CN113699940B - Aqueduct water stop structure and construction method thereof - Google Patents

Abstract

The utility model belongs to the technical field of hydraulic engineering and specifically relates to an aqueduct stagnant water structure is related to, the aqueduct includes the same first aqueduct body and the second aqueduct body of shape, the stagnant water structure includes the same and arrange the sealing strip between first aqueduct body and the second aqueduct body with first aqueduct body terminal surface shape, one side fixedly connected with that the sealing strip is close to first aqueduct body is the same with the sealing strip shape first sealed piece, one side that first aqueduct body is close to the sealing strip is equipped with the first inserting groove that supplies the first sealed piece to peg graft, one side fixedly connected with that the sealing strip is close to the second aqueduct body is the same with the sealed piece of sealed bar shape, one side that the second aqueduct body is close to the sealing strip is equipped with the second inserting groove that supplies the sealed piece of second to peg graft, first aqueduct body and second aqueduct body coupling have the fixed establishment with first sealed piece and the sealed piece of second. The application also discloses a construction method of the aqueduct water stop structure. This application has the effectual advantage of stagnant water.

Description

Aqueduct water stop structure and construction method thereof

Technical Field

The application relates to the field of hydraulic engineering, in particular to a aqueduct water stop structure and a construction method thereof.

Background

Aqueduct is a common water delivery building in hydraulic engineering, is mostly used for crossing over terrains such as rivers, channels, roads, valleys and the like to carry out water delivery work, and is one of the most widely applied buildings in canal system buildings.

In the process of constructing the aqueduct, the gap between adjacent aqueducts needs to be filled and sealed to stop water for the aqueduct. The existing method for filling and sealing the gap between the adjacent aqueducts is to smear cement mortar on the gap, and after the cement mortar is dried, the cement mortar seals the gap between the adjacent aqueducts so as to achieve the purpose of water stopping.

In the related art, cracks may be generated in the cement mortar at the cracks after long-time wind and sun exposure, and the inventor believes that the water stopping effect through the cement mortar is poor.

Disclosure of Invention

In order to improve the problem that the effect of stopping water through cement mortar is relatively poor, the application provides an aqueduct stagnant water structure and construction method thereof.

First aspect, this application provides an aqueduct stagnant water structure, adopts following technical scheme:

the utility model provides an aqueduct stagnant water structure, aqueduct include the same first aqueduct body and the second aqueduct body of shape, the stagnant water structure includes the same and arrange the sealing strip between first aqueduct body and the second aqueduct body with first aqueduct body terminal surface shape, one side fixedly connected with that the sealing strip is close to first aqueduct body has the same first sealed piece with the sealing strip shape, one side that first aqueduct body is close to the sealing strip is equipped with the first inserting groove that supplies the first sealed piece to peg graft, one side fixedly connected with that the sealing strip is close to the second aqueduct body has the same sealed piece of second with sealed strip shape, one side that the second aqueduct body is close to the sealing strip is equipped with the second inserting groove that supplies the sealed piece of second to peg graft, first aqueduct body and second aqueduct body connection have the fixed establishment with first sealed piece and the sealed piece of second.

Through adopting the technical scheme, when installing first aqueduct body and second aqueduct body, arrange the sealing strip in between first aqueduct body and the second aqueduct body, first sealed piece closely pegs graft with first inserting groove, the sealed piece of second closely pegs graft with the second inserting groove, fixed establishment fixes first sealed piece in first inserting groove, fix the sealed piece of second in the second inserting groove, the sealing strip, the sealed piece of first sealed piece and second seals the gap between first aqueduct body and the second aqueduct body, sealing process does not use cement mortar, the possibility that the sealed department produces the crack has been reduced, the leakproofness of the gap department between first aqueduct body and the second aqueduct body has the effectual advantage of stagnant water.

