RU2692387C1 - Rotor machine for cutting of powder cords - Google Patents

Abstract

FIELD: cutting.SUBSTANCE: invention relates to devices for mechanical processing of explosives and can be used in production of fine- and medium-grained pyroxilin powders, in particular, at cutting of powder cords into elements of specified length and geometrical shape. Rotary cutting machine comprises a frame, a feed unit made in the form of feed and pressure drums and containing a clamping plate with a layer height controller of the supplied powder cords. Cutting unit is made in the form of faceplate with knives fixed on it. Machine comprises device for lifting and clamping of upper drums, made in form of pneumatic cylinder with lever, and change in length of grain is controlled by frequency converter.EFFECT: machine ensures stable geometrical dimensions of produced powder elements at cutting along whole plane of knife, absence of places of accumulation of powder dust, possibility of adjustment of length of cutting of powder cord and loading of machine, which increases efficiency.1 cl, 3 dwg

Description

The invention relates to devices for the mechanical processing of explosives and can be used in the production of fine and medium-grained pyroxylin powders, in particular, when cutting powder cords into elements of a given length and geometric shape.

Current requirements for manufactured powders are based on ensuring the stability of the ballistic characteristics. The main production factors that adversely affect the stability of the powder ballistics are a large variation in the length of the grains, and the quality of the cut (barbs, chips, swollen channels, undulating surface of the cut, etc.). The quality of the cut, as a rule, depends on the geometry and sharpening of the knife. The number of defects in cutting (shortened grains, grains with an oblique cut, etc.) is allowed up to 1%.

From the current level of technology, a device for cutting long powder products is known, comprising a frame, a loading unit and a cutting unit, characterized in that the loading unit is adapted to supply long-length powder products in a horizontal position to the cutting unit, the cutting unit contains guide blades having in the upper part cutting edges located in planes perpendicular to the longitudinal axis of the product, at a distance between the planes equal to two required lengths of granules, while the guide knives are adapted s for placing and moving the product along the guide blades in a horizontal position perpendicular to the cutting edges with the product resting on them along the cross sections of the intended cut simultaneously on the cutting edge of each of the guide blades, and working knives having cutting edges directed towards the cutting edges of the guide blades and lying in planes perpendicular to the longitudinal axis of the product, placed horizontally on the guide blades, at a distance between the planes equal to two required lengths of granules, and the cutting knives and working knives are made with the possibility of simultaneous simultaneous movement of the cutting edge of each of the working knives between the cutting edges of the two guide knives towards them in the plane equidistant from them, by the amount of stroke of the cutting edge of the working knife, and the cutting unit is adapted to remove granules from it, and additionally contains an irrigation unit adapted to supply coolant to the product along its entire length (RU 43261 U1, 2005).

A device for grinding tubular powders (versions) comprising a frame, a loading unit and a cutting unit with a drive, characterized in that the loading unit is made in the form of a belt conveyor and a pack of plates mounted relative to each other with a gap equal to or larger than the diameter of the powder tube and fastened together with the core and the core, the cutting unit is made in the form of two horizontal rolls mounted on the frame, on the side surfaces of which reefs of a triangular profile are cut with an angle at the apex of 15 ° -90 °, sha oh slicing 3-20 mm and a depth of 3-7 mm, while the rolls are set so that the protrusions and depressions of the reefs are a mirror image of each other, and the additionally introduced irrigation unit is designed as a perforated pipe located in the roll loading area with powder and parallel to their axes and connected through a pump with an additionally introduced powder receiving unit, equipped with a perforated container (RU 2102364, 1998).

The disadvantages of these devices is that they cannot be used when cutting pre-dried powder that is in a plasticized state, as a result of which a violation of the geometric dimensions (oblique and wrinkled sections) of the cut elements and their variation in length is observed. In addition, a large number of substandard products (marriage).

These devices can be used exclusively for grinding tubular pyroxylin powders by the mechanism of brittle fracture, which does not require obtaining elements of a given size and shape.

