CN216839716U - High accuracy basin of concatenation formula - Google Patents

Abstract

The utility model relates to the field of experimental water tanks in the water conservancy industry, in particular to a spliced high-precision water tank, which comprises a water inlet section water tank, a spliced section water tank, a water outlet section water tank and a pipeline system; the main bodies of the water inlet section water tank, the splicing section water tank and the water outlet section water tank are all of steel frame structures; bolt connecting pieces for fixed connection are arranged between the water inlet section water tank and the steel frame of the splicing section water tank and between the water outlet section water tank and the steel frame of the splicing section water tank, so that the water inlet section water tank, the splicing section water tank and the water outlet section water tank are sequentially connected into a complete water tank structure; the pipeline system is arranged at the bottom of the water tank structure, one end of the pipeline system is connected with a flange of the water inlet section water tank, and the other end of the pipeline system is connected with a flange of the water outlet section water tank. The utility model discloses mainly connect through the bolt, do not need the field weld, can reduce the holistic processing degree of difficulty of basin and the transportation degree of difficulty, reduce the work load of on-the-spot equipment basin.

Description

High accuracy basin of concatenation formula

Technical Field

The utility model relates to an experiment basin field of water conservancy trade especially relates to a high accuracy basin of concatenation formula.

Background

Generally, a girder of a conventional water tank main body is an integral structure formed by connecting a plurality of sections of rectangular pipes through a welding process. This kind of girder structure not only can have the deformation volume of certain degree because of welding process, when the girder was from the processing factory to the basin installation scene, often caused the equipment transportation degree of difficulty to increase because of girder length is great moreover. And many processes of water tank installation still need to be accomplished at the water tank installation scene, and the water tank installation is complicated, and the work load of on-the-spot equipment basin is big.

Disclosure of Invention

An object of the utility model is to provide a high accuracy basin of concatenation formula to solve the aforementioned problem that exists among the prior art.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

a spliced high-precision water tank comprises a water inlet section water tank, a spliced section water tank, a water outlet section water tank and a pipeline system; the main bodies of the water inlet section water tank, the splicing section water tank and the water outlet section water tank are all steel frame structures; bolt connecting pieces for fixed connection are arranged between the water inlet section water tank and the steel frame of the splicing section water tank and between the water outlet section water tank and the steel frame of the splicing section water tank, so that the water inlet section water tank, the splicing section water tank and the water outlet section water tank are sequentially connected into a complete water tank structure; the pipeline system is arranged at the bottom of the water tank structure, one end of the pipeline system is connected with a flange of the water inlet section water tank, and the other end of the pipeline system is connected with a flange of the water outlet section water tank.

Preferably, the number of the spliced-section water tanks is one or more, and if a plurality of spliced-section water tanks exist, the spliced-section water tanks are connected through the bolt connecting piece.

Preferably, the bolt connecting piece comprises a connecting angle piece and a bolt, the connecting angle piece is fixedly arranged on a steel frame to be connected, and corresponding bolt hole positions are arranged on the connecting angle piece and the other steel frame to be connected, so that the bolt can be fixedly connected through the bolt hole positions; the bolt connecting piece is provided with a plurality of bolts.

Preferably, the piping system comprises a pipe, a flow meter, an electric valve and a water pump.

Preferably, the water inlet section water tank and the water outlet section water tank are both provided with water tanks, each water tank is formed by fixing a steel plate and a steel frame, a flow guide grid is arranged inside each water tank, and the bottom of each water tank is provided with a drain valve and a flange used for connecting the pipeline system.

Preferably, the flow guide grids are of a hole structure formed by criss-cross stainless steel plates and are fixed on the steel frame inside the water tank through bolts.

Preferably, the water inlet section water tank is further provided with a pressure wave body, the pressure wave body is of a groove structure formed by organic glass plates, is arranged at the downstream of the flow guide grid and is connected with the water tank through a chain.

Preferably, the tank surface of the water tank structure is made of toughened glass, the toughened glass is fixed on the steel frame structure, an acrylic cushion strip is arranged between the toughened glass and the steel frame structure, and the connecting gaps of the water tank structure are sealed by glass cement.

The utility model has the advantages that:

the utility model provides a spliced high-precision water tank, which comprises a water inlet section, a splicing section, a water outlet section, a pipeline system and the like, wherein the parts are mainly connected through bolts without on-site welding, and the length of the whole spliced water tank can be changed by adjusting the number of the splicing sections; the fixing of the toughened glass and the joint of the gap are treated by gluing, so that no water leakage phenomenon can be generated in the use process of the water tank; the spliced high-precision water tank can reduce the overall processing difficulty and the transportation difficulty of the water tank and reduce the workload of assembling the water tank on site.

