CN116352778A

CN116352778A - Automatic blank device of special pneumatic dryer of F46

Info

Publication number: CN116352778A
Application number: CN202310542743.0A
Authority: CN
Inventors: 查当先
Original assignee: Jiangsu Xingxing Drying Equipment Co ltd
Current assignee: Jiangsu Xingxing Drying Equipment Co ltd
Priority date: 2023-05-15
Filing date: 2023-05-15
Publication date: 2023-06-30
Anticipated expiration: 2043-05-15
Also published as: CN116352778B

Abstract

The invention relates to the technical field of feeding devices, in particular to an automatic material cutting device of an F46 special air flow dryer, which comprises a feeding box, wherein the surface of the feeding box is fixedly connected with a material cutting machine, the material cutting machine is communicated with the feeding box, one side of the surface of the material cutting machine is fixedly connected with a motor, two sides in the material cutting machine are connected with two transmission wheel sets in a co-rotating manner, and the output end of the motor is fixedly connected with one transmission wheel set through a coupling. According to the invention, all sheared substances are uniformly received through the receiving hopper, after fragments and fine particles are removed through the air flow generated by the blower, the static electricity removing work is carried out on the finished product materials in the diversion trench through the static electricity eliminator, impurities which do not meet production specifications are further removed, generated dust is led out through the circulation effect of the air flow, the air flow is discharged after the dust is filtered, the production effect can be effectively improved, the dust is prevented from overflowing and the working safety is improved.

Description

Automatic blank device of special pneumatic dryer of F46

Technical Field

The invention relates to the technical field of blanking devices, in particular to an automatic blanking device of an air flow dryer special for F46.

Background

F46 is an organic mixture, is a copolymer of tetrafluoroethylene and hexafluoropropylene, namely, the poly-perfluoroethylene propylene, is a modified material of polytetrafluoroethylene, has characteristics similar to those of polytetrafluoroethylene, has good processability of thermoplastic plastics, is used as a material of a plastic product, still adopts the existing plastic production process in the production process, namely, is dried by an air flow dryer after extrusion molding and cooling, and finally becomes an industrial raw material by blanking.

The existing blanking device often has the following problems in specific work: firstly, when the formed strip-shaped object is cut, a large amount of fragments and fine particles are generated at the cutting position due to the relatively hard texture and long-time cutting operation, the fragments and the fine particles cannot be correspondingly processed, the requirements of production specifications are not met, if the separation treatment is not carried out, the fragments and the fine particles are discharged together with the finished product material, and finally the overall production quality is influenced; secondly, in the in-process that separates, piece and tiny granule can roll along with the material, because all materials are in dry state, can produce dust class material at this in-process, and in the in-process of constantly working, this kind of dust can spill at will, probably can be absorbed by nearby staff, and then produce harm to healthy to can form and pile up in the working area, because the dust can produce the effect of explosion, then the dangerous coefficient of whole operational environment can be risen to the dust that spills everywhere.

Disclosure of Invention

The invention aims to solve the problems in the background technology and provides a feeding device for laser processing.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the automatic material cutting device of the air flow dryer special for F46 comprises a feeding box, wherein a material cutting machine is fixedly connected to the surface of the feeding box, the material cutting machine is mutually communicated with the feeding box, a motor is fixedly connected to one side of the surface of the material cutting machine, two transmission wheel sets are connected to two sides of the interior of the material cutting machine in a co-rotating manner, the output end of the motor is fixedly connected with one of the transmission wheel sets through a coupler, two material rollers are connected to the interior of the feeding box in a rotating manner, the two material rollers are distributed up and down, and the transmission wheel sets are connected with the upper material rollers in a transmission manner through a belt;

the inside fixedly connected with blank subassembly of blank machine, the blank subassembly includes the baffle box and is used for two hydraulic cutters, and hydraulic cutters sliding connection is in the surface of baffle box, and the inside fixedly connected with of blank machine receives the hopper, and the receiving hopper is located the below of blank subassembly, the inside both sides of receiving the hopper symmetry fixedly connected with collision piece, and both sides the collision piece is dislocation distribution, the inside fixedly connected with hair-dryer of blank machine, the output of hair-dryer and the one side intercommunication of receiving the hopper, the air inlet side of hair-dryer and the surface intercommunication of blank machine, the opposite side intercommunication of receiving the hopper has the guide tube;

the bottom of receiving the hopper is linked together there is the dispersion case, the guiding gutter has been seted up to the inside of dispersion case, connect the guiding gutter has been seted up to the inside of dispersion case, just connect the guiding gutter to be located the below of guiding gutter, connect between guiding gutter and the guiding gutter through the leak hole intercommunication, the discharge gate has been seted up to the bottom of guiding gutter.

