CN111827453A - Transformer substation underground drainage device based on swing plate triggering - Google Patents

Abstract

The invention belongs to the technical field of drainage covers, and particularly relates to a transformer substation underground drainage device triggered by a swinging plate, which comprises a shell, a net-shaped plate, a first gear, a second large gear, a third gear, a fifth gear, a fourth gear, the swinging plate, a driving gear, a second small gear, a volute spiral spring, a first one-way clutch ring, a second one-way clutch ring and the like, wherein water flow impacts the swinging plate to swing the swinging plate so as to drive the net-shaped plate to rotate; compared with the traditional drainage cover technology, when the meshed plate is blocked by foreign matters, the swinging of the swinging plate can drive the meshed plate to rotate through the driving gear, the first gear, the second pinion, the second gearwheel, the third gear, the fourth gear and the fifth gear, and the foreign matters are separated through the rotation of the meshed plate, so that the smooth drainage of the meshed plate is ensured, and the transformer substation can continuously and safely transmit electricity; the structure is simple, and the practical effect is better.

Description

Transformer substation underground drainage device based on swing plate triggering

Technical Field

The invention belongs to the technical field of drainage covers, and particularly relates to a transformer substation underground drainage device based on swing plate triggering.

Background

Due to the special working environment of the transformer substation, the transformer substation pays high attention to the safety of power transmission, and particularly when the transformer substation is exposed to rainy days, underground drainage equipment of the transformer substation is required to continuously and smoothly drain water; at present, the traditional underground drainage equipment can drain water smoothly when the drainage cover is not blocked by foreign matters, but the traditional underground drainage equipment cannot ensure smooth drainage when the drainage cover is blocked by the foreign matters, so that potential risks are caused to safe power transmission of a transformer substation; to avoid potential risk, there is a need for an underground drainage apparatus that can prevent blockage by foreign objects.

The invention designs a transformer substation underground drainage device based on swing plate triggering to solve the problems.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention discloses a transformer substation underground drainage device based on swing plate triggering, which is realized by adopting the following technical scheme.

The utility model provides a transformer substation underground drainage device based on balance staff triggers which characterized in that: the device comprises a shell, a reticular disc, a first gear, a second shaft, a second gearwheel, a fixed sleeve, a third shaft, a third gear, a fifth gear, a fourth gear, a fifth shaft, a fixed spring sleeve, a swinging plate, a disc hole, a driving gear, a second pinion, a volute spring, a first one-way clutch ring, a bevel gear, a second one-way clutch ring, a fixed rod, a swinging plate shaft, a first shaft and a fourth shaft, wherein the shell is provided with the first plate, the second plate, the third plate and the fourth plate which are sequentially connected end to end; the first plate of the shell is provided with a disc hole; the reticular disc is arranged in the disc hole; one end of the fifth shaft is arranged on the reticular disc, and the other end of the fifth shaft is arranged on the third plate; the fifth gear is arranged on the outer circular surface of the fifth shaft; the fifth gear is positioned between the reticular disc and the third plate; one end of the swing plate shaft is arranged on the second plate, and the other end of the swing plate shaft is arranged on the fourth plate; the swing plate is arranged on the outer circular surface of the swing plate shaft; the swing plate is provided with a plurality of holes; the swinging plate is positioned between the fifth gear and the reticular disc; the driving gear is arranged on the outer circular surface of the swing plate shaft; the driving gear has half of the teeth; the driving gear is positioned between the swing plate and the second plate; the fixed spring sleeve is nested on the swing plate shaft, and one end of the fixed spring sleeve is connected with the fourth plate; one end of the volute spiral spring is arranged on the outer circular surface of the swing plate shaft, and the other end of the volute spiral spring is arranged on the inner circular surface of the fixed spring sleeve; the first gear is arranged on the second plate through a first shaft; one end of the second shaft is arranged on the second plate, and the other end of the second shaft is provided with a second large gear; the first one-way clutch ring is arranged on the outer circular surface of the second shaft and is positioned between the second plate and the second bull gear; the second pinion is arranged on the outer circular surface of the first one-way clutch ring; the first gear is matched with the driving gear; the first gear is engaged with the second pinion.

