Knitting machine

专利摘要:
, 1. A KNITTING MACHINE containing at least one needle bed, the needles of which are mounted with the possibility of reciprocating movement from the needle lock interacting with the stitches made on the needles, platinum, whose heads are located between the heads of the needles, and the rods are npk; interacting with the platinum lock for reciprocating movement / Rods by paying along the needles, and removing the lock with a curved working surface for the rock. The movement of the heads of the plates in the transverse movement of the needles is characterized in that, in order to increase the class of the machine by reducing the needle pitch, the needles are located directly between the rods of adjacent plates, which form guide grooves under the needles and needles. on the core of each platinum, from the inner side of it, there is a protrusion forming a swing bearing, contacting the working surface of the withdrawal lock, and the withdrawing lock is made in one piece with the needle of the needle bed and its working surface Speaking above the needle bar from the outside. (L i 2. The machine according to claim 1, about t and tea with sch. S. That the needle bed has stegs inserted into its base, the rods of platinum are located between the | shtami, and the needle rods rest on the end surface of the steg. 3. Maschina According to Claim 2, I distinguish 4 4 so that the rods of the platinum project in a radial direction; O) to the needle bed above the rods of the needles. to 1C
公开号:SU1144622A3
申请号:SU823507551
申请日:1982-10-29
公开日:1985-03-07
发明作者:Букк Альфред
申请人:Меммингер Гмбх (Фирма)；
IPC主号:

专利说明:

The invention relates to knit-and-naguennage and relates to both round and flat-bed needle machines.
A machine is known that contains at least one needle bed, the needles of which are installed with the possibility of reciprocating movement from the needle lock interacting with the stitches made on the needle rods, platinum, whose heads are located between the heads of the needles, and the rods carry webs interacting with a platinum lock for reciprocating movement of platinum rods along needles, and a withdrawal lock with a curvilinear working surface for rocking movement of platinum heads in transverse movement Ch PJ direction.
The aim of the invention is to increase the class of the machine by reducing the needle pitch.
The goal is achieved by c. The machine of the above type of needle rods are located directly between the rods of adjacent platinum, which form guide grooves under the needle rods, and on the rod of each platinum there is a protrusion on its inner side, forming a swing bearing in contact with the working surface of the outgoing, lock, The exit lock is made in one piece with the crown of the needle bed and its working surface protrudes above the needle bed from its outer side.
The machine may have a needle bed with stags inserted at its base, with the platinum rods located between the stags and the needle rods resting on the end surface of the steg.
The platinum rods may protrude radially to the needle bed above the needle pins.
The schematic shows the needle cylinder of the proposed circular machine with a lock box in FIG. 2 - the same, with a needle and a plate in axial section, the side view KYi in FIG. 3 is a section AA in FIG. 2, FIG. 4 - the needle cylinder of FIG. 1 is a plan view, cut-out in FIG. 5-7, the same as in FIG. 2, with three positions of a needle and a plate; in FIG. 3, the channel of the needle lock to the needle cylinder, top view; in FIG; 9, the channel of the platinum lock to the needle cylinder, top view.
The needle cylinder 1 of the circular filling machine is equipped with tongue needles 2 along its perimeter, which are parallel and have the ability to move in the longitudinal direction.
On the rods x 3 of the tongue needles 2 there are heaps 4, which engage with the channel 5 of the needle lock, forming a cam of the needle lock covering the needle cylinder 1 of the lock box 6, which is made multi-section. By means of driving elements (not shown), a relative rotational movement between the lock box 6 and the needle cylinder 1 is created. At the same time, the channel 5 of the needle lock informs the tongue needles 2 for the process of raising the connector and lowering.
Between the two tongue needles 2, there is a platinum 7, extending beyond the crown 8 of the needle cylinder and having a chin 9, a neck 10 and a cooler edge 11, each platinum 7 has a rod 1.2, with which it is located directly between the rods 3 of adjacent tongue needles 2 are guided on needle cylinder 1. For this purpose, needle sticks 13 are radially mounted on needle cylinder 1 (Fig. 3), made of wear-resistant material, creating a good friction pair with 3 needles and 12 platinum rods. The guide pins 13 are arranged at intervals of a needle pitch and form a radial support and a movement surface for the rods of the 3 needles. At the same time, they act on the lateral direction of movement on the basis of the needle-cylinder of the platinum rods 1, which form guide bridges for the rods of the three needles. Each rod 12 of platinum has a heel 14, which is guided into and controlled by the channel 15 of the platinum lock, which is made on the lock box 6, so that the plate 7 is imparted with respect to the movement of the needles.
On the needle cylinder 1, near the crown 8, there is a platinum withdrawal lock that is an inclined surface 16 directly screwed to the needle cylinder 1 and extending outwardly to the crown 8 of the needle cylinder, supported by a chin 17 on the cylinder 8. the rod 12. The withdrawal of the lock 16 assists the movement of the pay relative to the latching needles 2 radically outwardly at the withdrawal of the rods of 12 platinum, which is facilitated by the channel 15 of the platinum lock. In order to ensure that the chins 17 are permanently coupled with the exit lock 16, the rods 12 of platinum in the area of the exit lock 16 are under the action of the directional radiator inward towards the base of the needle cylinder of spring force, which is produced by two arranged around endless tension springs 18, laterally resting on protrusions 19 formed on rods 12 of platinum. The rods of 12 platinum are radiated out for a certain length over the rods of 3 needles,. so that the rods 3 of the needles can move independently of the springs 18 (Fig. 2). In order to prevent the platinum rods 3 from snapping in the area of the needle heads during the radial movement of the platinum 7 to the outside, they are in the region between the outgoing lock 16 and the crown 8 of the needle cylinder by the spring force generated by the spring 20 located around the guide rods 13 The 12 plates have an open groove 21, which ensures that the spring 2Q does not interfere with the movement of the plates 9 in the radial direction. Kruglov Zalna machine works eating 3 oboles. In the working position (figure 5), the zychkov needle -2 by channel 5 of the needle lock is brought to the most extreme position above the crown 8 of the needle cylinder. Adjacent platinum 7 is located on the needle cylinder, protruding above the rim, and the chin 9 and neck 10 are enclosed in a semi-finished looped row to 22. Emitted by channel 15 of the platinum lock, performs a counter movement, i.e. is output. At the same time, the chin 17 locates the inclined surface of the outgoing lock 16 on the inclined surface, as a result of which the platinum 7 moves in the direction of the arrow 23 but radiata outward, i.e. transversely to the needles 2. This transverse movement causes 24 primary stimulation to 1 1 out of pickup / 1k, h 9 and 1 eagle 11 to 10 platinum 7. This radial movement of the separate platinum 7 located adjacent to each other is shown in FIG. After dropping, a comparison of the cam trajectories of the needle lock-5 with the cam of the platinum lock 15 (Figures 8 and 9) occurs, a known weakening of the tension already formed in the Petepe, as can be seen from the mutual displacement of both cams 5 and 15. Then the zychkov needle 2 again moves to the conclusion. At the same time, the adjacent platinum 7 makes a counter-movement of the outlet, during which its chin 17 again slides radially inward along the inclined surface of the withdrawal lock 16 under the action of springs 18. Thus, the chin 9 and the neck 10 again capture the knowledge 22 and prevent lifting zychkova needle 2, making the movement to the conclusion. After the needle returns to its working position (Fig. 5), this process is repeated. The cam of the needle lock consists of smoothly moving each other, constantly curved sinusoidal arcuate parts, as a result of which such an addition is achieved so that the tongue needles do not experience sharp jolts or jibration (Fig. 8). Similarly, the cam of a platinum lock also consists of arcuate parts 24 curved along the length of each arc, which at point 25 are interconnected by arcuate details with a smaller bend radius. Therefore, platinum 7 moves relatively smoothly without jolts. With a low load on the needle and platinum, the cams of the platinum and needle locks together ensure a very high operating speed of the knitting machine. The monofontour machine examined is equipped only with a needle cylinder, 1 with tongue needles 2 and platinum 7. You can create a dvuhfonturny machine on a similar princhshpu. In such a case, only an additional needle disk supporting the second row of needles is required; moreover, similar needles are also located between the individual needles of this row of needles.

