CN211446820U - Flood gate structure for pump station - Google Patents

Abstract

The utility model relates to a pump station flood control floodgate structure relates to the pump station engineering field, include: the device comprises a pump station main body, a drainage pipeline, a flap valve, an overhaul gate, a first reinforcing member, a second reinforcing member and a bottom groove seat; the pump station main part is formed by reinforced concrete pouring, and the pump station main part includes: the drainage pipeline is arranged between the bottom base plate and the first layer plate, the drainage pipeline is horizontally arranged, the maintenance gate is arranged between the first layer plate and the second layer plate, the drainage pipeline is vertically arranged in a sliding manner, the flap valve is arranged at one end, close to the maintenance gate, of the first layer plate, and the flap valve is used for opening or blocking the water outlet end of the drainage pipeline; the first reinforcing member is arranged in the first laminate, the position of the first reinforcing member corresponds to the position of the flap valve, the second reinforcing member is arranged in the second laminate, and the position of the second reinforcing member corresponds to the position of the maintenance gate. The utility model discloses have the effect that the structure is more firm safe, the maintenance number of times is reduced.

Description

Flood gate structure for pump station

Technical Field

The utility model belongs to the technical field of the pump station engineering technique and specifically relates to a pump station flood control floodgate structure is related to.

Background

The urban scale of China is gradually enlarged, the original drainage standard is very low, the flood control problem is prominent, and the drainage pressure in the flood season is very large. On the other hand, with the rapid increase of urban population, a large amount of pollutants and domestic garbage are discharged into river channels, so that water pollution is aggravated, and the water environment is increasingly worsened. In non-flood season, the urban waterlogging drainage riverway is mainly used for retaining river water. However, if the water in the urban river does not flow, the water quality will become black, smelly and smelly, which causes the decline of urban competitiveness, influences the investment quotation, influences the urban image and influences the body health. Along with the continuous improvement of the living standard of people, the requirement on the quality of the living environment is also continuously improved, and the running water engineering which draws water from the outside to wash the urban river channel, dilutes sewage and improves the water quality of the urban river channel is born by the future and is more and more valued by urban managers.

The utility model discloses a retrieve chinese utility model patent that a bulletin number is CN206189359U now and disclose a quick gate structure for pump station delivery port, including installing quick gate and the maintenance gate at the pump station delivery port in proper order, quick gate and maintenance gate upper portion all are provided with the manger plate breastwork, still be provided with the flap valve on the quick gate.

The above prior art solutions have the following drawbacks: the flap valve is arranged on the water blocking breast wall, and the structure of the water blocking breast wall is easy to damage due to repeated opening of the flap valve because the flap valve needs to be opened and closed frequently, so that the blocking effect of the flap valve is influenced, and the flap valve needs to be maintained frequently, so that the flap valve needs to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a pump station flood control floodgate structure has the advantage that the structure is firm more safety, reduction maintenance number of times.

The above object of the present invention can be achieved by the following technical solutions: a pump station flood gate structure, comprising: the device comprises a pump station main body, a drainage pipeline, a flap valve, an overhaul gate, a first reinforcing member, a second reinforcing member and a bottom groove seat;

the pump station main part is formed by reinforced concrete pouring, the pump station main part includes: the drainage pipeline is arranged between the bottom base plate and the first layer plate, the drainage pipeline is horizontally arranged, the maintenance gate is arranged between the first layer plate and the second layer plate, the drainage pipeline is vertically arranged in a sliding manner, the flap valve is arranged at one end, close to the maintenance gate, of the first layer plate, and the flap valve is used for opening or blocking the water outlet end of the drainage pipeline;

the first reinforcing member is arranged in the first laminate, the position of the first reinforcing member corresponds to the position of the flap valve, the second reinforcing member is arranged in the second laminate, and the position of the second reinforcing member corresponds to the position of the maintenance gate.