Drawings

Fig. 1 is a schematic structural view of a splicing type high-precision water tank in an embodiment of the present invention;

FIG. 2 is a schematic structural view of a water tank at a water inlet section in an embodiment of the present invention;

fig. 3 is a schematic structural view of a water outlet section water tank in the embodiment of the present invention;

FIG. 4 is a schematic structural view of a spliced section water tank in an embodiment of the present invention;

FIG. 5 is a schematic structural view of the connection between the water inlet section and the splicing section;

FIG. 6 is a schematic structural diagram of a piping system according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a flow guide grid in an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a pressure wave body in an embodiment of the present invention;

in the figure: 1-water inlet section water tank, 2-splicing section water tank, 3-water outlet section water tank, 4-pipeline system, 5-bolt connector, 6-water tank, 7-drain valve, 8-flange, 9-connecting corner fitting, 10-bolt, 11-pipeline, 12-flowmeter, 13-electric valve, 14-water pump, 15-flow guiding grid, 16-bottom plate, 17-top plate, 18-transverse plate, 19-vertical plate, 20-pressure wave body and 21-chain.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the invention, are given by way of illustration only.

As shown in fig. 1, the utility model provides a spliced high-precision water tank, which comprises a water inlet section water tank 1, a spliced section water tank 2, a water outlet section water tank 3 and a pipeline system 4; the main bodies of the water inlet section water tank 1, the splicing section water tank 2 and the water outlet section water tank 3 are all of steel frame structures; bolt connecting pieces 5 for fixed connection are arranged between the water inlet section water tank 1 and the steel frame of the splicing section water tank 2 and between the water outlet section water tank 3 and the steel frame of the splicing section water tank 2, so that the water inlet section water tank 1, the splicing section water tank 2 and the water outlet section water tank 3 are sequentially connected into a complete water tank structure; the pipeline system 4 is arranged at the bottom of the water tank structure, one end of the pipeline system is connected with a flange of the water inlet section water tank 1, and the other end of the pipeline system is connected with a flange of the water outlet section water tank 3.

In this embodiment, the steelframe of basin structure is formed by square pipe welding, is the major structure of basin structure, and heavy antiskid shock attenuation ground foot cup is installed as the supporting legs of basin structure to the steelframe bottom. The tank surface of the water tank structure is made of toughened glass, and the toughened glass can meet the strength requirement of the water tank and is convenient for experimental observation. Toughened glass installs inside steel frame construction, is equipped with the ya keli filler strip between toughened glass and the steel frame construction, avoids both direct contact, beats glass at the gap department of steelframe and glass and glues for fixing. In general, equal angle steel can be welded on a square tube of which the longitudinal direction of the steel frame is flush with the lower surface of the bottom plate glass and is used for supporting the bottom plate glass.

As shown in fig. 2, in this embodiment, the water inlet section tank 1 includes a main steel frame, a water tank 6, tempered glass, and other components; the water tank 6 is formed by welding stainless steel plates in a watertight manner and is directly welded and fixed on the main body steel frame; a drain valve 7 and a flange 8 are arranged on the water tank 6; the drain valve 7 is a manual ball valve and is used for draining water from the water tank 6; the flange 8 is used for connecting with the pipeline system 4, and water flows into the water tank 6 from the pipeline system 4 through the flange 8 and finally enters the water tank structure. Usually, an energy dissipation orifice plate is also installed inside the water tank 6 to ensure the stability of the water flow in the water tank.

As shown in fig. 3, in this embodiment, the structure of the water outlet section water tank 3 is the same as or similar to that of the water inlet section water tank 1, and also includes a main body steel frame, a water tank 6, a drain valve 7, a flange 8, and other components; the main difference lies in the difference of upstream and downstream position, the water inlet section water tank 1 is at the rivers upper reaches, and the water outlet section water tank 3 is at the rivers low reaches. Wherein the water inlet section water tank 1 and the water outlet section water tank 3 can be provided with water tank sections with toughened glass according to the conditions or only provided with water tank sections, and the water tank sections with the toughened glass are all arranged at the splicing section water tank 2.

As shown in fig. 4, in this embodiment, the spliced-section water tank 2 is a middle portion of the water tank structure, the spliced-section water tank 2 is mainly composed of a main body steel frame and tempered glass, and the number of the spliced-section water tanks 2 is determined according to the overall length of the water tank required in actual use. The splicing section water tanks 2 are also connected through bolt connecting pieces 5.

In this embodiment, the bolt connecting piece 5 includes a connecting angle piece and a bolt, the connecting angle piece is fixedly disposed on a steel frame to be connected, and the connecting angle piece and another steel frame to be connected are both provided with corresponding bolt hole sites, so that the bolt is fixedly connected through the bolt hole sites.

As shown in fig. 5, taking the connection of the water inlet section water tank 1 and the splicing section water tank 2 as an example, the right side of the main body steel frame of the water inlet section water tank 1 is welded with 4 groups of connection angle pieces 9, the left side of the main body steel frame of the splicing section water tank is provided with 4 groups of bolt hole sites, and the two parts of the hole sites are aligned and then fastened and connected by using bolts 10 during field installation. The connection between the splicing section water tanks 2 and the connection between the splicing section water tank 2 and the water outlet section water tank 3 are all connected by bolts.

