RU106620U1 - FISHING MECHANISM - Google Patents

Abstract

The utility model relates to the field of the textile industry and relates to a shedding device, namely, shedding by dividing the main threads into two systems, and moving them in a vertical plane.

The technical result is to reduce the time spent on switching to other articles of fabrics, reduce the specific energy consumption per 1 square meter of fabric, reduce the noise level, reduce the tension of the warp threads, reduce vibration loads at the installation site, increase the technical efficiency of weaving equipment.

The technical result is achieved by the fact that the shedding mechanism contains at least one shaft, in the grooves of which are mounted rails, on the horizontal line of which brackets made in the form of hooks are mounted vertically, the pharynx is formed when the shaft is rotated in the direction of the base, using brackets that separate the main threads into two systems, and move them in a vertical plane.

Description

The utility model relates to the field of the textile industry and relates to a shedding device, namely shedding by dividing the main threads into two systems, and moving them in a vertical plane

Three types of shedding mechanisms are known: cam, slider lifting carriages, jacquard machines, these mechanisms contain a slugging shedding mechanism with elements for refilling the warp systems, while elements for refueling the warp system are made in the form of rods with holes and are installed at the same distance from each other on horizontal movable slats of the frame (Except for jacquard machines, since there each thread is lifted by separate arcatite cords, and not by movable slats of the frame). Machine tools contain mechanisms for moving the heald frames across the loom, through the lever system. (The theory of processes, technology and equipment of weaving, S.D.Nikolaev, P.V. Vlasov, R.I. Sumarukova, S.S.Yukhin. - 2nd ed. Revised. And add. - M.: Legprombyt published , 1995 - page 67)

The disadvantage of these mechanisms is: reaching its limit on productivity and the large investment of time when switching to other articles of fabrics, high noise level, high energy consumption for the manufacture of one square meter of fabric, significant tension experienced by warp threads during yaw formation, which reduces the possibility of using less elastic threads, the occurrence of significant vibration loads at the installation site.

“The shed formation mechanism of the STB machine” (Theory of processes, technology and equipment of weaving, S. D. Nikolayev, P. V. Vlasov, R. I. Sumarukova, S. S. Yukhin, is taken as a prototype. - 2nd ed. Revised. And additional - M.: Legprombyt published, 1995 - p. 70)

The shed forming mechanism of the STB machine contains a heald shed forming mechanism with elements for refueling the warp systems, while elements for refueling the warp system are made in the form of rods with holes - galev with eyes and are installed at the same distance from each other on horizontal movable slats; frames and mechanisms for moving the heald frames across the loom, by means of a lever system.

The disadvantage of this mechanism is: the high time spent on switching to other articles of fabrics, high noise levels, high energy consumption for the manufacture of one square meter of fabric, significant tension experienced by the warp threads during shedding, the occurrence of significant vibration loads at the installation site.

The technical result is to reduce the time spent on switching to other articles of fabrics, reduce the specific energy consumption per 1 square meter of fabric, reduce the noise level, reduce the tension of the warp threads, reduce vibration loads at the installation site, increase the technical efficiency of weaving equipment.

The technical result is achieved by the fact that the shedding mechanism contains at least one shaft, in the grooves of which are mounted rails, on the horizontal line of which brackets made in the form of hooks are mounted vertically, the pharynx is formed when the shaft is rotated in the direction of the base, using brackets that separate the main threads into two systems, and move them in a vertical plane.

Figure 1 - presents the shedding mechanism.

In Fig 2. - presents a diagram of the refueling shed formation mechanism.

In figure 3. - presents the position of the shed formation mechanism at the time of the formation of the pharynx.

The shed forming mechanism includes a shaft - 3, in the grooves of which are mounted rails - 2, on which they are mounted vertically, along a horizontal straight bracket - 1.

The mechanism forms a pharynx by dividing the main threads into two systems, and their movement in the vertical plane

4 - the first system of warp threads, 5 - the second system of warp threads.

6 - Zev.

The shed forming mechanism can contain at least one shaft, but several can also be installed, the number of shafts depends on the density of the fabric on the basis or on the weft, on the type of weaving, the purpose of the products or the specifics of the loom, the length and diameter of the shaft can also vary from of these indicators, the number of installed rails on the shaft and brackets in the rails depends on the density of the fabric on the basis or on the weft, on the type of weaving or purpose of the manufactured products, the pharynx is formed when turning shaft in the direction of the warp, using brackets that divide the main threads into two systems, and move them in a vertical plane.

The shedding mechanism works as follows

This mechanism forms a pharynx by dividing the main threads into two systems - 4, 5 and their movement in the vertical plane. The main threads are raised in brackets - 1 from the lower position to the upper and lowered from the upper to the lower. The raising and lowering of the main threads is carried out due to the movement of the shaft - 3 in the direction of movement of the warp using brackets - 1 fixed on the rail - 2 vertically in a horizontal line, the battens - 2 are installed in the grooves of the shaft - 1. As the shaft moves - 3, the position of the brackets alternates - 1, the first installed system of brackets raises the first system of warp threads - 4 as a result of a pharynx - 6, where ducks are thrown, due to the movement of the shaft - 3 in the direction of the warp, the first system of brackets - 1 starts to lower the first system of warp threads - 4, and the second system of brackets - 1 raises the second system of main threads - 5, which leads to the formation of a second throat - 6 into which the next weft thread is thrown, then this is repeated, since the shaft - 3 moves in the direction of the warp, which alternates sequential the position of the brackets fixed on it is 1, which results in the formation of tissue in the zone of its formation.

The shed forming mechanism is designed in such a way that operations of switching to other fabric patterns become faster, and the use of a shaft as the main shed forming organ eliminates the high level of noise and vibration at the installation sites of weaving equipment, and the absence of a lever system in this mechanism will save energy on manufacturing one square meter of fabric, due to the fact that the brackets have a small height, the pharynx is small and the warp yarn tension is obtained significant, which allows the use of less flexible strands, and it's all in turn increases the efficiency of the technical textile machinery while using this mechanism.

This technical solution will improve the technical efficiency of weaving equipment, will make it possible to manufacture a wide range of fabrics, the ability to use technical types of threads from various materials, provide a quick change in the weave pattern, use a larger range of thread thicknesses, reduce noise and energy consumption, lubricants.

Claims (1)

A shed forming mechanism containing at least one shaft, in the grooves of which are mounted rails, on the horizontal line of which brackets made in the form of hooks are mounted vertically, the pharynx is formed when the shaft is rotated in the direction of the warp, using brackets that divide the main threads into two systems and move them in a vertical plane.