CN219011123U - Automatic gate structure for irrigation - Google Patents

Abstract

The utility model discloses an automatic gate structure for irrigation, which comprises a supporting frame and a driving mechanism, wherein the supporting frame comprises a base, a support frame and a driving mechanism, wherein the base is provided with a base, the base is provided with a plurality of support grooves, the support grooves are respectively arranged on the base, and the support grooves are respectively arranged on the base and the base: the inner wall symmetry is equipped with the spout about it, sliding connection has the baffle of vertical array between the inside of two spouts, the side middle part all is equipped with the receipts and closes the groove about the baffle, the inside of receipts closes the groove all transversely sliding connection has the fixture block, all be equipped with the spring between fixture block and the adjacent receipts groove inner wall, braced frame's upper surface both ends all are equipped with the adjustment tank about, the adjustment tank is linked together with the spout, the equal sliding connection in inside of adjustment tank has the arm-tie, the lower extreme of arm-tie all is equipped with the joint board with fixture block cooperation installation, actuating mechanism: the automatic gate structure for irrigation is arranged at the upper end of the supporting frame, the driving mechanism is fixedly connected with the pulling plate through the connecting mechanism, the automatic gate structure for irrigation can be opened at different water levels to discharge water, the water discharge amount is accurately regulated and controlled, and the irrigation effect is improved.

Description

Automatic gate structure for irrigation

Technical Field

The utility model relates to the technical field of hydraulic engineering, in particular to an automatic gate structure for irrigation.

Background

Irrigation is also called irrigation and water conservancy, and is a hydraulic engineering measure for increasing agricultural yield, namely, various hydraulic engineering measures are constructed and applied to regulate and improve water conditions of farmlands and regional water conservancy conditions, improve the capability of resisting natural disasters, promote virtuous circle of ecological environment and facilitate production of crops.

In the irrigation implementation process, water flow needs to be blocked through a gate, when the farmland needs water flow irrigation, water is discharged through opening the gate, the farmland is irrigated, and the phenomenon that the farmland lacks water seriously is avoided.

But when many gates are opened to drain water, the baffles are lifted upwards, the water is drained from the lower ends of the baffles, the drainage positions are fixed, the irrigation water quantity cannot be accurately regulated and controlled, and the irrigation effect is reduced.

Disclosure of Invention

The utility model aims to overcome the existing defects, provides an automatic gate structure for irrigation, can open and discharge water at different water levels, accurately regulate and control the discharge water amount, and can effectively solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an automatic gate structure for irrigation comprises a supporting frame and a driving mechanism;

and (3) a supporting frame: the left and right inner walls of the support frame are symmetrically provided with sliding grooves, a baffle plate of a vertical array is connected between the interiors of the two sliding grooves in a sliding manner, the middle parts of the left and right side surfaces of the baffle plate are respectively provided with a folding groove, the interiors of the folding grooves are respectively and transversely connected with a clamping block in a sliding manner, springs are respectively arranged between the clamping blocks and the inner walls of the adjacent folding grooves, the left and right ends of the upper surface of the support frame are respectively provided with an adjusting groove, the adjusting grooves are communicated with the sliding grooves, the interiors of the adjusting grooves are respectively and slidably connected with a pull plate, and the lower ends of the pull plates are respectively provided with clamping plates matched with the clamping blocks;

a driving mechanism: the water level control device is arranged at the upper end of the supporting frame, the driving mechanism is fixedly connected with the pulling plate through the connecting mechanism, the water level control device can open the gate and discharge water at different water levels, the water discharge amount is accurately regulated and controlled, the utilization efficiency of water resources is improved, and the irrigation effect is improved.

Further, the middle part of the right side surface of the supporting frame is provided with a singlechip, and the input end of the singlechip is electrically connected with an external power supply to control the starting and stopping of the whole device.

Further, the baffle includes slot, breakwater and sealed ceramic piece, the breakwater sliding connection respectively is between the inside of two spouts, and vertical array's breakwater left and right sides all is equipped with the receipts and closes the groove, and the upper surface of breakwater all is equipped with the slot, and the lower surface of breakwater all is equipped with the sealed ceramic piece of installing with the slot cooperation, blocks rivers.

