阅读说明：本技术 一种路桥施工用桥面自渗水、排水装置 (Bridge floor is from infiltration, drainage device for road bridge construction ) 是由 吴明辉 于 2021-08-10 设计创作，主要内容包括：本发明提供了一种路桥施工用桥面自渗水、排水装置,包括有渗排箱、回收箱、发电箱,渗排箱的顶面设置有下排口,下排口的正下方设置有位移挡板,位移挡板的左端与左位固定斜板的右侧面接触,位移挡板的右端与右位固定斜板的左侧面接触,左位固定斜板、右位固定斜板的顶端分别与渗排箱的内部上侧面固定连接,位移挡板的下侧面的左部固定有第五回位弹簧,第五回位弹簧的底端固定有弹簧底板,位移挡板的下侧面的中部固定有传动杆,传动杆的底端固定有第一永磁体。本发明公开的技术方案有效的解决了现有技术中不具备渗排水流量动态调节能力以及不能实现蒸馏再利用、能量转化存储等技术问题,有利于推广应用。(The invention provides a bridge floor self-water seepage and drainage device for road and bridge construction, which comprises a seepage and drainage box, a recovery box and a power generation box, wherein a lower drainage port is arranged on the top surface of the seepage and drainage box, a displacement baffle is arranged right below the lower drainage port, the left end of the displacement baffle is in contact with the right side surface of a left fixed inclined plate, the right end of the displacement baffle is in contact with the left side surface of a right fixed inclined plate, the top ends of the left fixed inclined plate and the right fixed inclined plate are respectively fixedly connected with the upper side surface in the seepage and drainage box, a fifth return spring is fixed at the left part of the lower side surface of the displacement baffle, a spring bottom plate is fixed at the bottom end of the fifth return spring, a transmission rod is fixed at the middle part of the lower side surface of the displacement baffle, and a first permanent magnet is fixed at the bottom end of the transmission rod. The technical scheme disclosed by the invention effectively solves the technical problems that the prior art does not have the dynamic adjustment capability of seepage and drainage flow, can not realize distillation reutilization, energy conversion and storage and the like, and is beneficial to popularization and application.)

1. The utility model provides a bridge floor is from infiltration, drainage device for road and bridge construction, its characterized in that, including oozing row case (1), collection box (2), generator box (3), the top surface of oozing row case (1) be provided with down row mouth (4), lower row mouth (4) under be provided with displacement baffle (7), the left end of displacement baffle (7) and the right flank contact of left position fixed swash plate (5), the right-hand member of displacement baffle (7) and the left flank contact of right position fixed swash plate (6), the top of left position fixed swash plate (5), right position fixed swash plate (6) respectively with ooze the inside of row case (1) to go up side fixed connection, the left part of the downside of displacement baffle (7) be fixed with fifth return spring (84), the bottom mounting of fifth return spring (84) have spring bottom plate (85), the middle part of the downside of displacement baffle (7) be fixed with transfer line (8), the middle part of transfer line (8) about the side respectively with first spacing post (9), the spacing post of second (10) contact, the bottom mounting of transfer line (8) have first permanent magnet (11), first permanent magnet (11) under be provided with iron core (12).

2. The bridge deck self-seepage and drainage device for road and bridge construction according to claim 1, which is characterized in that: the top surface of the seepage and drainage box (1) is communicated with the top of the bearing cylinder (19), the inside of the bearing cylinder (19) is provided with a bearing plate (20), the lower side surface of the bearing plate (20) is fixedly connected with the top end of the pressure rod (18), the bottom end of the pressure rod (18) extends out of the lower side surface of the bearing cylinder (19), the right side surface of the pressure rod (18) is fixedly provided with a first lateral arm (21), the upper side surface of the right part of the first lateral arm (21) is provided with a first return spring (22), the top end of the first return spring (22) is fixedly connected with the lower side surface of the left part of a second lateral arm (23), the right end of the second lateral arm (23) is fixedly connected with the bottom end of a first longitudinal arm (24), the right side surface of the top end of the first longitudinal arm (24) is contacted with the left side surface of the bottom end of a second longitudinal arm (25), the top end of the second longitudinal arm (25) is fixedly connected with the inner upper side face of the seepage and drainage box (1), the left side face of the top end of the first longitudinal arm (24) is in contact with the right end of the long screw (26), the middle of the long screw (26) is matched with the inner periphery of the nut (28) through threaded connection, the top of the nut (28) is fixedly connected with the bottom end of the supporting arm (29), the top end of the supporting arm (29) is fixedly connected with the inner upper side face of the seepage and drainage box (1), and the left end of the long screw (26) is fixedly provided with the end block (27).

3. The bridge deck self-seepage and drainage device for road and bridge construction according to claim 1, which is characterized in that: ooze the inside of arranging case (1) and be provided with sense control case (17), the inside of sense control case (17) be provided with fixed resistor (30), the side of controlling of fixed resistor (30) between establish ties through wire (16) have force sensing resistor (31), first power (32), first switch (33), the top surface of force sensing resistor (31) and the bottom contact of pressure pole (18), the left surface of fixed resistor (30) pass through the right flank electric connection of wire (16) and second end piece (15), the right flank of fixed resistor (30) pass through the right flank electric connection of wire (16) and first end piece (14), second end piece (15) set up the right flank in first coil (13), first coil (13) parcel in the middle part periphery of iron core (12).

4. The bridge deck self-seepage and drainage device for road and bridge construction according to claim 1, which is characterized in that: the left part of the bottom surface of the seepage and drainage box (1) is in contact communication with the top end of a through pipe (34), the bottom end of the through pipe (34) penetrates through the left part of the recovery box (2) and then extends into the power generation box (3), the right side surface of the middle part of the through pipe (34) is in contact communication with the left end of a lateral diversion hose (35), the lower side surface of the middle part of the lateral diversion hose (35) is in contact with the periphery of the top of a fixed column (36), the upper side surface of the middle part of the lateral diversion hose (35) is in contact with the bottom end of an action rod (39), the action rod (39) is arranged at the bottom power output end of an electric cylinder (38), the top of the electric cylinder (38) is fixedly provided with an electric cylinder bottom plate (37), the electric cylinder bottom plate (37) is fixedly arranged at the left part of the upper side surface in the recovery box (2), and the right part of the upper side surface in the recovery box (2) is fixedly provided with an inclined plate (40), a flow guide rod (41) is fixed on the right side face of the suspension inclined plate (40), and a recovery dish (52) is arranged right below the flow guide rod (41).

