CN216586713U - Non-solid-state pollution source recycling and transferring device - Google Patents

Abstract

The utility model discloses a non-solid pollution source recycling and transferring device, which belongs to the technical field of engineering machinery and mainly comprises an axle, a frame, a carriage lifting oil cylinder, a working platform, a frame supporting oil cylinder, a hydraulic steering driving system, an operating system, a hydraulic station, a main support arm lifting oil cylinder, an auxiliary support arm overturning oil cylinder, an auxiliary support arm, a grab bucket overturning oil cylinder, a grab bucket opening and closing oil cylinder, a grab bucket, a carriage and a towing hook, wherein all the parts work in a cooperative manner; the power system adopts a hydraulic design, so that the running stability of the whole system is improved, and the structural design is compact; the grab bucket adopts a split design, so that the grabbing precision is improved, pollutants are grabbed more easily, and the working efficiency is greatly improved; the whole device can be operated by only one person, so that the labor cost is greatly reduced; in the aspect of structural design, parts of each part are simple and clear in structure, and maintenance management and maintenance are facilitated.

Description

Non-solid-state pollution source recycling and transferring device

Technical Field

The utility model relates to the technical field of engineering machinery, in particular to a non-solid pollution source recycling and transferring device.

Background

In the process of crude oil extraction and production under various similar working conditions, most of non-solid pollution sources exist in a construction site, and the pollution sources need to be cleaned and then conveniently operated, so that the pollution sources are high in viscosity and high in treatment difficulty. The traditional treatment process needs multiple combined operation of engineering machines, the operation is complex, the working efficiency is low, the matching difficulty of multiple machines in the operation process is high, the power consumption is high, and the labor cost is high.

SUMMERY OF THE UTILITY MODEL

In view of the problems in the prior art, the utility model aims to provide a non-solid pollution source recycling and transferring device, which is used for solving the technical problems that the traditional non-solid pollution source is complex in operation and low in working efficiency in the recycling and transferring process, multiple machines are difficult to cooperate in the operation process, the power consumption is high, the labor cost is high and the like, in order to improve the non-solid pollution source recycling and transferring efficiency, simplify the design structure, improve the working efficiency, more simply and conveniently complete the recycling and transferring work and obtain good construction working conditions.

