CN114718023A

CN114718023A - Layered water taking gate

Info

Publication number: CN114718023A
Application number: CN202210325130.7A
Authority: CN
Inventors: 张阳; 王鹏; 毛广红; 张丽媛
Original assignee: Yancheng Water Conservancy Survey Design And Research Institute Co ltd
Current assignee: Yancheng Water Conservancy Survey Design And Research Institute Co ltd
Priority date: 2022-03-30
Filing date: 2022-03-30
Publication date: 2022-07-08
Anticipated expiration: 2042-03-30
Also published as: CN114718023B

Abstract

The utility model relates to a layering water intaking gate relates to layering water intaking technical field. It includes the gate, the gate is used for plugging up the delivery port of reservoir, the gate includes a plurality of shroudings and the layering water intaking device of arranging in proper order along the direction of height of delivery port, adjacent shrouding is sealed or keep away from each other by the mutual butt of layering water intaking device drive, one side that ground was kept away from to the shrouding is provided with the baffle, the layering water intaking device includes moving mechanism, fixed frame, a rotating gear, water intaking driving piece and rotation rack, rotating gear rotates with the wall and is connected, one side that reservoir 1 was kept away from to the baffle is provided with driven rack, driven rack meshes with the rotating gear, fixed frame and wall fixed connection, moving mechanism and fixed frame sliding connection, the water intaking driving piece links to each other with moving mechanism, the lateral wall of water intaking driving piece output is located to the rotation rack, the water intaking driving piece is used for driving rotation rack reciprocating motion from top to bottom, the rotation rack meshes with rotating gear mutually. Compare in correlation technique, this application has the effect of layering water intaking.

Description

Layered water taking gate

Technical Field

The utility model relates to a field of layering water intaking especially relates to a gate is fetched in layering.

Background

The layered water taking is a water taking mode that a plurality of water inlets are correspondingly arranged at different water depths of a fixed water taking structure, and surface water with different water depths and better water quality can be respectively taken. It can be divided into vertical shaft type, inclined culvert horizontal pipe type and wall type or water-proof door type layered water taking buildings.

With the rapid development of water conservancy and hydropower utilities, various domestic reservoirs open gates to take water, so that the aims of water supply, irrigation, power generation, flood control and the like can be fulfilled, and huge benefits are brought into play for promoting regional economy and improving the life of people.

The related art described above has the following drawbacks: when water is taken, deep water is taken out, the water quality of the deep water is deteriorated, the sediment accumulation is high, and the influence on the water quality of water supply is large; the temperature of deep water has adverse effects on ecological living environment problems such as downstream irrigation, ecological water supplement and the like, so the improvement is needed.

Disclosure of Invention

In order to improve the problem that can take over in the lump with deep water when getting water, this application provides a layering gate of getting water.

The application provides a gate of fetching water in layering adopts following technical scheme:

the utility model provides a layering water intaking gate, includes the gate, gate (2) are used for plugging up the delivery port of reservoir, the gate includes a plurality of shroudings of arranging in proper order along the direction of height of delivery port, be provided with the layering water intaking device with the shrouding one-to-one on the gate, adjacent the shrouding by the mutual butt of layering water intaking device drive is sealed or is kept away from each other.

Through adopting above-mentioned technical scheme, when need take out the water of co-altitude, utilize layering water intake device for shrouding and adjacent shrouding alternate segregation that correspond the height flows out in the space between the shrouding, accomplishes taking out, the simple operation to the water of appointed height.

Optionally, one side of the sealing plate, which is far away from the ground, is provided with a baffle, the side wall of the baffle is abutted against the wall surface, the baffle is bent towards the direction far away from the reservoir, and the bottom of the sealing plate is abutted against one side, which is close to the reservoir, of the adjacent baffle.

