JP2012233274A - Flat-knitting machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a flat-knitting machine which can effectively resist a load in a crosswise direction acting on the upper part side of a needle plate.SOLUTION: A flat-knitting machine comprises: a plurality of plate grooves 12 arranged in parallel on a needle bed 1; needle plates 3 erected on the plate grooves 12, respectively; and knitting needles 2 arranged between the needle plates 3 adjacent to each other, respectively. On one side face of each of the needle plates 3, there are provided first to fourth protrusions 51-54 each projected to a position nearly in contact with the neighboring needle plate 3 on each one side face thereof to prevent the collapse of the needle plate 3 itself. The protrusions 51-54 are provided in mounting positions of a wire for positioning a needle jack 22, a select jack 23 and a selector 24 with respect to each of the needle plates 3, respectively.

Description

  The present invention relates to a flat knitting machine in which a needle plate is erected in each of a plurality of plate grooves arranged side by side on a needle bed, and a knitting needle is arranged between adjacent needle plates. This relates to a structure that prevents

  In this type of flat knitting machine, as the number of gauges increases, the pitch between adjacent knitting needles becomes finer, so that the thickness of each needle plate is also thinned and easily tilted in the horizontal direction (parallel arrangement direction).

  In Patent Document 1, a long plate fixing member is accommodated in a plate fixing groove extending in a direction orthogonal to the plate groove on the rear end side (opposite side of the mouth) of the needle bed and engaged with the plate fixing member. A fixing recess is formed on the lower surface of each needle plate. Then, as the plate fixing member is fixed from below with a bolt, a pressing force directed to the bottom of the plate fixing groove is applied to the fixing recess, whereby the needle plate is attracted to the plate groove and firmly fixed.

JP 2009-161870 A

  By the way, even if there is no problem during normal use, if the knitting speed (carriage traveling speed) increases, the lateral direction applied to the needle plate via the operation control members such as the needle jack, select jack, selector, etc. The load in the direction orthogonal to) increases.

  In this case, the conventional one can withstand the lateral load applied to the needle plate, but such a load acts on the upper side of the needle plate (the anti-plate groove side). For this reason, the needle plate is likely to bend, and there is a possibility that the needle plate may fall down due to an excessive load. Thus, a method for effectively resisting a lateral load has been desired.

  The present invention has been made in view of the above points, and an object of the present invention is to provide a flat knitting machine capable of effectively resisting a lateral load acting on the upper side of the needle plate. There is.

  In order to achieve the above object, according to the present invention, a plurality of plate grooves arranged side by side on the needle bed, needle plates provided upright in the plate grooves, and knitting needles disposed between adjacent needle plates. Assuming a flat knitting machine equipped with And the convex part which protrudes to the position which contact | abuts substantially with respect to the adjacent needle plate in each one side is provided in one side surface of each said needle plate.

  Moreover, it is preferable that the convex portion is provided at a position deviating from the locus during operation of the operation control member that controls the operation of each knitting needle.

  The convex portion may also be used as a positioning member for positioning the operation control member with respect to each needle plate in a needle groove between the adjacent needle plates.

  Furthermore, it is preferable that the convex portion is formed by pressing so as to bulge integrally from one side surface of each needle plate.

  According to the flat knitting machine according to the present invention, a convex portion that protrudes to a position substantially in contact with a needle plate adjacent to one side is provided on one side surface of each needle plate to prevent the needle plate from falling over. As a result, the lateral load acting on the upper side of the needle plate is sequentially released to the adjacent needle plate via the convex portion, and does not bend or fall down, effectively resisting the lateral load. can do. In addition, a simple configuration is required in which a convex portion is provided on one side surface of each needle plate.

  Further, by providing the convex portion at a position deviating from the trajectory during operation of the motion control member, the convex portion does not collide with the motion control member, and each knitting needle can be smoothly operated by the motion control member. .

  Further, by using the convex portion as the positioning member for positioning the operation control member with respect to each needle plate, the positioning member can be eliminated and the number of parts can be reduced.

  Furthermore, by projecting the convex portion integrally from one side surface of each needle plate by pressing, the convex portion can be obtained without using new parts, and the number of parts can be further reduced.

