CN214089741U - A river course floodgate for hydraulic engineering - Google Patents

Abstract

The utility model relates to a river course floodgate for hydraulic engineering, relate to hydraulic engineering's technical field, including river course floodgate body, river course floodgate body includes the water outlet, the water outlet both sides are provided with the gate mound, be provided with the gate of liftable on the gate mound, the water outlet is located the both sides wall of the end of intaking and has seted up the mounting groove, be provided with the collection frame in the mounting groove, two collect the frame surface in opposite directions and all include feed inlet and second filter, the one end that the second filter is close to the feed inlet is rotated and is connected with first filter, the one end that the second filter was kept away from to two first filters is rotated and is connected, first filter is towards the direction of keeping away from the. The application provides a river course floodgate for hydraulic engineering can be so that the rivers in upper reaches carry out rubbish filtration and collection through the river course floodgate.

Description

A river course floodgate for hydraulic engineering

Technical Field

The application relates to hydraulic engineering's field especially relates to a river course floodgate for hydraulic engineering.

Background

At present, a river channel gate is usually used for controlling water flow of up-flow and down-flow in some river channels, and when the water flow is small and the water level of the up-flow is small, the river channel gate can be closed for storing water; when the water flow is larger and the upstream water level is higher, the river sluice can be opened for water drainage.

Referring to fig. 6, the river course gate in the related art includes gate piers 12 on both sides, a water outlet channel 11 is arranged between the gate piers 12, a gate 5 capable of lifting is fixedly connected between the gate piers 12, and the river course gate is opened or closed by the lifting gate 5, so that water can be controlled to flow downstream or be intercepted.

With respect to the above-described related art, the inventors consider that the following drawbacks exist: because the garbage and the sundries are usually discarded on the river, the garbage and the sundries can influence the drainage effect and pollute the downstream river channel after the sluice is opened, and the sluice gate is not easy to filter and collect the garbage.

SUMMERY OF THE UTILITY MODEL

Can filter and collect rubbish through the river sluice in order to make the rivers of upper reaches, this application provides a river sluice for hydraulic engineering.

The application provides a river course floodgate for hydraulic engineering adopts following technical scheme:

the utility model provides a river course floodgate for hydraulic engineering, includes river course floodgate body, river course floodgate body includes out the water course, it is provided with the gate pier to go out the water course both sides, is provided with the gate of liftable on the gate pier, it has seted up the mounting groove to go out the water course to be located the both sides wall of the end of intaking, be provided with in the mounting groove and collect the frame, two collect the frame surface in opposite directions and all include feed inlet and second filter, the one end that the second filter is close to the feed inlet is rotated and is connected with first filter, two the one end that the second filter was kept away from to first filter is rotated and is connected, first filter is towards keeping away from the direction of gate and the direction slope of keeping away from adjacent feed inlet.

Through adopting above-mentioned technical scheme, the water on upper reaches can cut off or the earial drainage through the gate that goes up and down, because rotate between the first filter and connect, rotate between first filter and the second filter and connect, two first filters cover out the water course and the orientation is protruding far away from the direction of gate, make rivers can leave on first filter surface or get into through the feed inlet and collect in collecting the frame through first filter after rubbish filters through first filter, rivers in the collection frame can discharge through the second filter, thereby carry out the collection of rubbish to the rivers on upper reaches.

Optionally, the collecting frames are slidably connected in the water outlet channel, and a driving mechanism for driving the two collecting frames to move in opposite directions and separate from the mounting groove is arranged on the gate pier.

Through adopting above-mentioned technical scheme, collect the frame and can pass through actuating mechanism and follow the mounting groove in roll-off, conveniently clear up the rubbish in the collection frame.

Optionally, the bottom of the collecting frame is provided with a sliding strip, the bottom surface of the water outlet channel is provided with a first sliding groove for the sliding of the first sliding strip, and the first sliding groove is parallel to the gate.

Through adopting above-mentioned technical scheme, collect the frame and can follow the roll-off in the parallel first spout of gate, at the slip in-process, rotate between the first filter, between first filter and the second filter for first filter can be towards the feed inlet direction and two constantly closed feed inlets, makes two collection frames be difficult for falling out from the discharge gate after taking out.

