CN209128961U - A kind of sluice automatic control device in hydraulic engineering - Google Patents

Abstract

The utility model discloses the sluice automatic control devices in a kind of hydraulic engineering, including the U-shaped gate pedestal being symmetrically and fixedly mounted on channel, the side of the U-shaped gate pedestal is fixedly installed with water level controller, support plate is fixedly installed on the two sides inner wall of the U-shaped gate pedestal, sliding panel is slidably connected on the side inner wall of the U-shaped gate pedestal, the side of the sliding panel is rotatably connected to the second rotating bar, one end of second rotating bar is rotatably connected to baffle, two baffle sides close to each other are welded with flashboard, two flashboard sides close to each other are in contact.The utility model structure is simple, it can control decelerating motor by water level controller, decelerating motor can control the opening and closing of gate, allow to automatically control gate according to the water level before lock, reduce labor management cost, efficiency is improved, effective quantitative management of water resource is conducive to, it is easy to use.

Description

A kind of sluice automatic control device in hydraulic engineering

Technical field

The utility model relates to the sluice in hydraulic engineering technical field more particularly to a kind of hydraulic engineering to automatically control dress It sets.

Background technique

Hydraulic engineering is the surface water and groundwater for controlling and deploying nature, reaches and removes the evil emerging sharp purpose and build Engineering.Also referred to as Hydraulic Projects.Water is human being's production and essential precious resources of living, but the state of its naturally occurring is simultaneously Not in full conformity with the needs of the mankind.Hydraulic engineering is only built, just can control water flow, prevents flood, and carry out water It adjusts and distributes, to meet people's lives and production to the needs of water resource.Hydraulic engineering needs to build dam, dike, spillway, water Lock, water inlet, channel, the different types of hydraulic structure such as cross mortise, log chute, fish pass, to realize its target.

Currently, being usually that manually open-close sluice gate and manually-operated machine power open for the sluice in hydraulic engineering The gate closed, it is also necessary to which the water level before artificial observation lock carrys out the opening and closing of regulating gate, in addition the sluice website in hydraulic engineering point Dissipate, stand and stand between distance it is remote, labor management is at high cost, inefficiency, be highly detrimental to effective quantitative management of water resource, So it is proposed that a kind of sluice automatic control device in hydraulic engineering, to solve the problems, such as above-mentioned be previously mentioned.

Summary of the invention

Purpose of the utility model is to solve disadvantages existing in the prior art, and in a kind of hydraulic engineering proposed Sluice automatic control device.

To achieve the goals above, the utility model adopts the technical scheme that

Sluice automatic control device in a kind of hydraulic engineering, including the U-shaped gate base being symmetrically and fixedly mounted on channel Seat, the side of the U-shaped gate pedestal are fixedly installed with water level controller, solid on the two sides inner wall of the U-shaped gate pedestal Dingan County is equipped with support plate, and sliding panel is slidably connected on the side inner wall of the U-shaped gate pedestal, and the side of the sliding panel turns Dynamic to be connected with the second rotating bar, one end of second rotating bar is rotatably connected to baffle, two baffles side close to each other It is welded with flashboard, two flashboard sides close to each other are in contact, and are symmetrically welded on the side inner wall of the U-shaped gate pedestal There is tension spring, one end of the tension spring is mutually welded with the side of baffle, and the same bottom plate is welded at the top of four support plates, described Decelerating motor is fixedly installed at the top of bottom plate, the output end of the water level controller and the input terminal of decelerating motor are connected in series, The top two sides of the bottom plate are symmetrically welded there are two guide rod, and the decelerating motor is located between two guide rods, two guide rods Top is welded with the same top plate, and screw rod is welded on the output shaft of the decelerating motor, and screw thread connects on the outer wall of the screw rod It is connected to movable plate, the top of the screw rod and the lower rotation of top plate connect, and arranged symmetrically on the movable plate there are two first Through-hole, the top of two guide rods extend through two first through hole and extend to the top of movable plate, the bottom of the movable plate Symmetrical rotation connection there are two the first rotating bar, the bottom end of two the first rotating bars respectively with the top one of two the second rotating bars Side rotation connection.