In the automatic blank device of the special pneumatic dryer of F46, the inside fixedly connected with of blank machine is assisted and is vibrated the box, connects the other end of guiding tube to peg graft in the inside of assisting the box that shakes, connects one side intercommunication of guiding groove to have the drainage tube, the other end of drainage tube peg graft in the inside of assisting the box that shakes, and connect guiding tube and drainage tube intercommunication, connect the surface intercommunication of guiding tube to have the outlet duct, the inside of outlet duct is embedded to have the filter screen, the outlet duct is located the inside of assisting the box that shakes, and the bottom intercommunication of outlet duct has the air vent, the other end and the top intercommunication of drainage tube of air vent.

In the automatic blanking device of the air dryer special for the F46, one side of the surface of the resonance box is fixedly connected with a receiving box, the receiving box is fixed on the surface of the blanking machine, an opening is formed in the surface of the receiving box and is communicated with the drainage tube, an exhaust window is formed in the top of the receiving box, and the exhaust window is communicated with the air outlet tube.

In the automatic blanking device of the air flow dryer special for F46, the filter plate is inserted into the receiving box, positioning blocks are fixedly connected to two sides of the surface of the filter plate, positioning grooves are formed in the receiving box, and the positioning grooves are in sliding connection with the positioning blocks.

In the automatic blanking device of the special pneumatic dryer for F46, the inside of the diversion trench is rotationally connected with a rotating shaft, one end of the rotating shaft is in transmission connection with the transmission wheel set through a belt, the surface of the rotating shaft is fixedly connected with a plurality of deflector rods, and the surface of the rotating shaft is fixedly connected with a static eliminator.

In the automatic material cutting device of the special pneumatic dryer for F46, connecting blocks are rotationally connected to two ends of the material roller, connecting grooves are symmetrically formed in two sides of the inside of the material feeding box, springs are fixedly connected to the inside of the connecting grooves, the other ends of the springs are fixedly connected with the connecting blocks, and the material roller is slidingly connected to the inside of the material feeding box through the connecting grooves.

In the automatic blanking device of the air flow dryer special for the F46, one side of the surface of the resonance box is fixedly connected with a chuck, the surface of the chuck is rotationally connected with a driving plate, the driving plate is in transmission connection with another transmission wheel set through a belt, and the transmission wheel set is in transmission connection with the other end of the upper material roller.

In the automatic blanking device of the special pneumatic dryer for F46, one end, close to the air outlet pipe, of the guide tube is fixedly connected with a spoiler, and the inside of the drainage tube is inclined.

Compared with the prior art, the automatic blanking device of the air flow dryer special for F46 has the advantages that:

1. the sheared logistics and the generated relevant scraps are uniformly collected through the receiving hopper, airflow with certain strength is conveyed into the receiving hopper through the blower, and the scraps and the fine particles are removed, so that a large amount of generated scraps and fine particles can be effectively separated from materials meeting the specification as much as possible, and the influence on the quality of a final product is avoided;

2. when the blower generates air flow, the air flow in the receiving hopper and other pipelines is guided to suck out dust substances generated in the process of rolling fragments and fine particles, the dust substances are sent out of the cutter through the circulation effect of the air, and dust wrapped in the air flow is filtered and absorbed, so that the dust is prevented from overflowing and scattering, workers are prevented from sucking, and the condition of dust explosion caused by overlarge dust concentration in the air is avoided;

