CN218115104U - Water diversion flow control well - Google Patents

Abstract

The utility model provides a well is flowed in branch water accuse, its leading features is that both sides before the well delivery port are flowed in the accuse are equipped with slant backup pad or slant support wall, the gate installation is flowed in the accuse of barocline is fixed on slant backup pad or slant support wall, it has two barocline accuse to flow the gate at least in the well to divide water accuse, one of them barocline accuse flows the gate and opens, open the gate when rising the flashboard, close the gate when falling the flashboard, through opening and close of control gate, the control divides the output direction that well was flowed in the accuse of rivers. The utility model discloses a flow the gate with the barocline accuse and install on the slant backup pad or the slant support wall of delivery port both sides, flow the flashboard with the barocline accuse and simplify into plate structure, through opening and close of the gate is flowed in the barocline accuse, the output direction of well is flowed in the accuse of control diversion.

Description

Water diversion flow control well

Technical Field

The utility model relates to a sewage treatment device.

Background

The synchronous anaerobic stabilization treatment device is a facility formed by combining water diversion flow control wells in front of at least two groups of anaerobic tanks, wherein the water diversion flow control wells are provided with inclined pressure flow control devices at the positions of water outlet pipe mouths, and the inclined pressure flow control devices are arranged on the flow cross sections in front of water outlets to control the water outlet of the flow control wells. The inclined pressure bearing plate is a flashboard bearing device of an inclined pressure flow control device, the transverse width of the inclined pressure bearing plate is generally smaller than the shaft width of the effluent flow cross section of a flow control well from the construction and installation angle, an interval exists between the inclined pressure bearing plate and the well wall, in order to solve the problem of the interval between the inclined pressure bearing plate and the well wall, inclined supporting plates or inclined supporting walls are arranged on two sides of the effluent flow cross section in front of the water outlet of the flow control well along the well wall, two side plate surfaces of the inclined pressure bearing plate are fixed on the inclined supporting plates or inclined wall surfaces of the inclined supporting walls, the inclined supporting plates or the inclined supporting walls are used for filling the gap between the inclined pressure bearing plate and the well wall, and the problem of installation and fixation of the inclined pressure bearing plate on the effluent flow cross section is solved. The inclined pressure flow control device is an inclined pressure flow control gate which is composed of an inclined pressure bearing supporting plate and a T-shaped gate plate or is composed of a hinge connecting the inclined pressure bearing supporting plate and a gate plate panel, when the gate plate covers an overflowing hole of the inclined pressure bearing supporting plate, the gate is closed, and the water diversion flow control well is an integrated water diversion flow control well or a water diversion flow control well formed by combining at least two flow control wells in parallel.

Disclosure of Invention

The utility model aims at designing one kind and being equipped with the barocline backup pad or the slant knee wall in the accuse stream well delivery port both sides, will barocline accuse stream gate install on barocline backup pad or barocline backup pad, through at least two baroclines accuse stream gate open/close control one or a set of accuse stream well water outlet direction's the accuse stream well that divides.

The technical scheme of the water diversion flow control well of the utility model is that at least two inclined pressure flow control gates are installed in one flow control well, or at least two inclined pressure flow control gates are installed in at least two parallel flow control wells, the inclined pressure flow control gates are installed on the flow cross section in front of the water outlet, both sides of inclined pressure bearing plates of the inclined pressure flow control gates are fixed on inclined supporting plates at both sides of the water outlet or inclined supporting walls, the inclined pressure flow control gates are formed by combining the inclined pressure bearing plates and T-shaped flashboards, or the inclined pressure flow control gates are formed by connecting flashboard panels by hinges on the inclined pressure bearing plates; the inclined pressure bearing supporting plate is provided with an overflowing hole, when the T-shaped gate plate or the hinge gate plate covers the overflowing hole, the inclined pressure flow control gate is closed, when the T-shaped gate plate or the hinge gate plate is lifted from the overflowing hole, the inclined pressure flow control gate is opened, and the water outlet direction of the water diversion flow control well is controlled by opening or closing the gate.

The flow control well is provided with at least two inclined pressure flow control gates, one flow control well is provided with at least one water inlet or water inlet pipe and at least two water outlets or water outlet pipes, two sides of each water outlet or water outlet pipe in the flow control well are provided with inclined support plates or inclined support walls, two sides of each inclined pressure support plate of each inclined pressure flow control gate are fixed on the inclined support plates or the inclined support walls, and a flow control well cover plate is arranged at the mouth of each flow control well.