In order to achieve the purpose, the utility model adopts the following technical scheme: a non-solid pollution source recycling and transferring device comprises axles, frames, carriage lifting oil cylinders, a working platform, a hydraulic steering driving system, an operating system and carriages, wherein the axles are connected with the frames, the number of the axles is two, and wheels are mounted at two ends of each axle; the working platform is fixedly connected to the frame through bolts; the cylinder barrel of the carriage lifting oil cylinder is connected to the frame through a hinge, and the end part of a piston rod of the carriage lifting oil cylinder is connected to the bottom of the carriage through a hinge; the hydraulic steering driving system comprises a fixed gear, a hydraulic driving turntable, a hydraulic motor, a speed reducer and a driving pinion, wherein the fixed gear is fixed on the frame through a bolt; the hydraulic driving turntable is arranged above the fixed gear and is coaxially and rotatably connected with the fixed gear; the output shaft of the hydraulic motor is connected with the input end of the speed reducer through a coupler; the speed reducer is fixed on the hydraulic drive turntable; the driving pinion is arranged on an output shaft of the speed reducer and is in meshed connection with the fixed gear; the operating system is fixedly connected to the top of the hydraulic drive turntable through a bolt; one side of the carriage is connected with the frame through a hinge; the method is characterized in that: the hydraulic lifting device also comprises a frame supporting oil cylinder, a hydraulic station, a main supporting arm lifting oil cylinder, an auxiliary supporting arm overturning oil cylinder, an auxiliary supporting arm, a grab bucket overturning oil cylinder, a grab bucket opening and closing oil cylinder and a grab bucket; the operating system comprises a multi-way reversing valve, a carriage lifting oil cylinder operating rod, a turntable operating rod, a main support arm lifting oil cylinder operating rod, an auxiliary support arm overturning oil cylinder operating rod, a grab bucket opening and closing oil cylinder operating rod and a frame supporting oil cylinder operating rod, wherein a P port of the multi-way reversing valve is connected with a hydraulic station through an oil inlet, a T port of the multi-way reversing valve is communicated with the hydraulic station through an oil return path, a working port of the multi-way reversing valve is respectively connected with the carriage lifting oil cylinder, the frame supporting oil cylinder, the main support arm lifting oil cylinder, the auxiliary support arm overturning oil cylinder, the grab bucket opening and closing oil cylinder and a hydraulic motor, the carriage lifting oil cylinder operating rod, the turntable operating rod, the main support arm lifting oil cylinder operating rod, the auxiliary support arm overturning oil cylinder operating rod, the grab bucket opening and the frame supporting oil cylinder operating rod are respectively connected with the multi-way reversing valve, and respectively controlling the on-off of one oil way in the multi-way reversing valve; the end part of a piston rod of the frame supporting oil cylinder is connected to the frame through a hinge, and a cylinder barrel of the frame supporting oil cylinder is connected to the fixing plate through a hinge; the lower end of the main support arm is connected to the top of the hydraulic drive turntable through a hinge, the middle of the main support arm is connected with the end part of a piston rod of the main support arm lifting oil cylinder through a hinge, and the upper end of the main support arm is connected with the middle of the auxiliary support arm through a hinge; a cylinder barrel of the main supporting arm lifting oil cylinder is connected to the top of the hydraulic driving turntable through a hinge; the cylinder barrel of the auxiliary support arm overturning oil cylinder is connected to the middle upper part of the main support arm through a hinge, and the end part of a piston rod of the auxiliary support arm overturning oil cylinder is connected to the upper end of the auxiliary support arm through a hinge; the lower end of the auxiliary support arm is connected with the grab bucket through a hinge; the cylinder barrel of the grab bucket overturning oil cylinder is connected with the middle part of the auxiliary support arm through a hinge, and the end part of a piston rod of the grab bucket overturning oil cylinder is connected with the grab bucket through a hinge; the grab bucket is of a two-half split structure and is formed by symmetrically combining two half shells, one sides of the two half shells are hinged with each other through hinges to form a hinged part, the other sides of the two half shells are deviated from each other to form an opening part, and the two half shells are respectively a first half shell and a second half shell; the grab bucket opening and closing oil cylinder is located between the two half shells, a cylinder barrel of the grab bucket opening and closing oil cylinder is connected to the first half shell through a hinge, and the end part of a piston rod of the grab bucket opening and closing oil cylinder is connected to the second half shell through a hinge.

Furthermore, the hydraulic station is connected to the top of the frame through a bolt, the hydraulic station comprises an oil inlet pipe, a hydraulic oil tank, a gear pump driving motor, an oil outlet pipe and a radiator, the oil inlet pipe is connected to the hydraulic oil tank through a pipe clamp, and meanwhile, the oil inlet pipe is connected with the multi-way reversing valve; the hydraulic oil tank is connected to the frame through a bolt; the gear pump is communicated with the hydraulic oil tank through a pipeline; an output shaft of the gear pump driving motor is connected with a driving shaft of the gear pump; the radiator is connected to the hydraulic oil tank through a bolt, one end of the radiator is connected with the hydraulic oil tank through an oil outlet pipe, and the other end of the radiator is connected with the multi-way reversing valve through the oil outlet pipe.

Further, transfer device is retrieved to non-solid state pollution source, its characterized in that: the foldable seat is connected to the middle position of the top of the hydraulic drive turntable through a bolt.

Furthermore, the multi-way reversing valve is connected to the top of the hydraulic drive turntable through a bolt.

Furthermore, the frame is connected with a towing hook through a bolt.

Through the design scheme, the utility model can bring the following beneficial effects: according to the non-solid pollution source recycling and transferring device, the power system is designed hydraulically, so that the running stability of the whole system is improved, and the structural design is compact; the grab bucket adopts a split design, so that the grabbing precision is improved, pollutants are easier to grab, and the working efficiency is greatly improved; the whole device can be operated by only one person, so that the labor cost is greatly reduced; parts of the structural design are simple and clear in structure, and maintenance management and maintenance are facilitated.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the utility model and together with the description serve to explain the utility model without limiting the utility model to the right, and in which:

FIG. 1 is a schematic structural diagram of a non-solid pollution source recycling and transferring device;

FIG. 2 is a front view of an assembly of a grab bucket and a grab bucket opening and closing oil cylinder in the non-solid pollution source recycling and transferring device;

FIG. 3 is a side view of an assembly of a grab bucket and a grab bucket opening and closing cylinder in the non-solid pollution source recycling and transferring device;

fig. 4 is a matching diagram of a grab bucket and a grab bucket opening and closing oil cylinder in the non-solid pollution source recycling and transferring device in the embodiment when the grab bucket is in an open state;

FIG. 5 is a partial enlarged view of the non-solid pollution source recycling and transferring device;

FIG. 6 is a schematic structural diagram of a frame in the non-solid pollution source recycling and transferring device;

FIG. 7 is a schematic structural diagram of an operating system in the non-solid pollution source recycling and transferring device;

FIG. 8 is a schematic structural diagram of a hydraulic station in the non-solid pollution source recycling and transferring device.