Through adopting above-mentioned technical scheme, when water reachd on the shrouding, water flows down on the baffle along the shrouding, and the baffle plays the guide effect for water trickles downwards, thereby makes water be difficult for oozing from the gap between the adjacent shrouding, has increased the seal of gate.

It is optional, layering water intaking device includes moving mechanism, fixed frame, rolling gear, water intaking driving piece and rotation rack, the rolling gear rotates and connects on the wall, one side that the reservoir was kept away from to the baffle is provided with driven rack, driven rack meshes with the rolling gear mutually, fixed frame and wall fixed connection, moving mechanism and fixed frame sliding connection, the water intaking driving piece links to each other with moving mechanism, the lateral wall of water intaking driving piece output is located to the rotation rack, the water intaking driving piece is used for driving the up-and-down motion of rotation rack, it meshes with the rolling gear mutually to rotate the rack.

Through adopting above-mentioned technical scheme, when the water of a take-up height needs to be got, start moving mechanism, make the water intaking driving piece reach the height that corresponds, to rotate rack and running gear mesh mutually, start the water intaking driving piece, make the running gear move to the direction that is close to ground along length direction, drive the running gear and rotate, thereby drive driven rack and remove along running gear's circumferencial direction, make the baffle move to the direction of keeping away from ground, thereby make the baffle separation of shrouding bottom and below, produce the space between the adjacent shrouding, water flows from the shrouding department that corresponds the height, realize taking out to appointed high water.

Optionally, the water taking driving part is rotatably connected with the moving mechanism through a rotating mechanism, the output end of the water taking driving part is connected with the installation block, the water taking driving part is used for driving the installation block to reciprocate up and down, and the rotating rack is fixedly connected with the side wall of the installation block.

Through adopting above-mentioned technical scheme, when needs extract the water of co-altitude not, start slewing mechanism, make the water intaking driving piece rotate to the direction of keeping away from the wall, make rotation rack and running gear separation, there is the distance of an installation piece size this moment between the output shaft of water intaking driving piece and the running gear, start moving mechanism, change the height of water intaking driving piece, make the removal in-process of water intaking driving piece, the rotation rack can not drive running gear and rotate and cause the interference, be convenient for change the height of water intaking driving piece.

Optionally, moving mechanism is including removing driving piece, installation pole, mount pad and installation shell, the one end of installation shell is located to the removal driving piece, installation pole and mount pad are located in the installation shell, the output of removing the driving piece links to each other with the one end of installation pole, it is used for the drive installation pole to rotate to remove the driving piece, the mount pad is worn to establish by the installation pole, and with mount pad threaded connection, installation shell and fixed frame sliding connection, the installation shell lateral wall is provided with and supplies fixed frame to insert the slip hole of establishing, mount pad and installation shell inner wall fixed connection, one side fixed connection of wall is kept away from to the fixed frame of lateral wall of mount pad.

Through adopting above-mentioned technical scheme, when the height of water intaking driving piece needs to be changed, the drive removes the driving piece for the installation pole takes place to rotate, thereby makes the installation pole remove in the mount pad, and fixed frame removes in the installation shell, and the installation shell makes moving mechanism can not break away from with fixed frame mutually, thereby changes the position of water intaking driving piece in vertical side, makes the water intaking driving piece aim at the height that needs the water intaking, accomplishes the extraction to appointed high water.

Optionally, slewing mechanism is including rotating driving piece, carousel and fixed plate, fixed plate and installation shell lateral wall fixed connection, rotate driving piece and fixed plate fixed connection, the output that rotates the driving piece links to each other with the carousel, it is used for the drive carousel to rotate the driving piece, water intaking driving piece and carousel fixed connection.

Through adopting above-mentioned technical scheme, when the not water of co-altitude of needs extraction, start and rotate the driving piece for the carousel rotates, thereby makes the water intaking driving piece take place to rotate, makes rotation rack and rotating gear phase separation, and the change of rack position is rotated in the regulation of the water intaking driving piece height of being convenient for, realization. After the rotating rack reaches the corresponding height, the rotating driving part is started, so that the water taking driving part rotates towards the direction close to the rotating gear until the rotating rack is meshed with the rotating gear, and then the water taking driving part is started, and the water with the corresponding height can be extracted.

