CN115110558A

CN115110558A - Vertical drain pipe

Info

Publication number: CN115110558A
Application number: CN202210767488.5A
Authority: CN
Inventors: 王哲; 万学林; 赵甲荐; 卢志景; 刘生文; 蓝猛; 蒋轲; 苏金鸿; 奉麒; 艾君彬
Original assignee: Zhongkai University of Agriculture and Engineering; China Construction Third Engineering Bureau Shenzhen Co Ltd
Current assignee: Zhongkai University of Agriculture and Engineering; China Construction Third Engineering Bureau Shenzhen Co Ltd
Priority date: 2022-06-30
Filing date: 2022-06-30
Publication date: 2022-09-27
Anticipated expiration: 2042-06-30
Also published as: CN115110558B

Abstract

The invention discloses a vertical drain pipe, which belongs to the technical field of building construction and comprises an upper pipe body and a lower pipe body, wherein an inner pipe is rotatably arranged in the lower pipe body, the side wall of the inner pipe is provided with a soil conveying box used for backfilling soil to a soil layer, the soil conveying box is in sliding connection with the inner box, one end of the soil conveying box is connected with a soil conveying pipe, an auger is arranged in the soil conveying pipe, the side wall of the inner pipe is provided with a drain hole, and the side wall of the lower pipe body is provided with a filter tank. The invention can filter the water-soil mixture pumped from the outside of the drain pipe, so that the water in the foundation pit is pumped out by the water pump through the upper pipe body, the soil body entering the inner pipe is transported to the soil conveying box through the auger, and the soil body entering the inner pipe is backfilled to the soil layer outside the drain pipe through the shoveling blocks in the inner box, thereby reducing the situation that the soil body around the drain pipe sinks due to the unstable structure of the soil layer.

Description

Vertical drain pipe

Technical Field

The invention belongs to the technical field of building construction, and particularly relates to a vertical water drainage pipe.

Background

In foundation ditch precipitation engineering, need adopt the immersible pump to extract groundwater from the drain pipe, to the open drain side by side in, when using the drain pipe among the prior art to draw water, cause soil erosion and water loss for thereby soil layer structure unstability leads to the situation of sinking.

Disclosure of Invention

In view of this, the present invention provides a vertical drainage pipe to solve the technical problem of water and soil loss caused by water pumping using the drainage pipe in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

the invention provides a vertical drain pipe, which comprises an upper pipe body, wherein one end of the upper pipe body is communicated with a lower pipe body, one end of the lower pipe body is provided with a circular ring plate which is coaxial with the lower pipe body, the circular ring plate is provided with an inner pipe which is communicated with the upper pipe body and the lower pipe body, the inner tube is positioned in the lower tube body, the inner side wall of the inner tube is provided with a slot, the lower tube body is provided with a hole communicated with the slot, the lower end of the upper pipe body is provided with a soil retaining piece for resisting the open slot, the soil retaining piece is rotatably connected with the lower end of the upper pipe body, an inclined soil conveying pipe is arranged in the inner pipe of the inner pipe, one end of the soil conveying pipe is communicated with the open groove, the other end of the soil conveying pipe is lower than the open groove, the soil conveying pipe is internally provided with a packing auger, the side wall of the inner pipe is provided with a drain hole, and the side wall of the lower pipe body is provided with a filter tank with the same height as the drain hole.

Furthermore, a soil feeding box is arranged at the open groove, the side wall of the soil feeding box far away from the open groove is communicated with the soil feeding pipe, the other end of the soil conveying pipe is lower than the soil conveying box, the soil conveying box is provided with an opening communicated with the open groove, the opening is connected with an inner box in a sliding way, the side wall of the inner box far away from the opening is provided with a square hole for accommodating a soil conveying pipe, the side wall of the inner box far away from the opening is connected with the soil conveying box through a sliding cylinder, one side of the inner box near the opening is rotatably connected with a baffle plate, a rotary cylinder is arranged between the baffle plate and the inner box, two ends of the rotary cylinder are respectively hinged with the baffle plate and the outer edge of the bottom of the inner box, the inner box is kept away from the open-ended lateral wall is equipped with the push cylinder, the telescopic shaft of push cylinder passes the inner box just is connected with the shovel piece, the shovel piece with inner box diapire sliding connection.