The respective symbols in the figure are as follows: 1-vehicle axle, 2-vehicle frame, 3-vehicle lifting cylinder, 4-working platform, 5-vehicle frame supporting cylinder, 6-fixed gear, 7-hydraulic driving turntable, 8-hydraulic steering driving system, 9-operating system, 10-hydraulic station, 11-main support arm, 12-main support arm lifting cylinder, 13-auxiliary support arm overturning cylinder, 14-auxiliary support arm, 15-grab bucket overturning cylinder, 16-grab bucket opening and closing cylinder, 17-grab bucket, 18-vehicle carriage, 19-towing hook, 20-hydraulic motor, 21-speed reducer, 22-driving pinion, 23-folding seat, 24-multi-way reversing valve, 25-turntable operating rod, 26-main support arm lifting cylinder operating rod, 27-auxiliary support arm overturning cylinder operating rod, 28-a grab bucket overturning oil cylinder operating rod, 29-a grab bucket opening and closing oil cylinder operating rod, 30-a frame supporting oil cylinder operating rod, 31-an oil inlet pipe, 32-a hydraulic oil tank, 33-a gear pump, 34-a gear pump driving motor, 35-an oil outlet pipe and 36-a radiator.

Detailed Description

The present invention is not limited by the following examples, and specific embodiments may be determined according to the technical solutions and practical situations of the present invention.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8, a non-solid pollution source recycling and transferring device comprises an axle 1, a frame 2, a carriage lifting cylinder 3, a working platform 4, a frame supporting cylinder 5, a hydraulic steering driving system 8, an operating system 9, a hydraulic station 10, a main support arm 11, a main support arm lifting cylinder 12, a secondary support arm overturning cylinder 13, a secondary support arm 14, a grab bucket overturning cylinder 15, a grab bucket opening and closing cylinder 16, a grab bucket 17, a carriage 18, a towing hook 19 and a folding seat 23.