Optionally, one side of the sealing plate, which is far away from the rotating gear, is provided with a brake-pulling device, and the brake-pulling device is used for driving the gate to be opened and closed.

Through adopting above-mentioned technical scheme, when needs drainage or extraction whole water, utilize the device of acting as a brake for adjacent shrouding is equal looks alternate segregation, and the not shrouding of co-altitude of gate is all opened, discharges when realizing the not co-altitude water.

Optionally, the switching-off device includes driven gear, switching-off driving piece and switching-off rack, driven gear rotates with the wall and is connected, driven rack meshes with driven gear mutually, the output of switching-off driving piece links to each other with the switching-off rack, the switching-off driving piece is used for driving reciprocating motion from top to bottom of switching-off rack, the switching-off rack meshes with driven gear mutually, switching-off rack connection has adjustment mechanism, adjustment mechanism is used for driving the switching-off rack and rotates.

Through adopting above-mentioned technical scheme, when needs extraction whole water, start the switching-off driving piece for the switching-off rack removes to the direction that is close to ground, thereby drives driven gear and rotates, makes all shroudings and adjacent baffle phase separation, thereby makes to have the space between all shroudings, does not play the shutoff effect, discharges when realizing not co-altitude water.

Optionally, adjustment mechanism is including adjusting the driving piece, adjust the lateral wall and the wall fixed connection of driving piece, the output of adjusting the driving piece links to each other with the break-out driving piece, it is used for driving the break-out driving piece and rotates to adjust the driving piece, the wall is provided with and supplies the break-out driving piece pivoted groove of stepping down.

Through adopting above-mentioned technical scheme, when the water of appointed height is taken out to needs, start the regulation driving piece for the switching-off driving piece rotates in the groove of stepping down, and the groove of stepping down makes the wall be difficult for causing the interference to the rotation of switching-off driving piece, thereby makes switching-off rack and driven gear separation, when the water intaking driving piece makes the baffle remove, driven rack drives driven gear and rotates, and the switching-off rack can not cause the interference, the removal of the appointed high shrouding of being convenient for.

Optionally, one side of the baffle close to the reservoir is provided with a sealing strip, and one side of the sealing strip far away from the baffle is abutted against the bottom of the adjacent baffle.

Through adopting above-mentioned technical scheme, the sealing strip is the rubber material, has increased the compactness of shrouding with the butt of baffle lateral wall, has increased the leakproofness of gate for water is difficult for following the butt of baffle and shrouding and flows.

In summary, the present application includes at least one of the following benefits:

1. when water reaches the sealing plates, the water flows downwards onto the baffle plates along the sealing plates, and the baffle plates play a role in guiding so that the water flows downwards, so that the water is not easy to seep out from gaps between the adjacent sealing plates, and the tightness of the gate is improved;

2. when the water of take a take the uniform height, start moving mechanism, make the water intaking driving piece reach the height that corresponds, to rotate rack and running gear mesh mutually, start the water intaking driving piece, make the running gear remove to the direction that is close to ground along length direction, drive the running gear and rotate, thereby drive driven rack and remove along running gear's circumferencial direction, make the baffle remove to the direction of keeping away from ground, thereby make the baffle separation of shrouding bottom and below, produce the space between the adjacent shrouding, water flows from the shrouding department that corresponds the height, the realization is to taking out of appointed high water.

Drawings

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

fig. 2 is a schematic structural diagram for showing a connection relationship between a layered water intake device and a sealing plate in the embodiment of the present application;

FIG. 3 is a schematic structural diagram for showing a connection relationship between a layered water intake device and a baffle in an embodiment of the present application;

FIG. 4 is a schematic structural diagram for showing a connection relationship between a moving mechanism and a wall surface in an embodiment of the present application;

fig. 5 is a schematic structural diagram for showing a connection relationship between a switching device and a wall surface in the embodiment of the present application.

