engine mechanism by means of an adjustable stop contacting the crank, the puller is made in the form of a two-arm lever, one shoulder of which is in contact with one of the copiers of the mechanism of the Zigzag, the other is connected with the crank of the mechanism of the engine of the fabric through a three-arm The rocker arm has a support pin, and the axis of rotation of the lever is connected by means of a double arm to the cam of the programmed control of the fabric engine, while the handle for selecting the stitch has a cam mounted on its axis to change the direction of movement of the cloth engine associated with its crank and cams, mounted on the handle of the motor control mechanism of the fabric, by means of a lever in contact with the support pin of the three-arm rocker arm and having a roller in contact with the cam to change direction Displacement engine tissue.

FIG. 1 shows the proposed machine, a general view; in fig. 2 - machine operation control mechanism; in fig. 3 - promotion control information panel; in fig. 4 - Zigzag mechanism; in fig. 5 shows section A-A in FIG. four; on

FIG. 6 is a block of copiers, in Fig: 7-10 - the image of individual lines, performed by the machine; in fig. 11 - drive pointer type lines; in fig. 12 is a cam operation diagram for a fixed reverse material feed; in fig. 13 scheme for the promotion of the program; in fig. 14 is a structural-kinematic scheme of the promotion program.

The zigzag sewing machine consists of 2 different mechanisms mounted in the housing 1 and kinematically connected to the main shaft, the needle bar mechanism 3, which contains the needle 4, is placed in frame 5, to which the tie rod 6 is pivotally attached. The shuttle mechanism includes a shuttle 8 mounted on a shuttle shaft 9, a pair of bevel gears 10, a drive shaft 11, pulleys 12 and 13, and a toothed belt.

14. The engine mechanism includes a fabric engine drive 15, a control crank 16 with a finger 17 fixed in it, a advance lever 18 with a fabric engine 19 fixed on it. Mechanism

