CN206157680U - Flood discharge safety dykes and dams - Google Patents

Abstract

The utility model discloses a flood discharge safety dykes and dams, include base member and dykes and dams base, the bottom of base member is the dykes and dams base, and the right side of dykes and dams base is the water reserve, is equipped with the flood discharge passageway between the top of dykes and dams base and the bottom of base member, and one side that the base member is close to the water reserve is equipped with the brick layer of second, and the outside on the brick layer of second is equipped with the second back up coat, and the outside of second back up coat is equipped with concrete layer, and concrete layer's the outside just is provided with water level monitoring unit no. 1 and water level monitoring unit no. 2 respectively near the position on top. The utility model discloses a set up water level monitoring unit no. 1 and water level monitoring unit no. 2 in concrete layer's the outside, the controller and the alarm of deuterogamying and setting up to and the motor power and the electric brake of installation in the inside walking passageway of base member, make this flood discharge safety dykes and dams, reach automatic function of carrying out water level monitoring and flood discharge, and had safety precaution's effect.

Description

A kind of Flood discharge safety dyke-dam

Technical field

The utility model is related to hydraulic engineering technical field, specially a kind of Flood discharge safety dyke-dam.

Background technology

When retaining exceedes safety line in river course or reservoir, in order to ensure the safety in river course or reservoir, need reservoir Or the water in river course is excreted out, to avoid water sheet flood from overflowing, or storehouse dam, burrock are squashed and cause serious disaster, open a sluice gate downwards Trip flood diversion zone draining, strives being reduced to loss minimum, and current reservoir spillway is required for manual observation, is unable to automatic flood discharge, deposits In potential safety hazard, and also do not possess warning function, operator on duty is easily because reservoir or river course can not timely be understood Retaining situation and cause great the condition of a disaster to occur.

Utility model content

The purpose of this utility model is to provide a kind of Flood discharge safety dyke-dam, and possess carries out water level monitoring and flood discharge automatically Function, and there is safe early warning, solve the discharge dyke-dam security protection coefficient of river course or reservoir in prior art Low problem.

For achieving the above object, the utility model provides following technical scheme：

A kind of Flood discharge safety dyke-dam, including matrix and dykes and dams pedestal, the bottom of described matrix is dykes and dams pedestal, the dykes and dams The right side of pedestal is water reserve, and flood discharge passage, the dykes and dams base are provided between the top of dykes and dams pedestal and the bottom of matrix The bottom of seat is ground, and the both sides inner chamber of the flood discharge passage right-hand member is vertically-mounted flashboard guide chute, and the flashboard is oriented to Flood discharge flashboard is slidably fitted with the inside of chute, the central authorities inside described matrix are provided with vertical shaft, and the bottom of the vertical shaft is walking Passage, is provided with adapting table on the right side of the walking passageway, power motor is provided with the left of the adapting table, the adapting table Top is provided with rotating shaft by fixed mount, and in the middle part of the rotating shaft power gear is provided with, and the right-hand member of its rotating shaft is provided with electronic Brake, is provided with outer fixture on the outside of the fixed mount, pull bar, the drawing are provided between the outer fixture and power gear Bar is zigzag structure near the side of power gear and is meshed with power gear, the bottom of the pull bar through adapting table with The top of flood discharge flashboard is mutually fixed, and the left end of the rotating shaft is provided with travelling gear one, and the right-hand member of the power motor is provided with biography Moving gear two, is connected between the travelling gear one and travelling gear two by chain.

Central authorities at the top of described matrix are provided with night shift room, and the top of the vertical shaft is arranged on the inside of night shift room, the value Class is provided with alarm at the top of room, and the inside of its night shift room is also equipped with controller, side of the described matrix near water reserve The second brick layer is provided with, the second back-up coat is provided with the outside of the second brick layer, be provided with mixed on the outside of second back-up coat The position on solidifying soil layer, the outside of the concrete layer and close top is respectively arranged with monitoring water level unit one and monitoring water level list Unit two, the monitoring water level unit one is arranged on the position of the bottom of monitoring water level unit two.

