CN217896394U - Hydraulic engineering dykes and dams antiseep mechanism - Google Patents

Abstract

The utility model belongs to the technical field of hydraulic engineering restores, concretely relates to hydraulic engineering dykes and dams antiseep mechanism, including fixed chassis, the solid seat of medial surface fixedly connected with four slide bars of fixed chassis, the solid inboard of sitting of slide bar is provided with the slip montant, the fixed roof-rack of the terminal fixedly connected with in top side of slip montant, the wired wheel hub board of fixed chassis's fixed surface connection. The side of the fixed underframe is provided with a sliding block, the side of the sliding block is provided with a sliding rod end shaft, the inner side of the sliding rod end shaft is provided with a sliding cross rod in a penetrating mode, the other side of the sliding rod end shaft is connected with a lifting hinge rod, and the tail end of the lifting hinge rod is provided with a hinge shaft rod. The side face of the wire wheel hub plate is connected with a guide wheel support frame, and the tail end of the guide wheel support frame is connected with a wire guide wheel. The utility model discloses, be convenient for at the not big dykes and dams department lateral shifting of slope, can replace artifical increase security, increase repairable scope placing the condition that the gliding appears on the inclined plane.

Description

Hydraulic engineering dykes and dams antiseep mechanism

Technical Field

The utility model belongs to the technical field of hydraulic engineering restores, concretely relates to hydraulic engineering dykes and dams antiseep mechanism.

Background

The hydraulic engineering plays an important role in controlling rivers and lakes, and especially plays a good role in preventing and controlling flood disasters in heavy rainfall areas. But still have this many problems in the current hydraulic engineering construction, the construction technology is too old, constructor consciousness weak etc. all causes the hidden danger to the hydraulic engineering quality, like the dykes and dams seepage, the dykes and dams ageing for coping with the time problem brings, make the crack that dykes and dams surface produced, generally need the staff to wear the safety rope, hang the assigned position, to probably appearing seepage or crack probably enlarge the department and consolidate the processing, utilize coating to increase gap department waterproof nature, if adopt artifically, only can carry out short distance displacement through hoist and mount, and it is inconvenient, simultaneously along with the risk.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a hydraulic engineering dykes and dams antiseep mechanism can be convenient for locate lateral shifting at the little dykes and dams of the slope, can replace artifical increase security, increase repairable scope placing the condition that the gliding appears on the inclined plane.

The utility model discloses the technical scheme who takes specifically as follows:

the utility model provides a hydraulic engineering dykes and dams antiseep mechanism, includes fixed chassis, the solid seat of medial surface fixedly connected with four slide bars of fixed chassis, the solid inboard of seat of slide bar is provided with the slip montant, the fixed roof-rack of the terminal fixedly connected with in top side of slip montant, the fixed chassis's fixed surface is connected with wired wheel hub plate.

The side of fixed chassis is provided with the sliding block, the side of sliding block is provided with the slide bar end axle, the inboard of slide bar end axle is run through and is provided with the slip horizontal pole, the opposite side of slide bar end axle is connected with the lift hinge bar, the end of lift hinge bar is provided with the articulated axostylus axostyle.

The side face of the wire wheel hub plate is connected with a guide wheel support frame, the tail end of the guide wheel support frame is connected with a wire guide wheel, and the middle of the wire wheel hub plate is connected with a wire winding wheel disc.

The sliding groove has been seted up to the lateral surface of fixed chassis, the medial surface sliding connection of sliding groove has the sliding block, the track groove has all been seted up at the both ends of sliding block, the track groove agrees with the inboard edge of sliding groove, sliding block and sliding groove sliding connection, the sliding block rotates with the slide bar end axle to be connected, the solid seat fixed connection of slip horizontal pole and slide bar.

The lifting device comprises a sliding cross rod, a sliding rod end shaft, a lifting hinge rod, an electric push rod and an electromagnetic driving wheel, wherein the sliding cross rod is connected with the sliding rod end shaft in a sliding mode, the sliding rod end shaft is connected with the lifting hinge rod in a rotating mode, the lifting hinge rod is connected with a hinge shaft rod in a rotating mode, the hinge shaft rod is fixedly connected with a fixed top frame, the middle position of the side face of the lifting hinge rod is connected with the electric push rod in a rotating mode, and the tail end of a sliding vertical rod is fixedly connected with the electromagnetic driving wheel.

