RU201183U1 - MILLING MACHINE FOR ISOLATING FROM LINEN CROSS - Google Patents

Abstract

The utility model relates to the field of primary processing of bast crops, namely, to laboratory testing equipment - single-process crushing and scattering machines designed to separate long scattered fiber from flax stands when determining its technological value. The technical result is to improve the quality of feeding handfuls of flax to the processing zone and is achieved by the fact that in a crushing and scutching machine for separating fiber from flax, containing a scattering unit consisting of a pair of scattering drums with a system for regulating their rotation speed, a crushing and clamping unit consisting of one pair of flaking rollers, two pairs of crushing rollers and a pressure roller , a pneumatic scraper waste removal system and a horizontal feed conveyor with a mechanism for switching the direction of travel, an additional guide conveyor is installed, covering the upper roller of the conditioning pair and located at an acute angle to the feed conveyor, which covers the Lower roller of the conditioning pair.

Description

The utility model relates to the field of primary processing of bast crops, namely, to laboratory testing equipment - single-process crushing and scattering machines designed to separate long scuttled fiber from flax-straw samples when determining its technological value.

The efficiency of fiber flax production is extremely dependent on the yield of scrambled fiber, which, first of all, determines the technological value of the fiber flax trusts. Therefore, all decisions in flax growing - of an organizational, technical and technological nature, are based on reliable information about their influence on the long fiber yield. The necessary information on the yield of long fibers is obtained by processing flax-straw samples on special laboratory beaters [GOST 24383-89. Linseed Trust. Requirements for procurement. - Introduction. 1991-01-01. - M .: Publishing house of standards, 1989. - III, 17 p.].

The use of this test equipment is aimed at creating conditions for ensuring the unity and reliability of determining the indicator, which is not always possible due to design flaws in the equipment.

Known laboratory crushing and scutching machine SMT-200M for obtaining scuttled fiber from handfuls (samples) of flax, containing a horizontal feed conveyor with a mechanism for switching its movement, a crushing-clamping unit consisting of one pair of flaking rollers, two pairs of crushing rollers and a pressure roller, a unit scutching, consisting of a pair of scutching drums and a pneumatic scrubbing waste removal system [Handbook of factory primary processing of flax / Edited by VN Khramtsov. - M .: Light and food industry, 1984. - S. 376].

The main disadvantage of the known crushing and scutching machine SMT-200M for obtaining scuttled fiber from handfuls (samples) of flax stands are deviations in the reproduction of sample processing conditions, which affects the value of the yield of long scuttled fiber, introducing a significant error in the results of determining the indicator - the yield of long scutched fiber. This is due, for example, to the presence of gaps in the zone of entry of the flax stems into the crumpling knot, into which individual stems are pulled. The known machine also lacks the possibility of differentiating the frying modes, which reduces the scope of its application.

Known crushing and scutching machine for separating fiber from the stems of bast crops trusts, containing a scutching unit consisting of a pair of scattering drums with a system for regulating their rotation speed, a crushing-clamping unit consisting of one pair of flaking rollers, two pairs of crushing rollers and a pressure roller, pneumatic a system for scrapping waste removal and a horizontal feed conveyor with a mechanism for switching the direction of movement, with guides installed above the conveyor from the sides in the direction of movement and perpendicular to the direction of movement at the entrance to the clamping unit for orientation of the stems when feeding them into the processing zone [Pat. 193793 Russian Federation, IPC D01B 1/10 (2006.01). Beater for fiber extraction from the stems of bast crops trusts / Pashin E.L., Orlov A.V .; applicant and patentee FGBOU VO "Kostroma State Agricultural Academy". - No. 2019119294; declared 06/19/19; publ. 11/15/19, Bul. No. 32. - 4 s: 2 silt, prototype].

The main disadvantage of the given crushing and scutching machine for the extraction of fiber from the stems of bast trusts is also the deviation of the reproduction of the conditions of sample processing, which has a significant effect on the value of the yield of long scuttled flax fiber, introducing an error in the results of determining the indicator - the yield of long scutched flax fiber. This is due to the use of fixed guides for the orientation of the stems of a handful when it is fed by the feeding conveyor into the clamping-clamping unit. When moving stems interact with fixed stops, friction forces arise, leading to braking of individual stems, their disorientation, displacement relative to the bulk of the stems of a handful, I drag them into the gaps between the side guides and the feed conveyor belt. As you know, the stalks of flax-straws for roll harvesting of fiber flax (in practice, only this technology is used) have a destroyed structure, often with a significant loss of woody part, especially at the ends of the stems. Therefore, when handfuls are fed into the jaw-clamping unit, especially with the top part, the feeding process is disturbed. This is due to the pulling of the material into the gaps between the feeding conveyor and the first pair of rollers of the crushing-clamping unit, as well as to the relative displacement of the stems when they interact with the guide installed perpendicular to the movement of the stems. In addition, due to the rigidity and curvature of individual stems, the conditions for their capture by the first pair of rollers of the squeezing-clamping unit may be violated. In this case, both an increase in the elongation of the stems in a handful and a complete withdrawal of non-captured stems from the treated handful can occur. As a consequence, the reliability of determining the yield of a long fiber decreases. All these disadvantages are inherent in this device design.