3. the finished product materials received in the diversion trench are stirred through the rotation effect of the rotating shaft in the diversion trench, static electricity generated by rolling friction on the surface of the finished product materials is eliminated through the static eliminator, so that the finished product materials are forced to avoid falling off of a small amount of fragments adsorbed by the static electricity, and the fragments fall into the guide trench through the leak hole to be discharged, so that fragments which do not meet production requirements can be further removed, and the production effect is improved;

in summary, the invention uniformly receives all sheared substances through the receiving hopper, eliminates fragments and fine particles through the air flow generated by the blower, then performs static elimination work on finished products in the diversion trench through the static eliminator, further eliminates impurities which do not meet production specifications, leads out generated dust through the circulation effect of the air flow, and discharges the air flow after filtering, thereby effectively improving the production effect, avoiding dust from overflowing and improving the working safety.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of a cutter according to the present invention;

FIG. 3 is a schematic illustration of the cross-sectional structure of the drive train of the present invention;

FIG. 4 is a schematic cross-sectional view of a feed box of the present invention;

FIG. 5 is a schematic view of the receiving hopper construction of the present invention;

FIG. 6 is a schematic cross-sectional view of a flow guide groove of the present invention;

FIG. 7 is a schematic perspective view of a resonance box of the present invention;

FIG. 8 is a schematic cross-sectional view of a resonance cassette of the present invention;

FIG. 9 is a schematic cross-sectional view of a receiver box of the present invention;

FIG. 10 is a schematic cross-sectional view of a drainage tube of the present invention.

In the figure: 1. a feed box; 2. a blanking machine; 3. a motor; 4. a transmission wheel set; 5. a material roller; 6. a blanking assembly; 601. a guide groove; 602. a hydraulic cutter; 7. a receiving hopper; 8. an impact block; 9. a blower; 10. connecting a guide tube; 11. a dispersion tank; 12. a diversion trench; 13. a connecting groove; 14. a discharge port; 15. a resonance box; 16. a drainage tube; 17. an air outlet pipe; 18. a filter screen; 19. an air guide hole; 20. a receiving box; 21. an opening; 22. an exhaust window; 23. a filter plate; 24. a positioning block; 25. a positioning groove; 26. a rotating shaft; 27. a deflector rod; 28. a static eliminator; 29. a connecting block; 30. a connecting groove; 31. a spring; 32. a chuck; 33. a dial; 34. a spoiler.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Referring to fig. 1-10, an automatic cutting device of special pneumatic drier of F46, including feeding box 1, feeding box 1's fixed surface is connected with cutter 2, cutter 2 and feeding box 1 communicate each other, one side fixedly connected with motor 3 on cutter 2 surface, the inside both sides of cutter 2 are rotated altogether and are connected with two drive wheelsets 4, motor 3's output passes through shaft coupling and one of them drive wheelset 4 fixed connection, feeding box 1's inside rotates and is connected with two material rollers 5, and two material rollers 5 are distributed from top to bottom, drive wheelset passes through the belt and is connected with the transmission of top material roller 5, cutter 2's inside fixedly connected with cutter subassembly 6, cutter subassembly 6 includes guide groove 601 and is used for two hydraulic cutter 602, hydraulic cutter 602 sliding connection is in the surface of guide groove 601, cutter 2's inside fixedly connected with receiving hopper 7, receiving hopper 7 is located the below of cutter subassembly 6, receiving hopper 7 inside both sides symmetry fixedly connected with bump 8, and both sides bump 8 are dislocation distribution, inside hopper 2's inside fixedly connected with 9 has two material rollers 5, and two material rollers 5 are distributed from top to bottom, guide groove 13 has guide groove 13 to bottom, the inside guide groove 13 has guide groove 13 to be equipped with, the inside guide groove 13 is connected with guide groove 12, the inside groove 13 is connected with guide groove 13, the inside groove is connected with guide groove 13.

When the hydraulic cutter 602 shears the strip-shaped material processed by the pneumatic dryer, the generated finished product and fragments or fine particles are received by the receiving hopper 7 together, the fragments adhered on the surface of the finished product are forced to thoroughly fall through continuous contact collision with the collision block 8, then the air flow with relatively low strength is blown into the guide tube 10 by the blower 9, the impurities are removed to a certain extent, the finished product material finally falls into the guide groove 12, the deflector rod 27 is driven to rotate by the rotating shaft 26, and the residual fragments or fine particles are removed through the leak holes in the process of pushing the finished product material to the discharge port 14, so that the finished product specification can be ensured and the production quality can be ensured.