Preferably, it is provided with sliding groove on the side inner wall of the U-shaped gate pedestal, the side of the sliding panel extends to It is slidably connected in sliding groove and with sliding groove.

Preferably, the bottom of the top plate is welded with bearing, and the top of the screw rod extends to the inner ring of bearing and and axis The inner ring held mutually welds.

Preferably, the side setting of the support plate is fluted, is fixedly installed with sealing on the side inner wall of the groove Item, the side of the sealing strip are in contact with the side of baffle.

Preferably, it is provided with the second through-hole on the movable plate, is welded with nut on the inner wall of second through-hole, it is described The top of screw rod runs through nut and extends to the top of movable plate, and screw rod is connect with nut thread.

Preferably, the side of the support plate is rotatably connected to multiple symmetrically arranged guide wheels, the side of the guide wheel with The side of flashboard is in contact.

Compared with prior art, the utility model has the beneficial effects that if when water level before lock is higher than the water level of setting, water Level controller will start decelerating motor, and decelerating motor can drive the second rotating bar to be rotated, and the second rotating bar can drive Sliding panel carries out longitudinal sliding motion on U-shaped gate pedestal, and tension spring can pull two flashboards to be moved in the direction away from each other It is dynamic, and then after the water before lock can flow to lock from the gap of two gates, when water level decreasing before lock is to the water level set, water level Controller can be such that decelerating motor is inverted, then decelerating motor can drive the second rotating bar to be rotated, and two second turn Lever can push two gates to be moved and contacted to direction close to each other respectively, while baffle can connect with sealing strip Touching, and then gap outflow of the water between support plate and baffle can be prevented.

The utility model structure is simple, can control decelerating motor by water level controller, decelerating motor can control lock The opening and closing of door, allow to automatically control gate according to the water level before lock, reduce labor management cost, Efficiency is improved, effective quantitative management of water resource is conducive to, it is easy to use.

Detailed description of the invention

Fig. 1 be the utility model proposes a kind of hydraulic engineering in sluice automatic control device structural schematic diagram；

Fig. 2 be the utility model proposes a kind of hydraulic engineering in sluice automatic control device U-shaped gate pedestal Top view；

Fig. 3 be the utility model proposes a kind of hydraulic engineering in sluice automatic control device U-shaped gate pedestal Structural schematic diagram；

Fig. 4 be the utility model proposes a kind of hydraulic engineering in sluice automatic control device part A enlarged drawing.

In figure: 1 channel, 2 U-shaped gate pedestals, 3 sliding panels, 4 baffles, 5 support plates, 6 flashboards, 7 first rotating bars, 8 are moved Movable plate, 9 guide rods, 10 tension springs, 11 decelerating motors, 12 screw rods, 13 top plates, 14 bottom plates, 15 guide wheels, 16 second rotating bars, 17 water levels Controller, 18 sealing strips, 19 grooves.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