5. The bridge deck self-seepage and drainage device for road and bridge construction according to claim 1, which is characterized in that: the inside lower surface of collection box (2) be provided with heating instrument (42), the upper surface of heating instrument (42) be provided with receive hot ware (43), the upper portion of being provided with floating plate (44) of hot ware (43), the top of floating plate (44) and the bottom fixed connection of buoyancy pole (45), the top of buoyancy pole (45) and the bottom fixed connection of lasso (46), the interior circumference of lasso (46) and the periphery contact of the right part of first rotation pole (47), the middle part of the downside of first rotation pole (47) be fixed with first square piece (48), the middle part of first square piece (48) be provided with first fixed rotating shaft (49), first square piece (48) can encircle first fixed rotating shaft (49) and rotate, the left part of the downside of first rotation pole (47) contact with the top of response pole (50), the inside of inductor (51) is stretched into to response pole (50) bottom, the left surface of response pole (50) bottom be fixed with conductor bar (53), the bottom of conductor bar (53) be provided with second return spring (54), the right flank contact of left surface and first fixed guide vane (55) of conductor bar (53), first fixed guide vane (55) be provided with second fixed guide vane (56) under, the left surface of first fixed guide vane (55), second fixed guide vane (56) between establish ties through wire (16) and have second power (57), electronic cylinder controller (58).

6. The bridge deck self-seepage and drainage device for road and bridge construction according to claim 1, which is characterized in that: a water storage tank (59) is arranged in the power generation box (3), the top surface of the water storage tank (59) is in contact communication with the bottom end of the through pipe (34), a lateral hole (60) is arranged on the right side surface of the water storage tank (59), an oscillation plate (61) is arranged inside the water storage tank (59), the right end of the oscillation plate (61) is fixedly connected with the left end of the second rotating rod (62), a sealing sheet (63) is fixed at the left part of the second rotating rod (62), the left side surface of the sealing sheet (63) is contacted with the right side of the side hole (60), a second square sheet (64) is fixed on the lower side surface of the right part of the second rotating rod (62), the middle part of the second square piece (64) is provided with a second fixed rotating shaft (65), the second square piece (64) can rotate around a second fixed rotating shaft (65), an intermediate action rod (66) is fixed at the right end of the second rotating rod (62).

7. The bridge deck self-seepage and drainage device for road and bridge construction according to claim 1, which is characterized in that: the inside of power generation box (3) be provided with upper set cam (67), lower set cam (68), the lower inclined plane of upper set cam (67) and the top contact of middle action pole (66), the last inclined plane of lower set cam (68) and the bottom contact of middle action pole (66), the right flank of upper set cam (67), lower set cam (68) be fixed with first connecting strip (69), second connecting strip (70) respectively, the upper and lower side at the middle part of first connecting strip (69) contact with spacing post of third (71), spacing post of fourth (72) respectively, the upper and lower side at the middle part of second connecting strip (70) contact with spacing post of fifth (73), spacing post of sixth (74) respectively, the right-hand member of first connecting strip (69), second connecting strip (70) be fixed with second permanent magnet (75) respectively, Second coil (77), the right flank of second permanent magnet (75), second coil (77) be provided with third return spring (76), fourth return spring (78) respectively, the downside of second coil (77) be provided with left position follow-up end piece (79), right position follow-up end piece (80), the downside of left position follow-up end piece (79), right position follow-up end piece (80) between establish ties through wire (16) and have left position diode (81), right position diode (82), battery (83), the top of left position diode (81) be the positive terminal, the bottom of right position diode (82) be the positive terminal.

Technical Field

The invention relates to the technical field of road and bridge construction, in particular to a bridge deck self-water seepage and drainage device for road and bridge construction.

Background

Along with the increase of the rainstorm frequency in various regions, the drainage problem of the urban road bridge is highly concerned by people, and the improvement of the existing drainage system of the urban road bridge and the research and development of a novel drainage system are particularly important. Because the distance between the urban roads and bridges is long and the urban roads and bridges are located in a relatively closed environment, the urban roads and bridges can only enter the drainage pipeline through the rainwater inlet arranged on the roads and bridges and finally enter the municipal pipeline below the bridges in exchange with the external water flow. In order to rapidly drain accumulated water on the bridge floor and prevent rainwater from accumulating on the road and the bridge and permeating into the road and the bridge to influence the durability of a road and bridge structure, when the road and the bridge are designed, a certain self-seepage water drainage device is required to be arranged on the bridge floor besides longitudinal and transverse slope drainage devices, so that a complete drainage system is formed.

The invention of the bridge deck self-water-seepage and drainage device for road and bridge construction brings various conveniences to production and life of people, and the bridge deck self-water-seepage and drainage device for road and bridge construction plays an important role in modern production and life. However, the existing bridge deck self-water-seepage and drainage device for road and bridge construction does not have the dynamic adjustment capability for seepage and drainage flow and cannot realize distillation, recycling, energy conversion and storage, and the like, so in view of the above, research and improvement are performed on the structure and the defects in the prior art, and a novel bridge deck self-water-seepage and drainage device for road and bridge construction is provided, which can effectively solve the problems and is beneficial to the future popularization and application of the device.

Disclosure of Invention

The invention aims to provide a bridge deck self-water seepage and drainage device for road and bridge construction, which solves the technical problems that the prior art does not have the dynamic adjustment capability of seepage and drainage flow, and can not realize distillation reuse, energy conversion storage and the like.

In order to achieve the purpose, the invention provides a bridge deck self-water seepage and drainage device for road and bridge construction, which comprises a seepage and drainage box, a recovery box and a power generation box, wherein the top surface of the seepage and drainage box is provided with a lower drainage port, a displacement baffle plate is arranged under the lower drainage port, the left end of the displacement baffle plate is contacted with the right side surface of a left fixed inclined plate, the right end of the displacement baffle plate is contacted with the left side surface of a right fixed inclined plate, the top ends of the left fixed inclined plate and the right fixed inclined plate are respectively fixedly connected with the upper side surface in the seepage and drainage box, the left part of the lower side surface of the displacement baffle plate is fixedly provided with a fifth return spring, the bottom end of the fifth return spring is fixedly provided with a spring bottom plate, the middle part of the lower side surface of the displacement baffle plate is fixedly provided with a transmission rod, the left side surface and the right side surface of the middle part of the transmission rod are respectively contacted with a first limiting column and a second limiting column, the bottom end of the transmission rod is fixed with a first permanent magnet, and an iron core is arranged right below the first permanent magnet.