Further, actuating mechanism includes rack board and driving gear, driving gear rotates through the pivot respectively and connects in the change inslot at both ends about braced frame upper surface, and vertical sliding connection is in the inside of adjustment tank respectively for the rack board, through coupling mechanism fixed connection between rack board and the arm-tie, the rack board is connected with adjacent driving gear meshing respectively, makes things convenient for the removal of arm-tie.

Further, the driving mechanism further comprises a driving belt wheel and a synchronous belt, the driving belt wheel is rotationally connected to the upper end of the front surface of the supporting frame through a rotating shaft, the front end of the rotating shaft at the front end of the driving gear penetrates through the through hole in the supporting frame respectively and is provided with the synchronous belt wheel, the synchronous belt wheel at the left side is meshed with the front end of the driving belt wheel, the rear end of the driving belt wheel is in transmission connection with the synchronous belt wheel at the right side through the synchronous belt, and rack plates at the left end and the right end move in the same amplitude and the same direction.

Further, the driving mechanism further comprises a driving motor, the driving motor is arranged at the upper end of the rear side face of the supporting frame, the front end of an output shaft of the driving motor is fixedly connected with a driving gear at the left side, and the input end of the driving motor is electrically connected with the output end of the single chip microcomputer to provide power for the movement of the pulling plate.

Further, coupling mechanism includes first limiting plate, electric putter and second limiting plate, first limiting plate sets up in the upper end of rack board respectively, and the second limiting plate sets up in the upper end of arm-tie respectively, all is equipped with electric putter in the mounting hole at first limiting plate middle part, and electric putter's lower extreme respectively with adjacent second limiting plate fixed connection, electric putter's input electricity is connected in the output of singlechip, conveniently adjusts the manger plate quantity of rising.

Compared with the prior art, the utility model has the beneficial effects that: this an automatic gate structure for irrigation has following benefit:

the driving motor is started through the singlechip, the output shaft of the driving motor drives the driving gear to rotate, the driving gear is connected through the electric push rod, two pull plates move up and down in the same amplitude and in the same direction along with the rack plate, in the process of downward movement of the pull plates, the clamping blocks slide into the folding groove through the matching of the inclined planes of the lower ends of the clamping plates and the inclined planes of the upper ends of the clamping plates, the springs shrink, after the lower surfaces of the clamping blocks and the upper surfaces of the clamping plates are positioned on the same plane, the clamping blocks are reset under the action of the elasticity of the springs, at the moment, the lower surfaces of the clamping blocks are attached to the upper surfaces of the clamping plates, the upward movement of the pull plates drives the water baffle at the clamping blocks and the water baffle at the upper ends of the clamping plates to move up together through the clamping plates, the quantity of the pulled water baffle plates is adjusted according to the water quantity required by irrigation, the opening and water drainage can be carried out at different water level positions, the utilization efficiency of water drainage resources is accurately regulated and improved, and the irrigation effect is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the inside of the baffle plate of the present utility model;

FIG. 3 is a schematic view of a baffle plate according to the present utility model;

FIG. 4 is an enlarged schematic view of the structure of the present utility model at A;

fig. 5 is an enlarged schematic view of the structure of the present utility model at B.

In the figure: 1 supporting frame, 2 sliding grooves, 3 baffle plates, 31 slots, 32 water baffle plates, 33 sealing ceramic blocks, 4 pull plates, 5 clamping blocks, 6 springs, 7 folding grooves, 8 driving mechanisms, 81 rack plates, 82 driving motors, 83 driving gears, 84 synchronous pulleys, 85 driving pulleys, 86 synchronous belts, 9 connecting mechanisms, 91 first limiting plates, 92 electric push rods, 93 second limiting plates, 10 singlechips, 11 adjusting grooves and 12 clamping plates.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present embodiment provides a technical solution: an automatic gate structure for irrigation comprises a supporting frame 1 and a driving mechanism 8;

