CN204985152U - Two -way hydraulic pressure of combined type plays to rise dam - Google Patents

Abstract

The utility model discloses a two -way hydraulic pressure of combined type plays to rise dam has: hydraulic means, pivot and dam body, dam body fixed mounting are in the pivot, and the pivot is rotationally installed on the bearing frame, and through setting up first piston rod into hollow structure, the second piston rod stretches into in the through -hole of first piston rod and can slide in the through -hole, the one end and second piston rod packing of cylinder bobbin base are kept away from to the second piston rod, the second piston rod is connected with the dam body, with the oil circuit that fuel feeding mechanism is connected, the oil circuit respectively is equipped with an oil pipe and has let in pole chamber and nos pole chamber, hinders and also can put the dam smoothly and fall dam, low in manufacturing cost, processing conveniently even receive the debris card.

Description

Combined bidirectional hydraulic lifting dam

Technical field

The utility model belongs to hydraulic engineering technical field, particularly relates to combined bidirectional hydraulic lifting dam.

Background technique

Existing hydraulic pressure dam oil cylinder is rely on external force (pressure of water and gate are from gravity) to realize putting dam to fall dam mostly.

Realizing in process of the present utility model, model utility people finds that prior art at least exists following problem: often because be subject to the impact of foreign material jam and piston rod surface spot, under the effect not having enough hydraulic pressure external force, gate door leaf is under rise (closedown) state, only rely on the gravity of gate self, dam operation falls in very difficult realization, needs the effect by external force just can complete.

Model utility content

Even if technical problem to be solved in the utility model is to provide a kind of foreign material jam that is subject to and also can puts dam smoothly and fall dam, low cost of manufacture, combined bidirectional hydraulic lifting dam easy to process.

In order to solve the problems of the technologies described above, the technological scheme that the utility model adopts is: combined bidirectional hydraulic lifting dam, has:

Hydraulic pressure installation, rotating shaft and dam body, described dam body is fixedly mounted in rotating shaft, and described rotating shaft is installed in rotation on bearing support;

Described hydraulic pressure installation has:

Cylinder barrel;

Stretch into described cylinder barrel and the first piston bar that can slide in cylinder barrel, wherein, described first piston boom end is installed with the piston sealed with cylinder barrel; Cylinder barrel inner space is divided into rod chamber and rodless cavity by described first piston bar and piston;

Be arranged on cylinder barrel opening end, make cylinder barrel and first piston bar keep the cylinder cap sealed;

Second piston rod, described first piston bar is hollow-core construction, can slide in the through hole that described second piston rod stretches into first piston bar in described through hole; Described first piston bar is away from the one end at the bottom of cylinder barrel cylinder and the second rod seal; Described second piston rod is connected with dam body;

The oil circuit be connected with oil feeding mechanism, described oil circuit is respectively provided with an oil pipe and passes into rod chamber and rodless cavity.

Described second piston rod one end at the bottom of cylinder barrel cylinder is provided with back-up ring, be provided with the snap ring of spacing described back-up ring in described first piston rod through-hole near the one end at the bottom of cylinder barrel cylinder, in described first piston rod through-hole, be provided with the spacing described back-up ring of step away from the one end at the bottom of cylinder barrel cylinder.

Described second piston rod one end at the bottom of cylinder barrel cylinder is taper, and the conical surface of described snap ring and the second piston rod is suitable.

Described dam body is the dam that hoists, described second piston rod end and the described dam that hoists hinged.

Described rod chamber is provided with overpressure protection valve.

The using method on above-mentioned combined bidirectional hydraulic lifting dam, using method comprises the steps:

1) hydraulic lifting dam gate is under rise (closedown) state, and first piston bar and second piston rod of oil cylinder are all in the state of stretching out;

2) when needs put dam dam falls and time, by oil pipe to rod chamber injection liquid force feed, rodless cavity oil return, produces first piston bar backhaul pulling force, promotes first piston bar and shrinks in cylinder barrel, drives gate to tilt;

3) when gate angle of inclination becomes large gradually, the pressure and the gate that act on the external force-water of oil cylinder increase gradually from gravity, promote the second piston rod and first piston bar slides in cylinder barrel, thus realize gate and fall dam smoothly;

4) when needs rise dam, by oil pipe to rodless cavity injection liquid force feed, rod chamber oil return, promotes first piston bar and the second piston rod stretches out, and promotes gate and hoists.

