CN210879859U - Hose pay-off cutting machine - Google Patents

Abstract

The utility model discloses a hose feeding and cutting machine, which comprises a discharging mechanism, a feeding mechanism and a cutting mechanism; the discharging mechanism comprises a fixed column, a rotary table and a base; the cutting mechanism consists of a cutting mechanism frame, a cutting part, a lifting mechanism and a gear rack mechanism; the feeding structure comprises a stretching pneumatic claw, a support, a sliding table, a screw nut mechanism, a stepping motor, a grasping pneumatic claw, a support and a feeding workbench. The operation is simple, the work is efficient, and the automatic integration is realized. The feeding mechanism is associated with the cutting mechanism and is uniformly controlled by the PLC, so that the cutting machine is convenient and quick; the feeding mechanism adopts a pneumatic manipulator, and can adapt to materials with different sizes; the length can be controlled, and the material can be cut according to the size of the material; the manufacturing is simple, the cost is low, and the market prospect is good; the automatic cutting machine integrates automatic conveying of the hydraulic hose and automatic cutting, can adapt to most sizes, and is reliable in structure, firm and durable.

Description

Hose pay-off cutting machine

Technical Field

The utility model relates to a hose pay-off cutting machine belongs to hydraulic hose (rubber tube) and makes the field.

Background

At present, the hydraulic hose mostly adopts manual feeding, and then the manual handling hose is cut, so that a large amount of waste of labor force can be caused, human resources are consumed, errors can be caused in manual feeding, and particularly, larger errors can be caused after long-time labor. The automatic hydraulic hose feeding cutting machine is urgently needed to improve the automation level, reduce the labor intensity and improve the production efficiency so as to improve the economic benefit.

SUMMERY OF THE UTILITY MODEL

To the problem that above-mentioned prior art exists, the utility model provides a hose pay-off cutting machine is used for improving automatic level, reduces intensity of labour, improves production efficiency and reaches in order to promote economic benefits.

In order to realize the purpose, the utility model discloses a technical scheme is: a hose feeding cutting machine comprises a feeding mechanism, a feeding mechanism and a cutting mechanism; the discharging mechanism comprises a fixed column, a rotary table and a base; the fixed column is fixedly connected above the turntable; the rotary table is connected with the base, and the hydraulic hose is sleeved on a fixed column of the rotary table;

the feeding mechanism comprises a stretching gas claw, a bracket, a sliding table, a screw nut mechanism, a stepping motor, a grasping gas claw, a bracket and a feeding workbench; the stretching air claw is fixed on one side of the bracket; the bracket is fixedly connected to the sliding table; the sliding table is fixedly connected with the screw nut mechanism; one side of the screw nut mechanism is connected with a stepping motor; the screw rod nut mechanism is connected to the feeding workbench; the feeding workbench is provided with a first bracket which is connected with the first bracket and used for installing a grasping gas claw;

the cutting mechanism consists of a cutting mechanism frame, a cutting part, a lifting mechanism and a gear rack mechanism; the cutting part consists of a shaft, a cutting blade, a first belt wheel, a second belt wheel and a first asynchronous motor; the cutting mechanism frame is connected with a sliding plate; a support column is fixed on the sliding plate; a workbench is fixed on the supporting column; the cutting part is arranged on the workbench; one side of the workbench is connected with a second stepping motor; one side of the second stepping motor is connected with a worm, and the worm is connected with a turbine; the worm wheel is connected with a screw rod lifting mechanism;

a first stepping motor is arranged on the workbench at one side of the screw rod lifting mechanism; one end of the stepping motor I is connected with a belt wheel II; the other side of the second belt wheel is connected with a first belt wheel; the type of the second belt wheel and the first belt wheel is a V belt; the belt wheel is connected with one end of the shaft; a cutting blade is arranged on the shaft; the shaft is connected to a clamping seat fixed on the workbench; a third stepping motor is arranged on the sliding plate and on the same plane with the support column; the bottom of the stepping motor III is connected with a gear II; the second gear is meshed with a second rack; the second rack is fixed on one side of the cutting mechanism rack; the sliding plate is provided with a hole for connecting the stepping motor III and the gear II; the cutting blade is arranged above the feeding workbench,

