CN113826497A

CN113826497A - Branch crushing vehicle with conveying device and using method

Info

Publication number: CN113826497A
Application number: CN202110861162.4A
Authority: CN
Inventors: 汪成英; 张振东; 胡振球; 陈天妮; 黄东峰
Original assignee: Shanghai Shenzhou Vehicle Energy Saving &environmental Protection Co ltd
Current assignee: Shanghai Shenzhou Vehicle Energy Saving &environmental Protection Co ltd
Priority date: 2021-07-29
Filing date: 2021-07-29
Publication date: 2021-12-24
Anticipated expiration: 2041-07-29
Also published as: CN113826497B

Abstract

The invention relates to a branch crushing vehicle with a conveying device and a using method thereof, mainly comprising a chassis, an auxiliary frame, a box body, the conveying device and a crushing device, wherein the connecting mode is as follows: the sub vehicle frame with chassis fixed connection, the box is installed on the sub vehicle frame, conveyer installs on the box, reducing mechanism with sub vehicle frame fixed connection, conveyer are used for conveying the branch of eminence to the rubbing crusher, and the rubbing crusher smashes the branch and throws into in the box, collects branch conveying, smashes, transports and integrative, improves the operating efficiency, belongs to afforestation machinery and special vehicle field.

Description

Branch crushing vehicle with conveying device and using method

Technical Field

The invention relates to a branch crushing vehicle with a conveying device and a using method thereof, and belongs to the field of landscaping machinery and special vehicles.

Background

Along with the development of society, greening trees in cities increase year by year, street trees are regularly trimmed every year, the existing trimming of the street trees mainly depends on workers climbing onto the trees for trimming, trimmed branches are generally directly thrown onto the road surface, and then are cut and cut by workers according to requirements, and then are conveyed to a transport vehicle to be concentrated and transported to a branch treatment station for crushing treatment.

Disclosure of Invention

The invention mainly aims to solve the problems of potential safety hazards caused by falling of branches from high altitude when street trees are pruned, consumption of a large amount of manpower, material resources and financial resources due to road closing and traffic commanding when the street trees are pruned, and low transportation efficiency caused by centralized transportation of the branches to a branch treatment station for crushing by loading a vehicle by workers after the branches are thrown to a road surface.

The invention is realized by the following technical scheme

The utility model provides a branch crushing car with conveyer which characterized in that: including chassis, sub vehicle frame, box, conveyer, reducing mechanism, its connected mode is: the auxiliary frame is fixedly connected with the chassis, the box body is installed on the auxiliary frame, the conveying device is installed on the box body, and the crushing device is fixedly connected with the auxiliary frame.

Further, the sub vehicle frame includes sub vehicle frame main part, revolving bed, lifting device mount pad I, box lifting device, and its connected mode is: the auxiliary frame main body is fixedly connected with the rotary seat, the lifting device mounting seat I is fixedly connected with the auxiliary frame main body, and one end of the box body lifting device is mounted on the lifting device mounting seat I and movably connected with the lifting device mounting seat I.

Further, the box includes garrulous workbin, crushing case, and its connected mode is: the crushing box is movably connected with the rotary seat of the auxiliary frame, and the crushing box is fixedly connected with the auxiliary frame.

Further, crushed aggregates case includes box main part, lifting device mount pad II, side door, door opener, its connected mode: the box main part with lifting device mount pad II fixed connection, the side door with box main part swing joint, door opener one end with box main part swing joint, the door opener other end with side door swing joint, the door opener drive the side door is relative box main part luffing motion realizes the switch action of side door, its characterized in that still lies in: lifting device mount pad II with the box lifting device's of sub vehicle frame other end swing joint, box lifting device drive the shredded materials case is relative sub vehicle frame is to one side upset realization the function of unloading of shredded materials case.

When the box body lifting device lifts the crushed material box, the weight of crushed materials in the crushed material box acts on a pin shaft at the supporting end of the box body lifting device in a torque mode, namely the pin shaft sensor measures the force acting on the crushed materials, and the weight of the garbage is calculated through calibration; the upper measuring point position sensor is a garbage weight reading point, the lower measuring point position sensor is a garbage weight clearing point, measured data are transmitted to the cloud server in a wireless communication mode, and the data are displayed on the network platform or sent to the mobile terminal electronic equipment for displaying after being calculated and sorted.

