RU2068464C1 - Needle of sewing machine - Google Patents

Abstract

FIELD: designs of needles of sewing machines. SUBSTANCE: needle of sewing machine consists of rod with groove. Rod lower part provided with cut has ear and point with cut which is ended in blunting with cuts-notches on it. EFFECT: extended functional capabilities in producing new kind of compressed relief with microringing of the face surface by tightening the warp and weft yarns in the course of fabric deformation but not with stitch thread. 5 dwg

Description

 The invention relates to constructions of needles of sewing machines.

 A known needle design of sewing machines, consisting of a rod, including a thinned part, turning into the tip of the bulb, ending with the end face. The eyelet is located at the tip, which serves to thread the thread.

 The aim of the invention is to create a needle that performs not only the stitching of tissues, but also changes the relief, i.e. expanding the technological capabilities of the needle.

 In FIG. 1-4 shows the design of the needle of the sewing machine on the working surface of which: a cylindrical and conical notch and a notch-notch deforms the oval surface, which has become the working area in three parameters: on the cylindrical rod, the conical point and the smaller (working) base of the truncated cone.

 In FIG. Figure 5 shows the types of compressed relief due to deformation of the fabric into a fit (the moment of thickening and densification of the fabric, including warming) and fixing it by natural tightening of warp and weft threads, rather than stitch threads, with an increased range of micro-ringing (micro-tuberosity) on the front surface of the relief, as well as pile formation on the wrong side in the puncture sites (the moment of thickening of the fabric, including warming).

 Figure 4 shows a close-up not only one of the working areas of the sewing machine, the most active, in comparison with other areas, in the formation of a compressed relief, namely: a smaller (working) base of a truncated cone located perpendicular to the longitudinal axis of the needle, with increased the degree of roughness formed by the notch, identical to the laser processing of E imp and changing it with an advantage (without the formation of reflows, but also destroying unwanted reflows that prevent the formation of a compressed relief), and also presented high working areas that were not previously involved in the formation of a compressed relief, namely, the cylindrical surface of the rod with various types of notches applied on its oval surface: narrow, medium, wide, deforming ovality into hooks that engage the fabric threads (warp and weft) when the full cycle of the needle of the sewing machine, as well as the surface of the conical point, its working area, in the form of a truncated pyramid, with notches-notches applied to it with full through and partial notches notches.

 The total working perimeter of the edge expresses the perimeter of each working area: the cylindrical surface of the rod, the lateral surface of the truncated cone, as well as the smaller (working) base, and in the drawing it is expressed in a linear image by the contour, covers the cylindrical part turning into a truncated cone with a smaller (working) base which is separated from the cylinder by the upper edge of the eyelet.

 The type of rough-grasped working surface is arbitrary.

 The proposed design consists of a rod 1, in which the larger and smaller grooves 2 are located, on the surface of the rod, including the larger groove, there are arbitrarily notches 3, an eye is located in the lower part of the rod, the upper edge of which separates the surface of the rod from the tip 4, the conical oval tip 5 , the working surface on the conical point: a smaller (working) base 6, notches, notches on the conical point, forming a working double perimeter of the notch 7. The upper part of the rod passes into the flask 8, which ends with the end O. (C three working areas: cylinder, cone, smaller (working) base of the truncated cone).

Based on the needle of a sewing machine with dimensions: l 39 mm, l ₁ 33.9 mm, d 1.5 mm. Model: 0277-33. The design of the bulb is 0.1, the design of the rod 02, the execution of the tip 02. The shape of the tip is round normal.