This milling and scutching machine for separating fiber from the stems of bast crops trusts in its technical essence is the closest to the declared one and is offered as a prototype.

The technical task of the utility model is to stabilize the reproduction of the processing conditions for handfuls (samples) of flax, which ensures the reliability and uniformity of determining the yield of long scuttled fiber from samples (handfuls) of the stems of flax-fiber trusts.

The technical result from the solution of the task is to improve the quality of feeding handfuls of flax straw into the processing zone.

The problem posed in the utility model is solved by the fact that in a crushing and scutching machine for separating fiber from flax, containing a scutching unit consisting of a pair of scattering drums with a system for regulating their rotation speed, a crushing-clamping unit consisting of one pair of flaking, two a pair of crushing rollers and a pressure roller, a pneumatic scraper waste removal system and a horizontal feed conveyor with a mechanism for switching the direction of travel, an additional guide conveyor is installed, covering the upper roller of the conditioning pair and located at an acute angle to the feed conveyor, which covers the lower roller of the conditioning pair.

Installation of an additional guide conveyor, covering the upper roller of the conditioner pair and located at an acute angle to the feed conveyor, which covers the lower roller of the conditioner pair, ensures consistently high-quality entry of the handful stems into the processing zone in case of any defects - curvature, loss of rigidity due to destruction of the stem structure and other defects, including changes in the thickness of the supplied layer (loading density). The use of the lower crimping roller as a drive drum of the feed conveyor completely eliminates gaps at the junction of the crushing-clamping unit and the feed conveyor. Equipping the crushing and scutching machine with a guiding conveyor is guaranteed to preserve the structure of the stems of the handfuls after it is placed on the feeding conveyor and fed into the processing zone. This is due to the fact that the guide conveyor, moving at a speed equal to the speed of the feeding conveyor, smoothly interacts with the layer, eliminating the emergence of resistance forces that lead to special conditions for the movement of individual stems.

The proposed solution of the crushing and scutching machine excludes the influence of unstable conditions of material supply to the processing zone, preserves the original structure of handfuls of stems of fiber flax trusts. Thus, the stability of the reproduction of the conditions of sample processing is increased, the fulfillment of the conditions for the uniformity of measurement and the reliability of determining the yield of a long scuttled fiber is ensured.

The essence of the utility model is illustrated by a drawing.

FIG. shows a diagram of a crushing and scutching machine for separating fiber from flax.

A beater for separating fibers from flax strand consists of a horizontal feed conveyor 1, a guide conveyor 2, covering the upper roller 3 of the conditioning pair and located at an acute angle to the supply conveyor 1, which covers the lower roller 4 of the conditioning pair, two pairs of crushing rollers 5, a pressure roller 6, a pair of scraper drums 7, a control unit 8 for switching the movement of the feeding conveyor 1 and regulating the rotation speed of the scattering drums 7, and a pneumatic system for removing scraping waste 9.

The work of the crushing and scutching machine for separating fiber from flax-straw is implemented as follows.

Having selected the required speed of rotation of the scutching drums 7 with the control unit 8, turn on their movement, then lay the stems on the feed conveyor 1. The control unit 8 includes the movements of all elements of the crushing-clamping unit - crimping rollers 3, 4, two pairs of crushing rollers 5 and a pressure roller 6. As a result, the feed conveyor 1 and the guide conveyor 2 are simultaneously set in motion and the stems are fed into the processing zone. The stems are processed from one side, for example, from the side of the tops of the stems. Then the stems of the handful are removed from the processing area, they are turned, and the processing process is repeated on the other side. In view of the fact that the crimping roller 4 is at the same time the driving drum of the feed conveyor 1, and the crimping roller 3 is the driving drum of the guide conveyor 2, then conditions that lead to a violation of the structure of the handful layer, pulling material into the gaps, displacement of individual stems, etc. ... phenomena affecting the stability of the reproduction of sample processing conditions.

The use of a crushing and scutching machine proposed in the utility model for separating fiber from flax straw ensures the stabilization of the reproduction of the processing conditions for handfuls (samples) of flax straw, increasing the reliability and uniformity of determining the yield of long scuttled fiber. In this case, management decisions based on a more accurate assessment of the indicator - the yield of long scuttled flax fiber, have a more substantiated, correct nature, which ultimately contributes to an increase in the efficiency of flax growing as a whole.

Claims (1)

A beater for separating fibers from flax, containing a scattering unit consisting of a pair of scattering drums with a system for regulating their rotation speed, a beating and clamping unit consisting of one pair of flaking rollers, two pairs of crushing rollers and a pressure roller, a pneumatic system for removing scraping waste and a horizontal feed conveyor with a movement direction switching mechanism, characterized in that an additional guide conveyor is installed, covering the upper roller of the conditioning pair and located at an acute angle to the feed conveyor, which encloses the lower roller of the conditioning pair.

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