The monitoring water level unit one includes that level sensor one, level sensor two, level sensor three and water level are passed Sensor four, the monitoring water level unit two includes level sensor five, level sensor six, level sensor seven and level sensor Device eight, the inside of the controller includes data reception module, timing module, single-chip microcomputer and warning module, the data receiver The input of module output end respectively with level sensor one, the output end of level sensor two, level sensor three it is defeated Go out end, the output end of level sensor four, the output end of level sensor five, the output end of level sensor six, level sensor The output end of device seven is mutually electrically connected with the output end of level sensor eight, the output end of the data reception module respectively with meter When the input of module be mutually electrically connected with the input of single-chip microcomputer, the output end of the timing module also with the input of single-chip microcomputer End is mutually electrically connected with, and the output end of the single-chip microcomputer has been electrically connected warning module, power motor and dynamo-electric brake, described It is electrically connected between the output end and alarm of warning module.

Preferably, the inside of the flood discharge passage is provided with reinforcement, and the reinforcement generally quadrangular structure is described to add Gu Liang is equidistantly positioned the inner chamber in flood discharge passage both sides, and side of the reinforcement on the inside of flood discharge passage and flood discharge passage Inner side is in the same plane.

Preferably, pull bar position-limited rack, the flood discharge flashboard generally strip tabular knot are arranged with the outside of the pull bar Structure, the inner chamber of its flood discharge flashboard is provided with the flood discharge through hole of rectangle near the position of bottom.

Preferably, described matrix is provided with the first brick layer away from the side of water reserve, sets on the outside of the first brick layer There is the first back-up coat, first back-up coat and the second back-up coat are constituted by crushed stone blended cement mortar, its first reinforcing The inner chamber of layer and the second back-up coat is also embedded with steel bar piece, and the two ends of the second back-up coat inside steel bar piece extend respectively to The inside of the second brick layer and concrete layer.

Preferably, the level sensor one, level sensor two, level sensor three and level sensor four, and Level sensor five, level sensor six, level sensor seven and level sensor eight, are vertically arranged in respectively water In position monitoring unit one and monitoring water level unit two.

Compared with prior art, the beneficial effects of the utility model are as follows：

1st, the utility model is in the outside of concrete layer by arranging monitoring water level unit one and monitoring water level unit two, then The controller being equipped with and alarm, and in intrinsic silicon walking passageway install power motor and dynamo-electric brake, So that the Flood discharge safety dyke-dam, reached carries out the function of water level monitoring and flood discharge automatically, and the effect with safe early warning.

2nd, the monitoring water level unit one and monitoring water level unit two that the utility model passes through the setting on concrete layer so that The Flood discharge safety dyke-dam can be monitored to the water level in water reserve constantly, and coordinate the controller in indoor setting on duty, And the alarm installed at the top of night shift room so that the Flood discharge safety dyke-dam can have the function of safe early warning, and again Coordinate the power motor and dynamo-electric brake arranged in intrinsic silicon walking passageway so that the Flood discharge safety dyke-dam possesses to be opened automatically The function of lock flood discharge, in addition, by the both sides of matrix be respectively provided with the first brick layer, the first back-up coat, the second brick layer, Two back-up coats and concrete layer, effectively raise the Flood discharge safety dyke-dam erosion resistibility, while also improving safe dykes and dams Overall steadiness, greatly improves the safety coefficient of the Flood discharge safety dyke-dam, so as to effectively solve river in prior art The low problem of the discharge dyke-dam security protection coefficient of road or reservoir.

Description of the drawings

Fig. 1 is the utility model cross-sectional structure schematic diagram；

Fig. 2 is the enlarged diagram of structure at A in Fig. 1；

Fig. 3 is the enlarged diagram of structure at B in Fig. 1；

Fig. 4 is system block diagram of the present utility model；

Fig. 5 is the positive structure schematic of the utility model flood discharge flashboard.

In figure：1 matrix, 2 water reserves, 3 dykes and dams pedestals, 4 grounds, 5 flood discharge passages, 6 reinforcements, 7 flashboard guide chutes, 8 Flood discharge flashboard, 9 vertical shafts, 10 walking passageways, 11 adapting tables, 12 power motors, 13 fixed mounts, 14 rotating shafts, 15 power gears, outside 16 Fixture, 17 pull bars, 18 pull bar position-limited racks, 19 dynamo-electric brakes, 20 travelling gears one, 21 travelling gears two, 22 chains, 23 One brick layer, 24 first back-up coats, 25 night shift rooms, 26 alarms, 27 controllers, 271 data reception modules, 272 timing modules, 273 single-chip microcomputers, 274 warning modules, 28 second brick layers, 29 second back-up coats, 30 concrete layers, 31 monitoring water level units one, 32 monitoring water level units two, 33 level sensors one, 34 level sensors two, 35 level sensors three, 36 level sensors four, 37 level sensors five, 38 level sensors six, 39 level sensors seven, 40 level sensors eight, 41 flood discharge through holes.

Specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment for being obtained, belongs to the scope of the utility model protection.

Fig. 1-5, a kind of Flood discharge safety dyke-dam, including matrix 1 and dykes and dams pedestal 3 are referred to, the bottom of matrix 1 is dykes and dams base Seat 3, the right side of dykes and dams pedestal 3 is water reserve 2, and between the top of dykes and dams pedestal 3 and the bottom of matrix 1 flood discharge passage 5, dike are provided with The bottom of dam foundation seat 3 is ground 4, and the both sides inner chamber of the right-hand member of flood discharge passage 5 is vertically-mounted flashboard guide chute 7, and flashboard is oriented to The inner side of chute 7 is slidably fitted with flood discharge flashboard 8, and the inside of flood discharge passage 5 is provided with reinforcement 6, the generally quadrangular of reinforcement 6 Structure, reinforcement 6 is equidistantly positioned the inner chamber in the both sides of flood discharge passage 5, and reinforcement 6 near the side of the inner side of flood discharge passage 5 In the same plane with the inner side of flood discharge passage 5, the central authorities inside matrix 1 are provided with vertical shaft 9, and the bottom of vertical shaft 9 is logical for walking Road 10, the right side of walking passageway 10 is provided with adapting table 11, and the left side of adapting table 11 is provided with power motor 12, the top of adapting table 11 Portion is provided with rotating shaft 14 by fixed mount 13, and the middle part of rotating shaft 14 is provided with power gear 15, and the right-hand member of its rotating shaft 14 is provided with Dynamo-electric brake 19, the outside of fixed mount 13 is provided with outer fixture 16, and between outer fixture 16 and power gear 15 pull bar is provided with 17, pull bar 17 is meshed near the side of power gear 15 for zigzag structure and with power gear 15, and the bottom of pull bar 17 is passed through Wear adapting table 11 mutually to fix with the top of flood discharge flashboard 8, the generally strip platy structure of flood discharge flashboard 8, its flood discharge flashboard 8 Inner chamber is provided with the flood discharge through hole 41 of rectangle near the position of bottom, and the outside of pull bar 17 is arranged with pull bar position-limited rack 18, rotating shaft 14 Left end travelling gear 1 is installed, the right-hand member of power motor 12 is provided with travelling gear 2 21, travelling gear 1 and transmission It is connected by chain 22 between gear 2 21.

The central authorities at the top of matrix 1 are provided with night shift room 25, and the top of vertical shaft 9 is arranged on the inside of night shift room 25, night shift room 25 Top alarm 26 is installed, the inside of its night shift room 25 is also equipped with controller 27, side of the matrix 1 near water reserve 2 The second brick layer 28 is provided with, the outside of the second brick layer 28 is provided with the second back-up coat 29, and the outside of the second back-up coat 29 is provided with mixed Solidifying soil layer 30, matrix 1 is provided with the first brick layer 23 away from the side of water reserve 2, and the outside of the first brick layer 23 is provided with first and adds Gu layer 24, the first back-up coat 24 and the second back-up coat 29 are constituted by crushed stone blended cement mortar, its He of the first back-up coat 24 The inner chamber of the second back-up coat 29 is also embedded with steel bar piece, and the two ends of the inside steel bar piece of the second back-up coat 29 extend respectively to second The position on the inside of brick layer 28 and concrete layer 30, the outside of concrete layer 30 and close top is respectively arranged with monitoring water level Unit 1 and monitoring water level unit 2 32, monitoring water level unit 1 is arranged on the position of the bottom of monitoring water level unit 2 32.

Monitoring water level unit 1 includes level sensor 1, level sensor 2 34, level sensor 3 35 and water Level sensor 4 36, monitoring water level unit 2 32 includes level sensor 5 37, level sensor 6 38, level sensor 7 39 With level sensor 8 40, level sensor 1, level sensor 2 34, level sensor 3 35 and level sensor four 36, and level sensor 5 37, level sensor 6 38, level sensor 7 39 and level sensor 8 40, along vertically Direction is arranged in respectively in monitoring water level unit 1 and monitoring water level unit 2 32, and the inside of controller 27 includes data receiver Module 271, timing module 272, single-chip microcomputer 273 and warning module 274, the input of data reception module 271 respectively with water level The output end of sensor 1, the output end of level sensor 2 34, the output end of level sensor 3 35, level sensor four 36 output end, the output end of level sensor 5 37, the output end of level sensor 6 38, the output of level sensor 7 39 End is mutually electrically connected with the output end of level sensor 8 40, the output end of data reception module 271 respectively with timing module 272 Input be mutually electrically connected with the input of single-chip microcomputer 273, the output end of timing module 272 also with the input of single-chip microcomputer 273 End is mutually electrically connected with, and the output end of single-chip microcomputer 273 has been electrically connected warning module 274, power motor 12 and dynamo-electric brake 19, it is electrically connected between the output end and alarm 26 of warning module 274.

