RU122386U1 - DEVICE FOR PROCESSING COTONIZED LINEN FIBER - Google Patents

Abstract

A device for processing cottonized flax fiber, comprising a feeding means and combing organs in the form of drums with aerodynamic means for removing soft and hard fibers, characterized in that an additional combing drum is placed between the drums; aerodynamic means for removing soft fibers is installed above the first and additional combing drums, is made confusor-shaped, while the ratio of the areas of the inlet and outlet cross-section of the means is 3: 2, and the aerodynamic means for removing soft fibers is made on one side of the working surface of the additional combing drum and a plane passing through the line of intersection of the concentric fence of the additional combing drum with the vertical plane passing through the center of this drum and through the line of intersection of the concentric fence of the first combing drum with the radial plane corresponding to the beginning of the liftoff arc, while the angle limiting the liftoff arc, both in the first and and on additional combing drums it is 14 ÷ 17 °.

Description

The invention relates to the production of modified flax fiber for further use in the textile industry.

It is known a carding device for processing flax fiber containing combing drums installed in series with increasing speed and density of the drum sets. Under the first two drums, additional working bodies are placed that carry out a combing and cleansing effect. In order to save raw materials, the thick uncleaned and stiff lignified fibers released under these drums are again fed into the fiber feed layer for reprocessing by the air stream created by the condenser. (A.S. 262290 Czechoslovakia, IPC 4 D01B 1/24, D01G 9/06. Combing device / A.Doubravski, Z.Suchomel, B.Ondradcer, J. Hancil (Czechoslovakia), publ. 23.11.87; publ. 06/15/89, Bull. No. 8420-87.T).

However, this device cannot sort the fibers into fractions according to their degree of hardness in order to increase the uniformity of the fibers by stiffness within each fraction and to produce cotonin with different specified spinning properties.

The prototype is a device for processing flax fiber containing a nutrient and combing body with aerodynamic removal, it is equipped with a second combing body, while the ratio of the density of the teeth of the headset of the first combing body to the density of the teeth of the headset of the second combing body is made in the form 1: 0.4 ... 1, an additional removable aerodynamic means formed by communicating confusers is installed above the first combing body behind the nutrient (Pat. 2348745 Russian Federation, IPC D01B 5/00; D01G 15/00. A method of processing flax fiber and a device for its implementation / Larin I.Yu., Kapitonov VV; applicant and patent holder GOU VPO "Ivanovo State Textile Academy." - No. 2007117289/12; Declared on May 8, 2007, published March 10, 2009, Bull. No. 7 - 7 pp., ill.).

The disadvantage of the described utility model is the insufficient efficiency of cleaning the fibers from the fire and the low yield of fibers of the soft fraction.

The technical result of the claimed utility model is to increase the yield of fibers of the soft fraction.

The specified technical result is achieved by the fact that in the device for processing cotonized flax fiber containing a nutrient and combing bodies in the form of drums with aerodynamic means for removing soft and hard fibers, according to a utility model, an additional combing drum is placed between the drums; the aerodynamic tool for removing soft fibers is installed above the first and additional combing drums, made confuser-like, while the ratio of the areas of the input and output cross section of the tool is 3: 2, and the aerodynamic tool for removing soft fibers is made on one side by the working surface of the additional combing drum and the plane passing through the line of intersection of the concentric fence of the additional combing drum, with a vertical plane passing through of this drum, and through the line of intersection of concentric barriers first opener drum with the radial plane corresponding to the top of the arc aerodynamic pickup, the angle limiting arc aerodynamic pickup, both the first and the additional combing drum is 14 ÷ 17 °.

The technical result, which consists in increasing the yield of fibers of the soft fraction, is achieved for the following reasons:

After processing the supply layer, 15–40% of undivided soft and hard fiber complexes remain in the feed zone. In the interaction zone of the first and additional combing organs, the undivided complexes are further divided into separate fibers, while the soft fibers are deepened into the headset of the additional combing organ, and the hard ones remain at the top of the tooth, which allows separate removal of the fibers of these fractions in the inventive device, resulting in the yield of soft fibers increases.

Figure 1 shows the technological scheme of the claimed device; figure 2 presents the nomogram for calculating the arc length of the aerodynamic removal, where R is the radius of the drum; n is the rotational speed of the drum; α is the angle corresponding to the aerial survey arc.