In the figure: 1. a reservoir; 2. a gate; 21. closing the plate; 3. a baffle plate; 31. a driven rack; 4. a layered water intake device; 41. a moving mechanism; 411. moving the driving member; 412. mounting a rod; 413. a mounting seat; 414. mounting a shell; 4140. a slide hole; 42. a fixing frame; 43. a rotating gear; 44. a water intake driving member; 45. rotating the rack; 5. a rotating mechanism; 51. rotating the driving member; 52. a turntable; 53. a fixing plate; 6. mounting a block; 7. a switching device; 71. a driven gear; 72. a brake-pulling driving member; 73. a brake pulling rack; 8. an adjustment mechanism; 81. adjusting the driving member; 9. a sealing strip; 10. a yielding groove; 11. the teeth are engaged.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses a layered water taking gate. Referring to fig. 1 and 2, layering water intaking gate includes gate 2 and the layering water intake device 4 who is used for driving gate 2, gate 2 is used for plugging up the delivery port of reservoir 1, gate 2 includes a plurality of shroudings 21, a plurality of shroudings 21 are vertical to be set up and are parallel to each other, the lateral wall looks butt of adjacent shrouding 21, every shrouding 21 of layering water intake device 4 drive is independently opened or the butt is sealed each other, layering water intake device 4 includes rotating gear 43, rotating gear 43 rotates to be connected on the wall, when layering water intake device 4 drive shrouding 21 removes, can be through setting up meshing tooth 11 and the meshing drive of rotating gear 43 on shrouding 21.

Referring to fig. 1 and 3, one side integrated into one piece that ground was kept away from to shrouding 21 has baffle 3, baffle 3 sets up along shrouding 21's length direction, baffle 3 and shrouding 21's both ends lateral wall all with wall looks butt, baffle 3 is buckled to the direction of keeping away from reservoir 1, one side integrated into one piece that reservoir 1 was kept away from to baffle 3 has driven rack 31, when layering water intaking device 4 drive shrouding 21 removes, also can mesh driven rack 31 and rotating gear 43 mutually, one side adhesive bonding that baffle 3 is close to reservoir 1 has sealing strip 9, one side that baffle 3 was kept away from to sealing strip 9 and the bottom looks butt of adjacent baffle 3. When water reachd on the shrouding 21, on water flowed down baffle 3 along shrouding 21, sealing strip 9 was the rubber material, had increased the compactness of shrouding 21 with 3 lateral walls butts of baffle, and baffle 3 is circular-arcly, plays the guide effect for water trickles downwards, thereby makes the difficult gap department of following between the adjacent shrouding 21 of water ooze, has increased gate 2's seal.

Referring to fig. 1 and 3, when the stratified water intake device 4 is engaged with the driven rack 31 through the rotating gear 43 to drive the sealing plate 21 to move, the stratified water intake device 4 further includes a moving mechanism 41, a fixing frame 42, a water intake driving member 44 and a rotating rack 45, the fixing frame 42 is fixed to the wall surface by casting, the moving mechanism 41 is connected to the fixing frame 42 in a sliding manner, the water intake driving member 44 is connected to the moving mechanism 41 by rotating the rotating mechanism 5, in the embodiment of the present application, the water intake driving member 44 adopts a cylinder, the mounting block 6 is fixed to the end of the output shaft of the water intake driving member 44 by welding, the water intake driving member 44 is used for driving the mounting block 6 to reciprocate up and down, the rotating rack 45 and the mounting block 6 are integrally formed on the side away from the output shaft of the water intake driving member 44, and the rotating rack 45 is engaged with the rotating gear 43. When water with a certain height needs to be taken, the moving mechanism 41 is utilized, the water taking driving part 44 reaches the corresponding height, the rotating mechanism 5 is utilized, the rotating rack 45 is aligned to the rotating gear 43, the rotating rack 45 is meshed with the rotating gear 43, the water taking driving part 44 is started, the rotating rack 45 moves towards the direction close to the ground along the length direction, the rotating gear 43 is driven to rotate, the driven rack 31 is driven to move along the circumferential direction of the rotating gear 43, the baffle 3 moves towards the direction far away from the ground, the bottom of the sealing plate 21 is separated from the baffle 3 below, a gap is formed between every two adjacent sealing plates 21, the water flows out from the sealing plate 21 with the corresponding height, and the water with the specified height is taken out.

