CN106284617B - A kind of lake Zhong Hu - Google Patents

Abstract

The invention discloses a kind of lake Zhong Hu, lake is separated into upper layer lake and lower layer lake by water barrier, and the flow-guiding mouth in conducting upper layer lake and lower layer lake is opened up on water barrier, and the plug for blocking flow-guiding mouth is elasticly connected on the top surface of water barrier, and the lower section of flow-guiding mouth is equipped with aqueduct；The aqueduct is connect with driving mechanism, and driving mechanism is connect with water valve, and water valve is mounted on water pipe, and water pipe connection upper layer lake and lower layer lake, water pipe are connect with water pumper.The top opening of water pipe is flushed with water level alarm line, and water level alarm line is in above water barrier；When water level is higher than water level alarm line in the lake of upper layer, driving mechanism driving aqueduct rising opens plug；When water level is equal to or less than water level alarm line in the lake of upper layer, aqueduct decline resets, and driving mechanism opens water valve, and water in lower layer lake is pumped into upper layer lake by water pipe by water pumper.

Description

A kind of lake Zhong Hu

Technical field

The present invention relates to urban infrastructures, and in particular to the transformation in lake.

Background technique

Rain is big, and the water on avenue flows through conduit pipe and enters in lake, and water level rises in lake, overflows, anti-to immerse city street Road, flood are formed.

Summary of the invention

How technical problem solved by the invention: avoiding in lake water level from rising and counter immerses avenue.

In order to solve the above technical problems, the invention provides the following technical scheme: lake is separated by a kind of lake Zhong Hu, water barrier Upper layer lake and lower layer lake open up the flow-guiding mouth in conducting upper layer lake and lower layer lake, elastic connection on the top surface of water barrier on water barrier There is the plug for blocking flow-guiding mouth, the lower section of flow-guiding mouth is equipped with aqueduct；The aqueduct is connect with driving mechanism, driving mechanism with Water valve connection, water valve are mounted on water pipe, and water pipe connection upper layer lake and lower layer lake, water pipe are connect with water pumper；The water pipe Top opening is flushed with water level alarm line, and water level alarm line is in above water barrier；When water level is higher than water level alarm in the lake of upper layer When line, driving mechanism driving aqueduct rising opens plug；When water level is equal to or less than water level alarm line in the lake of upper layer, water guide Pipe decline resets, and driving mechanism opens water valve, and water in lower layer lake is pumped into upper layer lake by water pipe by water pumper.

According to the above technical scheme, when water level is higher than water level alarm line in the lake of upper layer, the inductor on the revetment of lake is triggered, Driving mechanism movement, aqueduct rising open plug, and the top opening of aqueduct is connected with upper layer lake, and the water in the lake of upper layer is through leading Water pipe enters in lower layer lake, and water level is declined in the lake of upper layer.

According to the above technical scheme, the inductor when water level is equal to or less than water level alarm line in the lake of upper layer, on the revetment of lake It is triggered, driving mechanism movement, aqueduct decline resets, and plug resets under the action of elasticity, covers flow-guiding mouth；Meanwhile it driving Water in lower layer lake is pumped into upper layer lake by water pipe, to promote upper layer lake by dynamic mechanism opening water valve, water pumper (suction pump) movement Middle water level.

The plug includes top cover, the elastic sealing element that cap base is arranged in, the cone that elastic sealing element bottom is arranged in Shape guide part, the thin bar that conical guide member bottom is set, the jacking receiving block that thin bar bottom end is set, the edge of the top cover Equipped with several flexible connectors, the bottom end of flexible connector is connect with water barrier；The inner cavity of the aqueduct is equipped with jacking block, top It rises block to be connected on the internal chamber wall of aqueduct by several ribs, jacking block is located at the top of aqueduct；In the aqueduct of rising Jacking block on push up the jacking receiving block.

As described above, original state, under the action of flexible connector, elastic sealing element is pressed on flow-guiding mouth, envelope Close flow-guiding mouth；Aqueduct rises, and jacking block presses jacking receiving block upwards, and jacking receiving block rises, and overcomes flexible connector Elastic force drives plug to rise, and elastic sealing element runs up and leaves flow-guiding mouth, and the water in the lake of upper layer injects water guide through flow-guiding mouth Pipe, water flow down in aqueduct through several ribs.Wherein, the inner wall of the outer wall of aqueduct and flow-guiding mouth is in close contact, outside waterproof Stream.

