CN114960891B - Water conservancy project construction diversion drainage structure and construction method thereof - Google Patents

Abstract

The invention discloses a hydraulic engineering construction diversion drainage structure and a construction method thereof, and relates to the technical field of hydraulic engineering construction. The invention can gradually increase the impact force to the adjusting plates in the adjusting piece when the water flow is large, so that the adjusting plates rotate downwards, namely the open slots between the adjusting plates are gradually enlarged, and meanwhile, when the water flow is small, the adjusting plates are horizontal, the open slots are in a minimum state, so that the drainage structure can be matched with different water flows to automatically adjust, and the whole drainage structure is composed of mechanical components, thus the phenomenon of water vapor erosion caused by electric elements is avoided.

Description

Water conservancy project construction diversion drainage structure and construction method thereof

Technical Field

The invention relates to the technical field of hydraulic engineering construction, in particular to a hydraulic engineering construction diversion drainage structure and a construction method thereof.

Background

Along with the development of the times and technologies, the hydraulic engineering is more and more important in the current stage, especially the urban underground drainage system, the urban underground drainage system with good performance and complete functionality can effectively avoid waterlogging, meanwhile, the negative influence of rainwater weather on daily production and living of people can be greatly reduced, and the diversion drainage structure in the hydraulic engineering is also required to be matched with a reasonable and standard construction method so as to enable the original diversion drainage structure to realize the preset function.

The prior publication CN 112081219A-a water conservancy drainage system, which comprises a sewer, a well and a power supply control system; the inner side wall of the water well is fixedly provided with a T-shaped protective cylinder, and a T-shaped pore canal is arranged in the T-shaped protective cylinder; a U-shaped screen cylinder is arranged in a T-shaped pore canal of the T-shaped protective cylinder; a sieve bucket is arranged in the U-shaped sieve cylinder; the inner side wall of the top of the U-shaped screen cylinder is provided with a plurality of support plates; the bottom of the U-shaped screen cylinder is provided with a hollow supporting tube, and the supporting tube is provided with a first spring; an end cover is arranged at the top end of the support tube, and a T-shaped slide bar is arranged in the support tube; the T-shaped slide bar is sleeved with a hinged base and a second spring; two hinged connecting rods are respectively arranged between each supporting plate and the hinged base; the bottom of the hinge base is fixedly provided with a warning lamp; the power supply control system is used for supplying power to the warning lamp and controlling the flashing and the stopping of the warning lamp. The drainage system can enhance the warning of the drainage well, improve the safety of the urban road drainage system, prevent the drainage system from being blocked and ensure the normal operation of the water conservancy drainage system;

while CN112081219 a-a water conservancy drainage system described above has the following disadvantages when in specific practical use:

1. the water conservancy drainage system adopts the structure that the T-shaped protective cylinder is fixedly arranged on the inner side wall of the water well, and a T-shaped pore canal is arranged in the T-shaped protective cylinder; a U-shaped screen cylinder is arranged in a T-shaped pore canal of the T-shaped protective cylinder; a sieve bucket is arranged in the U-shaped sieve cylinder; the inner side wall of the top of the U-shaped screen cylinder is provided with a plurality of support plates; the bottom of the U-shaped screen cylinder is provided with a hollow supporting tube, and the supporting tube is provided with a first spring; an end cover is arranged at the top end of the support tube, and a T-shaped slide bar is arranged in the support tube; the drainage capacity is improved by a well lid opening mode, the drainage capacity improved by the well lid opening mode is limited, and personal safety of surrounding people is easy to generate certain hidden trouble; meanwhile, the U-shaped screen drum and the screen bucket are utilized for filtering, impurities flow into a drainage system and are mostly in large drainage time, and when the large drainage is carried out, the U-shaped screen drum and the screen bucket cannot be opened and taken out at all under the action of water flow impact pressure, so that the impurities retained in the U-shaped screen drum and the screen bucket still affect the drainage work, the U-shaped screen drum and the screen bucket can only be cleaned in leisure time, and meanwhile, a warning lamp and an electric storage component in the system are connected with an electric fitting by using wires, so that the U-shaped screen drum and the screen bucket are difficult to assemble and disassemble, and good sealing performance is difficult to ensure;