support frame 1: the inner walls of the left and right sides of the baffle are symmetrically provided with sliding grooves 2, a baffle 3 of a vertical array is slidingly connected between the interiors of the two sliding grooves 2, the sliding grooves 2 enable the movement of the baffle 3 to be more stable, water flow is blocked by the baffle 3, the middle parts of the left and right side surfaces of the baffle 3 are respectively provided with a folding groove 7, the interiors of the folding grooves 7 are respectively and transversely slidingly connected with a clamping block 5, springs 6 are respectively arranged between the clamping blocks 5 and the inner walls of the adjacent folding grooves 7, the left and right ends of the upper surface of the supporting frame 1 are respectively provided with an adjusting groove 11, the adjusting grooves 11 are communicated with the sliding grooves 2, the interiors of the adjusting grooves 11 are respectively and slidingly connected with a pull plate 4, the lower ends of the pull plates 4 are respectively provided with a clamping plate 12 which is matched with the clamping blocks 5, in the downward movement process of the pull plates 4, the clamping blocks 5 slide into the folding grooves 7 through the matching of the inclined surfaces of the lower ends of the clamping plates 12 and the upper end of the clamping blocks 5, the springs 6 shrink, when the lower surface of the clamping block 5 and the upper surface of the clamping plate 12 are positioned on the same plane, the clamping block 5 is reset under the action of the elastic force of the spring 6, at this time, the lower surface of the clamping block 5 is attached to the upper surface of the clamping plate 12, the upper movement of the pull plate 4 drives the water baffle 32 where the clamping block 5 is positioned and the water baffle 32 at the upper end of the water baffle to move upwards together through the clamping plate 12, the singlechip 10 is arranged in the middle of the right side surface of the supporting frame 1, the input end of the singlechip 10 is electrically connected with an external power supply, the starting and stopping of the whole device are controlled, the baffle 3 comprises a slot 31, a water baffle 32 and a sealing ceramic block 33, the water baffle 32 is respectively and slidably connected between the two sliding grooves 2, the left side surface and the right side surface of the water baffle 32 of the vertical array are respectively provided with a collecting groove 7, the upper surface of the water baffle 32 is respectively provided with a slot 31, the lower surface of the water baffle 32 is respectively provided with a sealing ceramic block 33 which is matched with the slot 31, the joint of the water baffle 32 is sealed by the clamping connection of the sealing ceramic block 33 and the slot 31, so that the water baffle effect is ensured;

driving mechanism 8: the driving mechanism 8 is fixedly connected with the pulling plate 4 through a connecting mechanism 9, the driving mechanism 8 comprises a rack plate 81 and a driving gear 83, the driving gear 83 is respectively connected in rotating grooves at the left and right ends of the upper surface of the supporting frame 1 through rotating shafts in a rotating mode, the rack plate 81 is respectively vertically and slidably connected in the adjusting groove 11, the rack plate 81 is fixedly connected with the pulling plate 4 through the connecting mechanism 9, the rack plate 81 is respectively meshed with the adjacent driving gear 83, the driving mechanism 8 also comprises a driving belt pulley 85 and a synchronous belt 86, the driving belt pulley 85 is rotatably connected with the upper end of the front surface of the supporting frame 1 through rotating shafts, the front end of the rotating shaft at the front end of the driving gear 83 respectively penetrates through a through hole in the supporting frame 1 and is provided with a synchronous belt pulley 84, the synchronous belt pulley 84 at the left side is meshed with the front end of the driving belt pulley 85, the rear end of the driving belt pulley 85 is in transmission connection with the right synchronous belt pulley 84 through a synchronous belt 86, the driving mechanism 8 further comprises a driving motor 82, the driving motor 82 is arranged at the upper end of the rear side face of the supporting frame 1, the front end of an output shaft of the driving motor 82 is fixedly connected with a left driving gear 83, the input end of the driving motor 82 is electrically connected with the output end of the single chip microcomputer 10, the driving motor 82 is started through the single chip microcomputer 10, the left driving gear 83 and the left synchronous belt pulley 84 are driven to rotate by the output shaft of the driving motor 82, the driving belt pulley 85 is in meshed connection with the front end of the driving belt pulley 85 through the left synchronous belt pulley 84, the driving belt pulley 85 is reversely rotated, the right synchronous belt pulley 84 and the right driving gear 83 are reversely rotated through the transmission connection of the synchronous belt 86, the toothed belt plates 81 are driven to move up and down in the same amplitude and the same direction by the meshed connection of the driving gear 83 and the toothed plates 81, the connecting mechanism 9 comprises a first limiting plate 91, an electric push rod 92 and a second limiting plate 93, wherein the first limiting plate 91 is respectively arranged at the upper ends of the rack plates 81, the second limiting plate 93 is respectively arranged at the upper ends of the pull plates 4, the electric push rod 92 is respectively arranged in a mounting hole in the middle of the first limiting plate 91, the lower end of the electric push rod 92 is respectively fixedly connected with the adjacent second limiting plate 93, the input end of the electric push rod 92 is electrically connected with the output end of the single chip microcomputer 10, under the connecting supporting effect of the electric push rod 92, the two pull plates 4 move up and down along with the rack plates 81 in the same amplitude and the same direction, in the process of adjusting the number of the pulled water baffle plates 32, the driving motor 82 is started to drive the rack plates 81 to move downwards for a certain distance, meanwhile, the telescopic end of the electric push rod 92 contracts by the same distance to ensure that the position of the pull plate 4 relative to the support frame 1 is unchanged, the lower surface of the rack plate 81 is attached to the upper surface of the clamping plate 12 in the process of moving the rack plate 81 downwards by a certain distance, no gap is reserved between the lower end of the rack plate 81 and the upper surface of the clamping plate 12, clamping of the clamping block 5 is avoided, the clamping block 5 is folded into the folding groove 7 under the action of the inclined surface of the upper end of the clamping block 5 in the moving process of the rack plate 81, at the moment, the clamping plate 12 is moved upwards without driving the clamping block 5 to move together, then the driving motor 82 is rotated reversely to drive the rack plate 81, the clamping plate 12 and the pull plate 4 to move upwards, and the water baffle 32 is not moved along with the rack plate, so that the quantity of the pulled water baffle 32 is convenient to adjust.

