CN216892288U - Water sluicegate of detectable water pressure and water level - Google Patents

Abstract

The utility model belongs to the technical field of the water sluicegate technique and specifically relates to a water sluicegate of detectable water pressure and water level, including the flat bed base, the sluicing that runs through two lateral walls about self is seted up to the position that the flat bed base is located self top surface and is led to the groove, and the flat bed base is provided with the gate that blocks water that is used for blockking flowing water and is used for filtering the filter gate of flowing water through sluicing leads to the groove along vertical sliding, and the flat bed base top is provided with and is used for the drive to block water gate and filter gate gliding slide mechanism. This application has the effect that the polluted water source of having improved high water level pollutes the water source of low water level easily.

Description

Water sluicegate of detectable water pressure and water level

Technical Field

The application relates to the technical field of water sluicegates, in particular to a water sluicegate capable of detecting water pressure and water level.

Background

The gate is used for closing and opening control facilities of a drainage channel, can intercept water flow to have the effects of high water level and low water level, then adjusts flow, discharges silt, floating objects and the like, is an important component of a building of hydraulic engineering,

chinese utility model patent if grant publication number is CN207944433U discloses an automatic change water sluicegate, including the floodgate body, the both sides at floodgate body inner chamber top all are connected with the threaded rod through the bearing, and threaded rod surface cover is equipped with driven gear, and the both sides of floodgate body inner chamber are from last to being fixed with first backup pad and second backup pad down in proper order. The device capable of driving the lifting column to lift is jointly constructed through the arrangement of the gate body, the threaded rod, the driven gear, the motor, the driving gear, the lifting plate and the lifting column, and the device capable of automatically opening the gate through water pressure detection for hydraulic engineering is jointly constructed through the arrangement of the baffle and the water level pressure detector.

In view of the above-mentioned related technologies, the inventor believes that the water source in the river is often easily polluted by external factors, resulting in poor quality of the water source. However, the automatic water conservancy gate is not provided with a filtering device for filtering the water source, so that the low-water-level water source is polluted by the high-water-level water source.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that the water source of low water level is polluted easily in the pollution water source of high water level, this application provides the water sluicegate of detectable water pressure and water level.

The application provides a water sluicegate of detectable water pressure and water level adopts following technical scheme:

the utility model provides a water sluicegate of detectable water pressure and water level, includes the flat bed base, the sluicing that runs through two lateral walls about self is seted up to the position that the flat bed base is located self top surface leads to the groove, the flat bed base passes through sluicing leads to the groove and slides and is provided with the gate that blocks water that is used for blockking the flowing water and is used for filtering the filtration gate of flowing water, the flat bed base top is provided with and is used for the drive the gate that blocks water and filter the gliding hoisting machine structure of gate.

By adopting the technical scheme, when the water pressure of the water source with the high water level is higher than the alarm value or the water level of the water source with the high water level is higher than the water level early warning value, the hoisting mechanism drives the filter gate to move until the ground bottom surface of the filter gate is abutted against the inner bottom surface of the drainage through groove, then the hoisting mechanism drives the water-blocking gate to move until the bottom surface of the water-blocking gate is separated from the inner bottom surface of the drainage groove, the filtering work can be carried out, and the problem that the water source with the low water level is easily polluted by the polluted water source with the high water level is solved.

Optionally, hoisting machine constructs including the mount locate the support box of flat bed base top, rotate install in the inside rotation straight-bar of support box, coaxial each of being fixed in rotate a plurality of pulley of straight-bar week side and around locating the tensile steel cable of pulley outer peripheral face, it is same rotate a plurality of roots of straight-bar week side the tip of tensile steel cable is provided with a set of and is used for making the gate that blocks water and filter the gate with the equipment mechanism that tensile steel cable can fix or dismantle, the inside drive that is provided with of support box rotate straight-bar pivoted actuating mechanism.