The fixed sleeve is arranged on the second plate; one end of the third shaft is arranged in the fixed sleeve, and the other end of the third shaft is provided with a third gear; one end surface of the third gear is provided with bevel teeth; the third gear is meshed with the second gearwheel; the second one-way clutch ring is arranged on the outer circular surface of the third shaft; the second one-way clutch ring is positioned between the fixed sleeve and the third gear; the outer ring of the second one-way clutch ring is fixed on the second plate through three fixing rods; the fourth gear is arranged on the third plate through a fourth shaft; one end surface of the fourth gear is provided with bevel teeth; the third gear is meshed with the fourth gear through bevel teeth; the fourth gear is meshed with the fifth gear.

As a further improvement of the technology, when the swing plate is not impacted by water, the swing plate is in a vertical state.

As a further improvement of the present technique, when the wobble plate is in the vertical state, the drive gear is not meshed with the first gear.

As a further improvement of the technology, the shell is arranged on the upper side of the water drainage channel, and the water inlet of the water drainage channel is arranged at the position of the disc hole.

As a further improvement of the technology, the housing is installed in a space formed by a drainage channel, a roadbed and curbs.

In the invention, the mesh disc is arranged in the disc hole, so that the mesh disc is fixed and can rotate in the disc hole; the fifth gear is mounted on the fifth shaft, and one end of the fifth shaft is mounted on the meshed disk, so that the rotation of the fifth gear can drive the meshed disk to rotate.

The wobble plate is installed on the wobble plate shaft, and drive gear is installed on the wobble plate shaft, has half the rodent on the drive gear, and drive gear cooperatees with first gear, and the effect that first gear and second pinion engaged with is: after the swing plate is impacted by water, the swing of the swing plate can drive the second pinion to rotate in a reciprocating mode through the driving gear matched with the first gear. One end of the volute spiral spring is installed on the swing plate shaft, the other end of the volute spiral spring is installed on the fixed spring sleeve, and therefore the swing plate can swing in a reciprocating mode through the volute spiral spring.

The second gearwheel and the first one-way clutch ring are arranged on the second shaft, and the second pinion is arranged on the outer circular surface of the first one-way clutch ring and has the following functions: on one hand, the reciprocating rotation of the second small gear does not influence the homodromous rotation of the second big gear; on the other hand, the energy of the second pinion and the second gearwheel rotating in the same direction can be gradually transmitted to the second gearwheel; it is a further aspect that the second pinion gear can achieve a large gear ratio with the second bull gear via the first one-way clutch ring and the second shaft.

The one-way transmission direction defined by the first one-way clutch ring and the second one-way clutch ring is as follows: the upper end of the swinging plate swings in the direction departing from the mesh-shaped disc, at the moment, the tooth on the driving gear is meshed with the first gear, and the driving gear drives the mesh-shaped disc to move; in the transmission direction, the first one-way clutch ring is in a transmission state, and the outer ring of the second one-way clutch ring has no limiting effect on the inner ring.

The third shaft has one end fitted with a third gear and the other end fitted in a fixed sleeve, so that the third shaft can rotate about its own axis. The second bull gear meshes with the third gear mutually, and the one-way clutch ring of second is installed on the third axle, and the effect that the fourth gear meshes with third gear and fifth gear mutually respectively is: on one hand, the second gearwheel can drive the fifth gear to rotate through the third gear and the fourth gear, and further drive the mesh disc to rotate; on the other hand, under the action of the second one-way clutch ring, the third gear, the fourth gear and the fifth gear can only rotate along a single direction, so that the mesh-shaped disc is ensured not to rotate reversely under the reverse acting force of the foreign matters.

When water does not impact the swinging plate, the swinging plate is in a vertical state.

When the mesh-shaped disc is not blocked by foreign matters, water flows in from a position lower than the swing plate shaft, the water impacts the lower plate surface of the swing plate, the lower end of the swing plate swings in a direction departing from the mesh-shaped disc, at the moment, the rodent on the driving gear cannot be meshed with the first gear, and then the driving gear cannot enable the mesh-shaped disc to rotate. When water stops impacting the swing plate, the swing plate is finally reset to the vertical state under the action of the volute spiral spring.

