CN213142999U - River course floater interception mechanism - Google Patents

Abstract

A river course float interception mechanism comprising: the pivot, the pivot frame, the transverse filter screen frame, the filter screen iron mesh, vertical filter screen frame, first layer filter screen, the second filter screen, the third filter screen, large-scale motor, the river bank, the gate under water, the gate frame, the water pipe, the dead lever, the steel water-stop sheet, the gear, filtration equipment, the inside fretwork in river bank both sides, pivot of respectively installing, the even external four of pivot frame are the arc filter screen, the filter screen is by the iron wire filter screen, first layer filter screen, the second filter screen, and the third filter screen is constituteed, is framed by the vertical filter screen frame of transverse filter screen frame, the arc filter screen is crossing at the vertical filter screen frame when not having the ship to pass through, and when the ship passes through, both sides river bank pivot is rotated, and the pivot frame drives the filter screen. The utility model provides a river course floater intercepting mechanism when interception and collection floater, does not influence passing of ship, a river course floater intercepting mechanism.

Description

River course floater interception mechanism

Technical Field

The utility model relates to a hydraulic engineering's technical field, more specifically say, in particular to river course floater interception mechanism's technical field.

Background

At the upstream section of a river passing through urban areas, plant straws, leaves, plastic wastes, dryland and hygrophytes and the like around the river can flow downwards during rainy seasons; in the midstream section, which generally belongs to the urban and rural junction area, residents and factories deposit a large amount of floating and suspended matters in dry seasons, so that the floating and suspended matters can be intensively gushed out in rainy days; in the downstream section, urban watercourses, pipeline deposits, suspensions, household garbage and the like all participate in floating together under the action of rainy seasons or floods, and serious urban waterlogging is caused once the watercourses are blocked or urban drainage systems are blocked. Although the existing intercepting device can block garbage, the existing intercepting device inevitably influences the passing of ships. Therefore, it is necessary to design a river floating object intercepting mechanism to solve the above problems

SUMMERY OF THE UTILITY MODEL

Problem (A)

In conclusion, the river floating object intercepting mechanism is provided, and the problem that ships are passed through is also influenced by the structure and the functional river floating object intercepting mechanism.

(II) technical scheme

The utility model provides a river course floater interception mechanism for solve current interception river course floater and also influence the current structure of ship simultaneously, specifically include: the pivot, the pivot frame, the transverse filter screen frame, the iron wire filter screen, vertical filter screen frame, first layer filter screen, the second filter screen, the third filter screen, large-scale motor, the river bank, the gate under water, the gate frame, the water pipe, the dead lever, the steel water-stop sheet, the gear, filtration equipment, the other installation pivot of river bank, the built-in large-scale motor of pivot, by the external pivot frame external filtration equipment of dead lever, filtration equipment is by the transverse filter screen frame, the filter screen iron mesh, vertical filter screen frame is decided, and the filter screen is by the filter screen iron mesh, first layer filter screen, the second filter screen, the third filter screen is constituteed. An underwater gate is arranged below the filter screen in the river bank, a water pipe is laid on the underwater gate, and an opening of the underwater gate consists of a steel water-stop sheet and a gear and is driven to open and close by an engine.

Furthermore, the insides of two sides of the river bank (10) are hollowed out, a rotating shaft (1) is installed on each side, and the outer frame of the rotating shaft is evenly externally connected with four arc-shaped filtering devices (17).

Further, filtration equipment (17) comprises iron wire filter screen (4), first layer filter screen (6), second filter screen (7), third filter screen (8), is framed by horizontal filter screen frame (3) vertical filter screen frame (5).

Further, curved filtration equipment (17) is crossing vertical filter screen frame (5) when not having the ship to pass through, and when the ship passed through, both sides river bank (10) pivot (1) rotated, and pivot frame (2) drive filtration equipment (17) rotatory, provide the passageway that the ship passed through.

Furthermore, an underwater gate (11) is arranged in the hollow position of the river banks (10) at the two sides and below the filter screen, the underwater gate (11) is connected with a water pipe (13), and the water pipe (13) is communicated with the filtering device and the wastewater treatment and feedback device.

Furthermore, a large motor (9) is arranged in the rotating shaft (1), and the rotating shaft is externally connected with the rotating shaft outer frame (2) through a fixing rod (14).

(III) advantageous effects

The river floating object intercepting mechanism improves the condition that the river floating objects are intercepted and the ship is influenced to pass.

