RU78302U1 - DEVICE FOR REMOVING A COPPER LEAD BELT FROM THE APPLIANCE HOUSING - Google Patents

Abstract

The utility model relates to the field of disassembling cartridges, in particular, to the mechanical removal of a copper lead belt from the shells of artillery shells in an automatic universal device that can be retuned to various calibers of products. A device for removing a copper lead belt from a shell fixed to the spindle of the shell includes a knife mounted in a tool head of a caliper equipped with a screw stop, movably mounted in a plane perpendicular to the axis of rotation of the spindle. What is new is that the screw stop is placed on the end of the knife mounted tangentially to the transverse groove of the shell of the shell, in which the copper lead belt is pressed in, with the possibility of relative longitudinal movement in the tool head of the caliper, made in the form of a pin, equipped with a drive for longitudinal feeding of the knife counter to the rotation of the spindle, with respect to the transverse groove of the shell of the projectile, while the drive feed pinole associated with the track control system for the working stroke of the knife. The proposed technical solution ensured the automatic removal of the copper lead belt of various configurations and mounting designs on artillery shells of various calibers, without the interaction of the cutting tool with their body, that is, functionally reliable, without bimetallic chips.

Description

The utility model relates to the field of disassembling cartridges, in particular, to the mechanical removal of a copper lead belt from the shells of artillery shells in an automatic universal device that can be retuned to various calibers of products.

The level of this technical field is characterized by the device described in UA patent No. 43774, F42В 33/06, 2001, which, according to the majority of coinciding features and technical nature, is selected as the closest analogue to the proposed technical solution.

The known device comprises a knife mounted on a balancer (tool head), which is mounted in the form of a wings on a support having horizontal and vertical movements relative to the spindle with the workpiece, the axis of rotation of which is perpendicular to the rocking plane of the balancer.

A screw stop is installed on the balancer, by means of which the angle of the knife stroke is set, which moves radially, crashing into the copper lead belt.

A disadvantage of the known device with a radial feed of a cutting tool cantileverly mounted on the lever to the projectiles being machined is the need for precision executive equipment to prevent possible cutting of the knife into the shell of the projectile, resulting in bimetal chips that are not accepted for disposal.

The separation of metals in the chips is a laborious problem, the technical solution of which is unacceptable in practice.

The objective of which the present utility model is aimed is to increase the functional reliability of the device for removing the copper lead belt, in which the contact of the knife with the metal of the shell body is kinematically eliminated, that is, the formation of bimetal chips.

The required technical result is achieved by the fact that in the known device for removing the copper driving belt from the projectile fixed in the spindle by means of a knife mounted in the tool head of the caliper equipped with a screw stop, movably mounted in a plane perpendicular to the axis of rotation of the spindle, on the proposal of the authors, the screw stop is placed at the end of the knife mounted tangentially to the transverse groove of the shell of the shell in which the copper lead belt is pressed in, with the possibility of relative ceiling elements move in a tool head support, made as a movable sleeve provided with a longitudinal feed drive rotation counter knife spindle,

with respect to the transverse groove of the shell of the projectile, while the drive feed pinole associated with the track control system for the working stroke of the knife.

Distinctive features of the structural scheme of the relationship and interaction of the structural and functional elements of the proposed device ensured the working feed of the knife, cutting the copper belt in thickness, relative to the transverse groove of the shell of the shell, in which the copper lead belt is pressed in, excluding the mechanical interaction of the cutting tool with the shell of the shell.

Placing a screw stop on the end of a knife mounted with the possibility of relative longitudinal movement in the caliper pins provides increased accuracy in adjusting the functioning of the device, regardless of the thickness of the cut copper band.

The installation of the knife tangentially to the transverse groove of the shell of the shell, in which the copper lead belt is pressed in, is aimed at preventing its mechanical interaction with the shell of the shell when the knife is practically free in the final position behind the diameter of the shell of the shell, when the belt cut through the thickness is guaranteed to automatically break due to its feeding by rotation of the spindle.

The execution of the tool head of the caliper in the form of a pinole is aimed at creating a telescopic cutting tool for fine-tuning the stroke and the extreme position of the knife in accordance with the commissioning task.

The supply of the pinoli with the drive of the longitudinal feed counter to the rotation of the spindle ensures the mechanical penetration of the knife across the thickness of the copper lead belt.

The tangent location of the knife relative to the diameter of the transverse groove in which the copper lead girdle is pressed in ensures automatic introduction of the knife to the entire thickness of the cut girdle. In this case, the fixed knife in the extreme working position serves as a guide by which the copper lead belt breaks off the rotating shell of the projectile and deviates into the receiving tray.

The connection of the pinoli drive with the track control system automatically ensures its working stroke with guaranteed supply of the knife for the geometric point of contact with the diameter of the transverse groove of the projectile body, in which the copper lead belt is pressed in, when the latter is cut in thickness, losing continuity, and the copper belt is inevitably separated from force-rotating shell shell.