When the mesh disc is blocked by foreign matters, water flow is higher than the wobble disc shaft, the water flow flows in from the unblocked high position of the mesh disc, the water impacts the upper plate surface of the wobble plate, the upper end of the wobble plate swings in the direction departing from the mesh disc, and at the moment, the tooth teeth on the driving gear are meshed with the first gear; in the transmission direction, the first one-way clutch ring is in a transmission state, the second one-way clutch ring is in a non-limiting state, and the rotation kinetic energy of the driving gear drives the fifth gear to rotate through the first gear, the second pinion, the first one-way clutch ring, the second gearwheel, the third gear and the fourth gear; the fifth gear drives the reticular disc to rotate; under the condition, the swinging plate swings intermittently under the action of high water flow and the volute spiral spring, and when the upper end of the swinging plate swings in the direction departing from the net-shaped disc, the net-shaped disc rotates; when the upper end surface of the swinging plate swings towards the direction of the reticular disc, the reticular disc cannot rotate reversely due to the limiting effect of the second one-way clutch ring, the movement of the swinging plate drives the first gear and the second pinion to rotate reversely through the meshing of the driving gear, the second pinion rotates reversely, the second shaft cannot be driven due to the one-way effect of the first one-way clutch ring, and further the second gearwheel cannot rotate; when the upper end of the swinging plate swings in the direction departing from the mesh disc again, the mesh disc is driven again and then reciprocates downwards, and the purpose that the mesh disc rotates in a single direction due to the reciprocating motion of the swinging plate is achieved.

When the mesh plate rotates to be not blocked by foreign matters, the position of water flow descends, and water starts to impact the lower plate surface of the swinging plate; the upper end of the swinging plate swings towards the direction of the reticular disk and crosses the vertical position, at the moment, the rodent on the driving gear is separated from the meshing with the first gear, and then the driving gear cannot enable the reticular disk to continue rotating. When water stops impacting the swing plate, the swing plate is finally reset to the vertical state under the action of the volute spiral spring.

Compared with the traditional drainage cover technology, when the meshed plate is blocked by foreign matters, the swinging of the swinging plate can drive the meshed plate to rotate through the driving gear, the first gear, the second pinion, the second gearwheel, the third gear, the fourth gear and the fifth gear, and the foreign matters are separated through the rotation of the meshed plate, so that the smooth drainage of the meshed plate is ensured, and the transformer substation can continuously and safely transmit electricity; the structure is simple, and the practical effect is better.

Drawings

Fig. 1 is a schematic view of the entire components.

FIG. 2 is a schematic view of a drain installation.

Fig. 3 is a schematic cross-sectional view of an integral part.

Fig. 4 is a schematic view of the housing structure.

Fig. 5 is a schematic view of a mesh tray structure.

FIG. 6 is a schematic view of a wobble plate installation.

FIG. 7 is a schematic view of a scroll spring installation.

FIG. 8 is a schematic view of a first one-way clutch ring installation.

Figure 9 is a second one-way clutch ring installation schematic.

Number designation in the figures: 1. a housing; 2. a mesh tray; 3. a first gear; 4. a second shaft; 5. a second bull gear; 6. fixing a sleeve; 7. a third axis; 8. a third gear; 9. a fifth gear; 10. a fourth gear; 11. a fifth shaft; 12. fixing the spring sleeve; 13. a swinging plate; 14. a disc hole; 15. a drive gear; 16. a second pinion gear; 17. a volute spiral spring; 18. a first unidirectional clutch ring; 19. conical teeth; 20. a second unidirectional clutch ring; 21. fixing the rod; 22. a wobble plate shaft; 23. a first shaft; 24. a fourth axis; 25. a first plate; 26. a second plate; 27. a third plate; 28. a fourth plate; 30. a roadbed; 31. a road tooth; 32. a water drain channel.