A technological scheme tool in technique scheme has the following advantages or beneficial effect, arranges hydraulic circuit at rod chamber, by rod chamber oil-feed pressurization, produces piston rod backhaul pulling force, drives gate to decline; Along with the Stepwize Shrink of rod chamber, gate angle of inclination is also strengthened gradually, and pressure (pushing away) power that gate deadweight produces oil cylinder is also increasing, thus realizes gate and fall dam smoothly.

Accompanying drawing explanation

The structural representation on combined bidirectional hydraulic lifting dam of Fig. 1 for providing in the utility model embodiment;

Fig. 2 is the structural representation of the oil hydraulic cylinder of Fig. 1;

Fig. 3 is the side view of Fig. 2;

Mark in above-mentioned figure is: 1, cylinder barrel, and 11, rod chamber, 12, rodless cavity, 2, first piston bar, 21, snap ring, 3, cylinder cap, 4, piston, the 5, second piston rod, 51, back-up ring, 6, hydraulic station, 7, rotating shaft, 8, dam body.

Embodiment

For making the purpose of this utility model, technological scheme and advantage clearly, below in conjunction with accompanying drawing, the utility model mode of execution is described in further detail.

Embodiment one

See Fig. 1, combined bidirectional hydraulic lifting dam, has:

Hydraulic pressure installation, rotating shaft and dam body, dam body is fixedly mounted in rotating shaft, and rotating shaft is installed in rotation on bearing support;

As shown in Figures 2 and 3, hydraulic pressure installation has:

Cylinder barrel;

Stretch into cylinder barrel and the first piston bar that can slide in cylinder barrel, wherein, first piston boom end is installed with the piston sealed with cylinder barrel; Cylinder barrel inner space is divided into rod chamber and rodless cavity by first piston bar and piston;

Be arranged on cylinder barrel opening end, make cylinder barrel and first piston bar keep the cylinder cap sealed;

Second piston rod, first piston bar is hollow-core construction, can slide in the through hole that the second piston rod stretches into first piston bar in through hole; First piston bar is away from the one end at the bottom of cylinder barrel cylinder and the second rod seal; Second piston rod is connected with dam body;

The oil circuit be connected with oil feeding mechanism, oil circuit is respectively provided with an oil pipe and passes into rod chamber and rodless cavity.

Second piston rod one end at the bottom of cylinder barrel cylinder is provided with back-up ring, is provided with the snap ring of spacing back-up ring in first piston rod through-hole near the one end at the bottom of cylinder barrel cylinder, is provided with the spacing back-up ring of step in first piston rod through-hole away from the one end at the bottom of cylinder barrel cylinder.

Second piston rod one end at the bottom of cylinder barrel cylinder is taper, and the conical surface of snap ring and the second piston rod is suitable.

Dam body is the dam that hoists, and the second piston rod end is hinged with the dam that hoists.

Rod chamber is provided with overpressure protection valve, avoids external force inequality to cause cylinder body to damage.

The flood swelled in volume and in dead electricity situation, under hydraulic pressure External Force Acting, automatically fall dam by manual pressure release, guarantee gate safety.

Gate rise or service mode under, by adding strut supplemental support (every root strut is by setting up in the single driving of the small cylinder of bar lower end).

Embodiment two

The using method on above-mentioned combined bidirectional hydraulic lifting dam, using method comprises the steps:

1) hydraulic lifting dam gate under rise (closedown) state-gate is in erectility, first piston bar and second piston rod of oil cylinder are all in the state of stretching out;

2) when needs put dam dam falls and time, by oil pipe to rod chamber injection liquid force feed, rodless cavity oil return, produces first piston bar backhaul pulling force, promotes first piston bar and shrinks in cylinder barrel, drives gate to tilt;

3) when gate angle of inclination (gate and vertical surface angle) becomes large gradually, the pressure and the gate that act on the external force-water of oil cylinder increase gradually from gravity, promote the second piston rod and first piston bar slides in cylinder barrel, thus realize gate and fall dam smoothly;

4) when needs rise dam, by oil pipe to rodless cavity injection liquid force feed, rod chamber oil return, promotes first piston bar and the second piston rod stretches out, and promotes gate and hoists.

