CN114397132A

CN114397132A - Hydraulic ring geological survey sampling device

Info

Publication number: CN114397132A
Application number: CN202210063357.9A
Authority: CN
Inventors: 许明保; 杨磊; 马相霞
Original assignee: Fourth Exploration Team Of Shandong Coalfield Geology Bureau
Current assignee: Yunnan Metallurgical Resources Co ltd
Priority date: 2022-01-20
Filing date: 2022-01-20
Publication date: 2022-04-26
Anticipated expiration: 2042-01-20
Also published as: CN114397132B

Abstract

The invention discloses a hydraulic ring geological exploration sampling device in the technical field of geological exploration equipment, and the exploration sampling device comprises a moving assembly, wherein the moving assembly comprises a bottom frame, a moving frame in sliding fit is arranged above the bottom frame, a filtering assembly is arranged at one end of the bottom frame, a collecting assembly is arranged below the filtering assembly, a rotating sampling assembly is arranged at the other end of the bottom frame, the sampling assembly comprises a sampling barrel, a rotating block in sliding fit is arranged on the outer side of the sampling barrel, a spiral conveying shaft is arranged in the sampling barrel, a drill bit fixedly connected with the spiral conveying shaft is arranged at one end of the spiral conveying shaft, a material stirring assembly is arranged above the moving frame, and a first driving assembly and a second driving assembly are arranged in the material stirring assembly. The surveying and sampling device adopts a linkage driving design, so that the teeth and the pusher dog can synchronously retreat during rotation, weeds and floating soil can be better pushed away, the sampling barrel can automatically stretch and rotate to adjust the angle, and coarse materials are firstly removed by the filtering component during discharging.

Description

Hydraulic ring geological survey sampling device

Technical Field

The invention relates to the technical field of geological exploration equipment, in particular to a hydraulic ring geological exploration sampling device.

Background

The hydrologic ring, namely the hydrogeology, the geological branch subject, the hydrology geology research underground water science mainly researches the distribution and formation law of the underground water, the physical properties and chemical components of the underground water, the underground water resources and the reasonable utilization thereof, the adverse effects and the prevention and treatment of the underground water on engineering construction and mine exploitation, and the like.

But at present at the in-process to the geology sample, sampling equipment can't carry out the preliminary treatment operation, can't clear up to weeds and loose soil, and conventional mode adopts the manual work to clear up the operation mostly, and overall efficiency is lower, and the sample effect is not good moreover, adopts the drill bit to bore soil mostly then the manual work and collects, handles, and the soil bulk error of collection is great, influences subsequent geological survey.

Based on the above, the invention designs a hydraulic ring geological survey sampling device to solve the problems.

Disclosure of Invention

The invention aims to provide a hydraulic engineering ring geological survey sampling device, which solves the problems that sampling equipment provided in the background technology cannot be subjected to pretreatment operation, cannot be used for cleaning weeds and floating soil, most of conventional methods adopt manual cleaning operation, the overall efficiency is low, the sampling effect is poor, most of the conventional methods adopt a drill bit to drill soil and then manually collect and process the soil, the overall error of the collected soil is large, and the subsequent geological detection is influenced.

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

the utility model provides a water conservancy project ring geology reconnaissance sampling device, reconnaissance sampling device is including removing the subassembly, it includes the chassis to remove the subassembly, the chassis top is equipped with sliding fit's removal frame, chassis one end is equipped with filtering component, the filtering component below is equipped with the collection subassembly, the chassis other end is equipped with pivoted sampling component, sampling component includes the sampling bucket, the sampling bucket outside is equipped with sliding fit's turning block, be equipped with the auger delivery axle in the sampling bucket, auger delivery axle one end is equipped with fixed connection's drill bit, it is equipped with group's subassembly to remove the frame top, it is equipped with first drive assembly and second drive assembly in the group's subassembly to dial, filtering component includes the first rotating turret of pivoted, the inside second rotating turret that is equipped with the rotation and connects of first rotating turret.

As a further scheme of the invention, a rotating crawler belt is arranged below the underframe, a first rack fixedly connected is also arranged above the underframe, a first side frame fixedly connected is arranged at one end of the movable frame, a second side frame fixedly connected is arranged at the other end of the movable frame, first rotating plates symmetrically distributed are arranged on the second side frame, and a first mounting plate is arranged on the side surface of each first rotating plate.