further, the stretching pneumatic claw and the grasping pneumatic claw are connected with a pneumatic system; the pneumatic system consists of an air source, a valve, a pressure gauge, a pneumatic triple piece, a first throttle valve, a two-position five-way electromagnetic valve, a second throttle valve, a pneumatic claw cylinder, a pressure reducing valve, a two-position five-way electromagnetic valve, a third throttle valve and a grasping cylinder; the gas source is connected with a valve; the valve is connected with a pneumatic triple piece; one side of the pneumatic triple piece is connected with a first throttling valve; one side of the throttle valve is connected with a pressure reducing valve; one side of the pressure reducing valve is connected with a two-position five-way electromagnetic valve and a two-position five-way electromagnetic valve I respectively; one side of the two-position five-way electromagnetic valve is connected with a second throttle valve; one side of the throttle valve II is connected with a gas claw cylinder; one side of the two-position five-way electromagnetic valve is connected with a third throttle valve; and one side of the throttle valve III is connected with a grasping cylinder.

The utility model has the advantages that: the operation is simple, the work is efficient, and the automatic integration is realized. The feeding mechanism is associated with the cutting mechanism and is uniformly controlled by the PLC, so that the cutting machine is convenient and quick; the feeding mechanism adopts a pneumatic manipulator, and can adapt to materials with different sizes; the length can be controlled, and the material can be cut according to the size of the material; the manufacturing is simple, the cost is low, and the market prospect is good; the automatic cutting machine integrates automatic conveying of the hydraulic hose and automatic cutting, can adapt to most sizes, and is reliable in structure, firm and durable.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of a discharging mechanism of the present invention;

fig. 3 is a schematic structural view of the feeding mechanism of the present invention;

FIG. 4 is a schematic structural view of the cutting mechanism of the present invention;

fig. 5 is a pneumatic schematic diagram of the present invention.

In the figure: 1. the device comprises a material discharging mechanism, 1-1 parts of a fixed column, 1-2 parts of a turntable, 1-3 parts of a base; 2. 2-1 parts of a feeding mechanism, 2-2 parts of a stretching gas claw, 2-3 parts of a support, 2-4 parts of a sliding table, 2-5 parts of a screw rod nut mechanism, 2-6 parts of a stepping motor, 2-7 parts of a clamping gas claw, 2-8 parts of a support and a feeding workbench; 3. 3-1 parts of cutting mechanism, 3-2 parts of cutting mechanism frame, 3-3 parts of shaft, 3-3 parts of cutting blade, 3-4 parts of belt wheel I, 3-5 parts of clamping seat, 3-6 parts of belt wheel II, 3-7 parts of asynchronous motor I, 3-8 parts of screw rod lifting mechanism, 3-9 parts of protective sleeve, 3-10 parts of stepping motor II, 3-11 parts of worm, 3-12 parts of turbine, 3-13 parts of rack II, 3-14 parts of gear II, 3-15 parts of stepping motor III, 3-16 parts of supporting column, 3-17 parts of sliding plate, 3-18 parts of workbench, 4 parts of pneumatic system, 4-1 parts of air source, 4-2 parts of sliding plate, 4-3 parts of valve, 4-4 parts of pressure gauge, 4-4 parts of pneumatic triple piece, 4-5 parts of throttle valve I, 4-6 parts of throttle valve, The pneumatic control valve comprises a two-position five-way electromagnetic valve 4-7, a throttle valve II, 4-8, a pneumatic claw cylinder 4-9, a pressure reducing valve 4-10, a two-position five-way electromagnetic valve I, 4-11, a throttle valve III, 4-12 and a grasping cylinder.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clear, the present invention is further described in detail through the accompanying drawings and embodiments. It should be understood, however, that the description herein of specific embodiments is only intended to illustrate the invention and not to limit the scope of the invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the terms used herein in the specification of the present invention are for the purpose of describing particular embodiments only and are not intended to limit the present invention.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, a hose feeding and cutting machine includes a discharging mechanism 1, a feeding mechanism 2 and a cutting mechanism 3; the discharging mechanism 1 comprises a fixed column 1-1, a rotary table 1-2 and a base 1-3; the fixed column 1-1 is fixedly connected above the rotary table 1-2; the rotary table 1-2 is connected with the base 1-3, and the hydraulic hose is sleeved on the fixing column 1-1 of the rotary table 1-2;

