CN101333927A - High pressure setting system without high-pressure pump and its method for controlling high pressure setting - Google Patents

Abstract

The invention discloses a high-pressure initial system without a high-pressure pump and the method used for controlling the high-pressure initial support, which comprises an upright column; the upright column is connected with a pressurizing cylinder; the piston rod cavity of the pressurizing cylinder is connected with the upright column; the pipe lifting pipeline is connected with the piston rod cavity of the pressurizing cylinder through a liquid-filled unidirectional lock; the piston cavity of the pressurizing cylinder is connected with a pressurizing control pipeline; the liquid control opening of the liquid-filled unidirectional lock is connected with the pressurizing control pipeline. The pressurizing cylinder can be a special pressure charger or a bottom lifting jack or other types of jacks. When the column is lifted, firstly, the lifting column control is processed, the pressurizing control is processed while the column lifting control is maintained and the required initial support force is acquired; wherein, the pressurizing control can be the bottom lifting control or the column descending control. The high-pressure initial system which is without a high-pressure pump and the method used for controlling the high-pressure initial support have the advantages of safety, reliability, low cost, simple and convenient operation.

Description

The high pressure of no high-pressure pump is support system and the first method that supports of control high pressure thereof just

Technical field

The present invention relates to a kind of mine roof support technology, relate in particular to a kind of the do not have first support system of high pressure of high-pressure pump and the method that the control high pressure just supports thereof.

Background technology

Generally that use, that be used for hydraulic support at present power source pumping plant pressure mostly is 31.5MPa greatly.For supporting roof better, the current high-pressure pump with 40～50MPa, the setting prop system that booster improves the bracket upright post setting load of having occurred.

The first support system of the high pressure of hydraulic support is fed to each support with high-pressure working medium through high-pressure hose 11 with the 40MPa high-pressure pump as shown in Figure 1 in the prior art.Remove gauge tap valve 12 with special-purpose electromagnetic priority valve 13 and main valve 14 in the support, the working media of 40MPa is supplied with the column cavity of resorption through unidirectional lock 15, realize setting prop.

There is following shortcoming at least in above-mentioned prior art:

High pressure just supports to be needed to be equipped with special-purpose electromagnetic priority valve, main valve, switch valve, also needs electric controller, pressure sensor to gather cavity pressure under the column, issues an order after the analysis and judgement to start high pressure support system just.Electric controller, pressure sensor failure and pressure sensor precision are low all to influence the pressure precision that high pressure just supports startup, causes the many consumption to the high-pressure system flow.Poor stability, complicated operation.

Summary of the invention

The purpose of this invention is to provide a kind of first support system of high pressure safe, easy-operating no high-pressure pump and control high pressure thereof the method for support just.

The objective of the invention is to be achieved through the following technical solutions:

The high pressure of no high-pressure pump of the present invention is support system just, comprise column, described column is connected with the setting prop pipeline, described column also is connected with pressurized cylinder, the rod end chamber of described pressurized cylinder is connected with described column by the supercharging one way valve, described setting prop pipeline is connected with the rod end chamber of described pressurized cylinder by the unidirectional lock of topping up, and the plunger shaft of described pressurized cylinder is connected with the pressurization control pipeline, and the hydraulic control mouth of the unidirectional lock of described topping up is connected with described pressurization control pipeline.

The high pressure of above-mentioned no high-pressure pump of the present invention support system control just high pressure is the method for support just, comprises step:

At first, carry out setting prop control by the setting prop pipeline;

Then, when keeping setting prop control, carry out pressurization control by the pressurization control pipeline.

As seen from the above technical solution provided by the invention, the high pressure of no high-pressure pump of the present invention is support system and the first method that supports of control high pressure thereof just, because column is connected with pressurized cylinder, the rod end chamber of pressurized cylinder is connected with column, the setting prop pipeline is connected with the rod end chamber of pressurized cylinder by the unidirectional lock of topping up, the plunger shaft of pressurized cylinder is connected with the pressurization control pipeline, and the hydraulic control mouth of the unidirectional lock of topping up is connected with the pressurization control pipeline.During setting prop, at first carry out setting prop control, after setting prop arrives preset threshold, when keeping setting prop control, carry out pressurization control, reach the high pressure setting load.Safe, easy to operate.