The top surface of the infiltration row case and the top intercommunication of accepting the jar, the inside of accepting the jar be provided with accept the board, the downside of accepting the board and the top fixed connection of pressure pole, the bottom of pressure pole stretch out from the downside of accepting the jar, the right flank of pressure pole be fixed with first side arm, the side of going up of the right part of first side arm be provided with first return spring, the top of first return spring and the downside fixed connection of the left part of second side arm, the right-hand member of second side arm and the bottom fixed connection of first longitudinal arm, the right flank of the top of first longitudinal arm and the left side contact of the bottom of second longitudinal arm, the top of second longitudinal arm and the inside side fixed connection of infiltration row case, the left side of the top of first longitudinal arm and the right-hand member contact of long screw rod, the middle part of the long screw is matched with the inner periphery of the nut through threaded connection, the top of the nut is fixedly connected with the bottom end of the supporting arm, the top end of the supporting arm is fixedly connected with the upper side face inside the seepage and drainage box, and the left end of the long screw is fixedly provided with an end block.

Ooze the inside of arranging the case and be provided with the sensing case, the inside of sensing case be provided with fixed resistance, fixed resistance about between the side through the wire series have force sensing resistance, first power, first switch, the bottom contact of force sensing resistance's top surface and pressure bar, fixed resistance's left surface pass through the right flank electric connection of wire and second end piece, fixed resistance's right flank pass through the right flank electric connection of wire and first end piece, second end piece set up the right flank at first coil, first coil parcel in the middle part periphery of iron core.

The left part of the bottom surface of row case oozes and the top contact intercommunication that runs through the pipe, the bottom that runs through the pipe stretch into the inside of power generation box behind the left part of collection box, the right flank that runs through the middle part of pipe and the left end of side direction reposition of redundant personnel hose contact the intercommunication, the downside at the middle part of side direction reposition of redundant personnel hose and the top periphery contact of fixed column, the side of going up at the middle part of side direction reposition of redundant personnel hose and the bottom contact of action pole, the action pole set up the bottom power take off end at electronic jar, the top of electronic jar be fixed with electronic jar bottom plate, electronic jar bottom plate fix the left part of side on the inside of collection box, the inside of collection box right part of side on be fixed with the suspension swash plate, the right flank of suspension swash plate be fixed with the water conservancy diversion pole, be provided with the recovery ware under the water conservancy diversion pole.

The inside lower surface of collection box be provided with the heating appearance, the upper surface of heating appearance be provided with the dish of being heated, the upper portion of the dish of being heated be provided with the buoyancy board, the top of buoyancy board and the bottom fixed connection of buoyancy pole, the top of buoyancy pole and the bottom fixed connection of lasso, the interior week of lasso contact with the periphery of the right part of first pivot pole, the middle part of the downside of first pivot pole be fixed with first square piece, the middle part of first square piece be provided with first fixed rotating shaft, first square piece can rotate around first fixed rotating shaft, the left part of the downside of first pivot pole contact with the top of response pole, the inside of inductor is stretched into to the response pole bottom, the left surface of response pole bottom be fixed with the conductor strip, the bottom of conductor strip be provided with second return spring, the left side of conductor strip and the right flank contact of first fixed guide vane, first fixed guide vane be provided with the fixed guide vane of second under, the fixed guide vane of first fixed guide vane, the fixed left side of guide vane of second between establish ties through the wire and have second power, electronic jar controller.

The inside of power generation box be provided with the water storage jar, the top surface of water storage jar and the bottom contact intercommunication that runs through the pipe, the right flank of water storage jar be provided with the side hole, the inside of water storage jar be provided with and shake the board, the right-hand member that shakes the board and the left end fixed connection of second dwang, the left part of second dwang be fixed with the gasket, the left surface of gasket and the right side contact in side hole, the downside of the right part of second dwang be fixed with the second square piece, the middle part of second square piece be provided with the fixed pivot of second, the second square piece can encircle the fixed pivot of second and rotate, the right-hand member of second dwang be fixed with middle action pole.

The inside of power generation box be provided with superior set-square, next set-square, the lower inclined plane of superior set-square and the top contact of middle action pole, the last inclined plane of next set-square and the bottom contact of middle action pole, the right flank of superior set-square, next set-square be fixed with first connecting strip, second connecting strip respectively, the upper and lower side at middle part of first connecting strip contact with spacing post of third, the spacing post of fourth respectively, the upper and lower side at the middle part of second connecting strip contact with spacing post of fifth, the spacing post of sixth respectively, the right-hand member of first connecting strip, second connecting strip be fixed with second permanent magnet, second coil respectively, the right flank of second permanent magnet, second coil be provided with third return spring, fourth return spring respectively, the downside of second coil be provided with left position follow-up end piece, The left-position follow-up end piece and the right-position follow-up end piece are connected in series through a lead to form a left-position diode, a right-position diode and a storage battery, the top end of the left-position diode is a positive end, and the bottom end of the right-position diode is a positive end.

The force sensitive resistor, the electric cylinder, the left diode, the right diode, the storage battery and the like are all assembled by the existing equipment, so the specific model and specification are not repeated.

The invention has the beneficial effects that:

1. the bridge floor self-seepage and drainage device for road and bridge construction has the advantages that all components are reliably connected, the detection and maintenance are very convenient, the realization cost is low, the force-sensitive resistor, the electric cylinder, the left diode, the right diode, the storage battery and the like related in equipment are all assembled by the existing equipment, and the popularization and the application of the bridge floor self-seepage and drainage device for road and bridge construction in the technical field of future road and bridge construction are facilitated;