The utility model provides an automatic gate structure for irrigation, which has the following working principle: when in use, the driving motor 82 is started by the singlechip 10, the output shaft of the driving motor 82 drives the left driving gear 83 and the left synchronous pulley 84 to rotate, the left synchronous pulley 84 is meshed with the front end of the driving pulley 85 to enable the driving pulley 85 to reversely rotate, the right synchronous pulley 84 and the right driving gear 83 are reversely rotated by the transmission connection of the synchronous belt 86, the rack plates 81 on the left side and the right side are driven to move up and down in the same amplitude and same direction by the meshed connection of the driving gear 83 and the rack plates 81, under the connection supporting effect of the electric push rod 92, the two pull plates 4 are driven to move up and down in the same amplitude and same direction, in the downward moving process of the pull plates 4, the clamping block 5 slides into the folding groove 7 by the matching of the inclined surface of the lower end of the clamping plate 12 and the inclined surface of the upper end of the clamping block 5, the spring 6 is contracted, when the lower surface of the clamping block 5 and the upper surface of the clamping plate 12 are positioned on the same plane, under the action of the elastic force of the spring 6, the clamping block 5 is reset, at this time, the lower surface of the clamping block 5 is attached to the upper surface of the clamping plate 12, the pull plate 4 moves upwards together with the water baffle 32 at the upper end of the clamping block 5 and the water baffle 32 at the position of the clamping plate through the clamping plate 12, the quantity of the pulled water baffles 32 is adjusted according to the water quantity required by irrigation, the water baffles 32 can be opened and drained at different water levels, the water drainage quantity is conveniently regulated and controlled, after the water drainage is finished, the water baffles 32 are controlled to reset, the joint of the water baffles 32 is sealed through the clamping connection of the sealing ceramic block 33 and the slot 31, the water retaining effect is ensured, then the driving motor 82 is started, the rack plate 81 is driven to move downwards for a certain distance, meanwhile, the telescopic end of the electric push rod 92 is contracted for the same distance, the position of the pull plate 4 relative to the supporting frame 1 is ensured to be unchanged, and the rack plate 81 moves downwards for a certain distance, the lower surface of rack board 81 can be laminated with joint board 12 upper surface, guarantee no gap between the lower extreme of rack board 81 and the upper surface of joint board 12, avoid the card of fixture block 5 to go into, in the rack board 81 removal in-process, under the effect of the inclined plane of fixture block 5 upper end, make fixture block 5 receive to receive in the groove 7, the upward movement of joint board 12 can not drive fixture block 5 and remove together this moment, then driving motor 82 counter-rotation, under the connection supporting effect of electric putter 92, drive rack board 81, joint board 12 and arm-tie 4 upward movement, the breakwater 32 can not remove along with it, the convenient quantity of breakwater 32 to the arm-tie is adjusted.

It should be noted that, in the above embodiment, the single-chip microcomputer 10 disclosed in the above embodiment may be a single-chip microcomputer of PIC16F1823-I/P type, the driving motor 82 and the electric putter 92 may be freely configured according to the actual application scenario, the driving motor 82 may be a motor of 5IK40RGU-CF type, the electric putter 92 may be an electric putter of ANT-52 type, and the single-chip microcomputer 10 controls the driving motor 82 and the electric putter 92 to operate by methods commonly used in the prior art.

