CN218990075U - Intelligent sluice gate for hydraulic engineering - Google Patents

Abstract

The utility model provides an intelligent sluice gate for hydraulic engineering, which is realized by the following specific technical means: an intelligent sluice gate for hydraulic engineering, comprising: the device comprises a gate, a water outlet, a reinforced protective shell, a connecting rod, a water level sensor, an isolation box, a water inlet pipe, a water collecting box, an adjusting mechanism, a gate opening mechanism, an arc-shaped hydraulic rod, a drain pipe, a filter plate, a flood discharge gate, an electromagnetic reversing valve, a booster pump, a protective isolation shell and a sundry sieve plate; one end fixed mounting of gate has the delivery port, and the outer fixed mounting of gate has the enhancement protective housing, and the one end fixed mounting of gate has the connecting rod, and the one end fixed mounting of connecting rod has level sensor, and level sensor's lower extreme fixed mounting has the inlet tube, can be in the aquatic for a long time and soak can rust, leads to the card to be insensitive, makes the easy dead problem of card of door body can reduce, thereby also can rise the gate to the manual rotation threaded rod and waste a large amount of manpower and materials, and can reduce the waste of manpower and materials.

Description

Intelligent sluice gate for hydraulic engineering

Technical Field

The utility model relates to the technical field of water conservancy gates, in particular to an intelligent water conservancy gate for hydraulic engineering.

Background

The hydraulic engineering is mainly used for researching basic knowledge and skills in aspects of engineering hydrology, hydraulic engineering measurement, hydraulic reinforced concrete, hydraulic buildings, engineering drawing and the like, and carrying out engineering planning design, engineering site construction, engineering budget and maintenance and repair on hydraulic equipment in the field of hydraulic engineering; for example: building different types of hydraulic structures such as dams, dykes, spillways, sluice gates, channels, rafts, fishways and the like, and adjusting working gates for releasing flood and controlling the water level of a reservoir; it has the ability to bear various static and dynamic loads; can be opened and closed in moving water; and has good structure and hydraulics characteristics; the flow pattern of the water flow of the flood discharge gate directly affects the reliability of the operation of the gate.

Most flood discharging doors of the existing devices are lifting type, and the power of the flood discharging doors depends on manual rotation of a screw rod to enable a door body to move up and down to be opened or closed; the form not only needs to consume large manpower, but also can rust after being soaked in water for a long time, so that the blocking is insensitive, the door body is easy to block, the friction between the gate and the side wall of the drainage channel is large, the difficulty of the existing gate is increased when the existing gate is lifted, and equipment is easy to damage; meanwhile, the existing device is difficult to control the water discharge quantity, so that small-amplitude regulation and control actions are difficult to perform, and the phenomenon of unstable water control occurs in the existing gate when the existing gate is used.

In view of the above, the present utility model provides an intelligent sluice gate for hydraulic engineering, which has reasonable structural design, and the adjusting mechanism and the opening mechanism are more beneficial to reducing the phenomena that the sluice gate is unstable in water control when in use due to rust generated when immersed in water for a long time and rust generated when immersed in water for a long time.

Disclosure of Invention

The utility model aims to provide an intelligent sluice gate for hydraulic engineering, which aims to solve the problems and the defects in the background technology.

In order to achieve the purpose, the utility model provides an intelligent sluice gate for hydraulic engineering, which is achieved by the following specific technical means:

an intelligent sluice gate for hydraulic engineering, comprising: the device comprises a gate, a water outlet, a reinforced protective shell, a connecting rod, a water level sensor, an isolation box, a water inlet pipe, a water collecting box, an adjusting mechanism, a gate opening mechanism, an arc-shaped hydraulic rod, a drain pipe, a filter plate, a flood discharge gate, an electromagnetic reversing valve, a booster pump, a protective isolation shell and a sundry sieve plate; the utility model discloses a water-saving type water gate, including the gate, the one end fixed mounting of gate has the delivery port, the outer fixed mounting of gate has the enhancement protective housing, the one end fixed mounting of gate has the connecting rod, the one end fixed mounting of connecting rod has level sensor, level sensor's lower extreme fixed mounting has the inlet tube, the inside fixed mounting of gate has the header tank, the inside fixed mounting of header tank has adjustment mechanism, adjustment mechanism's lower extreme is provided with the mechanism of opening a floodgate, the one end movable mounting of mechanism of opening a floodgate has the arc hydraulic stem, the inside of arc hydraulic stem is provided with the drain pipe, the one end fixed mounting of header tank has the filter, the bottom fixed mounting of gate has the floodgate door, the inside of isolated case is provided with the electromagnetic reversing valve, the one end fixed mounting of electromagnetic reversing valve has the booster pump, the outer fixed mounting of isolated case has the protection isolation housing, the one end fixed mounting of filter has debris.