the feeding mechanism 2 comprises a stretching pneumatic claw 2-1, a support 2-2, a sliding table 2-3, a screw and nut mechanism 2-4, a stepping motor 2-5, a grasping pneumatic claw 2-6, a support I2-7 and a feeding workbench 2-8; the stretching gas claw 2-1 is fixed on one side of the bracket 2-2; the bracket 2-2 is fixedly connected to the sliding table 2-3; the sliding table 2-3 is fixedly connected with the screw nut mechanism 2-4; one side of the lead screw nut mechanism 2-4 is connected with a stepping motor 2-5; the lead screw nut mechanism 2-4 is connected to the feeding workbench 2-8; the feeding workbench 2-8 is provided with a first bracket 2-7 which is connected with a first clamping claw 2-6;

the cutting mechanism 3 consists of a cutting mechanism frame 3-1, a cutting part, a lifting mechanism and a gear rack mechanism; the cutting part consists of a shaft 3-2, a cutting blade 3-3, a belt wheel I3-4, a V belt, a belt wheel II 3-6 and an asynchronous motor I3-7; the cutting mechanism frame 3-1 is connected with a sliding plate 3-17; support columns 3-16 are fixed on the sliding plates 3-17; a workbench 3-18 is fixed on the support column 3-16; the cutting part is arranged on the workbench 3-18; one side of the workbench 3-18 is connected with a second stepping motor 3-10; a protective sleeve 3-9 is arranged on one side of the second stepping motor 3-10, one side of the second stepping motor 3-10 is connected with a worm 3-11, and the worm 3-11 is connected with a turbine 3-12; the worm wheel 3-12 is connected with a screw rod lifting mechanism 3-8; the working principle of the screw rod lifting mechanism 3-8 is that a second stepping motor 3-10 drives a worm 3-11 to rotate, and the worm 3-11 is meshed with a turbine 3-12 to drive a turbine 3-12 to rotate. The worm wheel 3-12 limits the vertical movement, and is internally provided with a screw rod lifting mechanism 3-8 which is meshed with the screw rod lifting mechanism and transmits power, so that the step motor II 3-10 rotates clockwise to drive the worm 3-11 to rotate clockwise, further drive the worm wheel 3-12 to rotate, and further realize the downward movement of the workbench 3-18 through thread meshing; and conversely, the second stepping motor 3-10 rotates reversely, and finally the workbench is lifted.

One side of the screw rod lifting mechanism 3-8 is positioned on the workbench 3-18 and is provided with an asynchronous motor I3-7; one end of the asynchronous motor I3-7 is connected with a belt wheel II 3-6; the other side of the second belt wheel 3-6 is connected with a first belt wheel 3-4; the type of the belt wheel II 3-6 and the belt wheel I3-4 is a V belt; the belt wheel I3-4 is connected to one end of the shaft 3-2; a cutting blade 3-3 is arranged on the shaft 3-2; the shaft 3-2 is connected to a clamping seat 3-5 fixed on the workbench 3-18; a stepping motor III 3-15 is arranged on the sliding plate 3-17 and the supporting column 3-16 on the same plane; the bottom of the stepping motor III 3-15 is connected with a gear II 3-14; the second gear 3-14 is meshed with a second rack 3-13; the second rack 3-13 is fixed on one side of the cutting mechanism frame 3-1; holes for connecting a third stepping motor 3-15 with a second gear 3-14 are formed in the sliding plates 3-17; the cutting blade 3-3 is arranged above the feeding workbench 2-8,