The vehicle axles 1 are connected with the vehicle frame 2, the number of the vehicle axles 1 is two, and wheels are mounted at two ends of each vehicle axle 1; the working platform 4 is fixedly connected to the frame 2 through bolts, and the working platform 4 is used for bearing a hydraulic steering driving system 8, an operating system 9, a hydraulic station 10 and a folding seat 23; the hydraulic steering driving system 8 comprises a fixed gear 6, a hydraulic driving turntable 7, a hydraulic motor 20, a speed reducer 21 and a driving pinion 22, wherein the fixed gear 6 is fixed on the frame 2 through bolts; the hydraulic driving turntable 7 is arranged above the fixed gear 6, and the hydraulic driving turntable 7 is coaxially and rotatably connected with the fixed gear 6; the output shaft of the hydraulic motor 20 is connected with the input end of the speed reducer 21 through a coupling; the speed reducer 21 is fixed on the hydraulic drive turntable 7; the driving pinion 22 is arranged on an output shaft of the speed reducer 21, and the driving pinion 22 is in meshed connection with the fixed gear 6; after the hydraulic station 10 works, an operator pushes the turntable operating rod 25, at the moment, the working port of the multi-way reversing valve 24 is connected with the hydraulic motor 20, hydraulic oil is filled into the hydraulic motor 20 to drive the hydraulic motor 20 to rotate so as to drive the driving pinion 22 to rotate, the fixed gear 6 is fixed on the frame 2, the fixed gear 6 is fixed, the driving pinion 22 is meshed with the fixed gear 6, the fixed gear 6 equivalently provides a fixed track for the driving pinion 22 to move, the driving pinion 22 moves around the fixed gear 6, and then the driving pinion 22 and the reducer 21 integrally drive the hydraulic driving turntable 7 to synchronously rotate; the operating system 9 is fixedly connected to the top of the hydraulic drive turntable 7 through bolts, the operating system 9 comprises a multi-way directional valve 24, a carriage lifting oil cylinder operating rod, a turntable operating rod 25, a main support arm lifting oil cylinder operating rod 26, an auxiliary support arm overturning oil cylinder operating rod 27, a grab bucket overturning oil cylinder operating rod 28, a grab bucket opening and closing oil cylinder operating rod 29 and a frame supporting oil cylinder operating rod 30, a P port of the multi-way directional valve 24 is connected with the hydraulic station 10 through an oil inlet, a T port of the multi-way directional valve 24 is communicated with the hydraulic station 10 through an oil return path, working ports of the multi-way directional valve 24 are respectively connected with the carriage lifting oil cylinder 3, the frame supporting oil cylinder 5, the main support arm lifting oil cylinder 12, the auxiliary overturning support arm oil cylinder 13, the grab bucket overturning oil cylinder 15, the grab bucket opening and closing oil cylinder 16 and the hydraulic motor 20, the carriage lifting oil cylinder operating rod, the turntable operating rod 25 and the main support arm lifting oil cylinder operating rod 26, The auxiliary support arm overturning oil cylinder operating rod 27, the grab bucket overturning oil cylinder operating rod 28, the grab bucket opening and closing oil cylinder operating rod 29 and the frame supporting oil cylinder operating rod 30 are respectively connected with the multi-way directional valve 24 and respectively control the on-off of one oil way in the multi-way directional valve 24; the carriage lifting oil cylinder 3 is controlled by an operating rod of the carriage lifting oil cylinder to extend to drive the carriage 18 to obliquely discharge non-solid pollution sources, or the carriage lifting oil cylinder 3 is controlled to retract, and the carriage 18 returns to the horizontal position; the hydraulic drive turntable 7 is controlled to rotate clockwise or anticlockwise by pushing up or pressing down the turntable operating lever 25; pushing up or pressing down the master boom lift cylinder lever 26 controls the extension or retraction of the master boom lift cylinder 12 to control the movement state of the master boom 11; the operating rod 27 of the push-up or push-down auxiliary support arm overturning oil cylinder controls the extension or retraction of the auxiliary support arm overturning oil cylinder 13 so as to control the motion state of the auxiliary support arm 14; pushing up or pressing down the grapple dump cylinder operating lever 28 controls the extending or retracting of the grapple dump cylinder 15 to control the motion state of the grapple 17; the grab bucket opening and closing oil cylinder operating rod 29 is pushed up or pressed down to control the stretching out or retracting of the grab bucket opening and closing oil cylinder 16 so as to control the opening and closing action of the grab bucket 17; the push-up or push-down frame support cylinder operating lever 30 controls the extension or retraction of the frame support cylinder 5 to control the support state of the frame support cylinder 5.

The hydraulic station 10 is connected to the top of the frame 2 through a bolt, the hydraulic station 10 comprises an oil inlet pipe 31, a hydraulic oil tank 32, a gear pump 33, a gear pump driving motor 34, an oil outlet pipe 35 and a radiator 36, the oil inlet pipe 31 is connected to the hydraulic oil tank 32 through a pipe clamp, and meanwhile, the oil inlet pipe 31 is connected with the multi-way reversing valve 24; the hydraulic oil tank 32 is connected to the frame 2 through bolts; the gear pump 33 is communicated with the hydraulic oil tank 32 through a pipeline; an output shaft of the gear pump driving motor 34 is connected with a driving shaft of the gear pump 33; the radiator 36 passes through bolted connection on hydraulic tank 32, the one end of radiator 36 is passed through oil pipe 35 and is connected with hydraulic tank 32, the other end of radiator 36 passes through oil pipe 35 and is connected with multichannel switching valve 24, hydraulic pressure station 10 is as the hydraulic power source, provide hydraulic system power, open gear pump 33, two gears relative action rotations are followed oil pipe 35 with hydraulic oil in the gear pump 33 and are extruded, hydraulic oil gets into from the P mouth of multichannel switching valve 24, the T mouth flows out, then get back to hydraulic tank 32 through advancing oil pipe 31 and form main hydraulic circuit. The hydraulic system executive component is a hydraulic steering driving system 8 and each action hydraulic oil cylinder, each action hydraulic oil cylinder is a carriage lifting oil cylinder 3, a frame supporting oil cylinder 5, a main support arm lifting oil cylinder 12, an auxiliary support arm overturning oil cylinder 13, a grab bucket overturning oil cylinder 15 and a grab bucket opening and closing oil cylinder 16, the oil inlet and outlet of the hydraulic system executive component are connected with each AB channel on the multi-way reversing valve 24 through hydraulic oil pipes, and each channel is provided with an oil inlet pipeline and an oil return pipeline to form the channel control hydraulic loop. By pushing up or pressing down and operating each control handle on the multi-way reversing valve 24 through a middle vacant position, wherein the control handles are the carriage lifting cylinder operating rod, the turntable operating rod 25, the main support arm lifting cylinder operating rod 26, the auxiliary support arm overturning cylinder operating rod 27, the grab bucket overturning cylinder operating rod 28, the grab bucket opening and closing cylinder operating rod 29 and the frame supporting cylinder operating rod 30, the valve core of each control loop moves up and down and stops in the multi-way reversing valve 24, and then the reversing and stopping operation of the hydraulic loop is completed, so that the motion of each executing element is controlled. The hydraulic oil flows through the radiator 36 in the flowing process, and the radiator 36 can cool the hydraulic oil, so that the effect of the hydraulic oil is prevented from being influenced by overhigh temperature.