Optionally, the fixing mechanism includes a pair of first connection plates which are vertically arranged and abutted against inner walls of the first aqueduct body and the second aqueduct body, the upper surfaces of the first connection plates are fixedly connected with second connection plates which are horizontally arranged, the lower surfaces of the second connection plates are fixedly connected with third connection plates which are vertically arranged, the first aqueduct body and the second aqueduct body are arranged between the first connection plates and the third connection plates, one side of the third connection plates, which is far away from the first aqueduct body, is inwardly provided with a plurality of first insertion holes, the first insertion holes are respectively inserted into the first insertion holes, one side of the first aqueduct body, which is close to the first insertion rods, is inwardly provided with a plurality of first connection holes for inserting the first abutment rods, the first abutment rods are abutted against the first sealing blocks, one side of the third connection plates, which is far away from the second aqueduct body, is inwardly provided with a plurality of second insertion holes, a second butt joint rod is inserted in the second inserting hole, a plurality of second connecting holes for inserting the second butt joint rods are inwards arranged at one side of the second aqueduct body close to the second butt joint rod, the second abutting rod abuts against the second sealing block, one end of the first abutting rod and one end of the second abutting rod, which are far away from the first connecting plate, are fixedly connected with an abutting plate, a pair of first supporting plates are fixedly connected to one side of the third connecting plate far away from the first connecting plate, a second supporting plate is fixedly connected to one side of the first supporting plate far away from the third connecting plate, the second supporting plate is in threaded connection with a threaded rod, one end of the threaded rod is abutted against one side of the abutting plate close to the second supporting plate, the one end fixedly connected with dwang of butt joint board is kept away from to the threaded rod, one side fixedly connected with that first connecting plate is close to the third connecting plate is sealed to be filled up, sealed the vertical inner wall butt with first aqueduct body and second aqueduct body simultaneously of filling up.

Through adopting above-mentioned technical scheme, when needing to seal first sealed piece and the sealed piece of second fixed, the staff makes sealed pad earlier cover the vertical gap between first aqueduct body and the second aqueduct body, then make first butt joint pole aim at the first connecting hole, the second butt joint pole aims at the second connecting hole, the staff rotates the dwang, the dwang drives the threaded rod to the one side motion that is close to first aqueduct body, the threaded rod drives the butt joint board to the one side motion that is close to first aqueduct body, the butt joint board drives a plurality of first butt joint poles simultaneously and moves to the one side that is close to first sealed piece, first butt joint pole and the inseparable butt of first sealed piece, first butt joint pole compresses tightly first sealed piece. The butt joint board drives a plurality of second butt joint poles simultaneously and moves to one side that is close to the sealed piece of second, and the sealed piece butt of second butt joint pole and second compresses tightly the sealed piece of second, and first connecting plate all closely the butt with the vertical inner wall of first aqueduct body and second aqueduct body this moment. The dwang can be realized driving a plurality of first butt rods simultaneously and fixed first sealed piece, drives a plurality of second butt rods simultaneously and fixed the sealed piece of second, and the process of fixed first sealed piece and the sealed piece of second is more convenient.

First connecting plate, sealed pad, first butt joint pole and the cooperation of second butt pole are used, not only can be fixed with first sealed piece and the sealed piece of second, and first connecting plate and sealed pad can also increase the stagnant water effect of first aqueduct body and the this body junction of second aqueduct. The first butt joint rod is connected with the first connecting hole in an inserting mode, the second butt joint rod is connected with the second connecting hole in an inserting mode, and the stability of the first aqueduct body and the second aqueduct body in the connecting process can be improved.

Optionally, one side that the third connecting plate is close to the dwang is connected with the fixed subassembly that will the dwang is fixed.

Through adopting above-mentioned technical scheme, first butt-joint pole supports tightly first sealed piece, the sealed piece of second is supported tightly the back to the second butt-joint pole, and fixed subassembly is fixed with the dwang, and the dwang can not continue to rotate, has the effect that increases the stability when sealed piece of first sealed piece and second is fixed, and when needing to rotate the dwang, fixed subassembly removes the restriction to the dwang.

Optionally, the fixed subassembly includes the first bracing piece that is close to one side fixed connection of dwang with the second backup pad, one side that the second backup pad was kept away from to first bracing piece is equipped with the adjustment tank, it has the second bracing piece to peg graft in the adjustment tank, one side that the second bracing piece is close to the dwang is equipped with and supplies the dwang to peg graft there is the standing groove.