Detailed Description

As shown in fig. 1, it includes a housing 1, a meshed plate 2, a first gear 3, a second shaft 4, a second gearwheel 5, a fixed sleeve 6, a third shaft 7, a third gear 8, a fifth gear 9, a fourth gear 10, a fifth shaft 11, a fixed spring sleeve 12, a wobble plate 13, a disc hole 14, a driving gear 15, a second pinion 16, a spiral spring 17, a first one-way clutch ring 18, a conical tooth 19, a second one-way clutch ring 20, a fixed rod 21, a wobble plate shaft 22, a first shaft 23, and a fourth shaft 24, as shown in fig. 4, wherein the housing 1 has a first plate 25, a second plate 26, a third plate 27, and a fourth plate 28, and the first plate 25, the second plate 26, the third plate 27, and the fourth plate 28 are connected end to end in sequence; the first plate 25 of the housing 1 has a disc hole 14; the mesh disk 2 is installed in the disk hole 14; as shown in fig. 3 and 5, one end of the fifth shaft 11 is mounted on the mesh disk 2, and the other end is mounted on the third plate 27; the fifth gear 9 is arranged on the outer circular surface of the fifth shaft 11; the fifth gear 9 is located between the mesh disk 2 and the third plate 27; as shown in fig. 3 and 6, the wobble plate shaft 22 has one end mounted on the second plate 26 and the other end mounted on the fourth plate 28; the swing plate 13 is arranged on the outer circular surface of the swing plate shaft 22; the swinging plate 13 is provided with a plurality of holes; the swinging plate 13 is positioned between the fifth gear 9 and the mesh disk 2; as shown in fig. 6 and 8, the driving gear 15 is mounted on the outer circumferential surface of the wobble plate shaft 22; the driving gear 15 has half of the teeth; the drive gear 15 is located between the wobble plate 13 and the second plate 26; as shown in fig. 6 and 7, the fixed spring sleeve 12 is nested on the swing plate shaft 22, and one end of the fixed spring sleeve 12 is connected with the fourth plate 28; one end of the volute spiral spring 17 is arranged on the outer circular surface of the swing plate shaft 22, and the other end is arranged on the inner circular surface of the fixed spring sleeve 12; as shown in fig. 6, the first gear 3 is mounted on the second plate 26 via the first shaft 23; one end of the second shaft 4 is arranged on the second plate 26, and the other end is provided with a second gearwheel 5; as shown in fig. 8, the first unidirectional clutch ring 18 is installed on the outer circumferential surface of the second shaft 4, the first unidirectional clutch ring 18 is located between the second plate 26 and the second large gear 5; the second pinion 16 is mounted on the outer circumferential surface of the first one-way clutch ring 18; as shown in fig. 8, the first gear 3 is engaged with the driving gear 15; the first gear 3 meshes with a second pinion 16.

As shown in fig. 3 and 9, the pouch 6 is mounted on the second plate 26; one end of the third shaft 7 is arranged in the fixed sleeve 6, and the other end is provided with a third gear 8; one end surface of the third gear 8 is provided with bevel teeth 19; the third gear 8 is meshed with the second gearwheel 5; the second unidirectional clutch ring 20 is arranged on the outer circular surface of the third shaft 7; the second one-way clutch ring 20 is positioned between the fixed sleeve 6 and the third gear 8; the outer ring of the second one-way clutch ring 20 is fixed on the second plate 26 by three fixing rods 21; the fourth gear 10 is mounted on the third plate 27 via a fourth shaft 24; one end surface of the fourth gear 10 is provided with bevel teeth 19; the third gear 8 is meshed with the fourth gear 10 through the bevel gear 19; the fourth gear 10 meshes with the fifth gear 9.

As shown in fig. 3, when the swing plate 13 is not impacted by water, the swing plate 13 is in a vertical state.

As shown in fig. 3, when the wobble plate 13 is in the vertical state, the drive gear 15 is not meshed with the first gear 3.

As shown in fig. 2, the housing 1 is installed on the upper side of the drain, and the disc hole 14 is a drain inlet.

As shown in fig. 2, the housing 1 is installed in a space formed by a drain, a roadbed 30 and curbs 31.

As shown in fig. 3 and 4, the mesh disk 2 is installed in the disk hole 14 in the present invention, so the mesh disk 2 is fixed and the mesh disk 2 can rotate in the disk hole 14; the fifth gear 9 is mounted on a fifth shaft 11, one end of the fifth shaft 11 being mounted on the meshed disks 2, so that rotation of the fifth gear 9 causes rotation of the meshed disks 2.

As shown in fig. 3, the wobble plate 13 is mounted on the wobble plate shaft 22, the driving gear 15 has a half-tooth part, the driving gear 15 is engaged with the first gear 3, and the first gear 3 is engaged with the second pinion 16 for: after the swing plate 13 is impacted by water, the swing of the swing plate 13 can drive the second pinion 16 to rotate back and forth by the driving gear 15 and the first gear 3. As shown in fig. 6 and 7, the spiral spring 17 is mounted on the swing plate shaft 22 at one end and on the fixed spring housing 12 at the other end, so that the swing plate 13 can be swung back and forth by the spiral spring 17.