The wire wheel hub plate is rotatably connected with the wire winding wheel disc, a cable is arranged on the outer side of the wire winding wheel disc, the guide wheel support frame is fixedly connected with the wire wheel hub plate, the guide wheel support frame is rotatably connected with the wire guide wheel, and the wire guide wheel is provided with a rope penetrating hole penetrating to the outer side corresponding to the inner side face of the sliding rod fixing seat.

The improved automatic feeding device comprises a fixed base of a sliding rod, a fixed frame, a displacement sliding rod, a threaded rod, a coating end, a motor and a motor, wherein the fixed base of the sliding rod is fixedly connected with the fixed frame, the side face of one end of the fixed frame is fixedly connected with the displacement sliding rod, the side face of the other end of the fixed frame is rotatably connected with the threaded rod, the coating end is arranged on the outer side of the threaded rod and is connected with the displacement sliding rod in a sliding mode, and the motor is installed at the tail end of the threaded rod in a transmission mode.

The coating device is characterized in that a scraping sheet is arranged on one side face of the coating end, the inclination angle of the scraping sheet is smaller than eighty degrees, the other end of the coating end is fixedly connected with a discharging port, the top end of the discharging port is fixedly connected with a material passing pipe, the top end of the material passing pipe is fixedly connected with a material storage hopper, and the material storage hopper is fixedly connected with a fixing frame.

The utility model discloses the technological effect who gains does:

the utility model discloses, through the drive of external equipment wired control electric putter, it rotates through articulated axostylus axostyle to drive both sides lift hinge pole through electric putter electric power, when the lift hinge pole rotates, can rotate with the slide bar end shaft through lift hinge pole, slide bar end shaft slides through the slip horizontal pole afterwards, and then drive the sliding block and pass through the inboard of track groove slip at the sliding tray, through the slip horizontal pole and then change the support height of lift hinge pole and articulated axostylus axostyle junction, and then realize the lift of fixed roof-rack structure, the lift of fixed roof-rack receives the displacement restriction of slip montant simultaneously, let articulated axostylus axostyle junction only can vertical displacement, when fixed roof-rack descends downwards simultaneously, through the electromagnetism drive wheel of slip montant bottom connection, go up and down through above-mentioned structure, and let electromagnetism drive wheel and ground contact, and prop up the fixed bottom bracket gradually, let the electromagnetism drive wheel let under the electric power effect whole realize lateral shifting through control afterwards, this kind of moving mode, be convenient for slope is not the lateral shifting of dykes and dams department, so that the slope is inconvenient, so that it is inconvenient to replace the manual work security problem to solve simultaneously.

The utility model discloses, through the rotation of the self-locking motor drive spiral rim plate of installation on the line wheel boss board, and emit the winding cable in the spiral rim plate outside through rotating gradually through the wire wheel, the cable can be worn out along the wire wheel corresponding wire rope handling hole of department, through the mode of unwrapping wire, let the steamboat and dykes and dams side contact of fixed chassis bottom, and then above-mentioned structural control is whole reciprocates simultaneously, with conveniently remove the position that the infiltration probably appears to dykes and dams in assigned position, repair through the mode of grout of caulking.

The utility model discloses, the motor through the threaded rod side drives the threaded rod and rotates, and then lets the coating end pass through the threaded rod and remove to scrape the tablet through the removal and scrape the coating and scrape into the crack, and strickle the material, cooperate above-mentioned structure, portable position everywhere, repair the crack, facilitate the use.

Drawings

Fig. 1 is a schematic front perspective view of the present invention;

fig. 2 is a schematic view of the connection structure of the lifting hinge rod of the present invention;

FIG. 3 is a schematic view of the center line hub plate connection structure of the present invention;

FIG. 4 is a schematic diagram of the position structure of the electromagnetic driving wheel of the present invention;

FIG. 5 is a schematic view of the structure of the coating end of the present invention;

fig. 6 is a schematic view of the connection structure of the middle slide rod fixing seat of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. fixing the underframe; 2. a slide bar fixing seat; 3. sliding the vertical rod; 4. fixing the top frame; 5. a wire hub plate; 6. a sliding groove; 7. a slider; 8. a lifting hinge rod; 9. an articulation shaft; 10. a fixed mount; 11. a track groove; 12. a slide bar end shaft; 13. a sliding rail; 14. an electric push rod; 15. a wire take-up reel; 16. a guide wheel support frame; 17. a wire guide wheel; 18. a cable; 19. an electromagnetic drive wheel; 20. a displacement slide bar; 21. a threaded rod; 22. a coating end; 23. scraping a material sheet; 24. a discharge port; 25. a material passing pipe; 26. A storage hopper.