the stretching pneumatic claw 2-1 and the grasping pneumatic claw 2-6 are connected with a pneumatic system 4; the pneumatic system 4 is composed of an air source 4-1, a valve 4-2, a pressure gauge 4-3, a pneumatic triple piece 4-4, a first throttle valve 4-5, a two-position five-way electromagnetic valve 4-6, a second throttle valve 4-7, a pneumatic claw cylinder 4-8, a pressure reducing valve 4-9, a two-position five-way electromagnetic valve 4-10, a third throttle valve 4-11 and a grasping cylinder 4-12. The gas source 4-1 is connected with a valve 4-2; the valve 4-2 is connected with a pneumatic triple piece 4-4; one side of the pneumatic triple piece 4-4 is connected with a throttle valve 4-5; one side of the throttle valve I4-5 is connected with a pressure reducing valve 4-9; one side of the pressure reducing valve 4-9 is connected with a two-position five-way electromagnetic valve 4-6 and a two-position five-way electromagnetic valve I4-10 respectively; one side of the two-position five-way electromagnetic valve 4-6 is connected with a second throttle valve 4-7; one side of the throttle valve II 4-7 is connected with a gas claw cylinder 4-8; one side of the two-position five-way electromagnetic valve I4-10 is connected with a throttle valve III 4-11; one side of the throttle valve III 4-11 is connected with a grasping cylinder 4-12.

The working principle is as follows: the discharging mechanism 1 consists of a fixed column 1-1, a rotary table 1-2 and a base 1-3. The fixed column 1-1 is connected with the rotary table 1-2, and the hydraulic hose is sleeved on the fixed column 1-1. The turntable 1-2 is rotatable to ensure that the hydraulic hose is transported without too much resistance. The base 1-3 is used for supporting the whole discharging mechanism.

The feeding mechanism 2 is composed of a stretching gas claw 2-1, a support 2-2, a sliding table 2-3, a screw rod nut mechanism 2-4, a stepping motor 2-5, a grasping gas claw 2-6, a support I2-7, a feeding workbench 2-8 and the like. The device adopts a lead screw nut transmission mechanism 2-4 and realizes the stable conveying of the hose on a workbench 2-8 by the driving of a stepping motor 2-5. The lead screw nut transmission mechanism 2-4 moves to drive the bracket 2-2 on the sliding table 2-3 to move. The stretching air claw 2-1 is fixed on the bracket 2-2 and used for clamping the hose to move above the feeding part 2-8 of the workbench so as to realize the pulling-out operation of the hose. When the hose is pulled out to the set position, the grasping air claws 2-6 clamp the hose to tighten and fix the hose. At this time, the cutting mechanism 3 is operated to perform the hose cutting operation at the grooving position of the feeding table 2-8.

The cutting mechanism 3 consists of a cutting mechanism frame 3-1, a cutting part, a lifting mechanism and a gear rack mechanism. The cutting part consists of a shaft 3-2, a cutting blade 3-3, a first belt wheel 3-4, a clamping seat 3-5, a second belt wheel 3-6 and an asynchronous motor 3-7. The rotating motion of the cutting blade 3-3 is realized through a belt transmission system driven by the asynchronous motor I3-7, and preparation is made for cutting the hose. The lifting mechanism consists of a screw rod lifting mechanism 3-8, a protective sleeve 3-9, a stepping motor II 3-10, a rack 3-11, a turbine 3-12 and a support column 3-16; the support columns 3-16 and the lead screw lifting mechanisms 3-8 support the working tables 3-18 and the cutting mechanisms 3 thereon. The mechanism realizes the up-and-down movement of the workbench 3-18, further realizes the up-and-down movement of the cutting blade 3-3 and realizes the cutting operation of the hose. The gear rack mechanism is composed of a second gear rack 3-13, a second gear 3-14, a third stepping motor 3-15 and a sliding plate 3-17. The gear 3-14 II is driven to rotate through a coupling, a shaft and a key system connected with the stepping motor III 3-15, and the sliding motion of the sliding plate 3-17 is realized through the meshing transmission of the gear II 3-14 and the rack II 3-13.

The motion sequence of the device is as follows: the asynchronous motors I3-7 run all the time to drive the cutting mechanism 3 to move, and then the cutting cycle is operated. The stretching air claw 2-1 clamps a hose, the grasping air claw 2-6 loosens the stepping motor 2-5 to move to a specified position according to program setting, the hose is stretched to a set length, the grasping air claw 2-6 tightens the cutting mechanism, a gear rack mechanism of the cutting mechanism is driven to move, the cutting blade 3-3 is driven to be positioned above the hose, the lifting mechanism of the cutting mechanism drives the cutting blade 3-3 to do hose cutting operation downwards, the lifting mechanism of the cutting mechanism drives the cutting blade 3-3 to return upwards, the gear rack mechanism of the cutting mechanism 3 returns upwards, the cut hose is drawn out, and the stretching air claw 2-1 clamps the return to perform next section of hose cutting operation.

