CN207159495U - A kind of computer knits neck straight-bar machines mountain plate - Google Patents

Abstract

The utility model discloses a kind of computer to knit neck straight-bar machines mountain plate, the degree mesh triangle A, degree mesh triangle B and spandex degree mesh triangle coordinate with the guide groove in cam base plate to be slidably connected, the motor A passes through cam degree of control mesh triangle A, mesh triangle B is spent to slide along the guide groove in cam base plate, the electromagnet C controls spandex degree mesh triangle to be slided along the guide groove in cam base plate by lever, the knitting cam, rise cam, stitch rise cam, spandex stitch rise cam and spandex rise cam are set with cam base plate activity, the motor B controls knitting cam by lever, rise cam, stitch rise cam is up and down, the spandex stitch rise cam is controlled up and down by electromagnet A and electromagnet B by lever respectively with spandex rise cam.The computer knits neck straight-bar machines mountain plate, can be achieved not knit, lopping, the four kinds of elemental motions of tuck and spandex tuck, can especially realize lopping and spandex tuck while work, braid efficiency height.

Description

A kind of computer knits neck straight-bar machines mountain plate

Technical field

The utility model belongs to knitting technology field, and in particular to a kind of computer knits neck straight-bar machines mountain plate.

Background technology

Straight-bar machines mountain plate is one of important component on knitting machine, and its quality to knitting has important influence.Existing electricity Brain knit neck straight-bar machines mountain plate exist braid efficiency it is low and it is more difficult knit out complexity flower pattern the problem of.

Utility model content

The purpose of this utility model is that providing a kind of computer knits neck straight-bar machines mountain plate, to solve to propose in above-mentioned background technology The problem of.

To achieve the above object, the utility model provides following technical scheme：A kind of computer knits neck straight-bar machines mountain plate, including degree Mesh triangle A, degree mesh triangle B, spandex degree mesh triangle, motor A, electromagnet C, knitting cam, rise cam, stitch rise cam, Spandex stitch rise cam, spandex rise cam and motor B, degree mesh triangle A, degree mesh triangle B and the spandex degree mesh triangle Coordinate with the guide groove in cam base plate and be slidably connected, the motor A is by cam degree of control mesh triangle A, degree mesh triangle B along three Guide groove on the bottom plate of angle is slided, and the electromagnet C controls spandex degree mesh triangle along the guide groove in cam base plate by lever Slide, the knitting cam, rise cam, stitch rise cam, spandex stitch rise cam and spandex rise cam and three Angle bottom plate activity is set, and up and down perpendicular to cam base plate plate face, and the motor B controls knitting cam by lever, risen Pin triangle, stitch rise cam are up and down, the spandex stitch rise cam and spandex rise cam respectively by electromagnet A and Electromagnet B is controlled up and down by lever.

Further, herringbone triangle, shield pin triangle, right guide pin triangular, stitch guide pin three are fixed with the cam base plate Angle A, stitch guide pin triangular B and left guide pin triangular.

Further, the knitting cam and rise cam are provided with two operating positions, the stitch rise cam, spandex Stitch rise cam and spandex rise cam are provided with an operating position.

Technique effect of the present utility model and advantage：The computer knits neck straight-bar machines mountain plate, can be achieved not knit, lopping, tuck with And the four kinds of elemental motions of spandex tuck, it can especially realize lopping and spandex tuck work textile efficiency high simultaneously.

Brief description of the drawings

Fig. 1 is positive structure schematic of the present utility model；

Fig. 2 is structure schematic diagram of the present utility model；

Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9 and Figure 10 are different working condition schematic diagram of the present utility model.

In figure：1 cam base plate, 2a degree mesh triangle A, 2b degree mesh triangles B, 3 herringbone triangles, 4 knitting cams, 5 rise cams, 6 shield pin triangles, 7 right guide pin triangulars, 8a stitch guide pin triangular A, 8b stitch guide pin triangulars B, 9 stitch rise cams, 10 spandex pins Pin rise cam, 11 left guide pin triangulars, 12 spandex rise cams, 13 spandex degree mesh triangles, 14 motor A, 15 motor B, 16 electromagnetism Iron A, 17 electromagnet B, 18 electromagnet C.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

