RU2011703C1 - Device for fibrous lap making by aerodynamic processing using - Google Patents

Abstract

FIELD: textile manufacturing, nonweaving cloth fabricating. SUBSTANCE: device has combing roller connected with trunk, condenser and arrangement for linear close weave adjusting placed at trunk lower wall and made like screws fitted in cantilevers. Close weave adjusting arrangement includes elastic elements placed on trunk lower wall prolongation. Elastic elements are connected with adjusting screws which can move them towards trunk interior for setting up distance. When two condensers are present and rotate in opposite directions another set of elastic elements is fixing at trunk top wall. EFFECT: more effective construction for nonweaving material manufacturing. 2 cl, 5 dwg

Description

 The invention relates to the production of nonwoven materials in the textile industry.

 Aerodynamic canvas-forming machines are known, which include condensers installed behind the comb removal unit in carding or scoring machines (Kuleshov E. N. and Kuleshova V. I. Aerodynamic canvas forming machines and devices. M.: Light Industry, 1976).

 The disadvantage of these devices is the inability to adjust the linear density of the flooring in width over a wide range, which reduces the quality of the produced flooring.

 Structures are also known (ed. St. USSR N 225047, class D 01 G 25/00, 1966) with adjustable air flow across the width of the condenser by introducing longitudinal axial fans of the Roots type, installed inside and outside the condenser, according to ed. St. USSR N 255807, class D 01 G 25/00, 1967, N 388641, cl. D 01 G 25/00, 1973 due to the narrowing and expanding form of the shaft located in front of the condenser, according to ed. St. USSR N 1147785, class D 01 G 25/00, 1982 due to changes in the cross section in the front of the shaft in the zone of air inlet into it, according to ed. St. USSR N 460335, class D 01 G 25/00, 1973, N 1590490, cl. D 01 G 25/00, 1988 by adjusting the cross section of the open part of the diaphragm located in the condenser, according to ed. St. USSR N 1288215, class D 01 G 25/00, 1985 due to the introduction of dampers in a number of sections of the output part of the shaft, which is a continuation of the input shaft, according to ed. St. USSR N 1039997, class D 01 G 25/00, 1982, N 1234464, cl. D 01 G 25/00, 1984 by adjusting the cross section of the output shaft, according to ed. St. USSR N 412341, class D 01 G, 1972 by adjusting the air flow supplied to the shaft at the time of supply to the main stream going to the condenser perpendicular to the jet air stream; by author St. USSR N 328223, class D 01 G 25/00, 1972 due to a series of coaxially mounted rings in the gaps with grooves on the outer surface, interconnected by strips located along the axis of the drum.

 The disadvantages of these designs are their relative complexity when it is impossible to ensure the evenness of the fibrous layer over the entire working width of the shaft, including in its middle, the complexity of changing the cross section in the front of the chamber in the zone of air inlet into the shaft.

 A device (ed. St. USSR N 438733, class D 01 G 25/00, 1973) containing flaps located parallel to the bottom wall of the shaft and adjustable from screws, a guide bar and a support bracket is taken as a prototype and a basic object of the invention.

 The disadvantage of the prototype is the instability of obtaining a given linear density of the product due to the destabilization of the air flow directed to the condenser by additional air flows in different parts of the condenser along its width, and air swirling at the surface of the condenser and fiber. In addition, the stability of the passing air system is not guaranteed due to the uncontrolled air of the rooms and the stability of the process, technological parameters of the air in the chamber when the temperature and humidity in the working room change.

 The purpose of the invention is to reduce the unevenness of the fibrous layer by expanding the range of adjustment of the linear density of the product along the working width of the condenser.

 For this purpose, an elastic section adjacent to the bottom wall of the shaft and installed with the possibility of adjustable deflection into the shaft is introduced into the device containing a comb roller, shaft, condenser and means for controlling the linear density of the fiber layer on the bottom wall of the shaft. Moreover, the connection of the adjusting screws with the elastic section of the lower wall is made in the form of reeds, and the adjusting screws are installed in the brackets of the fixed part of the wall.

 The introduction of an elastic movable section, its connection with a fixed wall allows for simple, reliable and high-quality adjustment of air flows in the shaft in a wide range by changing the section of the shaft for the passage of air with fiber at the surface of the condenser.

 In FIG. 1 shows a device with an end suction of air by two fans; in FIG. 2 - same, top view; in FIG. 3 - node I in FIG. 1; in FIG. 4 - a variant of the device with a closed system of air flow and a blower located in the condenser; in FIG. 5 - two condensers adjacent to the mine.

 The device includes a comb roller (drum) 1, technologically connected with the shaft 2, containing the upper 3 and lower 4 walls, means for adjusting the linear density of the produced fibrous layer. The bottom wall 4 is fixed and connected with a movable elastic section 7, which is its continuation and installed with the possibility of deflection into the shaft 2. Adjusting screws 9 and nuts 10 are installed in the brackets 11 of the fixed wall 4, connected with the elastic section of the wall 7 due to the reeds. The section of the other lower fixed wall of the condenser 8 is connected with the elastic section 7.

 The device operates as follows.

 The fiber removed from the comb roller 1 (drum) is fed into the shaft 2 by air flow. The air flows in the shaft 2 are adjusted by moving individual parts of the elastic section 7 by adjusting screws 9, changing the shaft section for the passage of air with fiber at the surface of the condenser. During the suction of air during the passage of the shaft 2, it encounters the resistance of the side walls, and with the end suction of air from the condenser, its largest flame passes near the edges and is smaller in the middle part, as a result of which the section of the shaft 2 is regulated so that its largest section is at the edges and middle part.

 With two condensers and one shaft and with the rotation of the condensers (Fig. 3), it is advisable to introduce an elastic control section 7 on the upper wall 3 of the shaft 2. Air into the shaft 2, sucked from the condenser, is fed through a slot along the working width of the machine formed between the comb roller 1 and the upper (or lower) wall 3 of the shaft 2. The slot is adjusted by moving the upper 3 (Fig. 1) or lower 4 (Fig. 2) walls of the shaft 2 relative to its side walls. The fiber, moving in the shaft 2, is distributed across the width and height of the condenser part open in the shaft 2. Moreover, the fibrous layer is formed by a wedge, which is thicker at the exit of the condenser.

 A seal is installed between the walls of the condenser rotating in the shaft. Manually adjusting the screws 9, smoothly change the section of the shaft 2 for the passage of air in the region of the condenser, ensuring that the linear density of the outgoing fibrous layer is the same across the width of the condenser. Where a thinner fibrous layer is formed, the section of the shaft 2 is increased and vice versa.

Technical advantages of the invention are:
the introduction of an elastic adjustable section in the continuation of the fixed lower wall of the shaft provides a change in the section of the shaft in a given range, leading to a stable flow of the process and obtaining the final product with the given characteristics of linear density.

 The use of the invention allows a simple and reliable design to provide a clear, smooth adjustment of the layer by density without disassembling the device.

Claims (2)

 1. A DEVICE FOR FORMING A FIBER CANVAS BY AERODYNAMIC METHOD, comprising a comb roller, a shaft, a condenser and a means for adjusting the linear density of the formed canvas arranged in series, located on the wall of the shaft adjacent to the mesh condenser drum, characterized in that the quality is improved to improve , means for adjusting the linear density of the formed canvas has an elastic element located with the possibility of deviation into the cavity of the shaft by a predetermined amount by communicating with the adjusting screws.  2. The device according to p. 1, characterized in that it is equipped with a second condenser, mounted for rotation in the opposite direction to the rotation of the first condenser, and further has a means for adjusting the linear density of the formed canvas, made similar to the first.

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