As a further scheme of the invention, a rotating sampling assembly is arranged in the first rotating plate, a second rack is arranged on the side surface of the sampling barrel, a first motor which is fixedly connected with one end of the sampling barrel is arranged at one end of the sampling barrel, a first discharge hole is formed below one end of the sampling barrel, third rotating shafts which are fixedly connected with one another are arranged on two sides of the rotating block, a first gear which is fixedly connected with one third rotating shaft is arranged on one third rotating shaft, the third rotating shaft is rotatably connected with the first rotating plate, and the first motor drives the spiral conveying shaft to rotate.

As a further scheme of the present invention, a second motor fixedly connected is disposed on the first mounting plate, a second gear fixedly connected is disposed on a rotating shaft of the second motor, the second gear is engaged with the first gear, a third motor fixedly connected is disposed above the rotating block, a third gear fixedly connected is disposed on a rotating shaft of the third motor, and the third gear is engaged with the second rack.

As a further scheme of the invention, the object shifting assembly comprises first rotating rods which are symmetrically distributed, one end of each first rotating rod is provided with a second rotating rod which is rotatably connected, the other end of each first rotating rod is provided with a fixedly connected shifting plate, the lower end of each shifting plate is provided with teeth which are distributed in an array manner, the shifting plate is provided with a second mounting plate which is in sliding fit, the upper end of each shifting plate is provided with a first hydraulic rod which is fixedly connected, the telescopic columns of the first hydraulic rods are fixedly connected with the second mounting plate, and the other side of the second mounting plate is provided with shifting claws which are distributed in an array manner.

As a further scheme of the invention, a first driving assembly and a second driving assembly are arranged between the first rotating rods, clutch assemblies are arranged in the first driving assembly and the second driving assembly, each clutch assembly comprises a clutch, a fixed end, a movable end, an adjusting block, an adjusting plate, a fifth rotating shaft, a first opening, an adjusting shaft, a second bearing block, a first fixed block, a first pushing column, a second hydraulic rod and a second fixed block;

the first driving assembly comprises a speed reducer, one end of the speed reducer is provided with a fixedly connected fourth motor, both sides of the speed reducer are provided with fourth rotating shafts, each fourth rotating shaft is provided with a fixedly connected pushing arm, the fourth rotating shaft on one side is also provided with a fixedly connected fourth gear, each pushing arm is rotatably connected with the first rotating rod, the fourth rotating shaft on the other side is also provided with a clutch, each clutch comprises a fixed end and a movable end, and the outer side of each movable end is provided with a rotatably connected adjusting block;

regulating block one side is equipped with the regulating plate, regulating plate one side is equipped with the fifth pivot, the fifth pivot rotates with the regulating block to be connected, the regulating plate below is equipped with fixed connection's regulating spindle, regulating spindle one end is equipped with fixed connection's first fixed block, be equipped with fixed connection's first promotion post on the first fixed block, the regulating spindle top is equipped with the second hydraulic stem, be equipped with fixed connection's second fixed block on the flexible post of second hydraulic stem, the second fixed block rotates with first promotion post to be connected, the second hydraulic stem tail end is equipped with the first installation piece of rotating the connection.

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

1. the reconnaissance sampling device adopts a linkage driving design, and the single motor drives the first driving assembly and the second driving assembly to synchronously move through the clutch, so that the teeth and the pusher dog can synchronously retreat during rotation, weeds and floating soil are better pushed away, and an excellent land sampling environment is provided for the subsequent sampling of the sampling assemblies;

2. according to the reconnaissance sampling device, the sampling barrel of the sampling assembly can automatically stretch and rotate to adjust the angle, and automatically rotate according to sampling and discharging in actual use, coarse materials are removed by the filtering assembly firstly during discharging, the filtering assembly can rotate to remove slag, and the whole operation is simple and rapid;

3. the collecting assembly in the investigation sampling device can perform fine operation on the collected soil, automatically remove internal fine dust, and is simple and quick in subsequent material taking.