Furthermore, the rear portion of the box body is further provided with a crushed material inlet, the lower portion of the box body is further provided with an air outlet, and a material baffle plate is further arranged inside the box body and is characterized in that the air outlet is arranged at the front portion of the box body, the material baffle plate is arranged at a position which is 10mm to 50mm behind the air outlet, and the height of the material baffle plate is 85% to 95% of the height of the box body.

Furthermore, crushing roof portion is provided with the feed inlet, crushing roof portion is provided with down the feed inlet, crushing roof portion is provided with the feed inlet down, crushing roof portion is provided with crushed aggregates export, its still characterized in that, feed inlet department is provided with supplementary feeding device down for realize automatic or semi-automatic feed, crushing device is provided with last feed inlet, lower feed inlet and discharge gate.

Furthermore, the conveying device comprises a rotating mechanism, a guide slideway and a lifting mechanism, wherein the lifting mechanism is fixedly connected to the rotating mechanism, and the guide slideway is movably connected with the lifting mechanism; the rotating mechanism comprises a slewing bearing, a driving gear, a bottom plate and a driving motor, and the connecting mode is as follows: the slewing bearing is installed on the bottom plate, the driving motor is installed on the bottom plate, the driving gear is installed on the driving motor, the driving gear is externally meshed with the slewing bearing, and the driving motor drives the slewing bearing to rotate through the driving gear; the direction slide is including first slide and second slide, the telescoping device that is used for guiding the branch landing, and its connected mode is: the second slideway is nested in the first slideway to form a sliding pair, and two ends of the telescopic device are respectively installed on the first slideway and the second slideway to drive the first slideway and the second slideway to slide relatively; the lifting mechanism comprises a lifting device and a support, and the connection mode is as follows: one end of the lifting device is mounted on the support to form movable connection, and the lifting device rotates relative to the support. The bottom plate is provided with an opening I for passing through branches and an opening II for mounting a driving motor, the shape of the opening I can be circular, oval or square, and the shape of the opening II is circular. The outer ring of the slewing bearing is a tooth-shaped outer ring, and the driving gear is meshed with the tooth-shaped outer ring of the slewing bearing. First slide includes slide I, lifting device mount pad, telescoping device mount pad I, terminal surface reinforcing plate, spout, and its connected mode is: lifting device mount pad fixed connection be in on the slide I, telescoping device mount pad I fixed connection be in on the slide I, terminal surface reinforcing plate fixed connection be in on the slide I, spout fixed connection be in on the slide I. The second slide includes slide II, guide rail, telescoping device mount pad II, and its connected mode is: the guide rail is fixedly connected to the slide II, and the telescopic device mounting seat II is fixedly connected to the slide II. The radius of the first slide way is 330mm to 450mm, the radius of the second slide way is 300mm to 420mm, and the radius of the first slide way is 20mm to 50mm larger than that of the second slide way. The other end of the lifting device is movably connected with the lifting device mounting seat. The drive motor is an electric motor or a hydraulic motor. The telescopic device is a cylinder, an oil cylinder or a linear motor. The lifting device is a cylinder, an oil cylinder or a linear motor.

Furthermore, one end of the upper feeding port is aligned with the opening I, the other end of the upper feeding port is aligned with the upper feeding port, the branches in the high altitude are guided into the crushing device, the lower feeding port is aligned with the lower feeding port, and the crushed material inlet is aligned with the discharge port.

Further, the platform comprises a tail platform, and the tail platform can carry the aerial working device to transfer.

Drawings

Fig. 1 is a schematic view of an overhead branch conveyor.

Fig. 2 is a schematic view of a rotation mechanism.

Fig. 3 is a schematic view of a guide runner.

Fig. 4 is a schematic view of the elevating mechanism.

Fig. 5 is a schematic view of the bottom plate structure.