Referring to fig. 3 and 4, the moving mechanism 41 includes a moving driving element 411, an installation rod 412, an installation seat 413 and an installation shell 414, the moving driving element 411 is fixedly installed at one end of the installation shell 414 far away from the ground through a bolt, in the embodiment of the present application, the moving driving element 411 employs a motor, the installation rod 412 and the installation seat 413 are located in the installation shell 414, an output end of the moving driving element 411 is connected with one end of the installation rod 412, the moving driving element 411 is used for driving the installation rod 412 to rotate, the installation rod 412 penetrates through the installation seat 413 and is in threaded connection with the installation seat 413, the installation shell 414 is in sliding connection with a fixed frame 42, a sliding hole 4140 is formed in a side wall of the installation shell 414, the fixed frame 42 penetrates through the sliding hole 4140 and slides in the sliding hole 4140, the installation seat 413 is welded and fixed to an inner wall of the installation shell 414 and is also welded and fixed to one side of the fixed frame 42 far away from the wall. When the height of the water getting driving member 44 needs to be changed, the movable driving member 411 is driven, so that the installation rod 412 rotates, the installation seat 413 moves along the length direction of the installation rod 412, the fixing frame 42 moves in the installation shell 414, the installation shell 414 enables the moving mechanism 41 not to be separated from the fixing frame 42, the position of the water getting driving member 44 in the vertical direction is changed, the water getting driving member 44 is aligned to the height of water needing to be taken, and the water with the specified height is extracted.

Referring to fig. 3 and 4, the rotating mechanism 5 includes a rotating driving member 51, a rotating disc 52 and a fixing plate 53, the fixing plate 53 is welded to the side wall of the mounting shell 414, the rotating driving member 51 is fixedly connected to the fixing plate 53 through a bolt, in the embodiment of the present application, the rotating driving member 51 is a motor, an output end of the rotating driving member 51 is connected to the rotating disc 52, the rotating driving member 51 is used for driving the rotating disc 52 to rotate, and the water taking driving member 44 is fixedly connected to the rotating disc 52. When the water of co-altitude not needing to be extracted, start rotation driving piece 51 for carousel 52 rotates, thereby makes water intaking driving piece 44 take place to rotate, makes rotation rack 45 and rotating gear 43 phase separation, and the regulation of the water intaking driving piece 44 height of being convenient for realizes the change of rotation rack 45 position. After the rotating rack 45 reaches the corresponding height, the rotating driving member 51 is started again, so that the water taking driving member 44 rotates towards the direction close to the rotating gear 43 until the rotating rack 45 abuts against and is meshed with the rotating gear 43, and then the water taking driving member 44 is started, so that the water with the corresponding height can be extracted.