It is a vertical side view of the needle bed cut immediately after the plate groove in the flat knitting machine according to the embodiment of the present invention. FIG. 2 is a longitudinal side view of a needle bed cut just before the plate grooves in FIG. 1 are juxtaposed. It is sectional drawing in the AA of FIG.

  Next, preferred embodiments of the flat knitting machine of the present invention will be described below in detail with reference to the drawings.

  FIG. 1 is a longitudinal side view of a needle bed cut immediately after the plate grooves of the flat knitting machine are arranged side by side. FIG. 2 is a longitudinal side view of the needle bed cut just before the plate grooves are arranged side by side.

  The flat knitting machine of the present invention includes a plurality of plate grooves 12 arranged in parallel in the longitudinal direction of the needle bed 1 (the front and back in the drawing), and the needle plates 3 erected in the plate grooves 12 and adjacent to each other. And a knitting needle 2 disposed between the needle plates 3 and 3. One knitting needle 2 is disposed in each needle groove 11 formed between the needle plates 3 and 3 adjacent to each other on the needle bed 1. Each needle groove 11 is located in a space surrounded by the needle plates 3 and 3 adjacent to each other and the upper surface 10 of the needle bed 1. In FIG. 1 and FIG. 2, the movable sinker provided on the tooth opening g side (tip side) of the needle plate 3 is omitted.

  As shown in FIG. 2, a tip locking groove 13 extending in a direction orthogonal to each plate groove 12 is provided on the side of the needle bed 1, and a wire 41 is disposed inside the tip locking groove 13. Has been. A tip locking recess 31 for locking the wire 41 is provided on the side of the tooth opening g of each needle plate 3. Each needle plate 3 is fitted so as to be in contact with the deepest portion of the plate groove 12 in a state where an adhesive is applied to the bottom surface and the wire 41 is locked inside the tip locking recess 31. A V-shaped notch 32 is formed on the opposite side (rear end side) of the tooth opening g of each needle plate 3. Each needle plate 3 is fixed to the needle bed 1 by a wedge effect by striking and crimping the V-shaped notch 32 with a pointed member (not shown). That is, each needle plate 3 is pushed into the tooth opening g side.

  Each needle plate 3 is provided with an engagement groove 33 and an engagement hole 34 on the side of the tooth opening g. Each needle plate 3 is positioned by aligning a steel strip 42 and a wire 43 extending in the direction in which the needle plates 3 are juxtaposed into the engagement groove 33 and the engagement hole 34, respectively, so that the height is uniform.

  The knitting needle 2 includes a needle body 21, and a needle jack 22, a select jack 23, and a selector 24 as operation control members that control the operation of the needle body 21. The members 22 to 24 other than the needle main body 21 are configured to sink into the needle groove 11 when a pressing force by a cam, a presser, or the like acts on a bat provided on each of the members 22 to 24. The knitting needle 2 is configured such that the upper surface of the needle main body 21 is substantially in contact with the lower surface of the spacer 5 so that the knitting needle 2 is not detached from the needle groove 11 when performing a knitting operation that advances and retracts in the direction of the tooth g. The spacer 5 is positioned by engaging with the steel strip 42 and the wire 43, respectively.

  On the opposite side (left side in FIGS. 1 and 2) of the one side surface (front side surface in FIG. 1 and FIG. 2) of each needle plate 3 is the first to fourth convex portions 51 in order from the tip side. -54 are provided.

  3 is a cross-sectional view taken along line AA in FIG. As shown in FIG. 3, each of the convex portions 51 to 54 (only the third convex portion 53 is shown in FIG. 3) is located on the one side (right side in FIG. 3) until it is substantially in contact with the adjacent needle plate 3. It protrudes and prevents the needle plate 3 itself from falling down.

  Each convex part 51-54 is provided in the position which deviated from the locus | trajectory of the predetermined | prescribed operation | movement (advancement / retraction / lifting / sinking) of the needle jack 22, the select jack 23, and the selector 24, and a collision is avoided at the time of operation | movement of each said member 22-24. Is done. Specifically, each of the convex portions 51 to 54 is located at a wire attachment position where the needle jack 22, the select jack 23, and the selector 24 are conventionally positioned with respect to each needle plate 3 so as not to be detached from the needle groove 11. Provided. In short, each of the convex portions 51 to 54 is also used as a positioning member for positioning the needle jack 22, the select jack 23, and the selector 24 with respect to each needle plate 3 instead of the conventional wire.

