RU2586085C1 - Dispenser of pyrotechnic compositions - Google Patents

Abstract

FIELD: measuring devices.

SUBSTANCE: invention relates to cyclic measurement of volumes of loose material doses, and more specifically to automatic batchers with external control for repeated measurement and dispensing of preset volumes of loose material, irrespective of its feed from accumulator, and is intended for automatic volumetric batching of pyrotechnic compositions doses for forming of pyro elements. Proposed pyrotechnic compositions dispenser includes hopper with discharge pipe above central drive shaft fixed on transporting disc with measuring vessels mounted on frame, distributed along periphery, series coinciding with through slotted opening, adjacent transfer support, directed to measured doses in matrix tableting supply tray, wherein adjacent to transporting disc transfer support is made in form of rotary coil, which through inclined window in lower flange with hopper and additional tray for unloading containers into process is commutated by track control system comprising made in lower flange coil of separate kinematic closure arc cam with rods of two pneumatic cylinders diametrically mounted on frame, positioning transporting disc, which is made convex, preferably conical. At that, rods of pneumatic cylinders are arranged in locating holes of fixed bracket adjoining lower flange of rotating coil.

EFFECT: technical result consists in expansion of technological capabilities of safe in handling pyrotechnic compositions dispenser, automated in full cycle of operations, with high accuracy of volumetric batching of various materials doses with different grain size and tribo properties.

2 cl, 4 dwg

Description

The invention relates to devices for cyclic measurement of volumes of bulk material in doses, and more particularly to automatic dispensers with external control for repeated measuring and delivery of predetermined volumes of bulk material, regardless of how it is fed from the drive, and is intended for automatic volumetric metering of doses of pyrotechnic compositions for the formation of pyroelements.

The level of this technical field is characterized by the device for dispensing bulk materials described in SU No. 1344683, B65B 1/36, 1986, which contains a hopper with an outlet pipe located parallel to it and a coaxially metering disk with measuring tanks, mounted for rotation, and a fixed disk with a through hole for unloading. A disk with measuring tanks is installed with the possibility of vertical movement, and the exhaust pipe and measuring tanks include movable and fixed structural elements.

This design prevents extrusion of measured containers and completely eliminates gaps between the contacting elements, which is aimed at reducing losses of technological bulk material, since the volume of the dosing containers is changed by changing the height of the fixed part of the measuring container, at which the layer thickness of the material being moved changes, and the diameter remains constant .

However, the disadvantages of the described device should include significant interoperational losses of pyrotechnic compositions due to arching of bulk material in measuring containers during its deformation compaction from friction along the support during transportation to the discharge window.

The possibility of freezing a measured dose of bulk material occurs with increasing height of the measuring capacity relative to its diameter.

When the height decreases, the material transitions to the limiting state, as a result of which its surface swells under the influence of material friction on the surface of the fixed disk and partially passes to the surface of the moving disk, which leads to more significant losses than in the gaps between the contacting surfaces, reducing the functional reliability of the metering devices.

The noted drawback is eliminated in a more advanced device according to the patent RU 2227273 C2, G01F 11/00, 2004, which, according to the technical nature and the number of matching features, is selected as the closest analogue to the proposed device for dispensing bulk materials.

The known dispensing device comprises a hopper with a vertically movable outlet pipe adjacent by means of an open end to the working path of the dispensing disk, where the measuring containers are distributed - through calibrated holes.

The metering disk is mounted on a vertical drive shaft and is adjacent to the disk support in a plane in which an inclined through hole for unloading the dose of material is made.

Each measuring tank is equipped with an external flange, which is adjacent to the surface of the supporting disk.

A design feature is that the width of the discharge opening is less than the outer diameter of the shoulder and larger than the diameter of the measuring tank, and the ratio of the height of the measuring tank to its internal diameter is optimized in the range from 0.3 to 0.5, which guaranteed the functional reliability of the device as a whole , with a marked reduction in the loss of technological material.