Hollowing out two sides of a river bank, arranging a rotating shaft in water, connecting the rotating shaft with a filter screen, rotating the arc-shaped filter screen to an intersecting closed state when no ship passes through the arc-shaped filter screen, and intercepting river floating objects by the filter screen; when having the ship to pass through, rotatory pivot is rotated the filter screen and is taken the floater to the sluice gate top under water in the river bank, and the ship passes through, and the sluice gate is opened under water simultaneously, inhales the water pipe with the floater together with water, and water piping connection external filtration equipment and waste water backflow equipment department, the ship passes through, and the filter screen is rotatory to crossing closed condition once more.

Drawings

FIG. 1 is a schematic view of a rotating shaft structure;

FIG. 2 is a schematic cross-sectional view of the entire mechanism;

FIG. 3 is a schematic top view of the mechanism as a whole, open (down) and closed (up);

FIG. 4 is a schematic view of a screen construction;

FIG. 5 is a schematic view of an underwater gate structure;

in fig. 1 to 5, the corresponding relationship between the part names or lines and the reference numbers is:

the device comprises a rotating shaft-1, a rotating shaft outer frame-2, a transverse filter screen outer frame-3, an iron wire filter screen-4, a vertical filter screen outer frame-5, a first layer of filter screen-6, a second filter screen-7, a third filter screen-8, a large motor-9, a river bank-10, an underwater gate-11, a gate frame-12, a water pipe-13, a fixed rod-14, a steel water-stop plate-15, a gear-16 and a filtering device-17.

Detailed Description

The embodiments are described in further detail below with reference to the drawings and examples. The following examples are given for illustration and are not intended to limit the scope.

In the description, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting. 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.

In the description, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in this context can be understood in a particular context to those of ordinary skill in the art.

Please refer to fig. 1 to 5:

current river course floater intercepting mechanism can't avoid intercepting the river course floater and also influence the ship current simultaneously, a river course floater intercepting mechanism, includes: the pivot 1, pivot frame 2, horizontal filter screen frame 3, the iron wire filter screen 4, vertical filter screen frame 5, first layer filter screen 6, second filter screen 7, third filter screen 8, large-scale motor 9, river bank 10, gate 11 under water, gate frame 12, water pipe 13, the dead lever 14, steel water-stop sheet 15, gear 16, filtration equipment 17, the other installation pivot 1 of river bank 10, the 1 built-in large-scale motor 9 of pivot, by the external pivot frame 2 external filter screen of dead lever 14, the filter screen is by horizontal filter screen frame 3, filter screen iron mesh 4, 5 frames of vertical filter screen frame are decided, the filter screen is by filter screen iron mesh 4, first layer filter screen 6, second filter screen 7, third filter screen 8 is constituteed. An underwater gate 11 is arranged below the filter screen in the river bank 10, a water pipe 13 is laid on the underwater gate 11, and an opening of the underwater gate 11 is composed of a steel water-stop sheet 15 and a gear 16 and is driven to open and close by an engine.

Wherein, the inside fretwork in river bank 10 both sides, each installation pivot 1, the pivot frame is four external even and is the arc filter screen, and the fretwork river bank is so that erect follow-up device, and the pivot is cylindrical reinforced concrete material, and arc filter screen arc length is 20m can reduce the resistance that rotatory brought as far as when intercepting the floater, and the filter screen divide into the multilayer.

Wherein, filtration equipment 17 is by iron wire filter screen 4, first layer filter screen 6, second filter screen 7, third filter screen 8 is constituteed, by 5 framed of 3 vertical filter screen frames of horizontal filter screen frame, the iron wire filter screen forms for 12mm steel wire establishment, the space size is 20cm, first layer filter screen 6 is become for the rope made of hemp, the space size is 10cm, the second filter screen forms for 9mm steel wire establishment, the space size is 7cm, third filter screen 8 is formed by nylon rope establishment, the space size is 5 cm.

Wherein, the arc filter screen is crossing at vertical filter screen frame 5 when not having the ship to pass through, and when the ship passed through, both sides river bank 10 pivot 1 rotated, and pivot frame 2 drives the filter screen rotation, provides the passageway that the ship passed through. The maximum opening channel width is 10m

Wherein, the hollow part of the river banks 10 at both sides is provided with an underwater gate 11 below the filter screen, the underwater gate 11 is connected with a water pipe 13, and the water pipe 13 is communicated with a filtering device and a wastewater treatment and feedback device. The underwater gate 11 is made of steel with the thickness of 0.5m, is opened downwards to allow water to flow in, and allows the water to automatically flow to the filtering device and the wastewater treatment feedback device through the water pipe 13 by utilizing the gravitational potential energy.

