CN216200917U - Water installation is got to modularization constant flow volume - Google Patents

Abstract

The utility model discloses a modularized constant-flow water taking and distributing device, which comprises a main body buoyancy tank (1), wherein a water inlet weir section (2) is arranged on one side of the main body buoyancy tank (1), a gradual change section (3) is connected behind the water inlet weir section (2), a water outlet connecting section (4) is connected behind the gradual change section (3), and the tail end of the water outlet connecting section (4) extends out of the other side of the main body buoyancy tank (1).

Description

Water installation is got to modularization constant flow volume

Technical Field

The utility model relates to the technical field of water treatment and water environment treatment, in particular to a modularized constant-flow water measuring and distributing device.

Background

At present, the problem of constant flow uniform water distribution is widely involved in the self-flowing water distribution process of taking water from a reservoir or a pond, connecting water treatment units and the like in the water treatment industry.

In water environment comprehensive treatment, a certain regulation and storage reservoir or a water pool is often used as a water supply center to directly automatically take water at a constant flow and distribute the water to an ecological environment water supply unit so as to realize optimal configuration and fine management of water resources.

Similar problems all require adopting an economical, efficient and adaptable water taking and distributing facility, taking water in a water storage facility with appropriate water level amplitude and distributing subsequent functional units with relatively stable flow so as to obtain parameters such as stable water taking flow, hydraulic load, pollutant load, water landscape effect and the like.

However, in the existing self-flowing water taking process, the common water taking flow control mode of controlling the opening degree of a valve and setting a flow control valve generally has the problems of low uniformity, incapability of adapting to water level change, need of adding complex monitoring or manual intervention and the like. Although the water taking buoyancy tank with the fixed weir can realize constant flow water taking under the water level self-adaptive condition, the water quantity is fixed, the installation and the disassembly of facilities are complex, and the modularization is poor. In common self-flowing water distribution facilities in water treatment, such as a water outlet groove at the water outlet side of a sedimentation tank, a water inlet and outlet groove of a filter tank, a water distribution well and the like are based on water inflow balance, and backward uniform water distribution is realized by utilizing the steady flow effect of a fixed weir, so that the problem of constant flow is not solved although water distribution balance is realized. The existing self-flowing water taking and water distributing facilities are wide in application range, direct and balanced water taking and distributing under water level change cannot be achieved synchronously, modularization is poor, and the defects of high construction cost and limitation in engineering exist.

Therefore, there is a high necessity for a device to solve the above problems.

Disclosure of Invention

The object of the present invention is to overcome the drawbacks of the prior art and to provide a modular constant flow water dispensing device which is highly adaptable and low cost.

The purpose of the utility model is implemented by the following technical scheme: the utility model provides a water installation is got to modularization constant flow, it includes the main part flotation tank, main part flotation tank one side be provided with into water weir section, into be connected with the gradual change section behind the weir section, the gradual change section after be connected with out the water linkage segment, play water linkage segment tip stretch out the opposite side of main part flotation tank.

In the above technical scheme: and counterweight grooves are arranged on two sides inside the main body buoyancy tank.

In the above technical scheme: the four corners above the main body buoyancy tanks are provided with positioning holes, and a plurality of adjacent main body buoyancy tanks are connected into a whole through ropes passing through the positioning holes.

In the above technical scheme: and water level scales are drawn on four side surfaces of the main body buoyancy tank.

In the above technical scheme: the main body buoyancy tank is positioned in a water area, and the tail end of the water outlet connecting section is communicated with the outside through a pipeline.

In the above technical scheme: the water inlet weir segment is rectangular, and a thin-wall weir is arranged at the front end of the water inlet weir segment.

The utility model has the following advantages: 1. the utility model determines the flow capacity of a set of water distribution device by adjusting the size of the water inlet weir segment, the main body buoyancy tank and the draft of the water level scale, and can effectively control the flow of the backward self-flowing water distribution of the water pool and the water area with little instantaneous fluctuation of the liquid level.

