CN114452905B

CN114452905B - Liquid raw material conveying device

Info

Publication number: CN114452905B
Application number: CN202210231040.1A
Authority: CN
Inventors: 王行义; 李嘉陵
Original assignee: Jiyuan Biological Products Xuzhou Co ltd
Current assignee: Jiyuan Biological Products Xuzhou Co ltd
Priority date: 2022-03-09
Filing date: 2022-03-09
Publication date: 2023-01-31
Anticipated expiration: 2042-03-09
Also published as: CN114452905A

Abstract

The invention discloses a liquid raw material conveying device which comprises a processing pipe, wherein a conveying mechanism is arranged on the processing pipe, a driving assembly is arranged on the conveying mechanism, a stirring rod rotates to enable hydrogen powder and a liquid catalyst in the processing pipe to be fully mixed with a liquid material which flows slowly through the stirring rod in the processing pipe, the hydrogen powder, the liquid catalyst and grease in the liquid material react to solidify the grease in the liquid material, the grease in the liquid material is removed, an electric heater is started to work, an electric heating ring generates heat and transmits the heat to a heat conduction filter plate, the hydrogen powder is promoted to react with the grease in the liquid material under the action of the liquid catalyst and the grease is solidified and adsorbed on one side of the heat conduction filter plate, and the stirring rod can scrape the solidified grease on the heat conduction filter plate while rotating to promote the reaction of the hydrogen powder and the catalyst, so that the blockage of the heat conduction filter plate is avoided.

Description

Liquid raw material conveying device

Technical Field

The invention relates to the technical field of fluid pressure actuating mechanisms, in particular to a liquid raw material conveying device.

Background

In the processing process, liquid waste materials such as food processing and the like are generated, so for environmental protection, liquid materials in the pipelines need to be processed, the processing mode generally depends on that the water surface difference at two ends of the pipelines flows from high to low, the interior of the pipelines does not bear pressure, namely, the pipelines flow by gravity, the liquid materials often need to be layered, when the liquid materials are processed, the liquid materials are often scraped by floating the grease on the surfaces of the liquid materials, and the like, but the grease is not easy to be completely removed by adopting the mode, so that the separation efficiency of the grease is reduced.

To this end, a liquid material conveying device is proposed.

Disclosure of Invention

The present invention is directed to a liquid material conveying apparatus to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a liquid raw material conveying device, is including handling the pipe, it is provided with conveying mechanism on the pipe to handle, the last drive assembly that is provided with of conveying mechanism.

Preferably, conveying mechanism includes standpipe, feeding chamber, perpendicular chamber, angle pipe, horizontal chamber, violently manages, discharge gate, puddler, it stretches out and is connected with the standpipe to run through on the pipe to handle, the feeding chamber has been seted up in the standpipe, it erects the chamber to have seted up a plurality of groups in the standpipe, feeding chamber and perpendicular chamber upper and lower adjacent setting, just the through-hole has been seted up on the lateral wall between perpendicular chamber and the feeding chamber, every group erect the chamber and run through and stretch out and sealed sliding connection has a set of angle pipe, every group the angle pipe is kept away from standpipe one end and is run through and stretch into a set of horizontal chamber and sliding connection, horizontal chamber is seted up in horizontal pipe, every group set up a set of discharge gate in the horizontal chamber.

Preferably, a group of stirring rods is fixedly connected to the outer side of the transverse pipe.

Preferably, violently manage and run through and stretch out and the swivelling joint has the heat conduction filter plate, heat conduction filter plate fixed connection is at the treatment tube inner wall, the puddler laminating is in heat conduction filter plate left side and swing joint, the laminating of heat conduction filter plate right-hand member has the electric heat ring, electric heat ring outward flange fixed connection is at the treatment tube inner wall, the electric heat ring passes through wire and electric heater intercommunication, the electric heater sets up in the treatment tube.

Preferably, handle and to have seted up the collection storehouse in the pipe, collection storehouse bottom is run through and embedded fixedly connected with fine filter plate, the export has been seted up to puddler upper end.