As shown in fig. 3 and 8, the second gearwheel 5 and the first one-way clutch ring 18 are mounted on the second shaft 4, and the second pinion 16 mounted on the external circumferential surface of the first one-way clutch ring 18 functions to: on the one hand, the reciprocating rotation of the second small gear 16 does not affect the co-rotating of the second large gear 5; on the other hand, the energy of the second small gear 16 rotating in the same direction as the second large gear 5 can be gradually transmitted to the second large gear 5; on the other hand, the second pinion 16 can obtain a large transmission ratio of the second gearwheel 5 by means of the first one-way clutch ring 18 and the second shaft 4.

As shown in fig. 8 and 9, the unidirectional transmission directions defined by the first unidirectional clutch ring 18 and the second unidirectional clutch ring 20 are: the upper end of the swinging plate 13 swings to the direction departing from the reticular disc 2, at the moment, the tooth teeth on the driving gear 15 are meshed with the first gear 3, and the driving gear 15 drives the reticular disc 2 to move; in this drive direction, the first one-way clutch ring 18 is in a driving condition and the outer race of the second one-way clutch ring 20 has no restricting effect on the inner race.

As shown in fig. 9, the third shaft 7 is mounted with a third gear 8 at one end and in the fixed sleeve 6 at the other end, so that the third shaft 7 can rotate about its own axis. As shown in fig. 3, the second gearwheel 5 meshes with the third gear 8, the second one-way clutch ring 20 is mounted on the third shaft 7, and the fourth gear 10 meshes with the third gear 8 and the fifth gear 9 respectively: on one hand, the second gearwheel 5 can drive the fifth gear 9 to rotate through the third gear 8 and the fourth gear 10, and further drive the reticular disc 2 to rotate; on the other hand, under the action of the second one-way clutch ring 20, the third gear 8, the fourth gear 10 and the fifth gear 9 can only rotate in a single direction, so that the mesh-shaped disc 2 can not reversely rotate under the reverse acting force of the foreign matters.

The specific implementation mode is as follows: when water does not impact the swing plate 13, the swing plate 13 is in a vertical state.

When the mesh-shaped disc 2 is not blocked by foreign matters, water flows in from a position lower than the swing plate shaft 22, the water impacts the lower plate surface of the swing plate 13, the lower end of the swing plate 13 swings in a direction departing from the mesh-shaped disc 2, at the moment, the tooth teeth on the driving gear 15 cannot be meshed with the first gear 3, and the driving gear 15 cannot enable the mesh-shaped disc 2 to rotate. When the water stops impacting the swing plate 13, the swing plate 13 is finally returned to the vertical state by the action of the spiral spring 17.

When the net-shaped disc 2 is blocked by foreign matters, water flow is higher than the wobble plate shaft, the water flow flows in from the unblocked high position of the net-shaped disc 2, the water impacts the upper plate surface of the wobble plate 13, the upper end of the wobble plate 13 swings in the direction departing from the net-shaped disc 2, and at the moment, the tooth teeth on the driving gear 15 are meshed with the first gear 3; in the transmission direction, the first one-way clutch ring 18 is in a transmission state, and the second one-way clutch ring 20 is in a non-limiting state, so that the rotational kinetic energy of the driving gear 15 drives the fifth gear 9 to rotate through the first gear 3, the second pinion 16, the first one-way clutch ring 18, the second bull gear 5, the third gear 8 and the fourth gear 10; the fifth gear 9 drives the reticular disc 2 to rotate; in this case, the swing plate 13 swings intermittently under the action of the high water flow and the spiral spring 17, and when the upper end of the swing plate 13 swings in a direction away from the mesh disk 2, the mesh disk 2 rotates; when the upper end of the swinging plate 13 swings towards the direction of the reticular disc 2, the reticular disc 2 cannot rotate reversely due to the limiting effect of the second one-way clutch ring 20, the swinging plate 13 moves to drive the first gear 3 and the second pinion 16 to rotate reversely through the meshing of the driving gear 15, the second pinion 16 rotates reversely, the second shaft 4 cannot be driven due to the one-way effect of the first one-way clutch ring 18, and the second gearwheel 5 cannot rotate; when the upper end of the swinging plate 13 swings to the direction departing from the reticular disc 2 again, the reticular disc 2 is driven again and then reciprocates downwards, so that the aim of enabling the reticular disc 2 to rotate in a single direction by the reciprocating motion of the swinging plate is fulfilled.