The inside rotation of guiding gutter 12 is connected with pivot 26, and the one end of pivot 26 passes through the belt and is connected with the transmission wheelset 4 transmission, and the fixed surface of pivot 26 is connected with a plurality of driving lever 27, and the fixed surface of pivot 26 is connected with static eliminator 28, wherein, eliminates the static that the finished product material surface produced because of rolling friction through static eliminator 28, forces the impurity that the finished product material surface adsorbed can autosegregation to stir the effect through driving lever 27, drops to the guiding gutter 13 in the automatic whereabouts of via the leak opening and discharges.

Connecting block 29 is all rotationally connected with the both ends of below material roller 5, connecting groove 30 has been seted up to the inside bilateral symmetry of feed box 1, connecting groove 30's inside fixedly connected with spring 31, spring 31's the other end and connecting block 29 fixed connection, below material roller 5 passes through connecting groove 30 sliding connection in the inside of feed box 1, wherein, connecting block 29's slip effect can drive below material roller 5 and slide from top to bottom, can ensure that the clearance between two upper and lower material rollers 5 can adapt to the material of different specifications.

Referring to fig. 1-10, the inside of the blanking machine 2 is fixedly connected with a vibration assisting box 15, the other end of the guide pipe 10 is inserted into the vibration assisting box 15, one side of the guide groove 13 is communicated with a drainage pipe 16, the other end of the drainage pipe 16 is inserted into the vibration assisting box 15, the guide pipe 10 is communicated with the drainage pipe 16, the surface of the guide pipe 10 is communicated with an air outlet pipe 17, a filter screen 18 is embedded in the air outlet pipe 17, the air outlet pipe 17 is positioned in the vibration assisting box 15, the bottom of the air outlet pipe 17 is communicated with an air guide hole 19, and the other end of the air guide hole 19 is communicated with the top of the drainage pipe 16.

Wherein, along with the continuous feeding of the air flow, fragments and fine particles are continuously blown into the guide pipe 10 and filtered at the position passing through the filter screen 18, the air flow is continuously led into the air outlet pipe 17, and along with the flow of the air in the air outlet pipe 17, the air in the drainage pipe 16 is pulled by the air guide hole 19, so that a certain negative pressure effect is generated at the position, close to the air guide hole 19, inside the drainage pipe 16, to force the air existing in the drainage pipe 16 to flow to the air outlet pipe 17, and the dust substances inside the air flow into the air outlet pipe 17.

One side of the surface of the resonance box 15 is fixedly connected with a receiving box 20, the receiving box 20 is fixed on the surface of the blanking machine 2, an opening 21 is formed in the surface of the receiving box 20, the opening 21 is communicated with the drainage tube 16, an exhaust window 22 is formed in the top of the receiving box 20, the exhaust window 22 is communicated with the air outlet tube 17, wherein after the air flow in the air outlet tube 17 carries dust substances into the receiving box 20, the air flow can be filtered through a filter plate 23 inside the receiving box 20, and then the air is discharged through the exhaust window 22.

The filter plate 23 is inserted into the receiving box 20, positioning blocks 24 are fixedly connected to two sides of the surface of the filter plate 23, positioning grooves 25 are formed in the receiving box 20, and the positioning grooves 25 are in sliding connection with the positioning blocks 24, wherein the filter plate 23 can be conveniently disassembled and cleaned through the sliding effect between the positioning blocks 24 and the positioning grooves 25, and the filtering working effect of the filter plate is guaranteed.