Preferably, a plurality of groups of limiting rollers are arranged on the upper side of the inner surface of the vertical cavity at equal intervals in an annular mode, floating balls are arranged above the limiting rollers, one end of each group of limiting rollers is rotatably connected with a rotating block, and the rotating blocks are fixedly connected to the inner wall of the vertical pipe.

Preferably, a group of rubber blocks is fixedly connected in each group of the discharge ports, and fine holes are formed in each group of the rubber blocks.

Preferably, drive assembly includes motor, gear, ring gear, fretwork dish, drive block, frame, carves pole, oblique annular, handle a set of motor of tub outside fixedly connected with, the output shaft fixedly connected with gear of motor, gear and ring gear meshing, the ring gear is run through and fixed connection by the standpipe, be provided with the fretwork dish in the feeding intracavity, fretwork dish one side fixedly connected with drive block, the drive block stretches into and swing joint has oblique annular, oblique annular is seted up at the standpipe inner wall, fretwork dish a plurality of poles of carving of fixedly connected with, fretwork dish upper end sliding connection has the frame, the frame runs through and stretches out the standpipe and swivelling joint.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, an inlet is formed in a vertical cavity of a stand penetrating through a vertical pipe, hydrogen powder and a liquid catalyst are sequentially put into a feeding cavity through the inlet, a motor is started, the motor works to rotate a gear, the gear rotates to drive a gear ring meshed with the gear ring to rotate, the vertical pipe where the gear ring is located rotates, the vertical pipe limits a transverse cavity in a transverse pipe due to the fact that the transverse pipe drives the transverse pipe to rotate through the transmission of the angular pipe, a stirring rod outside the transverse pipe rotates, the hydrogen powder and the liquid catalyst entering the feeding cavity enter the angular pipe through a through hole, and flow out to a stirring rod area in a treatment pipe through a discharge hole of the transverse cavity, the stirring rod rotates to fully mix the hydrogen powder and the liquid catalyst in the treatment pipe with liquid materials flowing slowly through the stirring rod in the treatment pipe, the hydrogen powder and the liquid catalyst react with the grease in the liquid materials to solidify the grease in the liquid materials, the electric heater in the liquid materials is removed, the electric heater in the liquid materials is started, the electric heater works to generate heat and transfer the heat to the heat conducting ring to the heat conducting plate to prevent the heat conducting plate from being blocked by the hydrogen powder and the heat conducting catalyst from reacting with the grease in the liquid materials under the liquid materials, and the heat conducting plate is solidified by the action of the stirring rod, and the heat conducting plate is absorbed on one side of the rotating electric heater;

2. when the vertical pipe drives the transverse pipe to rotate through the angle pipe, the vertical cavity on the vertical pipe and the transverse cavity on the transverse pipe generate displacement difference when rotating, so that one end of the angle pipe extending into the vertical cavity continuously moves up and down, and one end of the angle pipe extending into the transverse cavity continuously moves left and right, and hydrogen powder and a liquid catalyst in the transverse cavity continuously generate driving force to facilitate the hydrogen powder and the liquid catalyst to flow out from an outlet so as to be convenient for reacting with grease in liquid materials of a processing pipe; the design of the rubber block and the pore can prevent grease in the treatment pipe from entering the transverse cavity after being cured;

3. according to the invention, when the liquid in the transverse cavity, the corner pipe and the vertical cavity is excessive, the liquid level in the vertical cavity can gradually rise, and the floating ball in the vertical cavity always floats on the liquid level, so that the floating ball rises along with the liquid level and finally blocks the through hole between the feeding cavity and the vertical cavity, thereby preventing the hydrogen powder and the liquid flowing into the transverse cavity, the corner pipe and the vertical cavity from flowing back;

4. according to the invention, the stirring rod is in an angle shape, one end of the stirring rod is provided with the outlet, when the stirring rod rotates, the angle-shaped inner wall of the scraped stirring rod moves to one side far away from the transverse pipe due to the rotating acting force of the stirring rod, and leaves the stirring rod through the outlet to enter the collection bin, so that the solidified grease is collected;

5. according to the invention, when the motor works, the vertical pipe rotates, the inclined ring groove in the feeding cavity of the vertical pipe rotates, so that the transmission block extending into the inclined ring groove is forced to move up and down, the wedge rod at the position of the transmission block and below the transmission block moves up and down, and the hydrogen powder and the liquid catalyst which are just put into the feeding cavity are vibrated and mixed.