The foregoing is only illustrative of the present utility model and is not to be construed as limiting the scope of the utility model, and all equivalent structures or equivalent flow modifications which may be made by the teachings of the present utility model and the accompanying drawings or which may be directly or indirectly employed in other related art are within the scope of the utility model.

Claims (7)

1. A automatic gate structure for irrigation, its characterized in that: comprises a supporting frame (1) and a driving mechanism (8);

support frame (1): the left inner wall and the right inner wall of the support frame are symmetrically provided with sliding grooves (2), a baffle (3) of a vertical array is connected between the interiors of the two sliding grooves (2) in a sliding manner, folding grooves (7) are formed in the middle of the left side surface and the right side surface of the baffle (3), clamping blocks (5) are connected in a sliding manner in the folding grooves (7), springs (6) are arranged between the clamping blocks (5) and the inner walls of the adjacent folding grooves (7), regulating grooves (11) are formed in the left end and the right end of the upper surface of the support frame (1), the regulating grooves (11) are communicated with the sliding grooves (2), pull plates (4) are connected in a sliding manner in the regulating grooves (11), and clamping plates (12) matched with the clamping blocks (5) are arranged at the lower ends of the pull plates (4);

driving mechanism (8): the driving mechanism (8) is fixedly connected with the pulling plate (4) through the connecting mechanism (9).

2. An automatic gate structure for irrigation according to claim 1, wherein: the middle part of the right side surface of the supporting frame (1) is provided with a singlechip (10), and the input end of the singlechip (10) is electrically connected with an external power supply.

3. An automatic gate structure for irrigation according to claim 1, wherein: baffle (3) are including slot (31), breakwater (32) and sealed ceramic piece (33), breakwater (32) sliding connection respectively is between the inside of two spouts (2), and vertical array's breakwater (32) are all equipped with receipts and close groove (7) about the side, and the upper surface of breakwater (32) all is equipped with slot (31), and the lower surface of breakwater (32) all is equipped with sealed ceramic piece (33) of installation with slot (31) cooperation.

4. An automatic gate structure for irrigation according to claim 2, wherein: the driving mechanism (8) comprises rack plates (81) and driving gears (83), the driving gears (83) are respectively connected in rotating grooves at the left end and the right end of the upper surface of the supporting frame (1) in a rotating mode through rotating shafts, the rack plates (81) are respectively vertically and slidably connected in the adjusting grooves (11), the rack plates (81) are fixedly connected with the pulling plates (4) through connecting mechanisms (9), and the rack plates (81) are respectively meshed with the adjacent driving gears (83).

5. An automatic gate structure for irrigation as claimed in claim 4, wherein: the driving mechanism (8) further comprises a driving belt wheel (85) and a synchronous belt (86), the driving belt wheel (85) is rotationally connected to the upper end of the front surface of the supporting frame (1) through a rotating shaft, the front end of a rotating shaft of the front end of the driving gear (83) respectively penetrates through a through hole in the supporting frame (1) and is provided with the synchronous belt wheel (84), the left synchronous belt wheel (84) is meshed with the front end of the driving belt wheel (85), and the rear end of the driving belt wheel (85) is in transmission connection with the right synchronous belt wheel (84) through the synchronous belt (86).

6. An automatic gate structure for irrigation as claimed in claim 4, wherein: the driving mechanism (8) further comprises a driving motor (82), the driving motor (82) is arranged at the upper end of the rear side face of the supporting frame (1), the front end of an output shaft of the driving motor (82) is fixedly connected with a driving gear (83) on the left side, and the input end of the driving motor (82) is electrically connected with the output end of the single chip microcomputer (10).

7. An automatic gate structure for irrigation as claimed in claim 4, wherein: coupling mechanism (9) are including first limiting plate (91), electric putter (92) and second limiting plate (93), first limiting plate (91) set up respectively in rack board (81) upper end, and second limiting plate (93) set up respectively in the upper end of arm-tie (4), all are equipped with electric putter (92) in the mounting hole at first limiting plate (91) middle part, electric putter (92) lower extreme respectively with adjacent second limiting plate (93) fixed connection, electric putter (92) input electricity is connected in the output of singlechip (10).

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