Through adopting above-mentioned technical scheme, to the inside second bracing piece that removes of adjustment tank, the second bracing piece can not influence the dwang and rotate, when needing to fix the dwang, rotates the dwang to the position that is close to the second bracing piece, then to the one side removal second bracing piece that is close to the dwang, makes the dwang arrange the standing groove in, fixed the dwang, the fixed process is more convenient.

Optionally, the outer surface of the first support rod is connected with a fastening bolt which is abutted to the second support rod through an inward thread.

Through adopting above-mentioned technical scheme, the second bracing piece is fixed the back with the dwang, screws up fastening bolt, and fastening bolt is fixed the second bracing piece, increases the stability of second bracing piece when with the dwang fixed.

Optionally, a preformed hole communicated with the placing groove is inwards formed in the vertical side face of the second supporting rod, a stop lever for stopping the rotating rod in the placing groove is inserted into the preformed hole, and a preformed groove for inserting the stop lever is inwards formed in one side, far away from the preformed hole, of the placing groove.

Through adopting above-mentioned technical scheme, the dwang is arranged in the standing groove back, pegs graft pin lever and preformed hole, then pegs graft pin lever and preformed groove, and the pin lever has the effect that increases the stability when fixing the dwang when in the standing groove with the dwang.

Optionally, the stop lever is an iron rod, and a magnet abutted to the stop lever is fixedly mounted at the bottom of the preformed groove.

Through adopting above-mentioned technical scheme, the pin is pegged graft with the reservation groove after, and the pin attracts the butt with magnet, and magnet increases the stability when pin and reservation groove are pegged graft.

In a second aspect, the application provides a construction method of a aqueduct water stop structure, which adopts the following technical scheme:

a construction method of a aqueduct water stop structure comprises the following steps:

s1, connecting sealing strips: placing the sealing strip between the first aqueduct body and the second aqueduct body, and then inserting the first sealing block and the first inserting groove, and inserting the second sealing block and the second inserting groove;

s2, fixing the first sealing block and the second sealing block: enabling the sealing gaskets to be abutted against the vertical inner walls of the first aqueduct body and the second aqueduct body, enabling the first abutting rods to be aligned to the first connecting holes, enabling the second abutting rods to be aligned to the second connecting holes, rotating the rotating rod, enabling the rotating rod to enable the threaded rods to drive the abutting plates to move towards one side close to the first aqueduct body, enabling the first abutting rods to be inserted into the first connecting holes and tightly abutted against the first sealing blocks, enabling the second abutting rods to be inserted into the second connecting holes and tightly abutted against the second sealing blocks;

s3, fixing the rotating rod: moving the second support rod to one side close to the rotating rod, so that the rotating rod is placed in the placing groove, screwing the fastening bolt, and tightly abutting the fastening bolt with the lower surface of the second support rod;

s4, connecting a stop lever: the dwang is arranged in the standing groove back, to the one side removal pin that is close to the reservation groove, and the pin is pegged graft with the reservation groove, and the dwang is kept off by the pin in the standing groove and magnet attracts the butt with the pin.

Through adopting above-mentioned technical scheme, first sealed piece is pegged graft with first inserting groove, the sealed piece of second is pegged graft with the second inserting groove back, the staff makes earlier sealed the pad cover the vertical gap between first aqueduct body and the second aqueduct body, then make first butt joint pole aim at the first connecting hole, the second butt joint pole is aimed at the second connecting hole, the staff rotates the dwang, the dwang drives the threaded rod to the side motion that is close to first aqueduct body, the threaded rod drives the butt joint board to the side motion that is close to first aqueduct body, the butt joint board drives a plurality of first butt joint poles simultaneously and moves to the side that is close to first sealed piece, first butt joint pole and the inseparable butt of first sealed piece, first butt joint pole compresses tightly first sealed piece. The butt joint board drives a plurality of second butt joint poles simultaneously and to the motion of one side that is close to the sealed piece of second, and the sealed piece butt of second butt joint pole and second compresses tightly the sealed piece of second, and first connecting plate all with the inseparable butt of the vertical inner wall of first aqueduct body and second aqueduct body this moment. The dwang can be realized driving a plurality of first butt rods simultaneously and fixed first sealed piece, drives a plurality of second butt rods simultaneously and fixed the sealed piece of second, and the process of fixed first sealed piece and the sealed piece of second is more convenient.