A kind of computer that the utility model provides as shown in Figure 1-2 knits neck straight-bar machines mountain plate, including degree mesh triangle A 2a, degree Mesh triangle B 2b, spandex degree mesh triangle 13, motor A 14, electromagnet C 18, knitting cam 4, rise cam 5, stitch withdrawal of needle three Angle 9, spandex stitch rise cam 10, spandex rise cam 12 and motor B 15, degree mesh triangle A 2a, degree mesh triangle B 2b And spandex degree mesh triangle 13 is slidably connected with the guide groove cooperation in cam base plate 1, the motor A 14 is controlled by cam Mesh triangle A 2a, degree mesh triangle B 2b is spent to control by lever along the guide groove slip in cam base plate 1, the electromagnet C 18 Spandex degree mesh triangle 13 slides along the guide groove in cam base plate 1, the knitting cam 4, rise cam 5, stitch rise cam 9th, spandex stitch rise cam 10 and spandex rise cam 12 are set with the activity of cam base plate 1, and perpendicular to the plate of cam base plate 1 Face is up and down, and the motor B 15 controls knitting cam 4, rise cam 5, stitch rise cam 9 up and down by lever, The spandex stitch rise cam 10 passes through lever control by electromagnet A 16 and electromagnet B 17 respectively with spandex rise cam 12 Make up and down, herringbone triangle 3, shield pin triangle 6, right guide pin triangular 7, stitch guide pin triangular A are fixed with the cam base plate 1 8a, stitch guide pin triangular B 8b and left guide pin triangular 11, the knitting cam 4 and rise cam 5 are provided with two operating positions, The stitch rise cam 9, spandex stitch rise cam 10 and spandex rise cam 12 are provided with an operating position.

A kind of computer provided by the utility model knits neck straight-bar machines mountain plate, can be achieved not knit, lopping, tuck and spandex tuck Four kinds of elemental motions, degree mesh triangle A 2a, degree mesh triangle B 2b, spandex degree mesh triangle 13 are slidably connected with cam base plate 1, It can be slided along the guide groove in cam base plate 1, wherein, degree mesh triangle A 2a, degree mesh triangle B 2b pass through cam by same motor Control is slided, and for the density domination of fabric, spandex degree mesh triangle 13 is controlled by lever by an electromagnet and slided, for ammonia The density domination of synthetic fibre yarn；Herringbone triangle 3, shield pin triangle 6, right guide pin triangular 7, stitch guide pin triangular A 8a, stitch guide pin three Angle B 8b, left guide pin triangular 11 are fixed in cam base plate 1；Knitting cam 4, rise cam 5, stitch rise cam 9, spandex pin Pin rise cam 10, the embedding company of the activity of spandex rise cam 12 and cam base plate 1, can perpendicular to the upper and lower activity of cam base plate plate face, Wherein knitting cam 4, rise cam 5 have two operating positions, remaining have an operating position；Knitting cam 4, rise cam 5, Stitch rise cam 9 controls upper and lower activity, spandex stitch rise cam 10, spandex rise cam by same motor by lever 12 control upper and lower activity by an electromagnet by lever respectively.

As shown in figure 3, lopping weaves：Knitting cam 4, rise cam 5 are in the first operating position（Protrude into highest order Put）, when stitch rise cam 9, spandex stitch rise cam 10, spandex rise cam 12 are in off-position, knitting, stitch Cam Track is as shown in X1, Y1, knitting needle lopping braiding.Wherein, off-position is moved on on spandex degree mesh triangle 13, to knitting needle not Generation acts；Mesh triangle A 2a, degree mesh triangle B 2b are spent according to fabric demand adjusting position, control Density.

As shown in figure 4, stitch lopping weaves：Knitting cam 4 is in the first operating position（Protrude into extreme higher position）, stitch Rise cam 9 is in operating position, and rise cam 5, spandex stitch rise cam 10, spandex rise cam 12 are in inoperative position When putting, as shown in X2, Y2, knitting needle promotes lopping to weave by stitch for knitting, stitch Cam Track.Wherein, spandex degree mesh triangle 13 On move on to off-position, do not produce action to knitting needle；Spend mesh triangle A 2a, degree mesh triangle B 2b adjust position according to fabric demand Put, control Density.

As shown in figure 5, tuck knitting：Rise cam 5 is in the first operating position（Protrude into extreme higher position）, knitting cam 4th, when stitch rise cam 9, spandex stitch rise cam 10, spandex rise cam 12 are in off-position, knitting, stitch are walked Pin track is as shown in X1, Y1, knitting needle tuck knitting.Wherein, off-position is moved on on spandex degree mesh triangle 13, knitting needle is not produced It is lively to make；Mesh triangle A 2a, degree mesh triangle B 2b are spent according to fabric demand adjusting position, control Density.

As shown in fig. 6, stitch tuck knitting：Stitch rise cam 9 is in operating position, knitting cam 4, rise cam 5, When spandex stitch rise cam 10, spandex rise cam 12 are in off-position, knitting, stitch Cam Track such as X4, Y4 institute Show, knitting needle promotes tuck knitting by stitch.Wherein, off-position is moved on on spandex degree mesh triangle 13, knitting needle can not produced Make；Mesh triangle A 2a, degree mesh triangle B 2b are spent according to fabric demand adjusting position, control Density.

