CN215518637U - Water conservancy project construction is with sluice structure that has reposition of redundant personnel function - Google Patents

Abstract

The utility model is suitable for the technical field of water gates, and provides a water gate structure with a flow dividing function for hydraulic engineering construction, which comprises an upstream section, a connecting gate and a downstream section, wherein the downstream section is positioned at the rear side of the upstream section, the connecting gate is positioned between the upstream section and the downstream section, one end of the connecting gate is communicated with the rear side of an inner cavity of the upstream section, and the other end of the connecting gate is communicated with the front side of the inner cavity of the downstream section. This hydraulic engineering construction is with sluice structure that has reposition of redundant personnel function, promote through connecting rod pulling gate, can open the one end that will connect the floodgate way, thereby make rivers get into the inside of downstream section, get into the inside back of downstream section through rivers, the manual work can be according to the reposition of redundant personnel situation, rotate the dwang that is located different positions and different quantity, it is rotatory to drive the shutoff board through the dwang, can open and shut the floodgate way, thereby make rivers get into the inside of reposition of redundant personnel water course and shunt and flow, increase the reposition of redundant personnel function of sluice.

Description

Water conservancy project construction is with sluice structure that has reposition of redundant personnel function

Technical Field

The utility model belongs to the technical field of water gates, and particularly relates to a water gate structure with a flow dividing function for hydraulic engineering construction.

Background

The sluice is a low-head hydraulic structure, has the dual functions of water retaining and draining, and the traditional sluice adjusts the water level and controls the small flow through single opening and closing, thereby playing the roles of flood control, irrigation, drainage and the like. In recent years, with the development of hydraulic engineering industry, the comprehensive benefit is remarkable. The construction of a hydraulic engineering often needs to have a great deal of functions such as flood control, irrigation, water intaking, electricity generation, ecology, environmental landscape concurrently, and according to the function of difference, its water intaking flow and elevation difference often are great.

Current water conservancy project for construction sluice structure for agricultural only relies on earth to fill the shutoff irrigation canals and ditches, or uses single sluice to carry out shutoff rivers, and the functional of sluice has less only played the function of the choked flow and the size of control rivers to rivers, but does not possess the function of shunting rivers to the construction of hydraulic engineering is not convenient for.

Disclosure of Invention

The utility model provides a sluice structure with a flow dividing function for hydraulic engineering construction, and aims to solve the problem that the existing sluice structure for hydraulic engineering construction is low in functionality and does not have the function of dividing water flow.

The utility model is realized in such a way, the sluice structure with the flow dividing function for the hydraulic engineering construction comprises an upstream section, a connecting gate and a downstream section, wherein the downstream section is positioned at the rear side of the upstream section, the connecting gate is positioned between the upstream section and the downstream section, one end of the connecting gate is communicated with the rear side of an inner cavity of the upstream section, the other end of the connecting gate is communicated with the front side of the inner cavity of the downstream section, two gate piers are fixedly connected with the rear side of the inner wall of the upstream section, a gate is arranged between the two gate piers, the top of the gate is fixedly connected with a connecting rod, a breast wall is arranged at the top between the inner wall surfaces of the two gate piers, the top of the gate can extend to the top of the breast wall in a pulling way, a plurality of opening and closing gates are communicated with the rear side surface of the downstream section, and a blocking plate is vertically arranged in the inner cavity of the opening and closing gate in a rotating way, the trailing flank intercommunication that opens and shuts the floodgate way has the reposition of redundant personnel water course, the both sides that open and shut the floodgate way inner wall all be fixed with the limiting plate of shutoff board looks adaptation, the vertical dwang that is provided with in top of shutoff board, the top of dwang extends to the outside of the floodgate way that opens and shuts, the vertical motor that is provided with in top of the floodgate way that opens and shuts, the output shaft of motor with the top average level of dwang is provided with drive gear, two drive gear passes through chain drive and connects.

Preferably, the both ends of upper reaches section inner wall rear side are equal fixedly connected with upper reaches revetment, the bottom of upper reaches section inner wall is located the equal fixedly connected with upper reaches bank protection in outside of upper reaches revetment.

