SU414415A1 - DEVICE FOR PNEUMATIC CHARGING OF CORDS BY EXPLOSIVE SUBSTANCES - Google Patents

Description

one

The invention relates to the field of the mining industry, namely to devices for pneumatic loading of boreholes with explosive materials.

A device for pneumatically charging bore holes with explosives is known, comprising a housing, an ejector, a charging tube and a trigger lever, kinematically connected with the valve.

A disadvantage of the known devices is the non-automatic regulation of the amount of compressed air entering the ejector.

In order to automatically regulate the compressed air entering the ejector, in the proposed device, an elastic diaphragm, an adjusting screw and a distribution plate with radial and longitudinal channels are installed between the housing and the ejector.

FIG. I schematically depicts a device for pneumatic cord charging with explosives; in fig. 2 - compressed air supply unit; in fig. 3 is a section along A-A in FIG. 2; in fig. 4 is a section according to BB in FIG. 2; in fig. 5 is a section according to BB in FIG. 2

The device consists of a bunker 1 for loading explosives, in the lower part of which there is an ejector chamber K and an ejector 2 installed in it. Against

The ejector has a spout 3, and the charge tube 4 is made of semiconducting polyethylene. The compressed air is supplied to the device by the lever 5, which sits on the axis 6.

A distribution plate 7 is pressed into the bore of the ejector 2. The casing 8 of the air supply unit is screwed to the ejector. The ejector 2 and the housing 8 are separated by a diaphragm 9, clamped on the periphery between the ejector 2 and the housing 8, and in the central part between the annular protrusion M of the housing and the distribution plate 7.

In the housing 8, a ball air valve 10 is located on the thread; its ball 11 is controlled by a pusher 12 mounted on a sliding fit in the housing 8.

In the housing 8 on the thread there is an adjusting screw 13, with a tapered part entering the hole O.

The device works as follows. When you press the lever 5, the end of which is included in the through groove of the housing 8, the pusher 12 moves the ball 11 from its seat. As a result, a passage opens to the compressed air into the cavity r and through the channels D into the cavity E. Next, the air through the annular protrusion M and the central hole in the diaphragm 9 enters the bore of the distribution plate 7 and through the radial channels F through

the holes And falls between the diaphragm 9 and the distribution plate 7. From there, through the holes H, the air passes into the ejector 2, the ejector chamber K and into the charging tube 4. At the same time, a vacuum is created in the ejector chamber K, through which the explosive mixture is sucked from the body of the device into the ejector the chamber is caught by the air flow and is pumped through the charging tube 4 into the hole.

Simultaneously with the entry of compressed air into the cavity E through the hole O, the air passes into chamber P. The filling rate of chamber P depends on the adjustable gap between the hole O and the cone of the adjusting screw 13, as well as the flow rate of compressed air through a small calibrated hole T connecting chamber P with the atmosphere.

Adjusting the position of the screw cone 13 in the hole O sets the required time for filling chamber P with compressed air until the pressure in chamber P is equal to the air pressure in channels Ж and the annular cavity between the distributor plate 7 and the diaphragm 9. As the pressure equalizes, the diaphragm 9 will be approach the distribution plate 7 and reduce the flow area for the compressed air entering the ejector 2. Finally, when the pressures are equal, the diaphragm 9 closes the orifices AND, the air entering the ejector stops.

Thus, the diaphragm 9, smoothly reducing the amount of air entering the ejector, gradually reduces the degree of vacuum in the ejector chamber, proportionally decreases the amount of explosive mixture sucked in, decreases the rate of its entry into the hole, and consequently, changes the charge density along the hole.

Subject invention

A device for pneumatically charging boreholes with explosives, comprising a housing, an ejector, a charging tube and a trigger lever, kinematically associated with a valve, characterized in that, to automatically control the amount of compressed air entering the ejector, an elastic diaphragm is installed between the housing and the ejector , adjusting screw and distribution plate with radial and longitudinal channels.

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