By adopting the technical scheme, the driving mechanism drives the rotating straight rod to rotate, the rotating straight rod drives the pulley to rotate, the pulley drives the hoisting straight rod to move through the stretching steel rope, and the hoisting straight rod drives the filter gate or the water blocking gate to move so as to control the lifting of the filter gate and the water blocking gate.

Optionally, the assembling mechanism comprises a water blocking gate, a lifting straight rod on the top surface of the filtering gate and a dovetail straight strip fixed on the top surface of the water blocking gate and the filtering gate, a dovetail groove penetrating through the left side wall and the right side wall of the lifting straight rod is formed in the position, located on the bottom surface of the lifting straight rod, and the dovetail straight strip is connected with the inside of the lifting straight rod in a clamped mode through the dovetail groove.

By adopting the technical scheme, when the water pressure of the high-water-level running water is lower than an alarm value or the water level of the high-water-level running water is lower than a water level early warning value, the bottom surface of the water-blocking gate is abutted against the inner bottom surface of the water drainage through groove, the rotating straight rod drives the pulley to rotate, the pulley drives the filter gate to move through the tensile steel rope until the filter gate is separated from the flat plate base, and at the moment, the filter gate can be detached through the dovetail straight strip for maintenance or replacement; when the water pressure of the high-water-level running water is higher than an alarm value or the water level of the high-water-level running water is higher than a water level early warning value, the driving mechanism drives the rotating straight rod to rotate, the rotating straight rod drives the pulley to rotate, the pulley drives the water blocking gate to move through the tensile steel rope until the water blocking gate is separated from the flat plate base, and at the moment, the water blocking gate can be detached through the dovetail straight strip to be maintained or replaced.

Optionally, actuating mechanism including rotate install in inside drive straight-bar of supporting box, coaxial be fixed in each rotate the worm of straight-bar week side, coaxial be fixed in each drive straight-bar week side the worm wheel and be fixed in the driving motor of supporting box top surface, the worm wheel with the worm meshes mutually, the supporting box top is provided with and is used for making driving motor's output shaft with the synchronous pivoted lazytongs of drive straight-bar.

By adopting the technical scheme, firstly, the driving motor drives the driving straight rod to rotate through the synchronous mechanism, the driving straight rod drives the worm to rotate, the worm drives the worm wheel to rotate, then the worm wheel drives the rotating straight rod to rotate, the rotating straight rod drives the pulley to rotate, the pulley drives the hoisting straight rod to move through the tensile steel rope, and the hoisting straight rod drives the filter gate or the water-blocking gate to move.

Optionally, the synchronizing mechanism includes a limiting straight rod coaxially fixed to an output shaft of the driving motor, a first transmission roller inserted into the top end of the limiting straight rod, and a second transmission roller inserted into the top end of the driving straight rod, and a transmission belt is sleeved on the outer peripheral surfaces of the first transmission roller and the second transmission roller.

By adopting the technical scheme, the driving motor drives the limiting straight rod to rotate, the limiting straight rod drives the first transmission roller to rotate, the first transmission roller drives the second transmission roller to rotate through the transmission belt, and the second transmission roller drives the driving straight rod to rotate. Meanwhile, the second transmission roller is inserted into the top end of the other rotating straight rod in an inserting mode, and then the driving motor drives the other driving straight rod to rotate, so that the water blocking gate and the filtering gate can be lifted independently.

Optionally, a sand cleaning through groove penetrating through the front side wall and the rear side wall of the flat base is formed in the position, located at the bottom of the flat base, and the sand cleaning through groove is communicated with the drainage through groove.

Through adopting above-mentioned technical scheme, because long-time soaking in the river course on the flat bed base surface, silt can be piled up to confession water-blocking gate and the gliding recess of filter gate that the flat bed base surface was seted up inside, and the flat bed base leads to the groove through the groove of clearing sand and clears away silt out of the flat bed base.

Optionally, the side fixedly connected with water pressure sensor that the gate that blocks water is close to the flowing water of high water level, the gate top that blocks water is fixed with a plurality of waterproof buzzer, water pressure sensor with waterproof buzzer electricity signal connection.