By adopting the technical scheme, the first reinforcing member is positioned in the first layer plate, the structural strength of the first layer plate is enhanced, and the flap valve is arranged at the end part of the first layer plate, so that the first layer plate is not easy to damage even if the flap valve is repeatedly opened, and the blocking effect of the flap valve is not influenced; the secondary second reinforcing member is positioned in the second laminate, so that the structural strength of the second laminate is enhanced, and the main stress point for opening the maintenance gate is also positioned at the end part of the second laminate, so that the second laminate is not easy to damage even if the maintenance gate is repeatedly opened, and the blocking effect of the maintenance gate is not influenced; the added bottom groove seat can prevent the bottom of the maintenance gate from repeatedly impacting the upper surface of the bottom cushion plate when the maintenance gate is lifted, can well protect the bottom cushion plate and has better sealing effect; generally speaking, the pump station flood gate structure is firm in structure, not easy to damage and obviously reduced in maintenance times.

The utility model discloses further set up as, first reinforcement includes: two channel steels, a plurality of connecting rods and a plurality of groups of nuts,

two the channel-section steel symmetrical arrangement, the channel-section steel is in horizontal arrangement in the first deck, the connecting rod runs through and the perpendicular to the channel-section steel, the both ends of connecting rod are provided with the screw thread section, the screw thread section with nut screw assembly.

Through adopting above-mentioned technical scheme, the frame construction that channel-section steel and connecting rod formed, not only structural strength is high, and is difficult for bending deformation, first reinforcement after burying in first plywood in advance, the structural strength of first plywood obtains obvious reinforcing, and above-mentioned structural design's first reinforcement is simple manufacture, cost of manufacture low moreover.

The utility model discloses further set up to, the second reinforcement includes: the fixing device comprises a cross beam and fixing rods, wherein the cross beam is provided with three, four or five, the fixing rods are provided with a plurality of parts, the fixing rods are welded and fixed between the adjacent cross beams, and the fixing rods are perpendicular to the cross beams.

Through adopting above-mentioned technical scheme, the frame construction that crossbeam and dead lever formed, not only structural strength is high, and is not easy for bending deformation, after the second reinforcement is buried in the second plywood in advance, the structural strength of second plywood obtains obviously reinforcing, and above-mentioned structural design's second reinforcement is simple manufacture, cost of manufacture are low moreover.

The utility model discloses further set up to, the crossbeam is square steel pipe or I-steel.

Through adopting above-mentioned technical scheme, square steel pipe or I-steel not only have better structural strength, and convenient for material collection moreover, the purchase cost is lower.

The utility model discloses further set up to, the upper surface of heeling plate is provided with the recess, the bottom groove seat install in the recess, the bottom groove seat includes: a horizontal plate and a vertical plate are arranged on the upper surface of the frame,

the vertical plate is provided with two and all perpendicular to the upper surface of horizontal plate, two vertical plate laminate respectively in two inside walls of recess, the both sides limit of horizontal plate buries in advance in the backing plate, the horizontal plate laminate in the interior diapire of recess.

By adopting the technical scheme, the bottom groove with the structural design is firm in structure and simple to manufacture, the bottom groove seat is pre-embedded into the bottom base plate, the bottom base plate and the bottom groove seat are convenient to connect and fix, the bottom groove seat is convenient to install, and the bottom groove seat can be pre-embedded in advance when the bottom base plate is poured; the bottom of overhauing the gate simultaneously can insert in the kerve seat, and the kerve seat has to separate fender, spacing effect to the bottom of overhauing the gate, has indirectly promoted the installation steadiness and the sealed effect of overhauing the gate.

The utility model discloses further set up to, the lateral surface of vertical board with be provided with polylith reinforcing floor between the upper surface of horizontal plate, reinforcing floor is triangle-shaped or trapezoidal.

Through adopting above-mentioned technical scheme, the reinforcing floor supports between horizontal plate and vertical board, has promoted the structural strength of kerve seat, and the shock-resistant ability of kerve seat is stronger.