The zigzag comprises a toothed rack 20 with a pusher 21 pivotally attached to it, connected with a bar 22 and a copier unit 23 mounted on a vertical shaft 24, a worm gear 25, a stitch selection handle 26, on which axis a fixed cam 27 is changed engine 19 fabric gear 28 and drum 29 of the drive pointer type stitching. The motor control mechanism of the fabric has a handle 30 for controlling the advancement of the material, on its axis there is a cam 31 of a smooth adjustment of the stitch length value and a cam 32 for programmatically controlling the fabric motor 19. The machine also contains an intermediate lever 33 with a roller 34 pivotally fixed on it, in contact with a cam 27, a three-arm rocker 35 with a support pin 36 fixed in it, tgu 37 with an adjustable stop 38, a double-arm lever 39, a rocker 40 (remains) with a pivotally fixed on it is a puller 41 and a drive containing an electric motor 42, an intermediate pulley 43, a V-belt 44 and a toothed belt 45. A stitch type selection handle 26 is simultaneously rigidly connected to a cam 27 changing the direction of movement of the fabric engine acting on IR 34 of the intermediate lever 33 in contact with the support pin 36 of the three-arm rocker 35, the lower arm 46 of which acts on the pin 17 of the control crank 16, with the gear 28 engaging with the toothed rack 20 on which the pusher 21 is hinged and the drive drum 29 pointer type stitch. The handle 30 of the motor control 19 of the fabric is rigidly connected to the cam 31 of the smooth adjustment of the stitch length. The latter is connected to the crank 16 by means of a gigand 37 with an adjustable stop 38, which acts on the pin 17 of the control crank 16. The knob 30 has a cam 32 for programmatically controlling the fabric motor in contact with the lever 39 rigidly connected to the rocker 40 on wherein the puller 41 is hingedly attached, kinematically linking the copier unit 23 to the upper arm 47 of the said three-shoulder rocker arm 35. The lower arm 46 of the three-arm rocker arm 35 contacts the finger 17 of the crank 16 of the fabric engine mechanism. Handle 30 is combined with information board 48 (Fig. 3), on which markings are applied for carrying out the adjustment process. The drive drum 29 of the stitch-type pointer is connected by a flexible link 49 (FIG. 4), which is guided by the rollers 50, and is connected to the stitch-type pointer 51, the latter being movable relative to the scale 52. The plunger 21 is connected to the frame 5 by a bar 22 and a lever, 53 with an adjustable stop 54. The contact of the three-arm rocker arm 35 with the finger 17 is provided with a spring 55. The block of copiers 23 contains a set of copiers 56, and the copier 57 of the automatic program for moving the fabric 19 is mounted on one of the ends of the block. The actuator type indicator drum 29 is fixed in the required position by the spring 58. The puller 41 is held in the desired position by the torsion spring 59. The device works as follows. From the electric motor 42, the V-belt 44 rotates to the intermediate pulley 43, from which it is transmitted further by the toothed belt 45 to the main shaft 2 and to the associated mechanisms of the needle bar 3, the drive shaft 7, the pulley 12 and the worm gear 25. The needle bar mechanism provides for recoiling needle movement 4. By means of a worm gear 25, the rotation is transmitted to a vertical shaft 24 with a copier block 23 mounted on it, the copier profiles of which determine the rolling amplitude of the push rod 21. The bar 22, being in contact with The wheel 21 also receives a swinging motion, and the frame 5 kinematically connected with it by means of rod 6 provides different displacement amplitudes of the needle bar 3 with the needle 4. From the pulley 12 toothed belt 14, the rotation is transmitted to the chuck 13 fixed to the drive shaft 11 and connected with it a pair of bevel gears 10, a shuttle shaft 9 with a shuttle 8 mounted on it and a drive 15 for the material engine. The drive 15 of the engine material transmits the movement of the advance lever 18 and the engine 19 of the material. The operation of the machine is controlled with the help of the handles 26 and 30. Consider obtaining normal straight and zigzag stitches with the movement away from the operator. When the handle 26 is rotated, the gear 28 rigidly connected with it drives the gear rack 20 with the pusher 21 hinged on it in a direction parallel to the axis of the copier block 23. At the same time, the specified pusher 21 constantly engages with one or another copier from a set of copiers 56. A strap-type index drive drum 29 which is rigidly connected with the handle 26 when the control knob is turned moves the indicator 51 of the type of stitch along the scale 52. Thus, the position of the indicator 51 relative to the scale 52 corresponds to a strictly defined field. If the pusher 21 moves relative to the set of copiers 56, copiers 23, it is achieved by fixing the drive drum 29 of the pointer type stitch 58. To obtain a stitch (for example, shown in Fig. 7), turn the handle 26, set the pointer 51 of the stitch type to The symbol of 52 The pusher 21 engages with a corresponding copier from a set of copiers 56. When the latter rotates, the pusher 21 receives a swinging motion, which is transmitted to frame 5 through bar 22, lever 53 with adjustable stop 54 and, accordingly, needle bar 3 with needle 4. The magnitude and sequence of the needle displacement are depends on the profile of the copier from the set of copiers 56 and is not adjustable. To expand the technological capabilities of the machine, a set of copiers 56 of block 23 contains a number of copiers that provide simple zigzag stitches (Fig. 9) with different values of h corresponding to the positions 52 b of the stitch type indicator 51 51. When the stitches are executed (Fig. 7 and 9) it is possible to vary the amount of advancement m with the aid of the handle 30 in the range of 0.3-4 mm. This action corresponds to the interval of rotation of the indicated handle 30 in the K-range indicated on the information scale 48 (Fig. 3). When the handle 30 is rotated, the cam 31 rigidly connected with it mixes the ri 37 with an emphasis 58 acting on the finger 17 of the control crank 16 which rotates to take a position to the right of the X-X axis (Fig. 12). The design of the drive 15 of the advancement mechanism is such that the angular position of the control of its crank 16 determines the magnitude and direction of advancement of the material. The position of the control crank 16 to the left of the X-X axis (Fig. 12) corresponds to the advancement of the material by the operator, to the right of the X-X axis from the operator. At the moment of contact of the cable 37 with the strongest length adjustment cam 31, the stop 38 holds the finger 17 in a position almost coinciding with the X-X axis, which corresponds to the minimum stitch length. At the moment of contact, the gi 37 with the smallest radius of the cam 31, the stop 38 holds the pin 17 maximum to the right of the X-X axis, which corresponds to the maximum stitch length. To ensure that the material moves in the opposite direction, the handle 26 can be moved to such a position that the cam 27 (Fig. 12) contacts with its maximum radius with the roller 34 fixed in the lever 33, turning this lever, which presses the pin 36, and the three-shouldered rocker arm 35 clockwise. The lower end 46 of the yoke 35 rotates the control crank 16 clockwise to the position indicated by thin lines (Fig. 12) to the left of the X-X axis. In this case, the engine of the fabric is mixed in the direction of the operator. To obtain stitches with an automatic advance program (Fig. 8), it is necessary to rotate the handle 26, set the pointer 51 to the desired scale symbol 52, in the same way as in the case of the stitching shown in FIG. 7, the handle 30 is set to auto on the panel 48 (FIG. 3). In this case, the cam 32 rigidly connected with the handle 30 contacts the lever 39 with its maximum radius (before turning the handle 30 to the auto position on the panel 48, the lever 39 contacts the minimum radius of the indicated cam 32). Hardly connected with the lever 39, the beam 40 deflects towards the copier 57 of the automatic advancement program and is set relative to the specified copier in such a position that the pusher 41 engages with its smaller arm with the copier 57 and the larger arm with the upper arm 47 of the three-armed rocker arm. 35. T he 37 when turning the handle 30 to the auto position on the panel 48 remains in the position maximally displaced to the right of the axis XX and doesn’t affect the pin 17 of the control crank 16 with its abutment 38. As the stop 38 remains in the position ma Maximum stitch length, the automatic advance program has a forward and reverse pitch of 2.5 mm. When the copier 57 is rotated, the double-shouldered puller 41 starts rocking according to the program specified by the specified copier and causes the three-armed arm 35 to rotate, which at its lower end 46 periodically acts on the pin 17 of the crank 16, which causes the material engine to move according to a given program. Similarly, the line shown in FIG. 10. For its execution, it is necessary to set the handle 26 to the position in which the pointer 51 of the stitch type would be set against the same scale symbol 52, THAT and in the case of the stitching shown in FIG. 9, and set the handle 30 to auto on the panel 48. The automatic advance program can be turned on in any position of the handle 26 for selecting the type of line 26, since any zigzag program can be combined with the automatic advance program. The proposed machine design will simplify setup and reduce the cost production, simplify maintenance and development, i.e., provide basic requirements for mass production machines intended for large segments of the population.

