CN216809781U - Water sluicegate that can shunt many times - Google Patents

Abstract

The utility model belongs to the technical field of water sluicegates, and particularly relates to a water sluicegate capable of repeatedly shunting, which comprises support bases, support columns and a support top plate, wherein one ends of the two support columns are symmetrically and fixedly connected to the middle end of the top of the support base, the bottom of the support top plate is fixedly connected with the other ends of the two support columns, a shunting mechanism is arranged between the two support bases, and a gate control assembly is arranged on the shunting mechanism; through groove quantity is led to by supreme increase in proper order down through the reposition of redundant personnel, and the gate bottom runs through to slide inside the flow distribution plate, consequently can raise the gate according to the displacement demand of difference, along with raising of gate, the displacement that the reposition of redundant personnel led to the groove increases thereupon, when the non-manual work is controlled the gate, can monitor the height at water source through level sensor, the controller is water level signal transmission to motor, make motor work drive gate open with the corresponding opening size in phase place, the suitability is higher.

Description

Water sluicegate that can shunt many times

Technical Field

The utility model belongs to the technical field of water conservancy gates, and particularly relates to a water conservancy gate capable of repeatedly shunting.

Background

The sluice is a low-water-head hydraulic structure which is built on a river channel and a channel and utilizes the sluice to control the flow and adjust the water level, and the closing of the sluice can block flood, block tide or raise the upstream water level so as to meet the requirements of irrigation, power generation, shipping, aquatic products, environmental protection, industrial and domestic water and the like; the gate is opened, flood, waterlogging, abandoned water or waste water can be released, water can be supplied to downstream river channels or channels, and the sluice is widely applied as a building for retaining water, draining water or taking water in hydraulic engineering.

In the water conservancy gate among the reality, when need open the gate and turn on the water, directly open the gate usually, because the water level of one end is higher, consequently, when the gate is opened, the impact force of rivers is very strong, leads to stability when the drainage not enough, and can't be according to the height of water level, judges the opening size that the gate was opened, and the suitability is not high.

In order to solve the problem, the water conservancy gate capable of shunting for multiple times is provided in the application.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides a water conservancy gate capable of repeatedly shunting, which is provided with a shunting mechanism, wherein the gate can be opened to a corresponding opening size according to different water discharging requirements, the impact of water flow is reduced under the action of a shunting groove and a buffer assembly, the service life is prolonged, the gate can be opened to a corresponding height according to the height of a water level by a gate control assembly, and the applicability is stronger.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a water sluicegate that can shunt many times, includes supporting pedestal, support column and supporting roof, two support column one end symmetry fixed connection is in supporting pedestal top middle-end, supporting roof bottom and two support column other end fixed connection, two be provided with reposition of redundant personnel mechanism between the supporting pedestal, be provided with the gate control subassembly in the reposition of redundant personnel mechanism.

Preferably, the water conservancy gate capable of repeatedly shunting comprises a shunting plate, shunting through grooves and a gate, wherein the shunting plate is fixedly connected between two supporting bases, the shunting through grooves are formed in the side surface of the shunting plate, and the bottom of the gate penetrates and slides in the shunting plate.

Preferably, the water conservancy gate capable of repeatedly shunting is characterized in that the shunting mechanism further comprises a motor, a take-up reel, a steel rope and a buffer assembly, the motor is fixedly connected to one side of the top of the supporting top plate, one side of the take-up reel is fixedly connected with the output end of the motor, one end of the steel rope is sleeved on the top of the gate, the other end of the steel rope penetrates through the supporting top plate and is connected with the take-up reel, and the buffer assembly is arranged in the shunting through groove.

Preferably, the water conservancy gate capable of repeatedly shunting comprises a fixed seat, a rotating rod and a rotating plate, wherein one ends of the two fixed seats are symmetrically and fixedly connected inside two sides of the shunting through groove, two ends of the rotating rod are respectively and rotatably connected with the other end of the fixed seat, and the rotating plate is fixedly connected around the rotating rod at equal intervals.

Preferably, the gate control assembly comprises a control box, a controller and water level sensors, the control box is fixedly connected to one side of the top of the supporting top plate, the controller is installed in the control box, and the water level sensors are installed on the gate and opposite to the water inlet.

Preferably, the number of the diversion through grooves is increased from bottom to top, and the water level sensor and the diversion through grooves are positioned on the same horizontal line.

Preferably, the motor and the water level sensor are electrically connected with a controller, and the controller is electrically connected with an external power supply.

As an optimal water conservancy gate capable of repeatedly distributing flow, the two ends of the gate are fixedly connected with the sliding plates, and the gate is connected to the inner side of the support column in a sliding mode through the sliding plates.

Compared with the prior art, the utility model has the beneficial effects that:

1. through with flow distribution plate fixed connection between two support substrate, make the stability of flow distribution plate obtain guaranteeing, lead to the groove through seting up a plurality of reposition of redundant personnel on the flow distribution plate, make the discharge of rivers more stable, lead to groove quantity by supreme increase in proper order down because of the reposition of redundant personnel, and the gate bottom runs through to slide inside the flow distribution plate, consequently can raise the gate according to the displacement demand of difference, along with raising of gate, the displacement that the reposition of redundant personnel led to the groove increases thereupon.