The utility model discloses further set up to, the lower surface of horizontal plate is provided with many anchor bars, the anchor bar is pre-buried to be fixed in the backing plate.

Through adopting above-mentioned technical scheme, the anchor bar can further prevent that the horizontal plate from breaking away from the backing plate, and the backing plate can be installed more firmly.

The utility model discloses further set up to, the bottom of anchor bar is provided with hook portion, the anchor bar is formed by the twisted steel bending.

Through adopting above-mentioned technical scheme, the design of crotch portion can prevent effectively that the anchor bar from the roll-off in the backing plate, and the backing plate can be installed more firmly, and the twisted steel is drawn materials conveniently moreover, and the cost of manufacture is low.

To sum up, the utility model discloses a beneficial technological effect does:

first, the first reinforcement is located in the first layer board, the structural strength of the first layer board is enhanced, and the flap valve is installed at the end part of the first layer board, so that even if the flap valve is repeatedly opened, the first layer board is not easy to damage, and the blocking effect of the flap valve is not influenced;

the second reinforcing member is positioned in the second laminate, so that the structural strength of the second laminate is enhanced, and the main stress point for opening the maintenance gate is also positioned at the end part of the second laminate, so that the second laminate is not easy to damage even if the maintenance gate is repeatedly opened, and the blocking effect of the maintenance gate is not influenced;

and thirdly, the finally increased bottom groove seat can prevent the bottom of the maintenance gate from repeatedly impacting the upper surface of the bottom cushion plate when the maintenance gate is lifted, so that the bottom cushion plate can be well protected, and a better sealing effect is achieved.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural view of a first reinforcement member according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of a second reinforcement member according to an embodiment of the present invention;

fig. 4 is an enlarged view at a in fig. 1.

Reference numerals: 1. a pump station main body; 11. a bottom bolster plate; 12. a first laminate; 13. a second laminate; 2. a water discharge pipeline; 3. a door is clapped; 4. repairing the gate; 5. a first stiffener; 51. channel steel; 52. a connecting rod; 53. a nut; 6. a second stiffener; 61. a cross beam; 62. fixing the rod; 7. a bottom groove seat; 71. a horizontal plate; 72. a vertical plate; 73. a reinforcing rib plate; 74. and (6) anchoring the ribs.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, do the utility model discloses a pump station flood control floodgate structure, include: pump station main part 1, drainage pipe 2, flap valve 3, maintenance gate 4, first reinforcement 5, second reinforcement 6 and bottom slot seat 7.

Pump station main part 1 is formed by reinforced concrete pouring, and pump station main part 1 includes: the water drainage pipeline comprises a bottom base plate 11, a first layer plate 12 and a second layer plate 13, wherein a water drainage pipeline 2 is arranged between the bottom base plate 11 and the first layer plate 12, the water drainage pipeline 2 is horizontally arranged, an inspection gate 4 is arranged between the first layer plate 12 and the second layer plate 13, the water drainage pipeline 2 is vertically arranged in a sliding mode, a flap valve 3 is arranged at one end, close to the inspection gate 4, of the first layer plate 12, and the flap valve 3 is used for opening or blocking the water outlet end of the water drainage pipeline 2; the first reinforcing member 5 is arranged in the first laminate 12, the position of the first reinforcing member 5 corresponds to the position of the flap valve 3, the second reinforcing member 6 is arranged in the second laminate 13, and the position of the second reinforcing member 6 corresponds to the position of the service gate 4.

As shown in fig. 1 and 2, the first reinforcement member 5 includes: two channel-section steels 51, many connecting rods 52 and multiunit nut 53, two channel-section steels 51 symmetrical arrangement, channel-section steel 51 horizontal arrangement in first floor 12, connecting rod 52 run through and perpendicular to channel-section steel 51, and the both ends of connecting rod 52 are provided with the screw thread section, screw thread section and nut 53 screw thread assembly.