As a further optimization of the technical scheme, the intelligent sluice gate for the hydraulic engineering is characterized in that the connecting rod is connected inside the water level sensor in a penetrating mode and is connected with the sluice gate in a mutually penetrating mode, and the bottom end of the water level sensor penetrates through the top end of the isolation box.

As a further optimization of the technical scheme, the intelligent sluice gate for the hydraulic engineering is characterized in that the number of the opening mechanisms is two, the other half of the opening mechanisms can be telescopic in the opening mechanisms, and the reinforced protective shell is larger than the sluice gate in size and is arranged at the outer end of the sluice gate.

As a further optimization of the technical scheme, the intelligent sluice gate for the hydraulic engineering is characterized in that the number of the drainage pipes is two, the drainage pipes are symmetrically arranged in the arc-shaped hydraulic rod, and the positions of the filter plates are mutually connected with the water collecting tank and the water outlet.

As a further optimization of the technical scheme, the intelligent sluice gate for the hydraulic engineering is characterized in that the drainage pipe is connected with the sluice gate, the number of the electromagnetic directional valves is two, and the electromagnetic directional valves are symmetrically arranged in the isolation box and are connected with the booster pump.

As further optimization of the technical scheme, the intelligent sluice gate for the hydraulic engineering is characterized in that the number of the booster pumps is two, the booster pumps are symmetrically arranged at one end of the electromagnetic directional valve, the number of the protective isolation shells is two, the protective isolation shells are arranged at the outer end of the isolation box, and the positions of the sundry sieve plates penetrate through the bottom ends of the filter plates and the bottom ends of the sluice gates.

Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

1. the opening mechanism is arranged, so that manual rotation of the screw rod can be avoided when opening the gate, and the manpower consumption can be reduced.

2. The adjusting mechanism is arranged, can rust when being soaked in water for a long time, causes dead locking, causes the door body to be easy to lock, adjusts, and can reduce maintenance cost and maintenance time.

3. The arc-shaped hydraulic rod is arranged, so that the difficulty of the gate in lifting can be increased, and equipment is easy to damage, thereby increasing the maintenance cost and reducing the maintenance cost.

4. According to the utility model, through the adjusting mechanism, the opening mechanism, the arc-shaped hydraulic rod and the flood discharge gate, the problems that the gate body is easy to be blocked due to dead caused by dead blocking caused by rusting when the gate is soaked in water for a long time can be reduced, and a large amount of manpower and material resources can be wasted by manually rotating the threaded rod to lift the gate, so that the waste of the manpower and material resources can be reduced.

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 utility model. In the drawings:

FIG. 1 is a three-dimensional schematic of the present utility model;

FIG. 2 is a schematic plan view of the present utility model;

FIG. 3 is a schematic view of the adjusting mechanism and the opening mechanism of the present utility model.

In the figure: 1. a gate; 2. a water outlet; 3. reinforcing the protective housing; 4. a connecting rod; 5. a water level sensor; 6. an isolation box; 7. a water inlet pipe; 8. a water collection tank; 9. an adjusting mechanism; 10. a brake opening mechanism; 11. an arc-shaped hydraulic rod; 12. a drain pipe; 13. a filter plate; 14. flood discharge gate; 15. an electromagnetic reversing valve; 16. a booster pump; 17. a protective isolation housing; 18. sundry sieve plates.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model.

In the description of the present utility model, unless otherwise indicated, the meaning of "plurality" means two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the utility model.

Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Meanwhile, in the description of the present utility model, unless explicitly stated and defined otherwise, the terms "connected", "connected" and "connected" should be interpreted broadly, and for example, may be a fixed connection, a removable connection or an integral connection; the mechanical connection and the electrical connection can be adopted; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1 to 3, the present utility model provides a specific technical embodiment of an intelligent sluice gate for hydraulic engineering:

an intelligent sluice gate for hydraulic engineering, comprising: gate 1, water outlet 2, reinforced protective shell 3, connecting rod 4, water level sensor 5, isolated case 6, water inlet pipe 7, water collecting tank 8, regulating mechanism 9, opening mechanism 10, arc hydraulic rod 11, drain pipe 12, filter 13, flood discharge gate 14, electromagnetic directional valve 15, booster pump 16, protective isolation shell 17, sundry sieve 18; one end fixed mounting of gate 1 has delivery port 2 for go out water, the outer fixed mounting of gate 1 has the reinforcing protection shell 3, carry out the protection to gate 1, one end fixed mounting of gate 1 has connecting rod 4, fixed water level sensor 5, the one end fixed mounting of connecting rod 4 has water level sensor 5, detect the water level of gate 1 inside, the lower extreme fixed mounting of water level sensor 5 has inlet tube 7, be used for intaking, the inside fixed mounting of gate 1 has header tank 8, be used for unifying the water source, the inside fixed mounting of header tank 8 has adjustment mechanism 9, adjust, the lower extreme of adjustment mechanism 9 is provided with the floodgate mechanism 10, can carry out the floodgate flood discharge to the water level surpassing certain degree, the one end movable mounting of floodgate mechanism 10 has radial hydraulic pole 11, be used for carrying out the flood discharge, the inside of radial hydraulic pole 11 is provided with drain pipe 12, the water source for discharge mechanism, the one end fixed mounting of header tank 8 has filter 13, carry out the filtration water source and stone, the bottom fixed mounting of gate 1 has flood discharge 14, carry out the inside of tank 6 is provided with solenoid valve 15, be used for unifying the water source, the inside fixed mounting of header tank 8 has adjustment mechanism 9, adjust mechanism 10, adjust the lower extreme that is used for carrying out the change-over valve 15, the pressure boost pump is installed to be used for carrying out the safety vent 18, the safety vent is carried out to the safety vent, the outside is used for carrying out the safety vent, the safety vent is protected from the end is fixed to the end is used for carrying out, and is used for carrying out the safety vent, and is used for safety gear, and is used for safety.

Specifically, the connecting rod 4 is connected inside the water level sensor 5 in a penetrating manner, and is connected with the gate 1 to fix, and the bottom end of the water level sensor 5 penetrates through the top end of the isolation box 6 to detect the water level.

Specifically, the number of the opening mechanisms 10 is two, and the other half can stretch out and draw back in the opening mechanisms 10, so that flood discharge can be performed, the size of the reinforced protective casing 3 is larger than that of the gate 1, and the reinforced protective casing is arranged at the outer end of the gate 1 and used for protecting.

Specifically, the number of the drain pipes 12 is two, and the drain pipes are symmetrically arranged in the arc-shaped hydraulic rod 11 to drain water in the device, and the position of the filter plate 13 is mutually connected with the water collection tank 8 and the water outlet 2 for filtering.

Specifically, the drain pipe 12 is connected with the flood discharge gate 14 for draining water, and the electromagnetic directional valves 15 are arranged in two groups and symmetrically installed inside the isolation box 6 and connected with the booster pump 16 for reversing.

Specifically, the number of booster pumps 16 is set to two, and symmetrically set at one end of the electromagnetic directional valve 15 for increasing the pressure, the number of protective isolation cases 17 is set to two, and set at the outer end of the isolation box 6 for protection, and the position of the sundry screening plate 18 penetrates through the bottom end of the filter plate 13 and the bottom end of the gate 1 for separating stones.

The specific implementation steps are as follows: when the device is used, the device is firstly placed in a working area, then the device is connected with an external power supply, a power supply required by the operation of the device can be provided, when the water level sensor 5 senses that the water level rises, the water level sensor 5 controls the booster pump 16 to work through the controller, the booster pump 16 pumps water out through the water inlet pipe 7, then the electromagnetic directional valve 15 is controlled to work, the electromagnetic directional valve 15 drives a pipeline of the booster pump 16 to be connected, and the floodgate opening mechanism 10 drives the floodgate 14 to discharge floodgate when the water level rises to a certain extent.