Drawings

FIG. 1 is an overall structural view of the present invention;

FIG. 2 is an external view of a standpipe and corner pipe of the present invention;

FIG. 3 is an overall structural view of the electric heating ring of the present invention;

FIG. 4 is a top view of the arrangement of the floating balls and the limiting rollers of the present invention;

FIG. 5 is an overall structural view of the stirring rod of the present invention;

FIG. 6 is a vertical cavity layout view of the present invention;

FIG. 7 is an enlarged view of A of FIG. 1 in accordance with the present invention;

FIG. 8 is an enlarged view of B of FIG. 1 in accordance with the present invention;

fig. 9 is a combination view of the hollow plate and the driving block of the present invention.

In the figure:

1. a treatment tube; 2. a conveying mechanism; 21. a vertical tube; 22. a feed cavity; 23. a vertical cavity; 24. an angular tube; 25. a transverse cavity; 26. a transverse tube; 27. a discharge port; 28. a stirring rod; 3. a heat-conducting filter plate; 31. an electric heating ring; 4. a collection bin; 41. fine filter plates; 42. an outlet; 5. a floating ball; 51. a limiting roller; 52. rotating the block; 6. a rubber block; 61. fine pores; 7. a drive assembly; 71. a motor; 72. a gear; 73. a ring gear; 74. hollowing out the disc; 75. a transmission block; 76. a frame; 77. a wedge rod; 78. and a bevel ring groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 9, the present invention provides a technical solution:

the liquid raw material conveying device comprises a processing pipe 1, wherein a conveying mechanism 2 is arranged on the processing pipe 1, and a driving assembly 7 is arranged on the conveying mechanism 2.

As an embodiment of the present invention, as shown in fig. 1, fig. 2 and fig. 5, the conveying mechanism 2 includes a vertical pipe 21, a feeding cavity 22, a vertical cavity 23, an angular pipe 24, a transverse cavity 25, a transverse pipe 26, a discharge hole 27, and a stirring rod 28, the vertical pipe 21 is rotatably connected to the processing pipe 1 in a penetrating manner, the feeding cavity 22 is formed in the vertical pipe 21, a plurality of sets of vertical cavities 23 are formed in the vertical pipe 21, the feeding cavity 22 and the vertical cavities 23 are vertically adjacent to each other, a through hole is formed in a side wall between the vertical cavity 23 and the feeding cavity 22, each set of vertical cavity 23 is formed in a penetrating manner, extends, hermetically and slidably connects to a set of angular pipes 24, one end of each set of angular pipes 24, which is far from the vertical pipe 21, penetrates into a set of transverse cavities 25 and slidably connects, the transverse cavities 25 are formed in the transverse pipe 26, and a set of discharge hole 27 is formed in each set of transverse cavities 25.

The during operation, because the angle pipe 24 is to violently managing the spacing of horizontal chamber 25 in 26, thereby the standpipe 21 rotates the transmission through angle pipe 24 and drives violently pipe 26 and rotate, violently outside puddler 28 of pipe 26 rotates, hydrogen powder and liquid catalyst that get into between the feeding chamber 22 pass through the through-hole and get into in the angle pipe 24, and flow out to handling the puddler 28 region in the pipe 1 through horizontal chamber 25 discharge gate 27, thereby puddler 28 rotates and makes hydrogen powder and liquid catalyst in handling the pipe 1 and handle the liquid material intensive mixing of the slow flow of through puddler 28 in the pipe 1, thereby grease in hydrogen powder and the liquid catalyst and the liquid material reaction makes the grease solidification in the liquid material, thereby grease in to the liquid material is got rid of.

As an embodiment of the present invention, as shown in fig. 1 and 3, the horizontal tube 26 is extended through and rotatably connected with the heat transfer filter plate 3, the heat transfer filter plate 3 is fixedly connected to the inner wall of the processing tube 1, the stirring rod 28 is movably connected to the left side of the heat transfer filter plate 3, the right end of the heat transfer filter plate 3 is attached with the electric heating ring 31, the outer edge of the electric heating ring 31 is fixedly connected to the inner wall of the processing tube 1, the electric heating ring 31 is connected to an electric heater through a wire, and the electric heater is disposed in the processing tube 1.