2. The counterweight material in the counterweight groove can be obtained nearby, so that the draft and the water head of the main buoyancy tank are controlled, and the whole body is convenient.

3. The utility model can be used singly or in groups according to the specific water distribution flow requirements, and a plurality of main body buoyancy tanks are fixed together through positioning holes, ropes and the like to form a set of larger water taking device.

4. The utility model can be used in the technical field of water treatment and water environment treatment, can directly and evenly take water and distribute water under the condition of water level change, realizes the optimal configuration and the fine management of water resources and ensures the treatment effect of subsequent water treatment units; the structural material is preferably selected from polyvinyl chloride, ABS and other plastics for injection molding, a power supply is not needed in use, the manufacturing cost and the use cost are low, and modularization can be realized.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a sectional view of a water distribution flow passage of the present invention.

In the figure: the device comprises a main body buoyancy tank 1, a water inlet weir section 2, a thin-wall weir 201, a gradual change section 3, a water outlet connecting section 4, a counterweight groove 5, a positioning hole 6 and a water level scale 7.

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.

Referring to FIGS. 1-3: the utility model provides a water installation is got to modularization constant flow, it includes main part flotation tank 1, 1 one side of main part flotation tank be provided with into water weir section 2, into water weir section 2 after be connected with transition 3, transition 3 after be connected with out water linkage segment 4, the 4 terminal opposite sides that stretch out main part flotation tank 1 of play water linkage segment.

And counterweight grooves 5 are arranged on two sides in the main body buoyancy tank 1. The counterweight groove 5 is positioned on two sides of the main body buoyancy tank 1 and used for placing counterweight materials to control the draft of the main body buoyancy tank 1 and further control a water head.

The four corners above the main body buoyancy tanks 1 are provided with positioning holes 6, and a plurality of adjacent main body buoyancy tanks 1 are connected into a whole by ropes passing through the positioning holes 6. Aiming at specific water distribution flow requirements, the utility model can be used independently, used in a set or used in a group, and fixing devices such as ropes and the like are adopted to fix the utility model together through the positioning holes 6 or fix the utility model with the wall of the pool.

And water level scales 7 are drawn on four side surfaces of the main body buoyancy tank 1. To specifically determine the draft of the main buoyancy tank 1.

The main body buoyancy tank 1 is suspended in a water area, corresponding scales of the water level scale 7 are flush with the water surface of the water area by adjusting a counterweight material according to the required water delivery flow, a stable weir flow is formed at the inlet of the water inlet weir segment 2, and the tail end of the water outlet connecting segment 4 is communicated with the outside through a pipeline. The tail end of the water outlet connecting section 4 is provided with a stainless steel threaded joint, and water outlet hoses with different lengths are connected according to requirements to convey water constantly backwards.

The water inlet weir segment is rectangular, and a thin-wall weir is arranged at the front end of the water inlet weir segment. Compare other weir type simple structure small and exquisite, the injection moulding of being convenient for.

The utility model also comprises the following specific use process: a modularized constant flow measuring and water distributing device mainly comprises a main body floating box 1, a water inlet weir section 2, a gradual change section 3, a water outlet connecting section 4, a balance weight groove 5, a positioning hole 6 and a water level scale 7, wherein the main body floating box 1 of the modularized constant flow measuring and water distributing device is a cuboid, the water inlet weir section 2 is arranged on one side of the main body floating box 1, the gradual change section 3 is connected behind the water inlet weir section 2, the water outlet connecting section 4 is connected behind the gradual change section 3, the water outlet connecting section 4 is connected to the other side of the main body floating box 1, and the water inlet weir section 2, the gradual change section 3 and the water outlet connecting section 4 are sequentially connected in a through manner; the counterweight grooves 5 are positioned on two sides of the main body buoyancy tank 1 and used for placing counterweight materials to control the draught depth of the device; the positioning holes 6 are positioned at four corners above the main body buoyancy tank 1 and used for positioning and connecting the main body buoyancy tank 1; the water level scales 7 are drawn on four side surfaces of the main body buoyancy tank 1, and different water level scales 7 correspond to fixed flow.