The sealing strip, the first sealing block and the second sealing block seal a gap between the first aqueduct body and the second aqueduct body, cement mortar is not used in the sealing process, the possibility of crack generation at the sealing position is reduced, the sealing performance of the gap between the first aqueduct body and the second aqueduct body is improved, and the water stopping effect is good.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the sealing strip, the first sealing block and the second sealing block seal a gap between the first aqueduct body and the second aqueduct body, cement mortar is not used in the sealing process, the possibility of crack generation at the sealing position is reduced, the sealing performance of the gap between the first aqueduct body and the second aqueduct body is improved, and the water stopping effect is good;

2. first connecting plate, sealed pad, first butt joint pole and the cooperation of second butt pole are used, not only can be fixed with first sealed piece and the sealed piece of second, and first connecting plate and sealed pad can also increase the stagnant water effect of first aqueduct body and the this body junction of second aqueduct. The first butt joint rod is connected with the first connecting hole in an inserting mode, the second butt joint rod is connected with the second connecting hole in an inserting mode, and stability of the first aqueduct body and the second aqueduct body during connection can be improved.

Drawings

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

Fig. 2 is a schematic structural view of the sealing tape according to the present embodiment.

Fig. 3 is a schematic structural view showing the first seal block and the second seal block in the present embodiment.

Fig. 4 is a schematic structural diagram of the first and second butting bars in this embodiment.

Fig. 5 is a schematic structural view showing the first connection hole and the second connection hole in the present embodiment.

Fig. 6 is a schematic view showing a structure of an adjustment groove in the present embodiment.

Fig. 7 is a schematic view of the structure of the magnet according to the present embodiment.

Description of reference numerals: 1. a first aqueduct body; 11. a first insertion groove; 12. a first connection hole; 2. a second aqueduct body; 21. a second insertion groove; 22. a second connection hole; 3. a sealing strip; 31. a first seal block; 32. a second seal block; 4. a fixing mechanism; 41. a first connecting plate; 411. a gasket; 42. a second connecting plate; 43. a third connecting plate; 431. a first plug hole; 432. a second plug hole; 44. a first abutting rod; 45. a second butting rod; 46. a butt joint plate; 47. a first support plate; 48. a second support plate; 49. a threaded rod; 491. rotating the rod; 5. a fixing assembly; 51. a first support bar; 511. an adjustment groove; 52. a second support bar; 521. a placement groove; 522. reserving a hole; 523. reserving a groove; 5231. a magnet; 53. fastening a bolt; 54. a stop lever.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses aqueduct stagnant water structure. As shown in fig. 1 and 2, the aqueduct comprises a first aqueduct body 1 and a second aqueduct body 2 which are adjacent to each other, and the first aqueduct body 1 and the second aqueduct body 2 are abutted with each other end to end.

As shown in fig. 2 and 3, the water stop structure includes a sealing strip 3 disposed between the first aqueduct body 1 and the second aqueduct body 2, the shape of the sealing strip 3 is the same as the shape of the end surface of the first aqueduct body 1, one side of the sealing strip 3 is tightly abutted against the end surface of the first aqueduct body 1, and the other side of the sealing strip 3 is tightly abutted against the end surface of the second aqueduct body 2.

The end face of the first aqueduct body 1 close to the second aqueduct body 2 is provided with a first inserting groove 11 inwards, and the shape of the first inserting groove 11 is the same as that of the end face of the first aqueduct body 1. The end face of the second aqueduct body 2 close to the first aqueduct body 1 is inwards provided with a second inserting groove 21, and the shape of the second inserting groove 21 is the same as that of the end face of the second aqueduct body 2.

One side of the sealing strip 3 close to the first inserting groove 11 is fixedly connected with a first sealing block 31, the shape of the first sealing block 31 is the same as that of the first inserting groove 11, and the first sealing block 31 is tightly inserted into the first inserting groove 11. One side of the sealing strip 3 close to the second inserting groove 21 is fixedly connected with a second sealing block 32, the shape of the second sealing block 32 is the same as that of the second inserting groove 21, and the second sealing block 32 is tightly inserted into the second inserting groove 21.