During operation, through starting the electric heater, thereby the electric heater work makes electric heat ring 31 produce the heat and transmit for heat conduction filter plate 3 to promote hydrogen powder and grease reaction in the liquid material under the liquid catalyst effect and make the grease solidification, adsorb in heat conduction filter plate 3 one side, puddler 28 can strike off the solidification grease on the heat conduction filter plate 3 when rotating to promote hydrogen powder, catalyst reaction, thereby avoids the jam of heat conduction filter plate 3.

As an embodiment of the present invention, as shown in fig. 1, a collecting bin 4 is formed in the processing tube 1, a fine filter plate 41 is fixedly connected to the bottom of the collecting bin 4 in a penetrating and embedded manner, and an outlet 42 is formed at an upper end opening of the stirring rod 28.

In operation, the stirring rod 28 is in an angle shape, one end of the stirring rod 28 is provided with an outlet 42, when the stirring rod 28 rotates, the angle-shaped inner wall of the scraped stirring rod 28 moves to the side far away from the transverse pipe 26 due to the rotating acting force of the stirring rod 28, and leaves the stirring rod 28 through the outlet 42 to enter the collection bin 4, so that the solidified grease is collected.

As an embodiment of the present invention, as shown in fig. 1, fig. 4 and fig. 7, a plurality of sets of limiting rollers 51 are annularly and equidistantly arranged on the upper side of the inner surface of the vertical cavity 23, a floating ball 5 is arranged above the limiting rollers 51, one end of each set of the limiting rollers 51 is rotatably connected with a rotating block 52, the rotating block 52 is fixedly connected to the inner wall of the vertical pipe 21, a set of rubber blocks 6 is fixedly connected in each set of the discharge port 27, and a fine hole 61 is formed in each set of the rubber blocks 6.

During operation, when the liquid in horizontal chamber 25, angle pipe 24 and perpendicular chamber 23 was too much, the liquid level in the perpendicular chamber 23 can rise gradually, and the floater 5 floats on the liquid level all the time in the perpendicular chamber 23 to follow the liquid level and rise, finally block up the through-hole between feeding chamber 22 and the perpendicular chamber 23, thereby prevent to flow into the hydrogen powder and the liquid backward flow in horizontal chamber 25, angle pipe 24 and the perpendicular chamber 23, according to above-mentioned principle, also can prevent when the device does not use, handle the liquid material backward flow in the pipe 1 and reveal.

As an embodiment of the present invention, as shown in fig. 1 and 9, the driving assembly 7 includes a motor 71, a gear 72, a gear ring 73, a hollow disc 74, a driving block 75, a frame 76, a wedge rod 77, and an inclined ring groove 78, the outer side of the processing tube 1 is fixedly connected with a set of motor 71, an output shaft of the motor 71 is fixedly connected with the gear 72, the gear 72 is engaged with the gear ring 73, the gear ring 73 is penetrated and fixedly connected by the vertical tube 21, the hollow disc 74 is disposed in the feeding cavity 22, the driving block 75 is fixedly connected to one side of the hollow disc 74, the driving block 75 is extended into and movably connected with the inclined ring groove 78, the inclined ring groove 78 is opened on the inner wall of the vertical tube 21, the hollow disc 74 is fixedly connected with a plurality of wedge rods 77, the upper end of the hollow disc 74 is slidably connected with the frame 76, and the frame 76 is penetrated and extended out of the vertical tube 21 and rotatably connected.