Detailed Description

As shown in figure 1, a branch crushing car with conveyer 4, its characterized in that: including chassis 1, sub vehicle frame 2, box 3, conveyer 4, reducing mechanism 5, its connected mode is: the auxiliary frame 2 and the chassis 1 are fixedly connected together through U-shaped bolts, the box body 3 is installed on the auxiliary frame 2, the conveying device 4 is installed on the box body 3 through bolts, and the crushing device 5 and the auxiliary frame 2 are fixedly connected through bolts.

Further, the subframe 2 includes a subframe main body 21, a rotary seat 22, a lifting device mounting seat I23, and a box lifting device 24, and the connection mode is: the auxiliary frame main body 21 and the rotary seat 22 are fixedly connected in a welding mode, the lifting device installation seat I23 and the auxiliary frame main body 21 are fixedly connected through bolts, and one end of the box body lifting device 24 is installed on the lifting device installation seat I23 and movably connected with the lifting device installation seat I23.

Further, the box body 3 comprises a crushing box 31 and a crushing box 32, and the connection mode is as follows: the crushing box 31 is connected with the rotary seat 22 of the auxiliary frame 2 through a pin shaft to form a movable connection, and the crushing box 32 is fixedly connected with the auxiliary frame 2 through bolts.

Further, the particle box 31 includes a box body 311, a lifting device mounting seat II 312, a side door 313, and a door opening device 314, and the connection manner is as follows: box main part 311 passes through welded mode fixed connection with lifting device mount pad II 312, side door 313 with box main part 311 passes through hinge swing joint, door opening device 314 one end and box main part 311 swing joint, the door opening device 314 other end and side door 313 swing joint, and door opening device 314 drives the relative box main part 311 luffing motion of side door 313, realizes the switch action of side door 313, and its characterized in that still: the lifting device mounting seat II 312 is movably connected with the other end of the box body lifting device 24 of the auxiliary frame 2 through a pin shaft, and the box body lifting device 24 drives the crushed material box 31 to turn towards one side relative to the auxiliary frame 2 so as to realize the unloading function of the crushed material box 31.

Furthermore, a crushed material inlet 3111 is further disposed at the rear portion of the box body 311, an exhaust port 3112 is further disposed at the lower portion of the box body 311, and a material baffle 3113 is further disposed inside the box body 311, wherein the exhaust port 3112 is disposed at the front portion of the box body 311, the material baffle 3113 is disposed at a position 10mm behind the exhaust port 3112 and fixed to a bottom plate 4103 of the box body 311 by bolts, the height of the material baffle 3113 is 90% of the height of the box body 311, and the upper portion of the material baffle 3113 is used for exhausting the part of the box body 311 to the exhaust port 3112.

Further, the top of the crushing box 32 is provided with an upper feeding port 321, the right side of the crushing box 32 is provided with a lower feeding port 322, and the front part of the crushing box 32 is provided with a crushed material outlet, and the crushing device is further characterized in that an auxiliary feeding device 324 is arranged at the lower feeding port 322 to realize automatic or semi-automatic feeding, and the crushing device 5 is provided with an upper feeding port 51, a lower feeding port 52 and a discharging port 53.

