RU2078165C1 - Household stitching-overstitching machine - Google Patents

Abstract

FIELD: textile manufacturing. SUBSTANCE: machine has base working units like needles, kickers, cloth moving device with stitch length and differential gear adjustment units, cloth edge cutter, blank holder and fibre feeder. Needle mechanism has multi-unit hinge link, eccentric axle for needle vertical position control and needle driver fixed at hole made in machine body so to permit needle position adjusting along slot of needle slab. Cloth feeder is composed by two identical unit, one of them serves for base lath pass adjustment, second serves for gear adjustment of differential rack. Edge cutter upper knife is spring loaded with respect to lower one and it is fixed by screw from needle side at hold-carrier. Cloth clamping work makes by hold-down strip gripping at lever by hinge link. Lower stitcher needle feeding track has additional horizontal double-eye fibre feeder and motionless fibre lead placed between fibre feeder and lower stitcher. This construction permits to perform up to four thread stitching-overstitching operations by changing needle loom up of lover stitcher. Machine body is made simpler and it has body and platform, in body there are needle mechanism, stitcher, cloth edge cutter, cloth clamper and fibre feeding mechanism. Platform has cloth moving mechanism. EFFECT: advanced construction of household stitching-overstitching machine. 8 cl, 5 dwg

Description

 The invention relates to sewing machinery, in particular to household overcasting machines and can be used for the manufacture of sewing and knitwear in everyday life or in enterprises with single or small-scale production.

 Known household sewing overcasting machine described in the patent for the invention of the Russian Federation N 2003742, according to cl. D 05 B 1/18, 1993, containing mounted in a housing with a platform and receiving movement from eccentrics mounted on the main shaft, a needle mechanism, a trimming mechanism for the material edge with a lower fixed knife and an upper movable knife, mechanisms of the upper and lower loopers, the mechanism of advancement material, including knots for regulating the length of the stitch and the differential value, with levers-holders of racks, a mechanism for clamping the material and a device for feeding threads.

 The main rail in the overcasting machine is mounted on a lever holder, which is kinematically connected with the eccentric on the main shaft through the knot for regulating the length of the stitch and the knot for raising it. The differential rail is also kinematically connected to the eccentrics on the main shaft through the rack lifting unit and the stitch length adjustment unit connected to drive the differential rack in series with the differential value adjusting unit. Attachment to the knot for adjusting the length of the stitch of the knot for adjusting the differential makes the mechanism for promoting the material multi-link, structurally complex, and the regulation of the differential depends on the regulation of the length of the stitch. This reduces the range of regulation of the differential value, and the presence of an additional multi-link transmission in the form of a node for regulating the differential value leads to instability during the movement of the differential rail. This reduces the technological capabilities of the machine in obtaining assemblies on the material with different lengths of stitch and stitches without pulling when processing easily extensible materials. Long kinematic connections in the mechanisms lead to an increase in the operating position error of the working body, in this case the differential rail, which reduces not only the stability of the formation of stitches in the stitch, but also technological capabilities in the processing of readily soluble materials, since it makes the differential value unstable.

 The lever-holder of the differential rack uses the lever-holder of the main rack as a guide, which does not allow constant accurate orientation of the rails relative to the platform of the machine, since the axis of pumping of the rocker arm of the length control unit serves as a guide and limiting from displacement along the main shaft of the machine stitch removed from the rails. Since the distance from the pumping axis of the rocker arm of the differential rail is larger than for the main rail, the position of this rail and the slot will be more unstable, which can lead to a heavier rail during the operation of the machine due to lateral contact of the rail against the slot of the needle plate and a decrease in the frequency of overcasting.

 The needle in the machine is fixed in the needle holder mounted on the needle bar and pivotally connected to the lead, which has a connection with the connecting rod of the needle mechanism. All these details of the needle mechanism have the same components of acceleration of movement during machine operation, which makes the needle position unstable in the dynamics due to the presence of a significant mass of moving parts and, therefore, adversely affects the stability of the stitch formation process, because it is one of the reasons for the mismatch in the interaction of needles and loopers.

