CN105804021B - Hydraulic-driven landscape hinge movable dam system - Google Patents

Abstract

The present invention provides a kind of hydraulic-driven landscape hinge movable dam system, including hydraulic cylinder, hydraulic cylinder base, hydraulic-driven landscape hinge movable dam and its base and water sealing structure；The both ends of hydraulic cylinder are hinged with hydraulic cylinder base and hydraulic-driven landscape hinge movable dam respectively, and hydraulic-driven landscape hinge movable dam bottom sets lower shaft；Lower shaft is hinged with hydraulic-driven landscape hinge movable dam base；Water sealing structure includes：Corresponding detachable fixing mechanism connection is respectively adopted in side sealing unit, bottom waterstop unit and shaft end sealing unit, each sealing unit.The whole of the present invention is realized after gap occurs in sealing position between hydraulic-driven landscape hinge movable dam, can be by the way that related water sealing structure is adjusted, so as to by gap sealing；Meanwhile realize the water sealing structure of hinge hydraulic-driven landscape hinge movable dam in water sealing part aging or damage, water sealing part is changed or improved the replacing efficiency of water sealing part compared with.

Description

Hydraulic-driven landscape hinge movable dam system

Technical field

The present invention relates to hydraulic engineering technical field, more particularly to a kind of hydraulic-driven landscape hinge movable dam system.

Background technology

Hydraulic-driven landscape hinge movable dam is that block rivers ditch water flow is built with the dash of raising of water level or regulation flow Thing is built, for flood control, water supply, irrigation, hydroelectric generation, improves the fields such as shipping.

The hinge hydraulic-driven landscape hinge movable dam system of correlation technique, generally include hydraulic cylinder, hydraulic cylinder base and Hydraulic-driven landscape hinge movable dam, wherein one end of hydraulic cylinder are connected with hydraulic-driven landscape hinge movable dam, and the other end leads to Hydraulic cylinder base is crossed to be connected on gate foot.When liter dam, control hydraulic cylinder shrinks, under hydraulic-driven landscape hinge movable dam Dam flood passage, can drop in drop；When dropping dam, control hydraulic cylinder elongation, hydraulic-driven landscape hinge movable dam rises, and can rise dam gear Water.

But inventor has found in existing correlation technique that hydraulic-driven landscape hinge movable dam system at least exists following Technological deficiency：

The water sealing structure of hinge hydraulic-driven landscape hinge movable dam water sealing part aging or damage when, can not change or Person changes less efficient；, can not be by related sealing after gap occurs in sealing position between hydraulic-driven landscape hinge movable dam Structure is adjusted, and by gap sealing.

The content of the invention

The present invention provides a kind of hydraulic-driven landscape hinge movable dam system, to realize hydraulic-driven landscape hinge movable dam Between after there is gap in sealing position, can be by the way that related water sealing structure be adjusted, so as to by gap sealing；Meanwhile realize The water sealing structure of hinge hydraulic-driven landscape hinge movable dam is carried out more in water sealing part aging or damage to water sealing part Change or improve the replacing efficiency of water sealing part compared with.

The present invention provides a kind of hydraulic-driven landscape hinge movable dam system, including hydraulic cylinder, hydraulic cylinder base, hydraulic pressure drive Dynamic landscape hinge movable dam, hydraulic-driven landscape hinge movable dam base and water sealing structure；The both ends of the hydraulic cylinder respectively with The hydraulic cylinder base and the hydraulic-driven landscape hinge movable dam are hinged, the hydraulic-driven landscape hinge movable dam bottom Portion sets lower shaft；The lower shaft is hinged with the hydraulic-driven landscape hinge movable dam base；

The water sealing structure includes：Side sealing unit, bottom waterstop unit and shaft end sealing unit；

The side sealing unit includes：First seal, the first fixed mechanism and governor motion；The first seal Including the first fixed part and the first sealing, first fixed part is connected with first sealing；

First fixed mechanism is fixed on the side of the hydraulic-driven landscape hinge movable dam, first fixed part It is connected by the governor motion with first fixed mechanism, first sealing position is in first fixed part away from institute The side of hydraulic-driven landscape hinge movable dam is stated, and is extended along the side of the hydraulic-driven landscape hinge movable dam, institute Spacing between the side of first sealing and the hydraulic-driven landscape hinge movable dam can be adjusted by stating governor motion；

The bottom waterstop unit includes：Support, second seal and the second fixed mechanism；

The support is provided with groove, is rotated for the lower shaft in the groove；

The lower shaft is arranged in the groove and leaves gap between the groove；

The second seal includes the second fixed part and the second sealing, second fixed part and the described second sealing Portion is connected；

Second fixed part is fixedly installed on the top of the support by second fixed mechanism, and described second is close Envelope portion seals the gap；

The shaft end sealing unit includes：3rd seal and the 3rd fixed mechanism；

3rd seal includes the 3rd fixed part and the 3rd sealing；

The end face of lower shaft described in 3rd both seals；

3rd fixed part passes through described from the 3rd sealing to the lower shaft sunken inside, the 3rd fixed part 3rd fixed mechanism is fixed with the lower shaft.

Further, in hydraulic-driven landscape hinge movable dam system described above, the governor motion includes first Bolt, the first nut, first through hole and perforation structure；

The first through hole is arranged on first fixed mechanism, and the perforation structure runs through first fixed part, First bolt is connected through the first through hole and the perforation structure and with first nut thread, and described the One bolt can along perpendicular to the side of the hydraulic-driven landscape hinge movable dam direction change with the perforation structure it Between relative position.

Further, in hydraulic-driven landscape hinge movable dam system described above, first fixed mechanism includes First fixing component, the second through hole, the second bolt and the first screwed hole；

First screwed hole is arranged on the side of the hydraulic-driven landscape hinge movable dam, first fixing component Including the two parts being arranged in a mutually vertical manner, the first through hole and second through hole are provided respectively therein a part On, second bolt is threadedly coupled through second through hole and with first screwed hole, makes first fixing component It is fixedly connected with the side of the hydraulic-driven landscape hinge movable dam.

Further, in hydraulic-driven landscape hinge movable dam system described above, second fixed mechanism includes Pressing plate, the 3rd bolt and the second nut；

The top of the support is provided with the second screwed hole；

Second fixed part is provided with third through-hole corresponding with the second screw thread hole site；

The fourth hole corresponding with the second screw thread hole site is provided with the pressing plate；

The pressing plate is covered in above second fixed part；

Second screwed hole, the third through-hole and the fourth hole described in 3rd screw bolt passes, it is and described Second nut thread connects.

Further, in hydraulic-driven landscape hinge movable dam system described above, the 3rd fixed mechanism includes 4th bolt and fixture；

The fixture is arranged in the lower shaft, and is fixedly connected with the lower shaft；

3rd fixed part is provided with fifth hole, and the fixture is provided with corresponding with the fifth hole position 3rd screwed hole；

4th bolt passes through the fifth hole, and is threadedly coupled with the 3rd screwed hole.

Further, in hydraulic-driven landscape hinge movable dam system described above, in addition to：Fluid pressure line laying knot Structure；

The fluid pressure line laying structure includes：Laying ditch, fluid pressure line, the solid-filling being arranged on dam foundation bottom plate are situated between Matter and the second stage of cast-in-place concrete capping；

The second stage of cast-in-place concrete capping covers the laying ditch, and collectively forms closed chamber with the laying ditch Room, the fluid pressure line are arranged in the chamber, and the second stage of cast-in-place concrete capping is tightly connected with the laying ditch；

The remaining space that the solid-filling medium is filled up in the chamber, and form disassembled interstitital texture.

Further, in hydraulic-driven landscape hinge movable dam system described above, the solid-filling medium is dry It is husky；

The fluid pressure line laying structure also includes waterproof layer, and the waterproof layer is bonded with the furrow bank of the laying ditch, and The dry sand hill is wrapped up in.

Further, in hydraulic-driven landscape hinge movable dam system described above, the fluid pressure line laying structure Also include separation layer, the separation layer is arranged between the waterproof layer and the second stage of cast-in-place concrete capping, and with it is described The second stage of cast-in-place concrete capping fitting.

Further, in hydraulic-driven landscape hinge movable dam system described above, the outer tube wall of the fluid pressure line Scribble anticorrosive coat.

Further, in hydraulic-driven landscape hinge movable dam system described above, in addition to：Flexible steel in flat section tubing；

One end of the flexible steel in flat section tubing is connected with one end of the fluid pressure line, the other end of the flexible steel in flat section tubing with The hydraulic cylinder connection.

Further, in hydraulic-driven landscape hinge movable dam system described above, the both ends of the flexible steel in flat section tubing It is respectively equipped with first flange and second flange；The end of the fluid pressure line is provided with the 3rd flange, and the hydraulic cylinder is provided with method Blue mounting seat；

Pass through between the first flange and the 3rd flange, between the second flange and the flange mounting seat Bolt and nut is connected.

Further, in hydraulic-driven landscape hinge movable dam system described above, in addition to drive device；

The drive device includes fuel tank, oil pump and accumulator；The fluid pressure line includes the first in-line, flowline Road, energy storage pipeline and pressurize pipeline；

The entrance of the oil pump connects with the fuel tank, the outlet of the oil pump by first in-line with it is described The entrance of hydraulic cylinder is connected, and the force feed in the fuel tank is flowed into the hydraulic cylinder by first in-line, the liquid The outlet of cylinder pressure is connected by the outlet line with the fuel tank；

The outlet of the oil pump is connected by the energy storage pipeline with the accumulator, and the force feed in the oil pump passes through institute Energy storage pipeline is stated to flow into the accumulator；

The accumulator is connected by the pressurize pipeline with the entrance of the hydraulic cylinder, and the force feed in the accumulator is led to The pressurize pipeline is crossed to flow into the hydraulic cylinder；

The first valve is provided with first in-line, the second valve, the storage are provided with the outlet line The 3rd valve can be provided with pipeline, the 4th valve is provided with the pressurize pipeline.