By adopting the technical scheme, when the water pressure of the water source with high water level is higher than the alarm value or the water level of the water source with high water level is higher than the water level early warning value, the water pressure sensor can transmit a signal to the waterproof buzzer, and the waterproof buzzer starts to alarm

Optionally, the side of the water-blocking gate close to the running water at high water level is marked with water level scale lines.

Through adopting above-mentioned technical scheme, can detect the height of water level through water level scale mark.

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

1. when the water pressure of the water source with the high water level is higher than the alarm value or the water level of the water source with the high water level is higher than the water level early warning value, the hoisting mechanism drives the filter gate to move until the ground bottom surface of the filter gate is abutted to the inner bottom surface of the water discharge through groove, then the hoisting mechanism drives the water blocking gate to move until the bottom surface of the water blocking gate is separated from the inner bottom surface of the water discharge groove, the filtering work can be carried out, and the problem that the water source with the low water level is easily polluted by the polluted water source with the high water level is solved.

2. When the water pressure of the high-water-level running water is lower than an alarm value or the water level of the high-water-level running water is lower than a water level early warning value, the bottom surface of the water-blocking gate is abutted to the inner bottom surface of the water drainage through groove, the rotating straight rod drives the pulley to rotate, the pulley drives the filtering gate to move through the tensile steel rope until the filtering gate is separated from the flat plate base, and the filtering gate can be detached through the dovetail straight strip for maintenance or replacement; when the water pressure of the high-water-level running water is higher than an alarm value or the water level of the high-water-level running water is higher than a water level early warning value, the driving mechanism drives the rotating straight rod to rotate, the rotating straight rod drives the pulley to rotate, the pulley drives the water blocking gate to move through the tensile steel rope until the water blocking gate and the flat plate base are mutually separated, and at the moment, the water blocking gate can be detached through the dovetail straight strip to be maintained or replaced.

3. The driving motor drives the limiting straight rod to rotate, the limiting straight rod drives the first transmission roller to rotate, the first transmission roller drives the second transmission roller to rotate through the transmission belt, and the second transmission roller drives the driving straight rod to rotate. Meanwhile, the second transmission roller is inserted into the top end of the other rotating straight rod in an inserting mode, and then the driving motor drives the other driving straight rod to rotate, so that the water blocking gate and the filtering gate can be lifted independently.

Drawings

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

Fig. 2 is an exploded schematic view of an embodiment of the present application.

Fig. 3 is a schematic sectional view of a support box in the embodiment of the present application.

Description of reference numerals: 11. a flat base; 12. a first guide rail groove; 13. a second guide rail groove; 14. a water drainage through groove; 15. a sand cleaning through groove; 16. a water blocking gate; 17. a filter gate; 18. water level scale lines; 19. a water pressure sensor; 20. a waterproof buzzer; 21. dovetail straight bars; 22. hoisting a straight rod; 23. dovetail grooves; 24. a support straight plate; 25. supporting the box body; 26. rotating the through hole; 27. rotating the straight rod; 28. hoisting the through hole; 29. a pulley; 30. stretching the steel rope; 31. a drive through hole; 32. a driving straight rod; 33. a worm; 34. a worm gear; 35. a first limiting groove; 36. a second limiting groove; 37. a drive motor; 38. a limiting straight rod; 39. a first transmission roller; 40. a second transmission roller; 41. a drive belt; 42. a limiting bump; 43. a second bearing; 44. a first bearing.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses water sluicegate of detectable water pressure and water level. Referring to fig. 1 and 2, the water sluicegate capable of detecting water pressure and water level includes a flat plate base 11, and the flat plate base 11 is a flat plate structure in the shape of a rectangular parallelepiped. The side surface of the flat base 11 close to the high water level is the front side surface of the flat base 11, a first guide rail groove 12 is formed in the position, close to the front side surface, of the flat base 11, located on the top surface of the flat base, and a second guide rail groove 13 is formed in the position, close to the rear side surface, of the flat base 11, located on the top surface of the flat base 11. The position that flat base 11 is located self top surface sets up the logical groove 14 of sluicing that runs through two lateral walls about self, and the logical groove 14 of sluicing is linked together with guide rail groove one 12 and guide rail groove two 13 respectively, and flat base 11 is located the position of self bottom and sets up the logical groove 15 of clearing sand that runs through two lateral walls around self, and the logical groove 15 of clearing sand is linked together with the logical groove 14 of sluicing, guide rail groove one 12 and guide rail groove two 13 respectively.