2. the bridge floor self-water seepage and drainage device for road and bridge construction innovatively realizes an intelligent water seepage and drainage function, can dynamically adjust the water seepage and drainage flow in real time, and increases the intelligence of the device A second limiting column is contacted, a first permanent magnet is fixed at the bottom end of the transmission rod, an iron core is arranged right below the first permanent magnet, the top surface of the seepage and drainage box is communicated with the top of the bearing cylinder, a bearing plate is arranged inside the bearing cylinder, the lower side surface of the bearing plate is fixedly connected with the top end of the pressure rod, the bottom end of the pressure rod extends out of the lower side surface of the bearing cylinder, a first lateral arm is fixed on the right side surface of the pressure rod, a first return spring is arranged on the upper side surface of the right part of the first lateral arm, the top end of the first return spring is fixedly connected with the lower side surface of the left part of a second lateral arm, the right end of the second lateral arm is fixedly connected with the bottom end of a first longitudinal arm, the right side surface of the top end of the first longitudinal arm is contacted with the left side surface of the bottom end of a second longitudinal arm, the top end of the second longitudinal arm is fixedly connected with the upper side surface inside of the seepage and drainage box, the left side surface of the top end of the first longitudinal arm is contacted with the right end of the long screw rod, the middle part of the long screw is matched with the inner periphery of the nut through threaded connection, the top part of the nut is fixedly connected with the bottom end of the supporting arm, the top end of the supporting arm is fixedly connected with the inner upper side surface of the infiltration and drainage box, the left end of the long screw is fixed with an end block, the inner part of the infiltration and drainage box is provided with a sensing box, the inner part of the sensing box is provided with a fixed resistor, the left side surface and the right side surface of the fixed resistor are connected in series through a lead with a force-sensitive resistor, a first power supply and a first switch, the top surface of the force-sensitive resistor is contacted with the bottom end of the pressure rod, the left side surface of the fixed resistor is electrically connected with the right side surface of the second end plate through a lead, the right side surface of the fixed resistor is electrically connected with the right side surface of the first end plate through a lead, the first end plate and the second end plate are arranged on the right side surface of the first coil, furthermore, when the external water quantity of the device is large, under the action of bearing the gravity of the water stored in the cylinder, the bearing plate pushes the pressure rod to overcome the spring force of the first return spring to move downwards, the pressure sensed by the force-sensitive resistor is increased, the resistance value of the force-sensitive resistor is reduced, the voltage obtained by a first coil connected with a fixed resistor in parallel is increased, the electromagnetic attraction force generated by the first coil wrapping the iron core to a first permanent magnet is increased, the first permanent magnet drives a displacement baffle to move downwards through a transmission rod, the larger the pressure sensed by the force-sensitive resistor is, the larger the downward movement amplitude of the displacement baffle is, the larger a formed seepage and drainage opening is, and in addition, a user can change the initial spring force of a first return spring by adjusting the longitudinal position of a first longitudinal arm;

3. the bridge floor self-water seepage and drainage device for road and bridge construction is characterized in that a seepage and drainage box is innovatively designed to realize the distillation and reuse functions of seepage and drainage, the recycling and reuse of water resources are facilitated, and the environment is protected, particularly, the left part of the bottom surface of the seepage and drainage box is in contact communication with the top end of a through pipe, the bottom end of the through pipe penetrates through the left part of a recovery box and then extends into the power generation box, the right side surface of the middle part of the through pipe is in contact communication with the left end of a lateral diversion hose, the lower side surface of the middle part of the lateral diversion hose is in contact with the periphery of the top of a fixed column, the upper side surface of the middle part of the lateral diversion hose is in contact with the bottom end of an action rod, the action rod is arranged at the bottom power output end of an electric cylinder, the top of the electric cylinder is fixedly provided with an electric cylinder bottom plate, the electric cylinder bottom plate is fixedly arranged at the left part of the upper side surface inside of the recovery box, and the right part of the upper side surface of the inside of the recovery box is fixedly provided with an inclined plate, a flow guide rod is fixed on the right side surface of the suspended inclined plate, a recovery vessel is arranged under the flow guide rod, a heating instrument is arranged on the inner lower surface of the recovery tank, a heated vessel is arranged on the upper surface of the heating instrument, a buoyancy plate is arranged on the upper portion of the heated vessel, the top end of the buoyancy plate is fixedly connected with the bottom end of the buoyancy rod, the top end of the buoyancy rod is fixedly connected with the bottom end of the ferrule, the inner circumference of the ferrule is in contact with the outer circumference of the right portion of the first rotating rod, a first square sheet is fixed in the middle of the lower side surface of the first rotating rod, a first fixed rotating shaft is arranged in the middle of the first square sheet, the first square sheet can rotate around the first fixed rotating shaft, the left portion of the lower side surface of the first rotating rod is in contact with the top end of the induction rod, the bottom end of the induction rod extends into the inductor, a conductor strip is fixed on the left side surface of the bottom end of the induction rod, a second return spring is arranged at the bottom end of the conductor strip, the left side surface of the conductor strip is in contact with the right side surface of the first fixed guide sheet, a second fixed guide sheet is arranged right below the first fixed guide sheet, a second power supply and an electric cylinder controller are connected in series between the left side surfaces of the first fixed guide sheet and the second fixed guide sheet through leads, further, seepage and drainage water is drained into the heated dish through a penetration pipe and a lateral diversion hose, a heater works to carry out heating distillation on the seepage and drainage water in the heated dish, distilled water vapor flows into the interior of a recovery dish along a guide rod after the left inclined surface of a suspension inclined plate is liquefied, in addition, after more water is drained into the interior of the heated dish, a buoyancy plate pushes a first rotating rod and a first square plate to rotate anticlockwise around a first fixed rotating shaft through a buoyancy rod, the left end of the first rotating rod presses an induction rod and a conductor strip to move downwards, the left side surface of the conductor strip is communicated with the right side surfaces of the first fixed guide sheet and the second fixed guide sheet in a contact way, the electric cylinder controller obtains electricity and controls the electric cylinder to work, the action rod extends out to realize the compression and interception effect on the middle part of the lateral diversion hose;

4. the bridge floor self-seepage and drainage device for road and bridge construction can realize the conversion effect of seepage and drainage flow energy based on the power generation box, convert kinetic energy into electric energy to be stored, and is favorable for saving energy, concretely, the power generation box is internally provided with the water storage cylinder, the top surface of the water storage cylinder is communicated with the bottom end of the through pipe in a contact way, the right side surface of the water storage cylinder is provided with a lateral hole, the inside of the water storage cylinder is provided with an oscillating plate, the right end of the oscillating plate is fixedly connected with the left end of the second rotating rod, the left part of the second rotating rod is fixedly provided with the sealing sheet, the left side surface of the sealing sheet is contacted with the right side of the lateral hole, the lower side surface of the right part of the second rotating rod is fixedly provided with the second square sheet, the middle part of the second square sheet is provided with a second fixed rotating shaft, the second square sheet can rotate around the second fixed rotating shaft, and the right end of the second rotating rod is fixedly provided with the middle action rod, an upper triangular plate and a lower triangular plate are arranged in the power generation box, the lower inclined surface of the upper triangular plate is contacted with the top end of the middle action rod, the upper inclined surface of the lower triangular plate is contacted with the bottom end of the middle action rod, a first connecting strip and a second connecting strip are respectively fixed on the right side surfaces of the upper triangular plate and the lower triangular plate, the upper side surface and the lower side surface of the middle part of the first connecting strip are respectively contacted with a third limiting column and a fourth limiting column, the upper side surface and the lower side surface of the middle part of the second connecting strip are respectively contacted with a fifth limiting column and a sixth limiting column, a second permanent magnet and a second coil are respectively fixed on the right ends of the first connecting strip and the second connecting strip, a third return spring and a fourth return spring are respectively arranged on the right side surfaces of the second permanent magnet and the second coil, a left follow-up end plate and a right follow-up end plate are arranged on the lower side surfaces of the second coil, a left diode and a right follow-up end plate are connected in series through a lead wire, The right diode, the battery, the top of left diode is the positive terminal, the bottom of right diode is the positive terminal, and then, the infiltration drainage flows into the water storage jar inside and strikes and vibrate the board and vibrate, it moves the second dwang to vibrate the board, the second square piece swings around the fixed pivot of second, and then the second dwang drives the middle action pole of right-hand member and carries out repeated up-and-down motion, when middle action pole moves up, promote respectively that the upper set triangle moves right, the lower set triangle moves left, when middle action pole moves down, promote respectively that the upper set triangle moves left, the lower set triangle moves right, make the magnetic induction line of second permanent magnet cut the second coil repeatedly in order to produce induced-current, induced-current deposits in the battery after the rectifying action of left diode, right diode.