Further, in hydraulic-driven landscape hinge movable dam system described above, the drive device also includes changing To valve, the reversal valve is arranged on first in-line.

Further, in hydraulic-driven landscape hinge movable dam system described above, the drive device also includes pressure Power relay and control centre,

The pressure switch is arranged on first in-line, and the pressure switch leads to the control centre Letter.

Further, in hydraulic-driven landscape hinge movable dam system described above, in addition to water level detector, it is described Water level detector is arranged on river course upstream, and the water level detector communicates with the control centre.

Further, in hydraulic-driven landscape hinge movable dam system described above, in addition to power supply, power detector And TRT；The power detector is connected with the power supply, can detect whether power supply breaks down；The electric energy detection Device communicates with the TRT and the control centre respectively.

Further, in hydraulic-driven landscape hinge movable dam system described above, in addition to monitor camera device, institute Monitor camera device is stated to be arranged on river course, and close to the hydraulic-driven landscape hinge movable dam, and the liquid can be monitored The position that pressure driving landscape hinge movable dam rises, the monitor camera device communicate with the control centre.

Further, in hydraulic-driven landscape hinge movable dam system described above, the drive device also includes hand Press pump and the second in-line；

The entrance of the handlance connects with the fuel tank, the outlet of the handlance by second in-line with The entrance of the hydraulic cylinder is connected, and the 5th valve is provided with second in-line.

Further, in hydraulic-driven landscape hinge movable dam system described above, the drive device also includes should Anxious component, the jury include seeping container and overflow water pipeline；The fluid pressure line also includes emergency pressure relief pipeline；

The outlet of the hydraulic cylinder is connected by the emergency pressure relief pipeline with the fuel tank；On the emergency pressure relief pipeline It is provided with the 6th valve；

One end of the overflow water pipeline is located at the top of the seeping container, and the other end of the overflow water pipeline is then stretched Enter river course and specify dash position, and for being drawn when the water level in river course exceedes predetermined water level by river course and flowing into the seeping container It is interior；

The seeping container is connected with the handle on the 6th valve, and the seeping container can rely on after ponding Action of Gravity Field drives the handle motion, and opens the 6th valve.

Further, in hydraulic-driven landscape hinge movable dam system described above, the drive device also includes overflowing Flow filter, the overflow filter are arranged on one end that the overflow water pipeline is stretched into inside river course.

Further, in hydraulic-driven landscape hinge movable dam system described above, the drive device also includes control System bypass and bypass valve；

Let out respectively with described meet an urgent need positioned at the both sides of the emergency pressure relief pipeline stop valve at the both ends of the control bypass Pipeline connection is pressed, the bypass valve is arranged in the control bypass.

Further, in hydraulic-driven landscape hinge movable dam system described above, the drive device also includes defeated Send pipeline；

First in-line, the outlet line and the emergency pressure relief pipeline respectively by the transfer pipeline with The hydraulic cylinder connection.

Further, in hydraulic-driven landscape hinge movable dam system described above, the drive device also includes the Seven valves, the 7th valve are arranged in the outlet line.

Further, in hydraulic-driven landscape hinge movable dam system described above, the drive device also includes adjusting Fast valve, the flow speed control valve are arranged in the outlet line.

Further, in hydraulic-driven landscape hinge movable dam system described above, the hydraulic-driven landscape hinge Movable dam includes：First panel, two side panels, the first be hinged axle sleeve, the first be hinged axle sleeve fixing rib plate and reinforcement structure；

Two side panels are separately positioned on the both sides of the first panel；

Described first be hinged axle sleeve fixing rib plate is fixedly installed between two side panels, the described first be hinged axle sleeve It is fixed on the described first be hinged axle sleeve fixing rib plate, and is hinged with one end of the hydraulic cylinder；

The reinforcement structure is arranged between two side panels, and is fixed in the first panel；

The reinforcement structure includes multiple floors and multiple bearing pins；

Multiple floors be arranged in parallel with the side panel, and are fixedly connected with the first panel；

Multiple pin-and-holes are provided with each floor and the first be hinged axle sleeve fixing rib plate, each bearing pin Laterally set, and sequentially pass through the pin-and-hole on the floor and the first be hinged axle sleeve fixing rib plate.

Further, in hydraulic-driven landscape hinge movable dam system described above, the hydraulic-driven landscape hinge Movable dam also includes second panel, and the second panel is cut with scissors with each side panel, each floor and described first respectively The fixed floor connection of spindle set；

The position that the second panel corresponds to the described first be hinged axle sleeve fixing rib plate sets opening.

Further, in hydraulic-driven landscape hinge movable dam system described above, the hydraulic-driven landscape hinge Movable dam base includes the second be hinged axle sleeve, soleplate, support frame, multiple foundation bolts and multiple nuts；

Second jointed shaft is set on the soleplate；The lower shaft is hinged with the described second be hinged axle sleeve；Institute State support frame to be arranged on ground, multiple screw mandrels upwardly extended are provided with support frame as described above；

The soleplate is provided with the first mounting hole corresponding with the screw mandrel and corresponding with the foundation bolt Two mounting holes；Multiple nuts are separately positioned on the both sides of first mounting hole and second mounting hole；

The screw mandrel passes through first mounting hole, and the foundation bolt passes through second mounting hole；

The screw mandrel and the foundation bolt are matched somebody with somebody in the both sides of the soleplate with least one nut thread Close.

Further, in hydraulic-driven landscape hinge movable dam system described above, the hydraulic cylinder includes cylinder barrel, work Stopper rod and dust guard, the dust guard are set on the piston rod；The piston rod closes with the hydraulic-driven landscape Page movable dam is hinged, and the cylinder barrel is hinged with the hydraulic cylinder base.

Further, in hydraulic-driven landscape hinge movable dam system described above, the hydraulic cylinder is single-stage cylinder.

Further, in hydraulic-driven landscape hinge movable dam system described above, the hydraulic-driven landscape hinge The angle of inclination of movable dam and the angular range of horizontal plane are 0-75 °.

The hydraulic-driven landscape hinge movable dam system of the present invention, adjustment structure is set by using in side sealing unit, Realize after gap occurs in sealing position between hydraulic-driven landscape hinge movable dam, can be by being adjusted to related water sealing structure Section, so as to by gap sealing；Meanwhile dismountable fixed mechanism corresponding to being used in each sealing unit, realize hinge hydraulic pressure The water sealing structure of landscape hinge movable dam is driven to be changed or improved to water sealing part in water sealing part aging or damage The replacing efficiency of water sealing part compared with.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is the required accompanying drawing used in technology description to be briefly described, it should be apparent that, drawings in the following description are this hairs Some bright embodiments, for those of ordinary skill in the art, without having to pay creative labor, can be with Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 is the sectional view of the embodiment one of hydraulic-driven landscape hinge movable dam system of the present invention；

Fig. 2 is a kind of state diagram of hydraulic-driven landscape hinge movable dam system in Fig. 1；

Fig. 3 is the enlarged drawing of Fig. 2 a-quadrant；

Fig. 4 is the enlarged drawing of B area in Fig. 1；

Fig. 5 is the enlarged drawing in C regions in Fig. 2；

The structural representation of hydraulic-driven landscape hinge movable dam base 14 in this Fig. 1 of Fig. 6；

Fig. 7 is a kind of state diagram of hydraulic-driven landscape hinge movable dam system in Fig. 1；

Fig. 8 is the sectional view of the embodiment two of hydraulic-driven landscape hinge movable dam system of the present invention；

Fig. 9 is the sectional view of fluid pressure line laying structure 18 in Fig. 8；

Figure 10 is the structural representation of the embodiment three of hydraulic-driven landscape hinge movable dam system of the present invention；

Figure 11 is the monitoring layout drawing of hydraulic-driven landscape hinge movable dam system of the present invention.

Reference：

11- hydraulic cylinders；

111- cylinder barrels；

112- piston rods；

113- dust guards；

12- hydraulic cylinder bases；

13- hydraulic-driven landscape hinge movable dams；

131- lower shafts；

132- first panels；

133- side panels；

134- first is hinged axle sleeve；

135- first is hinged axle sleeve fixing rib plate；

14- hydraulic-driven landscape hinge movable dam bases；

141- second is hinged axle sleeve；

142- soleplates；

143- support frames；

144- foundation bolts；

145- nuts；

15- sides sealing unit；

151- first seals；

The fixed mechanisms of 152- first；

153- governor motions；

16- bottom waterstop units；

161- supports；

162- second seals；

The fixed mechanisms of 163- second；

17- shaft ends sealing unit；

The seals of 171- the 3rd；

The fixed mechanisms of 172- the 3rd；

18- fluid pressure line laying structures；

181- lays ditch；

182- fluid pressure lines；

The in-lines of 1821- first；

1822- enters outlet line；

1823- energy storage pipelines；

1824- pressurize pipelines；

The in-lines of 1825- second；

1826- emergency pressure relief pipelines；

183- solid-filling media；

The cast-in-place concrete of 184- second phases covers；

185- waterproof layers；

186- separation layers；

19- drive devices；

191- fuel tanks；

192- oil pumps；

193- accumulators；

194- pressure switches；

195- control centres；

1951-PLC；

1952- displays；

1953- DVRs；

1954-CPU；

1955- interchangers；

196- water level detectors；

197- monitor camera devices；

198- handlances；

199- emergency mechanisms；

1991- seeping containers；

1992- overflow water pipelines；

20- flexible steel in flat section tubing；

21- power supplys；

22- power detectors；

23- TRTs.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is Part of the embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art The every other embodiment obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.