One side fixedly connected with chuck 32 of box 15 surface that shakes, chuck 32's surface rotation is connected with catch plate 33, catch plate 33 passes through the belt and is connected with another drive wheelset 4 transmission, and this drive wheelset 4 is connected with the other end transmission of top material roller 5, wherein, drive the drive wheelset 4 rotation of keeping away from motor 3 one side through top material roller 5, can drive catch plate 33 and rotate at chuck 32's surface, make the box 15 that shakes produce certain vibrations through striking chuck 32, can assist in connect in the draw-in groove 13 and the impurity of filter screen 18 department finally get into drainage tube 16, guarantee final thoroughly emission, avoid the impurity unable free slip and the accumulation jam that forms.

The one end that connects the guide tube 10 to be close to outlet duct 17 fixedly connected with vortex piece 34, the inside of drainage tube 16 is the slope form, wherein, through the vortex effect to the air current of vortex piece 34, can guarantee that the air current blows to the surface of filter screen 18 as far as, prevents that the air current from deflecting because of the direction effect of connecing the guide tube 10, avoids directly blowing into in the drainage tube 16.

The specific working principle and the using method of the invention are explained in detail as follows: when the material cutting machine is used, firstly, one end of a material processed by an air flow dryer is sent into a feeding box 1, a motor 3 drives a transmission wheel set 4 close to one side of an output end of the material to rotate, namely a material roller 5 above the material roller is driven to rotate, strip-shaped materials are pushed into a material cutting machine 2, and the materials are uniformly sheared through the sliding effect of a hydraulic cutter 602 along a material guide groove 601;

secondly, uniformly receiving impurities generated by the sheared material boxes through the receiving hopper 7, forcing the materials to collide with the collision blocks 8 through the blocking action of the collision blocks 8 in the receiving hopper, further separating the impurities adhered on the surfaces of the finished materials, and conveying air flow with certain strength to the inside of the receiving hopper 7 through the blower 9 in the falling process, so that the impurities with lighter weight are blown into the guide pipe 10, and the finished materials continuously fall into the dispersing box 11;

thirdly, the materials falling into the dispersing box 11 are stirred by the deflector rod 27, static electricity generated by friction and rolling on the surfaces of the materials can be eliminated as much as possible through the work of the static eliminator 28, further impurities adsorbed on the static electricity on the surfaces of the finished materials are removed, the impurities fall into the receiving and guiding groove 13 through the leak holes, and the finished materials subjected to secondary separation treatment are discharged through the discharge hole 14;

fourth, when the air flow continuously enters the guiding tube 10, the air flow is directly blown to the surface of the filter screen 18 by the turbulence effect of the turbulence block 34, the air flow is wrapped with impurities, the impurities in the air flow are filtered by the filter screen 18, then the air flow enters the air outlet tube 17, the impurities at the filter screen 18 and in the guiding slot 13 all enter the drainage tube 16 and finally are discharged, and in the process that the air flow passes through the air outlet tube 17, a certain negative pressure effect is generated at the position, close to the air guide hole 19, inside the drainage tube 16, of the drainage tube is forced to flow to the air outlet tube 17, dust substances inside the drainage tube are sent to the air outlet tube 17, and after entering the receiving box 20, the dust substances are discharged again by the filtering effect of the filter plate 23.

Further, the above-described fixed connection is to be understood in a broad sense, unless explicitly stated and defined otherwise, as being, for example, welded, glued, or integrally formed, as is well known to those skilled in the art.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The utility model provides an automatic blank device of special pneumatic drier of F46, includes feeding box (1), its characterized in that: the surface of the feeding box (1) is fixedly connected with a cutter (2), the cutter (2) is communicated with the feeding box (1), one side of the surface of the cutter (2) is fixedly connected with a motor (3), two sides of the interior of the cutter (2) are connected with two transmission wheel sets (4) in a co-rotating mode, the output end of the motor (3) is fixedly connected with one of the transmission wheel sets (4) through a coupler, the interior of the feeding box (1) is connected with two material rollers (5) in a rotating mode, the two material rollers (5) are distributed up and down, and the transmission wheel sets (4) are connected with the upper material rollers (5) in a transmission mode through a belt;

the automatic feeding device is characterized in that a blanking assembly (6) is fixedly connected to the inside of the blanking machine (2), the blanking assembly (6) comprises a guide groove (601) and two hydraulic cutters (602), the hydraulic cutters (602) are slidably connected to the surface of the guide groove (601), a receiving hopper (7) is fixedly connected to the inside of the blanking machine (2), the receiving hopper (7) is located below the blanking assembly (6), collision blocks (8) are symmetrically and fixedly connected to the two sides of the inside of the receiving hopper (7), the collision blocks (8) are distributed in a staggered mode, a blower (9) is fixedly connected to the inside of the blanking machine (2), the output end of the blower (9) is communicated with one side of the receiving hopper (7), the air inlet side of the blower (9) is communicated with the surface of the blanking machine (2), and a guide pipe (10) is communicated with the other side of the receiving hopper (7).