2. the water conservancy drainage system adopts the structure that the bottom of the hinged base is fixedly provided with the warning lamp; the power supply control system is used for supplying power to the warning lamp and controlling the flashing and stopping of the warning lamp, namely, the whole hinge base and accessories such as the warning lamp on the whole hinge base are arranged in the T-shaped protective cylinder below the well lid, the T-shaped protective cylinder is used for draining water, namely, rainwater or sewage exists in the T-shaped protective cylinder, the warning lamp can be in a severe and moist environment for a long time, the service life of the warning lamp is further shortened sharply, and the original warning and the extending and retracting effects of the warning lamp are reduced gradually to be lost.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the hydraulic engineering construction diversion drainage structure and the construction method thereof, when the water flow is large, the impact force on the regulating plates in the regulating piece is gradually increased, so that the regulating plates rotate downwards, namely the open slots between the regulating plates are gradually enlarged, the purpose of increasing the water flow is achieved, meanwhile, when the water flow is small, the regulating plates are horizontal, the open slots are in the minimum state, so that the drainage structure can be matched with different water flows to automatically regulate, the whole drainage structure is composed of mechanical parts and is not matched with electric elements, therefore, the phenomenon of water vapor erosion caused by the electric elements is not caused, and the problem of the hydraulic drainage system is solved.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a hydraulic engineering construction water conservancy diversion drainage structures, includes drainage tank, spacing frame, lower cardboard, goes up cardboard and regulating part, its characterized in that: the upper side wall of the drainage box is provided with a limit frame, a built-in plate and a metal net are embedded in the limit frame, a lower clamping plate and an upper clamping plate are arranged in the drainage box, buffer springs are arranged on the bottom side walls of the lower clamping plate and the upper clamping plate, and the bottom side wall of the lower clamping plate is connected with the upper side wall of the upper clamping plate through an adjusting piece;

a drainage tank is arranged in the drainage tank, sliding grooves are arranged on the central axes of the four side walls of the drainage tank, the sliding grooves are in a T-shaped structure, and the sliding grooves are in sliding connection with the upper clamping plate through sliding plates;

the periphery of the limiting frame is inserted with lifting pieces, the limiting frame is connected with the screen frame through the lifting pieces, lifting columns are welded on the bottom side walls of lifting blocks in the lifting pieces, column ring grooves are formed in the bottom side walls of the lifting columns, the column ring grooves are connected with the lifting rings through positioning pins, notches are formed in positions of the lifting pieces on the limiting frame, the lifting blocks in the lifting pieces are of a straight plate-shaped structure, the lifting blocks in the lifting pieces and the lifting columns are mutually perpendicular, lifting rings in the lifting pieces are of small ring sleeve large ring structures, the small rings in the lifting rings are of closed ring structures, the large rings in the lifting rings are of open ring structures, and the large rings in the lifting rings are clamped at four corners of the screen frame;

the central axis of the side wall of the central groove is welded with a first hollow column, the first hollow columns are rotationally connected with the second hollow columns through inserting rods, the second hollow columns are totally arranged at two sides of the first hollow columns, the first inserting columns on the upper clamping plate are arranged in a hexagonal structure, the second inserting columns on the lower clamping plate are arranged in a hexagonal structure, and the first inserting columns and the second inserting columns are connected in a sleeved mode;

the rear side wall of the adjusting plate in the adjusting piece is adhered with a second hollow column, the second hollow column is inserted with an inserting rod, the bottom side wall of the adjusting plate is adhered with a second matching column, the second matching column is rotationally connected with a spring sleeve through an upper rotating rod, the spring sleeve is sleeved at two ends of a traction spring, the spring sleeve at the bottom of the traction spring is inserted with a lower rotating rod, the adjusting piece is provided with four adjusting pieces in total, the adjusting plate in the adjusting piece is arranged in a triangular plate structure, and the spring sleeve at the bottom of the traction spring in the adjusting piece is rotationally connected with the first matching column in the lower clamping plate through the lower rotating rod.