  Each convex part 51-54 is formed by press work so that it may bulge integrally from one side of each needle plate 3. The convex portions 51 to 54 are formed such that the diameter s of one side surface of the bulging end that bulges to one side is larger than the diameter t of the concave edge of the other side surface recessed on the other side (left side in FIG. 3). Thus, when the knitting speed (carriage traveling speed) is increased, a lateral load acting on the upper side of the needle plate 3 is applied to the adjacent needle plate 3 via the respective convex portions 51 to 54. Sequentially escaped. In this case, formation of each convex part 51-54 by press work is performed simultaneously with the cutting process of each needle plate 3, or after a cutting process. In addition, the convex part may be comprised by attaching to each needle plate 3 the pin member etc. which protrude from the one side surface.

  An engagement groove 35 is provided above the second convex portion 52 of each needle plate 3. An engagement hole 36 is provided between the third convex portion 53 and the fourth convex portion 54 of each needle plate 3. Each needle plate 3 is positioned by aligning a steel strip 44 and a wire 45 extending in the direction in which the needle plates 3 are juxtaposed into the engagement groove 35 and the engagement hole 36, respectively, so that the heights are aligned. In addition, it may replace with a wire and the convex part may be formed also in the corresponding position of the engagement hole 36 of each needle plate 3. FIG.

  In the present embodiment, the lateral load acting on the upper side of each needle plate 3 is applied to each convex plate with a simple configuration in which the first to fourth convex portions 51 to 54 are simply provided on one side surface of each needle plate 3. The needle plates 3 that are adjacent to each other through the portions 51 to 54 are sequentially relieved and do not bend or fall down, and can effectively resist lateral loads.

  Further, by providing the convex portions 51 to 54 at conventional wire attachment positions, the control of the operation of the needle body 21 by the needle jack 22, the select jack 23, and the selector 24 collides with the convex portions 51 to 54. Can be carried out smoothly. In addition, by using the first to fourth convex portions 51 to 54 as positioning members for the needle jack 22, the select jack 23, and the selector 24, the positioning members can be eliminated and the number of parts can be reduced.

  Furthermore, each convex part 51-54 is obtained without using a new component by bulging the 1st-4th convex part 51-54 integrally from one side of each needle plate 3 by press work, The number of parts can be further reduced.

  The present invention is not limited to the above-described embodiment, and can be implemented without departing from the gist of the present invention. For example, in the above-described embodiment, the convex portions 51 to 54 are provided at the attachment positions of the wires for positioning the needle jack 22, the select jack 23, and the selector 24. From the locus of the operation of these members 22 to 24, A convex portion may be provided anywhere as long as it is out of position.

  Moreover, in the said embodiment, although the four convex parts 51-54 were provided in one side surface of each needle plate 3, the number of convex parts is not limited to this, Two or three or five It may be provided above.

1 Needle bed 11 Needle groove 12 Plate groove 2 Knitting needle 22 Needle jack (operation control member)
23 Select Jack (Operation control member)
24 selector (motion control member)
3 Needle plates 51-54 Convex

Claims (4)

In a flat knitting machine comprising a plurality of plate grooves arranged side by side on the needle bed, needle plates erected in the respective plate grooves, and knitting needles arranged between adjacent needle plates,
One side surface of each of the needle plates is provided with a convex portion that protrudes to a position substantially in contact with an adjacent needle plate on one side to prevent the needle plate itself from falling down. Knitting machine.   2. The flat knitting machine according to claim 1, wherein the convex portion is provided at a position deviating from a locus during operation of an operation control member that controls the operation of each knitting needle.   The flat knitting machine according to claim 2, wherein the convex portion is also used as a positioning member for positioning the operation control member with respect to each needle plate in a needle groove between the adjacent needle plates.   The flat knitting machine according to any one of claims 1 to 3, wherein the convex portion is formed by pressing so as to bulge integrally from one side surface of each needle plate.

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