The system is characterized in that at least two inclined pressure flow control gates are arranged in at least two parallel flow control wells, the two flow control wells are connected through a communicating pipe, at least one flow control well is provided with a water inlet or a water inlet pipe, each flow control well is provided with at least one water outlet or a water outlet pipe, two sides of a pipe orifice of each water outlet or the water outlet pipe are provided with inclined supporting plates or inclined supporting walls, two sides of an inclined pressure bearing plate of each inclined pressure flow control gate are fixed on the inclined supporting plates or the inclined supporting walls, and a flow control well cover plate is arranged at a well mouth of each flow control well.

The inclined pressure flow control gate is formed by combining an inclined pressure bearing plate and a T-shaped gate plate, wherein the inclined pressure bearing plate is a panel with a flow through hole, vertical position control stopping devices are arranged at opposite positions on two sides of the flow through hole, the position control stopping devices are vertical plates or vertical bar columns, positioning holes are respectively arranged on two sides of the surface of the inclined pressure bearing plate, the T-shaped gate plate is of a T shape formed by a gate plate panel on the lower portion and a transverse bar plate on the upper portion, an included angle of not more than 180 degrees is formed between the transverse bar plate and the gate plate panel, the area of the gate plate panel is larger than that of the flow through hole, the width of the gate plate panel is smaller than the distance between the two opposite position control stopping devices, the transverse bar plate is larger than the distance between the two opposite position control stopping devices, hanging holes or connecting holes or lifting holes are formed in the transverse bar plate, a lifting cable chain is connected from the hanging holes or the connecting holes, the other end of the lifting cable chain is provided with a hanging ring or a chain ring or a lock catch, and a hanging device is arranged on the wall above the inclined pressure flow control gate; the T-shaped gate is put down, the transverse slat of the T-shaped gate stops at the position of the position control stopping device, the gate panel covers the overflowing hole, the gate is closed, the T-shaped gate is lifted and hung on the hanging device, the gate is opened, the lifting cable chain is a single cable chain or a herringbone cable chain, and at least the tail end of the lifting cable chain is provided with a hanging ring or a chain ring or a lock catch.

The inclined pressure flow control gate is formed by connecting a gate plate panel on an inclined pressure bearing plate by a hinge, the inclined pressure bearing plate is provided with an overflowing hole, the plate surface on one side of the overflowing hole is provided with the hinge, the hinge is connected with one end of the gate plate panel, the gate plate panel is provided with a lifting handle or a chain hanging ring or a folded plate, the lifting handle or the chain hanging ring or the folded plate is connected with one end of a lifting rope chain, the other end of the lifting rope chain is hung on a hanging device above the inclined pressure flow control gate, and at least the end of the lifting rope chain is provided with the lifting ring or the chain ring or a lock catch; when the flashboard panel is lifted, the gate is opened, and when the flashboard panel is put down, the gate is closed.

The inclined supporting plates are panels which are obliquely arranged on the inner walls of the shafts on two sides of the water outlet, and the upper plate surfaces of the two opposite inclined supporting plates are on the same plane.

The inclined support walls are walls with right-angled triangles or right-angled trapezoids on the sections of the two sides of the water outlet, one end of the inclined side of each right-angled triangle or right-angled trapezium is connected with the bottom plate of the flow control well, and the inclined wall surfaces of the two inclined support walls on the two sides of the water outlet are on the same plane.

The hanging device is an overhanging hook or a lock catch or a hanging ring, or a cross bar or an overhanging bar.

The flow control well is constructed by adopting a masonry material, or a reinforced concrete material, or a metal material, or a plastic material, or a glass fiber reinforced plastic composite material; the inclined pressure flow control gate is made of metal, engineering plastic, glass fiber reinforced plastic or composite metal and thermoplastic resin.

The utility model is suitable for an alternative control overflows the output direction of medium among the well, especially is used for establishing in the one end or both ends of synchronous anaerobism stabilization processing apparatus, controls the output direction that divides water accuse flow well. The inclined pressure flow control gate has the advantages that the inclined support plates or the inclined support walls are arranged on the two sides of the water outlet, so that the structure of the inclined pressure flow control gate can be simplified, and the plate-type inclined pressure flow control gate is directly arranged on the flow cross section in front of the water outlet.

Drawings

The structure of the present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 is a schematic view of a water diversion and flow control well section elevation in embodiment 1 of the present invention.

Fig. 2 is a schematic top plan view of a flow control well according to embodiment 1 of the present invention.

Fig. 3 isbase:Sub>A schematic view of sectionbase:Sub>A-base:Sub>A of fig. 2 according to embodiment 1 of the present invention.

Fig. 4 is a schematic view of section B-B of fig. 2 according to embodiment 1 of the present invention.

Fig. 5 is a schematic plan view of a diagonal pressure bearing plate according to embodiment 1 of the present invention.

Fig. 6 is a schematic view of C-C of fig. 5 according to embodiment 1 of the present invention.