Further, the conveying device 4 comprises a rotating mechanism 410, a guide slideway 420 and a lifting mechanism 430, wherein the lifting mechanism 430 is fixedly connected to the rotating mechanism 410 by using bolts, and the guide slideway 420 and the lifting mechanism 430 are connected together by a pin shaft to form a movable connection; the rotation mechanism 410 includes a rotary support 4101, a drive gear 4102, a bottom plate 4103, and a drive motor 4104, and is connected by: the inner ring of the rotary support 4101 is mounted on the bottom plate 4103 by using bolts, the driving motor 4104 is fixedly mounted on the bottom plate 4103 by using bolts, the driving gear 4102 is mounted on the driving motor 4104, a flat key for transmitting torque is mounted at the joint of the driving gear 4102 and the driving motor 4104, the driving gear 4102 is externally engaged with the rotary support 4101, and the driving motor 4104 drives the rotary support 4101 to rotate by the driving gear 4102; the guide chute 420 comprises a first chute 4201 and a second chute 4202 for guiding the branches to slide down, and a telescopic device 4203, which is connected in a way that: the second slideway 4202 is nested in the first slideway 4201 to form a sliding pair, and two ends of the telescopic device 4203 are respectively mounted on the first slideway 4201 and the second slideway 4202 to drive the first slideway 4201 and the second slideway 4202 to slide relatively; the lifting mechanism 430 comprises a lifting device 4301 and a support base 4302, and the connection mode is as follows: one end of the lifting device 4301 is mounted on the support base 4302 through a pin shaft to form a movable connection, and the lifting device 4301 rotates relative to the support base 4302. An opening I41031 for passing through a branch and an opening II 41032 for mounting the driving motor 4104 are provided on the bottom plate 4103, the shape of the opening I41031 may be circular, oval, square, and the shape of the opening II 41032 is circular. The outer ring of the slewing bearing 4101 is a toothed outer ring, and the drive gear 4102 meshes with the toothed outer ring of the slewing bearing 4101. The first chute 4201 comprises a chute I42011, a lifting device mounting seat 42012, a telescoping device mounting seat I42013, a face stiffener 42014 and a chute 42015, and is connected in a manner that: the lifting device mounting seat 42012 is fixedly connected to the slide way I42011 in a welding mode, the telescopic device mounting seat I42013 is fixedly connected to the slide way I42011 in a welding mode, the end face reinforcing plate 42014 is fixedly connected to the slide way I42011 in a welding mode, and the sliding groove 42015 is fixedly connected to the slide way I42011 in a welding mode. The second chute 4202 comprises a chute II 42021, a guide rail 42022 and a telescoping device mounting base II 42023, and the connection mode is as follows: the guide rail 42022 is fixedly connected to the slide way II 42021 in a welding mode, and the telescopic device mounting seat II 42023 is fixedly connected to the slide way II 42021 in a welding mode. The radius of the first runner 4201 is 375mm, and the radius of the second runner 4202 is 350 mm. The other end of the lifting device 4301 is movably connected to the lifting device mounting seat 42012. Preferably, the driving motor 4104 is selected as a hydraulic motor, the telescoping device 4203 is selected as a cylinder, and the lifting device 4301 is selected as a cylinder.

Further, the upper feed port 321 has one end aligned with the opening I41031 and the other end aligned with the upper feed port 51 for guiding the branches at high altitude into the crushing apparatus 5, the lower feed port 52 is aligned with the lower feed port 322, and the crushed material inlet 3111 is aligned with the discharge port 53.

Further, the platform structure also comprises a tail platform 9, and the tail platform 9 can carry the aerial work device to transfer.

During operation, the branch crushing vehicle with the conveying device 4 is parked at a proper position, the crushing device 5 is started, the height angle of the conveying device 4 is adjusted, so that an operator can conveniently throw the trimmed branches into the guide slide way 420, the branches slide downwards along the guide slide way 420 under the action of gravity, reach the upper feeding port 321 through the opening I41031 and then reach the upper feeding port 51, the branches reach the cutter head of the crushing device 5 under the action of inertia, are cut by the cutter head rotating at high speed and are subjected to cutting force, the branches continuously enter the crushing device 5 under the action of gravity and cutting force, are finally crushed completely, and are moved at high speed under the action of the cutter head and the blades and finally thrown to the discharge port 53 of the crushing device 5 to enter the crushing box 31;

or, when the staff pruned lower branch, need not use conveyor 4, can easily send into reducing mechanism 5 with the branch and smash through lower feed inlet 322, the operation process as follows: the branch crushing vehicle with the conveying device 4 is parked at a proper position, the crushing device 5 and the auxiliary feeding device are started, a worker sends the branches into the lower feeding port 322, the branches completely enter the crushing device 5 to be crushed under the action of the auxiliary feeding device, the crushed branches move at a high speed under the action of the cutter head and the blades, and finally the crushed branches are thrown to the discharge port 53 of the crushing device 5 and enter the crushing box 31;

when the amount of crushed branches reaches a certain level, the particle box 31 needs to be unloaded, and the operation is as follows: the branch crushing car that will have conveyer 4 parks the department of unloading, opens side door 313, lifts garrulous workbin 31, and the in-process garrulous branch of lifting can slowly flow outward, and when reaching certain angle, the whole flows of garrulous branch come, realizes the function of unloading. After the discharge, the crush box 31 is dropped and the side door 313 is closed.