Monitoring water level unit 1 and monitoring water level unit 2 32 that the utility model passes through the setting on concrete layer 30, The Flood discharge safety dyke-dam is monitored to the water level in water reserve 2 constantly, and coordinates what is arranged in night shift room 25 Controller 27, and the alarm 26 installed at the top of night shift room 25 so that the Flood discharge safety dyke-dam can have safe early warning Function, and coordinate the power motor 12 and dynamo-electric brake 19 arranged in the inside walking passageway 10 of matrix 1 again so that this is let out The safe dykes and dams of flood possess the function of opening a sluice gate flood discharge automatically, in addition, by the both sides of matrix 1 be respectively provided with the first brick layer 23, First back-up coat 24, the second brick layer 28, the second back-up coat 29 and concrete layer 30, effectively raise the Flood discharge safety dyke-dam Erosion resistibility, while also improving the overall steadiness of safe dykes and dams, greatly improves the safety system of the Flood discharge safety dyke-dam Number.

The Flood discharge safety dyke-dam, when using, monitoring water level unit 1 and the moment of monitoring water level unit 2 32 are to water reserve 2 Interior reserve-water-level is monitored, when water level reaches one 33 position of level sensor in monitoring water level unit 1, water level Sensor 1 to the transmission signal of data reception module 371 in controller 27, data reception module 271 are received after signal, Timing module 272 starts timing, when water level persistently rises and reaches the position of level sensor 2 34 or level sensor 3 35 When putting, according to the time interval of the timing of timing module 272, single-chip microcomputer 273 calculates the speed of water level rising, and according on water level The speed for rising drives the power gear 15 in rotating shaft 14 so that draw controlling the operating of power motor 12 by power motor 12 Bar 17 rises, and with this purpose of lifting flood discharge flashboard 8 is reached, the dynamo-electric brake 19 when flood discharge flashboard 8 rises to predetermined altitude Rotating shaft 14 is locked, prevent rotating shaft 14 from rotating, prevent flood discharge flashboard 8 from falling, the purpose of automatic flood discharge is reached, when flood discharge flashboard 8 In opening, water level still continuation rise to monitoring water level unit 2 32 position when, the monolithic in controller 27 Machine 273 is to the transmission information of warning module 274 so that the control alarm 26 of warning module 274 carries out safe early warning, points out watch Member carries out flood control and prepares, and to downstream area emergency evacuation is carried out.

In sum：The Flood discharge safety dyke-dam, by the utility model by arranging water level in the outside of concrete layer 30 Monitoring unit 1 and monitoring water level unit 2 32, then the controller 27 that is equipped with and alarm 26, and inside matrix 1 The power motor 12 installed in walking passageway 10 and dynamo-electric brake 19 so that the Flood discharge safety dyke-dam, reached is carried out automatically The function of water level monitoring and flood discharge, and the effect with safe early warning, so as to effectively solve in prior art river course or The low problem of the discharge dyke-dam security protection coefficient of reservoir.

While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art, It is appreciated that these embodiments can be carried out various changes in the case of without departing from principle of the present utility model and spirit, repaiies Change, replace and modification, scope of the present utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of Flood discharge safety dyke-dam, including matrix（1）With dykes and dams pedestal（3）, it is characterised in that：Described matrix（1）Bottom For dykes and dams pedestal（3）, the dykes and dams pedestal（3）Right side be water reserve（2）, the dykes and dams pedestal（3）Top and matrix（1） Bottom between be provided with flood discharge passage（5）, the dykes and dams pedestal（3）Bottom be ground（4）, the flood discharge passage（5）Right-hand member Both sides inner chamber vertically-mounted have flashboard guide chute（7）, the flashboard guide chute（7）Inner side be slidably fitted with sluice Plate（8）, described matrix（1）Internal central authorities are provided with vertical shaft（9）, the vertical shaft（9）Bottom be walking passageway（10）, the row Walk passage（10）Right side be provided with adapting table（11）, the adapting table（11）Left side power motor is installed（12）, it is described to hold Connect platform（11）Top pass through fixed mount（13）Rotating shaft is installed（14）, the rotating shaft（14）Middle part power gear is installed （15）, its rotating shaft（14）Right-hand member dynamo-electric brake is installed（19）, the fixed mount（13）Outside be provided with outer fixture （16）, the outer fixture（16）With power gear（15）Between be provided with pull bar（17）, the pull bar（17）Near power gear （15）Side be zigzag structure and and power gear（15）It is meshed, the pull bar（17）Bottom run through adapting table（11） With flood discharge flashboard（8）Top mutually fix, the rotating shaft（14）Left end travelling gear one is installed（20）, the power motor （12）Right-hand member be provided with travelling gear two（21）, the travelling gear one（20）With travelling gear two（21）Between pass through chain （22）It is connected；