Fig. 1 is the sectional view of the embodiment one of hydraulic-driven landscape hinge movable dam system of the present invention, and Fig. 2 is liquid in Fig. 1 A kind of state diagram of pressure driving landscape hinge movable dam system, as illustrated in fig. 1 and 2, in the present embodiment, hinge hydraulic-driven landscape Hinge movable dam can include hydraulic cylinder 11, hydraulic cylinder base 12, hydraulic-driven landscape hinge movable dam 13, hydraulic-driven landscape Hinge movable dam base 14 and water sealing structure；Closed respectively with hydraulic cylinder base 12 and hydraulic-driven landscape at the both ends of hydraulic cylinder 11 Page movable dam 13 is be hinged, and the bottom of hydraulic-driven landscape hinge movable dam 13 sets lower shaft 131；Lower shaft 131 and hydraulic-driven landscape Hinge movable dam base 14 is be hinged.Wherein, realized by holding up and being laid flat hydraulic-driven landscape hinge movable dam 13 to river course Deng flood storage and the flood passage function in waters, hydraulic-driven landscape hinge movable dam 13 can have a fan, it is possibility to have more fans, specifically with The width in the waters such as river course needs to be defined.

Fig. 3 is the enlarged drawing of Fig. 2 a-quadrant, and Fig. 4 is the enlarged drawing of B area in Fig. 1；Fig. 5 is the amplification in C regions in Fig. 2 Figure；In order to prevent water between hydraulic-driven landscape hinge movable dam 13 and hydraulic-driven landscape hinge movable dam 13, or, liquid Between pressure driving landscape hinge movable dam 13 and hydraulic-driven landscape hinge movable dam base 14, or, two hydraulic-driven scapes Spill between the lower shaft 131 of sight hinge movable dam 13, can be set in the hydraulic-driven landscape hinge movable dam system of the present embodiment Corresponding water sealing structure, specifically, in the present embodiment, water sealing structure includes side sealing unit 15, bottom waterstop unit 16 and axle Hold sealing unit 17.

Side sealing unit 15 includes first seal 151, the first fixed mechanism 152 and governor motion 153；First sealing Part 151, the first fixed mechanism 152 and governor motion 153 are arranged at the same side of hydraulic-driven landscape hinge movable dam 13 Side, two sides of hydraulic-driven landscape hinge movable dam 13 can also be arranged on simultaneously.It is solid that first seal 151 includes first Determine portion and the first sealing, the first fixed part is connected with the first sealing；For example, the first fixed part is in integrally with the first sealing P fonts, the first sealing are O-shaped part, and the first fixed part is non-O-shaped part.

First fixed mechanism 152 is fixed on the side of hydraulic-driven landscape hinge movable dam 13, and the first fixed part passes through tune Section mechanism 153 is connected with the first fixed mechanism 152, while, it is necessary to ensures the first sealing position in the first fixed part away from hydraulic pressure The side of landscape hinge movable dam 13 is driven, and is extended along the side of hydraulic-driven landscape hinge movable dam 13, it is possible thereby to The sealing function in the rotation process of hydraulic-driven landscape hinge movable dam 13 is realized, because hydraulic-driven landscape closes in actual applications After page movable dam 13 is installed, because the position of first seal 151 is fixed, adjacent two fan hydraulic-driven landscape hinge movable dams 13 Between, or, between hydraulic-driven landscape hinge movable dam 13 and side wall it is possible that gap, river leakage is thereby resulted in, So the side water sealing structure in the present embodiment is closed by using adjustment structure 153 to adjust the first sealing with hydraulic-driven landscape Spacing between the side of page movable dam 13 so that between two fan hydraulic-driven landscape hinge movable dams 13, or, hydraulic-driven Be not in gap between landscape hinge movable dam 13 and side wall, realize good sealing effectiveness.

Specifically, governor motion 153 can include the first bolt, the first nut, first through hole and perforation structure；First Through hole is arranged on the first fixed mechanism 152, and perforation structure runs through the first fixed part, and the first bolt is through first through hole and wears Pore structure is simultaneously connected with the first nut thread, wherein, the quantity of first through hole have it is multiple, it is specifically solid can well fix first Determine portion to be defined.To realize that the first sealing can be along perpendicular to the shifting of the direction of the side of hydraulic-driven landscape hinge movable dam 13 Dynamic, the size of perforation structure is more than the size of the first bolt so that the first bolt can be along perpendicular to hydraulic-driven landscape hinge The direction of the side of movable dam 13 changes the relative position between perforation structure, it is achieved thereby that can be adjusted as required by The position of first sealing, further realize good sealing effectiveness.

Specifically, the first fixed mechanism 152 includes the first fixing component, the second through hole, the second bolt and the first screw thread Hole.Wherein, the first screwed hole is arranged on the side of hydraulic-driven landscape hinge movable dam 13, and the first fixing component 152 includes phase Mutual vertically disposed two parts, must fix the first fixed part, first through hole and the second through hole are set respectively in order to good Wherein on a part, the second bolt is threadedly coupled through the second through hole and with the first screwed hole, makes the first fixing component 152 It is fixedly connected with the side of hydraulic-driven landscape hinge movable dam 13.

First through hole is arranged on another part of the first fixing component 152, come using the first bolt and the first nut Fix the first fixed part.For example, the first fixing component 152 is angle steel, its length is identical with the length of the first fixed part, by second Through hole is arranged on a face of angle steel, and the one side of angle steel is fixed on into hydraulic-driven landscape hinge movable dam using the second bolt 13 side, first through hole is arranged on another face of angle steel, the first fixed part is fixed on angle steel using the first bolt Another face on.

As shown in figure 4, in the present embodiment, bottom waterstop unit 16 includes：Support 161, second seal 162 and second are solid Determine mechanism 163；Support 161 is used for the position for limiting the grade of hydraulic-driven landscape hinge movable dam 13, and is stopped by support 161 The concrete of first time injection hydraulic driving landscape hinge movable dam base 14 crosses support and influences hydraulic-driven landscape hinge The effect of movable dam activity 13.By being provided with groove on support 161, rotated for lower shaft 131 in groove, and lower shaft 131 is set Put and gap is left in a groove and between groove, using second seal 162 by clearance seal so that hydraulic-driven landscape closes Page movable dam 13 is not in the situation of river leakage when holding up.

Specifically, second seal 162 includes the second fixed part and the second sealing, the second fixed part and the second sealing It is connected.It is, for example, possible to use p-type sealing part, as second seal, the second sealing is O-shaped part, the second fixed part is non-O Type part.Second fixed part is fixedly installed on the top of support by the second fixed mechanism 163, ensures that second seal can incite somebody to action Clearance seal, realize the effect to the sealed bottom of hydraulic-driven landscape hinge movable dam 13.

In order to realize replaceable function, the second fixed mechanism 163 can include pressing plate, the 3rd bolt and the second nut, Wherein, the top of support 163 is provided with the second screwed hole；Second fixed part is provided with and the second screw thread hole site the corresponding 3rd Through hole；The fourth hole corresponding with the second screw thread hole site is provided with pressing plate；Pressing plate is covered in above the second fixed part； 3rd the second screwed hole of screw bolt passes, third through-hole and fourth hole, are connected with the second nut thread.Machine is fixed by second The form for the structure that the use of structure 163 can be dismantled, it is possible to achieve when second seal occurs damaging or during aging, can carry out Dismantle and replace the effect of new second seal.

Between solving two fan hydraulic-driven landscape hinge movable dams 13, or, hydraulic-driven landscape hinge movable dam Between 13 and side wall the problem of waterproof after, it is also necessary to solve the waterproof problem of the lower shaft of hydraulic-driven landscape hinge movable dam 13, Due to flood storage and the needs of flood passage, hydraulic-driven landscape hinge movable dam 13 needs constantly to repeat the action holded up and be laid flat, Due to occurring phase mutual friction and vibration, thus phenomenon that the encapsulant of two neighboring lower shaft 131 can damage or drop is made Into there is gap between lower shaft 131 and occur river leakage situation, therefore, reinforcement hydraulic pressure is realized by using following structure Drive the waterproof of landscape hinge movable dam lower shaft 131.

As shown in figure 5, in the present embodiment, shaft end sealing unit 17 includes：3rd seal 171 and the 3rd fixed mechanism 172；

3rd seal 171 includes the 3rd fixed part and the 3rd sealing, and the 3rd fixed part and the 3rd sealing are connected, , need to be by the end face of the 3rd both seals lower shaft to realize the effect of sealing.In addition, in order to strengthen for seal lower shaft the 3rd The fastness of seal 171 is fixed the 3rd fixed part by the 3rd fixed mechanism 172 with lower shaft, it is necessary to it is fixed, And ensure the 3rd fixed part from the 3rd sealing to lower shaft sunken inside so that the 3rd fixed part is all within lower shaft.Realize Pass through the form the 3rd seal being fixed in lower shaft, the work of the waterproof of the lower shaft of reinforcement hydraulic-driven landscape hinge movable dam With.

Specifically, the 3rd fixed mechanism 172 includes the 4th bolt and fixture；3rd fixed mechanism 172 is arranged on lower shaft In 131, and it is fixedly connected with lower shaft 131；Such as can be fixed using forms such as welding, and the 3rd fixed part is provided with the Five through holes, fixture are provided with the 3rd screwed hole corresponding with fifth hole position；4th bolt passes through fifth hole, and with Three screwed holes are threadedly coupled, and realize the effect for fixing the 3rd seal 171 with lower shaft 131.