Referring to fig. 3 and 5, the closing plate 21 is provided with a brake-pulling device 7 on the side away from the rotating gear 43, and the brake-pulling device 7 is used for driving the opening and closing of the shutter 2. The switching-off device 7 comprises a driven gear 71, a switching-off driving member 72 and a switching-off rack 73, wherein the driven gear 71 is rotatably connected with the wall surface, the driven rack 31 is meshed with the driven gear 71, and in the embodiment of the application, the brake-pulling driving member 72 adopts an air cylinder, an output shaft of the brake-pulling driving member 72 is welded and fixed with one end of the brake-pulling rack 73 far away from the ground, the brake-pulling driving member 72 is used for driving the brake-pulling rack 73 to reciprocate up and down, the brake-pulling rack 73 is meshed with the driven gear 71, the brake-pulling rack 73 is connected with the adjusting mechanism 8, the adjusting mechanism 8 comprises an adjusting driving member 81, adjust driving piece 81 and adopt the motor, adjust driving piece 81's lateral wall and pass through bolt fixed connection, adjust driving piece 81's output and the one end fixed phase that the ground was kept away from to the break-out driving piece 72 and link to each other, adjust driving piece 81 and be used for driving the break-out driving piece 72 and rotate, the wall body surface has been seted up and has been stepped down groove 10.

When all water needs to be extracted, the rotation driving part 51 is started, the rotation rack 45 is separated from the rotation gear 43, interference on rotation of the rotation gear 43 cannot be caused, the brake pulling driving part 72 is started, the brake pulling rack 73 is moved towards the direction close to the ground, the driven gear 71 is driven to rotate, all the sealing plates 21 are separated from the adjacent baffle plates 3, gaps exist among all the sealing plates 21, the gate 2 does not play a role in blocking, and water with different heights is discharged simultaneously. When water with the designated height needs to be taken out, the adjusting driving piece 81 is started, the switching-off driving piece 72 rotates in the abdicating groove 10, the switching-off rack 73 is separated from the driven gear 71, when the water taking driving piece 44 enables the baffle 3 to move, the driven gear 71 is driven by the driven rack 31 to rotate, the switching-off rack 73 cannot cause interference, and the sealing plate 21 with the designated height can be conveniently moved.

The implementation principle of the layered water taking gate in the embodiment of the application is as follows: when water with a certain height needs to be taken, the movable driving piece 411 is driven to enable the mounting rod 412 to rotate, so that the mounting seat 413 moves along the length direction of the mounting rod 412, the fixed frame 42 moves in the mounting shell 414, so that the height of the mounting shell 414 changes, the position of the water taking driving piece 44 in the vertical direction is changed, the water taking driving piece 44 is enabled to be aligned with the height of water to be taken, the rotary driving piece 51 is started to turn over the rotary rack 45 towards the direction close to the rotary gear 43 until the rotary rack 45 is abutted and meshed with the rotary gear 43, the water taking driving piece 44 is started to enable the rotary rack 45 to move towards the direction close to the ground along the length direction, the rotary gear 43 is driven to rotate, so that the driven rack 31 is driven to move along the circumferential direction of the rotary gear 43, the baffle 3 moves towards the direction far away from the ground, and the bottom of the sealing plate 21 is separated from the baffle 3 below, a gap is formed between the adjacent sealing plates 21, and water flows out from the sealing plates 21 with the corresponding heights, so that the water with the specified height is taken out.

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

1. The utility model provides a gate of fetching water in layering, includes gate (2), gate (2) are used for plugging up the delivery port of reservoir (1), its characterized in that: gate (2) are including a plurality of shrouding (21) of arranging in proper order along the direction of height of delivery port, be provided with on gate (2) with shrouding (21) one-to-one's layering water intaking device (4), adjacent shrouding (21) by the mutual butt of layering water intaking device (4) drive is sealed or is kept away from each other.

2. The layered water intake gate according to claim 1, wherein: one side that ground was kept away from in shrouding (21) is provided with baffle (3), baffle (3) lateral wall and wall looks butt, baffle (3) are buckled to the direction of keeping away from reservoir (1), one side looks butt that the bottom and adjacent baffle (3) of shrouding (21) are close to reservoir (1).