In addition to the objects, features and advantages described above, other objects, features and advantages of the present invention are also provided. The present invention will be described in further detail below.

Drawings

FIG. 1 is a schematic diagram of an axial side projection structure of the overall structure of the device of the present invention.

Fig. 2 is a front view of the overall structure of the device of the present invention.

FIG. 3 is a schematic top view of the overall structure of the device of the present invention.

Fig. 4 is a left side view of the overall structure of the device of the present invention.

FIG. 5 is a schematic view of the internal structure of the infiltration tank of the present invention.

Fig. 6 is a schematic view of the internal structure of the sensing and controlling box according to the present invention.

Fig. 7 is a schematic view of the internal structure of the recycling bin according to the present invention.

Fig. 8 is a schematic diagram of the internal structure of the inductor according to the present invention.

Fig. 9 is a schematic view of the internal structure of the power generation box according to the present invention.

1. A seepage and drainage box, 2, a recovery box, 3, a power generation box, 4, a lower outlet, 5, a left fixed inclined plate, 6, a right fixed inclined plate, 7, a displacement baffle, 8, a transmission rod, 9, a first limit column, 10, a second limit column, 11, a first permanent magnet, 12, an iron core, 13, a first coil, 14, a first end plate, 15, a second end plate, 16, a lead, 17, a sensing box, 18, a pressure rod, 19, a receiving cylinder, 20, a receiving plate, 21, a first lateral arm, 22, a first return spring, 23, a second lateral arm, 24, a first longitudinal arm, 25, a second longitudinal arm, 26, a long screw rod, 27, an end block, 28, a nut, 29, a support arm, 30, a fixed resistor, 31, a force sensitive resistor, 32, a first power supply, 33, a first switch, 34, a through pipe, 35, a lateral shunt hose, 36, a fixed column, 37, an electric cylinder base plate, 38, an electric cylinder base plate, 39. an action rod 40, a suspension inclined plate 41, a guide rod 42, a heater 43, a heated dish 44, a buoyancy plate 45, a buoyancy rod 46, a ferrule 47, a first rotating rod 48, a first square piece 49, a first fixed rotating shaft 50, a sensing rod 51, a sensor 52, a recovery dish 53, a conductor bar 54, a second return spring 55, a first fixed guide piece 56, a second fixed guide piece 57, a second power supply 58, an electric cylinder controller 59, a water storage cylinder 60, a side hole 61, a vibration plate 62, a second rotating rod 63, a sealing piece 64, a second square piece 65, a second fixed rotating shaft 66, a middle action rod 67, an upper triangular plate 68, a triangular plate 69, a first connecting bar 70, a second connecting bar 71, a third limiting column 72, a fourth limiting column 73, a fifth limiting column 74, a sixth limiting column, 75. the second permanent magnet, 76, the third return spring, 77, the second coil, 78, the fourth return spring, 79, the left follow-up end piece, 80, the right follow-up end piece, 81, the left diode, 82, the right diode, 83, the storage battery, 84, the fifth return spring, 85 and the spring bottom plate.

Detailed Description

The invention is described in detail below with reference to the attached drawing figures:

referring to fig. 1 to 9, the bridge deck self-water seepage and drainage device for road and bridge construction provided by the invention comprises a seepage and drainage box 1, a recovery box 2 and a power generation box 3, wherein the top surface of the seepage and drainage box 1 is provided with a lower drainage port 4, a displacement baffle 7 is arranged right below the lower drainage port 4, the left end of the displacement baffle 7 is in contact with the right side surface of a left fixed inclined plate 5, the right end of the displacement baffle 7 is in contact with the left side surface of a right fixed inclined plate 6, the top ends of the left fixed inclined plate 5 and the right fixed inclined plate 6 are respectively and fixedly connected with the upper side surface in the seepage and drainage box 1, the left part of the lower side surface of the displacement baffle 7 is fixedly provided with a fifth return spring 84, the bottom end of the fifth return spring 84 is fixedly provided with a spring bottom plate 85, the middle part of the lower side surface of the displacement baffle 7 is fixedly provided with a transmission rod 8, and the left and right side surfaces of the middle part of the transmission rod 8 are respectively connected with a first limiting column 9 and a second limiting column 9, The second limiting column 10 is in contact with the transmission rod 8, a first permanent magnet 11 is fixed at the bottom end of the transmission rod 8, and an iron core 12 is arranged right below the first permanent magnet 11.

Further, the top surface of the infiltration and drainage tank 1 is communicated with the top of the receiving cylinder 19, the receiving plate 20 is arranged inside the receiving cylinder 19, the lower side surface of the receiving plate 20 is fixedly connected with the top end of the pressure rod 18, the bottom end of the pressure rod 18 extends out of the lower side surface of the receiving cylinder 19, the right side surface of the pressure rod 18 is fixedly provided with a first lateral arm 21, the upper side surface of the right part of the first lateral arm 21 is provided with a first return spring 22, the top end of the first return spring 22 is fixedly connected with the lower side surface of the left part of a second lateral arm 23, the right end of the second lateral arm 23 is fixedly connected with the bottom end of a first longitudinal arm 24, the right side surface of the top end of the first longitudinal arm 24 is contacted with the left side surface of the bottom end of a second longitudinal arm 25, the top end of the second longitudinal arm 25 is fixedly connected with the upper side surface inside the infiltration and drainage tank 1, the left side surface of the top end of the first longitudinal arm 24 is in contact with the right end of the long screw 26, the middle part of the long screw 26 is matched with the inner circumference of the nut 28 through threaded connection, the top part of the nut 28 is fixedly connected with the bottom end of the supporting arm 29, the top end of the supporting arm 29 is fixedly connected with the upper side surface inside the infiltration and drainage box 1, and the left end of the long screw 26 is fixedly provided with the end block 27.