The hydraulic-driven landscape hinge movable dam system of the present embodiment, by using said structure, it can realize that hydraulic pressure drives After there is gap in sealing position between dynamic landscape hinge movable dam 13, can by the way that related water sealing structure is adjusted, so as to By gap sealing, meanwhile, the water sealing structure in hinge hydraulic-driven landscape hinge movable dam 13 is realized in water sealing part aging Or during damage, water sealing part is changed or improved the replacing efficiency of water sealing part compared with.

As depicted in figs. 1 and 2, in the hydraulic-driven landscape hinge movable dam system of the present embodiment, driven to increase hydraulic pressure The bulk strength of dynamic landscape hinge movable dam 13, hydraulic-driven landscape hinge movable dam 13 can include first panel 132, two Side panel 133, first is hinged axle sleeve 134, first and is hinged axle sleeve fixing rib plate 135 and reinforcement structure 136；Two side panels 133 It is separately positioned on the both sides of first panel 132；First be hinged axle sleeve fixing rib plate 135 be fixedly installed on two side panels 133 it Between, the first be hinged axle sleeve 134 is fixed on the first be hinged axle sleeve fixing rib plate 135, and is hinged with one end of hydraulic cylinder 11；Strengthen Structure setting is fixed in first panel 132 between two side panels 133；Reinforcement structure includes multiple floors and multiple Bearing pin；Multiple floors be arranged in parallel with side panel, and are fixedly connected with first panel；Each floor and the first be hinged axle sleeve are consolidated Determine to be provided with multiple pin-and-holes on floor, each bearing pin is laterally set, and sequentially passes through floor and the first be hinged axle sleeve is consolidated Determine the pin-and-hole on floor.Wherein bearing pin can use the support such as shaped steel or seamless steel pipe, it is preferable that bearing pin is seamless steel pipe.

For example, open multiple circular holes on each floor and the first be hinged axle sleeve fixing rib plate, as pin-and-hole, and each rib Circular hole on plate and the first be hinged axle sleeve fixing rib plate is oppositely arranged, and forms multilayer circular hole, and seamless steel pipe is sequentially passed through Each circular hole in every layer of circular hole, and seamless steel pipe is welded on each floor and the first be hinged axle sleeve by way of welding Fixed floor, so as to be hinged axle sleeve fixing rib plate shape into orthogonal skeleton with each floor and first.Due to seamless steel The stress that pipe is born is relatively uniform, can bear hydraulic-driven landscape hinge movable dam 13 when by the impulsive force of water Stress it is more uniform, be unlikely to deform hydraulic-driven landscape hinge movable dam 13, so as to increase hydraulic-driven landscape hinge activity The stability on dam 13.

It should be noted that due to hydraulic-driven landscape hinge movable dam erecting bed there may be lack installation tool or Situations such as person's installing component, the hydraulic-driven landscape hinge movable dam base 14 of the present embodiment can be in hydraulic-driven landscape hinge Movable dam 13 is first arranged in hydraulic-driven landscape hinge movable dam 13 before dispatching from the factory, and can also so improve in-site installation efficiency.

For the ability for further increasing the stability of hydraulic-driven landscape hinge movable dam 13 and meeting with stresses, this reality Apply in example, hydraulic-driven landscape hinge movable dam also includes second panel, second panel respectively with each side panel 133, each floor And the first be hinged plate connection of axle sleeve fixing rib 135；The position of the corresponding first be hinged axle sleeve fixing rib plate 135 of second panel is set Opening.

For example, the relative side of first panel 132 set second panel, and with each side panel 133, each floor and First be hinged axle sleeve fixing rib plate 135 connects, and connects each side panel 133, each floor and the first be hinged axle sleeve fixing rib plate 135 Connect more firmly, the stability of hydraulic-driven landscape hinge movable dam is more excellent.But in order to without prejudice to the flexible of hydraulic cylinder 11, need Corresponding position is set and is open, so that hinge hydraulic-driven landscape hinge movable dam being capable of normal work.

Hydraulic-driven landscape hinge movable dam base 14 can be fixed on ground by lower shaft 131, it is generally the case that hydraulic pressure Driving landscape hinge movable dam base 14, which can pass through to pour at least twice, can just be fixed on ground, then by hydraulic-driven landscape Hinge movable dam 13 is fixed on hydraulic-driven landscape hinge movable dam base 14, due to every time pour completion after, it is necessary to through It could be poured again after crossing a latent period, so by repeatedly pouring realization by hydraulic-driven landscape hinge movable dam Base 14 is fixed on ground, and the cycle is longer, is lost time.

In order to solve the above problems, the present embodiment additionally provides following technical scheme.

The structural representation of hydraulic-driven landscape hinge movable dam base 14 in this Fig. 1 of Fig. 6, as shown in fig. 6, the present embodiment In, hydraulic-driven landscape hinge movable dam base 14 can include the second be hinged axle sleeve 141, soleplate 142, support frame 143, more Individual foundation bolt 144 and multiple nuts 145.

Wherein, the second be hinged axle sleeve 141 is arranged on soleplate 142, and it is be hinged that lower shaft 131 and second is hinged axle sleeve 141；Branch Support 143 is arranged on ground, and multiple screw mandrels upwardly extended are provided with support frame 143；Soleplate 142 is provided with and silk First mounting hole corresponding to bar and second mounting hole corresponding with foundation bolt 144；Multiple nuts 145 are separately positioned on first The both sides of mounting hole and the second mounting hole；Screw mandrel passes through the first mounting hole, and foundation bolt 144 passes through the second mounting hole, screw mandrel And foundation bolt 144 coordinates in the both sides of soleplate 142 with least one screw thread of nut 145, and can also be in nut Pad is set between 145 and soleplate 142.

For example, the height of support frame 143 can be selected according to actual conditions, and be provided with support frame 143 it is multiple to The screw mandrel of upper extension, can be by soleplate by the cooperation of the nut 145 of the first mounting hole both sides on soleplate 142 and screw mandrel 142 are set in advance on screw mandrel, and are adjusted by the nut 145 of the first mounting hole both sides on soleplate 142, so that base Plinth plate 142 meets the height that needs are placed, and levelness.After the height of soleplate 142 and levelness are determined, then enter Row pours, and now only needs one-time-concreting.Meanwhile before being poured, foundation bolt 144 is first arranged on soleplate 142 On, pour in rear concrete layer due to the presence of support frame 143 and foundation bolt 144, make whole fixed structure more stable, hold The gravity received is also relatively large.

It should be noted that the structure of hydraulic cylinder base 12 can also use identical structure to realize, will not be repeated here. In order that overall structure is simple, hydraulic cylinder base 12 and hydraulic-driven landscape hinge movable dam base 14 can be designed as integral knot Structure.

Because hydraulic cylinder 11 is arranged on below river surface, there can be the debris such as many mud below river surface, easily by hydraulic cylinder 11 block, and influence the work of hydraulic cylinder 11, and therefore, in the present embodiment, hydraulic cylinder 11 can include cylinder barrel 111, the and of piston rod 112 Dust guard 113, dust guard 113 are set on piston rod 112；Piston rod 112 and hydraulic-driven landscape hinge movable dam 13 Be hinged, cylinder barrel 111 is be hinged with hydraulic cylinder base 12.Hydraulic cylinder 11 is single-stage cylinder, and in order to more preferable dash, hydraulic-driven The angle of inclination of landscape hinge movable dam 13 and the angle of horizontal plane are unsuitable excessive, preferably hydraulic-driven landscape hinge movable dam 13 angle of inclination and the angular range of horizontal plane are 0-75 °.Fig. 7 is hydraulic-driven landscape hinge movable dam system in Fig. 1 A kind of state diagram, as shown in fig. 7, in the present embodiment, hydraulic-driven landscape hinge movable dam 13 and the angle of horizontal plane behind dam drop For 0 °, the angle of hydraulic-driven landscape hinge movable dam 13 and horizontal plane is 75 ° after rising dam.

Fig. 8 is the sectional view of the embodiment two of hydraulic-driven landscape hinge movable dam system of the present invention, and Fig. 9 is liquid in Fig. 8 The sectional view of pressure pipe road laying structure 18, as shown in Figure 8 and Figure 9, the hydraulic-driven landscape hinge movable dam system of the present embodiment Further it can also include fluid pressure line laying structure 18, drive device 19 and flexibility even on the basis of embodiment illustrated in fig. 1 Adapter 20.Wherein, fluid pressure line laying structure 18 includes：It is arranged on laying ditch 181 on dam foundation bottom plate, fluid pressure line 182, solid Body filled media 183 and the second stage of cast-in-place concrete capping 184；Hydraulic-driven landscape hinge movable dam 13 is in the mistake holded up and be laid flat , it is necessary to need to connect by fluid pressure line 181 and flexible steel in flat section tubing 19 between drive device and hydraulic cylinder 11, drive device in journey The 19 high pressure liquid force feeds extruded, after flowing into hydraulic cylinder 11 by fluid pressure line 182 and flexible steel in flat section tubing, hydraulic cylinder 11 is flexible dynamic Make, complete the lifting process of hydraulic-driven landscape hinge movable dam 13.Because fluid pressure line 182 is longer, and needs and water segregation Carry out erosion control anti-corrosion, in correlation technique, after fluid pressure line 182 is laid on laying ditch by generally use, utilize the side of cast-in-place concrete Method directly covers fluid pressure line 182, forms fluid pressure line laying structure 18.