The pneumatic system 4 is adopted to perform tightening and opening operations by stretching the pneumatic claws 2-1 and gripping the pneumatic claws 2-6. The pneumatic system 4 is composed of an air source 4-1, a valve 4-2, a pressure gauge 4-3, a pneumatic triple piece 4-4, a throttle valve 4-5, a two-position five-way electromagnetic valve 4-6, a throttle valve 4-7, a pneumatic claw cylinder 4-8, a pressure reducing valve 4-9, a two-position five-way electromagnetic valve one 4-10, a throttle valve 4-11 and a grasping cylinder 4-12. A piston rod of the air claw cylinder 4-8 extends out, and the air claw 2-1 is stretched to clamp; the piston rods of the grasping cylinders 4-12 extend out, and the grasping gas claws 2-6 clamp; otherwise, the corresponding pneumatic claw is released.

The motion sequence of the device is as follows: the asynchronous motor 3-7 operates all the time by pressing the start button, drives the cutting mechanism 3 to move, and then performs the cutting cycle operation. Pressing an automatic cutting button, electrifying a two-position five-way electromagnetic valve I4-10 electromagnet 2YA, extending a piston rod of an air claw cylinder 4-12, and tightly grasping an air claw 2-6 for clamping; the time relay delay controls the two-position five-way electromagnetic valve 4-6 electromagnet 1YA to be electrified, the piston rod of the air claw cylinder 4-8 extends out, and the air claw clamp 2-1 is stretched to hold the hose; at the moment, the two-position five-way electromagnetic valve I4-10 electromagnet 2YA loses power, the piston rod of the air claw cylinder 4-12 retracts, and the grasping air claw 2-6 is loosened. Delaying for a few seconds, the stepping motor 2-5 operates to drive the stretching air claw 2-1 to move to a designated position set by a program, at the moment, the two-position five-way electromagnetic valve I4-10 electromagnet 2YA is electrified, the piston rod of the air claw cylinder 4-12 extends out, and the air claw 2-6 is tightly clamped. Then the gear rack mechanism of the cutting mechanism 3 moves to drive the cutting blade 3-3 to be positioned above the hose; then the lifting mechanism of the cutting mechanism 3 drives the cutting blade 3-3 to do hose cutting operation downwards. After the cutting operation is finished, the two-position five-way electromagnetic valve 4-6 electromagnet 1YA is de-energized, the piston rod of the air claw cylinder 4-8 retracts, and the stretching air claw 2-1 is stretched. At the moment, the lifting mechanism of the cutting mechanism 3 drives the cutting blade 3-3 to return upwards to the original point, meanwhile, the gear rack mechanism of the cutting mechanism 3 returns to the original point, and meanwhile, the stepping motor 2-5 operates to drive the stretching gas claw 2-1 to move to the return of the program setting to the original point. And circulating the next section of hose cutting operation.

When a stop button is pressed, the cutting operation is stopped, the asynchronous motor 3-7 stops running, the lifting mechanism of the cutting mechanism drives the cutting blade 3-3 to return upwards to the original point, the gear rack mechanism of the cutting mechanism returns to the original point, the stepping motor 2-5 runs at the same time, the stretching air claw 2-1 is driven to move to the return of the program set to the original point, and the system stops. When the emergency stop button is pressed, the whole mechanism of the system stops running immediately.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the present invention.

Claims (2)

1. A hose feeding cutting machine is characterized by comprising a feeding mechanism (1), a feeding mechanism (2) and a cutting mechanism (3); the discharging mechanism (1) comprises a fixed column (1-1), a rotary table (1-2) and a base (1-3); the fixed column (1-1) is fixedly connected above the turntable (1-2); the rotary table (1-2) is connected with the base (1-3), and the hydraulic hose is sleeved on the fixing column (1-1) of the rotary table (1-2);