The rotary components include rotating seat, the fixed brake disc and second gear for being set in rotating seat periphery；

The latch components include being fixed at the intracorporal basal disc of shell, a pair of of the brake(-holder) block being mounted on basal disc, sliding Solution lock slide on basal disc is set；The pair of brake(-holder) block is symmetrical set in the periphery of brake disc, a pair of of brake(-holder) block One end is hinged, the mutual elastic connection of the other end；Solution lock slide is equipped with a pair and slides bar, a pair of of brake(-holder) block elastic connection One end opens up a pair of of slide slot, and slide slot is in bending, and a pair of of slide slot is symmetrical set, and a pair slides bar and is slidably fitted in In a pair of of slide slot；

The driving component includes the annulus for being driven by driving device and being rotated, and the center line of annulus rotation deviates rotating seat The center line of rotation, the inner sidewall of annulus are equipped with tooth section and unlocked state, and unlocked state includes a unlock rod, and the unlock is slided Block opens up the guide groove of S-shaped, and the annulus of rotation can drive unlock rod to slide into guide groove, and the unlock rod slided in guide groove can drive Make to solve lock slide to basal disc center translation, when unlock rod starts to drive solution lock slide to basal disc center translation, second gear with Tooth section starts to engage, and when unlock rod, which is detached from, to be contacted with guide groove, solution lock slide resets and second gear is disengaged with tooth section；

Above-mentioned rotary components, latch components, driving assembly constitute driving mechanism.

Open up rotating seat threaded hole at the center of the rotating seat, the aqueduct and rotating seat screw hole and downwards Across rotating seat；The bottom of flow-guiding mouth is equipped with guide sleeve, is plugged in guide sleeve at the top of aqueduct, aqueduct and guide sleeve it Between be equipped with mutually matched guide frame；

Worm gear is arranged on the lateral wall of the annulus, worm gear is engaged with worm screw, and worm screw is connect by connecting rod with water valve.

By the above-mentioned explanation to driving mechanism, the working principle of the driving mechanism is as follows:

First, the driving device driving annulus rotation in driving mechanism, annulus drives tooth section and unlocked state rotation thereon Turn.

Second, when the unlock rod being fixed on annulus slides into guide groove and drives solution center of the lock slide to basal disc When translation, a pair on solution lock slide slides bar and translates in a pair of of slide slot in a manner of one-to-one, since slide slot is in curved Shape is rolled over, therefore, a pair translated to basal disc central line, which slides bar, can drive one end of a pair of of brake(-holder) block elastic connection to be opened, such as This, rotating seat is changed into rotatable state by the initial state by a pair of of brake(-holder) block friction catch.

Third no longer brakes rotating seat synchronously with a pair of of brake(-holder) block, the tooth section on annulus inner sidewall, i.e. annulus inner sidewall On one section of tooth, start to engage with second gear, and drive second gear and be firmly connected with it rotating seat rotation；Work as rotation Seat rotation fixed angle, when such as 180 degree, tooth section is disengaged with second gear, meanwhile, unlock rod and solution lock slide Guide groove disengages, since guide groove is S-shaped, when unlock rod and guide groove disengage, solution lock slide resets, and one It is resetted therewith to bar is slided, one end of a pair of of brake(-holder) block elastic connection also resets therewith, a pair of of brake(-holder) block friction catch system again Moving plate, and then brake rotating seat.

4th, when water level is higher than water level alarm line in the lake of upper layer, driving mechanism movement, specifically, in driving assembly Annulus rotation, first by the rotatable handle of worm and gear driving water valve, the water valve gradually water flow in clearance water pipe；Later, circle Tooth section on ring drives rotating seat rotation by second gear, and the aqueduct that the rotation driving of rotating seat is screwed onto it rises, After rising predetermined altitude, plug is opened, and tooth section is disengaged with second gear, and rotating seat is relocked.It is above-mentioned, aqueduct Upper layer lake and lower layer lake are connected to water pipe, the water in the lake of upper layer enters in lower layer lake through aqueduct and water pipe, upper layer lake Zhong Shui Position is declined.

5th, when water level is lower than water level alarm line in the lake of upper layer, driving mechanism movement, specifically, in driving assembly Annulus reversely rotates, firstly, the tooth section on annulus drives rotating seat to reversely rotate by second gear, the reverse rotation of rotating seat The aqueduct decline being screwed onto it is driven, after declining predetermined altitude, plug resets under the effect of elasticity, and flow-guiding mouth is blocked； Later, tooth section is disengaged with second gear, and rotating seat is relocked, and annulus stopping movement no longer reversely rotating, at this point, Worm gear mechanism not yet closes water valve, or not yet completely closes water valve, and water in lower layer lake is passed through water by water pumper movement Pipe is pumped into the lake of upper layer, and water level is risen in the lake of upper layer.