Drawings

FIG. 1 is a schematic view of the overall structure of the surveying sampling device of the present invention;

FIG. 2 is a schematic view of a moving assembly according to the present invention;

FIG. 3 is a schematic diagram of an exploded view of a sampling assembly according to the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 3 according to the present invention;

FIG. 5 is a schematic view of a part of the inspection and sampling device according to the present invention;

FIG. 6 is a schematic view of a portion of the poking assembly of the present invention;

FIG. 7 is a schematic structural diagram of a first driving assembly according to the present invention;

FIG. 8 is an enlarged view of the structure at B in FIG. 7 according to the present invention;

FIG. 9 is a schematic structural diagram of a second driving assembly according to the present invention;

FIG. 10 is a schematic view of a filter assembly according to the present invention;

FIG. 11 is a schematic view of a collection assembly according to the present invention;

fig. 12 is a schematic cross-sectional view of a collection assembly of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

the device comprises a moving assembly 1, an underframe 11, a rotating crawler 12, a first slide rail 13, a first slide block 131, a first rack 14, a moving frame 15, a first side frame 16, a first rotating shaft 161, a second rotating shaft 162, a second side frame 17, a first rotating plate 171, a first mounting plate 172, a sampling assembly 2, a sampling barrel 21, a slide bar 211, a second rack 212, a first motor 22, a first discharge port 213, a rotating block 23, a first slot 231, a first chute 233, a second chute 232, a third rotating shaft 234, a first gear 24, a spiral conveying shaft 27, a drill bit 28, a second motor 25, a second gear 251, a third motor 26, a third gear 261, a material shifting assembly 3, a first rotating rod 31, a second rotating rod 32, a shifting plate 33, teeth 331, a second slide rail 332, a first hydraulic rod 34, a second mounting plate 35, a second slide block 351, a shifting claw 36, a first driving assembly 4, a second driving assembly 5, a speed reducer 41, a speed reducer, A fourth motor 411, a fourth rotating shaft 412, a first bearing seat 413, a pushing arm 43, a fourth gear 42, a clutch 44, a fixed end 441, a movable end 442, an adjusting block 45, an adjusting plate 46, a fifth rotating shaft 461, a first opening 462, an adjusting shaft 47, a second bearing seat 471, a first fixed block 472, a first pushing column 473, a second hydraulic rod 48, a second fixed block 481, a second mounting block 49, a sixth rotating shaft 51, a third bearing seat 53, a fifth gear 52, a third mounting block 54, a filter assembly 6, a first rotating frame 61, a fourth mounting block 62, a third mounting plate 611, a sixth gear 63, a fifth motor 64, a seventh gear 641, a second rotating frame 65, a seventh rotating shaft 651, an eighth gear 652, a sixth motor 66, a ninth gear 661, a collecting assembly 7, a storage box 71, a dust discharge hole 711, an air intake 712, a refining box 72, an inclined plate 721, a pulverizing cylinder 73, a tenth gear 731, a filter assembly 71, a dust discharge hole 711, a dust discharge hole 712, a fine box 72, a fine box, A seventh motor 732, an air inlet box 74, filter cotton 741, air blades 743, an eighth motor 742, a spiral conveyor 75 and a discharging sheet 751.

Detailed Description

Referring to fig. 1-12, the present invention provides a technical solution:

the utility model provides a water conservancy project ring geology reconnaissance sampling device, reconnaissance sampling device is including removing subassembly 1, remove subassembly 1 includes chassis 11, chassis 11 below is equipped with rotates track 12, it drives chassis 11 and removes to rotate track 12, chassis 11 top is equipped with first slide rail 13 of array distribution, be equipped with first slider 131 of sliding fit on the first slide rail 13, chassis 11 top still is equipped with first rack 14 of fixed connection, first slider 131 top is equipped with fixed connection's removal frame 15, it serves and is equipped with fixed connection's first side bearer 16 to remove frame 15, first side bearer 16 both sides all are equipped with fixed connection's first pivot 161, first side bearer 16 upper end is equipped with fixed connection's second pivot 162, be equipped with fixed connection's second side bearer 17 on the removal frame 15 other end, be equipped with the first pivot 171 of symmetric distribution on the second side bearer 17, first pivot 171 side is equipped with first mounting panel 172.