A device for processing kotonizirovannogo flax fiber contains a nutrient made of a feeding table 1 and a cylinder 2, three combing body 3, 4 and 5, which are serrated drums. In the lower fences 6, 7 and 8, aspiration traps for bonfires 9, 10 and 11 are made. Behind the drum 5, aerodynamic means for removing hard fibers 12 are made in the form of a confuser. Above the first combing 3 and additional 4 reels installed aerodynamic tool for removing soft fibers 13, made confusor-like. The ratio of the areas of the input 14 and output 15 of the cross section of the removal tool 13 is 3: 2. When the ratio of the cross-sectional areas of the inlet and outlet openings of the aerodynamic means 13 is less than 3: 2, the increase in air velocity in the course of transporting the fibers decreases. In connection with this, the aerodynamic forces acting on the front and rear ends of the fiber become closer in magnitude to each other, which leads to a decrease in the aerodynamic stretching of the fiber, it loses its orientation along the pneumatic conveying channel, the fibers begin to intertwine, form complexes, as a result of which clogging of the channel with fiber. When the ratio of the cross-sectional areas of the inlet 14 and outlet 15 of the openings of the aerodynamic means 13 is greater than 3: 2, the height of the inlet of the pneumatic conveying channel increases, and with it the area of this hole, which leads to a decrease in the air velocity in the aerial survey zones from an additional 4 and the first drums 3. The decrease in air velocity in the aerial survey zone leads to a decrease in the aerodynamic forces acting on the fibers during aerial survey and, therefore, incomplete removal of the drum fibers.

The aerodynamic tool for removing soft fibers 13, made confusiform, is formed on one side by the working surface of an additional combing drum 4 and a plane 16 passing through the intersection line of the concentric guard of the additional combing drum 4 with a vertical plane passing through the center of this drum and through the intersection line of the concentric guard 17 the first combing drum 3 with a radial plane 18 corresponding to the beginning of the aerial photography arc of the first combing b arabana 3.

The angle α, limiting the arc of the aerodynamic removal, is 14 ÷ 17 ° (figure 2). When the angle covering the arc of aerial survey is less than 14 °, incomplete aerial survey of fibers occurs. Only part of the fibers, falling into the aerial take-off zone, moves from the teeth of the headset into the stream concomitant with the rotation of the drum, and the remaining part continues to move on the teeth, forming a residual layer of fibers. When the angle covering the aerial survey arc exceeds 17 °, there is no further increase in the mass of fibers removed from the teeth, because the angle of 14 ÷ 17 °, covering the aerial survey arc, is sufficient to completely remove the fibers from the teeth.

Above the first combing drum 3 there is a pipe 19 for supplying a soft fraction of fibers for further processing.

A device for processing cotonized flax fiber works as follows.

When the feed fiber layer is supplied to the headset of the first combing drum 3, it is thinned, while the approximately fibrous layer on the surface of the drum is 60-85% represented by single fibers. Soft fibers deepen inside the teeth of the headset of the first combing drum 3, hard fibers remain at the top of the teeth of the headset, i.e. the fibers are partially sorted according to the height of the tooth, and the bonfire released from the fibers is released into an aspiration trap 9. Approximately 15–40% of the fibers are unseparated complexes containing fibers of various degrees of rigidity, and therefore this part of the fibrous layer cannot be sorted because the presence of adhesion between dissimilar fibers.

In the interaction zone of the first and additional combing drums 3 and 4, due to the parallel arrangement of the teeth of the headsets of these drums with increasing density from the first drum to the last, the front ends of the fibers are captured by the headset of the additional drum 4 and, as a result, the rear ends of the fibers are separated by the headset of the first combing drum 3. As a result, some of the complexes are divided into separate fibers, while soft fibers under the action of scratching forces deepen into the headset of an additional Rabban 4, and hard - remain at the top of the teeth. The fire located inside the undivided complexes is released and is released by centrifugal forces into an aspiration trap 10. The air flow rate generated in the confuser-shaped aerodynamic removal tool 13 is greater than the peripheral speed of the headset of the additional combing drum 4. As a result, the fibers are removed from the headset of the drum 4 and their transportation to the first combing drum 3, where the fibers are also removed from his headset.

Further along the rotation of the additional drum 4, the hard fibers and uncleaned complexes located on the headset enter the zone of interaction of the second combing drum 5 with the additional drum 4, where the complexes are further divided into separate fibers and the bonfires are released. With further transportation of the fibrous layer located on the surface of the second combing drum 5, the bonfires are released into the suction trap 11. And then the hard fraction of the fibers is removed by the aerodynamic removal means 12.

At the same time, during operation, a confuser-like aerodynamic tool for removing 13 soft fibers located above the first 3 and additional 4 combing drums, removes the soft fibers located in the headsets of the first 3 and additional 4 combing drums. The air supply is made through the inlet 14 of the confusor-shaped aerodynamic removal tool 13.

The sorted fiber of soft and hard fractions from aerodynamic removal tools 12 and 13 is sent for further use.

Claims (1)

A device for processing cotonized flax fiber containing a feeding agent and combing bodies in the form of drums with aerodynamic means for removing soft and hard fibers, characterized in that an additional combing drum is placed between the drums; the aerodynamic tool for removing soft fibers is installed above the first and additional combing drums, made confuser-like, while the ratio of the areas of the input and output cross section of the tool is 3: 2, and the aerodynamic tool for removing soft fibers is made on one side by the working surface of the additional combing drum and the plane passing through the line of intersection of the concentric fence of the additional combing drum with a vertical plane passing through h the center of this drum and through the line of intersection of the concentric guard of the first combing drum with a radial plane corresponding to the beginning of the aerodynamic takeoff arc, while the angle limiting the aerodynamic takeoff arc, both on the first and on the additional combing drums, is 14 ÷ 17 °.