SU741214A1 - Layer of linear continuous charges - Google Patents

Description

The invention relates to seismic exploration and is intended to implement> methods for generating elastic vibrations by explosions of linear continuous charges when laying the latter under 5 snow on an unbroken surface of frozen ground.

A device for laying a continuous linear charge into the soil, made in the form of a trailed unit mounted on a floating base type raft pontoon. The working body of the device is two knives located one after the other, on the back of one of which passes a charge line with a former [1].

Also known are linear charge stackers made in the form of special ones? plow mechanisms equipped with device-20 assembly for unwinding, stacking and filling the detonating cord [2].

However, these devices have insufficient maneuverability for winter seismic surveys, their knives are adapted for work on thawed soils of 1-111 drillability categories and do not provide for laying a linear charge of half snow with the observance of technology requirements at different thicknesses of snow cover and pronounced microrelief of the frozen surface soil.

The closest in technical essence to the invention is a stacker of linear continuous charges, consisting of a base machine, a knife with charge lines and a hydraulic system. In the device, two vertical knife-cutters have a cutting plate attached at an angle to the plane of the knife at the end immersed in the soil with a replaceable tubular tip, the device is designed to lay a linear poison, consisting of a detonating cord, under an unreared soil layer to a certain depth at the end of the lateral grooves formed by a knife-cutter and a cutting plate [3]. However, this device can only be used during summer seismic surveys to lay charges in soft soil, and the system on Eski-cutter knives prevents av25-automatic changing line charge laying depth in the process. The configuration of the knives, the presence of cutting plates and flaps, increasing the width of the cut, completely exclude the possibility of using this loader from 74 and swampy areas when laying a linear charge under snow on a frozen ground covered with hummocks and stumps.

The purpose of the invention is the elimination of the noted drawbacks of the linear charge loader and the creation of a maneuverable device capable of laying a continuous linear charge on the surface of the frozen ground under an unbroken layer of snow of various thicknesses in taiga and marshy areas in the presence of stumps and a pronounced microrelief of the surface of frozen ground.

This goal is achieved by the fact that the knife is a double hinge that provides jero rotation in the horizontal plane and plane-napart — moving vertically, is connected to two end points of the longitudinal rods of the parallelogram type linkage, controlled by a hydraulic cylinder and pivotally connected to the skeleton of the base machine, and the knife is made with an angle of less 90® • between its front face and a horizontal plane passing through its base, and hydraulics yn _g alignment lifting knife introduced the reducing valve, the stabilizer licking it to the ground.

In FIG. 1 shows a stacker, general view; in FIG. 2 is a diagram of a deepening knife.

The stacker consists of a knife 1 with charge lines 2, pivotally mounted on a parallelogram type hitch, consisting of two longitudinal rods 3 and 4, movably connected at one end with an arm 5 mounted on the tractor 6, and the other with a plate 7, which together with the plate 7 the upper part of the knife protrusion 8 and the connecting finger 9 forms a hinge.

Knife 1 consists of a vertical flat base box-shaped 10, to the lower part of which cutting plates 11 are attached from 2 sides, the hitch of knife 1 is controlled by a hydraulic system including a pump 12, a hydraulic control mechanism 13, a pressure reducing valve 14, a tank with hydraulic fluid 15 and a hydraulic cylinder GB;

The device operates as follows.

Free end pre. the prepared charge from the detonating cord 17 is passed through a charge line 2, passing first inside the base 10, and then along a predetermined plane of the cutting plates 11 and secured to the ground with a fork 18. The knife 1 is immersed in snow until it stops in frozen ground 4, and then the tractor begins to move.

In the event of a collision of one of the cutting plates 11 with an obstacle (marsh hummock, stone, stump), the cutting load on the knife 1 becomes asymmetric, as a result of which it rotates around the connecting finger 9, and around the obstacle, it again becomes in its original position. corresponding to the smallest cutting force. Since the front edge of knife 1 has an angle of less than 90 ° with a horizontal plane passing through its base, it, without crashing into the protrusions of the microrelief, slides along them, while the force of pressing the knife to the surface of the earth remains constant regardless of its microrelief, since in the case of a knife 1 hitting a hill, the excess pressure arising in the working plane of the hydraulic cylinder 16 is vented by the pressure reducing valve 14, in the case of the knife 1 falling into the depression, the pressure in the working plane of the hydraulic cylinder 16 is restored by pump running 12. Therefore, knife 1, copying the microrelief, presses the soft litter of moss and leaves and puts the charge from the detonating cord on a solid base.

The proposed debugger allows you to mechanize the work of preparing linear charges for explosion in difficult terrain, improves the accuracy of stacking charges and helps to increase the efficiency of work on the excitation of elastic vibrations during seismic surveys. At the same time, an increase in the explosion efficiency of a linear continuous charge is achieved by laying it on a solid foundation of frozen ground and shielding: the explosion is not loosened by a layer of snow.

Claims (3)

 1. USSR author's certificate 282160, .kl. E 02, 1969. 2. The patent of England No. 1151882, cl. H 4D, pub. 1968. 3. Certificate of CCCt No. 483639, class, Q 01 V 1/12, publish 1973 (prototype). / g / 5 / D LD D