The multi-way reversing valve 24 is connected to the top of the hydraulic drive turntable 7 through a bolt and is opposite to the folding seat 23, when a driver operates the multi-way reversing valve, the folding seat 23 is opened, and the driver sits on the folding seat 23 to operate the multi-way reversing valve 24 to complete various actions.

The cylinder barrel of the carriage lifting oil cylinder 3 is connected to the frame 2 through a hinge, the end part of a piston rod of the carriage lifting oil cylinder 3 is connected to the bottom of a carriage 18 through a hinge, and the carriage lifting oil cylinder 3 is used for lifting and discharging the carriage 18; the end part of a piston rod of the frame supporting oil cylinder 5 is connected to the frame 2 through a hinge, a cylinder barrel of the frame supporting oil cylinder 5 is connected to the fixing plate through a hinge, and the frame supporting oil cylinder 5 is used for stably supporting the frame 2 on the ground; the lower end of the main support arm 11 is connected to the top of the hydraulic drive turntable 7 through a hinge, the middle of the main support arm 11 is connected with the end part of a piston rod of the main support arm lifting oil cylinder 12 through a hinge, and the upper end of the main support arm 11 is connected with the middle of the auxiliary support arm 14 through a hinge; the cylinder barrel of the main supporting arm lifting oil cylinder 12 is connected to the top of the hydraulic driving turntable 7 through a hinge; the cylinder barrel of the auxiliary support arm overturning oil cylinder 13 is connected to the middle upper part of the main support arm 11 through a hinge, and the end part of the piston rod of the auxiliary support arm overturning oil cylinder 13 is connected to the upper end of the auxiliary support arm 14 through a hinge; the lower end of the auxiliary support arm 14 is connected with the grab bucket 17 through a hinge; the cylinder barrel of the grab bucket overturning oil cylinder 15 is connected with the middle part of the auxiliary support arm 14 through a hinge, and the end part of the piston rod of the grab bucket overturning oil cylinder 15 is connected with the grab bucket 17 through a hinge; the grab bucket 17 is of a two-half split structure, the grab bucket 17 is formed by symmetrically combining two half shells, one sides of the two half shells are hinged with each other through hinges to form a hinge part, the other sides of the two half shells are deviated from each other to form an opening part, and the two half shells are respectively a first half shell and a second half shell; the two half shells are hinged through a hinge, the grab bucket opening and closing oil cylinder 16 is positioned between the two half shells, a cylinder barrel of the grab bucket opening and closing oil cylinder 16 is connected to the first half shell through the hinge, and the end part of a piston rod of the grab bucket opening and closing oil cylinder 16 is connected to the second half shell through the hinge; one side of the carriage 18 is connected with the frame 2 through a hinge; the tow hook 19 is bolted to the frame 2.

The folding seat 23 is connected to the middle position of the top of the hydraulic drive turntable 7 through a bolt, and is a driving position of an operator.