Due to fluid pressure line 182 is covered in the laying ditch on dam foundation bottom plate using the method that cast-in-place concrete pours, If causing the situation for the damage of section hydraulic pipeline 182 occur, it is difficult to pick because fluid pressure line 182 is consolidated by cast-in-place concrete Remove, and reject the destruction for easily causing fluid pressure line 182 in Concrete, and this method is difficult to quickly determine fluid pressure line 182 damage location, causes that fluid pressure line 182 overhauls or Renewal process is extremely difficult and complicated, and time-consuming.And use anchoring The method of steel or concrete cover, due to the long-term striking cover plate of current, easily cause cover plate and come off, fluid pressure line under cover plate 182 solid-filling mediums come off, and fluid pressure line is directly contacted with current, easily by heavy corrosion.

In order to solve the above problems, in the present embodiment, dam foundation bottom plate can use C25 reinforced concretes, the second stage of cast-in-place concrete Capping can be C30 second phase concretes, and wherein concrete is the abbreviation of concrete.

Wherein the second stage of cast-in-place concrete capping 184 can cover laying ditch, and collectively form closed chamber with laying ditch 181 Room, fluid pressure line 182 are arranged in chamber., it is necessary to will be solid before the covering laying ditch 181 of the second stage of cast-in-place concrete capping 184 The remaining space that body filled media 183 is filled up in the chamber that the second stage of cast-in-place concrete capping is formed with laying ditch 181, that is to say, that Removing the second stage of cast-in-place concrete capping 184 may the space of occupancy and the space of the occupancy of fluid pressure line 182.

In order to when there is the situation of the damage of section hydraulic pipeline 182, be repaired to the fluid pressure line 182 of damage Or change, in the present embodiment, the certain space of laying ditch 181 is taken using solid-filling medium 183, so as to corresponding The thickness of the second stage of cast-in-place concrete capping 184 is done relatively thin, so broken easily the second stage of cast-in-place concrete capping 184 It is bad.Because solid-filling medium 183 can cover fluid pressure line 182, therefore be also required to can be very convenient for solid-filling medium 183 Be disassembled or destroy, so need solid-filling medium 183 to form disassembled interstitital texture in chamber, afterwards, need The second stage of cast-in-place concrete capping 184 and laying ditch 181 are tightly connected.Specifically, the second stage of cast-in-place concrete capping 184 can be with After solid-filling medium 183 has been filled, directly using the method poured, poured on solid-filling medium 183, finally Form the second stage of cast-in-place concrete capping 184.

So, can be conveniently and efficiently to the fluid pressure line of damage when there is the situation of the damage of section hydraulic pipeline 182 182 are repaired or are changed, and are saved fluid pressure line 182 and are repaired or replacing construction, improve efficiency.It can avoid simultaneously Pouring concrete capping is washed away by current, causes the second stage of cast-in-place concrete capping 184 times fluid pressure lines, 182 solid-filling media to take off Fall, fluid pressure line 182 is directly contacted with current and by heavy corrosion.

More water is penetrated into ditch 181 in order to prevent from laying, in the present embodiment, fixed filled media 183 can include The poor low-grade concrete of water penetration, such as C5 or C10.But liquid is conveyed by fluid pressure line 182 in drive device 19 During, fluid pressure line 182 may shake, and the damping effect of low-grade concrete is poor, and reject second phase cast-in-place coagulation After grave lid 184, low-grade concrete cleaning is also relatively difficult, therefore, in order to solve the above problems, the hydraulic pressure of the present embodiment In pipe laying structure, solid-filling medium 183 can include dry sand, so be covered fluid pressure line by dry sand, and do husky ratio It is loosely soft, this makes it possible to make fluid pressure line 181 effectively enter row buffering, so as to reach the effect of vibration damping.Meanwhile avoid Fluid pressure line 182 covers 184 hard contacts with dam foundation bottom plate or the second stage of cast-in-place concrete, and if multiple fluid pressure lines be present When 182, hard contact is also not present between each fluid pressure line 182, is effectively prevented fluid pressure line 182 and deforms.And rejecting After the second stage of cast-in-place concrete capping 184, cleaning is carried out to dry sand and is easier, the time is saved, improves efficiency.

But the seepage of water for doing sand is preferable, and fluid pressure line 182 is usually steel pipe, therefore in order to prevent fluid pressure line 182 It is corroded, extends the service life of fluid pressure line 182, it is necessary to the outer tube wall in fluid pressure line 182 scribbles anticorrosive coat, the anticorrosive coat At least one of rust preventive coating and bitumen layer can be included but is not limited to.Specifically can be in the outer of fluid pressure line 182 Tube wall applies at least one of antirust paint and person's liquid asphalt, so as to form anticorrosive coat.

But the chamber that laying ditch 181 is formed with the second stage of cast-in-place concrete capping 184 is in dampness, even if hydraulic pressure The outer tube wall of pipeline 182 scribbles anticorrosive coat, and the fluid pressure line 182 that goes down for a long time may also get rusty, and causes fluid pressure line 182 rotten Erosion, therefore, in order to avoid chamber Moisture Problem In Buildings as far as possible, the fluid pressure line laying structure of the present embodiment, waterproof layer can also be included 185, waterproof layer 185 is bonded with laying the furrow bank of ditch 181, and dry sand hill is wrapped up in.Specifically, can utilize by styrene-fourth two Waterproof roll that alkene-styrene (Styrene-Butadiene-Styrene, SBS) makes etc., by fluid pressure line 182 and do Sand hill wraps, and is arranged in chamber, enters dry husky inside so as to reduce water or water vapour etc., dry sand is not made moist, And then fluid pressure line 182 is further protected.

If the second stage of cast-in-place concrete capping 184 is directly contacted with waterproof layer, when there is the damage of section hydraulic pipeline 182 During situation, the fluid pressure line 182 of damage is repaired or Renewal process in, by the second stage of cast-in-place concrete capping 184 destroy Afterwards, waterproof layer 185 can be destroyed together, causes to waste, add maintenance cost.Therefore in the present embodiment, fluid pressure line laying Structure can also include separation layer 186, specifically, separation layer 186 is arranged on into waterproof layer 185 and covered with the second stage of cast-in-place concrete Between 184, and it is bonded with the second stage of cast-in-place concrete capping 184.So after the second stage of cast-in-place concrete capping 184 is destroyed, due to The presence of separation layer 186, waterproof layer 185 can be effectively protected, be reused waterproof layer 185.

In order to easy to maintenance, the time is saved, separation layer 186 needs to be easier to be destroyed, and relative to waterproof material Cost is relatively low, therefore separation layer 186 is specifically as follows cystosepiment, and after the second stage of cast-in-place concrete capping 184 is destroyed, cystosepiment can Easily to be destroyed again, fluid pressure line 182 is dug, so as to be repaired or be changed.Meanwhile separation layer 186 uses Cystosepiment, insulation can be played a part of, prevent or alleviate fluid pressure line 182 and frost heave occurs, avoid in fluid pressure line 182 Hydraulic oil is affected, and good working environment is provided for the hydraulic oil in fluid pressure line 182.

In the hydraulic-driven landscape hinge movable dam system of the present embodiment, one end of flexible steel in flat section tubing 20 and fluid pressure line 182 one end connection, the other end of flexible steel in flat section tubing 20 are connected with hydraulic cylinder 11.Under normal circumstances, hydraulic cylinder 11 and hydraulic tube Connected when flexible steel in flat section tubing 20 between road 182 connects using screwed connection or in the form of solid welding.But hydraulic cylinder 11 drives Hydrodynamic pressure drives landscape hinge movable dam 13, and hydraulic cylinder 11 and hydraulic-driven landscape hinge movable dam 13 are equal in lifting process In the presence of swing and rotational problems, particularly hydraulic cylinder 11 rotational angle in the lifting process of hydraulic-driven landscape hinge movable dam 13 It is larger.If the connection of flexible steel in flat section tubing 20 between hydraulic cylinder 11 and fluid pressure line 182 uses screwed connection, it is sliding easily to there is screw thread pine To making hydraulic station not suppress, and whole hydraulic-driven landscape hinge movable dam 13 can not be lifted.If hydraulic cylinder 11 and liquid Flexible steel in flat section tubing 20 between pressure pipe road 182 is connected in the form of solid welding, and its inspection operation is extremely inconvenient, especially underwater or wet Profit environment is changed flexible steel in flat section tubing 20 and can not carried out.

Therefore in order to solve the above problems, hydraulic-driven landscape hinge movable dam system of the invention additionally provides following skill Art scheme.

In the present embodiment, first flange and second flange can be set respectively at the both ends of flexible steel in flat section tubing；Fluid pressure line End is provided with the 3rd flange, and hydraulic cylinder is provided with flange mounting seat.Between first flange and the 3rd flange, second flange and flange It is connected between mounting seat by bolt and nut, and between first flange and the 3rd flange, second flange and flange peace Sealing ring is provided between dress seat, further prevents liquid from flowing out, and conveniently and efficiently can be examined to flexible steel in flat section tubing Operation is repaiied, or is changed.

It should be noted that the mode of the flange connection shown in the present embodiment is that flange connection is a kind of, the present embodiment Other flange connections are not limited.

Figure 10 is the structural representation of the embodiment three of hydraulic-driven landscape hinge movable dam system of the present invention, and Figure 11 is this The monitoring layout drawing of invention hydraulic-driven landscape hinge movable dam system；As shown in Figure 10 and Figure 11, the hydraulic pressure of the present embodiment drives In dynamic landscape hinge movable dam system, drive device 19 include fuel tank 191, oil pump 192, accumulator 193, pressure switch 194, Control centre 195, water level detector 196, monitor camera device 197, fluid pressure line 182 are included into outlet line 1822, energy storage Pipeline 1823 and pressurize pipeline 1824.The first valve of stop valve and check valve composition is provided with first in-line 1821, Stop valve and check valve can be respectively multiple.