When the mesh-shaped disc 2 rotates to be not blocked by foreign matters, the position of water flow descends, and water starts to impact the lower plate surface of the swinging plate 13; the upper end of the wobble plate 13 is swung in the direction of the mesh disk 2 and past the vertical position, at which point the toothing on the drive gear 15 is disengaged from the first gear wheel 3, so that the drive gear 15 does not continue to rotate the mesh disk 2. When the water stops impacting the swing plate 13, the swing plate 13 is finally returned to the vertical state by the action of the spiral spring 17.

In summary, when the mesh-shaped plate 2 is blocked by the foreign matter, the swinging of the swinging plate 13 can drive the mesh-shaped plate 2 to rotate through the driving gear 15, the first gear 3, the second pinion 16, the second gearwheel 5, the third gear 8, the fourth gear 10 and the fifth gear 9, and the foreign matter is separated by the rotation of the mesh-shaped plate 2, so that the smooth drainage of the mesh-shaped plate 2 is ensured, and the transformer substation can continuously and safely transmit electricity; the structure is simple, and the practical effect is better.

Claims (1)

1. The utility model provides a transformer substation underground drainage device based on balance staff triggers which characterized in that: the device comprises a shell, a reticular disc, a first gear, a second shaft, a second gearwheel, a fixed sleeve, a third shaft, a third gear, a fifth gear, a fourth gear, a fifth shaft, a fixed spring sleeve, a swinging plate, a disc hole, a driving gear, a second pinion, a volute spring, a first one-way clutch ring, a bevel gear, a second one-way clutch ring, a fixed rod, a swinging plate shaft, a first shaft and a fourth shaft, wherein the shell is provided with the first plate, the second plate, the third plate and the fourth plate which are sequentially connected end to end; the first plate of the shell is provided with a disc hole; the reticular disc is arranged in the disc hole; one end of the fifth shaft is arranged on the reticular disc, and the other end of the fifth shaft is arranged on the third plate; the fifth gear is arranged on the outer circular surface of the fifth shaft; the fifth gear is positioned between the reticular disc and the third plate; one end of the swing plate shaft is arranged on the second plate, and the other end of the swing plate shaft is arranged on the fourth plate; the swing plate is arranged on the outer circular surface of the swing plate shaft; the swing plate is provided with a plurality of holes; the swinging plate is positioned between the fifth gear and the reticular disc; the driving gear is arranged on the outer circular surface of the swing plate shaft; the driving gear has half of the teeth; the driving gear is positioned between the swing plate and the second plate; the fixed spring sleeve is nested on the swing plate shaft, and one end of the fixed spring sleeve is connected with the fourth plate; one end of the volute spiral spring is arranged on the outer circular surface of the swing plate shaft, and the other end of the volute spiral spring is arranged on the inner circular surface of the fixed spring sleeve; the first gear is arranged on the second plate through a first shaft; one end of the second shaft is arranged on the second plate, and the other end of the second shaft is provided with a second large gear; the first one-way clutch ring is arranged on the outer circular surface of the second shaft and is positioned between the second plate and the second bull gear; the second pinion is arranged on the outer circular surface of the first one-way clutch ring; the first gear is matched with the driving gear; the first gear is meshed with the second pinion;

the fixed sleeve is arranged on the second plate; one end of the third shaft is arranged in the fixed sleeve, and the other end of the third shaft is provided with a third gear; one end surface of the third gear is provided with bevel teeth; the third gear is meshed with the second gearwheel; the second one-way clutch ring is arranged on the outer circular surface of the third shaft; the second one-way clutch ring is positioned between the fixed sleeve and the third gear; the outer ring of the second one-way clutch ring is fixed on the second plate through three fixing rods; the fourth gear is arranged on the third plate through a fourth shaft; one end surface of the fourth gear is provided with bevel teeth; the third gear is meshed with the fourth gear through bevel teeth; the fourth gear is meshed with the fifth gear;

when the swing plate is not impacted by water, the swing plate is in a vertical state;

when the swinging plate is in a vertical state, the driving gear is not meshed with the first gear;

the shell is arranged on the upper side of the water drainage channel, and the disc hole is provided with a water inlet of the water drainage channel;

the casing is installed in the space formed by the drainage channel, the roadbed and the curbs.

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