When the device is operated, firstly, the tractor pulls the non-solid pollution source recycling and transferring device to an operation point through the towing hook 19, the gear pump driving motor 34 is started, the gear pump driving motor 34 drives the gear pump 33 to operate, so that hydraulic oil enters the oil outlet pipe 35 through the radiator 36 to provide high-pressure oil for the whole hydraulic system, and the next action operation is started after the hydraulic system is preheated and stably operated. The frame support oil cylinder 5 extends out through the upper cart frame support oil cylinder control lever 30 to firmly support the frame 2 on the ground, the hydraulic drive rotary disc 7 is controlled by the upper push or lower push rotary disc control lever 25 to rotate clockwise or anticlockwise to change direction so as to enable the main support arm 11 to rotate in the circumferential direction to align with a non-solid pollution source to be grabbed, the main support arm lifting oil cylinder 12 is controlled by the upper push or lower push main support arm lifting oil cylinder control lever 26, the auxiliary support arm overturning oil cylinder 13 is controlled by the upper push or lower push auxiliary support arm overturning oil cylinder control lever 27 to control the up-down shape of the main support arm 11 and the auxiliary support arm 14, the grab bucket overturning oil cylinder control lever 28 is controlled by the upper push or lower push grab bucket overturning oil cylinder control lever 28 to control the expansion of the grab bucket overturning oil cylinder 15 to control the movement of the grab bucket 17 in the vertical circumferential direction, and the grab bucket opening and closing oil cylinder 16 is controlled by the upper push or lower push grab bucket opening and closing oil cylinder control lever 29 to control the expansion of the grab bucket 17 to grab and release the non-solid pollution source, the non-solid pollution source is captured and then placed into the carriage 18; after the carriage 18 is fully loaded, the traction equipment transfers the non-solid pollution source recycling and transferring device to a non-solid pollution source stacking point, the carriage lifting oil cylinder 3 is controlled to extend out to drive the carriage 18 to obliquely discharge non-solid pollution sources, the carriage lifting oil cylinder 3 is controlled to retract, the carriage 18 returns to the horizontal position, the next working process is continued, and the process is repeated.

Claims (5)