The large motor 9 is installed inside the rotating shaft 1, the large motor is externally connected to the control end, and the control end controls the power supply of the large motor 9 to be switched on and off, so that the large motor 9 is turned on and off. The control end can be an infrared remote controller or a Bluetooth remote controller. The fixing rod 14 is externally connected with the rotating shaft outer frame 2.

The underwater gate 11 is composed of a gate frame 12, a steel water stop sheet 15 and a gear 16, the bottom of the steel water stop sheet 15 is in a regular tooth shape, the gear is connected with an external motor, the motor is started or stopped through an external control end, and the gear is controlled to rotate and stop so as to open or close the underwater gate.

(IV) working principle

The utility model provides a river course floater intercepting mechanism to the design of river course floater intercepting equipment, through opening and shutting of controlling two fan arc filter screens, when the interception and collect the floater, does not influence the current of ship.

The specific use mode and function of the embodiment are as follows: digging a certain space in the river banks 10 at two sides, arranging a rotating shaft 1 in the water, connecting the rotating shaft 1 with a filtering device 17, rotating the arc-shaped filter screen to an intersecting closed state when no ship passes through, and intercepting river floating objects by the filter screen; when a ship needs to pass through, the rotating shaft 1 is rotated, the filter screen 4 together with the floater rotates to the position above the underwater gate 11 in the river bank 10, the ship passes through the underwater gate 11, the floater and water are sucked into the water pipe 13 together, the water pipe 13 is connected with the filtering equipment and the wastewater backflow equipment, the ship passes through the water pipe, and the filter screen 4 rotates to be in an intersected closed state again.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. A river course float interception mechanism comprising: the novel water-saving filter comprises a rotating shaft (1), a rotating shaft outer frame (2), a transverse filter screen outer frame (3), an iron wire filter screen (4), a vertical filter screen outer frame (5), a first layer of filter screen (6), a second filter screen (7), a third filter screen (8), a large motor (9), a river bank (10), an underwater gate (11), a gate frame (12), a water pipe (13), a fixed rod (14), a steel water-stop plate (15), a gear (16) and filter equipment (17), and is characterized in that the rotating shaft (1) is installed beside the river bank (10), the large motor (9) is installed in the rotating shaft (1), the rotating shaft outer frame (2) is externally connected with the fixed rod (14) through the external filter equipment (17), the filter equipment (17) is framed by the transverse filter screen outer frame (3), the iron wire filter screen (4) and the vertical filter screen outer frame (5), and the filter equipment, the second filter screen (7) and the third filter screen (8) are arranged, an underwater gate (11) is arranged below the filter equipment (17) in the river bank (10), and a water pipe (13) is laid on the underwater gate (11).

2. The river course float interception mechanism of claim 1 wherein: the river bank (10) is hollow on two sides, a rotating shaft (1) is installed in each river bank, and four arc-shaped filter screens are uniformly and externally connected to the rotating shaft outer frame (2).

3. The river course float interception mechanism of claim 1 wherein: the filter screen comprises iron wire filter screen (4), first layer filter screen (6), second filter screen (7), third filter screen (8), is framed by horizontal filter screen frame (3) vertical filter screen frame (5).

4. The river course floater intercepting mechanism according to claim 1, wherein the wire screen (4) is crossed with the vertical screen frame (5) when no ship passes through, when the ship passes through, the rotating shafts (1) of the two river banks (10) rotate, and the rotating shaft frame (2) drives the screen to rotate to provide a passage for the ship to pass through.

5. The river course float interception mechanism of claim 1 wherein: the river bank (10) is provided with an underwater gate (11) at the hollow part below the filter screen, the underwater gate (11) is connected with a water pipe (13), and the water pipe (13) is communicated with a filtering device and a wastewater treatment and feedback device.

6. The river course float interception mechanism of claim 1 wherein: a large motor (9) is arranged in the rotating shaft (1), and the rotating shaft outer frame (2) is externally connected with a fixing rod (14).

7. The river course float interception mechanism of claim 1 wherein: the underwater gate (11) is composed of a steel water-stop sheet (15) and a gear (16).

Images