Referring to fig. 1 and 2, a water blocking gate 16 for blocking running water is arranged in the flat plate base 11 through the first guide rail groove 12, and a filtering gate 17 for filtering the running water is arranged in the flat plate base 11 through the second guide rail groove 13. The front side surface of the water-blocking gate 16 is marked with water level scale marks 18 along the vertical direction, the front side surface of the water-blocking gate 16 is fixed with a water pressure sensor 19, the side surface of the water-blocking gate 16 positioned at the top of the water-blocking gate is uniformly fixed with four waterproof buzzers 20 along the length direction of the water-blocking gate, and the water pressure sensor 19 is in electrical signal connection with the waterproof buzzers 20. The position that the gate 16 that blocks water and the filter gate 17 all lie in self top surface is along the equal fixedly connected with forked tail vertical bar 21 of self length direction, and forked tail vertical bar 21 is trapezoidal rod-shaped structure for the shape. Hoist straight-bar 22 is all installed to each forked tail vertical bar 21 top surface, and hoist straight-bar 22 is located the position of self bottom surface and sets up the forked tail recess 23 that runs through two lateral walls about self, and forked tail recess 23 is trapezoidal groove structure for the cross-section, and forked tail vertical bar 21 passes through forked tail recess 23 joint inside hoist straight-bar 22 to this realizes hoist straight-bar 22 and forked tail vertical bar 21 and can dismantle each other, and the gate 16 that blocks water promptly and filter gate 17 homoenergetic and hoist straight-bar 22 and dismantle each other.

Referring to fig. 2 and 3, two supporting straight plates 24 are vertically fixed on the top surface of the flat bed base 11, and the two supporting straight plates 24 are oppositely arranged. A supporting box body 25 is erected between the two supporting straight plates 24, and the bottom surface of the supporting box body 25 is fixedly connected with the top surfaces of the supporting straight plates 24. Two rotation through-holes 26 that run through two lateral walls about self are seted up to the supporting box 25, and rotate through-hole 26 and be linked together with the supporting box 25 is inside, the supporting box 25 is worn to be equipped with through rotating through-hole 26 and is rotated straight-bar 27, first bearing 44 is all installed through rotating through-hole 26 to two lateral walls about the supporting box 25, the outer lane of first bearing 44 is fixed in the supporting box 25 lateral wall through rotating through-hole 26, rotate the coaxial inner circle that is fixed in first bearing 44 of straight-bar 27 tip, realize here that rotation straight-bar 27 rotates and install inside supporting box 25. Four hoisting through holes 28 are formed in the bottom surface of the supporting box body 25, two pulleys 29 are coaxially fixed on the peripheral sides of the rotating straight rods 27, tensile steel ropes 30 are wound around the pulleys 29, the end portions, far away from the pulleys 29, of the tensile steel ropes 30 penetrate out of the supporting box body 25 through the hoisting through holes 28, the end portions, far away from the pulleys 29, of the tensile steel ropes 30 are fixedly connected to the top surfaces of the hoisting straight rods 22, and the two tensile steel ropes 30 of the same rotating straight rod 27 are fixedly connected to the same hoisting straight rod 22.