 A needle of a sewing machine whose working surface (cylindrical - a core, a tapered tip and a smaller (working) base of a truncated cone in the form of a blunting) is subjected to machining by the notch method (narrow, medium, wide), which are arranged arbitrarily on the cylindrical surface: symmetrically or asymmetrically, but with the prerequisite for the location of the microprotrusions with the hooks up, which carry out (in the second period of the full cycle of the sewing machine needle) engagement of the warp and weft threads while the needle Wayne machine up. When the needle of the sewing machine is working, they are actively involved in: a smaller (working) base of the truncated cone (since it is directed perpendicular to the surface of the fabric), as well as the lateral surface of the truncated cone with notched notches on it, located at an angle to the surface of the fabric, and cylindrical , with notches on it. But when the sewing machine needles move upwards, these zones become neutral if the microprotrusion hooks are directed only downward, in this position they engage the fabric threads (warp and weft) when the needle moves downward. And only when the notches are located with the hook points on the microprotrusions at the same time: both up and down, the needle of the sewing machine is operated in the direction of movement (down up).

 With the increase in working areas by the notch method, a common perimeter of the working area is formed along with the formation of the perimeter of each working area separately.

 Moreover, the entire working surface of the needle of the sewing machine, including the smaller (working) base of the truncated cone, has a roughness corresponding to 5-7 frequency classes.

The decisive parameters for fulfilling the new function of the needle of the sewing machine processed by the notch method of the Imim laser in creating a compressed relief are:
1. Parameters of a tenacious surface with an increased degree of roughness formed by the most active elements of the notch: hooks on the microprotrusions of micro-humps and micro-humps, formed by the shear of the metal from the inside of the cut on both sides of the cut at the time of applying the notch to the ovality of the cylindrical and conical surface, which is deformed, thus becoming working zones, but less active in comparison with the smaller (working) base of the truncated cone, located, in contrast to the lateral surface of the truncated cone, rpendikulyarno longitudinal axis of the needle.

 2. The total perimeter of the entire working area, as well as each working perimeter of the zone.

 3. A variety of types and shapes and sizes of notches and notches, notches located perpendicularly and at an angle to the longitudinal axis of the needle of the sewing machine, as well as to the working surface.

 4. The values of the optimal parameters of the truncated cone, the outer generatrix of the lateral surface of the outer truncated cone, as well as the smaller (working) base of the truncated cone.

 5. The roughness of the entire working surface.

 It was experimentally established that the values and their (significant) parameters of the working surface of the needle of the sewing machine treated with a notch in obtaining a compressed relief due to deformation of the fabric and fixing it by natural tightening with warp and weft threads (rather than stitch threads) with an increased range of micro-ringing of threads are optimal warp and weft on the front surface of the relief with identity and advantage in the structure of the formation of the relief from exposure to the tissue with a working surface exposed to laser Eimp processing, which is a substitute for notching, breaking oval surface where it is formed (nadseka place) to form an enhanced degree of surface roughness to advantage without drop-shaped oval spliced on the deformed metallic surface metal shift laterally in place and dissecting around it.

Optimal parameters:
1. The value of the through-notch-notch (with a partial notch by a notch) in a linear form, passing through a triangle along a part of the conical surface of the tip adjacent to the edge, and through the perimeter of the platform edge (in the form of a smaller (working) base of the truncated cone) a) l + l ₁ + r; b) l + l ₂ + 2/3 r; c) l + l ₃ + 1/3 r for a partial notch; and d) l + l ₁ + 2r (d) for full through, where l and l ₁ , l ₂ and l _{3 are the} corresponding generators of the truncated cone, and r is the radius of the circle the base of the cone.

 2. The value of notches-notches on the smaller (working) base of the truncated cone (with a partial notch): when the diameter is: 0.35 / 2 1.4 / 2 mm with a radius.

радиуса: P

2l (усеченного конуса) +

(или

радиуса, или 2r (d) при частичном надрезе насечкой. Р (усеченного конуса) 2l (усеченного конуса) + 2r (d) при полном сквозном надрезе.3. The perimeter of the working surface with a partial notch-notch, combining an notch-notch along the outer generatrix of the outer truncated cone with an notch-notch passing along the radius of the smaller (working) base of the truncated cone and coinciding with it completely or partially within:

radius: P

2l (truncated cone) +

(or

radius, or 2r (d) with a partial notch notch. P (truncated cone) 2l (truncated cone) + 2r (d) with a complete through cut.