Preferably, the bottom of the upstream section inner wall is located on the front side of the gate and transversely provided with a paving layer, and the bottom of the upstream section inner wall is located on the front side of the paving layer and transversely provided with an upstream anti-impact groove.

Preferably, both ends of the front side of the inner wall of the downstream section are fixedly connected with downstream retaining walls, and a stilling pool is arranged on the front side of the bottom of the inner wall of the downstream section.

Preferably, a Heiman layer is transversely arranged on the rear side of the bottom of the inner wall of the upstream section, and a downstream anti-impact groove is transversely arranged on the rear side of the bottom of the inner wall of the upstream section, which is positioned on the Heiman layer.

Preferably, the top inside the switching gate is provided with a connecting bearing for the rotating rod to rotate.

Compared with the prior art, the utility model has the beneficial effects that: the utility model relates to a sluice structure with a flow dividing function for hydraulic engineering construction, which is characterized in that agricultural ditch water flow is blocked in an upstream section, when the water flow needs to be discharged, a gate can be pulled to rise through a connecting rod, one end of a connecting sluice channel can be opened, so that the water flow enters the interior of a downstream section, after entering the interior of the downstream section through the water flow, rotating rods which are positioned at different positions and have different numbers can be manually rotated according to the flow dividing condition, a blocking plate is driven to rotate through the rotating rods, the opening and closing sluice channel can be opened, so that the water flow enters the interior of the flow dividing water channel to be divided and flow, the flow dividing channel is communicated with different ditches to increase the flow dividing function of the sluice, the construction of the sluice on the hydraulic engineering is facilitated, and when entering the interior of the downstream section through the water flow, the impact of a damping pool and a Heliman layer on the water flow can be relieved, make rivers more stable when getting into the inside of downstream section to make the floodgate better to the reposition of redundant personnel effect of rivers.

Drawings

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

FIG. 2 is a schematic structural view of a gate pier and a gate according to the present invention;

FIG. 3 is a schematic structural view of an opening/closing gate and a blocking plate according to the present invention.

In the figure: 1. the device comprises an upstream section-2, a connecting gate-3, a downstream section-4, gate piers-5, gates-6, connecting rods-7, a breast wall-8, an opening and closing gate-9, a limiting plate-10, a diversion channel-11, a rotating rod-12, a plugging plate-13, an upstream slope protection-14, an upstream protective wall-15, a covering layer-16, an upstream anti-erosion groove-17, a downstream protective wall-18, a Heiman layer-19, a downstream anti-erosion groove-20, a stilling pool-21, a motor-22, a transmission gear-23 and a connecting bearing.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1-3, the present invention provides a technical solution: including upper reaches section 1, connection floodgate way 2 and downstream section 3, downstream section 3 is located the rear side of upper reaches section 1, connects floodgate way 2 to be located between upper reaches section 1 and the downstream section 3, connects the one end of floodgate way 2 and the rear side intercommunication of the 1 inner chamber of upper reaches section, connects the other end of floodgate way 2 and the front side intercommunication of the 3 inner chambers of downstream section.

The water flow blocked by the upstream section 1 can be communicated through the guide of the connecting gate 2 and finally enters the interior of the downstream section 3.

Two gate piers 4 of rear side fixedly connected with of 1 inner wall of upper reaches section, be provided with gate 5 between two gate piers 4, the top fixedly connected with connecting rod 6 of gate 5, the top between two gate pier 4 internal face is provided with breast wall 7, but the top of gate 5 extends to the top of breast wall 7 with the pull.

The gate piers 4, the gates 5 and the breast wall 7 are not described in detail herein for the prior art.

The other end of connecting rod 6 communicates with the outside headstock gear of sluice, and headstock gear work can rise through 6 pulling gates 5 of connecting rod to open the one end that will connect the floodgate 2 confined, make the rivers of the inside separation of upper reaches section 1 introduce in the inside of downstream section 3 through connecting floodgate 2.

The trailing flank intercommunication of downstream section 3 has a plurality of floodgate way 8 that opens and shuts, and the inner chamber of the floodgate way 8 that opens and shuts rotationally vertically is provided with shutoff board 12, and the trailing flank intercommunication of the floodgate way 8 that opens and shuts has reposition of redundant personnel water course 10, and the both sides of the floodgate way 8 inner wall that opens and shuts all are fixed with the limiting plate 9 with shutoff board 12 looks adaptation.