Fig. 7 is a schematic view of a T-shaped gate according to embodiment 1 of the present invention.

Fig. 8 is a schematic view of D-D of fig. 7 according to embodiment 1 of the present invention.

Figure 9 is the control flow well top plan schematic diagram of embodiment 2 of the present invention.

Fig. 10 is a schematic elevation view of a flow control well according to embodiment 3 of the present invention.

Fig. 11 is a schematic elevation view of a water diversion and flow control well according to embodiment 4 of the present invention.

In the attached drawings, 1, a flow control well side wall; 2. a water inlet pipe or a water inlet; 3. a water outlet pipe or a water outlet; 4. a ramp bearing plate; 5. an overflow hole; 6. a position control parking device; 7. a flow control well bottom plate; 8. a suspension device; 9. a flow control well cover plate; 10. an inclined support wall; 11. a shutter panel; 12. a transverse lath; 13. a lifting cable chain or lifting rod; 14. a hanging hole or a connecting hole or a lifting hole; 15. a suspension loop or link or catch; 16. a communicating pipe; 17. an oblique support plate; 18. a hinge; 19. handles or hanger links or flaps; 20. and (6) positioning the holes.

Detailed Description

As shown in fig. 1, 2, 3, 4, 5, 6, 7 and 8, the embodiment 1 is an integrated water diversion and flow control well with a quadrangular top view, the well body of the water diversion and flow control well is built by bricks, the four walls of the flow control well are flow control well side walls 1, the bottom of the flow control well is a flow control well bottom plate 7, and the well mouth is provided with a flow control well cover plate 9; the bottom of a flow control well side wall 1 is provided with a water inlet pipe 2, the bottom of the flow control well side wall 1 on two sides of the water inlet pipe 2 is provided with a water outlet pipe 3, two sides of the water outlet pipe 3 in the flow control well are provided with inclined support walls 10, the section surfaces of the inclined support walls 10 are in a right-angled triangle shape, an inclined pressure bearing plate 4 of an inclined pressure flow control gate is provided with positioning holes 20, and the inclined pressure bearing plate 4 is fixed on the inclined support walls 10 through the positioning holes 20; the bottom of the plate surface of the inclined pressure bearing plate 4 is connected with the bottom 7 of the flow control well, the middle lower part of the plate surface of the inclined pressure bearing plate 4 is provided with a flow through hole 5, the inclined pressure bearing plates 4 on two sides of the flow through hole 5 are provided with position control stopping devices 6, the position control stopping devices 6 are vertical square plates, the two position control stopping devices 6 are opposite in position, and the vertical position control stopping devices 6 exceed the upper part of the flow through hole 5; the T-shaped gate plate is composed of a gate plate panel 11 and a transverse slat 12, the width of the transverse slat 12 is equal to the distance between two position control parking devices 6, the width of the gate plate panel 11 is smaller than the distance between the two position control parking devices 6, the transverse slat 12 and the gate panel 11 form a T-shaped structure, an included angle of less than 180 degrees is formed between the transverse slat 12 and the plate surface of the gate panel 11, two connecting holes 14 are formed in the transverse slat 12, the two connecting holes 14 are respectively connected with two ends of a herringbone lifting rope chain 13, one end of the herringbone upper part of the lifting rope chain 13 is provided with a hanging ring 15, the hanging ring 15 is hung on a hanging device 8, and the hanging device 8 is a hanging hook arranged on the side wall 1 of the flow control well above the inclined pressure flow control gate; one T-shaped gate plate slides down to the position control parking device 6 after being put down, the gate plate panel 11 covers the overflowing hole 5, the gate is closed, the herringbone lifting cable chain 13 of the other T-shaped gate plate is hung on the hanging device 8, the T-shaped gate plate is lifted, and the gate is opened.

Embodiment 2 shown in fig. 5, 6, 7, 8 and 9 is a water diversion flow control well formed by combining two flow control wells connected in parallel, the two flow control wells are connected by a communicating pipe 16, one flow control well is provided with a water inlet pipe 2 and a water outlet pipe 3, two sides of the water outlet pipe 3 are provided with inclined support walls 10, an inclined pressure bearing plate of an inclined pressure flow control gate is installed and fixed on the inclined support walls 10, the other flow control well is provided with a water outlet pipe 3, two sides of the water outlet pipe 3 are provided with the inclined support walls 10, and the inclined pressure flow control gate is installed on the inclined support walls 10.

In the embodiment 3 shown in fig. 5, 6, 7, 8 and 10, the inclined support plates 17 are arranged on both sides of the water outlet pipe 3, the plate surfaces of the two inclined support plates 17 are on the same plane, holes are arranged at the positions of the inclined support plates 17 opposite to the positioning holes 20 on the inclined support plate 4, both sides of the inclined support plate 4 are fixed on the inclined support plates 17 by screws from the positioning holes 20, the well body of the flow control well is made of steel materials, and the design of the embodiment is the same as that of the embodiment 1 in other aspects.