Optionally, two collect frame fixed connection respectively on the surface in opposite directions first slider and the second slider, actuating mechanism include with first slider and second slider threaded connection's two-way lead screw, first slider and second slider threaded connection are respectively on the different screw thread sections of two-way lead screw, two-way lead screw is located gate pier top and both ends are swivelling joint respectively on two gate piers.

Through adopting above-mentioned technical scheme, rotate two-way lead screw for first smooth fast and second slider move towards the inlet channel middle part, thereby break away from the mounting groove, can make through the mounting groove wall collect the frame and be difficult for rotating easily.

Optionally, the vertical cross section of the first sliding groove is rectangular, and the vertical cross section of the first sliding strip is rectangular matched with the first sliding groove.

Through adopting above-mentioned technical scheme, after collecting the frame and leaving the mounting groove, make to collect the frame and leave behind the mounting groove difficult following two-way lead screw rotation with first draw runner and first spout.

Optionally, the gate pier surface is slidably connected with a mounting seat for the insertion of the bidirectional screw rod, and the gate pier surface is provided with a locking structure for fixing the position of the mounting seat.

Through adopting above-mentioned technical scheme, the mount pad is fixed through locking structure, and two-way lead screw can be at the mount pad internal rotation, and the mounting bracket can slide and make two-way lead screw break away from the mount pad to take out two-way lead screw and collection frame together and clear up.

Optionally, the mount pad include with the mounting panel of gate pier surface butt, the mounting panel bottom is provided with the second draw runner, the gate pier surface is provided with the confession the gliding second spout of second draw runner.

Through adopting above-mentioned technical scheme, the mount pad passes through the second draw runner and slides along the second spout for two-way lead screw both sides can leave the mount pad, thereby can collect frame with two-way lead screw and two and take out from the outlet channel and clear up.

Optionally, a plurality of first through holes are formed in the mounting plate, the locking structure comprises a first bolt inserted into the first through hole, and a third threaded hole in threaded connection with the first bolt is formed in the surface of the gate pier.

Through adopting above-mentioned technical scheme, first bolt is fixed the mount pad position for two-way lead screw both ends are pegged graft in the mount pad, and first bolt under the dismantlement, behind the sliding mount pad, two-way lead screw both ends leave the mount pad.

Optionally, a hand-rotating wheel for rotating the bidirectional screw is arranged in the middle of the bidirectional screw.

Through adopting above-mentioned technical scheme, conveniently rotate two-way lead screw through setting up hand spiral wheel.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the water flow can pass through the first filter plates, garbage is filtered by the first filter plates and then stays on the surfaces of the first filter plates or enters the collecting frame through the feed inlet for collection, and the water flow in the collecting frame can be discharged through the second filter plates;

2. two ends of the bidirectional screw rod are rotationally connected with the gate pier, and the first sliding block and the second sliding block are respectively in threaded connection with different thread sections of the bidirectional screw rod, so that the two collecting frames can move oppositely;

3. the bidirectional screw rod is conveniently rotated through the hand-rotating wheel.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic diagram of an embodiment of the present disclosure showing a mounting groove structure;

FIG. 3 is an enlarged schematic view at A in FIG. 2;

FIG. 4 is a schematic diagram illustrating a structure of a collection frame according to an embodiment of the present application;

FIG. 5 is a schematic view of the collection frame leaving the mounting slot according to the embodiment of the present application;

fig. 6 is a schematic structural diagram of a river sluice in the related art.

Description of reference numerals: description of reference numerals: 1. a river gate body; 11. a water outlet channel; 12. a gate pier; 13. mounting grooves; 14. a first chute; 15. a second chute; 16. a third threaded hole; 2. a collection frame; 21. a first filter plate; 22. a second filter plate; 23. a feed inlet; 24. a first slider; 241. a first threaded hole; 25. a second slider; 251. a second threaded hole; 26. a first slide bar; 3. a bidirectional lead screw; 31. a hand-operated wheel; 4. a mounting seat; 41. inserting grooves; 42. mounting a plate; 421. a first through hole; 422. a second slide bar; 5. a gate; 6. a first bolt.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a river course floodgate for hydraulic engineering. Referring to fig. 1 and 2, a river course gate for hydraulic engineering includes a river course gate body 1, the river course gate body 1 includes a water outlet channel 11 and gate piers 12 located at both sides of the water outlet channel 11, a gate 5 for closing the water outlet channel 11 is installed on the water outlet channel 11, and the closure and drainage of the river course gate can be realized by the lifting of the gate 5.