As shown in fig. 1 and 3, the first aqueduct body 1 and the second aqueduct body 2 are connected with a fixing mechanism 4, the fixing mechanism 4 fixes the first sealing block 31 in the first insertion groove 11 and fixes the second sealing block 32 in the second insertion groove 21. Sealing strip 3, first sealed piece 31 and the sealed piece 32 of second seal the gap between to first aqueduct body 1 and the second aqueduct body 2, and fixed establishment 4 is fixed first sealed piece 31 and the sealed piece 32 of second, and whole sealing process does not use cement mortar, has reduced the cracked possibility of sealed department production, has increased the leakproofness of gap department between first aqueduct body 1 and the second aqueduct body 2, has the effectual advantage of stagnant water.

The fixing mechanism 4 comprises a pair of first connecting plates 41, the first connecting plates 41 are abutted against the vertical inner walls of the adjacent positions of the first aqueduct body 1 and the second aqueduct body 2, and the two first connecting plates 41 are arranged in the first aqueduct body 1 and the second aqueduct body 2 in opposite directions.

As shown in fig. 4 and 5, a second connecting plate 42 is fixedly connected to each of the upper surfaces of the first connecting plate 41, and the lower surfaces of the second connecting plates 42 abut against the upper surfaces of the first aqueduct body 1 and the second aqueduct body 2. A third connecting plate 43 is fixedly connected to one side of the lower surface of the second connecting plate 42, which is far away from the first connecting plate 41, three first inserting holes 431 distributed in the vertical direction are inwards arranged on one side of the third connecting plate 43, which is far away from the first aqueduct body 1, and the first inserting holes 431 penetrate through the third connecting plate 43.

One side that first aqueduct body 1 is close to third connecting plate 43 inwards is equipped with three first connecting hole 12 that distribute along vertical direction, first connecting hole 12 and first inserting groove 11 intercommunication and first connecting hole 12 and first inserting hole 431 one-to-one.

The first plugging holes 431 are plugged with first butting rods 44, the first butting rods 44 are also plugged with the first connecting holes 12, and one ends of the first butting rods 44 close to the first sealing blocks 31 are butted with the first sealing blocks 31.

Three second inserting holes 432 distributed in the vertical direction are formed inwards on one side, far away from the second aqueduct body 2, of the third connecting plate 43, and the second inserting holes 432 penetrate through the third connecting plate 43. One side of the second aqueduct body 2 close to the third connecting plate 43 is inwardly provided with three second connecting holes 22 distributed along the vertical direction, the second connecting holes 22 are communicated with the second inserting groove 21, and the second connecting holes 22 are in one-to-one correspondence with the second inserting holes 432.

The second inserting holes 432 are all inserted with second abutting rods 45, the second abutting rods 45 are also inserted with the second connecting holes 22, and one end of each second abutting rod 45 close to the second sealing block 32 abuts against the second sealing block 32.

One end of the first butt joint rod 44, which is far away from the first aqueduct body 1, is fixedly connected with a butt joint plate 46, and one end of the second butt joint rod 45, which is far away from the second aqueduct body 2, is also fixedly connected with the butt joint plate 46. One side that third connecting plate 43 is kept away from first aqueduct body 1 is fixedly connected with a pair of first backup pad 47, and two first backup pads 47 distribute along vertical direction.

A second supporting plate 48 is fixedly connected to a side of the first supporting plate 47 away from the third connecting plate 43, and the abutting plate 46 is disposed between the third connecting plate 43 and the second supporting plate 48. A threaded rod 49 is connected to the second support plate 48 through a thread, one end of the threaded rod 49 abuts against one side of the abutting plate 46 far away from the first abutting rod 44, and a rotating rod 491 is fixedly connected to one end of the threaded rod 49 far away from the abutting plate 46.

As shown in fig. 4 and 5, when the first sealing block 31 and the second sealing block 32 need to be fixed, the worker rotates the rotating rod 491, the rotating rod 491 drives the threaded rod 49 to move to the side close to the first aqueduct body 1, and the threaded rod 49 drives the abutting plate 46 to move to the side close to the first aqueduct body 1. The abutting plate 46 simultaneously drives the three first abutting rods 44 to move to a side close to the first sealing block 31, the first abutting rods 44 are tightly abutted to the first sealing block 31, and the first abutting rods 44 tightly press the first sealing block 31. The abutting plate 46 simultaneously drives the three second abutting rods 45 to move to one side close to the second sealing block 32, the second abutting rods 45 abut against the second sealing block 32, the second abutting rods 45 tightly press the second sealing block 32, and at the moment, the first connecting plate 41 is tightly abutted against the vertical inner walls of the first aqueduct body 1 and the second aqueduct body 2.