2. When the gate is controlled in a non-manual mode, the height of a water source can be monitored through the water level sensor, when water is drained, the water level sensor transmits the monitored water level to the controller, the controller transmits a water level signal to the motor, the motor works, the take-up reel is driven to rotate, the take-up reel drives the gate to move upwards, the gate is opened to form an opening corresponding to a phase, the controller is installed inside the control box, the working stability of the controller is guaranteed, the water level sensor and the shunting through groove are located on the same horizontal line, and water level monitoring is accurate.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of a flow distribution plate according to the present invention;

FIG. 3 is a schematic view of a water level sensor according to the present invention;

FIG. 4 is a schematic view of a buffer assembly according to the present invention.

In the figure:

1. a support base; 2. a support pillar; 3. supporting a top plate; 4. a flow distribution mechanism; 41. a flow distribution plate; 42. a shunt through slot; 43. a gate; 431. a slide plate; 44. a motor; 45. a take-up reel; 46. a steel cord; 47. a buffer assembly; 471. a fixed seat; 472. rotating the rod; 473. a rotating plate; 5. a gate control assembly; 51. a control box; 52. a controller; 53. a water level sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in fig. 1;

the utility model provides a water sluicegate that can shunt many times, includes supporting pedestal 1, support column 2 and roof support 3, and 2 one end symmetry fixed connection of two support columns are provided with reposition of redundant personnel mechanism 4 in the middle-end in supporting pedestal 1 top with two 2 other end fixed connection of support column in the roof support 3 bottoms, between two supporting pedestal 1, is provided with gate control assembly 5 on the reposition of redundant personnel mechanism 4.

In this embodiment: through with 2 one end symmetry fixed connection of support column in 1 top middle-end of support base, guaranteed the structural stability of support column 2, through 3 bottoms with two 2 other ends fixed connection of support column for the structural stability of roof support 3 has obtained the assurance.

As shown in fig. 1-4;

based on current water sluicegate equipment, through reposition of redundant personnel mechanism 4, can open corresponding opening size with gate 43 according to the requirement of draining of difference, under the effect through diversion trench and buffering subassembly 47, reduce the impact of rivers, life obtains improving, through gate control subassembly 5, can open gate 43 to corresponding height according to the height of water level, and the suitability is stronger.

Further, the following steps:

in combination with the above, the shunting mechanism 4 includes a shunting plate 41, shunting through grooves 42 and a gate 43, the shunting plate 41 is fixedly connected between the two support bases 1, the shunting through grooves 42 are opened on the side surface of the shunting plate 41, the bottom of the gate 43 penetrates through and slides inside the shunting plate 41, and the number of the shunting through grooves 42 is sequentially increased from bottom to top.

In this embodiment: through with flow distribution plate 41 fixed connection between two support substrate 1, make flow distribution plate 41's stability obtain guaranteeing, through set up a plurality of reposition of redundant personnel logical groove 42 on flow distribution plate 41, make the discharge of rivers more stable, lead to groove 42 quantity to increase by supreme down in proper order because of the reposition of redundant personnel, and gate 43 bottom runs through the slip inside flow distribution plate 41, consequently can raise gate 43 according to the displacement demand of difference, along with raising of gate 43, the displacement that divides logical groove 42 increases thereupon.

It should be noted that: both ends of gate 43 are fixedly connected with sliding plates 431, and gate 43 is slidably connected to the inner side of support column 2 through sliding plates 431.

In this embodiment: through equal fixedly connected with slide 431 in gate 43 both ends, and gate 43 passes through slide 431 sliding connection and is inboard at support column 2 for the slip of gate 43 is more stable.

Further, the method comprises the following steps: reposition of redundant personnel mechanism 4 still includes motor 44, take-up reel 45, steel cable 46 and buffer module 47, and motor 44 fixed connection is in 3 top one sides of roof support, 45 one sides of take-up reel and motor 44 output fixed connection, and steel cable 46 one end is cup jointed at gate 43 top, and the steel cable 46 other end runs through roof support 3 and is connected with take-up reel 45, and buffer module 47 all installs in reposition of redundant personnel logical groove 42.

In this embodiment: through with motor 44 fixed connection in 3 top one sides of roof support, the job stabilization nature of motor 44 has been guaranteed, output fixed connection through with take-up reel 45 and motor 44, make the rotation of take-up reel 45 more stable, through cup jointing steel cable 46 one end at gate 43 top, and the steel cable 46 other end runs through roof support 3 and is connected with take-up reel 45, consequently when take-up reel 45 rotates under motor 44 drives, take-up reel 45 drives steel cable 46 and carries out the rolling, steel cable 46 drives the upwards pulling of gate 43, moreover, the steam generator is simple in structure, and is convenient to use.