During operation, motor 71 during operation standpipe 21 rotates, the bevel ring groove 78 in the feeding chamber 22 of standpipe 21 rotates, thereby force to stretch into the transmission piece 75 of bevel ring groove 78 and reciprocate, fretwork dish 74 at transmission piece 75 place and the wedge pole 77 of below reciprocate, thereby vibrate the mixture to the hydrogen powder that has just put into in the feeding chamber 22 and liquid catalyst, when the device does not use, make wedge pole 77 stop motionless in the through-hole when reciprocating, thereby plug up the through-hole, thereby form secondary seal, form twice sealedly with floater 5 jointly, thereby can prevent better to handle 1 and reveal that tub

The working principle is as follows: an inlet is formed in a position, penetrating through a vertical cavity 23 of a vertical pipe 21, of a rack 76, hydrogen powder and a liquid catalyst are sequentially placed into a feeding cavity 22 through the inlet, a motor 71 is started, the motor 71 works to enable a gear 72 to rotate, the gear 72 rotates to drive a gear ring 73 engaged with the gear ring to rotate, the vertical pipe 21 where the gear ring 73 is located rotates, due to the fact that the corner pipe 24 limits a transverse cavity 25 in a transverse pipe 26, the vertical pipe 21 rotates to drive the transverse pipe 26 to rotate through transmission of the corner pipe 24, a stirring rod 28 outside the transverse pipe 26 rotates, the hydrogen powder and the liquid catalyst entering the feeding cavity 22 enter the corner pipe 24 through a through hole, and flow out of a discharge hole 27 of the transverse cavity 25 to a stirring rod 28 area in a processing pipe 1, the stirring rod 28 rotates to enable the hydrogen powder and the liquid catalyst in the processing pipe 1 to be fully mixed with the liquid material slowly flowing through the stirring rod 28 in the processing pipe 1, and the hydrogen powder and the liquid catalyst react with the grease in the liquid material to enable the grease in the liquid material to be solidified, and accordingly the grease in the liquid material is removed;

when the electric heater is started, the electric heater works to enable the electric heating ring 31 to generate heat and transmit the heat to the heat conduction filter plate 3, so that the reaction of hydrogen powder and grease in liquid materials under the action of a liquid catalyst is promoted, the grease is solidified and adsorbed on one side of the heat conduction filter plate 3, and the stirring rod 28 can scrape the solidified grease on the heat conduction filter plate 3 while the reaction of the hydrogen powder and the catalyst is promoted by rotating, so that the blockage of the heat conduction filter plate 3 is avoided;

furthermore, when the vertical pipe 21 drives the horizontal pipe 26 to rotate through the angular pipe 24, due to the displacement difference generated when the vertical cavity 23 on the vertical pipe 21 and the horizontal cavity 25 on the horizontal pipe 26 rotate, one end of the angular pipe 24 extending into the vertical cavity 23 continuously moves up and down, and one end extending into the horizontal cavity 25 continuously moves left and right, so that hydrogen powder and liquid catalyst in the horizontal cavity 25 continuously generate driving force to be convenient for flowing out from the outlet 42 so as to react with grease in the liquid material of the treatment pipe 1; the rubber block 6 and the pore 61 are designed to prevent grease in the treatment tube 1 from entering the transverse cavity 25 after being solidified;

based on the above, when the liquid in the transverse cavity 25, the angle pipe 24 and the vertical cavity 23 is too much, the liquid level in the vertical cavity 23 will gradually rise, and the floating ball 5 in the vertical cavity 23 always floats on the liquid level, so as to rise along with the liquid level, and finally block the through hole between the feeding cavity 22 and the vertical cavity 23, so as to prevent the hydrogen powder and the liquid flowing into the transverse cavity 25, the angle pipe 24 and the vertical cavity 23 from flowing back, and according to the above principle, the liquid material in the treatment pipe 1 can also be prevented from flowing back and leaking when the device is not used;

furthermore, the stirring rod 28 is of an angle shape, one end of the stirring rod 28 is provided with an outlet 42, when the stirring rod 28 rotates, the scraped-off angle-shaped inner wall of the stirring rod 28 moves to the side far away from the transverse pipe 26 due to the rotating acting force of the stirring rod 28, and leaves the stirring rod 28 through the outlet 42 to enter the collection bin 4, so that the solidified grease is collected;