Detailed Description

In order to make the objects and advantages of the present invention more apparent, the present invention will be described in detail with reference to the following embodiments. It is to be understood that the following text is only intended to describe one or several particular embodiments of the invention, and does not strictly limit the scope of the claims specifically claimed.

As shown in fig. 1-6, a hydraulic engineering dam leakage prevention mechanism comprises a fixed bottom frame 1, four slide bar fixing seats 2 fixedly connected to the inner side surface of the fixed bottom frame 1, slide bars 3 arranged on the inner sides of the slide bar fixing seats 2, a fixed top frame 4 fixedly connected to the top ends of the slide bars 3, and a wired hub plate 5 fixedly connected to the surface of the fixed bottom frame 1.

The side of the fixed underframe 1 is provided with a sliding block 7, the side of the sliding block 7 is provided with a sliding rod end shaft 12, the inner side of the sliding rod end shaft 12 is provided with a sliding cross rod 13 in a penetrating way, the other side of the sliding rod end shaft 12 is connected with a lifting hinge rod 8, and the tail end of the lifting hinge rod 8 is provided with a hinge shaft rod 9.

The side surface of the wire hub plate 5 is connected with a guide wheel support frame 16, the tail end of the guide wheel support frame 16 is connected with a wire guide wheel 17, and the middle position of the wire hub plate 5 is connected with a wire winding wheel disc 15.

Referring to the attached drawings 1 and 2, the outer side surface of the fixed underframe 1 is provided with a sliding groove 6, the inner side surface of the sliding groove 6 is connected with a sliding block 7 in a sliding manner, two ends of the sliding block 7 are provided with track grooves 11, the track grooves 11 are matched with the inner side edge of the sliding groove 6, the sliding block 7 is connected with the sliding groove 6 in a sliding manner, the sliding block 7 is connected with a sliding rod end shaft 12 in a rotating manner, a sliding cross rod 13 is fixedly connected with a sliding rod fixed seat 2, a sliding cross rod 13 is connected with the sliding rod end shaft 12 in a sliding manner, the sliding rod end shaft 12 is connected with a lifting hinge rod 8 in a rotating manner, the lifting hinge rod 8 is connected with a hinge rod 9 in a rotating manner, the hinge rod 9 is fixedly connected with a fixed top frame 4, the middle position of the side surface of the lifting hinge rod 8 is connected with an electric push rod 14 in a rotating manner, the tail end of the sliding vertical rod 3 is fixedly connected with an electromagnetic driving wheel 19, the electric push rod 14 is controlled by a wire through the external device to drive, the electric push rod 14 electrically drives the lifting hinge rods 8 at two sides to rotate through the hinge rod 9, when the lifting hinged rod 8 rotates, the lifting hinged rod 8 and the sliding rod end shaft 12 rotate, then the sliding rod end shaft 12 slides through the sliding cross rod 13 to drive the sliding block 7 to slide on the inner side of the sliding groove 6 through the rail groove 11, the supporting height of the joint of the lifting hinged rod 8 and the hinged shaft rod 9 is changed through the sliding of the sliding cross rod 13, so that the lifting of the fixed top frame 4 is realized, meanwhile, the lifting of the fixed top frame 4 is limited by the displacement of the sliding vertical rod 3, the joint of the hinged shaft rod 9 can only vertically displace, meanwhile, when the fixed top frame 4 descends downwards, the electromagnetic driving wheel 19 connected with the bottom of the sliding vertical rod 3 is lifted and lowered through the structure, the electromagnetic driving wheel 19 is in contact with the ground and gradually supports the fixed bottom frame 1, and then the electromagnetic driving wheel 19 is controlled to realize the transverse movement of the whole under the action of electric power, this kind of mode of movement, the lateral shifting is convenient for in the not big dykes and dams of slope degree, electromagnetism drive wheel 19 to it is inconvenient to replace artifical removal, solves artifical security problem simultaneously.