As the present invention to a kind of explanation of latch components, the basal disc is equipped with a pillar, and pillar is equipped with swivel pin； The pair of brake(-holder) block includes the second brake(-holder) block positioned at first brake(-holder) block in left side and positioned at right side, the left end of the first brake(-holder) block It is hinged on swivel pin with the left end of the second brake(-holder) block, the right end of the first brake(-holder) block and the right end of the second brake(-holder) block are stretched by first The connection of contracting spring；The right end of first brake(-holder) block is equipped with the first top pillar, and the right end of the second brake(-holder) block is equipped with the second top pillar, and first Top pillar and the second top pillar are oppositely arranged, and the first top pillar and the second top pillar are located in the first adjustable spring；First brake(-holder) block and The equal semicircular in shape of second brake(-holder) block, the first brake(-holder) block and the second brake(-holder) block surround brake disc.As described above, the first adjustable spring With the trend for closing up the first brake(-holder) block and the second brake(-holder) block, and the setting of the first top pillar and the second top pillar then has blocking should The effect of kind trend.

As the present invention to a kind of explanation of latch components, the pair of slide slot includes that the first slide slot and second slides Slot, the first slide slot are provided with the right end of the first brake(-holder) block, and the second slide slot is provided with the right end of the second brake(-holder) block, and first slides Slot and the second slide slot are symmetrical set, wherein the first slide slot includes that the first straight line type slide slot being connected to and second are straight Line style slide slot, angle circle between first straight line type slide slot and second straight line type slide slot is in 90 degree and 180 degree Between.As described above, when solving lock slide to when the translation of the central line of basal disc, a pair slided in a pair of of slide slot is slided Bar has the trend of the right end separation of the right end and the second brake(-holder) block that make the first brake(-holder) block.

As the present invention to a kind of explanation of latch components, the solution lock slide is equipped with a pair of of positioning pin, the pair of Positioning pin includes the first positioning pin and the second positioning pin being symmetrical set, and it is fixed that the right end of first brake(-holder) block is equipped with first Position hole, the right end of the second brake(-holder) block are equipped with second location hole, when the first top pillar and the second top pillar offset, the solution lock slide of translation On the first positioning pin and the second positioning pin can correspondingly be inserted into first positioning hole and second location hole；It is the pair of to slide bar Bar and second is slided including first and slides bar, and first slides the top that bar is fixed at the first positioning pin, and second, which slides bar, consolidates The top of second positioning pin is set calmly, and first slides the central axis of the center line of bar and the first positioning pin.By above stating Bright, when unlock rod pushes the center translation for solving lock slide to basal disc, first slides bar first in first straight line type slide slot Translation, when the first positioning pin and the second positioning pin are detached from first positioning hole and second location hole, second, which slides bar, just enters the Two linear type slide slots, a pair slide bar and open the right end of the right end of the first brake(-holder) block and the second brake(-holder) block；Unlock rod with The rotation of annulus and after leaving away, solution lock slide resets, and a pair slides bar and resets therewith, the first positioning pin and the second positioning pin phase First positioning hole and second location hole are inserted into answering, to lock a pair of of brake(-holder) block.

As the present invention to a kind of explanation of interactive relationship between latch components and driving assembly, in latch components, unlock Guide groove on sliding block includes the first arc guide groove of connection, the second arc guide groove, third arc guide groove, wherein the The arc center of circle of two arc guide grooves is located on the center line of annulus；In driving assembly, the unlocked state includes being fixed on circle Convex block, the radial bars for being fixed in radial direction on convex block and being directed toward the annulus center of circle in radial direction on ring inner sidewall；The unlock rod peace Mounted in the end of radial bars；With the rotation of annulus, unlock rod is first slipped into the first arc guide groove, and drive solution lock slide to The center translation of basal disc, meanwhile, second gear starts to engage with tooth section, and later, unlock rod enters the second arc guide groove, unlock Sliding block remains unchanged at a distance from basal disc center, and later, unlock rod enters third arc guide groove, and drives solution lock slide to remote Direction translation from basal disc center, when unlock rod is detached from third arc guide groove, second gear is disengaged with tooth section.