 Thus, the household sewing overcasting machine has a complex design of the material advancement mechanism, does not provide for overcasting and sewing-overcasting stitches from two-thread to four-thread overcasting stitches, since it is not provided in the machine to replace the upper looper with an extender and to use special threading routes, narrowed the range of sewing materials and the stability of the formation of stitches on the machine due to the presence of deficiencies in the design of its mechanisms.

 The invention aims at creating such a machine that, with a possible simplification of the design and low cost of manufacture, would eliminate the noted drawbacks and ensure the stability of the formation of stitches while expanding its technological capabilities.

 The technical result is achieved by the fact that needle mechanisms, a mechanism for trimming the edges of the material, mechanisms of the upper and lower loopers, a mechanism for moving the material, a clamping mechanism for the material and a thread feeding device are mounted in the machine body with the platform. Eccentrics are fixed on the main shaft of the machine, providing movement of links of mechanisms and thread feeding devices. The material advancement mechanism includes knots for adjusting the stitch length and the differential value and contains levers-holders of the main and differential rails. The nodes for adjusting the stitch length and the differential value have the same kinematic connection with the eccentrics of the material advance mechanism and receive a drive from the axis entering the lower connecting rod head of the material advance mechanism. The nodes for adjusting the stitch length and the differential value have arcuate two-arm levers pumped on the axis and sliders. The latter are included in the arcuate groove of the arcuate levers and have holes under the axis containing pins at one end and mounting rings and leaf springs at the other end. The pins are in contact with the grooved surfaces of the arched two-arm levers. The power circuit between them is provided by leaf springs. Levers-handles are put on adjusting rings. The front end of the lever arms is pivotally connected to the lever arms, and the far end provides adjustment of the stitch length or differential value and is free. The main and differential rails are fixed on the lever-holders. The presented design of the knots for adjusting the length of the stitch and the differential makes it possible to make the parts of the two knots the same, which simplifies the manufacture of the machine, and the kinematic connection of the differential rail with an eccentric is not only simpler and less multi-link, but also independent of the knot for regulating the length of the stitch, i.e. . the course of the main rail. Independent adjustment of the stitch length and the differential value allows the material to be striated or stretched in the stitch formation area at different lengths.

 The lever holder of the differential rail extends with its front end in the slot of the machine platform. The reverse ends of the lever-holders of the differential and the main rails pass through the wings, pivotally connected to the eccentrics of the advance mechanism, and also enter the wings mounted in the platform of the machine on an eccentric axis. Using the slots in the platform as a guide for the movement of the lever-holder of the differential rail, as well as the link, pivotally connected to the eccentrics, and the link mounted on the eccentric axis to direct the movement of the lever-holders of the main and differential rails allows you to stabilize the values of the gaps between the rails and slots needle plate.

 The presser foot of the material clamping mechanism is mounted on a lever pivotally connected through a horizontal axis to a stationary lever. The latter is rigidly fixed in the machine body with a screw with a rod, on which the spring is fixed with a knurled nut. At the lower end, the shaft has a thinning with a protrusion. Thinning in diameter is performed over a length equal to or greater than the difference between the required and maximum permissible values for lifting the presser foot in total with the thickness of the lever in cross section at the point of contact with the shaft. A bracket is mounted in the upper part of the shaft in contact with the eccentric axis, rigidly connected to the presser foot lifting lever.

 The stability of the position of the presser foot relative to the needle during operation of the machine is ensured by the use of two levers, one of which is attached to the foot, and the second is rigidly fixed with a hollow screw in the machine body, and the axis of the connection of the two levers is horizontal, away from the needle.