Further, a sliding rail is horizontally arranged on the inner side wall of the soil conveying box; the sliding rail is connected with a pulley in a sliding way; the pulley is rotatably connected with a rotating shaft; a sliding rod is fixedly connected to the vertical direction of the rotating shaft; one end of the sliding rod, which is far away from the pulley, is provided with a swing motor; an inclined swing strip is arranged at the power end of the swing motor; the auger comprises an upper auger and a lower auger, and one end of the upper auger is coaxially connected to the power end of the soil conveying motor; the soil feeding motor is vertically connected to the side wall of the swinging strip close to the sliding rod; the edge of the soil conveying pipe far away from the sliding rod is connected with a fixed rod along the direction of the circle center of the soil conveying pipe; one end of the lower auger is rotatably connected to the fixed rod; the other end of the lower auger is provided with a clamping groove, and the other end of the upper auger is provided with a clamping block clamped with the clamping groove.

Further, the body passes through the spliced pole and connects down the lower extreme of last body, the lower extreme of going up the body is connected with the retainer plate of coaxial setting, it connects for rotating to keep off the soil piece a plurality of blend stops on the retainer plate, the blend stop is located outside the spliced pole, it has the water inlet to open on the blend stop, the inner box is followed push away soil box and outwards remove and when the baffle upwards rotates, the baffle can promote the blend stop and upwards rotate, the body is opened down and is used for keeping out the annular edge of blend stop lower extreme.

Further, the inner tube top cover is equipped with the ring gear, it holds to open in the upper tube body the annular ring on inner tube top, can dismantle in the annular ring and be equipped with the rotation motor, the power shaft that rotates the motor be equipped with ring gear meshing's gear, the inner tube bottom is connected through rotating the pearl rotation on the ring board.

Furthermore, a filter screen used for blocking a soil body is detachably arranged on the inner wall of the upper pipe body.

Furthermore, a guide plate which inclines downwards is arranged on the periphery of the inner side wall of the inner pipe, the bottom end of the guide plate is connected with a flat plate, the flat plate is located below the packing auger, and a water inlet hole is formed in the guide plate.

Furthermore, the outer side wall of the upper tube body is provided with a water stopping wing ring.

Furthermore, the upper end of the upper pipe body is in threaded connection with a blocking block.

The invention has the beneficial effects that:

the invention can filter the water-soil mixture pumped from the outside of the drain pipe, so that the water in the foundation pit is pumped out by the water pump through the upper pipe body, the soil body entering the inner pipe is transported to the soil delivery box through the auger, and the soil body entering the inner pipe is backfilled to the soil layer outside the drain pipe through the shoveling blocks in the inner box, thereby reducing the lower limit of the soil body around the drain pipe caused by unstable soil layer structure.

Additional advantages, objects, and features of the invention will be set forth in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention may be realized and attained by the means of the instrumentalities and combinations particularly pointed out hereinafter.

Drawings

In order to make the object, technical scheme and beneficial effect of the invention more clear, the invention provides the following drawings for explanation:

FIG. 1 is a cross-sectional view of an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of the embodiment of the present invention shown in FIG. 1;

FIG. 3 is a partial enlarged view of the embodiment of the present invention shown in FIG. 1 at B;

fig. 4 is a partial enlarged view of the embodiment of the present invention at C in fig. 1.

The drawings are numbered as follows: the soil-feeding device comprises an upper pipe body 1, a lower pipe body 2, a circular ring plate 3, an inner pipe 4, a soil-feeding box 5, an inner box 6, a sliding cylinder 7, a baffle 8, a rotating cylinder 9, a pushing cylinder 10, a shovel block 11, a soil-feeding pipe 12, a soil-feeding motor 13, an auger 14, an upper auger 141, a lower auger 142, a square hole 15, a water discharging hole 16, a filtering groove 17, a gear ring 18, a circular hole 19, a rotating motor 20, a gear 21, a rotating ball 22, a circular sliding groove 23, a connecting column 24, a fixing ring 25, a soil-blocking part 26, a water inlet 27, a filtering net 28, a guide plate 29, a flat plate 30, a water inlet hole 31, a hydrofoil ring 32, a blocking block 33, a sliding rail 34, a sliding rod 35, a swinging motor 36, a swinging strip 37, a rubber block 38, a circular groove 39, a fixing rod 40, a clamping block 41 and a clamping groove 42.