Referring to fig. 2 and 3, the supporting box 25 is provided with two driving through holes 31 penetrating through the upper and lower side walls of the supporting box, and the driving through holes 31 are communicated with the inside of the supporting box 25. The supporting box body 25 is provided with a driving straight rod 32 through a driving through hole 31 in a penetrating manner, the upper side wall and the lower side wall of the supporting box body 25 are provided with second bearings 43 through the driving through hole 31, the outer ring of each second bearing 43 is fixed on the side wall of the supporting box body 25 through the driving through hole 31, the end part of the driving straight rod 32 is coaxially fixed on the inner ring of the corresponding second bearing 43, and therefore the driving straight rod 32 is rotatably arranged inside the supporting box body 25. The circumferential sides of the driving straight rods 32 are coaxially fixed with worms 33, the circumferential sides of the rotating straight rods 27 are coaxially fixed with worm wheels 34, and the two worm wheels 34 and the two worms 33 are in one-to-one correspondence and are meshed with each other. The top ends of the two rotating straight rods 27 penetrate out of the supporting box body 25 through the driving through holes 31, the top ends of the rotating straight rods 27 are provided with first limiting grooves 35 along the length direction of the top ends, and the first limiting grooves 35 are groove structures with rectangular cross sections. The top surface of the supporting box body 25 is fixedly connected with a driving motor 37, an output shaft of the driving motor 37 is vertically upwards and coaxially fixed with a limiting straight rod 38, the top end of the limiting straight rod 38 is provided with a second limiting groove 36 along the length direction, and the second limiting groove 36 is a groove structure with a rectangular cross section.

Referring to fig. 2 and 3, the top surface of the limiting straight rod 38 is abutted with a first transmission roller 39, the top surface of the driving straight rod 32 is abutted with a second transmission roller 40, a limiting bump 42 is coaxially fixed on the bottom surfaces of the first transmission roller 39 and the second transmission roller 40, and the limiting bump 42 is of a block structure in a cuboid shape. The limiting convex block 42 is inserted at the top end of the limiting straight rod 38 through the first limiting groove 35, and the limiting convex block 42 is inserted at the top end of the driving straight rod 32 through the second limiting groove 36, so that the limiting straight rod 38 can drive the first transmission roller 39 to rotate, and the limiting straight rod 38 and the first transmission roller 39 can be separated from each other; the driving straight rod 32 drives the second transmission roller 40 to rotate, and meanwhile, the driving straight rod 32 and the second transmission roller 40 can be separated from each other. The peripheral surfaces of the first transmission roller 39 and the second transmission roller 40 are sleeved with a transmission belt 41.

The implementation principle of the water sluicegate of this application embodiment detectable water pressure and water level is: when the water pressure of the water source with the high water level is lower than the alarm value or the water level of the water source with the high water level is lower than the water level early warning value, the bottom surface of the water blocking gate 16 is abutted with the inner bottom surface of the water drainage through groove 14; the driving motor 37 drives the driving straight rod 32 to rotate, the driving straight rod 32 drives the worm 33 to rotate, the worm 33 drives the worm wheel 34 to rotate, the worm wheel 34 drives the rotating straight rod 27 to rotate, the rotating straight rod 27 drives the pulley 29 to rotate, the pulley 29 drives the hoisting straight rod 22 to move through the tensile steel rope 30, the hoisting straight rod 22 drives the filter gate 17 to move until the filter gate 17 and the flat plate base 11 are separated from each other, and at the moment, the filter gate 17 can be detached for maintenance or replacement. When the water pressure of the water source with the high water level is higher than the alarm value or the water level of the water source with the high water level is higher than the water level early warning value, the water pressure sensor 19 transmits a signal to the waterproof buzzer 20, and the waterproof buzzer 20 starts to alarm; the driving motor 37 drives the first driving roller 39, the first driving roller 39 drives the second driving roller 40 to rotate through the driving belt 41, the second driving roller 40 drives the driving straight rod 32 to rotate, the driving straight rod 32 drives the pulley 29 to rotate, then the pulley 29 drives the hoisting straight rod 22 to move through the tensile steel rope 30, and the hoisting straight rod 22 drives the filter gate 17 to move until the filter gate 17 abuts against the inner bottom surface of the water drainage through groove 14. The second transmission roller 40 is inserted into the top end of the other rotating straight rod 27, the driving motor 37 drives the pulley 29 to rotate, the pulley 29 drives the lifting straight rod 22 to move through the tensile steel rope 30, the lifting straight rod 22 drives the water-blocking gate 16 to move until the water-blocking gate 16 is separated from the flat base 11, and at this time, the water-blocking gate 16 can be detached for maintenance or replacement.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, 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 (8)