Only need rotate dwang 491 can drive a plurality of first butt joint poles 44 simultaneously and compress tightly fixedly with first sealed piece 31, drive a plurality of second butt joint poles 45 simultaneously and compress tightly fixedly with second sealed piece 32, and the process of fixing first sealed piece 31 and second sealed piece 32 is more convenient.

One side fixedly connected with sealed the pad 411 that first connecting plate 41 is close to first aqueduct body 1 and second aqueduct body 2, sealed pad 411 all with the vertical inner wall of first aqueduct body 1 and second aqueduct body 2 closely butt, sealed pad 411 covers the gap of the vertical direction of first aqueduct body 1 and second aqueduct body 2, further increases the stagnant water effect.

First connecting plate 41, sealed 411, first butt joint pole 44 and the cooperation of second butt joint pole 45 are used, not only can be fixed first sealed piece 31 and second sealed piece 32, and first connecting plate 41 and sealed 411 can also increase the stagnant water effect of first aqueduct body 1 and the second aqueduct body 2 junction.

The first abutting rod 44 is inserted into the first connecting hole 12, and the second abutting rod 45 is inserted into the second connecting hole 22, so that the stability of the first aqueduct body 1 when being connected with the second aqueduct body 2 is improved.

One side of the second supporting plate 48 close to the rotating rod 491 is connected with the fixing component 5, and when the rotating rod 491 is not required to rotate, the fixing component 5 fixes the rotating rod 491, so that the possibility of the rotating rod 491 rotating is reduced, and the stability of the fixing of the first sealing block 31 and the second sealing block 32 is further improved. When it is necessary to rotate the rotating lever 491, the fixing member 5 releases the restriction of the rotating lever 491.

As shown in fig. 4 and 6, the fixing member 5 includes a first support rod 51 fixedly connected to a side of the second support plate 48 adjacent to the rotating rod 491, and the first support rod 51 is disposed directly below the threaded rod 49. An adjusting groove 511 is formed inwards on one side of the first supporting rod 51 far away from the second supporting plate 48, a second supporting rod 52 is inserted in the adjusting groove 511 in a sliding mode, and a placing groove 521 is formed inwards on one side of the second supporting rod 52 far away from the first supporting rod 51.

When the rotation lever 491 needs to be rotated, the second support lever 52 is moved into the adjustment groove 511, and the rotation of the rotation lever 491 is not affected by the second support lever 52. When the rotating rod 491 needs to be fixed, one end of the rotating rod 491 remote from the threaded rod 49 is placed downward. The second support lever 52 is moved to a side close to the rotation lever 491 so that the rotation lever 491 is placed in the placement groove 521, and the second support lever 52 restricts the rotation lever 491 so that the rotation lever 491 cannot be rotated.

A fastening bolt 53 is screwed to the lower surface of the first support rod 51, the tip of the fastening bolt 53 abuts against the lower surface of the second support rod 52, and when the second support rod 52 fixes the rotating lever 491, the fastening bolt 53 is tightened, and the fastening bolt 53 fixes the second support rod 52.

As shown in fig. 6 and 7, a prepared hole 522 is formed inward at one of the vertical sides of the second support bar 52, and the prepared hole 522 is communicated with the placement groove 521. The standing groove 521 is kept away from one side inner wall of preformed hole 522 and inwards is equipped with preformed groove 523, and it has pin 54 to peg graft in the preformed hole 522, and dwang 491 places in the standing groove 521 back, to moving pin 54 near one side of preformed groove 523, makes pin 54 peg graft with preformed groove 523, and pin 54 keeps off dwang 491 in the standing groove 521, increases the stability when fixing dwang 491.

The bottom of the pre-groove 523 is provided with a magnet 5231, and the magnet 5231 is fixedly connected with the second support rod 52. The stopper 54 is an iron rod, the magnet 5231 is attracted to and abutted against the stopper 54, and the magnet 5231 increases the stability when the stopper 54 is inserted into the pre-groove 523.

