A kind of hydraulic engineering lift water conservancy gate
Technical field
The utility model relates to hydraulic engineering technical field, specially a kind of hydraulic engineering lift water conservancy gate.
Background technique
Hydraulic engineering is the engineering built to eliminate water damage and development and utilization water resource.It is divided into flood control by its service object
Engineering, farmland water conservancy works, hydraulic power project, navigation channel and port engineering, water supply and drainage system, environmental bydraulic engineering engineering, sea
Apply project of cultivation etc..It can simultaneously be the hydraulic engineering of the plurality of target services such as flood control, water supply, irrigation, power generation, referred to as comprehensively utilize
Hydraulic engineering.Hydraulic engineering needs to build dam, dike, spillway, sluice, water inlet, channel, crosses the inhomogeneities such as mortise, log chute, fish pass
The hydraulic structure of type, to realize its target.
Existing water conservancy gate is made of concrete reinforcement mostly, and volume and weight is often larger, however current water
Sharp gate mostly uses greatly artificial shake handle to be lifted, and opens and closes low efficiency, and large labor intensity cannot achieve water when urgent
The fast opening and closing of sharp gate, there are biggish security risks.
Utility model content
The purpose of this utility model is to provide a kind of hydraulic engineering lift water conservancy gate, having can automatic open close
Advantage solves the problems, such as that common water conservancy gate method for opening and closing is all made of artificial crank mode.
To achieve the above object, the utility model provides the following technical solutions: a kind of hydraulic engineering lift water conservancy lock
Door, including two sluice foundations, the top of two sluice foundations are fixedly connected by top plate, are fixedly connected with the dam foundation on the outside of the sluice foundation,
The opposite side of two sluice foundations is opened up there are two sliding rail, and the internal slide of the sliding rail is connected with sliding block, and the sliding block is separate
The side of sliding rail is through sliding rail and extends to outside it, and four sliding blocks are fixedly connected by gate ontology, gate ontology top
The midpoint in portion is fixedly connected with fixed plate, and the two sides of the fixed plate are fixedly connected to securing plate, before the fixed plate
Side is fixedly connected there are two rack-plate, and the top of the fixed plate, securing plate and rack-plate is run through top plate and extended to outside it
Portion, the top plate top left side and be located at securing plate on front side of be fixedly connected with driving motor, the output shaft of the driving motor
On be fixedly connected with drive shaft, the position of the right side at the top of the top plate and corresponding drive shaft is fixedly installed with brake,
The drive shaft is connected with brake, and the position of the drive shaft surface and corresponding rack-plate is fixedly connected with to be cooperated with it
The gear used.
Preferably, the top of the top plate and the position of corresponding driving motor are fixedly connected with stabilizing bracket, the driving electricity
The top of machine and the inner wall of stabilizing bracket contact with each other.
Preferably, it is fixedly connected with support plate at the top of the top board surface, is fixedly connected at the top of the support plate
Rain-proof shed, the side of the fixed plate, securing plate and rack-plate is run through rain-proof shed and is extended to outside it.
Preferably, the position of the support plate bottom and corresponding top plate is fixedly connected with reinforcing rib, and the reinforcing rib is close
The side of top plate is fixedly connected with top plate.
Compared with prior art, the beneficial effects of the utility model are as follows:
1, the utility model passes through setting fixed plate, securing plate, rack-plate, driving motor, drive shaft, brake and tooth
Wheel, solves the problems, such as that common water conservancy gate method for opening and closing is all made of artificial crank mode, passes through driving motor band carry-over bar
Plate lifting, so that fixed plate is driven to go up and down, it is final that gate ontology is driven to be opened and closed, full automatic operation is realized, is no longer needed
Will manually to gate opening/closing, open and close it is high-efficient, labor intensity it is low, it can be achieved that when urgent water conservancy gate fast opening and closing, maximization
Reduce security risk, and structure is simple, novel in design, the opening and closing suitable for most small water conservancy gate.
2, the utility model has carried out firm fixation to driving motor, has prevented its receiving biggish by setting stabilizing bracket
Power and fall off from top plate, influence using being kept off the rain to driving motor and brake by setting support plate and rain-proof shed
Protection, prevents their waterlogged damages, while being also prevented from caused by gear and rack-plate meet water for a long time and corroding, and influences using logical
Setting reinforcing rib is crossed, fixation of the support plate on top plate is strengthened, prevents from using for a long time, support plate falls off from top plate, makes
At rain-proof shed damage, service life is extended.
Detailed description of the invention
Fig. 1 is the cross-sectional view of the structure of the utility model main view;
Fig. 2 is the cross-sectional view of the structure of the utility model side view;
Fig. 3 is the cross-sectional view of the structure of the utility model top view.