Further, the inside of infiltration row case 1 be provided with sense control box 17, the inside of sense control box 17 be provided with fixed resistor 30, fixed resistor 30 about between establish ties through wire 16 and have force sensing resistor 31, first power 32, first switch 33, the top surface of force sensing resistor 31 and the bottom contact of pressure bar 18, fixed resistor 30 the left surface pass through wire 16 and the right flank electric connection of second end piece 15, fixed resistor 30 the right flank pass through wire 16 and the right flank electric connection of first end piece 14, second end piece 15 set up the right flank at first coil 13, first coil 13 parcel in the middle part periphery of iron core 12. Furthermore, the device can realize the intelligent seepage and drainage function, can dynamically adjust the flow rate of seepage and drainage in real time, increases the intelligence of the device, when the amount of water outside the device is large, under the action of the gravity of the water stored in the bearing cylinder 19, the bearing plate 20 pushes the pressure rod 18 to move downwards against the spring force of the first return spring 22, so that the pressure sensed by the force sensitive resistor 31 is increased, the resistance value of the force sensitive resistor 31 is reduced, the voltage obtained by the first coil 13 connected in parallel with the fixed resistor 30 is increased, the electromagnetic attraction force generated by the iron core 12 wrapped by the first coil 13 on the first permanent magnet 11 is increased, the first permanent magnet 11 drives the displacement baffle 7 to move downwards through the transmission rod 8, the larger the pressure sensed by the force sensitive resistor 31 is, the larger the downward movement amplitude of the displacement baffle 7 is, the larger the formed seepage and drainage opening is, in addition, a user can adjust the longitudinal position of the first longitudinal arm 24, to change the magnitude of the initial spring force of the first return spring 22.

Referring to fig. 1 to 9, further, the left portion of the bottom surface of the infiltration tank 1 is in contact communication with the top end of a through pipe 34, the bottom end of the through pipe 34 penetrates through the left portion of the recovery tank 2 and then extends into the power generation tank 3, the right side surface of the middle portion of the through pipe 34 is in contact communication with the left end of a lateral diversion hose 35, the lower side surface of the middle portion of the lateral diversion hose 35 is in contact with the top periphery of a fixed column 36, the upper side surface of the middle portion of the lateral diversion hose 35 is in contact with the bottom end of an action rod 39, the action rod 39 is disposed at the bottom power output end of an electric cylinder 38, the top of the electric cylinder 38 is fixed with an electric cylinder bottom plate 37, the electric cylinder bottom plate 37 is fixed at the left portion of the inner upper side surface of the recovery tank 2, the right portion of the inner upper side surface of the recovery tank 2 is fixed with a suspension inclined plate 40, the right side surface of the suspension plate 40 is fixed with an inclined plate 41, a recovery dish 52 is arranged right below the guide rod 41.

Further, the inner lower surface of the recycling bin 2 is provided with a heating instrument 42, the upper surface of the heating instrument 42 is provided with a heated dish 43, the upper portion of the heated dish 43 is provided with a buoyancy plate 44, the top end of the buoyancy plate 44 is fixedly connected with the bottom end of a buoyancy rod 45, the top end of the buoyancy rod 45 is fixedly connected with the bottom end of a collar 46, the inner circumference of the collar 46 is in contact with the outer circumference of the right portion of a first rotating rod 47, a first square piece 48 is fixed in the middle of the lower side surface of the first rotating rod 47, a first fixed rotating shaft 49 is arranged in the middle of the first square piece 48, the first square piece 48 can rotate around the first fixed rotating shaft 49, the left portion of the lower side surface of the first rotating rod 47 is in contact with the top end of an induction rod 50, the bottom end of the induction rod 50 extends into an inductor 51, a conductor strip 53 is fixed on the left side surface of the bottom end of the induction rod 50, the bottom of conductor 53 be provided with second return spring 54, the left surface of conductor 53 and the right flank contact of first fixed guide vane 55, first fixed guide vane 55 be provided with second fixed guide vane 56 directly below, first fixed guide vane 55, the left surface of second fixed guide vane 56 between establish ties through wire 16 and have second power 57, electronic jar controller 58. Furthermore, the device of the invention can realize the distillation and reuse function of the seepage drainage, is beneficial to the recycling and reuse of water resources, protects the environment, the seepage drainage is discharged into the heated dish 43 through the penetration pipe 34 and the lateral diversion hose 35, the heating instrument 42 works to perform the heating and distillation function of the seepage drainage in the heated dish 43, the distilled water vapor is liquefied on the left inclined surface of the suspension inclined plate 40 and flows into the interior of the recovery dish 52 along the guide rod 41, in addition, after the water amount discharged into the interior of the heated dish 43 is large, the buoyancy plate 44 pushes the first rotating rod 47 and the first square 48 to rotate anticlockwise around the first fixed rotating shaft 49 through the buoyancy rod 45, the left end of the first rotating rod 47 pushes the induction rod 50 and the conductor bar 53 to move downwards, the left side surface of the conductor bar 53 is in contact and communication with the right side surfaces of the first fixed guide piece 55 and the second fixed guide piece 56, the electric cylinder controller 58 is electrified and controls the electric cylinder 38 to work, the actuating rod 39 is extended to effect a press-shut action against the middle of the lateral diversion hose 35.

Referring to fig. 1 to 9, further, the inside of the power generation box 3 is provided with a water storage cylinder 59, the top surface of the water storage cylinder 59 is communicated with the bottom end of the through pipe 34 in a contacting manner, the right side surface of the water storage cylinder 59 is provided with a side hole 60, the inside of the water storage cylinder 59 is provided with an oscillation plate 61, the right end of the oscillation plate 61 is fixedly connected with the left end of the second rotating rod 62, the left part of the second rotating rod 62 is fixed with a sealing sheet 63, the left side surface of the sealing sheet 63 is contacted with the right side of the side hole 60, the lower side surface of the right part of the second rotating rod 62 is fixed with a second square sheet 64, the middle part of the second square sheet 64 is provided with a second fixed rotating shaft 65, the second square sheet 64 can rotate around the second fixed rotating shaft 65, and the right end of the second rotating rod 62 is fixed with a middle action rod 66.