The bottom of receiving hopper (7) is linked together there is dispersion case (11), guiding gutter (12) have been seted up to the inside of dispersion case (11), connect guiding gutter (13) have been seted up to the inside of dispersion case (11), just connect guiding gutter (13) to be located the below of guiding gutter (12), connect between guiding gutter (13) and guiding gutter (12) through the leak intercommunication, discharge gate (14) have been seted up to the bottom of guiding gutter (12).

2. An automatic blanking device of an air dryer special for F46 as set forth in claim 1, wherein: the inside fixedly connected with of stock cutter (2) is assisted box (15) that shakes, connects the other end of guiding tube (10) to peg graft in the inside of coordinating box (15) that shakes, connects one side intercommunication of guiding groove (13) to have drainage tube (16), the other end of drainage tube (16) peg graft in the inside of coordinating box (15) that shakes, and connect guiding tube (10) and drainage tube (16) intercommunication, the surface intercommunication that connects guiding tube (10) has outlet duct (17), and the inside of outlet duct (17) has embedded filter screen (18), outlet duct (17) are located the inside of coordinating box (15), and the bottom intercommunication of outlet duct (17) has air vent (19), the other end of air vent (19) and the top intercommunication of drainage tube (16).

3. An automatic blanking device of an air dryer special for F46 as set forth in claim 2, wherein: one side fixedly connected with of the surface of box (15) that shakes receives box (20), receives the surface that box (20) were fixed in blank machine (2), and opening (21) have been seted up on the surface of receiving box (20), and opening (21) and drainage tube (16) intercommunication, the top of receiving box (20) has seted up exhaust window (22), exhaust window (22) and outlet duct (17) intercommunication.

4. An automatic blanking device of an air dryer special for F46 according to claim 3, wherein: the filter plate (23) is inserted into the receiving box (20), positioning blocks (24) are fixedly connected to two sides of the surface of the filter plate (23), positioning grooves (25) are formed in the receiving box (20), and the positioning grooves (25) are in sliding connection with the positioning blocks (24).

5. An automatic blanking device of an air dryer special for F46 as set forth in claim 1, wherein: the inside rotation of guiding gutter (12) is connected with pivot (26), and the one end of pivot (26) is connected with drive wheelset (4) transmission through the belt, and the fixed surface of pivot (26) is connected with a plurality of driving lever (27), the fixed surface of pivot (26) is connected with static eliminator (28).

6. An automatic blanking device of an air dryer special for F46 as set forth in claim 1, wherein: connecting blocks (29) are rotationally connected to two ends of the material roller (5) below, connecting grooves (30) are symmetrically formed in two sides of the inside of the material feeding box (1), springs (31) are fixedly connected to the inside of the connecting grooves (30), the other ends of the springs (31) are fixedly connected with the connecting blocks (29), and the material roller (5) below is slidingly connected to the inside of the material feeding box (1) through the connecting grooves (30).

7. An automatic blanking device of an air dryer special for F46 as set forth in claim 2, wherein: one side of the surface of the resonance box (15) is fixedly connected with a chuck (32), the surface of the chuck (32) is rotationally connected with a driving plate (33), the driving plate (33) is in transmission connection with the other transmission wheel set (4) through a belt, and the transmission wheel set (4) is in transmission connection with the other end of the upper material roller (5).

8. An automatic blanking device of an air dryer special for F46 as set forth in claim 2, wherein: one end of the guide tube (10) close to the air outlet tube (17) is fixedly connected with a spoiler (34), and the inside of the drainage tube (16) is inclined.