In figure: 1 sluice foundation, 2 top plates, 3 dam foundations, 4 sliding rails, 5 sliding blocks, 6 gate ontologies, 7 fixed plates, 8 securing plates, 9 rack-plates,
10 driving motors, 11 drive shafts, 12 brakes, 13 gears, 14 stabilizing brackets, 15 support plates, 16 rain-proof shed, 17 reinforcing ribs.
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.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Please refer to Fig. 1-3, a kind of hydraulic engineering lift water conservancy gate, including two sluice foundations 1, the top of two sluice foundations 1
Portion is fixedly connected by top plate 2, and the outside of sluice foundation 1 is fixedly connected with the dam foundation 3, and two opposite sides of sluice foundation 1 offer two
A sliding rail 4, the internal slide of sliding rail 4 are connected with sliding block 5, and side of the sliding block 5 far from sliding rail 4 is through sliding rail 4 and extends to outside it
Portion, four sliding blocks 5 are fixedly connected by gate ontology 6, and the midpoint at 6 top of gate ontology is fixedly connected with fixed plate 7, fixed
The two sides of plate 7 are fixedly connected to securing plate 8, and the front side of fixed plate 7 is fixedly connected there are two rack-plate 9, and fixed plate 7 is reinforced
The top of plate 8 and rack-plate 9 is run through top plate 2 and is extended to outside it, and top plate is fixedly connected with support plate at the top of 2 surface
15, the top of support plate 15 is fixedly connected with rain-proof shed 16, and the side of fixed plate 7, securing plate 8 and rack-plate 9, which is run through, keeps off the rain
It canopy 16 and extends to outside it, the position of 15 bottom of support plate and corresponding top plate 2 is fixedly connected with reinforcing rib 17, and reinforcing rib 17 leans on
The side of nearly top plate 2 is fixedly connected with top plate 2, and it is electric that 2 top left side of top plate and the front side for being located at securing plate 8 are fixedly connected with driving
Machine 10, driving motor 10 are double steering stepper motor, and the position of the top of top plate 2 and corresponding driving motor 10 is fixedly connected with surely
Gu frame 14, the top of driving motor 10 and the inner wall of stabilizing bracket 14 contact with each other, it is fixedly connected on the output shaft of driving motor 10
There is drive shaft 11, the position of the right side at the top of top plate 2 and corresponding drive shaft 11 is fixedly installed with brake 12, drive shaft
11 are connected with brake 12, and the position of 11 surface of drive shaft and corresponding rack-plate 9 is fixedly connected with tooth used in conjunction with
Wheel 13 has carried out firm fixation to driving motor 10 by the way that stabilizing bracket 14 is arranged, prevent it from bearing biggish power and from top plate 2
On fall off, influence using, by be arranged support plate 15 and rain-proof shed 16, the guarantor kept off the rain to driving motor 10 and brake 12
Shield, prevents their waterlogged damages, while being also prevented from caused by gear 13 and rack-plate 9 meet water for a long time and corroding, and influences using logical
Setting reinforcing rib 17 is crossed, fixation of the support plate 15 on top plate 2 is strengthened, prevents from using for a long time, support plate 15 is from top plate 2
It falls off, causes rain-proof shed 16 damage, extend service life, pass through setting fixed plate 7, securing plate 8, rack-plate 9, driving electricity
Machine 10, drive shaft 11, brake 12 and gear 13 solve common water conservancy gate method for opening and closing and are all made of artificial crank side
The problem of formula, drives rack-plate 9 to go up and down by driving motor 10, so that fixed plate 7 is driven to go up and down, it is final to drive gate ontology 6
It is opened and closed, realizes full automatic operation, it is no longer necessary to which, manually to gate opening/closing, opening and closing is high-efficient, and labor intensity is low, can be real
The fast opening and closing of water conservancy gate when now urgent, maximization reduces security risk, and structure is simple, novel in design, is suitable for
The opening and closing of most small water conservancy gate.
In use, opening driving motor 10 when gate ontology 6 needs to open drainage gallery, drive shaft 11 is rotated, gear
13 rotate with, and rack-plate 9 is driven to rise, so that fixed plate 7 and gate ontology 6 is driven to rise, the sliding block of 6 two sides of gate ontology
5 slide in sliding rail 4, otherwise when gate ontology 6 needs to close drainage gallery, unlatching driving motor 10, drive shaft 11 is reversely
Rotation, gear 13 drive rack-plate 9 to decline, so that fixed plate 7 and gate ontology 6 be driven to decline, the utility model structure is simple,
Novel design, the opening and closing suitable for most of small water conservancy gate.
In summary: hydraulic engineering lift water conservancy gate, by setting fixed plate 7, securing plate 8, rack-plate 9,
Driving motor 10, drive shaft 11, brake 12 and gear 13 solve common water conservancy gate method for opening and closing and are all made of manually
The problem of crank mode.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired
Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.