CS235077B2 - Jacketed high-pressure hose for feeding of hydraulic consumers in mines - Google Patents

Abstract

A composite high pressure hose device for a mining machine has a flexible inner conduit 1 protected within a flexible outer sheath 10. An annular gap 12 is established between the sheath 10 and the conduit 11. Sensing means 14 built onto the device senses a change in the pressure in the gap 12 indicating leakage in the outer sheath 10 or the inner conduit 11 and can initiate a control sequence to shut-off a pump supplying the fluid or to actuate an isolating valve. <IMAGE>

Description

The invention relates to jacketed high-pressure hoses for supplying hydraulic appliances in mining operations, in particular for use as a trailed hose for the mining tools of mining machines provided with high-pressure nozzles, particularly in coal plows.

There are known devices for hydraulic or combined mechanical and hydraulic mining of coal or other minerals in underground operations, in which cutting nozzles operating with high pressure water are used as hydraulic extraction tools. For example, British Patent No. 672,336 discloses a mining machine consisting of a coal plow or a cutting machine which is equipped with mechanical disconnecting tools and hydraulic disconnecting tools consisting of high-pressure nozzles, so that there is a combined mechanical and hydraulic coal mining.

It is also known from DAS No. 23 07 413 to hydromechanical coal mining, in which the high-pressure nozzles are arranged on the joist and on the front beam of the sliding frame of the reinforcement extending over the entire length of the face pillar or on the plow guided therein. reinforcement in such a way that the face pillar is fully hydrodynamic. way.

When hydraulic coal or other minerals are mined, the highest pressures of at least about 50 MPa, at most 60 to 100 MPa, must be employed. It is clear that the supply of pressurized water to the cutting nozzles by means of the hoses at the highest pressures in underground mining operations causes considerable problems, since rupture or leakage of the hoses would lead to a considerable threat to the crew of the lumbering. This is particularly true if the hose at the highest pressures is to be towed behind it by the mining machine as a trailing hose, since the trailed hose is particularly stressed in underground operation.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a high-pressure hose of the above-mentioned type, which is dimensioned to the highest pressures, so as to prevent the crew from being exposed to leaks or rupture of the hose line.

This object is achieved according to the invention in that the high-pressure hose is arranged in the jacket hose while leaving a gap and this arrangement comprises a control. a device controlling the pressure state in said gap. This monitoring device preferably consists of a monitoring device which, when the pressure state in the annular gap between the high pressure hose and the jacket hose changes, disconnects the high pressure supply or stops the high pressure pump. The monitoring device or control device can be arranged on the connecting fitting located at the end of the high-pressure hose.

Accordingly, in the hose line of the invention, the sheath hose has an inner diameter such that it is possible to receive a high pressure hose which is dimensioned to the desired operating pressure, for example from 70 to 80 MPa, leaving an annular space between the high pressure hose and sheath if the high pressure hose is leaking, it can create internal pressure. The internal pressure of the casing hose is monitored by means of a device which, in the case of a predetermined pressure rise, cuts off the high-pressure pump or closes the high-pressure supply by switching the valve. However, there is also the possibility of maintaining a certain internal pressure in the annular space, suitably low pressure, which increases in the event of a leakage of the high-pressure hose and which decreases when the outer casing hose is leaked. In this case, the monitoring device is sized to respond both to the rise and fall of the internal pressure.

The casing hose serves not only for the guard function, but also as a protective casing which protects the inner high pressure hose against wear and other external influences. The sheath hose is designed to maintain an internal pressure within the annular gap that corresponds to the operating pressure of the high pressure line. In general, it is recommended that the sheath hose be made of a multi-layer reinforced hose that is provided with a highly resistant coating.

In a preferred embodiment, the inner high pressure hose consists of individual hose sections which are connected to each other, while the sheath hose comprising the inner hose is formed from a one-piece through hose. The hose sections of the high-pressure hose can be connected via connecting fittings. It will be understood that the inner diameter of the through casing hose is dimensioned in such a way that it also accommodates the connecting fittings.