Referring to fig. 1 and 2, the water outlet channel 11 is provided with two opposite rectangular installation grooves 13 on two side walls of the water inlet end, the installation grooves 13 are connected with the collection frame 2 in a sliding manner, the second sliding grooves 15 are provided at positions which are located on the top surfaces of the two gate piers 12 and above the installation grooves 13, and the two second sliding grooves 15 are located on the same straight line and are perpendicular to the water outlet channel 11.

Referring to fig. 2 and 3, the second sliding groove 15 has a mounting seat 4, the mounting seat 4 includes a mounting plate 42, a second sliding strip 422 for sliding in the second sliding groove 15 is disposed on the mounting plate 42, and coaxial circular insertion grooves 41 are disposed on opposite surfaces of the two mounting seats 4. Four first through-holes 421 have been seted up to the position that mounting panel 42 surface is close to the border, wear to be equipped with first bolt 6 in the first through-hole 421, and pier 12 lies in second spout 15 both sides and respectively offers two third screw holes 16 that are used for with first bolt 6 threaded connection for first bolt 6 can fix mount pad 4 on pier 12 is surperficial, and when first bolt 6 was down screwed, mount pad 4 can slide along second spout 15.

Referring to fig. 4 and 5, the collection frame 2 is towards keeping away from the mounting groove 13 surface and outwards taking out the hollow structure of shell, the surface covering that the collection frame 2 kept away from the mounting groove 13 has first filter 21 and second filter 22 that rotate and link together, second filter 22 passes through bolt and collection frame 2 fixed connection, when first filter 21 turns away, collect frame 2 and keep away from mounting groove 13 and form feed inlet 23 on the surface, two first filters 21 that collect frame 2 rotate to connect, two first filters 21, connect through conventional rotatory bolt structure between first filter 21 and the second filter 22, the no longer repeated description here. When the filter is mounted, the second filter plate 22 and the collection frame 2 may be fixed to each other by bolts after the two first filter plates 21 and the second filter plate 22 are connected to each other. When the two collection frames 2 are positioned inside the mounting groove 13, the two first filter plates 21 are inclined toward a direction away from the gate 5 and toward the middle of the water discharge passage 11. When water flow carries garbage to pass through the first filter plate 21, the garbage can enter the collecting frame 2 through the feeding hole 23 under the action of the water flow, the first filter plate 21 can also play a role in guiding the flow, and the water flow is discharged through the gate 5 after passing through the first filter plate 21 and the second filter plate 22.

Referring to fig. 4 and 5, the upper ends of the two second filter plates 22 are fixedly connected with a first slider 24 and a second slider 25 respectively, a first threaded hole 241 is formed in a portion of the first slider 24 above the surface of the gate pier 12, and a second threaded hole 251 is formed in a portion of the second slider 25 above the surface of the gate pier 12. The rotating directions of the first threaded hole 241 and the second threaded hole 251 are opposite, a horizontal bidirectional screw rod 3 is in threaded connection between the first sliding block 24 and the second sliding block 25, and the first sliding block 24 and the second sliding block 25 are in threaded connection with different threaded ends of the bidirectional screw rod 3 respectively. Two-way lead screw 3 both ends are pegged graft respectively in inserting groove 41 for two-way lead screw 3 can rotate, and two-way lead screw 3 middle part fixedly connected with hand revolves wheel 31 conveniently rotates two-way lead screw 3. When the hand wheel 31 is rotated to enable the collecting frame 2 to move oppositely, the first filter plate 21 gradually closes the feed port 23, and in the process of taking out the collecting frame 2, garbage in the collecting frame 2 is not easy to drop.

Referring to fig. 2 and 4, the bottom of the collecting frame 2 is fixedly connected with a first sliding bar 26, the two mounting grooves 13 and the water outlet channel 11 are provided with a first sliding groove 14 for the first sliding bar 26 to slide, and the collecting frame 2 can slide along the first sliding groove 14. The first slide bar 26 and the first sliding chute 14 are rectangular in vertical section, and can limit the collection frame 2 to rotate along with the bidirectional screw rod 3 when the collection frame 2 slides.