platinum 7, the movement of which is regulated by a channel of the platinum lock, on the top of the needle disk. He also subordinates the output lock, located on the needle disk. In accordance with the output lock 16, with the help of which they move with their chins t7 in the indicated way transversely to the needles of platinum.
The invention can be implemented in the form of a flat filling machine in a single-pole or double-spontaneous version, In this case, instead of a needle cylinder in the form of needles 446226
Appropriate needle pouches are applied.
Platinum 7, made in the form of culinary platinum, allow 5 to be made and looped plush, with different lengths of half-loops being achieved by various uses of culinary platinum,. designed for a special half loop length,
10 In addition, it is possible to impart to the proposed knitting machine a pattern-forming device, which will make it possible to manufacture jacquard or finely knitted knitwear.
at
1
22
12
FIG.
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7
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F (/ r.7

权利要求:
Claims (3)
[1]
. 1. A KNITTING MACHINE containing at least one needle bar, the needles of which are mounted with the possibility of reciprocating movement from the needle lock interacting with the heels made on the needle rods, platinum, the heads of which are located between the needle heads, and the rods carry the heels: interacting with platinum deputy ^; lump for reciprocating movement of the rods of platinum along the needles, and the output lock with a curved working surface for swinging.
movement of the platinum head in the transverse direction of the needles, characterized in that, in order to increase the class of the machine by reducing the needle pitch, the needle rods are located directly between the adjacent platinum rods, which form guide grooves under the needle rods, and on the core of each platinum with an inner On the other hand, a protrusion is made, which forms a swing support in contact with the working surface of the output lock, the output lock being made integrally with the needle bar and its working surface protrudes ® knitting head with its outer side.
[2]
2. The machine according to claim 1, I distinguish- I * u and I with I. the fact that the needle bar has rods inserted at its base. ·
- platinum rods are located between g | Stegs, and the needle rods are supported.
on the end surface of the stegs.
[3]
3. The machine according to claim 2, with the fact that the platinum rods protrude in a radial direction to the needle bar above the needle rods.
<1144622 I

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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DE3108041A|DE3108041C2|1981-03-03|1981-03-03|Knitting machine|

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