A rotating sampling component 2 is arranged in the first rotating plate 171, the sampling component 2 comprises a sampling barrel 21, a second rack 212 and sliding strips 211 which are symmetrically distributed are arranged on the side surface of the sampling barrel 21, a first motor 22 which is fixedly connected is arranged at one end of the sampling barrel 21, a first discharge hole 213 is arranged below one end of the sampling barrel 21, a rotating block 23 is arranged on the outer side of the sampling barrel 21, a first through groove 231 is arranged in the rotating block 23, a first sliding groove 233 and a second sliding groove 232 which is symmetrically distributed are arranged in the first sliding groove 231, the second rack 212 slides in the first sliding groove 233, the sliding strips 211 slide in the second sliding groove 232, third rotating shafts 234 which are fixedly connected are arranged on two sides of the rotating block 23, a first gear 24 which is fixedly connected is arranged on the third rotating shaft 234 on one side, the third rotating shaft 234 is rotatably connected with the first rotating plate 171, a spiral conveying shaft 27 is arranged in the sampling barrel 21, the first motor 22 drives the spiral conveying shaft 27 to rotate, one end of the spiral conveying shaft 27 is provided with a drill 28 which is fixedly connected;

be equipped with fixed connection's second motor 25 on the first mounting panel 172, be equipped with fixed connection's second gear 251 in the second motor 25 axis of rotation, second gear 251 and the meshing of first gear 24, second motor 25 drives the turning block 23 and rotates, the turning block 23 drives the sample bucket 21 and rotates, the turning block 23 top is equipped with fixed connection's third motor 26, be equipped with fixed connection's third gear 261 in the third motor 26 axis of rotation, third gear 261 meshes with second rack 212, third motor 26 drives sample bucket 21 and slides in the turning block 23.

Move and be equipped with above the frame 15 and dial thing subassembly 3, dial thing subassembly 3 including the first dwang 31 of symmetric distribution, first dwang 31 one end is equipped with second dwang 32, second dwang 32 one end rotates with first dwang 31 to be connected, the second dwang 32 other end rotates with first dwang 161 to be connected, the first dwang 31 other end is equipped with fixed connection's shifting plate 33, shifting plate 33 lower extreme is equipped with array distribution's tooth 331, be equipped with array distribution's second slide rail 332 on the shifting plate 33, shifting plate 33 upper end is equipped with fixed connection's first hydraulic stem 34, shifting plate 33 top is equipped with second mounting panel 35, second mounting panel 35 one side is equipped with array distribution's second slider 351, second slider 351 and second slide rail 332 sliding fit, the flexible post of first hydraulic stem 34 and second mounting panel 35 fixed connection, second mounting panel 35 opposite side is equipped with array distribution's pusher dog 36.

A first driving assembly 4 and a second driving assembly 5 are arranged between the first rotating rods 31, clutch assemblies are arranged in the first driving assembly 4 and the second driving assembly 5, each clutch assembly comprises a clutch 44, a fixed end 441, a movable end 442, an adjusting block 45, an adjusting plate 46, a fifth rotating shaft 461, a first opening 462, an adjusting shaft 47, a second bearing seat 471, a first fixed block 472, a first pushing column 473, a second hydraulic rod 48 and a second fixed block 481, the first driving assembly 4 comprises a speed reducer 41, the speed reducer 41 is fixedly connected with the moving frame 15, one end of the speed reducer 41 is provided with a fixedly connected fourth motor 411, both sides of the speed reducer 41 are provided with fourth rotating shafts 412, the fourth rotating shafts 412 are provided with a first bearing seat 413 and a fixedly connected pushing arm 43, the first bearing seat 413 is fixedly connected with the moving frame 15, a fixedly connected fourth gear 42 is further arranged on the fourth rotating shaft 412 on one side, the pushing arm 43 is rotatably connected with the first rotating rod 31, a clutch 44 is further disposed on the fourth rotating shaft 412 on the other side, the clutch 44 includes a fixed end 441 and a movable end 442, an adjusting block 45 rotatably connected with the outer side of the movable end 442 is disposed on the outer side of the movable end 442, and the adjusting block 45 drives the movable end 442 to slide along the fourth rotating shaft 412;

adjusting block 45 one side is equipped with adjusting plate 46, adjusting plate 46 one side is equipped with fifth pivot 461, fifth pivot 461 is connected with adjusting block 45 rotation, adjusting plate 46 below is equipped with first trompil 462, be equipped with fixed connection's regulating shaft 47 in the first trompil 462, be equipped with second bearing seat 471 of rotating the connection on the regulating shaft 47, second bearing seat 471 and removal frame 15 fixed connection, regulating shaft 47 one end is equipped with fixed connection's first fixed block 472, be equipped with fixed connection's first promotion post 473 on the first fixed block 472, be equipped with second hydraulic stem 48 above the regulating shaft 47, be equipped with fixed connection's second fixed block 481 on the flexible post of second hydraulic stem 48, second fixed block 481 rotates with first promotion post 473 and is connected, second hydraulic stem 48 tail end is equipped with the first installation piece 482 of rotating the connection, first installation piece 482 and removal frame 15 fixed connection.