Described matrix（1）The central authorities at top are provided with night shift room（25）, the vertical shaft（9）Top be arranged on night shift room（25）It is interior Portion, the night shift room（25）Top alarm is installed（26）, its night shift room（25）Inside be also equipped with controller（27）, Described matrix（1）Near water reserve（2）Side be provided with the second brick layer（28）, the second brick layer（28）Outside be provided with Second back-up coat（29）, second back-up coat（29）Outside be provided with concrete layer（30）, the concrete layer（30）It is outer The position on side and close top is respectively arranged with monitoring water level unit one（31）With monitoring water level unit two（32）, the water level prison Control unit one（31）It is arranged on monitoring water level unit two（32）The position of bottom；

The monitoring water level unit one（31）Including level sensor one（33）, level sensor two（34）, level sensor three （35）With level sensor four（36）, the monitoring water level unit two（32）Including level sensor five（37）, level sensor Six（38）, level sensor seven（39）With level sensor eight（40）, the controller（27）Inside include data reception Block（271）, timing module（272）, single-chip microcomputer（273）And warning module（274）, the data reception module（271）Input End respectively with level sensor one（33）Output end, level sensor two（34）Output end, level sensor three（35）'s Output end, level sensor four（36）Output end, level sensor five（37）Output end, level sensor six（38）It is defeated Go out end, level sensor seven（39）Output end and level sensor eight（40）Output end be mutually electrically connected with, the data connect Receive module（271）Output end respectively with timing module（272）Input and single-chip microcomputer（273）Input mutually electrically connect Connect, the timing module（272）Output end also with single-chip microcomputer（273）Input be mutually electrically connected with, the single-chip microcomputer（273） Output end be electrically connected warning module（274）, power motor（12）And dynamo-electric brake（19）, the warning module （274）Output end and alarm（26）Between be electrically connected.

2. a kind of Flood discharge safety dyke-dam according to claim 1, it is characterised in that：The flood discharge passage（5）Inside set There is reinforcement（6）, the reinforcement（6）Generally quadrangular structure, the reinforcement（6）It is equidistantly positioned in flood discharge passage （5）The inner chamber of both sides, and reinforcement（6）Near flood discharge passage（5）The side of inner side and flood discharge passage（5）Inner side in same In plane.

3. a kind of Flood discharge safety dyke-dam according to claim 1, it is characterised in that：The pull bar（17）Outside be arranged with Pull bar position-limited rack（18）, the flood discharge flashboard（8）Generally strip platy structure, its flood discharge flashboard（8）Inner chamber the bottom of near The position at end is provided with the flood discharge through hole of rectangle（41）.

4. a kind of Flood discharge safety dyke-dam according to claim 1, it is characterised in that：Described matrix（1）Away from water reserve（2） Side be provided with the first brick layer（23）, the first brick layer（23）Outside be provided with the first back-up coat（24）, described first Back-up coat（24）With the second back-up coat（29）Constituted by crushed stone blended cement mortar, its first back-up coat（24）Add with second Gu layer（29）Inner chamber be also embedded with steel bar piece, second back-up coat（29）The two ends of internal steel bar piece extend respectively to Two brick layers（28）And concrete layer（30）Inside.

5. a kind of Flood discharge safety dyke-dam according to claim 1, it is characterised in that：The level sensor one（33）, water Level sensor two（34）, level sensor three（35）With level sensor four（36）, and level sensor five（37）, water level pass Sensor six（38）, level sensor seven（39）With level sensor eight（40）, monitoring water level is vertically arranged in respectively Unit one（31）With monitoring water level unit two（32）In.