 4. Additional notches-cuts on the smaller (working base) and other shapes in the form of parallel straight lines located both vertically and horizontally, as well as a grating (mesh) with mutually perpendicular intersection of horizontal and vertical lines and the formation of right angles when crossing, also obtuse, sharp corners, as well as the application of additional notches-notches located arbitrarily (randomly) on the surface of the smaller (working) base of the truncated cone in the form of broken lines (dashed lines) and other shapes about mations and operating on a smaller basis of the truncated cone-shaped offset krestoobrazovany incisions in addition to the notch-formed at full through cut and partial cut-notch.

 5. The diameter of the smaller (working) base of the truncated cone is 0.35-1.4 mm.

 6. The value of the length of the notch-notch, passing along the line of the generatrix on the outer side surface of the truncated cone (the external conical generatrix with a complete through-notch-notch): 0.5-2.2 mm including a partial notch.

, или

при частичном надрезе).7. The perimeter of the working surface of the notch-notch, located on the outer lateral surface of the truncated cone with a through notch of the notch, including: the line of the notch-notch passing along the generatrix of the surface of the truncated cone connected to the line of the notch-notch passing along the diameter of the smaller (working) base and reconnecting with the notch-notch line, passing along the generatrix of the lateral surface of the truncated cone only in the up and not down direction, as it was at the beginning of the formation of the notch-notch perimeter, laid on the working surface of the conical point (with a complete through cut): P 2l (truncated cone) + 2r (d). P 2l (truncated cone) + 2r (or

, or

with partial incision).

8. The length of the working surface of the rod (cylinder), processed by a notch: l (rod) l ₁ l (flask); l (rod) 33.9 mm 12 mm 21.9 mm.

9. The number of notches, notches on the working surface:
a) conical point: 1-4 with a complete through-cut notch, 2-8 - with a partial notch notch;
b) notches on the cylindrical surface of the rod 1-5;
c) in a blunt area; 2 crossed crosses from 2 to 10 parallel lines, strokes: 1-10 (options);
d) on a smaller (working basis): 1-12, 2-14.

 e) the difference between notches, notches and notches in the form and technology of application.

 10. Elements of the notch: a) the place of the notch, dissected, the laying of sharp hooks on the microprotrusions in the area of microhumps, microhumps, microdepans, the perimeter of the notch, the length, height and width of the notch, the depth of the notch, the “pharynx” of the notch (in the form of a dihedral angle with a point in the depth of the notch, its bottom "grooves" recess), formed by the sides of the dissection with the continuation of the framed sides above the recess, on the surface, in the process of formation of strata at the moment of metal shift to the sides when the oval surface is cut)

11. The optimal, most active working elements of the notch are: sharp microseeks of microprotrusions in the zone of stratifications of microhumps and microhumps in the process of metal shear during dissection of ovality on the surface and the formation of working zones. Optimal elements of notches and notches:
a) notch-notches are located on a more active working area (conical point), located at an angle to the longitudinal axis of the needle, in comparison with the cylindrical zone of the rod, therefore, notch-notches have roughness with a limited degree of bedding on the sides adjacent to the edge of the notch-notches with hooks on microprotrusions and microprotrusions with a height equal to 0.31-0.61 nm, located along the perimeter of the edge of the working area, passing on the side surface of the outer truncated cone along the line of the generatrix (l) with a complete through cut and astichnom notch notch.