The second driving assembly 5 comprises a sixth rotating shaft 51, a third bearing seat 53 and a clutch assembly which are connected in a rotating mode are arranged on the sixth rotating shaft 51, the third bearing seat 53 is fixedly connected with the moving frame 15, a fifth gear 52 which is fixedly connected is further arranged on the sixth rotating shaft 51, the fifth gear 52 is meshed with the fourth gear 42, a third mounting block 54 which is connected in a rotating mode is arranged at the tail end of the second hydraulic rod 48 in the clutch assembly arranged in the second driving assembly 5, and the third mounting block 54 is fixedly connected with the moving frame 15.

The upper end of the first side frame 16 is provided with a filter assembly 6, the filter assembly 6 comprises a first rotating frame 61, one side of the first rotating frame 61 is provided with a fourth mounting block 62, the other side of the first rotating frame 61 is provided with a third mounting plate 611, the fourth mounting block 62 is rotatably connected with the second rotating shaft 162, a fixedly connected sixth gear 63 is arranged above the fourth mounting block 62, the side surface of the fourth mounting block 62 is provided with a fifth motor 64, the fifth motor 64 is fixedly connected with the first side frame 16, a fixedly connected seventh gear 641 is arranged on the rotating shaft of the fifth motor 64, the seventh gear 641 is meshed with the sixth gear 63, the first rotating frame 61 is internally provided with a rotatably connected second rotating frame 65, the second rotating frame 65 is provided with a filter screen, the second rotating frame 65 is internally provided with a seventh rotating shaft 651 penetrating through the first rotating frame 61, the seventh rotating shaft 651 is provided with a fixedly connected eighth gear 652, the third mounting plate 611 is provided with a fixedly connected sixth motor 66, a ninth gear 661 fixedly connected to the rotation shaft of the sixth motor 66 is provided, and the ninth gear 661 is engaged with the eighth gear 652.

A collecting assembly 7 is arranged below the filtering assembly 6, the collecting assembly 7 comprises a storage box 71, dust discharging holes 711 are arranged on the rear side of the storage box 71, an air inlet 712 is arranged on the front side of the storage box 71, a thinning box 72 is arranged at the upper end of the storage box 71, symmetrically distributed inclined plates 721 are arranged in the thinning box 72, crushing cylinders 73 distributed in an array are arranged below the inclined plates 721, tenth gears 731 are arranged at one ends of the crushing cylinders 73, the tenth gears 731 are meshed with each other, a seventh motor 732 is arranged at the other end of one group of the crushing cylinders 73, the seventh motor 732 drives the crushing cylinders 73 to rotate, an air inlet box 74 is arranged outside the air inlet 712, replaceable filter cotton 741 is arranged on one side of the air inlet box 74, wind blades 743 connected in a rotating mode are arranged in the filter cotton 741, an eighth motor 742 is arranged at one end of the wind blades 743, the eighth motor 742 drives the wind blades 743 to rotate, a spiral conveyor 75 is arranged at the lower end of the storage box 71, and a discharging hole of the spiral conveyor 75 is provided with a discharging piece 751 capable of rotating and opening.

Claims

1. A geological exploration sampling device of a hydraulic ring comprises a moving assembly (1) and is characterized in that the moving assembly (1) comprises an underframe (11), a moving frame (15) in sliding fit is arranged above the underframe (11), a filtering assembly (6) is arranged at one end of the underframe (11), a collecting assembly (7) is arranged below the filtering assembly (6), a rotating sampling assembly (2) is arranged at the other end of the underframe (11), the sampling assembly (2) comprises a sampling barrel (21), a rotating block (23) in sliding fit is arranged on the outer side of the sampling barrel (21), a spiral conveying shaft (27) is arranged in the sampling barrel (21), a drill bit (28) fixedly connected with one end of the spiral conveying shaft (27) is arranged, an object shifting assembly (3) is arranged above the moving frame (15), a first driving assembly (4) and a second driving assembly (5) are arranged in the object shifting assembly (3), the filtering component (6) comprises a first rotating frame (61) which rotates, and a second rotating frame (65) which is connected in a rotating mode is arranged inside the first rotating frame (61).