The inclined pressure flow control gate of the embodiment 4 shown in fig. 11 is formed by connecting a gate panel 11 and an inclined pressure bearing plate 4 by hinges 18, wherein the inclined pressure bearing plate 4 is a flat plate, the hinges 18 are arranged at the upper part of the inclined pressure bearing plate 4 and are connected with the upper panel of the gate panel 11 by the hinges, a handle 19 is arranged on the lower panel of the gate panel 11, the handle 19 is connected with one end of a lifting cable chain 13, and the other end of the lifting cable chain 13 is hung on a hanging device 8; the embodiment is otherwise designed as in embodiment 1, with one shutter panel 11 pulled up, the gate opened, the other shutter panel 11 lowered, and the gate closed.

Claims (7)

1. A water diversion flow control well is characterized in that at least two inclined pressure flow control gates are installed in one flow control well, or at least two inclined pressure flow control gates are installed in at least two parallel flow control wells, the inclined pressure flow control gates are installed on a flow cross section in front of a water outlet, two sides of an inclined pressure bearing plate of each inclined pressure flow control gate are fixed on inclined support plates on two sides of the water outlet or inclined support walls, each inclined pressure flow control gate is formed by combining the inclined pressure bearing plate and a T-shaped gate plate, or each inclined pressure flow control gate is formed by connecting a gate plate panel on the inclined pressure bearing plate through a hinge.

2. The water diversion and flow control well according to claim 1, wherein at least two inclined pressure and flow control gates are installed in one flow control well, at least one water inlet or water inlet pipe and at least two water outlets or water outlet pipes are installed in one flow control well, inclined support plates or inclined support walls are arranged on two sides of the water outlet or water outlet pipe in the flow control well, and two sides of an inclined pressure bearing plate of each inclined pressure and flow control gate are fixed on the inclined support plates or the inclined support walls.

3. The water diversion and flow control well according to claim 1, wherein at least two inclined pressure flow control gates are installed in at least two parallel flow control wells, the two flow control wells are connected by a communication pipe, at least one flow control well is provided with a water inlet or a water inlet pipe, each flow control well is provided with at least one water outlet or a water outlet pipe, inclined support plates or inclined support walls are arranged on two sides of a pipe orifice of each water outlet or water outlet pipe, and two sides of an inclined pressure bearing plate of each inclined pressure flow control gate are fixed on the inclined support plates or the inclined support walls.

4. The water diversion and flow control well according to claim 1, wherein said inclined pressure flow control gate is composed of an inclined pressure bearing plate and a T-shaped gate plate, the inclined pressure bearing plate is a panel with a flow through hole, vertical position control stop devices are arranged at opposite positions on two sides of the flow through hole, and positioning holes are arranged on two sides of the surface of the inclined pressure bearing plate; t type flashboard comprises the flashboard panel of lower part and the horizontal slat on upper portion T type, there is the contained angle that is not more than 180 between horizontal slat and the flashboard panel, the area of flashboard panel is greater than and overflows the entrance to a cave area, the width is less than two relative accuse position stop device intervals, the width of horizontal slat is greater than two relative accuse position stop device intervals, there is hanging hole or connecting hole or carry the hand-operated hole on the horizontal slat, connect from hanging hole or connecting hole and carry the drag chain, the other end of carrying the drag chain has hanging ring or chain link or hasp, there is linkage on the wall of a well of oblique pressure accuse stream gate top.

5. The water diversion and flow control well according to claim 1, wherein said inclined pressure flow control gate is formed by connecting a gate plate panel with a hinge on an inclined pressure bearing plate, the inclined pressure bearing plate is provided with a flow through hole, the plate on one side of the flow through hole is provided with a hinge, the hinge is connected with one end of the gate plate panel, the gate plate panel is provided with a handle or a chain hanging ring or a folded plate, and the handle or the chain hanging ring or the folded plate is connected with one end of the lifting cable chain.

6. The well of claim 1, wherein the inclined support plates are panels of the inner wall of the well casing obliquely disposed at both sides of the water outlet, and the upper plate surfaces of two opposite inclined support plates are in the same plane.

7. The water diversion flow control well according to claim 1, wherein said inclined support walls are walls with right triangle or right trapezoid cross-section at both sides of the water outlet, one end of the hypotenuse of the right triangle or right trapezoid is connected to the bottom plate of the flow control well, and the inclined wall surfaces of the two inclined support walls at both sides of the water outlet are in the same plane.

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