The invention also provides a construction method of the hydraulic engineering construction diversion drainage structure, which specifically comprises the following steps:

s1: the drainage box is vertically placed on the ground, a sliding plate on the outer wall of the lower clamping plate is inserted into a sliding groove on the inner wall of the drainage box, namely a buffer spring at the bottom of the lower clamping plate is abutted with the side wall of the bottom of the sliding groove;

s2: then, inserting a lower rotating rod at the bottom of a traction spring in the adjusting piece into a first matching column in the lower clamping plate; then, the upper rotating rod at the top of the traction spring is inserted into the second matching column at the bottom of the adjusting plate; then, the adjusting plate is assembled into the first hollow column of the upper clamping plate through the inserting rod;

s3: after S1 and S2 are completed, a sliding plate on the outer wall of the upper clamping plate is inserted into a sliding groove on the inner wall of the drainage box, namely a buffer spring at the bottom of the upper clamping plate is abutted with the upper side wall of the lower clamping plate;

s4: lifting pieces are inserted into slots in four corners of the built-in plate, and lifting rings at the bottom of the lifting pieces are hung with a screen frame;

s5: after S4, connecting the metal network card to the top of the built-in plate, and placing the built-in plate with the metal net and the screen frame into the limit frame, thereby completing the assembly work of the whole drainage tank;

s6: and excavating a vertical sewer hole in a sewer hole on a preset hydraulic engineering construction position, forming and filling side wall stabilizing materials, and then placing an assembled drainage tank on the hole to perform drainage work.

The invention provides a hydraulic engineering construction diversion drainage structure and a construction method thereof, which have the following beneficial effects:

(1) According to the water draining system, the water draining box, the built-in plate and the metal net are arranged, when the water draining box is inserted into the ground, the limit frame at the top of the water draining box is also submerged into the ground, the side walls of the top are mutually flush with the ground, the two side walls of the built-in plate extend out of the limit frame, the periphery of the top side wall of the built-in plate is smoothly arranged, the effect of blocking sundries is achieved, the problem of reduced or lost functionality caused by long-term compression can be avoided, the impact force on the adjusting plate in the adjusting piece is gradually increased when the water flow is large, the adjusting plate is further rotated downwards, namely the open slots among the adjusting plates are gradually enlarged, the purpose of increasing the water flow is achieved, meanwhile, when the water flow is small, the adjusting plates are horizontal, the open slots among the adjusting plates are also in a minimum state, the water draining structure can be matched with different water flow to be automatically adjusted, and the problem of the water draining system is solved, and the T-shaped pore is fixedly arranged on the inner side wall of the water well; a U-shaped screen cylinder is arranged in a T-shaped pore canal of the T-shaped protective cylinder; a sieve bucket is arranged in the U-shaped sieve cylinder; the inner side wall of the top of the U-shaped screen cylinder is provided with a plurality of support plates; the bottom of the U-shaped screen cylinder is provided with a hollow supporting tube, and the supporting tube is provided with a first spring; an end cover is arranged at the top end of the support tube, and a T-shaped slide bar is arranged in the support tube; the drainage capacity is improved by a well lid opening mode, the drainage capacity improved by the well lid opening mode is limited, and personal safety of surrounding people is easy to generate certain hidden trouble; meanwhile, the U-shaped screen drum and the screen bucket are utilized for filtering, impurities flow into the drainage system and are more in large drainage time, and when large drainage works, the U-shaped screen drum and the screen bucket cannot be opened and taken out at all under the action of water flow impact pressure, so that the impurities retained in the U-shaped screen drum and the screen bucket still affect the drainage work, the U-shaped screen drum and the screen bucket can only be cleaned in leisure time, and meanwhile, the warning lamp and the electric power storage component in the system are connected with an electric power fitting through wires, so that the disassembly and the assembly are difficult, and the problem of good sealing property is difficult to guarantee.

(2) According to the water conservancy drainage system, the upper clamping plate, the lower clamping plate, the buffer spring and the regulating piece are arranged, when the water conservancy drainage system is used, the whole drainage structure is composed of mechanical parts and is not matched with electric elements, so that water vapor infection caused by the electric elements is avoided, meanwhile, the accessories are connected with each other simply and conveniently, assembly operation and disassembly operation are facilitated, and the water conservancy drainage system is characterized in that the warning lamp is fixedly arranged at the bottom of the hinged base; the power supply control system is used for supplying power to the warning lamp and controlling the flashing and stopping of the warning lamp, namely, the whole hinge base and accessories such as the warning lamp on the whole hinge base are arranged in the T-shaped protective cylinder below the well lid, the T-shaped protective cylinder is used for draining water, namely, rainwater or sewage exists in the T-shaped protective cylinder, the warning lamp can be in a severe and moist environment for a long time, the service life of the warning lamp is further shortened sharply, and the original warning and the extending and retracting effects of the warning lamp are reduced gradually to be lost.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a cross-sectional view of the structure of the present invention;

FIG. 3 is an exploded view of the structure of the present invention;

FIG. 4 is an exploded view of the structure of the sling of the present invention;

FIG. 5 is a schematic view of the upper clamping plate and the upper clamping plate according to the present invention;

FIG. 6 is an exploded view of the upper cardboard structure of the present invention;

fig. 7 is an exploded view of the structure of the adjusting member of the present invention.