The high-pressure hose of the invention is preferably used to supply pressurized water to the high-pressure nozzles arranged on a mining machine. In this case, it can be used as a trailed hose. The arrangement is expediently such that the high-pressure hose is connected to the high-pressure piping about the middle of the face wall so that it is stretched at the end stations of the mining machine on the main and auxiliary drives and forms a hose loop in the intermediate positions. for a trailing hose arranged on the base side of the face conveyor, as is known per se.

An exemplary embodiment of the invention is shown in the drawing in a view and partly in section.

The illustrated hose guide consists of a flexible sheath hose 10 which has inside it. a flexible high-pressure hose 11 designed for the highest pressure. The inner diameter of the sheath hose 10 is sized such that an annular gap 12 is provided between the sheath hose 10 and the high pressure hose 11, in which pressure is created when the high pressure hose 11 is sealed. The hose line has connecting fittings 13 at both ends, which are connected to the sleeve hose 10 and the high pressure line 11. At the connecting fittings 13, control devices 14 are connected which monitor the internal pressure in the gap 12 and which, when the internal pressure rises a predetermined value gives a hydraulic, pneumatic or electrical control signal that the high-pressure pump to which the high-pressure hose 11 is connected turns off or closes a shut-off valve that is arranged between the high-pressure pump and the beginning of the hose line. The valve may also be provided on the connecting fitting 13.

There is also the possibility of keeping the annular gap 12 below a predetermined internal pressure of the hydraulic or pneumatic pressure environment. In this case, the monitoring and control devices 14 are sized so that they react both when the pressure rises and when the internal pressure drops, and disconnects the pump or closes the valve. In this case, the jacket hose 10 is also checked for leaks.

Suitably, the sheath hose 10 is sized to withstand the internal pressure in the annular gap 12 that corresponds to the highest pressure in the high pressure hose

The hose line consists of a plurality of hose sections which are connected to each other by hose connectors 15. In contrast, the sheath hose 10 consists of a single continuous hose.

However, there is also the possibility of connecting a plurality of the high-pressure hoses 11 shown in the drawing by a connecting fitting 13 to a longer hose line, whereby the control and actuating devices 14 can be provided not only at both ends of the high pressure hoses 11 but also over the entire length of the hose.

The high pressure hose 11 consists, as is known, of a reinforced, multilayer hose, which is not shown in the drawing. Accordingly, it is also recommended to manufacture the sheath hose 10 from a multi-layer reinforced hose, the outer layer or coating of which preferably consists of a highly abrasion-resistant material.

Claims (8)

Cladded high pressure hose for supplying hydraulic appliances in mining operations, in particular adapted as a trailed hose for mining tools provided with high pressure nozzles, in mining machines, in particular coal plows, characterized in that the high pressure hose (11) is arranged with a gap (12) in the sheath hose (10), this arrangement comprises a control device (14) for controlling the pressure condition in the gap (12). Sheathed high pressure hose according to claim 1, characterized in that the monitoring device consists of at least one control device (14) for disconnecting the supply of the high-pressure line or the high-pressure pump, when the pressure in the gap (12) changes. 3. The jacketed high-pressure hose according to claim 1 or 2, characterized in that an internal pressure is created in the gap (12) between the jacket hose (10) and the high pressure hose (11), the control device responding both to the rise and fall internal pressure. Sheathed high pressure hose according to claim 2 or 3, characterized in that the monitoring device has a plurality of monitoring and control devices (14), at least one monitoring and control device (14) being provided at each end of the high pressure line. Sheathed high pressure hose according to one of Claims 2 to 4, characterized in that the monitoring and control device (14) is arranged on a connecting fitting (13) located at the end of the high pressure hose (11). Sheathed high pressure hose according to one of Claims 1 to 5, characterized in that the high pressure hose (11) arranged in the through jacket hose (10) consists of individual mutually connected hose sections. 7. The jacketed high-pressure hose of claim 6, wherein the tubular sections are connected by connecting fittings (15) and the through jacket hose (10) has an inner diameter such that it also includes connecting fittings. Sheathed high pressure hose according to one of Claims 1 to 7, characterized in that the sheath hose (10) consists of a multi-layer, reinforced hose with a highly abrasion-resistant coating.