Detailed Description

As shown in fig. 1, the invention provides a vertical drain pipe, which comprises an upper pipe body 1 and a lower pipe body 2, wherein the bottom end of the lower pipe body 2 is coaxially connected with a circular ring plate 3, the circular ring plate 3 is connected with an inner pipe 4 communicated with the upper pipe body 1 and the lower pipe body 2, the inner pipe 4 is positioned in the lower pipe body 2, the side wall of the lower pipe body 2 is provided with an opening (not marked in the figure), the inner side wall of the inner pipe 4 is provided with a slot (not marked in the figure) communicated with the opening, the lower end of the upper pipe body 1 is provided with a soil blocking member 26 for resisting the slot, the soil blocking member 26 is rotatably connected with the lower end of the upper pipe body 1, the inner pipe 4 is internally provided with an inclined soil conveying pipe 12, the left end of the soil conveying pipe 12 is communicated with the slot, the right end of the soil conveying pipe 12 is lower than the slot, the soil conveying pipe 12 is coaxially provided with an auger 14, the side wall of the inner pipe 4 is provided with a drain hole 16, and the side wall of the lower pipe body 2 is provided with a filter groove 17 with the same height as the corresponding drain hole 16.

The principle and the effect of the technical scheme are as follows:

place this application in the foundation ditch, when utilizing the water pump to draw water, the water and soil mixture gets into through the filter-tank 17 of 2 lateral walls of body down, wash port 16 of rethread inner tube 4 gets into in the inner tube 4, thereby from going up body 1 taken out again, partial soil body enters into the inner tube 4 after, the soil layer is backfilled through fluting on the inner tube 4 and the trompil on 2 lateral walls of body down in auger 14's effect, the condition that the soil layer subsides appears because of the water and soil mixture is taken out through the water pump and makes the soil layer structure sunken, thereby make the soil body structure around the drain pipe more firm.

In this embodiment, fluting department is equipped with soil box 5, soil box 5 right side wall and soil pipe 12 intercommunication send, soil pipe 12 right-hand member is less than and send soil box 5, soil box 5 opens has the opening with the fluting intercommunication, opening part sliding connection has inner box 6, inner box 6 right side wall opens there is square hole 15, soil box 5's right side wall is connected with the slip cylinder 7 that the level set up, the telescopic shaft of slip cylinder 7 passes right side wall and is connected with the right side wall of inner box 6, inner box 6 left side is rotated and is connected with baffle 8, be equipped with revolving cylinder 9 between baffle 8 and the inner box 6, revolving cylinder 9's upper and lower both ends are articulated with baffle 8 and inner box 6 bottom outward flange respectively, the right side wall of inner box 6 is connected with push cylinder 10, push cylinder 10's telescopic shaft passes inner box 6 and is connected with shovel piece 11, shovel piece 11 and inner box 6 diapire sliding connection.

The principle and the effect of the technical scheme are as follows:

the arrangement of the inner box 6 and the soil conveying box 5 reduces the phenomenon that partial soil around a drain pipe directly conveys the soil to the groove through the soil conveying pipe 12 and enters the soil conveying pipe 12 through the groove to influence the soil conveyed in the soil conveying pipe 12, so that the soil can be conveyed when needed, the inner box 6 can accommodate more soil, the soil in the inner box 6 can be backfilled to the soil layer at one time through the shovel block 11, the soil conveying times are reduced, and the external soil can be prevented from entering the inner box 6; when the shovel block 11 pushes the soil block to the left for soil feeding, the baffle 8 can block the soil around the drain pipe from entering the inner box 6 to interfere with the soil feeding.