To sum up: the switching-off mechanism sets up, can avoid the manual work to rotate the hob in the time of to switching off, can reduce the consumption of manpower, adjustment mechanism sets up, can soak in the aquatic for a long time and can rust, lead to the card to be insensitive, cause the door body to block easily, adjust, can reduce the cost of maintenance and the time of maintenance, the radial hydraulic stem sets up, can increase the degree of difficulty when promoting the gate, equipment is damaged easily, thereby increase the cost of maintenance, also reduce the expense of maintenance, can soak in the aquatic for a long time and can rust, lead to the card to be insensitive, make the door body block easily the dead problem can reduce, also can rise the gate to the manual work rotation threaded rod and waste a large amount of manpower and materials, and can reduce the waste of manpower and materials.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An intelligent sluice gate for hydraulic engineering, comprising: the water level sensor comprises a gate (1), a water outlet (2), a reinforced protective shell (3), a connecting rod (4), a water level sensor (5), an isolation box (6), a water inlet pipe (7), a water collecting tank (8), an adjusting mechanism (9), a gate opening mechanism (10), an arc-shaped hydraulic rod (11), a drain pipe (12), a filter plate (13), a flood discharge gate (14), an electromagnetic reversing valve (15), a booster pump (16), a protective isolation shell (17) and a sundry sieve plate (18); the method is characterized in that: one end fixed mounting of gate (1) has delivery port (2), the outer end fixed mounting of gate (1) has strengthens protective housing (3), the one end fixed mounting of gate (1) has connecting rod (4), the one end fixed mounting of connecting rod (4) has water level sensor (5), the lower extreme fixed mounting of water level sensor (5) has inlet tube (7), the inside fixed mounting of gate (1) has header tank (8), the inside fixed mounting of header tank (8) has adjustment mechanism (9), the lower extreme of adjustment mechanism (9) is provided with open gate mechanism (10), the one end movable mounting of open gate mechanism (10) has arc hydraulic stem (11), the inside of arc hydraulic stem (11) is provided with drain pipe (12), the one end fixed mounting of header tank (8) has filter (13), the bottom fixed mounting of gate (1) has flood discharge gate (14), the inside of isolated case (6) is provided with solenoid valve (15), the one end fixed mounting of solenoid valve (15) has filter (16), the one end fixed mounting of isolated case (6) has filter (18), the debris of isolated case (17) is fixed mounting outside the screen (17).

2. The intelligent water conservancy project sluice gate according to claim 1, wherein: the connecting rod (4) is connected inside the water level sensor (5) in a penetrating way and is connected with the gate (1) mutually, and the bottom end of the water level sensor (5) penetrates through the top end of the isolation box (6).

3. The intelligent water conservancy project sluice gate according to claim 1, wherein: the number of the opening mechanisms (10) is two, the other half of the opening mechanisms can stretch out and draw back in the opening mechanisms (10), the size of the reinforced protective shell (3) is larger than that of the gate (1), and the reinforced protective shell is arranged at the outer end of the gate (1).

4. The intelligent water conservancy project sluice gate according to claim 1, wherein: the number of the drain pipes (12) is two, the drain pipes are symmetrically arranged in the arc-shaped hydraulic rods (11), and the positions of the filter plates (13) are mutually connected with the water collecting tank (8) and the water outlet (2).

5. The intelligent water conservancy project sluice gate according to claim 1, wherein: the water draining pipe (12) is connected with the flood discharging gate (14), the number of the electromagnetic reversing valves (15) is two, and the electromagnetic reversing valves are symmetrically arranged in the isolation box (6) and are connected with the booster pump (16).

6. The intelligent water conservancy project sluice gate according to claim 1, wherein: the quantity of booster pump (16) sets up to two sets of, and the symmetry sets up the one end at electromagnetic directional valve (15), the quantity of protection isolation shell (17) sets up to two sets of, and sets up the outer end at isolated case (6), the position of debris sieve (18) is passed through the bottom of filter plate (13) and the bottom of gate (1).

Images