Referring to the attached drawing 3, a wire hub plate 5 is rotatably connected with a wire winding wheel disc 15, a cable 18 is arranged on the outer side of the wire winding wheel disc 15, a guide wheel support frame 16 is fixedly connected with the wire hub plate 5, the guide wheel support frame 16 is rotatably connected with a wire guide wheel 17, a wire guide wheel 17 is provided with a rope penetrating hole penetrating to the outer side corresponding to the inner side of a slide bar fixing seat 2, through the structure, a self-locking motor arranged on the wire hub plate 5 drives the wire winding wheel disc 15 to rotate, the cable 18 wound on the outer side of the wire winding wheel disc 15 is gradually discharged through the wire guide wheel 17 through rotation, the cable 18 penetrates out along the corresponding rope penetrating hole at the wire guide wheel 17, through a wire releasing mode, a small wheel at the bottom of a fixed chassis 1 is contacted with the side face of a dam, and the whole body is controlled to move up and down to conveniently move to a designated position where water seepage may occur in the dam, and the repairing is performed through a mode of filling and grouting.

Referring to the attached drawing 4, the slide bar fixing seat 2 is fixedly connected with the fixing frame 10, one end side of the fixing frame 10 is fixedly connected with the displacement slide bar 20, the other end side of the fixing frame 10 is rotatably connected with the threaded rod 21, the outer side of the threaded rod 21 is provided with the coating end 22, the coating end 22 is slidably connected with the displacement slide bar 20, a motor is installed at the tail end of the threaded rod 21 in a transmission mode, the size of the motor at the end portion of the 21 end portion is only a schematic diagram, the actual size is matched according to the actual situation, through the structure, the motor on the side of the threaded rod 21 drives the threaded rod 21 to rotate, the coating end 22 is further driven to move through the threaded rod 21, the coating is scraped into a crack through the moving scraping sheet 23, the material is scraped flat, the structure is matched, the crack can be moved to various positions, and the crack is repaired and is convenient to use.

Referring to fig. 4, a scraping sheet 23 is arranged on one side surface of the coating end 22, the inclination angle of the scraping sheet 23 is smaller than eighty degrees, a discharging port 24 is fixedly connected to the other end of the coating end 22, a material passing pipe 25 is fixedly connected to the top end of the discharging port 24, a material storage hopper 26 is fixedly connected to the top end of the material passing pipe 25, the material storage hopper 26 is fixedly connected with the fixing frame 10, through the structure, the material in the material storage hopper 26 falls to the discharging port 24 through the material passing pipe 25 and moves in cooperation with the coating end 22 to uniformly coat the material on the surface of a crack, the overall shape of the material storage hopper 26 can be adjusted according to actual use, the shape in the drawing is only used as a reference, the discharging of the discharging port 24 refers to the prior art means such as an electric valve, and the discharging time is controlled.

The utility model discloses a theory of operation does: firstly, a self-locking motor arranged on a wire hub plate 5 drives a wire winding wheel disc 15 to rotate, a cable 18 wound on the outer side of the wire winding wheel disc 15 is gradually paid out through a wire guide wheel 17 by rotation, the cable 18 penetrates out along a corresponding wire through hole at the wire guide wheel 17, a small wheel at the bottom of a fixed underframe 1 is contacted with the side surface of a dam in a paying-off mode, the whole up-and-down movement is controlled by the structure to be controlled, then an electric push rod 14 is controlled by external equipment in a wired mode to drive, lifting hinge rods 8 at two sides are driven to rotate through a hinge shaft lever 9 by electric power of the electric push rod 14, when the lifting hinge rods 8 rotate, the lifting hinge rods 8 and a slide rod end shaft 12 rotate, then the slide rod end shaft 12 slides through a slide cross rod 13 to drive a slide block 7 to slide on the inner side of a slide groove 6 through a track groove 11, and the support height of the connection part of the lifting hinge rods 8 and the hinge shaft lever 9 is changed through the sliding of the slide cross rod 13, and then realize the lifting of the fixed top frame 4 structure, the lifting of the fixed top frame 4 is limited by the displacement of the sliding vertical rod 3 at the same time, the joint of the hinged shaft lever 9 can only vertically displace, when the fixed top frame 4 descends downwards, the electromagnetic driving wheel 19 connected with the bottom of the sliding vertical rod 3 ascends and descends through the structure, the electromagnetic driving wheel 19 is contacted with the ground and gradually supports the fixed bottom frame 1, then the electromagnetic driving wheel 19 is controlled to realize the transverse movement of the whole under the action of electric power, in this moving mode, the material in the storage hopper 26 falls to the discharge port 24 through the material passing pipe 25 and moves in cooperation with the coating end 22 to uniformly coat the material on the surface of the crack, the motor on the side of the threaded rod 21 drives the threaded rod 21 to rotate, and then the coating end 22 moves through the threaded rod 21, and the scraping sheet 23 is driven by moving to scrape the coating into the crack.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention. The structures, devices, and methods of operation of the present invention, not specifically described and illustrated, are generally practiced by those of ordinary skill in the art without specific recitation or limitation.