Claims

1. The utility model provides a branch crushing car with conveyer which characterized in that: including chassis (1), sub vehicle frame (2), box (3), conveyer (4), reducing mechanism (5), its connected mode is: the auxiliary frame (2) is fixedly connected with the chassis (1), the box body (3) is installed on the auxiliary frame (2), the conveying device (4) is installed on the box body (3), and the crushing device (5) is fixedly connected with the auxiliary frame (2).

2. The branch grinding vehicle with the conveying device as claimed in claim 1, wherein: the auxiliary frame (2) comprises an auxiliary frame main body (21), a rotary seat (22), a lifting device mounting seat I (23) and a box body lifting device (24), and the connection mode is as follows: the auxiliary frame main body (21) is fixedly connected with the rotary seat (22), the lifting device installation seat I (23) is fixedly connected with the auxiliary frame main body (21), and one end of the box body lifting device (24) is installed on the lifting device installation seat I (23) and movably connected with the lifting device installation seat I (23).

3. The branch grinding vehicle with the conveying device as claimed in claim 1, wherein: the box (3) comprises a crushing box (31) and a crushing box (32), and the connection mode is as follows: the crushing box (31) is movably connected with the rotary seat (22) of the auxiliary frame (2), and the crushing box (32) is fixedly connected with the auxiliary frame.

4. The branch crushing vehicle with the conveying device according to claim 3, wherein: the crushed material box (31) comprises a box body main body (311), a lifting device mounting seat II (312), a side door (313) and a door opening device (314), and the connection mode is as follows: box main part (311) with lifting device mount pad II (312) fixed connection, side door (313) with box main part (311) swing joint, door opener (314) one end with box main part (311) swing joint, door opener (314) the other end with side door (313) swing joint, door opener (314) drive side door (313) are relative box main part (311) luffing motion realizes the switch action of side door (33), its characterized in that still lies in: lifting device mount pad II (312) with the other end swing joint of box lifting device (24) of sub vehicle frame (2), box lifting device (24) drive shredded materials case (31) are relative sub vehicle frame (2) is to one side upset realization the function of unloading of shredded materials case (31).

5. The branch crushing vehicle with the conveying device according to claim 4, wherein: the rear portion of box main part (311) still is provided with crushed aggregates entry (3111), the lower part of box main part (311) still is provided with gas vent (3112), inside material baffle (3113) that still is provided with of box main part (311), its characterized in that still, the position of gas vent (3112) is in the front portion of box main part (311), the position of material baffle (3113) is in gas vent (3112) rear 10mm to 50mm department, the height of material baffle (3113) is the 85% to 95% of box main part (311) height.

6. The branch crushing vehicle with the conveying device as claimed in claim 3 or 4, wherein: the automatic feeding device is characterized in that an auxiliary feeding device (324) is arranged at the position of the lower feeding port (322) and used for realizing automatic or semi-automatic feeding, and an upper feeding port (51), a lower feeding port (52) and a discharging port (53) are arranged on the crushing device (5).