The embodiment of the application also discloses a construction method of the aqueduct water stop structure, as shown in fig. 4 and 5, the method comprises the following steps:

s1, connecting sealing strip 3: placing the sealing strip 3 between the first aqueduct body 1 and the second aqueduct body 2, and then splicing the first sealing block 31 with the first splicing groove 11 and splicing the second sealing block 32 with the second splicing groove 21;

s2, fixing the first sealing block 31 and the second sealing block 32: the sealing gaskets 411 are abutted against the vertical inner walls of the first aqueduct body 1 and the second aqueduct body 2, the first abutting rod 44 is aligned with the first connecting hole 12, the second abutting rod 45 is aligned with the second connecting hole 22, the rotating rod 491 is rotated, the rotating rod 491 enables the threaded rod 49 to drive the abutting plate 46 to move towards one side close to the first aqueduct body 1, the first abutting rod 44 is inserted with the first connecting hole 12 and the first abutting rod 44 is tightly abutted against the first sealing block 31, the second abutting rod 45 is inserted with the second connecting hole 22 and the second abutting rod 45 is tightly abutted against the second sealing block 32;

s3, fixing the rotating lever 491: as shown in fig. 6 and 7, the second support lever 52 is moved toward the rotating lever 491 so that the rotating lever 491 is placed in the placement groove 521, and the fastening bolt 53 is tightened so that the fastening bolt 53 is brought into close contact with the lower surface of the second support lever 52;

s4, connecting the stopper 54: after the rotating lever 491 is placed in the placement groove 521, the stopper 54 is moved to a side close to the reserved groove 523, the stopper 54 is inserted into the reserved groove 523, the rotating lever 491 is stopped by the stopper 54 in the placement groove 521, and the magnet 5231 is attracted and abutted to the stopper 54.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides a aqueduct stagnant water structure which characterized in that: the aqueduct comprises a first aqueduct body (1) and a second aqueduct body (2) which have the same shape, the water stop structure comprises a sealing strip (3) which has the same shape as the end surface of the first aqueduct body (1) and is arranged between the first aqueduct body (1) and the second aqueduct body (2), one side of the sealing strip (3) close to the first aqueduct body (1) is fixedly connected with a first sealing block (31) which has the same shape as the sealing strip (3), one side of the first aqueduct body (1) close to the sealing strip (3) is provided with a first inserting groove (11) for inserting the first sealing block (31), one side of the sealing strip (3) close to the second aqueduct body (2) is fixedly connected with a second sealing block (32) which has the same shape as the sealing strip (3), one side of the second aqueduct body (2) close to the sealing strip (3) is provided with a second inserting groove (21) for inserting the second sealing block (32), the first aqueduct body (1) and the second aqueduct body (2) are connected with a fixing mechanism (4) for fixing the first sealing block (31) and the second sealing block (32);

the fixing mechanism (4) comprises a pair of vertically arranged first connecting plates (41) which are abutted against the inner walls of the first aqueduct body (1) and the second aqueduct body (2), the upper surfaces of the first connecting plates (41) are fixedly connected with horizontally arranged second connecting plates (42), the lower surfaces of the second connecting plates (42) are fixedly connected with vertically arranged third connecting plates (43), the first aqueduct body (1) and the second aqueduct body (2) are arranged between the first connecting plates (41) and the third connecting plates (43), one side of the third connecting plates (43) far away from the first aqueduct body (1) is inwards provided with a plurality of first inserting holes (431), first abutting rods (44) are inserted in the first inserting holes (431), one side of the first aqueduct body (1) close to the first abutting rods (44) is inwards provided with a plurality of first connecting holes (12) for the first abutting rods (44) to be inserted, the first abutting rod (44) abuts against the first sealing block (31), a plurality of second inserting holes (432) are inwards formed in one side, far away from the second aqueduct body (2), of the third connecting plate (43), a second abutting rod (45) is inserted into each second inserting hole (432), a plurality of second connecting holes (22) for inserting the second abutting rods (45) are inwards formed in one side, close to the second abutting rods (45), of the second aqueduct body (2), the second abutting rods (45) abut against the second sealing block (32), abutting plates (46) are fixedly connected to one ends, far away from the first connecting plate (41), of the first abutting rods (44) and the second abutting rods (45), a pair of first supporting plates (47) are fixedly connected to one side, far away from the first connecting plate (41), of the first supporting plates (47), and a second supporting plate (48) are fixedly connected to one side, far away from the third connecting plate (43), of the first supporting plates (47), second backup pad (48) threaded connection has threaded rod (49), one side butt that one end and butt joint board (46) of threaded rod (49) are close to second backup pad (48), one end fixedly connected with dwang (491) of butt joint board (46) are kept away from in threaded rod (49), first connecting plate (41) are close to the sealed pad (411) of one side fixedly connected with of third connecting plate (43), sealed pad (411) are simultaneously with the vertical inner wall butt of first aqueduct body (1) and second aqueduct body (2).