Water level detector 196 is arranged on river course upstream, and is communicated with control centre 195.Water level detector 196 enters to water level Row detection, and give testing result production to control centre 195, control centre 195 is handled, and makes hydraulic pressure according to result Driving landscape hinge movable dam 13 rises and landed.For example, the data detected are sent to control centre by water level detector 196 195 programmable controller (Programmable Logic Controller, PLC) 1951, if PLC1951 is to getting After data are handled, when obtained numerical value is more than the numerical value of setting, the alarm of control centre 195 will send alarm, And then PLC1951 control hydraulic-driven landscapes hinge movable dam 13 rises and landed, and realizes dash or flood discharge etc..Oil pump 192 with Motor connection, and the entrance of oil pump 192 connects with fuel tank 191, the outlet of oil pump 192 passes through the first in-line 1821 and hydraulic pressure The entrance of cylinder 11 is connected, and the force feed in fuel tank 191 is flowed into hydraulic cylinder 11 by the first in-line 1821, and hydraulic cylinder 11 goes out Mouth is connected by outlet line 1822 with fuel tank 191.

In the case of energization：Motor driven oil pump 192 draws force feed from fuel tank 191 is inner, and a part for force feed is passed through In first in-line 1821 press-in hydraulic cylinder 11, hydraulic cylinder 11 is located under hydraulic-driven landscape hinge movable dam 13, and with Hydraulic-driven landscape hinge movable dam 13 connects, therefore the oil pressure pressed oil can drive hydraulic cylinder 11 to drive hydraulic-driven landscape hinge Movable dam 13 rises.

Because the outlet of oil pump 192 is connected by energy storage pipeline 1823 with accumulator 193, it is provided with energy storage pipeline 1823 The 3rd valve that check valve is formed, for example, the force feed in oil pump 192 is flowed into accumulator 193 by energy storage pipeline 1823；And protect The 4th valve and check valve of stop valve formation are provided with pressure pipe road 1824, accumulator 193 passes through pressurize pipeline 1824 and liquid The entrance of cylinder pressure 11 is connected, and the force feed in accumulator 193 is flowed into hydraulic cylinder 11 by pressurize pipeline 1824, and accumulator 193 stores up Trapped fuel pressure energy.

Wherein, pressure switch 194, pressure switch 194 and control centre 195 are connected on the first in-line 1821 Communication, monitor camera device 197 are arranged on river course, and close to hydraulic-driven landscape hinge movable dam 13, and liquid can be monitored The position that pressure driving landscape hinge movable dam 13 rises, monitor camera device 197 pass through DVR 1953 and control centre 195 display 1952 communicates.When monitor camera device 197 monitors that hydraulic cylinder 11 drives hydraulic-driven landscape hinge movable dam 13 are raised to position or pressure switch 194 closes, and signal is transmitted to control by monitor camera device 197 and pressure switch 194 respectively Center 197 processed, control centre 197 can stop oil-feed pump 191 and motor power supply, and oil pump 191 and motor are stopped, hydraulic-driven Landscape hinge movable dam 13 also remains in the position of setting.Meanwhile first is additionally provided with pressure sensing on in-line 1821 Device, pressure sensor monitors the hydraulic pressure value of the first in-line 1821 at any time, and the hydraulic pressure value detected is passed to After PLC1951, PLC1951 receive the hydraulic pressure value, compared with the hydraulic pressure value of setting, if the hydraulic pressure value is less than the liquid of setting Pressure value, PLC meeting control oil pumps 191 or accumulator 193 provide hydraulic oil to hydraulic cylinder 11, reach pressure holding effect, and then ensure Hydraulic cylinder 11 can provide hydraulic-driven landscape hinge movable dam 13 and do enough active forces.It should be noted that in order to realize Multiple management and screen management, can be by PLC1951 and the central processing unit of control centre 195 in the present embodiment Between (Central Processing Unit, CPU) 1954 or between CPU1954 and display, by each equipment with Too net module or GPRS module etc. connect, and can also be used as the maincenter transmitted between each equipment by independent interchanger 1955 Data transfer is completed, to ensure the stability of data transfer, CPU1954 obtains related data, and CPU19454 out of PLC1951 Corresponding numerical value is inside provided with, lifting or the pressurize etc. of hydraulic-driven landscape hinge movable dam 13 are controlled by CPU1954.Together When, testing result etc. can also be shown to user or manufacturer etc. by CPU1954 by display 1952, so, user or Manufacturer etc. can understand field condition according to the result of the display of display 1952 and image etc., and then take measures on customs clearance to existing Field is indicated and managed, and improves efficiency.CPU1954 in the present embodiment may be mounted in industrial computer, display 1952 can be realized by common display, can also realize that the present embodiment does not do specific limit by the wall-mounted display of giant-screen System.

The outlet of hydraulic cylinder 11 is connected by outlet line 1822 with fuel tank 191, and cut-off is provided with outlet line 1822 The second valve and check valve that valve is formed.When the water level in river course exceedes defined water level, the cut-off in outlet line 1822 Valve is opened, and makes to flow back to fuel tank 191 with the force feed in the outlet line of the outlet of hydraulic cylinder 11 1822, in water pressure, dam body Under the external force effect that deadweight and hydraulic cylinder 11 are conducted oneself with dignity, hydraulic cylinder 11 drops to contract, hydraulic-driven landscape hinge movable dam 13 Fall.

It should be noted that：At liter dam, what the stop valve in outlet line 1822 was closed, that is to say, that when rising dam, liquid Force feed force feed can not flow back in fuel tank 191 out of hydraulic cylinder 11, thus effectively prevent the situation generation for falling dam automatically.

However, supplied in remote mountain areas without electricity, or in the event of a loss of power, or be not long-term uninterrupted power supply, Oil pump 192 cannot work, and also just hydraulic cylinder 11 can not be given to provide oil pressure energy, and then can not be by hydraulic-driven by oil pump 192 Landscape hinge movable dam 13 rises.Also include power supply 21, electric energy in the hydraulic-driven landscape hinge movable dam system of the present embodiment Detector 22 and TRT 23；Power detector 22 is connected with power supply 21, can detect whether power supply 21 breaks down；Power supply 21 when breaking down, and power detector 22 communicates with TRT 23 and control centre 197 respectively.

In the case that power detector 22 detects the failure of power supply 21, control centre 197 controls TRT 23 to be sent out Electricity, but in the case that TRT 23 can not also generate electricity, the stop valve on pressurize pipeline 1824 can be opened, due to energy-storage tube Road 1823 is provided with check valve, and force feed can not flow backwards from energy storage pipeline, and therefore, the force feed that accumulator 193 stores passes through pressure maintaining pipe Road 1824 enters hydraulic cylinder 11, and the oil pressure of force feed can drive hydraulic cylinder 11 to drive hydraulic-driven landscape hinge movable dam living to rise. It should be noted that：Set respectively on first in-line 1821, outlet line 1822, energy storage pipeline 1823 and pressurize pipeline 1824 The effect for the check valve put all is to prevent force feed adverse current.

Check valve is set on first in-line 1821, because：When oil pump 192 is stopped, hydraulic cylinder is pressed into In force feed meeting reverse flow scavenge oil pump 192 in 11, so as to which the hydraulic-driven landscape hinge movable dam 13 risen will be fallen.And This sets check valve it is prevented that pressing oil adverse current, so as to also it is prevented that the situation for falling dam automatically produces.

Check valve is set in outlet line 1822, because：When needing dam, usually open in outlet line 1822 Stop valve, force feed can be flow back into fuel tank from outlet line 1822, and the part force feed in outlet line 1822 can be inverse Flow in hydraulic cylinder 11, so as to which hydraulic-driven landscape hinge movable dam 13 cannot smoothly decline.And check valve is set herein Force feed adverse current is just effectively prevented, so as to also ensure that hydraulic-driven landscape hinge movable dam 13 smoothly declines.

Check valve is set on energy storage pipeline 1823, because：When oil pump 192 is stopped, it is pressed into accumulator In force feed meeting reverse flow scavenge oil pump 192, so as to which the hydraulic-driven landscape hinge movable dam 13 risen will fall dam.And set herein Check valve is just effectively prevented force feed adverse current, so as to also can effectively prevent the situation for falling dam automatically from producing.

Check valve is set on pressurize pipeline 1824, because：When having a power failure, it is necessary to which accumulator 193 supplies to hydraulic cylinder 11 During oil pressure energy, the situation that adverse current during hydraulic cylinder 11 is flowed into, can also occur is pressed oil, so as to influence the rise of dam facing.And Check valve is set just to be effectively prevented force feed adverse current herein, so as to also ensure that hydraulic-driven landscape hinge movable dam 13 is suitable Profit rises.

In the embodiment shown in fig. 10, be additionally provided with handlance 198 in drive device 19, the entrance of handlance 198 with Fuel tank 191 is connected, and the outlet of handlance 198 is connected by the second in-line 1825 with the entrance of hydraulic cylinder 11, the second oil-feed The 5th valve is provided with pipeline 1825, check valve can be such as set, so as to prevent force feed adverse current, influences the conjunction of hydraulic-driven landscape Page movable dam 13 rises.

When accumulator 193 starts repeatedly, after repeatedly rising hydraulic-driven landscape hinge movable dam 13, in accumulator 193 Force feed can be just depleted, and now, move handlance 198, handlance 198 draws force feed from fuel tank 191, and force feed is entered by second Oil pipe line 1825 enters hydraulic cylinder, and the oil pressure of force feed can drive hydraulic cylinder 11 to drive 13 liters of hydraulic-driven landscape hinge movable dam Rise.