The San Galli device is also known - a guillotine-type machine containing the right and left cheek of the bed, the crankshaft, the working and idler pulleys, the flywheel, the slider, the screw, the lever, the brake cam, the friction wheel located on the intermediate shaft with gear pairs, driven a drum, a crank with a slider and a knife, a lower drum with an upper stretching drum, which is connected via pinions to the pressure drum, longitudinal reefs, cargo, a system of levers, vibrating screens, traction and a conveyor (V.I. Gindich "Technology of pyroxylin powders. Volume 2. Production of gunpowder, "in 1995 - 189-192 from Figure 72a, p 190)....

A disadvantage of the known device is:

- the complexity of the mechanism for regulating the length of the cutting powder powder cord, is to manually replace the gears of the pressure drum;

- the inability to control and control the height of the powder cords;

- reciprocating movement of the knife, contributing to its friction against gunpowder;

- the complexity of the mechanism for regulating and changing the cutting knife;

- the complexity of cleaning the machine from powder dust;

- the lack of ensuring the perpendicularity of the cut of the cut powder cords when cutting along the entire length of the guillotine knife, resulting in a violation of the geometric dimensions (oblique cuts) of the cut powder cords and their variation in length;

One of the biggest drawbacks of the San Ghali machine is that it gives a large variation in the length of the grain when cutting, reaching 20-25%. This is due to the fact that the movement of the cam of the friction wheel begins with a small acceleration, as a result of which the accuracy of the point of its jamming and the moment of the beginning of the feed movement are lost. In addition, there is often a slip of the cam along the friction wheel.

The closest to the claimed technical solution for a set of coinciding signs and the achieved technical result is the device "cutting machine Razumeeva" containing a frame on which two nutrient rollers (upper movable), flywheel are located. There are grooves made on the rollers, with a notch on the surface, in front of the rollers the front larva is located, in the vertical plane of which the knives mounted on the rotating flywheel mounted on the drive shaft move with a worm gear and gears (V.I. Gindich "Technology of pyroxylin powders. Tom 2. Production of powders ", 1995 - 183-186 p. Fig. 70a; Fig. 706, p. 184).

This device is taken as a prototype.

The disadvantages of the prototype are:

- the inability to cut fine and medium-grained pyroxylin powders;

- the complexity of the mechanism for regulating the length of the cutting powder powder cord, is to manually replace the gears of the feed rollers and larvae;

- the complexity of the mechanism for regulating and changing the cutting knives;

- low productivity, due to the constant manual refilling of the new powder cord, which has a small length, into the jaws between the feeding rollers;

- the inability to regulate and control the height of the powder cords.

The task and the technical result of the proposed technical solution is:

- the design of the rotary cutting machine includes up to 12 knives, and not 4, as in the prototype, thanks to which it has the ability to cut fine and medium-sized powders;

- improving the quality of the elements obtained during cutting;

- obtaining stable geometric dimensions of the powder elements when cutting along the entire plane of the knife;

- reducing the number of mechanical downtime that occurs when changing the cutting knives;

- absence of powder dust accumulation sites;

- performance improvement due to the supply of powder cords lower feed and upper pressure drums, and the upper drums have the ability to raise and lower during movement of the powder cords, allowing you to adjust the overload or underload of the machine;

- adjustment of the cutting length of the powder cord is carried out by changing the frequency of the alternating current on the electric motor of the feed unit by means of a frequency converter, while the rotation speed of the faceplate of the rotary cutting machine is constant.

Rotary machine for cutting powder cords consists of the following assemblies and structural elements: frame 1, feed unit 2, cutting node 3, which is a faceplate 10 with knives 4 fixed on it, a device 21 for lifting and pressing the upper drums 6, which represents a pneumatic cylinder 5 s lever 22. The feed speed of the cords is regulated by a frequency converter in the electric drive system of the motor-reducer 12 of the feeding unit 2.