As described above, under the premise of annulus rotates, when unlock rod moves in the first arc guide groove, unlock rod Solution lock slide is pushed to translate to the central line of basal disc, during unlock rod is mobile in the first arc guide groove, first It slides bar to translate in first straight line type slide slot first, be translated in second straight line type slide slot later, the first brake(-holder) block is right End and the second brake(-holder) block right end are separated from each other, and synchronously, the first positioning pin and the second positioning pin are gradually from first positioning hole and the It is extracted in two location holes；When unlock rod moves in the second arc guide groove, since radial boom end is directed toward the center of circle of annulus And second the arc center of circle of arc guide groove be located on the center line of annulus, therefore, when unlock rod is in the second arc guide groove When mobile, the centre distance for solving lock slide and annulus is remained unchanged, and in turn, solution lock slide is kept not at a distance from basal disc center Become, a pair of of brake(-holder) block keeps open configuration, rotates freely rotating seat；When unlock rod moves in third arc guide groove, Unlock rod is to push solution lock slide to the direction rectilinear translation far from basal disc center, and unlock rod moves in third arc guide groove During, first, which slides bar, travels in first straight line type slide slot by second straight line type slide slot, the first brake(-holder) block right end and Second brake(-holder) block right end is mutually drawn close to lock brake disc, and synchronously, the first positioning pin and the second positioning pin are gradually inserted into first Location hole and second location hole are to lock the first brake(-holder) block and the second brake(-holder) block.In above description, when unlock rod is in the first arc When moving in guide groove, second gear is engaged with tooth section, when unlock rod, which is detached from, to be contacted with third arc guide groove, second gear It is disengaged with tooth section, starts to contact to unlock rod to be detached to contact with guide groove with guide groove in unlock rod, second gear driving Rotating seat rotates fixed angle, such as 180 degree.

As the present invention to a kind of explanation of driving assembly, the annulus is articulated in shell, and the driving device includes The fixed ring gear being set on annulus inner sidewall, couples with third gear and is mounted on shell the third gear engaged with ring gear Interior first motor.As described above, first motor driving third gear rotation, third gear is by driving ring gear to drive circle Ring rotation.

The water pipe is mounted in the revetment in lake, the bottom of the bottom opening of water pipe close to lower layer lake；The driving mechanism In lower layer lake, driving mechanism is mounted on the bottom surface of water barrier.

Multiple flow-guiding mouths can be opened up on the water barrier, aqueduct is plugged in each flow-guiding mouth, and each aqueduct is mating Driving mechanism is installed, each mating connecting with water valve of driving mechanism, each water valve is mating to be mounted on water pipe.

Detailed description of the invention

Following further describes the present invention with reference to the drawings:

Fig. 1 is the structural schematic diagram in lake in a kind of lake of the present invention；

Fig. 2 is driving mechanism 60, the combining structure schematic diagram of aqueduct 30, water pipe 50 in Fig. 1；

Fig. 3 is driving mechanism 60 in Fig. 1 (hiding shell 600), the combining structure schematic diagram of aqueduct 30, water pipe 50；

Fig. 4 is the combining structure schematic diagram of water barrier 10, plug 20, aqueduct 30 in Fig. 1；

Fig. 5 is the combining structure schematic diagram of driving mechanism 60 and aqueduct 30, worm screw 65 in Fig. 3；

Fig. 6 is the structural schematic diagram of driving mechanism 60 in Fig. 5；

Fig. 7 is the combining structure schematic diagram of rotary components 61 and latch components 62 in Fig. 6；

Fig. 8 be Fig. 7 in the composite structure of rotary components 61 and latch components 62 be cut after schematic diagram；

Fig. 9 is the structural schematic diagram that lock slide 623 is solved in Fig. 8；

Figure 10 is the structural schematic diagram of brake(-holder) block 622 in Fig. 8；

Figure 11 is the structural schematic diagram of driving assembly 63 in Fig. 6.

Symbol description in figure:

01, upper layer lake；02, lower layer lake；03, revetment；

10, water barrier；11, flow-guiding mouth；12, guide sleeve；

20, plug；21, top cover；22, elastic sealing element；23, conical guide member；24, thin bar；25, receiving block is jacked；26, Flexible connector；

30, aqueduct；31, block is jacked；32, rib；33, gib block；

40, water valve；

50, water pipe；51, water pumper；

60, driving mechanism；600, shell；

61, rotary components；611, rotating seat；612, brake disc；613, second gear；614, rotating seat threaded hole；

62, latch components；621, basal disc；622, brake(-holder) block；6221, the first adjustable spring；6222, location hole；623, it solves Lock slide；6230, guide groove；6231, the first arc guide groove；6232, the second arc guide groove；6233, third arcuate guide Slot；624, bar is slided；626, pillar；627, positioning pin；629, slide slot；6291, first straight line type slide slot；6292, second Linear type slide slot；

63, driving assembly；631, annulus；632, tooth section；633, unlocked state；6331, unlock rod；635, ring gear；636, Third gear；638, radial bars；64, worm gear；65, worm screw.