The frame construction that channel-section steel 51 and connecting rod 52 formed, not only structural strength is high, and is not easy bending deformation, first reinforcement 5 after pre-buries in first plywood 12, the structural strength of first plywood 12 obtains obviously reinforcing, and above-mentioned structural design's first reinforcement 5, simple manufacture, cost of manufacture are low moreover.

As shown in fig. 1 and 3 in combination, the second reinforcement member 6 includes: the structure comprises a cross beam 61 and fixing rods 62, the cross beam 61 is provided with five (three or four in other embodiments), the fixing rods 62 are provided with a plurality of fixing rods 62, the fixing rods 62 are welded and fixed between the adjacent cross beams 61, and the fixing rods 62 are perpendicular to the cross beam 61. the frame structure formed by the cross beam 61 and the fixing rods 62 is high in structural strength and not easy to bend and deform, after the second reinforcing member 6 is pre-embedded in the second layer plate 13, the structural strength of the second layer plate 13 is obviously enhanced, and the second reinforcing member 6 with the structural design is simple to manufacture and low in manufacturing cost.

The beam 61 is an I-beam (in other embodiments, the I-beam can replace a square steel pipe), and the square steel pipe or the I-beam not only has better structural strength, but also is convenient to obtain materials and has lower purchase cost.

Referring to fig. 1 and 4, the upper surface of the bottom plate 11 is provided with a groove, the bottom seat 7 is installed in the groove, and the bottom seat 7 includes: horizontal plate 71, vertical board 72 are provided with two and all perpendicular to horizontal plate 71's upper surface, and two vertical boards 72 are laminated respectively in two inside walls of recess, and the both sides limit of horizontal plate 71 is in-advance buried bottom plate 11, and horizontal plate 71 is laminated in the interior diapire of recess.

The bottom groove with the structural design is firm in structure and simple to manufacture, the bottom groove seat 7 is embedded into the bottom base plate 11, the bottom base plate 11 and the bottom groove seat 7 are convenient to connect and fix, the bottom groove seat 7 is convenient to install, and the bottom groove seat 7 is embedded in advance when the bottom base plate 11 is poured; in the bottom of overhauing gate 4 can insert bottom slot seat 7 simultaneously, bottom slot seat 7 has to separate fender, spacing effect to the bottom of overhauing gate 4, has indirectly promoted the installation steadiness and the sealed effect of overhauing gate 4.

A plurality of reinforcing ribs 73 are arranged between the outer side surface of the vertical plate 72 and the upper surface of the horizontal plate 71, each reinforcing rib 73 is triangular (or trapezoidal), each reinforcing rib 73 is supported between the horizontal plate 71 and the vertical plate 72, the structural strength of the bottom slot seat 7 is improved, and the impact resistance of the bottom slot seat 7 is stronger.

The lower surface welding of horizontal plate 71 has four anchor bars 74, and anchor bar 74 is pre-buried in being fixed in backing plate 11, and anchor bar 74 can further prevent that horizontal plate 71 from breaking away from in backing plate 11, and backing plate 11 can be installed more firmly.

The bottom of anchor bar 74 is provided with curved hook portion, and anchor bar 74 is formed by the twisted steel bending, and curved hook portion's design can prevent effectively that anchor bar 74 from following bottom plate 11 roll-off, and bottom plate 11 can be installed more firmly, and twisted steel draws materials conveniently moreover, and the cost of manufacture is low.