2. The aqueduct water stop structure as claimed in claim 1, wherein: one side of the third connecting plate (43) close to the rotating rod (491) is connected with a fixing component (5) for fixing the rotating rod (491).

3. The aqueduct water stop structure as claimed in claim 2, wherein: fixed subassembly (5) include with second backup pad (48) be close to one side fixed connection's of dwang (491) first bracing piece (51), one side that second backup pad (48) were kept away from in first bracing piece (51) is equipped with adjustment tank (511), it has second bracing piece (52) to peg graft in adjustment tank (511), one side that second bracing piece (52) are close to dwang (491) is equipped with and supplies dwang (491) to peg graft and has standing groove (521).

4. The aqueduct water stop structure according to claim 3, characterized in that: and a fastening bolt (53) abutted to the second support rod (52) is connected to the outer surface of the first support rod (51) in an internal thread manner.

5. The aqueduct water stop structure as claimed in claim 4, wherein: the vertical side of second bracing piece (52) is equipped with preformed hole (522) with standing groove (521) intercommunication inwards, it has pin (54) of keeping off dwang (491) in standing groove (521) to peg graft in preformed hole (522), one side that standing groove (521) kept away from preformed hole (522) is equipped with preformed groove (523) that supplies pin (54) to peg graft inwards.

6. The aqueduct water stop structure as claimed in claim 5, wherein: the stop lever (54) is an iron rod, and a magnet (5231) abutted to the stop lever (54) is fixedly mounted at the bottom of the reserved groove (523).

7. A construction method of a aqueduct water stop structure is characterized in that: the aqueduct water stop structure applied to the device as claimed in claim 6, which comprises the following steps:

s1, connecting sealing strip (3): the sealing strip (3) is arranged between the first aqueduct body (1) and the second aqueduct body (2), then the first sealing block (31) is spliced with the first splicing groove (11), and the second sealing block (32) is spliced with the second splicing groove (21);

s2, fixing the first sealing block (31) and the second sealing block (32): enabling the sealing gasket (411) to be abutted against the vertical inner walls of the first aqueduct body (1) and the second aqueduct body (2), enabling the first abutting rod (44) to be aligned to the first connecting hole (12), enabling the second abutting rod (45) to be aligned to the second connecting hole (22), rotating the rotating rod (491), enabling the threaded rod (49) to drive the abutting plate (46) to move towards one side close to the first aqueduct body (1) through the rotating rod (491), enabling the first abutting rod (44) to be inserted into the first connecting hole (12), enabling the first abutting rod (44) to be tightly abutted against the first sealing block (31), enabling the second abutting rod (45) to be inserted into the second connecting hole (22), and enabling the second abutting rod (45) to be tightly abutted against the second sealing block (32);

s3, fixing the rotating lever (491): moving the second support rod (52) to one side close to the rotating rod (491), enabling the rotating rod (491) to be placed in the placing groove (521), screwing the fastening bolt (53), and enabling the fastening bolt (53) to be in tight contact with the lower surface of the second support rod (52);

s4, connecting stop lever (54): after the rotating rod (491) is placed in the placing groove (521), the blocking rod (54) is moved to one side close to the reserved groove (523), the blocking rod (54) is inserted into the reserved groove (523), the rotating rod (491) is blocked in the placing groove (521) by the blocking rod (54), and the magnet (5231) and the blocking rod (54) attract and abut against each other.

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