Specific embodiment

Following specific embodiments are referring to figs. 1 to Figure 11.

Lake is separated into upper layer lake 01 and lower layer lake 02 by a kind of lake Zhong Hu, water barrier 10, and conducting upper layer is opened up on water barrier The flow-guiding mouth 11 in lake and lower layer lake is elasticly connected with the plug 20 for blocking flow-guiding mouth, the lower section of flow-guiding mouth on the top surface of water barrier Equipped with aqueduct 30；The aqueduct is connect with driving mechanism 60, and driving mechanism is connect with water valve 40, and water valve is mounted on water pipe 50 On, water pipe connection upper layer lake and lower layer lake, water pipe are connect with water pumper 51.

The top opening of the water pipe is flushed with water level alarm line, and water level alarm line is in above water barrier；When upper layer lake When middle water level is higher than water level alarm line, driving mechanism driving aqueduct rising opens plug；When water level is equal to or low in the lake of upper layer When water level alarm line, aqueduct decline resets, and driving mechanism opens water valve, and water in lower layer lake is pumped by water pumper by water pipe Upper layer lake.

The plug 20 is including top cover 21, the elastic sealing element 22 that cap base is arranged in, setting at elastic sealing element bottom The conical guide member 23 in portion, the thin bar 24 that conical guide member bottom is set, the jacking receiving block 25 that thin bar bottom end is set, institute The edge for stating top cover is equipped with several flexible connectors 26, and the bottom end of flexible connector is connect with water barrier.

The inner cavity of the aqueduct 30 is equipped with jacking block 31, and jacking block is connected to the inner cavity of aqueduct by several ribs 32 On wall, jacking block is located at the top of aqueduct；The jacking receiving block is pushed up on jacking block in the aqueduct of rising.

The driving mechanism 60 includes rotary components 61, latch components 62, driving assembly 63.

The rotary components 61 include rotating seat 611, the fixed brake disc 612 and second gear for being set in rotating seat periphery 613。

The latch components 62 include being fixed at the intracorporal basal disc 621 of shell, a pair of of the brake(-holder) block being mounted on basal disc 622, the solution lock slide 623 being slidably arranged on basal disc；The pair of brake(-holder) block is symmetrical set in the periphery of brake disc, and one It is hinged to one end of brake(-holder) block, the mutual elastic connection of the other end；The a pair that solution lock slide is equipped with slides bar 624, a pair of system One end of movable plate elastic connection opens up a pair of of slide slot 629, and slide slot is in bending, and a pair of of slide slot is symmetrical set, and one It is slidably fitted in a pair of of slide slot to bar is slided.

The driving component 63 includes the annulus 631 for being driven by driving device and being rotated, and the center line of annulus rotation deviates The center line of rotating seat rotation, the inner sidewall of annulus are equipped with tooth section 632 and unlocked state 633, and unlocked state includes a unlock Bar 6331, the solution lock slide open up the guide groove 6230 of S-shaped, and the annulus of rotation can drive unlock rod to slide into guide groove, lead The unlock rod slided into slot can drive solution lock slide to basal disc center translation, when unlock rod starts to drive solution lock slide to basal disc When center translation, second gear starts to engage with tooth section, and when unlock rod, which is detached from, to be contacted with guide groove, solution lock slide resets and the Two gears are disengaged with tooth section.

About driving mechanism 60, in latch components 62, the basal disc 621 is equipped with a pillar 626, and pillar is equipped with hinged Pin；The pair of brake(-holder) block 622 includes the second brake(-holder) block positioned at first brake(-holder) block in left side and positioned at right side, the first brake(-holder) block Left end and the left end of the second brake(-holder) block be hinged on swivel pin, the right end of the first brake(-holder) block and the right end of the second brake(-holder) block pass through First adjustable spring, 6221 elastic connection；The right end of first brake(-holder) block is equipped with the first top pillar, and the right end of the second brake(-holder) block is equipped with the Two top pillars, the first top pillar and the second top pillar are oppositely arranged, and the first top pillar and the second top pillar are located in the first adjustable spring；Described One brake(-holder) block and the equal semicircular in shape of the second brake(-holder) block, the first brake(-holder) block and the second brake(-holder) block surround brake disc 612.