the motor 71 during operation standpipe 21 rotates, the inclined ring groove 78 in the feeding chamber 22 of standpipe 21 rotates, thereby force to stretch into the transmission piece 75 of inclined ring groove 78 and reciprocate, the fretwork dish 74 at transmission piece 75 place and the wedge rod 77 of below reciprocate, thereby vibrate the mixture to the hydrogen powder and the liquid catalyst that just put into in the feeding chamber 22, when the device does not use, make wedge rod 77 stop motionless in the through-hole when reciprocating, thereby plug up the through-hole, thereby form secondary seal, form twice sealed with floater 5 jointly, thereby can prevent better that treatment pipe 1 from revealing.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A liquid feedstock delivery apparatus comprising a process tube (1), characterized in that: the treatment pipe (1) is provided with a conveying mechanism (2), and the conveying mechanism (2) is provided with a driving assembly (7); the conveying mechanism (2) comprises a vertical pipe (21), a feeding cavity (22), vertical cavities (23), corner pipes (24), a transverse cavity (25), a transverse pipe (26), a discharging hole (27) and stirring rods (28), wherein the treating pipe (1) penetrates through and extends out and is rotatably connected with the vertical pipe (21), the feeding cavity (22) is formed in the vertical pipe (21), a plurality of groups of vertical cavities (23) are formed in the vertical pipe (21), the feeding cavity (22) and the vertical cavities (23) are arranged in an up-and-down adjacent mode, a through hole is formed in the side wall between each vertical cavity (23) and the feeding cavity (22), each group of vertical cavities (23) penetrates through and extends out and is connected with one group of corner pipes (24) in a sealing and sliding mode, one end, far away from the vertical pipe (21), of each group of corner pipes (24) penetrates through and extends into one group of transverse cavities (25) and is connected in a sliding mode, the transverse cavity (25) is formed in each group of transverse cavities (25), and one group of discharging holes (27) is formed in each group of transverse cavities (25), and the outer side of each transverse pipe (26) is fixedly connected with one group of the stirring rods (28); the horizontal pipe (26) penetrates through and extends out and is rotatably connected with a heat conduction filter plate (3), the heat conduction filter plate (3) is fixedly connected with the inner wall of the treatment pipe (1), the stirring rod (28) is attached to the left side of the heat conduction filter plate (3) and is movably connected with the heat conduction filter plate, an electric heating ring (31) is attached to the right end of the heat conduction filter plate (3), the outer edge of the electric heating ring (31) is fixedly connected with the inner wall of the treatment pipe (1), the electric heating ring (31) is communicated with an electric heater through a wire, and the electric heater is arranged in the treatment pipe (1);

a collecting bin (4) is arranged in the treatment pipe (1), a fine filter plate (41) penetrates through the bottom of the collecting bin (4) and is fixedly connected with the bottom of the collecting bin in an embedded mode, and an outlet (42) is formed in an upper end opening of the stirring rod (28); the upper side of the inner surface of the vertical cavity (23) is provided with a plurality of groups of limiting rollers (51) at equal intervals in an annular mode, a floating ball (5) is arranged above each limiting roller (51), one end of each limiting roller (51) is rotatably connected with a rotating block (52), and the rotating blocks (52) are fixedly connected to the inner wall of the vertical pipe (21).

2. A liquid feedstock delivery apparatus as claimed in claim 1, wherein: every group fixedly connected with a set of rubber block (6) in discharge gate (27), every group seted up pore (61) in rubber block (6).

3. A liquid feedstock delivery apparatus as claimed in claim 2, wherein: the driving assembly (7) comprises a motor (71), a gear (72), a gear ring (73), a hollow disc (74), a transmission block (75), a rack (76), a wedge rod (77) and an inclined ring groove (78), a group of motors (71) are fixedly connected to the outer side of the treatment pipe (1), and the gears (72) are fixedly connected to output shafts of the motors (71).

4. A liquid feedstock delivery apparatus as claimed in claim 3, wherein: gear (72) and ring gear (73) meshing, ring gear (73) are run through and fixed connection by standpipe (21), be provided with fretwork dish (74) in feeding chamber (22), fretwork dish (74) one side fixedly connected with transmission piece (75), transmission piece (75) stretch into and swing joint has oblique annular groove (78).

5. A liquid feedstock delivery apparatus as claimed in claim 4, wherein: set up in standpipe (21) inner wall inclined ring groove (78), fretwork dish (74) fixedly connected with a plurality of wedge poles (77), fretwork dish (74) upper end sliding connection has frame (76), frame (76) run through and stretch out standpipe (21) and swivelling joint.