Adopt two-stage piston rod, wherein the rod chamber of first piston bar arranges hydraulic circuit, and the rod chamber of the second piston rod does not then arrange hydraulic circuit.Namely first piston bar is provided with initiatively return function, and the second piston rod does not arrange initiatively return function, the active return functional realiey of first piston bar gate falls dam, smoothly after gate tilts, just no longer need oil circuit voltage supply initiatively return, outerly try hard to recommend dynamic piston rod return.Both changed and initiatively return function cause dam body to put problem that dam falls in dam be not set, and also solved and hydraulic circuit is all set at all piston rod rod chambers causes the problem that complex structure, processing difficulties, manufacture cost are high.Be highly suitable for the dam that hoists of hydraulic engineering.Low cost of manufacture, uses reliable.

Adopt two-stage cylinder structure, cylinder barrel body length is little simultaneously, and install melt pit depth as shallow, the area that takes up room is little, is convenient to site installation test, is applicable to small space, and installation exercise is convenient.

After adopting above-mentioned scheme, hydraulic circuit is set at rod chamber, by rod chamber oil-feed pressurization, produces piston rod backhaul pulling force, drive gate to decline; Along with the Stepwize Shrink of rod chamber, gate angle of inclination is also strengthened gradually, and pressure (pushing away) power that gate deadweight produces oil cylinder is also increasing, thus realizes gate and fall dam smoothly.

By reference to the accompanying drawings the utility model is exemplarily described above; obvious the utility model specific implementation is not subject to the restrictions described above; as long as have employed the improvement of the various unsubstantialities that method of the present utility model is conceived and technological scheme is carried out; or design of the present utility model and technological scheme directly applied to other occasion, all within protection domain of the present utility model without to improve.

Claims (5)

1. combined bidirectional hydraulic lifting dam, is characterized in that, has:

Hydraulic pressure installation, rotating shaft and dam body, described dam body is fixedly mounted in rotating shaft, and described rotating shaft is installed in rotation on bearing support;

Described hydraulic pressure installation has:

Cylinder barrel;

Stretch into described cylinder barrel and the first piston bar that can slide in cylinder barrel, wherein, described first piston boom end is installed with the piston sealed with cylinder barrel; Cylinder barrel inner space is divided into rod chamber and rodless cavity by described first piston bar and piston;

Be arranged on cylinder barrel opening end, make cylinder barrel and first piston bar keep the cylinder cap sealed;

Second piston rod, described first piston bar is hollow-core construction, can slide in the through hole that described second piston rod stretches into first piston bar in described through hole; Described first piston bar is away from the one end at the bottom of cylinder barrel cylinder and the second rod seal; Described second piston rod is connected with dam body;

The oil circuit be connected with oil feeding mechanism, described oil circuit is respectively provided with an oil pipe and passes into rod chamber and rodless cavity.

2. combined bidirectional hydraulic lifting dam as claimed in claim 1, it is characterized in that, described second piston rod one end at the bottom of cylinder barrel cylinder is provided with back-up ring, be provided with the snap ring of spacing described back-up ring in described first piston rod through-hole near the one end at the bottom of cylinder barrel cylinder, in described first piston rod through-hole, be provided with the spacing described back-up ring of step away from the one end at the bottom of cylinder barrel cylinder.

3. combined bidirectional hydraulic lifting dam as claimed in claim 2, it is characterized in that, described second piston rod one end at the bottom of cylinder barrel cylinder is taper, and the conical surface of described snap ring and the second piston rod is suitable.

4. combined bidirectional hydraulic lifting dam as claimed in claim 1, it is characterized in that, described dam body is the dam that hoists, described second piston rod end and the described dam that hoists hinged.

5. combined bidirectional hydraulic lifting dam as claimed in claim 1, it is characterized in that, described rod chamber is provided with overpressure protection valve.