2. The geological survey sampling device of the hydraulic ring as claimed in claim 1, wherein the rotating caterpillar (12) is arranged under the underframe (11), the first rack (14) is fixedly connected above the underframe (11), the first side frame (16) is fixedly connected at one end of the movable frame (15), the second side frame (17) is fixedly connected at the other end of the movable frame (15), the first rotating plates (171) are symmetrically distributed on the second side frame (17), and the first mounting plates (172) are arranged on the side surfaces of the first rotating plates (171).

3. The geological survey sampling device for the hydraulic ring as claimed in claim 1, wherein a rotating sampling assembly (2) is arranged in the first rotating plate (171), a second rack (212) is arranged on the side surface of the sampling barrel (21), a first motor (22) fixedly connected with the sampling barrel (21) is arranged at one end of the sampling barrel, a first discharge hole (213) is formed in the lower portion of one end of the sampling barrel (21), third rotating shafts (234) fixedly connected with the two sides of the rotating block (23) are arranged on the two sides of the rotating block (23), a first gear (24) fixedly connected with the third rotating shaft (234) is arranged on the third rotating shaft (234) on one side of the sampling barrel, the third rotating shaft (234) is rotatably connected with the first rotating plate (171), and the first motor (22) drives the spiral conveying shaft (27) to rotate.

4. A sampling device for geological survey of a hydraulic ring as claimed in claim 3, characterized in that said first mounting plate (172) is provided with a fixedly connected second motor (25), a rotating shaft of said second motor (25) is provided with a fixedly connected second gear (251), said second gear (251) is engaged with said first gear (24), a fixedly connected third motor (26) is provided above said rotary block (23), a rotating shaft of said third motor (26) is provided with a fixedly connected third gear (261), and said third gear (261) is engaged with said second rack (212).

5. The geological survey sampling device of the hydraulic ring as defined in claim 1, wherein the material shifting component (3) comprises symmetrically distributed first rotating rods (31), one end of each first rotating rod (31) is provided with a second rotating rod (32) which is rotatably connected, the other end of each first rotating rod (31) is provided with a shifting plate (33) which is fixedly connected, the lower end of each shifting plate (33) is provided with teeth (331) which are distributed in an array manner, a second mounting plate (35) which is in sliding fit is arranged on each shifting plate (33), a first hydraulic rod (34) which is fixedly connected is arranged at the upper end of each shifting plate (33), a telescopic column of each first hydraulic rod (34) is fixedly connected with the second mounting plate (35), and the other side of each second mounting plate (35) is provided with a shifting claw (36) which is distributed in an array manner.

6. The geological survey sampling device of the hydraulic ring of claim 1, wherein a first driving assembly (4) and a second driving assembly (5) are arranged between the first rotating rods (31), a clutch assembly is arranged in each of the first driving assembly (4) and the second driving assembly (5), and comprises a clutch (44), a fixed end (441), a movable end (442), an adjusting block (45), an adjusting plate (46), a fifth rotating shaft (461), a first opening (462), an adjusting shaft (47), a second bearing seat (471), a first fixed block (472), a first pushing column (473), a second hydraulic rod (48) and a second fixed block (481);

the first driving assembly (4) comprises a speed reducer (41), one end of the speed reducer (41) is provided with a fixedly connected fourth motor (411), both sides of the speed reducer (41) are provided with fourth rotating shafts (412), the fourth rotating shafts (412) are provided with fixedly connected pushing arms (43), the fourth rotating shaft (412) on one side is also provided with a fixedly connected fourth gear (42), the pushing arms (43) are rotatably connected with the first rotating rod (31), the fourth rotating shaft (412) on the other side is also provided with a clutch (44), the clutch (44) comprises a fixed end (441) and a movable end (442), and the outer side of the movable end (442) is provided with a rotatably connected adjusting block (45);

adjusting block (45) one side is equipped with regulating plate (46), regulating plate (46) one side is equipped with fifth pivot (461), fifth pivot (461) rotates with adjusting block (45) and is connected, regulating plate (46) below is equipped with fixed connection's regulating spindle (47), regulating spindle (47) one end is equipped with first fixed block (472) of fixed connection, be equipped with first promotion post (473) of fixed connection on first fixed block (472), regulating spindle (47) top is equipped with second hydraulic stem (48), be equipped with second fixed block (481) of fixed connection on the flexible post of second hydraulic stem (48), second fixed block (481) rotate with first promotion post (473) and are connected, second hydraulic stem (48) tail end is equipped with first installation piece (482) of rotating the connection.