The reference numerals in the drawings are:

1. a drain tank; 101. a drainage channel; 102. a chute; 2. a limit frame; 201. hoisting the piece; 2011. hoisting the block; 2012. hoisting the column; 2013. a column ring groove; 2014. a positioning pin; 2015. lifting rings; 202. a screen frame; 3. a built-in plate; 4. a metal mesh; 5. an upper clamping plate; 501. a slide plate; 502. a central slot; 5021. a first hollow column; 503. a bottom plate; 504. a first skewer; 6. a lower clamping plate; 601. a second skewer; 602. a first mating post; 7. a buffer spring; 8. an adjusting member; 801. an adjusting plate; 802. a second hollow column; 803. a rod; 804. a second mating post; 805. a rotating rod is arranged on the upper part; 806. a spring sleeve; 807. a traction spring; 808. and a lower rotating rod.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

As shown in fig. 1-7, the present invention provides a technical solution: the hydraulic engineering construction water conservancy diversion drainage structure comprises a drainage box 1, a limiting frame 2, a lower clamping plate 6, an upper clamping plate 5 and an adjusting piece 8, wherein the limiting frame 2 is arranged on the upper side wall of the drainage box 1, a built-in plate 3 and a metal net 4 are embedded in the limiting frame 2, the lower clamping plate 6 and the upper clamping plate 5 are arranged in the drainage box 1, a buffer spring 7 is arranged on the bottom side walls of the lower clamping plate 6 and the upper clamping plate 5, and the bottom side wall of the lower clamping plate 6 is connected with the upper side wall of the upper clamping plate 5 through the adjusting piece 8;

lifting pieces 201 are inserted around the limiting frame 2, the limiting frame 2 is connected with the screen frame 202 through the lifting pieces 201, lifting columns 2012 are welded on the bottom side walls of lifting blocks 2011 in the lifting pieces 201, column ring grooves 2013 are formed in the bottom side walls of the lifting columns 2012, and the column ring grooves 2013 are connected with lifting rings 2015 through positioning pins 2014;

a sliding plate 501 is arranged on the peripheral side wall of the upper clamping plate 5, a central groove 502 is formed in the center of the upper clamping plate 5, first inserting columns 504 are arranged on the side walls of four corners of the bottom of the upper clamping plate 5, and a bottom plate 503 is arranged on the side wall of the bottom of the sliding plate 501; second inserting columns 601 are arranged at four corners of the upper side wall of the lower clamping plate 6, and first matching columns 602 are arranged on the inner side wall of the lower clamping plate 6;

the rear side wall of the adjusting plate 801 in the adjusting piece 8 is adhered with a second hollow column 802, an inserting rod 803 is inserted into the second hollow column 802, the bottom side wall of the adjusting plate 801 is adhered with a second matching column 804, the second matching column 804 is rotationally connected with a spring sleeve 806 through an upper rotating rod 805, the spring sleeves 806 are sleeved at two ends of the traction spring 807, and a lower rotating rod 808 is inserted into the spring sleeve 806 at the bottom of the traction spring 807.

As shown in fig. 1 and 3, a drainage tank 101 is arranged in the drainage tank 1, sliding grooves 102 are arranged on the central axes of four side walls of the drainage tank 101, the sliding grooves 102 are in a T-shaped structure, and the sliding grooves 102 are in sliding connection with an upper clamping plate 5 through sliding plates 501; the two side walls of the built-in plate 3 extend out of the limit frame 2, and the periphery of the top side wall of the built-in plate 3 is smoothly arranged, so that the effect of blocking sundries can be achieved, and the problem of reduced or lost functionality caused by long-term compression can be avoided.

As shown in fig. 3 and 4, a notch is formed in a position of a lifting piece 201 on the limiting frame 2, a lifting block 2011 in the lifting piece 201 is in a straight plate structure, and the lifting block 2011 in the lifting piece 201 and a lifting column 2012 are mutually perpendicular; the lifting ring 2015 in the lifting piece 201 is in a small ring sleeve large ring structure, wherein the small ring in the lifting ring 2015 is in a closed ring structure, the large ring in the lifting ring 2015 is in an open ring structure, and the large ring in the lifting ring 2015 is clamped at four corners of the screen frame 202.