The water inlet weir segment 2 is rectangular, and the front end is provided with a thin-wall weir 201 with the height of 0.15-0.20 m; the tail end of the water outlet connecting section 4 is provided with a stainless steel threaded joint which is connected with water outlet hoses with different lengths according to requirements. The water inlet weir segment 2 is connected with the water outlet connecting segment 4 through the transition segment 3. The counterweight grooves 5 are positioned on two sides of the main body buoyancy tank 1, and the counterweight grooves 5 are matched with the water level scale 7 for use.

The water level scales 7 are drawn on four side surfaces of the main body buoyancy tank 1, and different water level scales are used for determining or calibrating the fixed flow.

The positioning holes 6 are positioned at four corners above the main body buoyancy tank 1, and three sides of the positioning holes 6 are communicated with each other.

All the structures of the utility model are integrally processed and formed by adopting light corrosion-resistant materials, and the surfaces of the structures are brushed with corrosion-resistant paint. The structural material is preferably made of polyvinyl chloride, ABS and other plastics through injection molding.

When the utility model is used, water is injected into the water inlet weir segment 2 in advance, and a proper amount of counterweight material is added into the counterweight groove 5, so that the main body buoyancy tank 1 reaches the position of a water level scale 7 with set flow in water, water flows enter from the water inlet weir segment 2, then the water flows backwards through the transition segment 3 and the water outlet connecting segment 4 by a subsequent pipeline, and after the water inlet is stable, a thin-wall weir flow is formed at the water inlet weir segment 2, so that the water can be distributed backwards at constant flow.

Aiming at specific water distribution flow requirements, the utility model can be used independently or used in a set, and when the utility model is used in a set, fixing devices such as ropes and the like are adopted to fix the utility model together through the positioning holes 6 or fix the utility model with the wall of the pool.

The device has a general design flow range of 0.01-0.03 m³And/s, different design flow rates can be customized by adjusting the structure size.

The device is generally applicable to the instantaneous fluctuation range of the liquid level of a pool or a water area within +/-1 cm, and a turbulence net cover can be added on the front side of the device to reduce the instantaneous fluctuation generated by the liquid level when necessary.

The above-mentioned parts not described in detail are prior art.

Claims (6)

1. The utility model provides a water installation is got to modularization constant flow, it includes main part flotation tank (1), its characterized in that: main part flotation tank (1) one side be provided with into weir section (2), the weir section of intaking (2) after be connected with transition (3), transition (3) after be connected with out water linkage segment (4), play water linkage segment (4) end stretch out the opposite side of main part flotation tank (1).

2. A modular constant-flow water dispensing device, according to claim 1, characterized in that: and counterweight grooves (5) are arranged on two sides in the main body buoyancy tank (1).

3. A modular constant-flow water dispensing device, according to claim 1 or 2, characterized in that: the four corners above the main body buoyancy tanks (1) are provided with positioning holes (6), and a plurality of adjacent main body buoyancy tanks (1) are connected into a whole by ropes passing through the positioning holes (6).

4. A modular constant-flow water dispensing device, according to claim 3, characterized in that: and water level scales (7) are drawn on four side surfaces of the main body buoyancy tank (1).

5. A modular constant-flow water dispensing device, according to claim 4, characterized in that: the main body buoyancy tank (1) is suspended in a water area, and the tail end of the water outlet connecting section (4) is communicated with the outside through a pipeline.

6. A modular constant-flow water dispensing device, according to claim 5, characterized in that: the water inlet weir segment (2) is rectangular, and a thin-wall weir (201) is arranged at the front end of the water inlet weir segment (2).

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