About driving mechanism 60, in latch components 62, the pair of slide slot 629 includes that the first slide slot and second slides Slot, the first slide slot are provided with the right end of the first brake(-holder) block, and the second slide slot is provided with the right end of the second brake(-holder) block, and first slides Slot and the second slide slot are symmetrical set, wherein the first slide slot includes the first straight line type slide slot 6291 and the of connection Two linear type slide slots 6292, angle circle between first straight line type slide slot and second straight line type slide slot is in 90 degree and one Between 180 degree.

About driving mechanism 60, in latch components 62, the solution lock slide 623 is equipped with a pair of of positioning pin 627, and described one It include the first positioning pin and the second positioning pin being symmetrical set to positioning pin, the right end of first brake(-holder) block is equipped with first Location hole 6222, the right end of the second brake(-holder) block are equipped with second location hole, when the first top pillar and the second top pillar offset, the solution of translation The first positioning pin and the second positioning pin on lock slide can be correspondingly inserted into first positioning hole and second location hole；It is the pair of Sliding bar includes first sliding bar and second and sliding bar, and first slides the top that bar is fixed at the first positioning pin, and second is sliding Row bar is fixed at the top of the second positioning pin, and first slides the central axis of the center line of bar and the first positioning pin.

About driving mechanism 60, in latch components 62, the first arc that the guide groove 6230 on lock slide 623 includes connection is solved Shape guide groove 6231, the second arc guide groove 6232, third arc guide groove 6233, wherein the arc of the second arc guide groove The center of circle is located on the center line of annulus 631；In driving assembly 63, the unlocked state 633 includes being fixed on 631 inner sidewall of annulus On radial direction in convex block, the radial bars 638 that are fixed in radial direction on convex block and are directed toward the annulus center of circle；The unlock rod 6331 is installed In the end of radial bars.With the rotation of annulus, unlock rod is first slipped into the first arc guide groove, and drives solution lock slide to base The center translation of disk 621, meanwhile, second gear 613 starts to engage with tooth section 632, and later, unlock rod enters the second arcuate guide Slot, solution lock slide remain unchanged at a distance from basal disc center, and later, unlock rod enters third arc guide groove, and drives unlock Sliding block is translated to the direction far from basal disc center, and when unlock rod is detached from third arc guide groove, second gear and tooth section are detached from Contact.

About driving mechanism 60, in driving assembly 63, the annulus 631 is articulated in shell 600, the driving device packet The fixed ring gear 635 being set on annulus inner sidewall, the third gear 636 engaged with ring gear are included, couples and pacifies with third gear Mounted in the intracorporal first motor of shell.

The driving mechanism 60 and the interaction relation of aqueduct 30 are as follows: opening up rotation at the center of the rotating seat 611 Seat threaded hole 614, the aqueduct 30 and rotating seat screw hole and is passed down through rotating seat；The bottom of water barrier 10 is equipped with Guide sleeve 12 is plugged in guide sleeve at the top of aqueduct, and mutually matched guide frame is equipped between aqueduct and guide sleeve； Wherein, guide frame includes the gib block 33 being located on aqueduct side wall, cooperates with gib block and be provided on guide sleeve inner wall Guide groove.

The driving mechanism 60 and the interaction relation of water valve 40 are as follows: being arranged with worm gear on the lateral wall of the annulus 631 64, worm gear is engaged with worm screw 65, and worm screw is connect by connecting rod with water valve 40.

In practical operation, the workflow in lake is as follows in a kind of lake of the present invention:

First, when water level is higher than water level alarm line in upper layer lake 01, driving mechanism 60 is acted, specifically, driving assembly Annulus 631 in 63 rotates, and passes through the water flow in worm and gear driving water valve 40 gradually clearance water pipe 50 first；Later, annulus Tooth section 632 on 631 drives rotating seat 611 to rotate by second gear 613, and aqueduct 30 rises, and plug 20 is opened.

Above-mentioned, aqueduct 30 is connected to upper layer lake 01 and lower layer lake 02 with water pipe 50, the water in the lake of upper layer through aqueduct and Water pipe enters in lower layer lake, and water level is declined in the lake of upper layer.