The embodiment of the application provides a river course floodgate's implementation principle for hydraulic engineering does: when the gate 5 is opened to drain water, the water flow passes through the first filter plate 21, the garbage is left on the first filter plate 21 and is brought into the feed inlet 23 through the water flow, the garbage is collected through the collection frame 2, and the water flow entering the collection frame 2 can be discharged through the second filter plate 22; when collecting frame 2 is cleared up to needs, rotate hand wheel 31 for two collect frame 2 along first spout 14 motion in opposite directions, first filter 21 covers feed inlet 23 gradually, makes after two collect frame 2 all leave mounting groove 13, unscrews first bolt 6, makes two mount pads 4 can move along second spout 15 back of the body mutually, leaves behind inserting groove 41 when two-way lead screw 3 both ends, can take out two collect frame 2 and two-way lead screw 3 together and clear up.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a river course floodgate for hydraulic engineering, includes river course floodgate body (1), river course floodgate body (1) is including water outlet channel (11), water outlet channel (11) both sides are provided with gate pier (12), are provided with gate (5) of liftable on gate pier (12), its characterized in that: it has seted up mounting groove (13) to go out water course (11) and is located the both sides wall of intaking the end, be provided with in mounting groove (13) and collect frame (2), two collect frame (2) surface in opposite directions all including feed inlet (23) and second filter (22), the one end that second filter (22) are close to feed inlet (23) is rotated and is connected with first filter (21), two the one end that second filter (22) were kept away from in first filter (21) is rotated and is connected, first filter (21) are towards keeping away from the direction of gate (5) and the direction slope of keeping away from adjacent feed inlet (23).

2. River sluice for hydraulic engineering according to claim 1, characterised in that: collect frame (2) sliding connection in outlet channel (11), be provided with the actuating mechanism who drives two collection frames (2) and move in opposite directions and break away from mounting groove (13) on gate pier (12).

3. River sluice for hydraulic engineering, according to claim 2, characterized in that: the bottom of the collecting frame (2) is provided with a first sliding strip (26), the bottom surface of the water outlet channel (11) is provided with a first sliding groove (14) for the first sliding strip (26) to slide, and the first sliding groove (14) is parallel to the gate (5).

4. A watercourse gate for hydraulic engineering according to claim 3, characterised in that: two collect frame (2) surface respectively fixedly connected with first slider (24) and second slider (25) in opposite directions, actuating mechanism include with first slider (24) and second slider (25) threaded connection's two-way lead screw (3), first slider (24) and second slider (25) threaded connection respectively are on the different screw thread sections of two-way lead screw (3), two-way lead screw (3) are located gate pier (12) top and both ends are swivelling joint respectively on two gate piers (12).

5. River sluice for hydraulic engineering according to claim 4, characterised in that: the vertical section of the first sliding groove (14) is rectangular, and the vertical section of the first sliding strip (26) is rectangular matched with the first sliding groove (14).

6. River sluice for hydraulic engineering according to claim 4, characterised in that: the surface of the gate pier (12) is slidably connected with a mounting seat (4) for the insertion of the bidirectional screw rod (3), and the surface of the gate pier (12) is provided with a locking structure for fixing the position of the mounting seat (4).

7. River sluice for hydraulic engineering according to claim 6, characterised in that: mounting seat (4) include with mounting panel (42) of gate pier (12) surface butt, mounting panel (42) bottom is provided with second draw runner (422), gate pier (12) surface is provided with the confession gliding second spout (15) of second draw runner (422).

8. River sluice for hydraulic engineering according to claim 7, characterised in that: the mounting plate (42) is provided with a plurality of first through holes (421), the locking structure comprises first bolts (6) inserted into the first through holes (421), and third threaded holes (16) in threaded connection with the first bolts (6) are formed in the surface of the gate pier (12).

9. River sluice for hydraulic engineering according to claim 5, characterised in that: and a hand-rotating wheel (31) used for rotating the bidirectional screw rod (3) is arranged in the middle of the bidirectional screw rod (3).

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