the feeding mechanism (2) comprises a stretching pneumatic claw (2-1), a support (2-2), a sliding table (2-3), a screw rod nut mechanism (2-4), a stepping motor (2-5), a grasping pneumatic claw (2-6), a support I (2-7) and a feeding workbench (2-8); the stretching gas claw (2-1) is fixed on one side of the bracket (2-2); the bracket (2-2) is fixedly connected to the sliding table (2-3); the sliding table (2-3) is fixedly connected with the screw nut mechanism (2-4); one side of the screw rod nut mechanism (2-4) is connected with a stepping motor (2-5); the screw rod nut mechanism (2-4) is connected to the feeding workbench (2-8); the feeding workbench (2-8) is provided with a first bracket (2-7) which is connected with a clamping air claw (2-6);

the cutting mechanism (3) consists of a cutting mechanism frame (3-1), a cutting part, a lifting mechanism and a gear rack mechanism; the cutting part consists of a shaft (3-2), a cutting blade (3-3), a first belt wheel (3-4), a V belt, a second belt wheel (3-6) and a first asynchronous motor (3-7); a sliding plate (3-17) is connected to the cutting mechanism frame (3-1); the sliding plate (3-17) is fixedly provided with a support column (3-16); a workbench (3-18) is fixed on the support column (3-16); the cutting part is arranged on the working table (3-18); one side of the workbench (3-18) is connected with a second stepping motor (3-10); one side of the second stepping motor (3-10) is provided with a protective sleeve (3-9), one side of the second stepping motor (3-10) is connected with a worm (3-11), and the worm (3-11) is connected with a turbine (3-12); the worm wheel (3-12) is connected with a screw rod lifting mechanism (3-8);

one side of the screw rod lifting mechanism (3-8) is positioned on the workbench (3-18) and is provided with a first asynchronous motor (3-7); one end of the asynchronous motor I (3-7) is connected with a belt wheel II (3-6); the other side of the second belt wheel (3-6) is connected with a first belt wheel (3-4); the type of the second belt wheel (3-6) and the first belt wheel (3-4) is a V belt; the first belt wheel (3-4) is connected to one end of the shaft (3-2); a cutting blade (3-3) is arranged on the shaft (3-2); the shaft (3-2) is connected to a clamping seat (3-5) fixed on the workbench (3-18); a third stepping motor (3-15) is arranged on the sliding plate (3-17) and the supporting column (3-16) on the same plane; the bottom of the stepping motor III (3-15) is connected with a gear II (3-14); the second gear (3-14) is meshed with a second rack (3-13); the second rack (3-13) is fixed on one side of the cutting mechanism rack (3-1); holes for connecting a third stepping motor (3-15) with a second gear (3-14) are formed in the sliding plates (3-17); the cutting blade (3-3) is arranged above the feeding workbench (2-8),

the discharging mechanism (1) is positioned on the extending outer side of the feeding workbench (2-8) of the feeding mechanism (2) and is independently placed, and the position can be adjusted to a certain extent according to the types of different hoses to be cut.

2. A hose fed cutting machine according to claim 1, characterized in that the stretching claws (2-1) and the gripping claws (2-6) are connected with a pneumatic system (4); the pneumatic system (4) consists of an air source (4-1), a valve (4-2), a pressure gauge (4-3), a pneumatic triple piece (4-4), a first throttle valve (4-5), a two-position five-way electromagnetic valve (4-6), a second throttle valve (4-7), a pneumatic claw cylinder (4-8), a pressure reducing valve (4-9), a first two-position five-way electromagnetic valve (4-10), a third throttle valve (4-11) and a grasping cylinder (4-12); the gas source (4-1) is connected with a valve (4-2); the valve (4-2) is connected with a pneumatic triple piece (4-4); one side of the pneumatic triple piece (4-4) is connected with a first throttle valve (4-5); one side of the throttle valve I (4-5) is connected with a pressure reducing valve (4-9); one side of the pressure reducing valve (4-9) is connected with a two-position five-way electromagnetic valve (4-6) and a two-position five-way electromagnetic valve I (4-10) respectively; one side of the two-position five-way electromagnetic valve (4-6) is connected with a second throttle valve (4-7); one side of the throttle valve II (4-7) is connected with a gas claw cylinder (4-8); one side of the two-position five-way electromagnetic valve I (4-10) is connected with a throttle valve III (4-11); one side of the throttle valve III (4-11) is connected with a grasping cylinder (4-12).

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