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Claims (1)

A ZIGZAG SEWING MACHINE containing mechanisms of a needle bar, shuttle and fabric motor, mounted in the housing and kinematically connected with the main shaft, the last of which has a crank and is connected to a zigzag mechanism with a gear rack with a pusher pivotally mounted on it, in contact with the copy unit and connected with needle bar deviations, a stitch selection knob connected to a pusher, a fabric motor control mechanism having a handle, on the axis of which a cam for adjusting the stitch length is mounted th with a fabric engine mechanism, and a puller in contact with one of the zigzag mechanism copiers, and a drive, characterized in that, in order to improve ease of use by simplifying the process of controlling the sewing machine, the fabric engine control mechanism handle has an additional cam for programmed motor control fabric, and the cam adjusting the length of the stitch is connected to the crank of the engine mechanism of the fabric by means of a thrust with an adjustable stop in contact with the crank, and the puller is made in the form of a two-shouldered p the lever, one shoulder of which is in contact with one of the copiers of the zigzag mechanism, the other is connected to the crank of the fabric engine mechanism by means of a three-armed rocker arm having a support pin, and the axis of rotation of the lever is connected via a two-shoulder lever to a cam for programmatically controlling the fabric engine, while the line selection handle has a cam mounted on its axis for changing the direction of movement of the tissue engine, associated with its crank and with the cams mounted on the handle of the engine control mechanism fabric by the lever contacting the support pin and having a three-armed rocker roller contacting with a cam to change the direction of travel of the fabric of the engine. >