Referring to Fig.1-4, the sluice automatic control device in a kind of hydraulic engineering, including be symmetrically and fixedly mounted on channel 1 U-shaped gate pedestal 2, the side of U-shaped gate pedestal 2 is fixedly installed with water level controller 17, in the two sides of U-shaped gate pedestal 2 It is fixedly installed with support plate 5 on wall, slidably connects sliding panel 3 on the side inner wall of U-shaped gate pedestal 2, the one of sliding panel 3 Side is rotatably connected to the second rotating bar 16, and one end of the second rotating bar 16 is rotatably connected to baffle 4, and two baffles 4 are close to each other Side be welded with flashboard 6, two sides close to each other of flashboard 6 are in contact, right on the side inner wall of U-shaped gate pedestal 2 Title is welded with tension spring 10, and one end of tension spring 10 is mutually welded with the side of baffle 4, and the top of four support plates 5 is welded with same Bottom plate 14, the top of bottom plate 14 are fixedly installed with decelerating motor 11, and the output end of water level controller 17 is defeated with decelerating motor 11 Entering end to be connected in series, the top two sides of bottom plate 14 are symmetrically welded there are two guide rod 9, and decelerating motor 11 is located between two guide rods 9, and two The top of a guide rod 9 is welded with the same top plate 13, and screw rod 12, the outer wall of screw rod 12 are welded on the output shaft of decelerating motor 11 On be threaded with movable plate 8, the top of screw rod 12 is connect with the lower rotation of top plate 13, is symmetrically arranged with two on movable plate 8 A first through hole, the top of two guide rods 9 extend through two first through hole and extend to the top of movable plate 8, movable plate 8 Bottom symmetrical rotation connection there are two the first rotating bar 7, the bottom end of two the first rotating bars 7 respectively with two the second rotating bars 16 Top side rotation connection, if water level before lock is higher than the water level of setting, water level controller 17 will start decelerating motor 11, Decelerating motor 11 can drive the second rotating bar 16 to be rotated, and the second rotating bar 16 can drive sliding panel 3 in U-shaped gate base Longitudinal sliding motion is carried out on seat 2, tension spring 10 can pull two flashboards 6 to be moved in the direction away from each other, and then before lock After water can flow to lock from the gap of two gates 6, when the water level of water level decreasing before lock to setting, water level controller 17 can be with Invert decelerating motor 11, then decelerating motor 11 can drive the second rotating bar 16 to be rotated, two the second rotating bars 16 can push two gates 6 to be moved and contacted to direction close to each other respectively, while baffle 4 can connect with sealing strip 18 Touching, and then gap outflow of the water between support plate 5 and baffle 4 can be prevented, the utility model structure is simple, passes through water level control Device 17 processed can control decelerating motor 11, and decelerating motor 11 can control the opening and closing of gate 6, allow to according to before lock Water level automatically gate 6 is controlled, reduce labor management cost, improve efficiency, be conducive to the effective of water resource Quantitative management, easy to use, wherein the model CX-P18 of water level controller 17, the model 7IK400RGU- of decelerating motor 11 CF/7GU 20K。

In the utility model, sliding groove is provided on the side inner wall of U-shaped gate pedestal 2, the side of sliding panel 3 extends to It is slidably connected in sliding groove and with sliding groove, the bottom of top plate 13 is welded with bearing, and the top of screw rod 12 extends to the interior of bearing It encloses and is mutually welded with the inner ring of bearing, the side of support plate 5 is arranged fluted 19, is fixedly installed on the side inner wall of groove 19 The side of sealing strip 18, sealing strip 18 is in contact with the side of baffle 4, and the second through-hole is provided on movable plate 8, the second through-hole Nut is welded on inner wall, the top of screw rod 12 runs through nut and extends to the top of movable plate 8, and screw rod 12 and nut thread Connection, the side of support plate 5 is rotatably connected to multiple symmetrically arranged guide wheels 15, the side of guide wheel 15 and the side phase of flashboard 6 Contact, if water level before lock is higher than the water level of setting, water level controller 17 will start decelerating motor 11, and decelerating motor 11 can be with The second rotating bar 16 is driven to be rotated, it is longitudinal that the second rotating bar 16 can drive sliding panel 3 to carry out on U-shaped gate pedestal 2 Sliding, tension spring 10 can pull two flashboards 6 to be moved in the direction away from each other, and then the water before lock can be from two gates After 6 gap flow to lock, when the water level of water level decreasing before lock to setting, water level controller 17 can make decelerating motor 11 into Row reversion, then decelerating motor 11 can drive the second rotating bar 16 to be rotated, and two the second rotating bars 16 can push respectively Two gates 6 are moved and are contacted to direction close to each other, while baffle 4 can be contacted with sealing strip 18, and then can be to prevent Gap outflow of the sealing between support plate 5 and baffle 4, the utility model structure is simple, can be controlled by water level controller 17 Decelerating motor 11 processed, decelerating motor 11 can control the opening and closing of gate 6, allow to automatic according to the water level before lock Gate 6 is controlled, labor management cost is reduced, improves efficiency, is conducive to effective quantitative management of water resource, is used It is convenient.