In this embodiment, as shown in fig. 1, 2, 3 and 4, a horizontally arranged slide rail 34 is connected to the left side wall of the soil box 5, a pulley is connected to the slide rail 34 in a sliding manner, and a rotating shaft is rotatably connected to the pulley in the front-back direction; a sliding rod 35 is welded in the vertical direction of the rotating shaft; the lower end of the sliding rod 35 is connected with a swing motor 36 along the front-back direction, the power end of the swing motor 36 is fixedly connected with a swing strip 37 which is obliquely arranged, the lower end of the swing strip 37 is adhered with a hemispherical rubber block 38, and the right side wall of the baffle plate 8 is provided with a circular groove 39; the auger 14 comprises an upper auger 141 and a lower auger 142, the upper end of the upper auger 141 is coaxially connected to the power end of the soil conveying motor 13, and the soil conveying motor 13 is vertically connected to the lower side wall of the swinging strip 37; the edge of the lower end of the soil conveying pipe 12 is connected with a fixed rod 40 along the direction of the circle center of the soil conveying pipe 12, and the lower end of the lower auger 142 is rotatably connected to the fixed rod 40; the upper end of the lower auger 142 is provided with a clamping groove 42, the lower end of the upper auger 141 is integrally provided with a clamping block 41 which can be clamped with the clamping groove 42, and when the swing motor 36 rotates clockwise, the upper auger 141 can swing clockwise without contacting the bottom surface of the soil box 5, the shovel block 11 and the telescopic shaft of the pushing cylinder 10.

The principle and the effect of the technical scheme are as follows:

when a certain soil mass is accumulated in the inner box 6, the soil feeding motor 13 is controlled to stop rotating, the sliding cylinder 7 is controlled to enable the soil feeding box 5 to move leftwards, the pulley is arranged on the sliding rail 34 in a sliding mode, so that the upper auger 141 can move leftwards along with the soil feeding box 5, and when the pulley moves to the leftmost end of the sliding rail 34, the power end of the swinging motor 36 is controlled to rotate clockwise, so that the hemispherical rubber blocks 38 on the swinging strips 37 collide with the circular grooves 39 on the baffle plate 8 to generate vibration; the auger 14 is divided into an upper section and a lower section, only the soil mass on the upper auger 141 is conveyed, but the reason for conveying the soil mass on the lower auger 142 is different because when the rotation of the soil conveying motor 13 is stopped, even if the soil mass on the lower auger 142 is not conveyed to the upper auger 141, part of the soil mass on the lower auger 142 can slide onto the flat plate 30 along the lower side wall of the soil conveying pipe 12 due to the self gravity, and can be conveyed by the auger 14 along with other soil mass when the soil mass is conveyed next time; after the swing motor 36 stops rotating, when the inner box 6 is controlled to move leftwards, soil on the upper auger 141 falls onto the inner box 6 due to gravity, so that the upper auger 141 needs to move along with the inner box 6 in order to send the soil on the upper auger 141 out; after soil conveying is finished, the sliding cylinder 7, the rotating cylinder 9 and the swing motor 36 are controlled, the baffle 8 rotates clockwise to enable the baffle 8 to block the inner box 6, the inner box 6 drives the upper auger 141 to move rightwards, the upper auger 141 is clamped into the clamping groove 42 of the lower end auger 14 through the clamping block 41, and connection of the auger 14 is achieved.

When the soil conveying box 5 moves leftwards to convey soil, the upper auger 141 is made to move together with the soil conveying box 5, soil on the upper auger 141 can be made to fall in the soil conveying box 5 under the action of gravity, and is accordingly sent out under the action of the shovel block 11, meanwhile, the swing motor 36 is controlled to rotate clockwise, the swing strip 37 can also be made to collide with the baffle 8 to generate vibration, and therefore the soil on the upper auger 141 can better fall in the soil conveying box 5 and is accordingly conveyed away together by the shovel block 11, meanwhile, the soil attached to the outside of the baffle 8 can fall due to the vibration generated by collision, and therefore when the soil conveying box 5 moves rightwards to the inner box 6, the soil is reduced from entering the inner pipe 4.

In this embodiment, body 2 is connected the lower extreme at last body 1 through two spliced poles 24 down, the lower extreme of going up body 1 is connected with the retainer plate 25 of coaxial setting, it connects on retainer plate 25 to keep off native 26 rotation, it is a plurality of blend stops to keep off native 26, a plurality of blend stops are located outside spliced pole 24, it has water inlet 27 to open on the blend stop, when inner box 6 removes and control rotation cylinder 9 makes baffle 8 upwards rotate from soil box 5 left side, baffle 8 can promote the blend stop upwards to rotate, body 2 is opened down has the annular edge (not shown in the figure) that is used for keeping off the blend stop lower extreme.