Optimization of the geometric parameters of the measured capacity in their ratio guaranteed to ensure complete unloading of measured doses of bulk material.

However, a disadvantage of the known volumetric dosing device is the impossibility of mobile automatic unloading of the remains of the dosed material from the hopper at the end of the shift or when switching to another pyrotechnic composition. The bunker is emptied manually using a scraper device from the gap formed by the vertical movement of the nozzle by the operator upward relative to the bunker, which is time-consuming, unsafe and involves large losses of energy-containing material.

In addition, the known device is characterized by a relatively large error in volumetric dosing of bulk material, limiting its use for the manufacture of critical pyrotechnic products from multicomponent mixtures requiring high accuracy of the mass ratio of structural components.

The technical problem to which the present invention is directed is to expand the technological capabilities of a pyrotechnic dispenser safe in official circulation, automated in a full cycle of operations, with high accuracy of volumetric metering of doses of various materials of different particle size distribution and tribological properties.

The required technical result is achieved by the fact that in the known dispenser of pyrotechnic compositions, comprising a hopper mounted on a bed with an outlet pipe above a conveyor disk mounted on a central drive shaft with measuring containers distributed around the periphery, sequentially aligned with the through slotted window of the adjacent overload support directed to the tray feeding metered doses into the tabletting matrix according to the invention, the overload support adjacent to the transported disk is made in the form a rotary coil, a through window in the lower flange of which is connected to the hopper and an additional discharge tray into the technological container using a track control system containing an arc cam of a separate kinematic circuit made in the lower flange of the coil with the rods of two pneumatic cylinders diametrically mounted on the bed, positioning the transporting disk made convex, mainly conical, while the rods of the pneumatic cylinders are placed in the base holes of the fixed bracket a adjacent to the lower flange of the swivel coil.

Another feature of the dispenser according to the invention is that the measured capacities of the transporting disk are made in the form of successive precision bushes, the total volume of which corresponds to the measured dose, and the bushes are replaceable in the working path of the transporting disk.

Distinctive features of the proposed technical solution provided safety in the official handling of energy-saturated bulk material when automating the process of emptying the hopper from the stocks of the dosed pyrotechnic composition, which are carried out in the dispenser according to the invention by means of an integrated track control system that positions the through slotted window of the overload disk under the hopper nozzle when combined with an additional unloading tray in a technological container, thereby ensuring automatic change to iruemogo bulk material, without loss of technological auxiliary operations.

The implementation of the overload support adjacent to the transporting disk in the form of a rotary coil made it possible to place in its lower flange a control cam for sequential positioning of measuring tanks and a support overload window under the hopper.

Separate closure of the arc cam in the flange of the rotary coil with the rods of pneumatic cylinders mounted on the bed forms a track control system for automatically controlling the rotations of the transporting disk, which additionally provides its joint movement, with support for overload, when they are frictionly coupled, to position respectively the measured capacitance and the overload window with an additional tray for unloading residual material from the hopper.

Making the conveying disk convex from the working ring path to the center prevents radial movement of particles of pyrotechnic composition that have woken up during dispensing and are forcibly swept into the discharge chute by the adjoining hopper nozzle, which increases work safety and reduces losses of pyrotechnic material.

The conical shape of the convexity of the conveying disk is the most technologically advanced and easiest to manufacture.

The placement of the locking rods of the pneumatic cylinders in an additional support - the base holes of the fixed bracket adjacent to the flange of the rotary coil, increases their bearing resistance, due to the distribution of bending loads.

The implementation of the measured capacities of the transporting disk in the form of a group of precision bushings arranged in series mounted in its working annular track, the total volume of which is nominally comparable with the volume of the tank, by definition increases the accuracy of dosing of energy-containing material for critical pyrotechnic products.

The installation of precision bushings in the annular track of the transporting disk with the possibility of quick removal allows you to change the size and number of bushings to adapt the replaceable pyrotechnic composition at the dosage in accordance with its physical characteristics: dispersion, flowability, internal friction, etc.