 The absence of collision between the foot and the upper looper during its lifting is ensured by the presence of a free vertical lift of the rod due to the presence of a thinning rod. When lifting the bar, the presser foot does not rise to its full height, i.e. by the necessary amount of lift, but only by its part, i.e. by the maximum permissible value, and its further rise is possible due to the impact on the presser foot of the material, the operator or in another way.

 The needle holder of the needle mechanism is connected in a sliding fit to the needle bar and is kinematically connected with a lever pivotally connected to the upper head of the connecting rod. The lower connecting rod head is mounted on the cam. The far end of the lever is mounted on an eccentric axis fixed in two rocker arms mounted on the axis. The needle bar is fixed in the machine body with two base washers, a nut and a counter washer. The needle bar diameter is less than the diameter of the hole in the machine body into which it enters by an amount greater or equal to the difference between the width of the groove in the needle plate through which the needle passes and the diameter of the needle blade.

 The necessary position of the needle in height in the mechanism is ensured by turning the eccentric axis in two rocker arms pumped on the axis.

 Because the needle is installed in the needle holder, which can move along the needle bar, rigidly fixed in the machine body, this reduces the mass of parts moving in the same direction with the needle, and therefore reduces the dynamic error of its position.

 The exact orientation of the needle along the hole of the needle plate is provided by the presence of a lateral gap between the needle bar and the hole in the machine body. This allows you to simplify the adjustment of mechanisms in the manufacture of the machine.

 The mechanism for trimming the edges of the material has a lower fixed and upper movable knives. The upper knife of the mechanism is fixed in the spring-loaded holder-guide screw from the side of the needle located in the lever-holder. The reverse end of the holder lever is pivotally connected to the axis of rotation of the two rocker arms of the needle mechanism. The holder lever is kinematically connected through the axis with the upper head of the connecting rod, the lower head of which is mounted on the eccentric of the trimming mechanism of the material edge.

 The use of a single axis, both for oscillation of two rocker arms of the needle mechanism holding the eccentric axis, and for making reciprocating movements of the lever-holder of the mechanism for trimming the edges of the material, simplifies the design of the machine.

 The width stability of the stitching is ensured by the location of the spring pressing the upper knife to the lower one on the holder-guide of the material edge trimming mechanism, since the mass of spring-loaded parts of the material edge trimming mechanism together with the upper knife is reduced. This is also facilitated by fixing the upper knife in the guide holder with a screw on the needle side.

 When switching from one type of stitch to another in the machine, it is possible to change the needles (one or two), the upper looper to the extender (if a double-thread overcasting stitch is formed) and the threading path of the lower looper. The needle holder has holes for installing two needles. In the mechanism of the upper looper, when the screw is released in the holder from the fastening of the upper looper, an expander can be installed.

 In the lower looper thread feeding device, a two-eyed thread feeder is used, mounted horizontally on the axis of the upper looper mechanism, and a fixed thread feeder installed between the thread feeder on the lower looper holder and the two-eye thread feeder in front of the axis of rotation of the upper looper mechanism. The use of a fixed thread guide in combination with a two-eye thread feeder allows you to change the threading paths of the lower looper thread, depending on the type of stitch being formed.

 The goal is achieved in that for the convenience of manufacturing a machine with various technological capabilities, the machine consists of two parts: a body and a platform, which, after assembling the mechanisms in them, are interconnected by three guide screws.

 In FIG. 1 is a kinematic diagram of a machine; in FIG. 2 - connection between the needle bar and the machine body; in FIG. 3 connection between an arched two-arm lever and a lever-handle in a material advancement mechanism; in FIG. 4 route of threading the lower looper; in FIG. 5 - docking of two parts of the machine body.

 The household grinding and tacking machine contains mounted on the housing 1 and platform 2 (Fig. 5) and receiving from the eccentrics installed on the main shaft 3 (Fig. 1) the movement of the main mechanisms: the needle mechanism, the mechanism for trimming the edges of the material, the mechanisms of the upper and lower loopers , the mechanism for promoting the material, the node clamp the material and the feed device.