The principle and the effect of the technical scheme are as follows:

because the inner box 6 is arranged in the soil conveying box 5 in a sliding mode, when the inner pipe 4 rotates in the vertical direction and meets the connecting column 24, only the sliding cylinder 7 needs to be controlled to pull the inner box 6 back into the soil conveying box 5, the connecting column 24 is arranged without interfering with the rotation of the inner pipe 4, meanwhile, as the barrier strip is positioned on the outer side of the connecting column 24 and is provided with the water inlet 27, when soil is not backfilled, a water pump pumps water, one part of water is pumped out through the water inlet 27 on the barrier strip, the other part of water impacts on the barrier strip to push the barrier strip back to the annular edge, and the entering of large sand stones is reduced; the water and soil mixture enters the inner pipe 4 through the filter tank 17, the drain hole 16 and the water inlet 27, soil entering the inner pipe 4 is backfilled around the drain pipe under the action of the auger 14, and when soil needs to be fed, the rotary cylinder 9 is started to push the baffle 8 to move upwards to lift the barrier strips on the fixing ring 25, so that backfilling is completed.

In this embodiment, the gear ring 18 is connected to the top end of the inner tube 4, the annular hole 19 for accommodating the top end of the inner tube 4 is formed in the upper tube body 1, the rotating motor 20 is detachably connected to the annular hole 19, the power shaft of the rotating motor 20 is connected with the gear 21 meshed with the gear ring 18, the rotating bead 22 is arranged at the bottom end of the inner tube 4, the annular sliding groove 23 is formed in the annular plate 3, and the inner tube 4 is rotatably connected to the annular sliding groove 23 through the rotating bead 22, so that the inner tube 4 can rotate around the vertical direction.

The principle and the effect of the technical scheme are as follows:

because the inner pipe 4 can rotate, the soil layers around can be backfilled, the soil layers around are backfilled more uniformly, and the situation that the drain pipe is inclined due to backfilling only at a certain position is reduced; when pumping water and finishing pouring concrete to the drain pipe, can take out rotating electrical machines 20, practice thrift the cost.

In this embodiment, the inner wall of the upper tube 1 is detachably provided with a filter screen 28 for blocking the soil.

The principle and the effect of the technical scheme are as follows:

the arrangement of the filter screen 28 can filter out soil body of water-soil mixture, so that the soil body falls down and is transported to the inner box 6 under the action of the auger 14 and backfills to the soil layer.

In this embodiment, a downwardly inclined guide plate 29 is arranged around the inner side wall of the inner pipe 4, the bottom end of the guide plate 29 is connected with a flat plate 30, the flat plate 30 is positioned below the packing auger 14, and the guide plate 29 is provided with a water inlet hole 31.

The principle and the effect of the technical scheme are as follows:

the guide plate 29 is arranged to guide the soil falling from the filter screen 28, so that the soil is gathered on the flat plate 30 and transported to the inner box 6 under the action of the auger 14 and backfilled to the soil layer, and the water inlet hole 31 on the guide plate 29 can allow water below the flat plate 30 to pass through and be pumped out by a water pump.

In this embodiment, the outer side wall of the upper pipe body 1 is connected with a water-stopping wing ring 32.

The principle and the effect of the technical scheme are as follows:

the water stop wing ring 32 prevents leakage of the lower water from rising up to the floor surface through the outside edge of the vertical drain pipe.

In this embodiment, the upper end of the upper pipe body 1 is connected with the blocking block 33 through threads.

The principle and the effect of the technical scheme are as follows:

after having pumped drainage groundwater, through concrete seal drain pipe, ensure that the structure is waterproof, the sealed effect of drain pipe after the shutoff is improved in setting up of sprue 33, leads to the seepage after preventing to gush on water in the drain pipe.