Therefore, each essential feature is necessary, and their combination is sufficient to achieve the novelty of quality that is not inherent in the signs of disunity, that is, the technical problem posed in the invention is not the sum of effects, but a new super-effect of the sum of the features.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the invention does not explicitly follow, for a specialist in volumetric dosing equipment, showed that it is unknown, and given the possibility of industrial serial production of a device for volumetric dosing of bulk materials, we can conclude on compliance with the conditions of patentability.

The essence of the proposed technical solution is illustrated by the drawing, which has a purely illustrative purpose and does not limit the amount of claims of the totality of the essential features of the formula.

The drawing shows: in FIG. 1 - general view of the dispenser, vertical section; in FIG. 2 is a section along AA in FIG. one; in FIG. 3 is a section along BB in FIG. one; in FIG. 4 is the same embodiment.

A central shaft 2 is mounted in the dispenser bed 1, which carries a transporting disk 3 fixed at the end and rigidly connected to the drive gear 4.

In the peripheral annular track of the transporting disk 3, measured tanks 5 are made for a measured dose of a loose pyrotechnic composition filling the hopper 6 with an outlet pipe 7.

The transporting disk 3 from the annular working path to the center of attachment at the end of the shaft 2 is made conical, that is, has a convex shape.

An annular peripheral track of the transporting disk 3 is placed between the outlet pipe 7 of the hopper 6 and the adjacent overload support 8, equipped with a through slotted window 9, inclined towards the tray 10 for supplying measured doses of bulk pyrotechnic composition to the matrix 11 for unit tableting.

The angle of inclination of the slit window 9 exceeds the angle of repose of the metered bulk pyrotechnic composition and is at least 50 °, which prevents the formation of arches and freezing of material, which is guaranteed to fall out of the container 5 when combined with the window 9 and further into the tray 10.

A feature of the dispenser according to the invention is that each measuring container 5 of the overload support 8 can be made in the form of at least three precision bushings 12 sequentially fixed in its peripheral annular track (Fig. 4), the total volume of which corresponds to the nominal value measured for pressing functional tablets dose of pyrotechnic composition in a container.

Each structural part of the measured dose in bushings 12, by definition, has a lower absolute error, therefore, taking into account the law of normal distribution, when forming the measured target dose from its structural parts of a smaller volume, the total error of a more accurate absolute value is averaged, i.e., the measured dose in in this case, more accurate than dosed in one container 5 of equal volume.

The overload support 8 is made in the form of a rotary coil (Fig. 1), the lower flange 13 of which is equipped with an arc closed cam - a through groove 14 (Fig. 2), separately interacting respectively with the rods 15 and 16 of the pneumatic cylinders 17 and 18, mounted on the frame 1.

In this case, the rods 15,16 are placed respectively in the base through holes 19, 20 (Fig. 1) of the bracket 21 adjacent to the flange 13 and mounted on the frame 1, which creates an additional support for the rods 15 and 16, compensating for bending loads when locking the flange 13 from rotation.

Under the outlet pipe 7 of the hopper 6 on the frame 1, an additional outlet tray 22 is fixed in the removable technological container 23.

The dispenser operates as follows.

In the initial position, the rod 15 of the pneumatic cylinder 17 is in its highest position and through the through hole 19 of the bracket 21 is closed in the groove 14 of the flange 13, excluding its rotation, and the rod 16 of the pneumatic cylinder 18 is in its lowest position, without interacting with the flange 13 and, therefore, with support 8 overload, slotted window 9 which is stationary above the tray 10, directed into the matrix 11.

When the drive of the device is turned on, a container 5 or a group of bushings 12 of equal volume installed in the transporting disk 3 by turning the central shaft 2 are installed under the outlet pipe 7, from which the loose pyrotechnic composition fills their volume.