Description of drawings

Fig. 1 is the schematic diagram of the first support system of high pressure of hydraulic support in the prior art;

Fig. 2 is the first schematic diagram of the specific embodiment one of support system of high pressure of no high-pressure pump of the present invention;

Fig. 3 is the first schematic diagram of the specific embodiment two of support system of high pressure of no high-pressure pump of the present invention;

Fig. 4 is the first schematic diagram of the specific embodiment three of support system of high pressure of no high-pressure pump of the present invention;

Fig. 5 is the first schematic diagram of the specific embodiment four of support system of high pressure of no high-pressure pump of the present invention.

The specific embodiment

The high pressure of no high-pressure pump of the present invention is support system just, and its preferable specific embodiment one comprises column 1 as shown in Figure 2, and column 1 is connected with setting prop pipeline 3 and falls column jecket road 8, is respectively applied for to realize setting prop control and fall post control.Setting prop pipeline 3 is connected with the cavity of resorption of column 1 by the unidirectional lock 2 of setting prop.

Column 1 also is connected with pressurized cylinder 6, is used to realize pressurization control (high pressure just supports control), and concrete pressurized cylinder can be to lift end jack or other jack, also can be the jack etc. of adjacent frame, also can be the special supercharger that is provided with separately.

The rod end chamber of pressurized cylinder 6 is connected with the cavity of resorption of column 1 by pressure duct 5, supercharging one way valve 4, and supercharging one way valve 4 is relative with the direction of the unidirectional lock 2 of setting prop.Setting prop pipeline 3 also is connected with the rod end chamber of pressurized cylinder 6 by charging line 9, the unidirectional lock 10 of topping up, is used to the rod end chamber topping up of pressurized cylinder 6.The plunger shaft of pressurized cylinder 6 is connected with pressurization control pipeline 7, and the hydraulic control mouth of the unidirectional lock 10 of topping up is connected with pressurization control pipeline 7.Pressurization control pipeline 7 can also can be to fall column jecket road 8 or other pipeline etc. for lifting the bottom tube road.As required can also the attachment security valve on the pressure duct 5, can connect one-way throttle valve etc. on the pressurization control pipeline 7.

Specific embodiment two as shown in Figure 3, setting prop pipeline 3 connects reversible locks 16 by charging line 9, the outlet of reversible lock 16 corresponding charging lines 9 is connected with the rod end chamber of pressurized cylinder 6; Another outlet of reversible lock 16 is connected to pressurized cylinder 6 plunger shaft, and the inlet of its correspondence connects pressurization control pipeline 7.All the other are identical with specific embodiment one.

Specific embodiment three as shown in Figure 4, the unidirectional lock 10 of topping up that replaces in the specific embodiments one with a three-position four-way valve with one-way function 17.

Specific embodiment four as shown in Figure 5, pressurization control pipeline 7 is connected to and falls column jecket road 8, just supports by falling column jecket road 8 control high pressure.

The high pressure of the no high-pressure pump that the present invention is above-mentioned support system control just high pressure is the method for support just, comprises step:

At first, carry out setting prop by setting prop pipeline 3; Then, when keeping setting prop, carry out pressurization control by pressurization control pipeline 7.The beginning high pressure column cavity of resorption pressure threshold of support just can be set, when setting prop control reaches this pressure threshold, the beginning pressurization control.

When carrying out pressurization control, the piston of pressurized cylinder 6 can the Halfway Stopping pressurization control, and is controlled to be the rod end chamber topping up by setting prop, and then carries out pressurization control, but this process repeated multiple times reaches requirement until the setting load of column 7.

When the setting load of column 1 reaches requirement, can stop pressurization control, and keep setting prop control 1～3 second or the longer time, the rod end chamber topping up.After stopping setting prop, do very brief pressurization control, with the pressure in the removal pressure duct 5.

Above-mentioned pressurization control can also can be the pressurization control of setting up separately for lifting end control or falling post control, also can be other control.Pressurization control and setting prop control can be passed through same Hydraulic Station feed flow.

So that end jack is a pressurized cylinder, to be controlled to be pressurization control be example to lift the end with lifting, operating principle of the present invention is described in detail below:

Control by setting prop, make the liquid (as the liquid of 31.5MPa pressure) of high-capacity pump station output enter column 1 cavity of resorption through unidirectional lock 2, and its just support pressure can be elevated to pumping plant at that time output pressure (because pumping plant has the automatic deloading valve, its pressure unloading the highest (as 31.5MPa), but recovering pressure, it to hang down (as 26MPa), control by setting prop this moment, one road liquid enters the rod end chamber of lifting end jack 6, its piston rod is regained, finished the topping up process of lifting end jack (pressurized cylinder) simultaneously.When setting prop control reaches the pressure threshold of setting, continue to keep setting prop control, to give again and lift end control, the plunger shaft of then lifting end jack also enters the pressure liquid from pumping plant.Owing to do not waited by the hydraulic action area, formed the booster effect, the liquid after the rod end chamber supercharging enters the column cavity of resorption through pressure duct 5, supercharging one way valve 4, has increased pressure, has improved the column setting load.When a supercharging can't meet the demands, can stop to lift end control, setting prop control can be opened unidirectional lock 10 of topping up or embodiment three reversible locks 16 among the embodiment two, opens and lifts jack piston chamber, end back flow channel, and setting prop liquid entered once more and lifted jack piston rod chamber, the end topping up this moment.Then, give once more and lift end control, improve cavity pressure under the column once more, promptly improve the column setting load once more, can be back and forth several times.After reaching requirement, stop to lift end control at once, but can keep setting prop control several seconds (can be only 1～2S) so that regain the piston rod of lifting end jack.After stopping setting prop control, can lift end control by very brief this, produce fine motion and get final product, purpose is the pressure in the removal pressure duct 5.

The present invention is provided with pressurized cylinder in hydraulic support, needn't little pressurized cylinder all be arranged every root post, but every can be had only a pressurized cylinder.Simply, economy.Can be by automatically controlled programme-control; Also can not rely on automatically controlled.Pressurized energy that can be as required, big pump pressure design the pressurized cylinder of special coupling.And what bear supercharging can be the tubule of low discharge, as DN10, DN8, DN6 tubule, steel pipe etc.The ascending, descending control of column can also be by own original major path flexible pipe, unidirectional lock etc.Therefore lifting column speed is fast.

Among the present invention, also there is high pressure in high pressure without any flexible pipe after just support is finished, safety, reliable, cost is low, simple to operation.

The present invention is provided with booster in support, can be independent special-purpose, also can use certain jack double as booster in the support, when setting prop control exists, give pressurization control again, the column cavity of resorption can be brought up to more than the 42MPa with the first support pressure behind 31.5MPa pressure, the high-capacity pump station setting prop again.

The above; only for the preferable specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, and anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement all should be encompassed within protection scope of the present invention.

Claims (10)

1, a kind of first support system of high pressure that does not have high-pressure pump, comprise column, described column is connected with the setting prop pipeline, it is characterized in that, described column also is connected with pressurized cylinder, and the rod end chamber of described pressurized cylinder is connected with described column by the supercharging one way valve, and described setting prop pipeline is connected with the rod end chamber of described pressurized cylinder by the unidirectional lock of topping up, the plunger shaft of described pressurized cylinder is connected with the pressurization control pipeline, and the hydraulic control mouth of the unidirectional lock of described topping up is connected with described pressurization control pipeline.

2, the first support system of the high pressure of no high-pressure pump according to claim 1 is characterized in that be connected with reversible lock on the described pressurization control pipeline, the hydraulic control mouth of described reversible lock is connected with described setting prop pipeline.

3, the first support system of the high pressure of no high-pressure pump according to claim 1 and 2 is characterized in that described pressurized cylinder is special supercharger or lifts end jack.

4, the first support system of the high pressure of no high-pressure pump according to claim 3 is characterized in that described pressurization control pipeline is for lifting the bottom tube road or falling the column jecket road.

5, the first support system control method of a kind of high pressure of each described no high-pressure pump of claim 1 to 4 is characterized in that, comprises step:

At first, carry out setting prop control by the setting prop pipeline;

Then, when keeping setting prop control, carry out pressurization control by the pressurization control pipeline.

6, the first support method of control high pressure according to claim 5, it is characterized in that, when carrying out described pressurization control, when the piston of described pressurized cylinder stops supercharging and moves, then stop pressurization control, and be controlled to be the rod end chamber topping up of described pressurized cylinder, and then carry out pressurization control by setting prop, this process repeated multiple times reaches requirement until the setting load of described column.

7, the method for the first support of control high pressure according to claim 6 is characterized in that, when the setting load of described column reaches requirement, stops pressurization control, and keeps described setting prop control 1～3 second.

8, the method for the first support of control high pressure according to claim 7 is characterized in that, after the described setting prop control of maintenance 1～3 second, and very brief described pressurization control.

9, the method that just supports according to each described control high pressure of claim 5 to 8 is characterized in that, described pressurization control is for lifting end control or falling post control.

10, the method that just supports according to each described control high pressure of claim 5 to 8 is characterized in that, described pressurization control and the control of described setting prop are by same Hydraulic Station feed flow.

Images