Therefore, each essential attribute is necessary, and their combination is sufficient to achieve a novelty of quality that is not inherent in the signs of disunity, that is, the technical task posed is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

The essence of the utility model is illustrated by the drawing, which has a purely illustrative purpose and does not limit the scope of the claims of the totality of the features of the formula. The drawing shows the proposed device,

vertical section.

The machined shell of the projectile is mounted in the spindle 1 in such a way that its copper lead belt 2 is located in the plane of the knife 3, which is mounted in the pin 4 with the possibility of longitudinal relative movements from the screw stop 5 mounted at the end of the knife 3 and resting on the cover 6 of the pin 4.

Kinol 4 is installed in the caliper 7, which has the possibility of reciprocating movements in the drawing plane horizontally along the bed and vertically with it (not shown conventionally), which is necessary to adjust the working coaxial relative position of the knife 3 relative to the copper girdle 2 of the projectile body.

The cover 4 is connected by a cover 6 to the plunger 8 of the hydraulic drive 9 of the knife 3 working stroke mounted on the bed, the movements of which are carried out by means of a track control system (not shown conditionally) at the signal of the limit switches 10.

The working position of the knife 3 relative to the quill 4 is fixed by the stopper 11.

Under spindle 1, skliz 12 is fixed.

The device operates as follows.

Before starting work, the device is tuned for a specific standard size of the artillery shell, its caliber, the location of the copper lead belt 2. For this, the shell of the shell without the copper lead belt 2 of the workpiece being processed is installed in spindle 1.

The longitudinal and vertical movements of the caliper 7 set the knife 3 coaxially to the belt 2. Then the knife 3 in the position of the actuator 9 "setting" is fed into the transverse groove of the housing for mounting the copper lead belt 2.

Next, by means of a screw stop 5, a knife 3 is set up with respect to the bottom of the said groove of the projectile body with some overlap of the diameter of the projectile body; the selected working position of the knife 3 is fixed by the stopper 11, and the extreme position of the pin 4 relative to the caliper 7 is registered by the corresponding location of the limit switch 10.

The device is ready to go. In the hydraulic actuator, the working fluid is transferred to return the pusher 8 and, accordingly, the pintles 4 with the knife 3 to the extreme initial position.

After the projectile body is fed from the device’s feeder to remove the copper lead belt 2 to the center line, it is clamped in the spindle 1, the rotation signal of which is fed to the track control system to turn on the hydraulic actuator 9, supplying the pin 4 to the spindle 1.

The force of the pusher 8, the knife 3 is embedded in the counter-rotating copper lead belt 2 clamped in the spindle 1 of the shell of the shell and, passing tangentially under its transverse groove, cuts the belt 2 to the entire thickness.

When this pinol 4 with its movement switches the limit switch 10, the signal of which the pusher 8 of the hydraulic actuator 9 stops,

stopping the longitudinal feed of the knife 3.

The rotation of the spindle 1 continues the rotation of the shell of the shell and the corresponding supply to the fixed knife 3 of the copper lead belt 2, which is pulled out by wedging from the transverse groove where it was pressed.

With a full revolution, the belt 2 inevitably breaks down from the shell of the shell, while the copper lead belt unbends and disengages from the shell of the shell. Under the influence of gravity, the free zone 2 falls into the slime 12 and is removed from the device into a collection tank for disposal.

After a delay time, the working fluid in the hydraulic actuator 9 is reset by the signal of the track control system, as a result of which the structural and functional elements of the device return to their original position.

Then, the processed shell of the projectile, free from the copper lead belt 2, is pushed out of the spindle 1 and the cycle of work is repeated.

A prototype device according to the proposed utility model was successfully tested in laboratory conditions on small-caliber artillery shells of caliber 30 mm and 45 mm with one and two copper lead belts, with appropriate adjustment and adjustments, which gives grounds for recommending it for an industrial implementation for the disposal of ammunition.

A comparative analysis of the proposed technical solution with the identified analogues of the prior art, from which the utility model does not explicitly follow for the specialist in discharging ammunition, showed that it is not known, but taking into account the possibility of industrial serial use of the device for removing the copper lead belt from the shells of artillery shells on existing equipment, it can be concluded that the criteria for patentability are met.

Claims (1)

A device for removing a copper lead belt from a projectile fixed in the spindle of the shell by means of a knife mounted in a tool head of a caliper equipped with a screw stop, movably mounted in a plane perpendicular to the axis of rotation of the spindle, characterized in that the screw stop is placed on the end of the knife installed tangentially to the transverse groove of the body a projectile in which a copper lead belt is pressed in, with the possibility of relative longitudinal movement in the tool head of the caliper, first as a quill, provided with longitudinal feed drive counter-rotating spindle, on the transverse groove of the projectile body, the quill feed drive is associated with the track control system.