When the shaft 2 of the transporting disk 3 is rotated, the pyrotechnic composition located in the nozzle 7 is cut off from the filled tank 5 or bushings 12, which are transferred to the diametric position of the dispenser, until the overload in the support 8 is aligned with the slotted window 9.

In this case, the pyrotechnic composition from the container 5 or the bushings 12 (sequentially) is poured into the tray 10, through which it is gravitationally fed into the matrix 11 in the full volume of the measured dose, where it is sealed in the form of a functional tablet, and then instructively pushed into the receiver.

At the same time, at the loading position from the hopper 6, the diametrically placed measuring container 5 (sleeve 12) of the disk 3 is filled from the pipe 7 with a pyrotechnic composition, and the cycle repeats.

It should be noted that in this case, the particles of the dosage composition that had previously woken up on the working annular path of the transporting disk 3 by the adjacent end of the nozzle 7 deviate from the motion path and are poured into the outlet tray 22 and accumulate in the technological container 23.

Upon completion of work or a change in the type of pyrotechnic composition being processed, the dispenser drive is switched off, and the pneumatic cylinders 17 and 18 are switched, as a result of which, respectively, the rod 15 leaves the groove 14 and lowers to the lowermost position to the base hole 19 of the bracket 21, and the rod 16 rises to the extreme upper position, mounted in an arc closed cam 14 of the flange 13, adjacent to its left end according to the drawing of FIG. 1 and 2.

Then, the dispenser drive is turned on and the shaft 8 supports 8, which is frictionally engaged with the transporting disk 3, rotates synchronously (the rod 16 moves freely along the cam 14), while the slot overload window 9 is installed above the discharge tray 22, into which the remains of the pyrotechnic composition from the hopper 6 through the combined pipe 7, the measuring tank 5 (sleeve 12) and the through window 9, accumulating in the technological container 23.

After removing the pyrotechnic composition from the hopper 6, the technological container 23 is removed from the bed 1 and transported to an isolated room for storage.

If necessary, in the support 8 of the overload, the container 5 is replaced with sleeves 12 (or vice versa), after which the dispenser is set to its original position and the hopper 6 is filled with a new mixture, which is dosed as described above.

Tests of the prototype of the proposed design of the dispenser showed stable work in separating from the array of prepared pyrotechnic mixture in the hopper 6 measured portions with a given accuracy in volume, which are automatically completely overloaded through the slotted inclined window 9 of the support 8 into the matrix 11 of the tablet seal.

Comparison of the proposed technical solution with the closest prior art analogues did not reveal an identical match of the totality of the essential features of the invention.

The proposed differences in a hand-held extinguishing aerosol generator are not obvious to a specialist in fire fighting equipment that does not directly follow from the statement of a technical problem.

The combination of the structural elements of the proposed generator in their interconnection can be carried out at the existing production of fire extinguishers, equipping customers with individual means of suppressing fire sources.

From the foregoing, we can conclude that the invention meets the conditions of patentability.

Claims (2)

1. A dispenser of pyrotechnic compositions, including a hopper mounted on a bed with an outlet pipe over a conveyor disk mounted on the central drive shaft with measuring containers distributed around the periphery, sequentially aligned with the through slotted window of the adjoining overload support directed to the metered dose supply tray into the tablet matrix, characterized in that the overload support adjacent to the transporting disk is made in the form of a rotary coil, a through inclined window in the lower flange of The hopper with a hopper and an additional unloading tray in the technological container is switched by means of a track control system containing an arc cam of a separate kinematic closure made in the lower flange of the coil with rods of two pneumatic cylinders diametrically mounted on the bed, positioning the conveying disk, made convex, mainly conical, while the rods are pneumatic placed in the base holes of the fixed bracket adjacent to the lower flange of the rotary coil. 2. The dispenser according to claim 1, characterized in that the measured capacities of the transporting disk are made in the form of successive precision bushes, the total volume of which corresponds to the measured dose, and the bushes are installed in the working path of the transporting disk with the possibility of replacement.

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