1. The utility model provides a water sluicegate of detectable water pressure and water level, includes flat base (11), flat base (11) are located the position of self top surface and offer the logical groove (14) of sluicing that runs through two lateral walls about self, its characterized in that: the flat bed base (11) is provided with a water blocking gate (16) used for blocking running water and a filtering gate (17) used for filtering the running water in a sliding mode through the water drainage through groove (14), and a hoisting mechanism used for driving the water blocking gate (16) and the filtering gate (17) to slide is arranged above the flat bed base (11).

2. The water sluicegate capable of detecting water pressure and water level according to claim 1, wherein: hoisting machine constructs including the mount locate support box (25), the rotation of flat bed base (11) top install in support box (25) inside rotation straight-bar (27), coaxial each of being fixed in rotate a plurality of pulley (29) of straight-bar (27) week side and around locating the tensile steel cable (30) of pulley (29) outer peripheral face, it is same rotate a plurality of roots of straight-bar (27) week side the tip of tensile steel cable (30) is provided with a set of and is used for making water-blocking gate (16) and filter gate (17) with the equipment mechanism that tensile steel cable (30) can fix or dismantle, support box (25) inside is provided with the drive rotate straight-bar (27) pivoted actuating mechanism.

3. The water sluicegate capable of detecting water pressure and water level according to claim 2, wherein: the equipment mechanism include the butt in the gate (16) that blocks water with hoist and mount straight-bar (22) of filter gate (17) top surface and be fixed in the gate (16) that blocks water with dovetail straight-bar (21) of filter gate (17) top surface position, the position that hoist and mount straight-bar (22) are located self bottom surface is seted up dovetail groove (23) that run through two lateral walls about self, dovetail straight-bar (21) pass through dovetail groove (23) joint in hoist and mount straight-bar (22) are inside.

4. The water sluicegate of claim 3, wherein the water pressure and water level can be detected by: actuating mechanism including rotate install in inside drive straight-bar (32), the coaxial each of being fixed in of supporting box (25) worm (33), the coaxial each of being fixed in of rotating straight-bar (27) week side worm wheel (34) and being fixed in of drive straight-bar (32) week side driving motor (37) of supporting box (25) top surface, worm wheel (34) with worm (33) mesh mutually, supporting box (25) top is provided with and is used for making driving motor (37) the output shaft with drive straight-bar (32) synchronous rotation's lazytongs.

5. The water sluicegate of claim 4, which is characterized in that: the synchronous mechanism comprises a limiting straight rod (38) coaxially fixed on an output shaft of the driving motor (37), a first transmission roller (39) inserted at the top end of the limiting straight rod (38) and a second transmission roller (40) inserted at the top end of the driving straight rod (32), and a transmission belt (41) is sleeved on the outer peripheral surfaces of the first transmission roller (39) and the second transmission roller (40).

6. The water sluicegate capable of detecting water pressure and water level according to claim 1, wherein: the flat base (11) is provided with a sand cleaning through groove (15) penetrating through the front side wall and the rear side wall of the flat base at the bottom of the flat base, and the sand cleaning through groove (15) is communicated with the water drainage through groove (14).

7. The water sluicegate capable of detecting water pressure and water level according to claim 1, wherein: the water-blocking gate (16) is close to the side fixedly connected with water pressure sensor (19) of the running water of the high water level, a plurality of waterproof buzzers (20) are fixed at the top of the water-blocking gate (16), and the water pressure sensor (19) is connected with electric signals of the waterproof buzzers (20).

8. The water sluicegate capable of detecting water pressure and water level according to claim 1, wherein: the side surface of the water-blocking gate (16) close to the running water with high water level is marked with water level scale marks (18).

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