In the embodiment shown in fig. 10, reversal valve, the effect of reversal valve are additionally provided with the first in-line 1821 There are two, one is the direction for changing force feed flow, the size of another regulation force feed flow.That is oil pump is being passed through 192 to 11 punching oil of hydraulic cylinder when, the flow direction of force feed can change with the change of environment, and reversal valve herein, which can just reach, to be changed The purpose in transformer oil direction.And to during 11 pressurising of hydraulic cylinder, because oil mass too conference damages hydraulic cylinder because of hypertonia 11, and oil mass is too small it cannot be guaranteed that hydraulic cylinder 11 has enough hydraulic energies to drive 13 liters of hydraulic-driven landscape hinge movable dam Rise, therefore, the effect of the regulation force feed uninterrupted of reversal valve can solve the problem that this problem.

In the embodiment shown in fig. 10, drive device 19 also includes emergency mechanism 199, and emergency mechanism 199 includes ponding Container 1991 and overflow water pipeline 1992；Fluid pressure line 182 also includes emergency pressure relief pipeline 1826；The outlet of hydraulic cylinder 11 passes through Emergency pressure relief pipeline 1826 connects with fuel tank 191；The 6th valve is provided with emergency pressure relief pipeline 1826；Overflow water pipeline 1992 One end be located at the top of seeping container 1991, the other end of overflow water pipeline 1992 then stretches into river course and specifies dash position, is used in combination In being drawn by river course and flowed into seeping container 1991 when the water level in river course exceedes predetermined water level；Seeping container 1991 and the 6th Handle connection on valve, and seeping container 1991 can drive the handle motion after ponding by Action of Gravity Field, and open Open the 6th valve.

6th valve is used for the channel status for controlling emergency pressure relief pipeline 1826, and the 6th valve is in normally closed under normal circumstances State.Seeping container 1991 is the container for holding river, can be box-shaped or the structure such as barrel-shaped, in seeping container 1991 On need to set a water inlet, it is such as the top of seeping container 1991 is open, or single water nozzle etc. is set.Overflow One end of flowing water pipeline 1992 is located at the top of seeping container 1991, the water inlet of face seeping container 1991.Overflow water pipeline 1992 other end is then stretched into inside river course, and the position that the predetermined water level in river course is slightly higher.When flood comes temporarily, in river course Water level can exceed predetermined water level, now river can flow out and flow into seeping container 1991 along overflow water pipeline 1992. Handle of the seeping container 1991 also with the 6th valve is connected.

When the water in seeping container 1991 is inadequate, the gross weight of seeping container 1991 is too low, and being not enough to reach makes handle The degree that hand is pulled, handle remain stationary as, and the 6th valve remains off.And with the inflow of river, seeping container 1991 Gross weight can increase, when the gross weight of seeping container 1991 sufficiently achieves the degree of pulling handle, handle will be pulled, So that the 6th valve opening, so that emergency line turns on.Hydraulic oil in hydraulic cylinder 11 can be along emergency pressure relief pipe Road 1826 is returned quickly in fuel tank, while makes war body in outer masterpieces such as water pressure, dam body deadweight and the deadweights of the plunger of hydraulic cylinder 11 With lower automatic landing, so as to realize mechanical unpowered drop dam when flood occurs, ensure the safety of river course upstream.

Generally, there can be the debris such as substantial amounts of floating object, rubbish in river course, the situation of flood especially is occurring Under, the debris quantity in river can be more.If these debris flow into overflow water pipeline 1992 and are likely to cause overflow pipe The blocking on road 1992, delay spillover efficiency or even lose relief function, so that entirely drop dam device is ineffective.In order to prevent Overflow water pipeline 1992 is by foreign body obstruction, and emergency set 199 also includes overflow filter 1993, overflow filter in the present embodiment 1993 are arranged on one end that overflow water pipeline 1992 is stretched into inside river course, so as to be filtered to impurity.

In the present embodiment, also it is connected on emergency pressure relief pipeline 1826 by the control with the 6th valve in parallel Road, and it is provided with a bypass valve in control bypass.When someone garrisons, can artificially be passed through come the situation of attacking according to flood Open bypass valve realization to meet an urgent need in advance, without waiting the 6th valve emergency starting again, control more convenient.And bypass valve Can be as the stand-by equipment of the 6th valve.

In the present embodiment, the first in-line 1821, return line and emergency pressure relief pipeline 1826 is both needed to and hydraulic pressure Cylinder 11 connects, if individually connected, will certainly increase the complex degree of structure of hydraulic cylinder.Therefore in order to simplify pipeline knot Structure, a unified transfer pipeline 1827, the first in-line 1821, return line and emergency pressure relief pipeline can be set 1826 are attached with transfer pipeline 1827, are then connected again by transfer pipeline 1827 is unified with hydraulic cylinder.

In the hydraulic-driven landscape hinge movable dam system of the present embodiment, drive device 19 includes the 7th valve and speed governing Valve, the 7th valve and flow speed control valve are arranged in outlet line 1822.For example, the 7th valve can use two-position three-way valve, its Purpose is in the case of hydraulic control one-way valve bad sealing, closes return line, prevents force feed from returning to fuel tank；Flow speed control valve be in order to Hydraulic-driven landscape hinge movable dam 13 speed as needed is fallen, avoid hydraulic-driven landscape hinge movable dam 13 from falling Speed quickly, and smashes river bed, and destruction can be produced to hydraulic-driven landscape hinge movable dam 13.

Finally it should be noted that：Various embodiments above is merely illustrative of the technical solution of the present invention, rather than its limitations；To the greatest extent The present invention is described in detail with reference to foregoing embodiments for pipe, it will be understood by those within the art that：Its according to The technical scheme described in foregoing embodiments can so be modified, either which part or all technical characteristic are entered Row equivalent substitution；And these modifications or replacement, the essence of appropriate technical solution is departed from various embodiments of the present invention technology The scope of scheme.

Claims (30)

1. a kind of hydraulic-driven landscape hinge movable dam system, it is characterised in that driven including hydraulic cylinder, hydraulic cylinder base, hydraulic pressure Dynamic landscape hinge movable dam, hydraulic-driven landscape hinge movable dam base and water sealing structure；The both ends of the hydraulic cylinder respectively with The hydraulic cylinder base and the hydraulic-driven landscape hinge movable dam are hinged, the hydraulic-driven landscape hinge movable dam bottom Portion sets lower shaft；The lower shaft is hinged with the hydraulic-driven landscape hinge movable dam base；

The water sealing structure includes：Side sealing unit, bottom waterstop unit and shaft end sealing unit；

The side sealing unit includes：First seal, the first fixed mechanism and governor motion；The first seal includes First fixed part and the first sealing, first fixed part are connected with first sealing；

First fixed mechanism is fixed on the side of the hydraulic-driven landscape hinge movable dam, and first fixed part passes through The governor motion is connected with first fixed mechanism, and first sealing position is in first fixed part away from the liquid The side of pressure driving landscape hinge movable dam, and extend along the side of the hydraulic-driven landscape hinge movable dam, the tune Section mechanism can adjust the spacing between the side of first sealing and the hydraulic-driven landscape hinge movable dam；

The bottom waterstop unit includes：Support, second seal and the second fixed mechanism；

The support is provided with groove, is rotated for the lower shaft in the groove；

The lower shaft is arranged in the groove and leaves gap between the groove；

The second seal includes the second fixed part and the second sealing, second fixed part and the second sealing phase Even；

Second fixed part is fixedly installed on the top of the support, second sealing by second fixed mechanism Seal the gap；

The shaft end sealing unit includes：3rd seal and the 3rd fixed mechanism；

3rd seal includes the 3rd fixed part and the 3rd sealing；

The end face of lower shaft described in 3rd both seals；

3rd fixed part passes through the described 3rd from the 3rd sealing to the lower shaft sunken inside, the 3rd fixed part Fixed mechanism is fixed with the lower shaft.

2. hydraulic-driven landscape hinge movable dam system according to claim 1, it is characterised in that the governor motion bag Include the first bolt, the first nut, first through hole and perforation structure；

The first through hole is arranged on first fixed mechanism, and the perforation structure runs through first fixed part, described First bolt is connected through the first through hole and the perforation structure and with first nut thread, and first spiral shell Bolt can change between the perforation structure along perpendicular to the direction of the side of the hydraulic-driven landscape hinge movable dam Relative position.

3. hydraulic-driven landscape hinge movable dam system according to claim 2, it is characterised in that described first fixes machine Structure includes the first fixing component, the second through hole, the second bolt and the first screwed hole；

First screwed hole is arranged on the side of the hydraulic-driven landscape hinge movable dam, and first fixing component includes The two parts being arranged in a mutually vertical manner, the first through hole and second through hole are provided respectively therein on a part, institute The second bolt is stated through second through hole and being threadedly coupled with first screwed hole, make first fixing component with it is described The side of hydraulic-driven landscape hinge movable dam is fixedly connected.

4. hydraulic-driven landscape hinge movable dam system according to claim 1, it is characterised in that described second fixes machine Structure includes pressing plate, the 3rd bolt and the second nut；

The top of the support is provided with the second screwed hole；

Second fixed part is provided with third through-hole corresponding with the second screw thread hole site；

The fourth hole corresponding with the second screw thread hole site is provided with the pressing plate；

The pressing plate is covered in above second fixed part；

Second screwed hole, the third through-hole and the fourth hole described in 3rd screw bolt passes, with described second Nut thread connects.

5. hydraulic-driven landscape hinge movable dam system according to claim 1, it is characterised in that the described 3rd fixes machine Structure includes the 4th bolt and fixture；

The fixture is arranged in the lower shaft, and is fixedly connected with the lower shaft；

3rd fixed part is provided with fifth hole, and the fixture is provided with and the fifth hole position the corresponding 3rd Screwed hole；

4th bolt passes through the fifth hole, and is threadedly coupled with the 3rd screwed hole.