(радиуса с высотой острых зацепок микровыступов, равных 0,31-0,61 мм, при полном сквозном надрезе и частичном надрезе насечкой).b) Notches-notches located on the smaller (working) base of the truncated cone, matching the notch completely with the radius or partially in relation to:

(radius with a height of sharp hooks of microprotrusions equal to 0.31-0.61 mm, with a complete through notch and a partial notch notch).

 c) Additional notches-notches located on the smaller (working) base of the truncated cone in the amount of: 1-10 with the height of the sharp hooks of the microprotrusions equal to 4: 0.31 0.61 mm.

 d) Notches located on the least active zone, on the cylindrical surface of the rod (in comparison with other, more active zones: in this case, with a conical point and a smaller (working) base of the truncated cone) randomly (in combination of symmetry and asymmetry) in the amount 1-5 with a height of sharp microseeks of microprotrusions equal to 0.2-0.53 mm.

 12. The roughness of the overall working surface corresponds to 5-7 frequency classes.

(или

радиуса) или 2r (d) при частичном надрезе, где l длина, r радиус стержня, a d диаметр.13. The total perimeter of the entire working area, equal to: 2l (rod) + 2l (truncated cone) + d with a complete through-cut notch, 2l (rod) + 2l (truncated cone)

(or

radius) or 2r (d) with a partial notch, where l is the length, r is the radius of the rod, ad is the diameter.

 14. The location of the working areas of the needle of the sewing machine relative to the longitudinal axis of the needle and their differentiation depending on this: according to the degree of activity of the zones in the formation of the relief: a) the smaller (working) base of the truncated cone, its perpendicular arrangement is the most active zone; b) the lateral surface of the truncated cone on the tip is located at an angle to the longitudinal axis of the needle, a less active zone in comparison with the smaller (working) base of the truncated cone and a more active zone in comparison with the surface of the cylindrical shape of the needle shaft, which is considered a less active zone due to the parallel going longitudinal axis of the rod, but processed by a notch, has become a more active zone in the formation of a compressed relief.

 15. A notch-notch located on the conical point and notches located on the cylindrical surface of the rod, destroying ovality, deforming the surface, making it identical in roughness processed by the EIMP laser, with an advantage over the EIMP laser without the formation of drop-shaped fusion (directions) on the surface objects that impede, block relief formation and are therefore called: a neutral zone (in comparison with active working zones) in the formation of a compressed relief.

 Choosing the optimal surface values of the working part of the needle of the sewing machine (the most active in creating a relief without stitch: the area of the surface of the site of the smaller base (working) of the truncated cone and the contour of its edge, as well as the outer side surface of the outer truncated cone and the less active part, in comparison with the conical the tip surface, namely: the cylindrical surface of the needle shaft of the sewing machine), as well as the parameters of the needle and the optimal elements of the notches depending on the conclusions: i.e. notches, notches and notches, it is possible to obtain a new type of relief without the participation of stitch threads with micro ringing of warp and weft threads on the front surface of the relief, in combination with pile formation and the wrong side at the puncture sites.

 The needle works as follows.

 Even when pressure is applied to the fabric with the working surface: the smaller (working) base of the truncated cone, and then the conical surface of the tip and the cylindrical rod, treated with a notch, not only the fabric thread is tensioned, but its tip (microprotrusions) is also hooked from the notch, and then piercing is carried out by micro-ringing (to varying degrees) of threads and warp and weft: between the puncture lines and near the puncture sites on the front surface of the relief, the pattern of which is created by alternating puncture sites from the side the phenomena of the lines: at an angle parallel to the warp and weft.

 General characteristics of a compressed relief with micro ringing of warp and weft threads on the front surface.

 With micro-ringing (of varying degrees), the warp and weft threads are compressed by tightening, this contributes to the thickening of the fabric (compared to its processing), which is an additional property of the relief, except for the main one: tightening by natural tightening without the participation of the thread stitch.

For the purpose of rational use in increasing the productivity of the amount of compressed relief, the fabric is layered (one layer on another: from 2 to 4 layers). As a result, the following options are obtained:
1. When layering 2 layers and simultaneously piercing them, the relief pattern turns out to be identical not only on each layer, but also identical to the pattern when piercing one layer.