Working principle: when in use, water level controller 17 can detect the water level before lock, if the water level before lock is high When the water level of setting, water level controller 17 will start decelerating motor 11, and decelerating motor 11 drives screw rod 12 to be rotated, screw rod 12 drive movable plates 8 carry out longitudinal sliding motion on two guide rods 9, and movable plate 8 drives the first rotating bar 7 to be vertically moved and turned Dynamic, the first rotating bar 7 drives the second rotating bar 16 to be rotated, and the second rotating bar 16 drives sliding panel 3 in U-shaped gate pedestal 2 Upper carry out longitudinal sliding motion, tension spring 10 will pull two flashboards 6 and moved in the direction away from each other, while guide wheel 15 can be in lock It is rotated on door 6, and then after the water before lock can flow to lock from the gap of two gates 6, the water level decreasing before lock is to setting Water level when, water level controller 17 can be such that decelerating motor 11 is inverted, then decelerating motor 11 drive the first rotating bar 7 carry out Longitudinal movement, the first rotating bar 17 drive the second rotating bar 16 to be rotated, and two the second rotating bars 16 can push two respectively Gate 6 is moved and is contacted to direction close to each other, while baffle 4 can be contacted with sealing strip 18, and then can prevent water Gap outflow between support plate 5 and baffle 4, allows to automatically control gate 6 according to the water level before lock, drop Low labor management cost, improves efficiency, is conducive to effective quantitative management of water resource, easy to use.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. the sluice automatic control device in a kind of hydraulic engineering, including the U-shaped gate base being symmetrically and fixedly mounted on channel (1) Seat (2), which is characterized in that the side of the U-shaped gate pedestal (2) is fixedly installed with water level controller (17), the U-shaped gate It is fixedly installed on the two sides inner wall of pedestal (2) support plate (5), the company of sliding on the side inner wall of the U-shaped gate pedestal (2) It is connected to sliding panel (3), the side of the sliding panel (3) is rotatably connected to the second rotating bar (16), second rotating bar (16) One end be rotatably connected to baffle (4), two baffle (4) sides close to each other are welded with flashboard (6), two flashboards (6) Side close to each other is in contact, and is symmetrically welded with tension spring (10), the drawing on the side inner wall of the U-shaped gate pedestal (2) One end of spring (10) and the side of baffle (4) are mutually welded, and are welded with the same bottom plate (14), institute at the top of four support plates (5) It states and is fixedly installed at the top of bottom plate (14) decelerating motor (11), the output end and decelerating motor of the water level controller (17) (11) input terminal is connected in series, and the top two sides of the bottom plate (14) are symmetrically welded there are two guide rod (9), the decelerating motor (11) it is located between two guide rods (9), is welded with the same top plate (13), the decelerating motor at the top of two guide rods (9) (11) it is welded on output shaft screw rod (12), is threaded with movable plate (8), the screw rod on the outer wall of the screw rod (12) (12) top is connect with the lower rotation of top plate (13), is symmetrical arranged on the movable plate (8) there are two first through hole, two The top of guide rod (9) extends through two first through hole and extends to the top of movable plate (8), the bottom of the movable plate (8) Symmetrical rotation connection there are two the first rotating bar (7), the bottom end of two the first rotating bars (7) respectively with two the second rotating bars (16) top side rotation connection.

2. the sluice automatic control device in a kind of hydraulic engineering according to claim 1, which is characterized in that described U-shaped Be provided with sliding groove on the side inner wall of gate pedestal (2), the side of the sliding panel (3) extend in sliding groove and with sliding Slot is slidably connected.

3. the sluice automatic control device in a kind of hydraulic engineering according to claim 1, which is characterized in that the top plate (13) bottom is welded with bearing, and the top of the screw rod (12) extends to the inner ring of bearing and mutually welds with the inner ring of bearing.

4. the sluice automatic control device in a kind of hydraulic engineering according to claim 1, which is characterized in that the support Fluted (19) are arranged in the side of plate (5), are fixedly installed with sealing strip (18) on the side inner wall of the groove (19), described close The side of strip of paper used for sealing (18) is in contact with the side of baffle (4).

5. the sluice automatic control device in a kind of hydraulic engineering according to claim 1, which is characterized in that the movement It is provided with the second through-hole on plate (8), nut is welded on the inner wall of second through-hole, spiral shell is run through on the top of the screw rod (12) Top that is female and extending to movable plate (8), and screw rod (12) is connect with nut thread.

6. the sluice automatic control device in a kind of hydraulic engineering according to claim 1, which is characterized in that the support The side of plate (5) is rotatably connected to multiple symmetrically arranged guide wheels (15), the side of the guide wheel (15) and the side of flashboard (6) It is in contact.