 The needle mechanism comprises an eccentric 4 fixed on the main shaft 3 (Fig. 1), a connecting rod 5, a lever with an axis 6, pivotally connected to the eccentric axis 7 and the axis 8 connected to the needle holder 9, sliding along the needle bar 10, rigidly fixed in the housing 1 s using the nut 11 (Fig. 2), the base washers 12 and 13, and the counter washer 14. The diameter of the hole 15 in the machine body 1 for the needle bar 10 is greater than the diameter of the upper part of the needle bar by an amount equal to or greater than the difference between the width of the groove in the needle plate, through which passes the needle, and the diameter of the needle blade. This allows you to adjust the position of the needle bar 10 horizontally, placing the needle in the center of the groove of the needle plate of the machine, without violating the basic conditions for the interaction of the needle and loopers. The eccentric axis 7 (Fig. 1) is fixed with screws 16 and 17 on two rocker arms 18 and 19, pivotally mounted on the axis 20 and bounded from the longitudinal displacement by the retaining rings 21 and 22. After loosening the screws 16 and 17 during rotation of the eccentric axis 7, the needle is adjusted in height. In the needle holder 9, there are two holes for installing needles: one for installing a needle participating in the formation of a two-thread or three-thread overwrap stitch, and the second for a needle participating in the formation of a four-thread stitch.

 The structure of the trimming edge of the material includes: an eccentric 23, a connecting rod 24, a lever holder 25, pivotally connected to the axis 20, a holder-guide 26, with a screw 27 fixed to it, a disk 28 with a slot included in the pin 29 of the lever-holder 25 and displaced to the left by the spring 30. On the left end of the guide holder 26, the upper knife 31 is fixed on the needle side by a screw 32. The lateral displacement of the lever holder 25 is eliminated by the arrangement of the rocker arms 18 and 19 of the needle mechanism on the axis 20. By using the fastening of the upper knife 31 by the screw 32 on the needle side, the diameter d decreases the holder-holder 26, which has a thickening only on the left end, and its right part, longer, has a smaller diameter, which also helps to reduce the mass of the moving parts under the influence of the spring 30.

 The lower knife is fixed in the platform 2 of the machine.

 The machine contains two looper mechanisms: lower and upper.

 The mechanism of the lower looper contains an eccentric 33 mounted on the main shaft 3 and covered by the head of the connecting rod 34, the lower head of which is connected through a ball joint to the beam 35, mounted on the axis 36 of the lower looper. A holder 38 is fixed at the front end of the axis 37, in the hole of which a lower looper 39 is fixed with a screw.

 The upper looper mechanism comprises an eccentric 40 mounted on the main shaft 3 and covered by the connecting rod head 41, the lower head of which is connected via a ball connection to the beam 42, mounted on the axis 43, on the front end of which the lever 44 is mounted. The lever 44 is pivotally connected to the holder 45, pivotally connected to the link 46, and has an upper looper 47 mounted on the upper end. When making a double thread overcasting stitch, the machine installs and fastens in the holder 45 as well as the upper looper 47. When When double thread overcasting stitch is installed in the machine, the expander is installed and fastened in the holder 45 as well as the upper looper 47.

 The material advancement mechanism is made differential with two gear racks main 48 and differential 49.

 The rails 48 and 49 receive longitudinal movement from the eccentric 50 mounted on the main shaft 3. The rotation of the eccentric 50 into elliptical trajectories of the rails 48 and 49 is converted through a connecting rod 51, pivotally connected through the axis 52 to the arcuate two-arm levers 53 and 54, oscillating on the axis 55, fixed in the platform 2, the sliders 56 and 57 (Fig. 3) included in the arcuate grooves of the two-arm levers 53 and 54, through the articulation of the axles 58 and 59, spring-loaded with a leaf spring 60 and 61, having pins 62 and 63 included in grooves grooved surface dvuhplechih whith the arcuate levers 53 and 54 and passing through hole mounting rings 64 and 65, through-arm levers 66 and 67 and the holder-arms 68 and 69 are mounted on the rack 48 and the front ends of the levers 49, 68 their holders 69.