 2. When layering 3 layers and simultaneously piercing them, identical patterns on the two lower layers, and on the top, differs from the first two.

 3. When layering 4 layers of fabric: a) the identity of the pattern is observed on the lower two layers and is compared with the identity of the pattern when piercing one layer of fabric. On the two upper layers, the pattern, while piercing 4 layers, is identical on each layer, but differs from the pattern on the two lower layers, including when piercing one layer of fabric.

 The resulting new variety of compressed relief in a natural way by tightening the warp and weft (without stitch) with micro-ringing of varying degrees on the front surface is shown in Fig. 5 (a-d).

 5 (a) the formation of a compressed relief with micro-ringing on the front surface by means of spaced puncture lines at an angle to the warp and weft threads without stitches; tissue shrinkage is less than perpendicular piercing.

 5 (b) on the seamy side between the puncture lines, tightening due to deformation of the fabric. In places of puncture teasing due to warp and weft.

 5 (c) the formation of a compressed relief with increased areas of micro-ringing and with varying degrees of height of micro-ringing, on the front surface of puncture lines running parallel to the weft threads, and perpendicular to the warp, in which the shrinkage of the fabric is greater in percentage terms than when pierced at an angle.

 5 (d) Wrong side: at the puncture sites, pile formation is 90% of the warp, since the puncture line is parallel to the weft threads and perpendicular to the warp and partially weft threads.

 To obtain a compressed relief with an increased range of micro-ringing of warp and weft threads on the front surface without the participation of stitch threads, an atlas (elastic), a satin substitute (satin fabric) are used with both silk threads (warp and weft), and one silk, and the other is x / paper, as well as other silk and x / paper fabrics of medium density, also of medium thickness.

 Obtained using the proposed design of the needle of the sewing machine, in which all its rough-tenacious surface on 3 working zones is involved, treated with a notch, except for a bulb that is insulated with a cap, a new type of compressed relief is made by notching the working surface of the needle of the sewing machine. without the participation of stitch threads) with an increased range of ring formation of warp and weft threads on the front surface, can be used in light industry in the manufacture of garments, as well as finishes.

 Thus, the proposed design of the needle of the sewing machine, with an enlarged working surface (except for the working surface in the form of a smaller (working) base of the truncated cone and its edge with notches, the conical surface of the tip and the cylindrical rod participate) is involved in the formation of a compressed relief with micro ringing of the warp and weft threads on the surface of the relief in combination with pile formation at the puncture sites from the wrong side, and also sews.

Claims (1)

The needle of the sewing machine, consisting of a rod with a hole and an eye at one end, turning into a point with blunting, and a bulb, characterized in that the working surface (cylindrical and conical) is made by the notch method, and on a blunted area located perpendicular to the longitudinal axis of the rod, the diameter of which is 0.35 1.4 mm, notches in the form of notches are formed so that each notch-notch passes through a part of the conical surface of the tip adjacent to the perimeter of the edge of the site, passing a notch-notch through the perimeter of the edge and parts of the blunt pad in the corresponding symmetric and asymmetric arrangement of the notch-notches, while on the conical surface the notch-notch has an external generatrix height l in the range of 0.5 to 2.2 mm with a full through notch, and in the blunted area equal to r: 1 / 3r 1r, and the inner generatrix (l: l ₁ , l ₂ , l ₃ ) of the unbroken cone 1 is 0.6 0.78 (min) and 2.39 3.86 mm (max), while cross-shaped notches in the form of cross-shaped joints in the connection of up to 4 displaced crosses on the site, or in combination with the last and, additional notches-notches in diameter, while in addition to cross-shaped notches-notches on the site, parallel notches-notches (horizontal and vertical, horizontal-vertical in the form of a cage at an angle) can be made, as well as randomly located, and on the site with small diameter single notches, calculated randomly, including randomly located, while forming deep depressions, while the entire working surface of the needle of the sewing machine, including the blunted area, has a rough atost corresponding to May 7 purity grade.

Images