6. the hydraulic-driven landscape hinge movable dam system according to any one of claim 1-5, it is characterised in that also wrap Include：Fluid pressure line laying structure；

The fluid pressure line laying structure includes：Be arranged on laying ditch on dam foundation bottom plate, fluid pressure line, solid-filling medium and The second stage of cast-in-place concrete capping；

The second stage of cast-in-place concrete capping covers the laying ditch, and collectively forms closed chamber, institute with the laying ditch State fluid pressure line to be arranged in the chamber, the second stage of cast-in-place concrete capping is tightly connected with the laying ditch；

The remaining space that the solid-filling medium is filled up in the chamber, and form disassembled interstitital texture.

7. hydraulic-driven landscape hinge movable dam system according to claim 6, it is characterised in that the solid-filling is situated between Matter is dry sand；

The fluid pressure line laying structure also includes waterproof layer, and the waterproof layer is bonded with the furrow bank of the laying ditch, and by institute Dry sand hill is stated to wrap up in.

8. hydraulic-driven landscape hinge movable dam system according to claim 7, it is characterised in that the fluid pressure line paving If structure also includes separation layer, the separation layer is arranged between the waterproof layer and the second stage of cast-in-place concrete capping, and It is bonded with the second stage of cast-in-place concrete capping.

9. hydraulic-driven landscape hinge movable dam system according to claim 6, it is characterised in that the fluid pressure line Outer tube wall scribbles anticorrosive coat.

10. hydraulic-driven landscape hinge movable dam system according to claim 6, it is characterised in that also include：Flexibility is even Adapter；

One end of the flexible steel in flat section tubing is connected with one end of the fluid pressure line, the other end of the flexible steel in flat section tubing with it is described Hydraulic cylinder connects.

11. hydraulic-driven landscape hinge movable dam system according to claim 10, it is characterised in that the flexible connection The both ends of pipe are respectively equipped with first flange and second flange；The end of the fluid pressure line is provided with the 3rd flange, the hydraulic cylinder It is provided with flange mounting seat；

Pass through bolt between the first flange and the 3rd flange, between the second flange and the flange mounting seat Nut is connected.

12. hydraulic-driven landscape hinge movable dam system according to claim 6, it is characterised in that also include driving dress Put；

The drive device includes fuel tank, oil pump and accumulator；The fluid pressure line include the first in-line, outlet line, Energy storage pipeline and pressurize pipeline；

The entrance of the oil pump connects with the fuel tank, and the outlet of the oil pump passes through first in-line and the hydraulic pressure The entrance of cylinder is connected, and the force feed in the fuel tank is flowed into the hydraulic cylinder by first in-line, the hydraulic cylinder Outlet connected by the outlet line with the fuel tank；

The outlet of the oil pump is connected by the energy storage pipeline with the accumulator, and the force feed in the oil pump passes through the storage Energy pipeline is flowed into the accumulator；

The accumulator is connected by the pressurize pipeline with the entrance of the hydraulic cylinder, and the force feed in the accumulator passes through institute Pressurize pipeline is stated to flow into the hydraulic cylinder；

The first valve is provided with first in-line, the second valve, the energy-storage tube are provided with the outlet line The 3rd valve is provided with road, the 4th valve is provided with the pressurize pipeline.

13. hydraulic-driven landscape hinge movable dam system according to claim 12, it is characterised in that the drive device Also include reversal valve, the reversal valve is arranged on first in-line.

14. hydraulic-driven landscape hinge movable dam system according to claim 12, it is characterised in that the drive device Also include pressure switch and control centre,

The pressure switch is arranged on first in-line, and the pressure switch communicates with the control centre.

15. hydraulic-driven landscape hinge movable dam system according to claim 14, it is characterised in that also visited including water level Device is surveyed, the water level detector is arranged on river course upstream, and the water level detector communicates with the control centre.

16. hydraulic-driven landscape hinge movable dam system according to claim 14, it is characterised in that also including power supply, Power detector and TRT；The power detector is connected with the power supply, can detect whether power supply breaks down；Institute Power detector is stated to communicate with the TRT and the control centre respectively.

17. hydraulic-driven landscape hinge movable dam system according to claim 14, it is characterised in that also taken the photograph including monitoring As device, the monitor camera device is arranged on river course, and close to the hydraulic-driven landscape hinge movable dam, and can supervise The position that the hydraulic-driven landscape hinge movable dam rises is controlled, the monitor camera device communicates with the control centre.

18. hydraulic-driven landscape hinge movable dam system according to claim 12, it is characterised in that the drive device Also include handlance and the second in-line；

The entrance of the handlance connects with the fuel tank, the outlet of the handlance by second in-line with it is described The entrance of hydraulic cylinder is connected, and the 5th valve is provided with second in-line.

19. hydraulic-driven landscape hinge movable dam system according to claim 12, it is characterised in that the drive device Also include jury, the jury includes seeping container and overflow water pipeline；The fluid pressure line also includes emergent let out Pressure pipe road；

The outlet of the hydraulic cylinder is connected by the emergency pressure relief pipeline with the fuel tank；Set on the emergency pressure relief pipeline There is the 6th valve；

One end of the overflow water pipeline is located at the top of the seeping container, and the other end of the overflow water pipeline then stretches into river Dash position is specified in road, and for being drawn by river course and being flowed into the seeping container when the water level in river course exceedes predetermined water level；

The seeping container is connected with the handle on the 6th valve, and the seeping container can rely on gravity after ponding Effect drives the handle motion, and opens the 6th valve.

20. hydraulic-driven landscape hinge movable dam system according to claim 19, it is characterised in that the drive device Also include overflow filter, the overflow filter is arranged on one end that the overflow water pipeline is stretched into inside river course.

21. hydraulic-driven landscape hinge movable dam system according to claim 19, it is characterised in that the drive device Also include control bypass and bypass valve；

It is described control bypass both ends respectively with the emergency pressure relief pipe positioned at the both sides of the emergency pressure relief pipeline stop valve Road is connected, and the bypass valve is arranged in the control bypass.

22. hydraulic-driven landscape hinge movable dam system according to claim 19, it is characterised in that the drive device Also include transfer pipeline；

First in-line, the outlet line and the emergency pressure relief pipeline respectively by the transfer pipeline with it is described Hydraulic cylinder connects.

23. hydraulic-driven landscape hinge movable dam system according to claim 12, it is characterised in that the drive device Also include the 7th valve, the 7th valve is arranged in the outlet line.

24. hydraulic-driven landscape hinge movable dam system according to claim 12, it is characterised in that the drive device Also include flow speed control valve, the flow speed control valve is arranged in the outlet line.

25. the hydraulic-driven landscape hinge movable dam system according to any one of claim 1-5, it is characterised in that institute Stating hydraulic-driven landscape hinge movable dam includes：First panel, two side panels, the first be hinged axle sleeve, the first be hinged axle sleeve are consolidated Determine floor and reinforcement structure；

Two side panels are separately positioned on the both sides of the first panel；

Described first be hinged axle sleeve fixing rib plate is fixedly installed between two side panels, and the described first be hinged axle sleeve is fixed On the described first be hinged axle sleeve fixing rib plate, and it is hinged with one end of the hydraulic cylinder；

The reinforcement structure is arranged between two side panels, and is fixed in the first panel；

The reinforcement structure includes multiple floors and multiple bearing pins；

Multiple floors be arranged in parallel with the side panel, and are fixedly connected with the first panel；

Multiple pin-and-holes are provided with each floor and the first be hinged axle sleeve fixing rib plate, each bearing pin is horizontal To setting, and sequentially pass through the pin-and-hole on the floor and the first be hinged axle sleeve fixing rib plate.

26. hydraulic-driven landscape hinge movable dam system according to claim 25, it is characterised in that the hydraulic-driven Landscape hinge movable dam also includes second panel, the second panel respectively with each side panel, each floor and institute State the first be hinged axle sleeve fixing rib plate connection；

The position that the second panel corresponds to the described first be hinged axle sleeve fixing rib plate sets opening.

27. the hydraulic-driven landscape hinge movable dam system according to any one of claim 1-5, it is characterised in that institute Stating hydraulic-driven landscape hinge movable dam base includes the second be hinged axle sleeve, soleplate, support frame, multiple foundation bolts and more Individual nut；

Second jointed shaft is set on the soleplate；The lower shaft is hinged with the described second be hinged axle sleeve；The branch Support is arranged on ground, and multiple screw mandrels upwardly extended are provided with support frame as described above；

The soleplate is provided with the first mounting hole corresponding with the screw mandrel and the second peace corresponding with the foundation bolt Fill hole；Multiple nuts are separately positioned on the both sides of first mounting hole and second mounting hole；

The screw mandrel passes through first mounting hole, and the foundation bolt passes through second mounting hole；

The screw mandrel and the foundation bolt coordinate in the both sides of the soleplate with least one nut thread.

28. the hydraulic-driven landscape hinge movable dam system according to any one of claim 1-5, it is characterised in that institute Stating hydraulic cylinder includes cylinder barrel, piston rod and dust guard, and the dust guard is set on the piston rod；The piston rod with The hydraulic-driven landscape hinge movable dam is hinged, and the cylinder barrel is hinged with the hydraulic cylinder base.

29. the hydraulic-driven landscape hinge movable dam system according to any one of claim 1-5, it is characterised in that institute It is single-stage cylinder to state hydraulic cylinder.

30. the hydraulic-driven landscape hinge movable dam system according to any one of claim 1-5, it is characterised in that institute It is 0-75 ° to state the angle of inclination of hydraulic-driven landscape hinge movable dam and the angular range of horizontal plane.