It should be noted that: the buffer assembly 47 includes a fixing seat 471, a rotating rod 472 and a rotating plate 473, wherein one ends of the two fixing seats 471 are symmetrically and fixedly connected inside two sides of the diversion through groove 42, two ends of the rotating rod 472 are respectively and rotatably connected with the other end of the fixing seat 471, and the rotating plate 473 is fixedly connected around the rotating rod 472 at equal intervals.

In this embodiment: when gate 43 is opened, rivers are got rid of through reposition of redundant personnel logical groove 42, and rivers assault rotating plate 473, receive rivers impact when rotating plate 473, drive dwang 472 and rotate, rotate because of dwang 472 both ends and connect on fixing base 471, and inside fixing base 471 one end symmetry fixed connection is led to reposition of redundant personnel logical groove 42 both sides, therefore the rotation of dwang 472 is more stable.

Further, the method comprises the following steps: the gate control assembly 5 comprises a control box 51, a controller 52 and a water level sensor 53, wherein the control box 51 is fixedly connected to one side of the top of the supporting top plate 3, the controller 52 is installed inside the control box 51, the water level sensors 53 are all installed on the gate 43 and are opposite to one side of the water inlet, and the water level sensors 53 and the diversion through grooves 42 are located on the same horizontal line.

In this embodiment: when gate 43 is controlled non-artificially, can monitor the height at water source through level sensor 53, when needs drainage, level sensor 53 is through the high transmission to controller 52 of water level that will monitor, controller 52 transmits water level signal to motor 44, make motor 44 work, drive take-up reel 45 and rotate, take-up reel 45 drives gate 43 upward movement, make gate 43 open with the corresponding opening size of phase place, through installing controller 52 inside control box 51, the job stabilization of controller 52 has been guaranteed, through being located same water level with level sensor 53 and reposition of redundant personnel logical groove 42, make water level monitoring more accurate.

It should be noted that: the motor 44 and the water level sensor 53 are both electrically connected to the controller 52, and the controller 52 is electrically connected to an external power source.

In this embodiment: through all with motor 44 and level sensor 53 and controller 52 electric connection for the work of motor 44 and level sensor 53 is more stable, through with controller 52 and external power source electric connection, has guaranteed the job stabilization nature of controller 52.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a water sluicegate that can shunt many times, includes supporting pedestal (1), support column (2) and roof support (3), two support column (2) one end symmetry fixed connection is in supporting pedestal (1) top middle-end, roof support (3) bottom and two support column (2) other end fixed connection, its characterized in that: two be provided with reposition of redundant personnel mechanism (4) between support base (1), be provided with gate control subassembly (5) on reposition of redundant personnel mechanism (4).

2. The water sluicegate capable of multiple diversion according to claim 1, wherein: reposition of redundant personnel mechanism (4) are including flow distribution plate (41), reposition of redundant personnel logical groove (42) and gate (43), flow distribution plate (41) fixed connection is between two support base (1), a plurality of flow distribution logical groove (42) are seted up in flow distribution plate (41) side, slide in flow distribution plate (41) is run through to gate (43) bottom.

3. The water sluicegate that can shunt many times of claim 2, characterized in that: reposition of redundant personnel mechanism (4) still include motor (44), take-up reel (45), steel cable (46) and buffer assembly (47), motor (44) fixed connection is in supporting roof (3) top one side, take-up reel (45) one side and motor (44) output fixed connection, steel cable (46) one end is cup jointed at gate (43) top, steel cable (46) other end runs through supporting roof (3) and is connected with take-up reel (45), buffer assembly (47) are all installed in reposition of redundant personnel logical groove (42).

4. A multiple diverter water sluicegate according to claim 3, wherein: buffering subassembly (47) include fixing base (471), dwang (472) and rotor plate (473), two inside fixing base (471) one end symmetry fixed connection divides the logical groove (42) both sides of reposition of redundant personnel, dwang (472) both ends are rotated with the fixing base (471) other end respectively and are connected, equidistant fixed connection is around dwang (472) rotor plate (473).

5. The water sluicegate capable of multiple diversion according to claim 4, wherein: the gate control assembly (5) comprises a control box (51), a controller (52) and a water level sensor (53), wherein the control box (51) is fixedly connected to one side of the top of the supporting top plate (3), the controller (52) is installed inside the control box (51), and the water level sensor (53) is installed on one side, opposite to the water inlet, of the gate (43).

6. The water sluicegate that can diverged many times of claim 5, characterized in that: the number of the shunting through grooves (42) is increased from bottom to top in sequence, and the water level sensors (53) and the shunting through grooves (42) are positioned on the same horizontal line.

7. The water sluicegate that can shunt many times of claim 6, characterized in that: the motor (44) and the water level sensor (53) are both electrically connected with the controller (52), and the controller (52) is electrically connected with an external power supply.

8. The water sluicegate of claim 7, wherein: the equal fixedly connected with slide (431) in gate (43) both ends, gate (43) pass through slide (431) sliding connection and are inboard at support column (2).

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