 The leaf springs 60 and 61 press the pins 62 and 63 against the corrugated surfaces of the two-arm levers 53 and 54. The arched grooves of the levers 53 and 54 include sliders 56 and 57, which move along them only when adjusting the stitch length or the differential value. On the smaller outer diameter of the mounting rings 64 and 65 are put on the lever arms 66 and 67 (Fig. 1), the free ends of which protrude beyond the platform 2 of the machine, which allows them to be moved by hand.

 The vertical movement of the rails 48 and 49 is received from the eccentrics 70 and 71, the wings 72 and 73, dressed on them, and which are pivotally connected to the lever-holders 68 and 69. The far ends of the lever-holders 68 and 69 are included in the rocker 74 mounted on the eccentric axis 75, secured by a locking screw 76 in the platform 2 of the machine. After loosening the screw 76 by rotating the eccentric axis 75, the required inclination of the rails 48 and 49 with respect to the surface of the needle plate is achieved, as well as the required degree of rise of the teeth of the rails 48 and 49 above the needle plate.

 The front end of the lever holder 68, on which the differential rail 49 is mounted, extends into the slot 77 of the platform 2 of the machine, which serves as an additional guide.

 The stitch length is adjusted by changing the position of the lever-handle 67 in the slot of the platform 2 of the machine, which affects the overall course of the main rack 48.

 By changing the position of the lever-handle 66 in the slot of the platform 2 of the machine, the required differential value is set, i.e. the ratio of the displacement of the main rail 48 to the displacement of the differential rail 49.

 This differential value may, with this design of the advance mechanism, have a much wider range of regulation, since the displacement of the lever-handle 66 in the arcuate two-arm lever 53 can be performed in a range greater than the displacement of the lever-handle 67 of the knot length adjustment unit in the lever 54 and, in addition, differential adjustment can be performed at different stitch lengths (different positions of the lever 67) for both collecting and stretching the material.

 In the nodes of the movement of the rails 48 and 49, the composition of the kinematic connections from the main shaft 3 to the working body (rails) is the same, which allows you to get close to the value of the error position of the rails during operation of the machine. Simpler kinematic connections between the eccentric 50 and the rails 48 and 49 can improve the reliability and stability of the mechanism.

 The material clamping mechanism consists of a presser foot 78 having a finger 79 fixed by a screw 80 and a plate 81 securing the presser foot 78 to the lever 82. The second end of the lever 82 is connected via a horizontal axis 83 to the stationary lever 84, which is rigidly fixed in the machine body 1 the hollow screw 85 with the help of the nut 86. The rod 87 enters the hollow screw 85, to which the bracket 89 is fastened with the screw 88 in the upper part, and the spring 90 is put on its lower end and is compressed by screwing the rolling nut 92 onto the rod 91. The lower end of the rod 87 ( Ig. 2) has a thinning in diameter with a protrusion along the length, which allows it to enter the groove of the lever 82, and when lifting the rod 87, release the spring 90 and raise the presser foot 78 (Fig. 1) by an amount not exceeding the allowable for the contactless movement of the upper looper 47. The length of the thinning of the rod 87 is equal to or greater than the difference between the necessary and maximum permissible values of the lifting of the presser foot 78 in total with the thickness of the lever 82 on which the presser foot 78 is attached.

 The lifting of the rod 87 is carried out by turning the lever 93 through the eccentric axis 94 and the bracket 89. The amount of rise of the foot 78 is controlled by changing the position of the bracket 89 on the shaft 87 after loosening the screw 88. The free play when lifting the shaft 87 (without raising the foot 78) is equal to the difference between the length of the rod 87 and the thickness of the lever 82, which allows you to release the processed material from pressing the foot 78 without significantly raising it. This is especially important for household overcasting machines, when the user can accidentally, with a raised foot, turn on the machine, which leads to breakage of the finger 79 or the upper looper 47.