10 can be as required towards different position, be convenient for communicate with the channel, the side of closure plate 12 rotates when inconsistent with limiting plate 9, can carry out the shutoff with the intercommunication department of switching floodgate way 8 and downstream section 3 to avoid rivers to get into the inside of switching floodgate way 8.

The vertical dwang 11 that is provided with in top of shutoff board 12, the top of dwang 11 extends to the outside of the floodgate way 8 that opens and shuts, and the vertical motor 21 that is provided with in top of the floodgate way 8 that opens and shuts, the equal level in output shaft of motor 21 and the top of dwang 11 is provided with drive gear 22, and two drive gear 22 pass through chain drive and connect.

The work of motor 21 drives drive gear 22 on the motor 21 and rotates, the transmission of rethread chain can drive dwang 11 and rotate, utilize dwang 11 can drive shutoff board 12 and rotate, shutoff board 12 is rotatory when not contacting with limiting plate 9, can open the junction of the gate 8 that opens and shuts with downstream section 3, make rivers get into the inside of the gate 8 that opens and shuts, and through the rotatory angle of shutoff board 12, the degree of opening and shutting of control gate 8 and downstream section 3, thereby the velocity of flow of control rivers.

Through the inside with rivers separation at upstream section 1, when needs discharge rivers, can pass through the headstock gear and pull 5 lifts of connecting rod 6, can open the one end that will connect the floodgate way 2 to make rivers get into the inside of downstream section 3, through rivers entering behind the inside of downstream section 3.

The manual work can be according to the reposition of redundant personnel situation, rotates the dwang 11 that is located different positions and different quantity, drives closure plate 12 through dwang 11 and rotates, can open and shut floodgate way 8 to make rivers get into the inside of reposition of redundant personnel water course 10 and shunt and flow, increase the reposition of redundant personnel function of sluice, the sluice of being convenient for is to hydraulic engineering's construction.

Further, the equal fixedly connected with upper reaches revetment 14 in both ends of 1 inner wall rear side of upper reaches section, the equal fixedly connected with upper reaches bank protection 13 in outside that the bottom of 1 inner wall of upper reaches section is located upper reaches revetment 14.

In this embodiment, the upstream retaining wall 14 improves the erosion resistance and the permeation resistance of the sluice against the water flow, so that the sluice can be used more stably.

Further, a paving layer 15 is transversely arranged on the bottom of the inner wall of the upstream section 1 at the front side of the gate 5, and an upstream anti-impact groove 16 is transversely arranged on the bottom of the inner wall of the upstream section 1 at the front side of the paving layer 15.

In this embodiment, the cover layer 15 improves the permeability of the floodgate to water flow.

Furthermore, both ends of the front side of the inner wall of the downstream section 3 are fixedly connected with downstream retaining walls 17, and a stilling pool 20 is arranged on the front side of the bottom of the inner wall of the downstream section 3.

In this embodiment, when water flows into the downstream section 3, the impact of the absorption basin 20 on the water flows is relieved, so that the water flows are more stable when entering the downstream section 3, and the water gate has a better flow dividing effect on the water flows.

Further, a Heiman layer 18 is transversely arranged on the rear side of the bottom of the inner wall of the upstream section 1, and a downstream anti-impact groove 19 is transversely arranged on the rear side of the bottom of the inner wall of the upstream section 1, which is positioned on the Heiman layer 18.

In this embodiment, the haman layer 18 facilitates the secondary force unloading of the water flow after the force unloading, the impact force eliminating effect on the flow of the water flow is good, and the downstream erosion preventing groove 19 can prevent the water flow from scouring the riverbed at the bottom of the downstream section 3 in the flowing process.

Further, a connecting bearing 23 for rotating the rotating rod 11 is provided at the top inside the opening/closing gateway 8.

In this embodiment, the stability of the rotating rod 11 in the process that the rotating rod 11 is driven by the motor 21 to rotate is improved through the connecting bearing 23, and the plugging plate 12 is driven to rotate more stably by the rotating rod 11.