The implementation principle of the embodiment is as follows: firstly, the first reinforcing member 5 is positioned in the first layer plate 12, the structural strength of the first layer plate 12 is enhanced, and the flap door 3 is arranged at the end part of the first layer plate 12, so that the first layer plate 12 is not easy to damage even if the flap door 3 is repeatedly opened, and the blocking effect of the flap door 3 is not influenced; the secondary second reinforcing member 6 is positioned in the second layer plate 13, so that the structural strength of the second layer plate 13 is enhanced, and the main stress point for opening the maintenance gate 4 is also positioned at the end part of the second layer plate 13, so that the second layer plate 13 is not easy to damage even if the maintenance gate 4 is repeatedly opened, and the blocking effect of the maintenance gate 4 is not influenced; the added bottom groove seat 7 can prevent the bottom of the maintenance gate 4 from repeatedly impacting the upper surface of the bottom cushion plate 11 when the maintenance gate is lifted, can well protect the bottom cushion plate 11 and has better sealing effect; generally speaking, the pump station flood gate structure is firm in structure, not easy to damage and obviously reduced in maintenance times.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a pump station flood gate structure which characterized in that includes: the device comprises a pump station main body (1), a drainage pipeline (2), a flap valve (3), an overhaul gate (4), a first reinforcing member (5), a second reinforcing member (6) and a bottom groove seat (7);

pump station main part (1) is formed by reinforced concrete pouring, pump station main part (1) includes: the drainage pipeline comprises a bottom base plate (11), a first layer plate (12) and a second layer plate (13), wherein the drainage pipeline (2) is installed between the bottom base plate (11) and the first layer plate (12), the drainage pipeline (2) is horizontally arranged, an overhaul gate (4) is installed between the first layer plate (12) and the second layer plate (13), the drainage pipeline (2) is vertically arranged in a sliding mode, a flap valve (3) is installed at one end, close to the overhaul gate (4), of the first layer plate (12), and the flap valve (3) is used for opening or blocking the water outlet end of the drainage pipeline (2);

the first reinforcing member (5) is arranged in the first laminate (12), the position of the first reinforcing member (5) corresponds to the position of the flap valve (3), the second reinforcing member (6) is arranged in the second laminate (13), and the position of the second reinforcing member (6) corresponds to the position of the maintenance gate (4).

2. The pump station flood gate structure according to claim 1, characterized in that the first reinforcement (5) comprises: two channel steels (51), a plurality of connecting rods (52) and a plurality of groups of nuts (53),

two channel-section steel (51) symmetrical arrangement, channel-section steel (51) are in horizontal arrangement in first plywood (12), connecting rod (52) run through and perpendicular to channel-section steel (51), the both ends of connecting rod (52) are provided with the screw thread section, the screw thread section with nut (53) screw thread assembly.

3. The pump station flood gate structure according to claim 1, characterized in that the second reinforcement (6) comprises: crossbeam (61) and dead lever (62), crossbeam (61) is provided with three, four or five, dead lever (62) are provided with many, dead lever (62) welded fastening is adjacent between crossbeam (61), just dead lever (62) perpendicular to crossbeam (61).

4. The pump station flood gate structure according to claim 3, wherein the cross beam (61) is a square steel pipe or an I-steel.

5. The pump station flood gate structure according to claim 1, characterized in that the upper surface of the bottom plate (11) is provided with a groove, the bottom groove seat (7) is installed in the groove, the bottom groove seat (7) comprises: a horizontal plate (71) and a vertical plate (72),

vertical board (72) are provided with two and all perpendicular to the upper surface of horizontal plate (71), two vertical board (72) laminate respectively in two inside walls of recess, the both sides limit of horizontal plate (71) is buried in advance in backing plate (11), horizontal plate (71) laminate in the interior diapire of recess.

6. The pump station flood gate structure according to claim 5, characterized in that a plurality of reinforcing ribs (73) are arranged between the outer side surface of the vertical plate (72) and the upper surface of the horizontal plate (71), and the reinforcing ribs (73) are triangular or trapezoidal.

7. The pump station flood gate structure according to claim 5, wherein a plurality of anchor bars (74) are arranged on the lower surface of the horizontal plate (71), and the anchor bars (74) are pre-embedded and fixed in the bottom cushion plate (11).

8. The pump station flood gate structure according to claim 7, characterized in that the bottom of the anchor bar (74) is provided with a hook portion, and the anchor bar (74) is formed by bending a twisted steel bar.

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