As shown in fig. 7, principle of readjustment, restructuring, consolidation and improvement lopping braiding, low pin are not knitted：Knitting cam 4, rise cam 5 are in the second operating position （Protrude half position）, stitch rise cam 9, spandex stitch rise cam 10, spandex rise cam 12 are in off-position When, as shown in X5, X5', Y5, high knitting needle lopping braiding, low knitting needle are not knitted for high knitting, low knitting needle, stitch Cam Track.Wherein, Off-position is moved on on spandex degree mesh triangle 13, does not produce action to knitting needle；Spend mesh triangle A 2a, degree mesh triangle B 2b according to Fabric demand adjusting position, control Density.

As shown in figure 8, principle of readjustment, restructuring, consolidation and improvement lopping braiding, low pin tuck knitting：Knitting cam 4 is in the second operating position（Protrusion one Half position）, rise cam 5 is in the first operating position（Protrude into extreme higher position）, stitch rise cam 9, spandex stitch withdrawal of needle When triangle 10, spandex rise cam 12 are in off-position, high knitting, low knitting needle, stitch Cam Track such as X6, X6', Y6 institute Show, high knitting needle lopping braiding, low knitting needle tuck knitting.Wherein, off-position is moved on on spandex degree mesh triangle 13, to knitting needle not Generation acts；Mesh triangle A 2a, degree mesh triangle B 2b are spent according to fabric demand adjusting position, control Density.

As shown in figure 9, lopping ammonification synthetic fibre tuck knitting：Knitting cam 4, rise cam 5 are in the first operating position（Protrusion To extreme higher position）, spandex rise cam 12 is in operating position, and stitch rise cam 9, spandex stitch rise cam 10 are in non- During operating position, as shown in X7, Y7, knitting needle lopping braiding followed by carries out spandex tuck knitting for knitting, stitch Cam Track.Its In, operating position is moved on on spandex degree mesh triangle 13, knitting needle is pushed tuck；Spend mesh triangle A 2a, degree mesh triangle B 2b according to Fabric demand adjusting position, control Density.

As shown in Figure 10, stitch lopping adds stitch spandex tuck knitting：Knitting cam 4 is in the first operating position（Protrusion To extreme higher position）, stitch rise cam 9, spandex stitch rise cam 10 are in operating position, rise cam 5, spandex withdrawal of needle three When angle 12 is in off-position, as shown in X8, Y8, knitting needle promotes lopping braiding to be followed by by stitch for knitting, stitch Cam Track Carry out spandex tuck knitting.Wherein, operating position is moved on on spandex degree mesh triangle 13, knitting needle is pushed tuck；Spend mesh triangle A 2a, degree mesh triangle B 2b control Density according to fabric demand adjusting position.

Finally it should be noted that：Preferred embodiment of the present utility model is the foregoing is only, is not limited to this Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art For, it can still modify to the technical scheme described in foregoing embodiments, or to which part technical characteristic Progress equivalent substitution, all within the spirit and principles of the utility model, any modification, equivalent substitution and improvements made etc., It should be included within the scope of protection of the utility model.

Claims (3)

1. a kind of computer knits neck straight-bar machines mountain plate, including degree mesh triangle A（2a）, degree mesh triangle B（2b）, spandex degree mesh triangle（13）、 Motor A（14）, electromagnet C（18）, knitting cam（4）, rise cam（5）, stitch rise cam（9）, spandex stitch withdrawal of needle three Angle（10）, spandex rise cam（12）With motor B（15）, it is characterised in that：The degree mesh triangle A（2a）, degree mesh triangle B（2b） And spandex degree mesh triangle（13）With cam base plate（1）On guide groove coordinate be slidably connected, the motor A（14）Pass through cam Degree of control mesh triangle A（2a）, degree mesh triangle B（2b）Along cam base plate（1）On guide groove slide, the electromagnet C（18）It is logical Cross lever control spandex degree mesh triangle（13）Along cam base plate（1）On guide groove slide, the knitting cam（4）, withdrawal of needle three Angle（5）, stitch rise cam（9）, spandex stitch rise cam（10）And spandex rise cam（12）With cam base plate（1）It is living It is dynamic to set, and perpendicular to cam base plate（1）Plate face is up and down, the motor B（15）Knitting cam is controlled by lever（4）、 Rise cam（5）, stitch rise cam（9）It is up and down, the spandex stitch rise cam（10）With spandex rise cam （12）Respectively by electromagnet A（16）With electromagnet B（17）Controlled by lever up and down.

2. a kind of computer according to claim 1 knits neck straight-bar machines mountain plate, it is characterised in that：The cam base plate（1）It is upper solid Surely there is herringbone triangle（3）, shield pin triangle（6）, right guide pin triangular（7）, stitch guide pin triangular A（8a）, stitch guide pin triangular B（8b） And left guide pin triangular（11）.

3. a kind of computer according to claim 1 knits neck straight-bar machines mountain plate, it is characterised in that：The knitting cam（4）With rise Pin triangle（5）Provided with two operating positions, the stitch rise cam（9）, spandex stitch rise cam（10）And spandex rises Pin triangle（12）Provided with an operating position.