7. The branch grinding vehicle with the conveying device as claimed in claim 6, wherein: the conveying device (4) comprises a rotating mechanism (410), a guide slideway (420) and a lifting mechanism (430), wherein the lifting mechanism (430) is fixedly connected to the rotating mechanism (410), and the guide slideway (420) is movably connected with the lifting mechanism (430); the rotating mechanism (410) comprises a rotary support (4101), a driving gear (4102), a bottom plate (4103) and a driving motor (4104), and the connection mode is as follows: the rotary support (4101) is mounted on the bottom plate (4103), the drive motor (4104) is mounted on the bottom plate (4103), the drive gear (4102) is mounted on the drive motor (4104), the drive gear (4102) is externally engaged with the rotary support (4101), and the drive motor (4104) drives the rotary support (4101) to rotate through the drive gear (4102); the guide slideway (420) comprises a first slideway (4201) and a second slideway (4202) for guiding the branches to slide down and a telescopic device (4203), and the connection mode is as follows: the second slideway (4202) is nested in the first slideway (4201) to form a sliding pair, and two ends of the telescopic device (4203) are respectively mounted on the first slideway (4201) and the second slideway (4202) to drive the first slideway (4201) and the second slideway (4202) to slide relatively; the lifting mechanism (430) comprises a lifting device (4301) and a support (4302), and the connection mode is as follows: one end of the lifting device (4301) is arranged on the support (4302) to form movable connection, and the lifting device (4301) rotates relative to the support (4302); an opening I (41031) for passing through a tree branch and an opening II (41032) for installing a driving motor (4104) are arranged on the bottom plate (4103), the shape of the opening I (41031) can be circular, oval or square, and the shape of the opening II (41032) is circular; the outer ring of the rotary support (4101) is a tooth-shaped outer ring, and the driving gear (4102) is meshed with the tooth-shaped outer ring of the rotary support (4101); the first slideway (4201) comprises a slideway I (42011), a lifting device mounting seat (42012), a telescopic device mounting seat I (42013), an end face reinforcing plate (42014) and a chute (42015), and the connection mode is as follows: the lifting device mounting seat (42012) is fixedly connected to the slideway I (42011), the telescopic device mounting seat I (42013) is fixedly connected to the slideway I (42011), the end face reinforcing plate (42014) is fixedly connected to the slideway I (42011), and the chute (42015) is fixedly connected to the slideway I (42011); the second slideway (4202) comprises a slideway II (42021), a guide rail (42022) and a telescopic device mounting seat II (42023), and the connection mode is as follows: the guide rail (42022) is fixedly connected to the slideway II (42021), and the telescopic device mounting base II (42023) is fixedly connected to the slideway II (42021).

8. The branch crushing vehicle with the conveying device according to claim 6 or 7, wherein: one end of the upper feeding port (321) is aligned with the opening I (41031), the other end of the upper feeding port is aligned with the upper feeding port (51) and used for guiding high-altitude branches into the crushing device (5), the lower feeding port (52) is aligned with the lower feeding port (322), and the crushed material inlet (3111) is aligned with the discharge port (53).

9. The branch grinding vehicle with the conveying device according to claim 9, wherein: the high-altitude operation device transfer platform further comprises a tail platform (9), and the tail platform (9) can carry the high-altitude operation device to transfer.

10. The use method of the branch grinding vehicle with the conveying device according to any one of claims 1 to 9, characterized in that: during operation, a branch crushing vehicle with a conveying device is parked at a proper position, the crushing device (5) is started, the height angle of the conveying device is adjusted, so that an operator can conveniently put the trimmed branches into the guide slide way, the branches slide downwards along the guide slide way under the action of gravity and reach the upper feeding port through the opening I and then reach the upper feeding port, the branches reach a cutter head of the crushing device (5) under the action of inertia, are cut by the cutter head rotating at a high speed and are subjected to cutting force, the branches continuously enter the crushing device (5) under the action of gravity and the cutting force, are finally completely crushed, and the crushed branches move at a high speed under the action of the cutter head and the blades and are finally thrown to a discharge port of the crushing device (5) and enter the crushing box;

or, when the staff pruned lower branch, need not use conveyer, can easily send into reducing mechanism (5) with the branch through lower feed inlet and smash, the operation process as follows: the branch crushing vehicle with the conveying device is parked at a proper position, the crusher and the auxiliary feeding device are started, a worker sends branches into the lower feeding port, the branches completely enter the crusher to be crushed under the action of the auxiliary feeding device, the crushed branches move at a high speed under the action of the cutter head and the blades and are finally thrown to a discharging port of the crushing device (5) and enter the crushing box;

when the amount of the crushed branches reaches a certain degree, the material crushing box needs to be unloaded, and the operation is as follows: the branch crushing car that will have conveyer parks the department of unloading, opens the side door, lifts garrulous workbin, and the garrulous branch of in-process of lifting can slowly flow outward, and when reacing certain angle, the whole flows of garrulous branch realize the function of unloading, and the garrulous workbin that falls after finishing unloading closes the side door.