Second, when water level is lower than water level alarm line in upper layer lake 01, driving mechanism 60 is acted, specifically, driving assembly In annulus 631 reversely rotate, firstly, tooth section 632 on annulus drives rotating seat 611 to reversely rotate by second gear 613, The reverse rotation driving decline of aqueduct 30 of rotating seat resets, and plug 20 resets under the effect of elasticity, and flow-guiding mouth 11 is blocked；It Afterwards, 631 stopping of annulus acts, and no longer reversely rotates, at this point, worm gear mechanism not yet closes water valve 40, or not yet by water Valve completely closes, and water pumper 51 acts, and water in lower layer lake 02 is pumped into upper layer lake 01 by water pipe 50, water level obtains in the lake of upper layer To rising.

The above content is only better embodiment of the invention, for those of ordinary skill in the art, according to the present invention Thought, there will be changes in the specific implementation manner and application range, and the content of the present specification should not be construed as to this hair Bright limitation.

Claims (9)

1. a kind of lake Zhong Hu, lake is separated into upper layer lake (01) and lower layer lake (02) by water barrier (10), opens up conducting on water barrier The flow-guiding mouth (11) in upper layer lake and lower layer lake is elasticly connected with the plug (20) for blocking flow-guiding mouth, water conservancy diversion on the top surface of water barrier The lower section of mouth is equipped with aqueduct (30)；It is characterized by: the aqueduct is connect with driving mechanism (60), driving mechanism and water valve (40) it connects, water valve is mounted on water pipe (50), and water pipe connection upper layer lake and lower layer lake, water pipe are connect with water pumper (51)；

The top opening of the water pipe is flushed with water level alarm line, and water level alarm line is in above water barrier；As upper layer lake Zhong Shui When position is higher than water level alarm line, driving mechanism driving aqueduct rising opens plug；When water level is equal to or less than water in the lake of upper layer When the warning line of position, aqueduct decline resets, and driving mechanism opens water valve, and water in lower layer lake is pumped into upper layer by water pipe by water pumper Lake；

The driving mechanism (60) includes rotary components (61), latch components (62), driving assembly (63)；

The rotary components (61) include rotating seat (611), the fixed brake disc (612) and the second tooth for being set in rotating seat periphery It takes turns (613)；

The latch components include a pair of of the brake(-holder) block for being fixed at the intracorporal basal disc of shell (621), being mounted on basal disc (622), the solution lock slide (623) being slidably arranged on basal disc；The pair of brake(-holder) block is symmetrical set in the outer of brake disc It encloses, one end of a pair of of brake(-holder) block is hinged, the mutual elastic connection of the other end；Solution lock slide is equipped with a pair and slides bar (624), One end of a pair of of brake(-holder) block elastic connection opens up a pair of of slide slot (629), and slide slot is in bending, a pair of of slide slot bilateral symmetry Setting, a pair slide bar and are slidably fitted in a pair of of slide slot；

The driving component includes the annulus (631) for being driven by driving device and being rotated, and the center line of annulus rotation deviates rotation The center line of seat rotation, the inner sidewall of annulus are equipped with tooth section (632) and unlocked state (633), and unlocked state includes a unlock Bar (6331), the solution lock slide open up the guide groove (6230) of S-shaped, and the annulus of rotation can drive unlock rod to slide into guide groove, The unlock rod slided in guide groove can drive solution lock slide to basal disc center translation, when unlock rod start to drive solution lock slide to When basal disc center translation, second gear starts to engage with tooth section, and when unlock rod, which is detached from, to be contacted with guide groove, solution lock slide resets And second gear is disengaged with tooth section；

It is opened up rotating seat threaded hole (614) at the center of the rotating seat (611), the aqueduct (30) and rotating seat threaded hole It is spirally connected and is passed down through rotating seat；The bottom of water barrier (10) is equipped with guide sleeve (12), is plugged in guide sleeve at the top of aqueduct It is interior, mutually matched guide frame is equipped between aqueduct and guide sleeve；

Be arranged with worm gear (64) on the lateral wall of the annulus (631), worm gear is engaged with worm screw (65), worm screw by connecting rod with Water valve (40) connection.