As shown in fig. 5 and 6, the first inserting columns 504 on the upper clamping plate 5 are arranged in a hexagonal structure, the second inserting columns 601 on the lower clamping plate 6 are arranged in a hollow hexagonal structure, and the first inserting columns 504 and the second inserting columns 601 are connected in a sleeved mode.

As shown in fig. 5 and 7, a first hollow column 5021 is welded on the central axis of the side wall of the central groove 502, the first hollow column 5021 and a second hollow column 802 are rotationally connected through a plug 803, two second hollow columns 802 are provided, and the second hollow columns 802 are arranged on two sides of the first hollow column 5021; four adjusting members 8 are provided, and adjusting plates 801 in the adjusting members 8 are arranged in a triangular plate structure, and spring sleeves 806 at the bottoms of traction springs 807 in the adjusting members 8 are rotatably connected with the first matching columns 602 in the lower clamping plate 6 through lower rotating rods 808.

The invention also provides a construction method of the hydraulic engineering construction diversion drainage structure, which specifically comprises the following steps:

s1: placing the drainage box 1 vertically on the ground, and inserting the sliding plate 501 on the outer wall of the lower clamping plate 6 into the sliding groove 102 of the inner wall of the drainage box 1, namely, abutting the buffer spring 7 at the bottom of the lower clamping plate 6 with the bottom side wall of the sliding groove 102;

s2: then, the lower rotating rod 808 at the bottom of the traction spring 807 in the adjusting member 8 is inserted into the first fitting post 602 in the lower card 6; the upper rotary rod 805 at the top of the traction spring 807 is then inserted into the second mating post 804 at the bottom of the adjustment plate 801; then, the adjusting plate 801 is fitted into the first hollow column 5021 of the upper clamping plate 5 through the insert 803;

s3: after S1 and S2 are completed, the sliding plate 501 on the outer wall of the upper clamping plate 5 is inserted into the sliding groove 102 on the inner wall of the drainage tank 1, namely the buffer spring 7 at the bottom of the upper clamping plate 5 is abutted with the upper side wall of the lower clamping plate 6;

s4: lifting pieces 201 are inserted into slots in four corners of the built-in plate 3, and lifting rings 2015 at the bottom of the lifting pieces 201 are hung on a screen frame 202;

s5: after the S4 is completed, the metal net 4 is clamped to the top of the built-in plate 3, and the built-in plate 3 with the metal net 4 and the screen frame 202 is placed into the limit frame 2, so that the whole assembly work of the drainage tank 1 is completed;

s6: and excavating a vertical sewer hole in a sewer hole on a preset hydraulic engineering construction position, forming and filling side wall stabilizing materials, and then placing an assembled drainage tank on the hole to perform drainage work.

The foregoing is only a preferred embodiment of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present invention.

Claims (2)

1. Hydraulic engineering construction water conservancy diversion drainage structures, including drain tank (1), spacing frame (2), lower cardboard (6), go up cardboard (5) and regulating part (8), its characterized in that: the upper side wall of the drainage box (1) is provided with a limit frame (2), a built-in plate (3) and a metal net (4) are embedded in the limit frame (2), a lower clamping plate (6) and an upper clamping plate (5) are arranged in the drainage box (1), buffer springs (7) are arranged on the bottom side walls of the lower clamping plate (6) and the upper clamping plate (5), and the bottom side wall of the lower clamping plate (6) is connected with the upper side wall of the upper clamping plate (5) through an adjusting piece (8);

a drainage groove (101) is formed in the drainage box (1), sliding grooves (102) are formed in the central axes of the four side walls of the drainage groove (101), the sliding grooves (102) are arranged in a T-shaped structure, and the sliding grooves (102) are in sliding connection with the upper clamping plate (5) through sliding plates (501);