The feed unit 2 consists of upper clamping drums 6, lower feed drums 7, pressure plate 11 for clamping and controlling the height of the supplied powder cords, gear motor 12, chain transmission (chains) 13, gear wheels 14, bearings (in Fig. 1, 2 not shown). The rotation of the drums 6 and 7 is carried out by the gear wheels 14 through the chain gear 13 from the gearbox motor 12. All chain gears are covered with protective covers (not shown in Fig. 1, 2). The upper clamping drums 6 have the possibility of raising and lowering, with the help of a pneumatic cylinder 5, for carrying out cleaning and repair work. The force of the pressure of the powder cords occurs by supplying compressed air at different pressure to the pneumatic cylinder 5, which in turn transmits the force to the upper pressure drums 6.

Cutting unit 3 consists of a rotor 10 faceplate with several cutting knives 4 fixed on it, a fixed knife 20, a protective casing 19 fitted with a hole in the lower part, for unloading cut powder, gearmotor 15, basic bearings 16, shaft 17. Choice of quantity knives (up to 12 units) depends on the brand of gunpowder. Adjustment of the length of the cutting powder of the cord is carried out by changing the frequency of the alternating current on the motor 12 of the feed unit 2 frequency converter.

The design of the claimed technical solution is illustrated by drawings, where:

in FIG. 1 is a side view;

in FIG. 2 is a top view;

in FIG. 3 shows view A.

Rotary machine for cutting powder cords works as follows:

Powder cords 8 are stacked in the tray 9 and charged under the upper drums 6. With the help of the pneumatic cylinder 5, the clamping force of the upper drums 6 is regulated. The drive for the rotor 10 is turned on, which rotates at a constant speed. On the frequency converter of the motor of the gearbox 12 of supply unit 2, the frequency of alternating current is set depending on the brand of powder and include gearmotor 12. The upper 6 and lower 7 drums begin to move the powder cords 8 towards the fixed knife 20 and movable knives 4.

The faceplate of the rotor 10 rotates around its axis. The angle between the cutting edges of each knife 4 mounted on the faceplate 10 is in the range from 5 ° to 20 ° (setting the angle is made experimentally). As a result, efforts to clamp the upper drum 6 decreases the cross-section of the bundle of powder cords. The gap between the knives 4 and 20 is 0.05-0.1 mm.

Next, cut off the powder grain (powder element) poured into the team capacity 18, installed under the cutting unit 3.

For cleaning the top 6 and bottom 7 reels of the supply unit 2 on the electric motor of the gear motor 12, a reverse is provided.

The claimed technical solution meets the criterion of "novelty", presented to the invention, because from the investigated level of technology not identified technical solutions that coincide with the structural features of the claimed technical solution.

The claimed technical solution meets the criterion of "inventive step", presented to the invention, since It is not obvious to a specialist due to the fact that it provides the possibility of implementing, simultaneously solving a number of tasks, namely:

- the design of the rotary cutting machine includes up to 12 knives, and not 4, as in the prototype, thanks to which it has the ability to cut fine and medium-sized powders;

- improving the quality of the elements obtained during cutting; obtaining stable geometric dimensions of the powder elements when cutting along the entire plane of the knife;

- reducing the number of mechanical downtime that occurs when changing the cutting knives;

- the absence of places of accumulation of powder dust;

- performance improvement due to the supply of powder cords lower feed and upper pressure drums, and the upper drums have the ability to raise and lower during movement of the powder cords, allowing you to adjust the overload or underload of the machine;

- adjustment of the cutting length of the powder cord is carried out by changing the frequency of the alternating current on the electric motor of the feed unit by means of a frequency converter, while the rotation speed of the faceplate of the rotary cutting machine is constant.

The claimed technical solution meets the requirement of industrial applicability and can be manufactured on standard equipment using modern materials and technologies. It has been tested at the Federal State-Owned Enterprise “Kazan State Powder Plant”, with all the declared technical results, which significantly exceed the known indicators of similar installations, known on the filing date of this application.

Claims (1)

Rotary machine for cutting powder cords, consisting of a frame, a feed unit, equipped with feed and pressure drums, which also includes a pressure plate for clamping and controlling the height of the powder cords supplied, a cutting unit that contains a faceplate with knives attached to it, and devices for lifting and clamping the upper drums, characterized in that the device for lifting and clamping the upper drums is made in the form of a pneumatic cylinder with a lever, the supply unit is equipped with a frequency converter to change the length of the cutting powder powder Hooray.

Images