2. a kind of lake Zhong Hu as described in claim 1, it is characterised in that: the plug (20) includes top cover (21), setting It is led in the elastic sealing element (22) of cap base, the conical guide member (23) that elastic sealing element bottom is arranged in, setting in taper To part bottom thin bar (24), the jacking receiving block (25) of thin bar bottom end is set, if the edge of the top cover is equipped with dry elasticity Connector (26), the bottom end of flexible connector are connect with water barrier；

The inner cavity of the aqueduct (30) is equipped with jacking block (31), and jacking block is connected to the interior of aqueduct by several ribs (32) In cavity wall, jacking block is located at the top of aqueduct；The jacking receiving block is pushed up on jacking block in the aqueduct of rising.

3. a kind of lake Zhong Hu as described in claim 1, it is characterised in that: in latch components (62), set on the basal disc (621) Have a pillar (626), pillar is equipped with swivel pin；The pair of brake(-holder) block (622) include positioned at left side the first brake(-holder) block and The left end of the second brake(-holder) block positioned at right side, the left end of the first brake(-holder) block and the second brake(-holder) block is hinged on swivel pin, the first system The right end of the right end of movable plate and the second brake(-holder) block passes through first adjustable spring (6221) elastic connection；The right end of first brake(-holder) block is set Have the first top pillar, the right end of the second brake(-holder) block is equipped with the second top pillar, and the first top pillar and the second top pillar are oppositely arranged, the first top pillar and Second top pillar is located in the first adjustable spring；First brake(-holder) block and the equal semicircular in shape of the second brake(-holder) block, the first brake(-holder) block and Second brake(-holder) block surrounds brake disc (612).

4. a kind of lake Zhong Hu as claimed in claim 3, it is characterised in that: in latch components (62), the pair of slide slot It (629) include the first slide slot and the second slide slot, the first slide slot is provided with the right end of the first brake(-holder) block, and the second slide slot is opened It is located at the right end of the second brake(-holder) block, the first slide slot and the second slide slot are symmetrical set, wherein the first slide slot includes connecting Logical first straight line type slide slot (6291) and second straight line type slide slot (6292), first straight line type slide slot and second straight line Angle circle between type slide slot is between 90 degree and 180 degree.

5. a kind of lake Zhong Hu as claimed in claim 4, it is characterised in that: in latch components (62), the solution lock slide (623) It is equipped with a pair of of positioning pin (627), the pair of positioning pin includes the first positioning pin and the second positioning pin being symmetrical set, The right end of first brake(-holder) block is equipped with first positioning hole (6222), and the right end of the second brake(-holder) block is equipped with second location hole, when the When one top pillar and the second top pillar offset, the first positioning pin and the second positioning pin on the solution lock slide of translation can correspondingly be inserted into In a positioning hole and second location hole；The pair of bar that slides includes first sliding bar and second and sliding bar, and first to slide bar solid The top of first positioning pin is set calmly, and second slides the top that bar is fixed at the second positioning pin, and first slides in bar The central axis of heart line and the first positioning pin.

6. a kind of lake Zhong Hu as claimed in claim 5, it is characterised in that: in latch components (62), in solution lock slide (623) Guide groove (6230) includes the first arc guide groove (6231) of connection, the second arc guide groove (6232), third arcuate guide Slot (6233), wherein the arc center of circle of the second arc guide groove is located on the center line of annulus (631)；In driving assembly (63), The unlocked state (633) include convex block in the radial direction that is fixed on annulus (631) inner sidewall, be fixed in radial direction on convex block and It is directed toward the radial bars (638) in the annulus center of circle；The unlock rod (6331) is mounted on the end of radial bars；

With the rotation of annulus, unlock rod is first slipped into the first arc guide groove, and drives solution lock slide in basal disc (621) Heart translation, meanwhile, second gear (613) starts to engage with tooth section (632), and later, unlock rod enters the second arc guide groove, solution Lock slide remains unchanged at a distance from basal disc center, and later, unlock rod enters third arc guide groove, and drive solution lock slide to Direction far from basal disc center translates, and when unlock rod is detached from third arc guide groove, second gear is disengaged with tooth section.

7. a kind of lake Zhong Hu as described in claim 1, it is characterised in that: in driving assembly (63), annulus (631) pivot joint In shell (600), the driving device includes fixing the ring gear (635) being set on annulus inner sidewall, engaging with ring gear Third gear (636) couples with third gear and is mounted on the intracorporal first motor of shell.

8. a kind of lake Zhong Hu as described in claim 1, it is characterised in that: the water pipe (50) is mounted on the revetment (03) in lake In.

9. a kind of lake Zhong Hu as described in claim 1, it is characterised in that: the driving mechanism (60) is located at lower layer lake (02) In, driving mechanism is mounted on the bottom surface of water barrier (10).