SU1093807A1 - Hydraulic monitor - Google Patents

Abstract

A HYDROMONITOR, including a nozzle barrel connected to a flexible hose and mounted on a spacer column, and a barrel rotation cylinder, characterized in that, in order to prevent silting up of the space under the hydromonitor due to the horizontal position of the distance column, above the pulp flow, the trunk is located above the distance column and connected to it by means of a support plate, while the barrel is equipped with a mechanism for its rotation around the longitudinal axis, and the connection of the flexible hose with the barrel is made hinged.

Description

Fig. 11 11. The invention relates to the mining industry and is intended for the coal mining. A hydromonitor is known, which includes a supply pipe, a barrel and hydraulic cylinders for rotating the barrel p1. However, large hydraulic resistances lead to pressure losses and a decrease in the efficiency of hydraulic production. The closest to the invention is a hydromonitor, including a barrel with a nozzle, connected to a flexible shaft and mounted on a spacer column located vertically, and a hydraulic cylinder rotates la 2. A disadvantage of the known device is the possibility of silting up the space under the jet monitor near a vertically mounted spacer column. The purpose of the invention is to prevent silting up of the space under the monitor due to the horizontal arrangement of the spacer column. This goal is achieved by the fact that in a jetting machine, including a barrel with a nozzle, connected to a flexible hose and mounted on a spacer column, and a cylinder of rotation of the barrel, above the pulp stream, the barrel is located above the spacer column and connected to it by means of a support plate, while the barrel is equipped with a mechanism it rotates around the longitudinal axis, and the connection of the flexible hose with the barrel is made hinged. Figure 1 shows the monitor, side view; figure 2 is the same, top view; on fkg.Z - version of the mechanism of rotation of the trunk; figure 4 - section aa in figure 3. The device consists of a barrel 1, which is a shaft rigidly connected to the rotor of the shaft 2 rotation mechanism. The mechanism 2 of rotation of the barrel 1 around its longitudinal axis can be implemented in two versions, the first one, like a jetting machine, in which the rotor is rigidly connected to the barrel, and the latter is a shaft. The second embodiment is by means of gearing. In this case, one of the gear wheels 3 is rigidly connected to the barrel, and the other gear wheel 4 is connected to the rod of the hydraulic cylinder 5 in such a way that during the reciprocating movement of the rod of the hydraulic cylinder 5, the gear wheel 4 performs a rotational movement, which is transmitted to the tooth. 3, which is found to be meshed with the gear wheel 4, and the barrel 1. The gear wheels 3 n 4 and the hydraulic cylinder 5 are closed by a housing. Bearings are in the points of passage through the body, while the body is rigidly connected (in both cases) with the plate 6, in which a groove is made, having a cross section of the shape of a horizontally mounted column 7 and disassembled into the beams development with screw jacks 8. Barrel 1 is connected by means of a swivel 9 with a flexible hose 10. A kerchief is used to give rigidity to the structure} 1. The setting of the radius of rotation of the end of the barrel 1 is carried out by the hydraulic cylinder 12. The installation of the device in the bottomhole and its operation are carried out as follows. In the bottomhole at a certain height from the soil of the mine, a spike 7 is horizontally mounted and it is pulled apart with the help of screw jacks 8 into the sides of the heading. Then, the barrel with the hydraulic cylinder 12 and the mechanism 2 of rotation of the barrel 1, the body of which is rigidly connected to the plate 6, is mounted on the column 7. To do this, place the column 7 in the groove of the plate 6 and close the lid. After supplying the pressurized water through the flexible hose 10, it is supplied to the barrel 1 and, coming out of the latter, destroys the coal mass. The crushed coal, mixed with waste water, flows by gravity under a hydromonitor raised above the soil of the mine. When machining a dab, the rotation mechanism 2 of the barrel 1 carries out noBopdTbi of the barrel around the horizontal axis at a given angle, then one or the other, and the hydraulic cylinder, rom 12 changes the radius of rotation in such a way that a given downhole processing trajectory is obtained. The proposed device prevents silting up of the space under the jetting machine.

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Claims (1)

A HYDRAULIC MONITOR, including a barrel with a nozzle connected to a flexible hose and mounted on an expansion column, and a barrel rotation cylinder, characterized in that, in order to prevent silting of the space under the hydraulic monitor, apart from the horizontal location of the expansion column, above the pulp stream, the barrel is located above the expansion column column and connected to it by means of a base plate, the barrel being equipped with a mechanism for its rotation around the longitudinal axis, and the flexible hose is connected to the barrel by a hinge.