Further, an upper triangular plate 67 and a lower triangular plate 68 are arranged in the power generation box 3, a lower inclined surface of the upper triangular plate 67 is in contact with the top end of the middle action rod 66, an upper inclined surface of the lower triangular plate 68 is in contact with the bottom end of the middle action rod 66, first connecting bars 69 and second connecting bars 70 are respectively fixed on right side surfaces of the upper triangular plate 67 and the lower triangular plate 68, upper and lower side surfaces of the middle part of the first connecting bar 69 are respectively in contact with the third limiting column 71 and the fourth limiting column 72, upper and lower side surfaces of the middle part of the second connecting bar 70 are respectively in contact with the fifth limiting column 73 and the sixth limiting column 74, second permanent magnets 75 and second coils 77 are respectively fixed on right end surfaces of the first connecting bar 69 and the second connecting bar 70, and third return springs 76 and second return springs 76 are respectively arranged on right side surfaces of the second permanent magnets 75 and the second coils 77, Fourth return spring 78, the downside of second coil 77 be provided with left position follow-up end piece 79, right position follow-up end piece 80, the downside of left position follow-up end piece 79, right position follow-up end piece 80 between establish ties through wire 16 and have left position diode 81, right position diode 82, battery 83, the top of left position diode 81 be the positive terminal, the bottom of right position diode 82 be the positive terminal. Furthermore, the device of the invention can realize the conversion of the energy of the seepage and drainage water flow, convert the kinetic energy into the electric energy for storage, and is beneficial to saving energy, the seepage and drainage water flows into the water storage cylinder 59 and impacts the vibration plate 61 to vibrate, the vibration plate 61 drives the second rotating rod 62 and the second square piece 64 to swing around the second fixed rotating shaft 65, further, the second rotating lever 62 causes the intermediate operating lever 66 at the right end to repeatedly move up and down, and when the intermediate operating lever 66 moves upward, respectively push the upper triangle board 67 to move rightwards and the lower triangle board 68 to move leftwards, when the middle action rod 66 moves downwards, respectively push the upper triangle board 67 to move leftwards and the lower triangle board 68 to move rightwards, so that the magnetic induction line of the second permanent magnet 75 repeatedly cuts the second coil 77 to generate induced current, and the induced current is stored in the storage battery 83 after passing through the rectifying action of the left diode 81 and the right diode 82.

The force-sensitive resistor 31, the electric cylinder 38, the left diode 81, the right diode 82, the storage battery 83 and the like are all assembled in the existing equipment, and therefore specific models and specifications are not described in detail.

The working principle of the invention is as follows:

the invention provides a bridge floor self-water seepage and drainage device for road and bridge construction, which comprises a seepage and drainage box 1, a recovery box 2 and a power generation box 3, wherein the top surface of the seepage and drainage box 1 is provided with a lower drainage port 4, a displacement baffle 7 is arranged under the lower drainage port 4, the left end of the displacement baffle 7 is contacted with the right side surface of a left fixed inclined plate 5, the right end of the displacement baffle 7 is contacted with the left side surface of a right fixed inclined plate 6, the top ends of the left fixed inclined plate 5 and the right fixed inclined plate 6 are respectively fixedly connected with the inner upper side surface of the seepage and drainage box 1, the left part of the lower side surface of the displacement baffle 7 is fixedly provided with a fifth return spring 84, the bottom end of the fifth return spring 84 is fixedly provided with a spring bottom plate 85, the middle part of the lower side surface of the displacement baffle 7 is fixedly provided with a transmission rod 8, and the left and right side surfaces of the middle part of the transmission rod 8 are respectively connected with a first limiting column 9, a second limiting column 9 and a third limiting column 9, The second limit column 10 contacts, the bottom end of the transmission rod 8 is fixed with a first permanent magnet 11, an iron core 12 is arranged under the first permanent magnet 11, the top surface of the infiltration discharge box 1 is communicated with the top of the bearing cylinder 19, the bearing plate 20 is arranged in the bearing cylinder 19, the lower side surface of the bearing plate 20 is fixedly connected with the top end of the pressure rod 18, the bottom end of the pressure rod 18 extends out of the lower side surface of the bearing cylinder 19, the right side surface of the pressure rod 18 is fixed with a first lateral arm 21, the upper side surface of the right part of the first lateral arm 21 is provided with a first return spring 22, the top end of the first return spring 22 is fixedly connected with the lower side surface of the left part of a second lateral arm 23, the right end of the second lateral arm 23 is fixedly connected with the bottom end of a first longitudinal arm 24, the right side surface of the top end of the first longitudinal arm 24 is contacted with the left side surface of the bottom end of a second longitudinal arm 25, the top end of the second longitudinal arm 25 is fixedly connected with the inner upper side surface of the infiltration and drainage box 1, the left side surface of the top end of the first longitudinal arm 24 is contacted with the right end of the long screw 26, the middle part of the long screw 26 is matched with the inner circumference of the nut 28 through threaded connection, the top part of the nut 28 is fixedly connected with the bottom end of the supporting arm 29, the top end of the supporting arm 29 is fixedly connected with the inner upper side surface of the infiltration and drainage box 1, the left end of the long screw 26 is fixed with the end block 27, the infiltration and drainage box 1 is internally provided with the sensing and control box 17, the sensing and control box 17 is internally provided with the fixed resistor 30, the left side surface and the right side surface of the fixed resistor 30 are connected in series with the force sensitive resistor 31, the first power supply 32 and the first switch 33 through the lead 16, the top surface of the force sensitive resistor 31 is contacted with the bottom end of the pressure rod 18, the left side surface of the fixed resistor 30 is electrically connected with the right side surface of the second end block 15 through the lead 16, furthermore, the device can realize the intelligent seepage and drainage function, can dynamically adjust the flow rate of seepage and drainage in real time, increases the intelligence of the device, when the amount of water outside the device is large, under the action of the gravity of the water stored in the bearing cylinder 19, the bearing plate 20 pushes the pressure rod 18 to move downwards against the spring force of the first return spring 22, so that the pressure sensed by the force sensitive resistor 31 is increased, the resistance value of the force sensitive resistor 31 is reduced, the voltage obtained by the first coil 13 connected in parallel with the fixed resistor 30 is increased, the electromagnetic attraction force generated by the iron core 12 wrapped by the first coil 13 on the first permanent magnet 11 is increased, the first permanent magnet 11 drives the displacement baffle 7 to move downwards through the transmission rod 8, the larger the pressure sensed by the force sensitive resistor 31 is, the larger the downward movement amplitude of the displacement baffle 7 is, the larger the formed seepage and drainage opening is, in addition, a user can adjust the longitudinal position of the first longitudinal arm 24, to change the magnitude of the initial spring force of the first return spring 22.

