RU183118U1 - FISHING MECHANISM FOR FORMING A TRAXY FABRIC - Google Patents

Abstract

The utility model relates to weaving machines, more specifically to structural elements of weaving machines, namely shed forming mechanisms. Sliders with cantilever galleys having an open profile of eyes are rigidly fixed on heald frames, and warp threads are displaced in the transverse direction along a closed contour by a movable toothed rack with a conical the shape of the teeth by transferring to neighboring galev. Rigid cantilever cantilever halves reduce the accuracy of their installation, simplifies maintenance of the loom.

Description

The utility model relates to looms, more specifically to the structural elements of looms, namely to shedding mechanisms.

Izvestia is a weaving machine for forming a triaxial fabric, comprising a shed forming mechanism, in which the galev is made in the form of pushers for longitudinal movement of the base niche during shedding, slats with grooves for fixing the warp threads in the extreme positions of the throat and screws for moving the warp threads in the transverse direction in a closed loop .

The loom contains a device for compensating the tension of the warp during yaw formation, made in the form of movable rocks (US patent 3799209, MKI DOZD 13/00, NCI 139 /, 1974). The disadvantages of this loom are the execution of galev in the form of pushers and the compensation of the tension of the group of warp threads during shedding by means of a common rock, which leads to increased installation accuracy of galevs, increased kneading and abrasion of the warp threads and the limited assortment capabilities of the loom.

Known shedding mechanism for forming a triaxial tissue, containing a set of heald frames connected to the software device, carrying cantilever galevs with open eye profiles for longitudinal movement of warp threads during yaw formation and a movable gear rack with a conical shape of teeth, capable of moving galeves with threads foundations in the transverse direction in a closed loop. Cantilever galevs are made in the form of needles (patent for utility model 173703 I1 MPK DOZD 13/00, 2016).

The disadvantage of this mechanism is the movement in the transverse direction and the folded rotation of the sliders with the craps in extreme positions, which reduces the reliability of the loom, increases its size.

The problem solved by the described model is the constructive simplification of the shed formation mechanism for forming a triaxial fabric, the convenience of servicing a loom and expanding the assortment capabilities.

To solve the problem in the shed formation mechanism for the formation of triaxial tissue, the sliders with cantilevered galleys, the profile of which is disclosed, are rigidly fixed to the heald frames interacting with the software during shedding, and the movable gear rack with the conical shape of the teeth has the possibility of spatial movement for direct interaction with the threads basis when displacing them in the transverse direction in a closed loop by transferring them to neighboring galev, while the movable tooth An arbor with a conical shape of the teeth is installed in front of the heald frames along the filling line of the loom.

The utility model is illustrated where:

In FIG. 1 loom filling line,

In FIG. 2 kinematic diagram of the shed formation mechanism,

In FIG. 3 is a diagram for shifting warp threads in the transverse direction.

The shed forming mechanism for the formation of triaxial tissue contains a set of heald frames 1, on which sliders 2 with cantilevered galleys 3, having an opened eye profile 4, into which warp threads 5 are penetrated, are rigidly fixed.

Remizny frames 1 are kinematically connected with the software device 6.

In front of the heald frames is a movable gear rack 7 with a conical shape of the teeth, kinematically connected with the drives 8.9 to form a trajectory 10.

Behind the heald frames 1 along the filling line there is a chest 11, which is enveloped by the fabric 12.

With the weft thread 13 in the throat 14 interacts the batan mechanism 15 of the clamshell type.

The shed formation mechanism works as follows.

Remizny frames 1 form a pharynx 14 in which the weft thread 13 is laid and nailed to the edge of the fabric 12 with a batan mechanism 15.

After this, the heald frames 1 come to their original position. A movable gear rack 7 with a conical shape of the teeth under the action of the drives 8, 9 captures the base thread 5 with a cavity of 16 teeth, moves it along the eye 4 (section a-c), leads it out of the eye 4 (section b-c), starts the main thread 5 in the zone of the adjacent cantilevered galev 3 '(plot c-d-e-f), introduces into the eye 4 of the adjacent cantilevered galev 3' (section f-q), we fix the warp thread 5 in the eye 4 (section q-h), returns to its original position (h-a).

The shift of the warp threads 5 in the transverse direction in a closed loop is carried out by transferring them to neighboring galev. The reliability of the loom is ensured by direct interaction with the warp threads, while the cantilever crib stand motionless. This utility model is industrially applicable, as it is structurally simple and can be manufactured using conventional technologies used in the manufacture of weaving fabrics.

Bibliographic list

1. US patent 3799209, NKI 139 / 11.1974 g.

2. Utility Model Patent No. 173703 IPC DOZD 13/00, 2016

3. US patent 1534317, IPC DOZS 13 / 00.1976,

4. US patent 3998250 NKI 139 / 336.1976 g.

5. US patent 1368215, 1921

Claims (1)

A shed forming mechanism for forming a triaxial tissue, comprising a set of heald frames connected to a software device, carrying sliders with cantilever galleys, the eyes of which have an open profile for interaction with warp threads during shedding and a movable gear rack with a conical shape of teeth having the ability to shift warp threads in the transverse direction in a closed loop, characterized in that the sliders with cantilevered galleys are rigidly fixed to the heald frames, and the movable gear rack with the tooth shape has the possibility of spatial movement for direct interaction with the warp threads when transferring them to neighboring brooms and is located in front of the heald frames along the filling line of the loom.

Images