the lifting device is characterized in that lifting pieces (201) are inserted around the limiting frame (2), the limiting frame (2) is connected with the screen frame (202) through the lifting pieces (201), lifting columns (2012) are welded on the bottom side walls of lifting blocks (2011) in the lifting pieces (201), column ring grooves (2013) are formed in the bottom side walls of the lifting columns (2012), the column ring grooves (2013) are connected with lifting rings (2015) through positioning pins (2014), notches are formed in positions of the lifting pieces (201) on the limiting frame (2), lifting blocks (2011) in the lifting pieces (201) are of a straight plate-shaped structure, lifting rings (2015) in the lifting pieces (201) are arranged perpendicular to the lifting columns (2012) in a small ring sleeve large ring structure, small rings in the lifting rings (2015) are of a structure, the large rings in the lifting rings (2015) are of a large ring structure, and the large rings in the four corners of the lifting rings (2015) are clamped at the four corners of the screen frame (2015);

the novel socket comprises an upper clamping plate (5), a sliding plate (501) is arranged on the peripheral side wall of the upper clamping plate (5), a central groove (502) is formed in the center of the upper clamping plate (5), first inserting columns (504) are arranged on the side wall of the four corners of the bottom of the upper clamping plate (5), a bottom plate (503) is arranged on the side wall of the bottom of the sliding plate (501), second inserting columns (601) are arranged on the four corners of the upper side wall of a lower clamping plate (6), first matching columns (602) are arranged on the inner side wall of the lower clamping plate (6), first hollow columns (5021) are welded on the central axis of the side wall of the central groove (502), the first hollow columns (5021) are connected with the second hollow columns (802) in a rotating mode through inserting rods (803), two second hollow columns (802) are arranged on two sides of the first hollow columns (5021) in a separated mode, the first inserting columns (504) on the upper clamping plate (5) are arranged in a hexagonal structure, and the second inserting columns (601) on the lower clamping plate (6) are connected with the second inserting columns (601) in a sleeved mode;

the utility model discloses a three-dimensional adjusting device for the floor of the automobile, including adjusting piece (8), including adjusting plate (801), lower rotary rod (808), adjusting piece (8), inserted bar (803) have been stuck on the back lateral wall of adjusting plate (801) in adjusting piece (8), have spliced second cooperation post (804) on the bottom lateral wall of adjusting plate (801), second cooperation post (804) rotate with spring housing (806) through last rotary rod (805) and are connected, and spring housing (806) cup joints the both ends in traction spring (807), interlude in spring housing (806) of the bottom of traction spring (807) has lower rotary rod (808), and adjusting piece (8) are provided with four altogether, and adjusting plate (801) in adjusting piece (8) become triangle plate structure setting, spring housing (806) of the bottom of traction spring (807) in adjusting piece (8) rotate with first cooperation post (602) in lower cardboard (6) through lower rotary rod (808).

2. The construction method of the hydraulic engineering construction diversion drainage structure as claimed in claim 1, wherein: the method specifically comprises the following steps:

s1: the drainage box (1) is vertically placed on the ground, a sliding plate (501) on the outer wall of the lower clamping plate (6) is inserted into a sliding groove (102) on the inner wall of the drainage box (1), namely a buffer spring (7) at the bottom of the lower clamping plate (6) is abutted with the bottom side wall of the sliding groove (102);

s2: then, inserting a lower rotating rod (808) at the bottom of a traction spring (807) in the adjusting member (8) into a first mating post (602) in the lower card (6); then, the upper rotary rod (805) at the top of the traction spring (807) is inserted into the second matching column (804) at the bottom of the adjusting plate (801); then, the adjusting plate (801) is assembled into the first hollow column (5021) of the upper clamping plate (5) through the inserting rod (803);

s3: after S1 and S2 are completed, a sliding plate (501) on the outer wall of the upper clamping plate (5) is inserted into a sliding groove (102) on the inner wall of the drainage box (1), namely a buffer spring (7) at the bottom of the upper clamping plate (5) is abutted with the upper side wall of the lower clamping plate (6);

s4: lifting pieces (201) are inserted into slots in four corners of the built-in plate (3), and lifting rings (2015) at the bottom of the lifting pieces (201) are hung with a screen frame (202);

s5: after S4 is completed, the metal net (4) is clamped to the top of the built-in plate (3), and the built-in plate (3) with the metal net (4) and the screen frame (202) is placed into the limit frame (2), so that the assembly work of the whole drainage tank (1) is completed;

s6: and excavating a vertical sewer hole in a sewer hole on a preset hydraulic engineering construction position, forming and filling side wall stabilizing materials, and then placing an assembled drainage tank on the hole to perform drainage work.