 For threading the thread in the machine, tension regulators, thread guides installed on the machine body, and thread feeders mounted on the movable links of the mechanisms are used. The threading track 95 of the lower looper 95 (FIG. 4) has a movable thread feeder 96 with two eyes 97 and 98 mounted on an axis 43 of the upper looper mechanism on a line close to the horizontal, and a fixed thread guide 99 installed in front of the axis of pumping of the wings 46. Eyes 97 and 98 of the thread feeder 96 are located at different distances from the axis 43, which allows, by threading the thread in one or the other or both eyes, to change the total value of the feed thread and the feed law (feed chart). This achieves the desired thread feed pattern for various types of stitches formed by the machine.

 The machine consists of a casing 1 (Fig. 5) and a platform 2, which are interconnected by three screws 100, 101 and 102. In the casing 1 of the machine there are loop-forming mechanisms, as well as mechanisms for clamping the material and trimming the edges of the material with the exception of the lower knife, and in platform 2 material advancement mechanism and lower knife. The machine operates as follows.

 From the drive motor, movement is reported to the main shaft 3 (Fig. 1). The rotational movement of the eccentric 4 by means of the connecting rod 5 is converted into the oscillatory movement of the lever 6 and the rocker arms 18 and 19, which communicate the reciprocating movement of the needle holder 9 with needles along the needle bar 10.

 The rotational movement of the eccentric 23 by means of the connecting rod 24 and the lever-holder 25 is converted into the oscillatory movement of the holder-guide 26 and the upper knife 31 fixed in it and in constant contact with the lower fixed knife.

 The lower looper 39 receives oscillatory motion from the eccentric 33 through the connecting rod 34, the rocker 35, fixed on the axis 36, and the holder 38.

 The movement of the upper looper 47 or the extender is communicated from the eccentric 40 through the connecting rod 41, the beam 42 and the lever 44, mounted on the axis 43, as well as the holder 45 passing through the wings 46.

 The main 48 and differential 49 rails longitudinal movement is obtained through the eccentric 50, the connecting rod 51, two-arm arcuate levers 53 and 54, the lever arms 66 and 67 and the lever arms 68 and 69.

 The vertical movement of the rails is obtained from the eccentrics 70 and 71, the wings 72 and 73, worn on them, and which are pivotally connected to the lever holders 68 and 69, and the wings 74, mounted on the eccentric axis 75, at the far end of the lever holders rails.

 The differential movement of the rails 48 and 49 is obtained with a difference of the shoulders (ie, distances from the axes 58 and 59 to the common axis 55) of the levers 53 and 54. When the difference of the shoulders, both rails have the same longitudinal movement.

 An increase or decrease in the differential movement of the rails is achieved by turning the lever-handle 66 in the slot of the platform 2. When the lever 66 is raised above the lever 67, the machine will pick up the material, and stretch it in the opposite position. The set differential value allows the machine to perform a steaming operation (folding) and process materials with a high degree of elongation.

 The stitch length is adjusted by changing the position of the lever-handle 67 in the slot of the platform 2 of the machine, which affects the overall stroke of the main rack 48, and hence the length of the stitch in the stitch.

 Depending on the type of stitch being formed in the machine, one or two needles can be removed or installed, the upper looper 47 can be replaced with an extender (if a double-thread overcasting stitch is formed), which has a hook instead of an eye, and change the threading path of the lower looper thread 95. So, with the formation of a three-thread overcasting stitch of type 505 (with the thread of the lower looper tightened in the stitch), the thread of the lower looper has a thread only in the eye 97 of the thread feeder 96, and then to the thread feeder 103 on the holder 38 of the lower looper. When other types of stitches are formed, the thread 95 of the lower looper has a thread in the fixed thread guide 99, but with a four-thread sewing-basting stitch, it is tucked into the eye 98, and with a three-thread sewing-basting and two-thread overcasting in both eyes of the thread feeder 96. Changing the threading path 95 allows to achieve the required stability in the filament feed, and therefore in the formation of interlacing of threads in the stitch for various types of stitches formed.