1. A non-solid pollution source recycling and transferring device comprises axles (1), frames (2), carriage lifting oil cylinders (3), a working platform (4), a hydraulic steering driving system (8), an operating system (9) and carriages (18), wherein the axles (1) are connected with the frames (2), the number of the axles (1) is two, and wheels are mounted at two ends of each axle (1); the working platform (4) is fixedly connected to the frame (2) through bolts; the cylinder barrel of the carriage lifting oil cylinder (3) is connected to the frame (2) through a hinge, and the end part of the piston rod of the carriage lifting oil cylinder (3) is connected to the bottom of the carriage (18) through a hinge; the hydraulic steering driving system (8) comprises a fixed gear (6), a hydraulic driving turntable (7), a hydraulic motor (20), a speed reducer (21) and a driving pinion (22), wherein the fixed gear (6) is fixed on the frame (2) through a bolt; the hydraulic driving turntable (7) is arranged above the fixed gear (6), and the hydraulic driving turntable (7) is coaxially and rotatably connected with the fixed gear (6); the output shaft of the hydraulic motor (20) is connected with the input end of the speed reducer (21) through a coupling; the speed reducer (21) is fixed on the hydraulic drive turntable (7); the driving pinion (22) is arranged on an output shaft of the speed reducer (21), and the driving pinion (22) is meshed with the fixed gear (6); the operating system (9) is fixedly connected to the top of the hydraulic drive turntable (7) through a bolt; one side of the carriage (18) is connected with the frame (2) through a hinge; the method is characterized in that: the hydraulic grab bucket lifting device is characterized by further comprising a frame supporting oil cylinder (5), a hydraulic station (10), a main support arm (11), a main support arm lifting oil cylinder (12), an auxiliary support arm overturning oil cylinder (13), an auxiliary support arm (14), a grab bucket overturning oil cylinder (15), a grab bucket opening and closing oil cylinder (16) and a grab bucket (17); the operating system (9) comprises a multi-way directional valve (24), a carriage lifting oil cylinder operating rod, a turntable operating rod (25), a main support arm lifting oil cylinder operating rod (26), an auxiliary support arm overturning oil cylinder operating rod (27), a grab bucket overturning oil cylinder operating rod (28), a grab bucket opening and closing oil cylinder operating rod (29) and a frame supporting oil cylinder operating rod (30), a P port of the multi-way directional valve (24) is connected with a hydraulic station (10) through an oil inlet way, a T port of the multi-way directional valve (24) is communicated with the hydraulic station (10) through an oil return way, a working port of the multi-way directional valve (24) is respectively connected with the carriage lifting oil cylinder (3), the frame supporting oil cylinder (5), the main support arm lifting oil cylinder (12), the auxiliary support arm overturning oil cylinder (13), the grab bucket overturning oil cylinder (15), the grab bucket opening and closing oil cylinder (16) and the hydraulic motor (20), the carriage lifting oil cylinder operating rod, the turntable operating rod (25), A main support arm lifting oil cylinder operating lever (26), an auxiliary support arm overturning oil cylinder operating lever (27), a grab bucket overturning oil cylinder operating lever (28), a grab bucket opening and closing oil cylinder operating lever (29) and a frame supporting oil cylinder operating lever (30) are respectively connected with the multi-way reversing valve (24) and respectively control the on-off of one oil way in the multi-way reversing valve (24); the end part of a piston rod of the frame supporting oil cylinder (5) is connected to the frame (2) through a hinge, and a cylinder barrel of the frame supporting oil cylinder (5) is connected to the fixing plate through a hinge; the lower end of the main support arm (11) is connected to the top of the hydraulic drive turntable (7) through a hinge, the middle of the main support arm (11) is connected with the end part of a piston rod of the main support arm lifting oil cylinder (12) through a hinge, and the upper end of the main support arm (11) is connected with the middle of the auxiliary support arm (14) through a hinge; the cylinder barrel of the main support arm lifting oil cylinder (12) is connected to the top of the hydraulic drive turntable (7) through a hinge; the cylinder barrel of the auxiliary support arm overturning oil cylinder (13) is connected to the middle upper part of the main support arm (11) through a hinge, and the end part of a piston rod of the auxiliary support arm overturning oil cylinder (13) is connected to the upper end of the auxiliary support arm (14) through a hinge; the lower end of the auxiliary support arm (14) is connected with the grab bucket (17) through a hinge; the cylinder barrel of the grab bucket overturning oil cylinder (15) is connected with the middle part of the auxiliary support arm (14) through a hinge, and the end part of a piston rod of the grab bucket overturning oil cylinder (15) is connected with the grab bucket (17) through a hinge; the grab bucket (17) is of a two-half split structure, the grab bucket (17) is formed by symmetrically combining two half shells, one sides of the two half shells are hinged with each other through hinges to form a hinge part, the other sides of the two half shells are deviated from each other to form an opening part, and the two half shells are respectively a first half shell and a second half shell; the grab bucket opening and closing oil cylinder (16) is located between the two half shells, a cylinder barrel of the grab bucket opening and closing oil cylinder (16) is connected to the first half shell through a hinge, and the end part of a piston rod of the grab bucket opening and closing oil cylinder (16) is connected to the second half shell through a hinge.

2. The non-solid pollution source recycling and transferring device according to claim 1, wherein: the hydraulic station (10) is connected to the top of the frame (2) through a bolt, the hydraulic station (10) comprises an oil inlet pipe (31), a hydraulic oil tank (32), a gear pump (33), a gear pump driving motor (34), an oil outlet pipe (35) and a radiator (36), the oil inlet pipe (31) is connected to the hydraulic oil tank (32) through a pipe clamp, and meanwhile, the oil inlet pipe (31) is connected with the multi-way reversing valve (24); the hydraulic oil tank (32) is connected to the frame (2) through bolts; the gear pump (33) is communicated with the hydraulic oil tank (32) through a pipeline; the output shaft of the gear pump driving motor (34) is connected with the driving shaft of the gear pump (33); the radiator (36) is connected to the hydraulic oil tank (32) through a bolt, one end of the radiator (36) is connected with the hydraulic oil tank (32) through an oil outlet pipe (35), and the other end of the radiator (36) is connected with the multi-way reversing valve (24) through the oil outlet pipe (35).

3. The non-solid pollution source recycling and transferring device according to claim 1, wherein: the folding seat (23) is connected to the middle position of the top of the hydraulic drive turntable (7) through a bolt.

4. The non-solid pollution source recycling and transferring device according to claim 1, wherein: the multi-way reversing valve (24) is connected to the top of the hydraulic drive turntable (7) through a bolt.

5. The non-solid pollution source recycling and transferring device according to claim 1, wherein: the frame (2) is connected with a towing hook (19) through a bolt.

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