Finally, it is noted that the above-mentioned preferred embodiments illustrate rather than limit the invention, and that, while the invention has been described in detail with reference to the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a vertical drain pipe which characterized in that: the soil conveying pipe comprises an upper pipe body, wherein one end of the upper pipe body is communicated with a lower pipe body, one end of the lower pipe body is provided with a circular ring plate coaxial with the lower pipe body, an inner pipe communicated with the upper pipe body and the lower pipe body is arranged on the circular ring plate, the inner pipe is positioned in the lower pipe body, the inner side wall of the inner pipe is provided with a groove, the lower pipe body is provided with a hole communicated with the groove, the lower end of the upper pipe body is provided with a soil retaining part used for retaining the groove, the soil retaining part is rotatably connected with the lower end of the upper pipe body, an inclined soil conveying pipe is arranged in the inner pipe of the inner pipe, one end of the soil conveying pipe is communicated with the groove, the other end of the soil conveying pipe is lower than the groove, an auger is arranged in the soil conveying pipe, a drain hole is arranged on the side wall of the inner pipe, and a filter tank with the same height as the drain hole is arranged on the side wall of the lower pipe body.

2. A vertical drain pipe according to claim 1, characterized in that: the side wall of the soil feeding box far away from the open slot is communicated with the soil feeding pipe, the other end of the soil conveying pipe is lower than the soil conveying box, the soil conveying box is provided with an opening communicated with the open groove, the opening is connected with an inner box in a sliding way, the side wall of the inner box far away from the opening is provided with a square hole for accommodating a soil conveying pipe, the side wall of the inner box far away from the opening is connected with the soil conveying box through a sliding cylinder, one side of the inner box near the opening is rotatably connected with a baffle plate, a rotary cylinder is arranged between the baffle plate and the inner box, two ends of the rotary cylinder are respectively hinged with the baffle plate and the outer edge of the bottom of the inner box, the inner box is kept away from the open-ended lateral wall is equipped with the push cylinder, the telescopic shaft of push cylinder passes the inner box just is connected with the shovel piece, the shovel piece with inner box diapire sliding connection.

3. A vertical drain according to claim 2, characterized in that: a sliding rail is horizontally arranged on the inner side wall of the soil conveying box; the sliding rail is connected with a pulley in a sliding way; the pulley is rotatably connected with a rotating shaft; a sliding rod is fixedly connected to the vertical direction of the rotating shaft; one end of the sliding rod, which is far away from the pulley, is provided with a swing motor; an inclined swing strip is arranged at the power end of the swing motor; the auger comprises an upper auger and a lower auger, and one end of the upper auger is coaxially connected to the power end of the soil conveying motor; the soil feeding motor is vertically connected to the side wall of the swinging strip close to the sliding rod; the edge of the soil conveying pipe far away from the sliding rod is connected with a fixed rod along the direction of the circle center of the soil conveying pipe; one end of the lower auger is rotatably connected to the fixed rod; the other end of the lower auger is provided with a clamping groove, and the other end of the upper auger is provided with a clamping block clamped with the clamping groove.

4. A vertical drain according to claim 3, characterized in that: the lower pipe body is connected with the lower end of the upper pipe body through the connecting column, the lower end of the upper pipe body is connected with a fixing ring which is coaxially arranged, the soil retaining part is connected with a plurality of barrier strips on the fixing ring in a rotating mode, the barrier strips are located outside the connecting column, a water inlet is formed in each barrier strip, the inner box is located when the soil pushing box moves outwards and the baffle rotates upwards, the baffle can push the barrier strips to rotate upwards, and the lower pipe body is provided with an annular edge used for blocking the lower end of the barrier strips.

5. A vertical drain according to claim 4, characterized in that: the inner tube top cover is equipped with the ring gear, it has the holding to open in the upper tube body the annular opening on inner tube top, can dismantle in the annular opening and be equipped with the rotation motor, the power shaft that rotates the motor be equipped with ring gear meshing's gear, the inner tube bottom is connected through rotating the pearl rotation on the ring plate.

6. A vertical drain according to claim 5, characterized in that: the inner wall of the upper pipe body is detachably provided with a filter screen used for blocking a soil body.

7. A vertical drain according to claim 6, characterized in that: the inner side wall of the inner pipe is provided with a guide plate which is downwards inclined around, the bottom end of the guide plate is connected with a flat plate, the flat plate is positioned below the packing auger, and the guide plate is provided with a water inlet hole.

8. A vertical drain according to claim 7, characterized in that: and a water stopping wing ring is arranged on the outer side wall of the upper tube body.

9. A vertical drain according to claim 8, wherein: the upper end of the upper pipe body is in threaded connection with a block.