The left part of the bottom surface of the infiltration and drainage box 1 is in contact communication with the top end of a through pipe 34, the bottom end of the through pipe 34 penetrates through the left part of the recovery box 2 and then extends into the power generation box 3, the right side surface of the middle part of the through pipe 34 is in contact communication with the left end of a lateral diversion hose 35, the lower side surface of the middle part of the lateral diversion hose 35 is in contact with the periphery of the top of a fixed column 36, the upper side surface of the middle part of the lateral diversion hose 35 is in contact with the bottom end of an action rod 39, the action rod 39 is arranged at the bottom power output end of an electric cylinder 38, the top of the electric cylinder 38 is fixed with an electric cylinder bottom plate 37, the electric cylinder bottom plate 37 is fixed at the left part of the upper side surface in the recovery box 2, the right part of the upper side surface in the recovery box 2 is fixed with a suspension inclined plate 40, and the right side surface of the suspension inclined plate 40 is fixed with a guide rod 41, be provided with recovery dish 52 under water conservancy diversion pole 41, the inside lower surface of collection box 2 be provided with heating instrument 42, heating instrument 42's upper surface be provided with receive dish 43, the upper portion of receiving dish 43 be provided with buoyancy board 44, buoyancy board 44's top and buoyancy pole 45's bottom fixed connection, buoyancy pole 45's top and the bottom fixed connection of lasso 46, the outer peripheral contact of the right part of interior week and first pivot pole 47 of lasso 46, the middle part of the downside of first pivot pole 47 be fixed with first square piece 48, the middle part of first square piece 48 be provided with first fixed rotating shaft 49, first square piece 48 can encircle first fixed rotating shaft 49 and rotate, the left part of the downside of first pivot pole 47 and the top contact of response pole 50, the inside that inductor 51 was stretched into to response pole bottom 50, the left side surface of the bottom end of the induction rod 50 is fixedly provided with a conductor bar 53, the bottom end of the conductor bar 53 is provided with a second return spring 54, the left side surface of the conductor bar 53 is in contact with the right side surface of a first fixed guide vane 55, a second fixed guide vane 56 is arranged right below the first fixed guide vane 55, further, the device can realize the distillation and reuse functions of seepage and drainage water, the recycling and reuse of water resources are facilitated, the environment is protected, the seepage and drainage water is drained into the interior of the heated dish 43 through the penetrating pipe 34 and the lateral diversion hose 35, the heater 42 works to perform heating distillation on the seepage and drainage water in the heated dish 43, the distilled water vapor flows into the interior of the recovery dish 52 along the guide rod 41 after being liquefied on the left inclined surface of the suspension inclined plate 40, and in addition, after the water amount drained into the interior of the heated dish 43 is more, the buoyancy plate 44 pushes the first rotating rod 47, the second rotating rod 47 and the second fixing guide vane 54 through the buoyancy rod 45, The first square plate 48 rotates anticlockwise around the first fixed rotating shaft 49, the left end of the first rotating rod 47 presses the sensing rod 50 and the conductor bar 53 to move downwards, the left side surface of the conductor bar 53 is in contact communication with the right side surfaces of the first fixed guide sheet 55 and the second fixed guide sheet 56, the electric cylinder controller 58 is powered on and controls the electric cylinder 38 to work, and the action rod 39 extends out to press and intercept the middle part of the lateral diversion hose 35.

The inside of power generation box 3 be provided with water storage tank 59, water storage tank 59's top surface and the bottom contact intercommunication that runs through pipe 34, water storage tank 59's right flank be provided with side hole 60, water storage tank 59's inside be provided with shake board 61, the right-hand member of shaking board 61 and the left end fixed connection of second dwang 62, the left part of second dwang 62 be fixed with sealing sheet 63, the left surface of sealing sheet 63 and the right side contact of side hole 60, the downside of the right part of second dwang 62 be fixed with second square piece 64, the middle part of second square piece 64 be provided with second fixed rotating shaft 65, second square piece 64 can encircle second fixed rotating shaft 65 and rotate, the right-hand member of second dwang 62 be fixed with middle action pole 66, the inside of power generation box 3 be provided with upper set square 67, Lower triangular plate 68, the lower inclined plane of upper triangular plate 67 and the top contact of middle action pole 66, the bottom contact of last inclined plane and middle action pole 66 of lower triangular plate 68, the right flank of upper triangular plate 67, lower triangular plate 68 be fixed with first connecting strip 69, second connecting strip 70 respectively, the upper and lower side at the middle part of first connecting strip 69 contact with spacing post 71 of third, the spacing post 72 of fourth respectively, the upper and lower side at the middle part of second connecting strip 70 contact with spacing post 73 of fifth, the spacing post 74 of sixth respectively, the right-hand member of first connecting strip 69, second connecting strip 70 be fixed with second permanent magnet 75, second coil 77 respectively, the right flank of second permanent magnet 75, second coil 77 be provided with third return spring 76, fourth return spring 78 respectively, the downside of second coil 77 be provided with left position follow-up end piece 79, 79, A left diode 81, a right diode 82 and a storage battery 83 are connected in series between the lower sides of the left follow-up end piece 79 and the right follow-up end piece 80 through a lead 16, the top end of the left diode 81 is a positive end, the device can convert the energy of the seepage and drainage water flow, the kinetic energy is converted into electric energy to be stored, the energy is saved, the seepage and drainage water flows into the water storage cylinder 59 and impacts the vibration plate 61 to vibrate, the vibration plate 61 drives the second rotating rod 62 and the second square piece 64 to swing around the second fixed rotating shaft 65, the second rotating rod 62 drives the middle action rod 66 at the right end to repeatedly move up and down, when the middle action rod 66 moves up, the upper triangular plate 67 is respectively pushed to move right, the lower triangular plate 68 moves left, and when the middle action rod 66 moves down, the upper triangular plate 67 and the lower triangular plate 68 are respectively pushed to move leftwards and rightwards, so that the magnetic induction lines of the second permanent magnet 75 repeatedly cut the second coil 77 to generate induction current, and the induction current is stored in the storage battery 83 after passing through the rectifying action of the left diode 81 and the right diode 82.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.