As shown in fig. 6, in the present embodiment, the pipeline system 4 is an operation device for water flowing outside the water tank, and includes a pipeline 11, a flow meter 12, an electric valve 13 and a water pump 14. The pipeline 11 is a seamless steel pipe, a pipeline bracket for fixing is arranged on the seamless steel pipe, and the pipeline 11 can also be connected by matching a plurality of sections of steel pipes with flanges, so that the length of the pipeline can be controlled randomly.

As shown in fig. 7, in this embodiment, a flow guiding grid 15 is further disposed in the water tank 6, and the flow guiding grid 15 is a hole structure formed by criss-cross stainless steel plates (transverse plates 18 and vertical plates 19). During installation, the bottom plate 16 of the diversion grille 15 is located on the stainless steel water tank 6, and the top plate 17 and the main steel frame are fixed through bolts.

As shown in fig. 8, in this embodiment, the water tank 1 in the water inlet section is further provided with a pressure wave body 20, which can enable the turbulent water flow in the water inlet to be split, thereby realizing smooth and slow flow of the water flow. The pressure wave body 20 is a groove structure formed by organic glass plates and is arranged at the downstream of the flow guide grid 15, and the pressure wave body is fixed on a preformed hole on the flow guide grid 15 through a stainless steel chain 21 during installation.

In this embodiment, the gluing treatment of this concatenation formula basin mainly uses in toughened glass installation and concatenation gap treatment two places. The spliced water tank after glue applying treatment is firm and reliable in installation of the toughened glass, and water leakage is avoided in the use process of the water tank. The gluing process specifically comprises the following steps:

(1) the toughened glass is installed, and toughened glass installs inside the steelframe, beats the glue at the side of toughened glass and steelframe junction, can fix toughened glass.

(2) And (4) processing splicing gaps, namely after all parts of the spliced water tank are spliced, a 5mm wide gap is formed between the toughened glass, and injecting glass cement into the splicing gaps to seal the gaps.

Through adopting the utility model discloses an above-mentioned technical scheme has obtained following profitable effect:

the utility model provides a spliced high-precision water tank, which comprises a water inlet section, a splicing section, a water outlet section, a pipeline system and the like, wherein the parts are mainly connected through bolts without on-site welding, and the length of the whole spliced water tank can be changed by adjusting the number of the splicing sections; the fixing of the toughened glass and the joint of the gap are treated by gluing, so that no water leakage phenomenon can be generated in the use process of the water tank; the spliced high-precision water tank can reduce the overall processing difficulty and the transportation difficulty of the water tank and reduce the workload of assembling the water tank on site.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be viewed as the protection scope of the present invention.

Claims (8)

1. A spliced high-precision water tank is characterized by comprising a water inlet section water tank, a spliced section water tank, a water outlet section water tank and a pipeline system; the main bodies of the water inlet section water tank, the splicing section water tank and the water outlet section water tank are all of steel frame structures; bolt connecting pieces for fixed connection are arranged between the water inlet section water tank and the steel frame of the splicing section water tank and between the water outlet section water tank and the steel frame of the splicing section water tank, so that the water inlet section water tank, the splicing section water tank and the water outlet section water tank are sequentially connected into a complete water tank structure; the pipeline system is arranged at the bottom of the water tank structure, one end of the pipeline system is connected with a flange of the water inlet section water tank, and the other end of the pipeline system is connected with a flange of the water outlet section water tank.

2. The spliced high-precision water tank as claimed in claim 1, wherein the number of the spliced-section water tanks is one or more, and if a plurality of spliced-section water tanks exist, the spliced-section water tanks are connected with each other through the bolt connection piece.

3. The splicing type high-precision water tank according to claim 1, wherein the bolt connecting piece comprises a connecting angle piece and a bolt, the connecting angle piece is fixedly arranged on a steel frame to be connected, and the connecting angle piece and another steel frame to be connected are respectively provided with a corresponding bolt hole position, so that the bolt can be fixedly connected through the bolt hole position; the bolt connecting piece is provided with a plurality of bolts.

4. The split-type high precision water tank of claim 1, wherein the pipeline system comprises a pipeline, a flow meter, an electric valve and a water pump.

5. The splicing type high-precision water tank as claimed in claim 1, wherein the water tank is arranged on both the water inlet section water tank and the water outlet section water tank, the water tank is formed by fixing a steel plate and a steel frame, a flow guide grid is arranged inside the water tank, and a drain valve and a flange for connecting the pipeline system are arranged at the bottom of the water tank.

6. The splicing type high-precision water tank as claimed in claim 5, wherein the flow guiding grids are of a hole structure composed of criss-cross stainless steel plates and are fixed on a steel frame inside the water tank through bolts.

7. The splicing type high-precision water tank as claimed in claim 5, wherein the water inlet section is further provided with a pressure wave body, the pressure wave body is of a groove structure formed by organic glass plates, is arranged at the downstream of the flow guide grid, and is connected with the water tank through a chain.

8. The splicing type high-precision water tank of claim 1, wherein the tank surface of the water tank structure is made of tempered glass, the tempered glass is fixed on a steel frame structure, an acrylic cushion strip is arranged between the tempered glass and the steel frame structure, and a connecting gap of the water tank structure is sealed by glass cement.

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