 The above-described machine design provides ease of manufacture, facilitates control processes and adjustment of mechanisms. By increasing the stability of the machine mechanisms, a higher quality of tailoring and the appearance of products is achieved, technological capabilities are expanded, and since the machine has a differential feed, a special threading loop for the lower looper, can be sewn with one or two needles, it becomes possible to form both double-stitch and four-thread stitch and stitch-sewing and stitching stitches on sewing and knitwear on the machine.

Claims (8)

 1. Household grinding and tacking machine, containing eccentrics connected to the main shaft, mechanisms: needles, trimming the edges of the material with the lower fixed and upper movable knives, upper and lower loopers, moving the material with the lever-holders of the racks and connecting rod, one of the heads which is associated with one of the eccentrics installed on the main shaft, controlling the stitch length and the differential value, clamping the material and feeding the threads, characterized in that the mechanisms for regulating the stitch length and the amount of different They have a pair of arched two-arm levers with arched grooves and grooved surfaces on the levers facing one another, sliders placed in the arched grooves of the levers, spring-loaded to the grooved surfaces of the two shoulders levers, pins, mounting rings with one-arm levers and one free pivotally connected to the arms of the rails, while the two-arm arched lever is pivotally mounted on the machine body via a common axis.  2. The machine according to claim 1, characterized in that the presser foot of the material clamping mechanism is pivotally connected to the machine body by means of a lever and the horizontal axis of the hinge, and the core of the material clamping mechanism has a thinning in the lower part in diameter with a protrusion of a length greater than or equal to the difference between the necessary and maximum permissible values for lifting the presser foot in total with the thickness of the lever on which the presser foot is attached, and in the upper part it is connected via the bracket and an eccentric axis to the lever for lifting the presser foot, etc. and this associated with the spring knurled nut of the clamping mechanism of the material is placed on the rod under the spring.  3. The machine according to claim 1, characterized in that the needle holder of the needle mechanism is connected by a sliding fit to the needle bar and is kinematically connected to a lever pivotally connected via an axis to the upper head of the connecting rod of the needle mechanism, the lower head of which is clipped to an eccentric, while the far end of the lever is mounted by means of an eccentric axis mounted on two rocker arms mounted on an axis passing in the machine body.  4. The machine according to claim 1, characterized in that the upper knife of the trimming mechanism of the material edge is fixed in the spring-loaded holder-holder with a screw from the side of the needle located in the holder-holder, the reverse end of which is pivotally connected to the axis passing in the machine body and having installed there are two rocker arms of the needle mechanism, while the holder arm is kinematically connected through the axis with the upper connecting rod head of the trimming mechanism of the material edge.  5. The machine according to claim 1, characterized in that the lower looper thread feeding mechanism has a two-eye thread feeder horizontally mounted on the axis of the upper looper mechanism, and a fixed thread guide installed between the two-eye thread feeder and the thread feeder mounted on the lower looper holder.  6. The machine according to claim 1, characterized in that the machine has a housing and a platform interconnected by screws.  7. The machine according to claim 1, characterized in that the front end of the holder-holder of the differential rack is placed in the slot of the platform of the machine, and the other end of the lever-holder of the differential rack is placed in the groove of the wings mounted in the platform of the machine on an eccentric axis.  8. The machine according to claim 1, characterized in that the needle bar is installed in the machine body using two base washers, nuts and counter washers, while the diameter of the hole for the passage of the needle bar in the body is larger than the diameter of the needle bar by an amount equal to or greater than the difference between the width of the groove for the passage of the needle and in the needle plate and the diameter of the needle blade.

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