3. The layered water intake gate according to claim 2, wherein: layering water intaking device (4) are including moving mechanism (41), fixed frame (42), rotating gear (43), water intaking driving piece (44) and rotation rack (45), rotating gear (43) rotates the connection on the wall, one side that reservoir (1) was kept away from in baffle (3) is provided with driven rack (31), driven rack (31) meshes with rotating gear (43) mutually, fixed frame (42) and wall fixed connection, moving mechanism (41) and fixed frame (42) sliding connection, water intaking driving piece (44) link to each other with moving mechanism (41), the lateral wall of water intaking driving piece (44) output is located to rotation rack (45), water intaking driving piece (44) are used for driving to rotate rack (45) up-and-down reciprocating motion, it meshes with rotating gear (43) to rotate rack (45).

4. The layered water intake gate according to claim 3, wherein: water intaking driving piece (44) rotate with moving mechanism (41) through slewing mechanism (5) and are connected, the output of water intaking driving piece (44) is connected with installation piece (6), water intaking driving piece (44) are used for driving installation piece (6) up-and-down reciprocating motion, rotate rack (45) and installation piece (6) lateral wall fixed connection.

5. The layered water intake gate according to claim 4, wherein: the moving mechanism (41) comprises a moving driving piece (411), a mounting rod (412), a mounting seat (413) and a mounting shell (414), the movable driving piece (411) is arranged at one end of the mounting shell (414), the mounting rod (412) and the mounting seat (413) are arranged in the mounting shell (414), the output end of the movable driving piece (411) is connected with one end of the mounting rod (412), the movable driving piece (411) is used for driving the mounting rod (412) to rotate, the mounting rod (412) penetrates through the mounting seat (413), and is in threaded connection with the mounting seat (413), the mounting shell (414) is in sliding connection with the fixed frame (42), the side wall of the mounting shell (414) is provided with a sliding hole (4140) for inserting the fixing frame (42), mount pad (413) and installation shell (414) inner wall fixed connection, the fixed frame of lateral wall (42) of mount pad (413) keeps away from one side fixed connection of wall.

6. The layered water intake gate according to claim 5, wherein: slewing mechanism (5) are including rotating driving piece (51), carousel (52) and fixed plate (53), fixed plate (53) and installation shell (414) lateral wall fixed connection, rotate driving piece (51) and fixed plate (53) fixed connection, the output that rotates driving piece (51) links to each other with carousel (52), it is used for driving carousel (52) to rotate driving piece (51), water intaking driving piece (44) and carousel (52) fixed connection.

7. The layered water intake gate according to claim 1, wherein: one side of the closing plate (21) far away from the rotating gear (43) is provided with a brake-pulling device (7), and the brake-pulling device (7) is used for driving the gate (2) to be opened and closed.

8. The layered water intake gate according to claim 7, wherein: switching-off device (7) include driven gear (71), switching-off driving piece (72) and switching-off rack (73), driven gear (71) rotate with the wall and are connected, driven rack (31) mesh mutually with driven gear (71), the output of switching-off driving piece (72) links to each other with switching-off rack (73), switching-off driving piece (72) are used for driving switching-off rack (73) reciprocating motion from top to bottom, switching-off rack (73) mesh mutually with driven gear (71), switching-off rack (73) are connected with adjustment mechanism (8), adjustment mechanism (8) are used for driving switching-off rack (73) and rotate.

9. The layered water intake gate according to claim 8, wherein: adjustment mechanism (8) are including adjusting driving piece (81), the lateral wall and the wall fixed connection of adjusting driving piece (81), the output of adjusting driving piece (81) links to each other with switching-off driving piece (72), it is used for driving switching-off driving piece (72) to rotate to adjust driving piece (81), the wall is provided with and supplies switching-off driving piece (72) pivoted groove of stepping down (10).

10. The layered water intake gate according to claim 2, wherein: one side of the baffle (3) close to the reservoir (1) is provided with a sealing strip (9), and one side of the sealing strip (9) far away from the baffle (3) is abutted against the bottom of the adjacent baffle (3).