The working principle and the using process of the utility model are as follows: after the utility model is installed, the water flow is blocked in the upstream section 1, when the water flow needs to be discharged, namely, the gate 5 can be pulled to rise through the connecting rod 6, one end of the connecting gate 2 can be opened, so that the water flow enters the interior of the downstream section 3, after entering the interior of the downstream section 3 through the water flow, the rotating rods 11 which are positioned at different positions and have different quantities can be rotated manually according to the flow dividing condition, the rotating rods 11 drive the plugging plate 12 to rotate, the opening and closing gate 8 can be opened, so that the water flow enters the inner part of the diversion water channel 10 to carry out diversion flow, the diversion function of the water gate is increased, and when the water flow enters the inner part of the downstream section 3, the impact of the absorption basin 20 and the Heiman layer 18 on the water flow can be used for unloading, so that the water flow is more stable when entering the interior of the downstream section 3, and the water gate has a better flow dividing effect on the water flow.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. The utility model provides a hydraulic engineering construction is with sluice structure that has reposition of redundant personnel function which characterized in that: including upper reaches section (1), connection floodgate way (2) and downstreams section (3), downstreams section (3) are located the rear side of upper reaches section (1), it is located to connect floodgate way (2) upper reaches section (1) with between downstreams section (3), the one end of connecting floodgate way (2) with the rear side intercommunication of upper reaches section (1) inner chamber, the other end of connecting floodgate way (2) with the front side intercommunication of downstreams section (3) inner chamber, the rear side fixedly connected with two floodgate piers (4) of upper reaches section (1) inner wall, two be provided with gate (5) between floodgate pier (4), the top fixedly connected with connecting rod (6) of gate (5), two the top between floodgate pier (4) internal face is provided with breastwall (7), the top of gate (5) can extend to the top of breastwall (7) with the pull, the trailing flank intercommunication of lower limb section (3) has a plurality of gateway (8) that opens and shuts, the inner chamber that opens and shuts gateway (8) rotationally vertically is provided with closure plate (12), the trailing flank intercommunication that opens and shuts gateway (8) has reposition of redundant personnel water course (10), the both sides that open and shut gateway (8) inner wall all be fixed with limiting plate (9) of closure plate (12) looks adaptation, the vertical dwang (11) that is provided with in top of closure plate (12), the top of dwang (11) extends to the outside of gateway (8) opens and shuts, the vertical motor (21) that is provided with in top of gateway (8) opens and shuts, the output shaft of motor (21) with the top average level of dwang (11) is provided with drive gear (22), two drive gear (22) are connected through chain drive.

2. The sluice structure with the flow dividing function for the water conservancy project construction according to claim 1, wherein: the equal fixedly connected with upper reaches revetment (14) in both ends of upper reaches section (1) inner wall rear side, the bottom of upper reaches section (1) inner wall is located the equal fixedly connected with upper reaches bank protection (13) in outside of upper reaches revetment (14).

3. The sluice structure with the flow dividing function for the water conservancy project construction according to claim 1, wherein: the bottom of the inner wall of the upstream section (1) is located on the front side of the gate (5) and is transversely provided with a paving layer (15), and the bottom of the inner wall of the upstream section (1) is located on the front side of the paving layer (15) and is transversely provided with an upstream anti-impact groove (16).

4. The sluice structure with the flow dividing function for the water conservancy project construction according to claim 1, wherein: the two ends of the front side of the inner wall of the downstream section (3) are fixedly connected with downstream retaining walls (17), and a stilling pool (20) is arranged on the front side of the bottom of the inner wall of the downstream section (3).

5. The sluice structure with the flow dividing function for the water conservancy project construction according to claim 1, wherein: the rear side of the bottom of the inner wall of the upstream section (1) is transversely provided with a Heiman layer (18), and the bottom of the inner wall of the upstream section (1) is positioned at the rear side of the Heiman layer (18) and is transversely provided with a downstream anti-impact groove (19).

6. The sluice structure with the flow dividing function for the water conservancy project construction according to claim 1, wherein: the top inside switching gate (8) is provided with the confession dwang (11) pivoted connection bearing (23).

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