Claims (8)

1. The utility model provides a hydraulic engineering dykes and dams antiseep mechanism, includes fixed chassis (1), its characterized in that: the inner side surface of the fixed underframe (1) is fixedly connected with four sliding rod fixing seats (2), the inner sides of the sliding rod fixing seats (2) are provided with sliding vertical rods (3), the tail ends of the top sides of the sliding vertical rods (3) are fixedly connected with a fixed top frame (4), and the surface of the fixed underframe (1) is fixedly connected with a wired wheel hub plate (5);

a sliding block (7) is arranged on the side face of the fixed underframe (1), a sliding rod end shaft (12) is arranged on the side face of the sliding block (7), a sliding cross rod (13) penetrates through the inner side of the sliding rod end shaft (12), the other side of the sliding rod end shaft (12) is connected with a lifting hinge rod (8), and a hinge shaft rod (9) is arranged at the tail end of the lifting hinge rod (8);

the wire winding device is characterized in that a guide wheel strut (16) is connected to the side face of the wire wheel hub plate (5), the tail end of the guide wheel strut (16) is connected with a wire guide wheel (17), and a wire winding wheel disc (15) is connected to the middle of the wire wheel hub plate (5).

2. The hydraulic engineering dykes and dams antiseep mechanism of claim 1, characterized in that: sliding tray (6) have been seted up to the lateral surface of fixed chassis (1), the medial surface sliding connection of sliding tray (6) has sliding block (7), track groove (11) have all been seted up at the both ends of sliding block (7), track groove (11) agree with the inboard edge of sliding tray (6), sliding block (7) and sliding tray (6) sliding connection, sliding block (7) rotate with slide bar end shaft (12) and are connected, slip horizontal pole (13) and slide bar seat (2) fixed connection admittedly.

3. A hydraulic engineering dam anti-leakage mechanism according to claim 2, characterized in that: slip horizontal pole (13) and slide bar end shaft (12) sliding connection, slide bar end shaft (12) rotate with lift hinge bar (8) and are connected, lift hinge bar (8) rotate with articulated axostylus axostyle (9) and are connected, articulated axostylus axostyle (9) and fixed roof-rack (4) fixed connection, the intermediate position of lift hinge bar (8) side rotates and is connected with electric putter (14), the terminal fixedly connected with electromagnetic drive wheel (19) of slip montant (3).

4. A hydraulic engineering dam anti-leakage mechanism according to claim 1, characterized in that: the wire wheel hub plate (5) is rotatably connected with the wire winding wheel disc (15), a cable (18) is arranged on the outer side of the wire winding wheel disc (15), the guide wheel support frame (16) is fixedly connected with the wire wheel hub plate (5), the guide wheel support frame (16) is rotatably connected with the wire guide wheel (17), and the wire guide wheel (17) is provided with a rope penetrating hole penetrating to the outer side corresponding to the inner side surface of the sliding rod fixing seat (2).

5. A hydraulic engineering dam anti-leakage mechanism according to claim 1, characterized in that: the sliding rod fixing seat (2) is fixedly connected with the fixing frame (10), and a displacement sliding rod (20) is fixedly connected to the side face of one end of the fixing frame (10).

6. A hydraulic engineering dyke anti-leakage mechanism of claim 5, characterized in that: the other end side of mount (10) rotates and is connected with threaded rod (21), the outside of threaded rod (21) is provided with coating end (22), coating end (22) and displacement slide bar (20) sliding connection, the motor is installed in the terminal transmission of threaded rod (21).

7. A hydraulic engineering dam leakage prevention mechanism according to claim 6, wherein: a scraping sheet (23) is arranged on one side surface of the coating end (22), and the inclination angle of the scraping sheet (23) is smaller than eighty degrees.

8. The hydraulic engineering dykes and dams antiseep mechanism of claim 7, characterized in that: the other end fixedly connected with blowing port (24) of coating end (22), the top fixedly connected with of blowing port (24) leads to material pipe (25), the top fixedly connected with material storage hopper (26) that leads to material pipe (25), material storage hopper (26) and mount (10) fixed connection.

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