CN206174022U - Continuous type frozen soil groove cutting machine - Google Patents
Continuous type frozen soil groove cutting machine Download PDFInfo
- Publication number
- CN206174022U CN206174022U CN201621241676.0U CN201621241676U CN206174022U CN 206174022 U CN206174022 U CN 206174022U CN 201621241676 U CN201621241676 U CN 201621241676U CN 206174022 U CN206174022 U CN 206174022U
- Authority
- CN
- China
- Prior art keywords
- assembly
- frame
- grades
- discharge
- milling
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Abstract
The utility model discloses a continuous type frozen soil groove cutting machine, including frame Assembly, frame Assembly installs walking assembly in the bottom, the power assembly is installed to the front end on frame Assembly, and the power assembly left rear side is provided with controls the assembly, and the power assembly right rear side is provided with the dark assembly of accuse that slides, it mills the assembly to be provided with between power assembly and the dark assembly of slip accuse, the fixedly connected with that slides on the dark assembly of accuse gathers materials assembly and one -level and arranges the material assembly, and the one -level is arranged material assembly rear and is provided with the second grade and arranges and expect the assembly, still be provided with security fence around the frame Assembly, it is unable high -efficient to have solved prior art, accomplishes the technical problem of frozen soil excavation safely. Avoiding heating, the method of melting influences the environment with blasting excavation method in the frozen soil work progress of plateau, the cost is higher and the drilling pore -forming difficult, the explosive materials performance is exert not goodly and is difficult to reach anticipated effect scheduling problem. The blank based on the most genuine plateau frozen soil excavation field of machinery excavation technique has been filled.
Description
Technical field
This utility model belongs to the special field of construction machinery of engineering machinery, and in particular to a kind of continuous way frozen soil slotter.
Background technology
Cold district construction is in ever-frozen ground area, and must carry out to meet some special process requirements sometimes
Artificially frozen soil is constructed.Carry out railway under the conditions of this geology and weather or highway construction can run into it is unprecedented a variety of tired
It is difficult.Such as in Construction of Qinghai-Tibet Railway, the excavation of frozen soil is inevitable.Frozen soil volumetric expansion in the frozen state, summer frozen soil
Melt volume-diminished, such repeated action can cause road or the substrate in house rupture occur or subside.Cold altiplano latitude
Low, height above sea level, sunshine are strong, tectonic movement is frequent, and frozen soil is presented complexity and uniqueness.Mechanical Excavation of Frozen Soil typically has machinery
Excavating load, heating thawing method and Blasting Excavation method.From the point of view of engineering practice result, thawing method is heated to excavating relatively thin frozen soil layer
It is relatively more effective, thicker ever-frozen ground is excavated limited in one's ability, and heat thawing method and exist and affect environment and relatively costly etc.
Problem.Due to property specific to ever-frozen ground and severe cold region, directly excavated with existing excavation machinery and be difficult to prove effective.
Using traditional rock blasting construction equipment, equipment and process excavate, because ever-frozen ground specific physical mechanical property and
Amblent air temperature feature, it may appear that the problems such as blasthole Drilling pore-forming is difficult, explosive performance is not good, one-shot forming is difficult.
It is at present domestic to have certain research at the aspect such as frozen soil drilling and theory of blasting, but for excavation equipment research and development also
It is related to less, therefore how to develop a kind of special mechanical equipment for Mechanical Excavation of Frozen Soil be asking of being badly in need of in current industry solving
Topic.
Utility model content
The purpose of this utility model is to overcome above-mentioned deficiency, there is provided a kind of continuous way frozen soil slotter, solves existing skill
Art cannot be efficient in plateau permafrost work progress, completes safely the technical problem of Mechanical Excavation of Frozen Soil.
In order to achieve the above object, this utility model includes frame assembly, and frame assembly bottom is provided with walking assembly, car
Power assembly, manipulation assembly, the deep assembly of control of sliding and milling assembly are provided with frame assembly, are fixedly connected on the deep assembly of control of sliding
There are gather materials assembly and one-level discharge assembly, one-level discharge assembly rear is provided with two grades of discharge assemblies, arrange around frame assembly
There is safe fence, power assembly drives walking assembly, the deep assembly of control of sliding, the assembly that gathers materials, one-level discharge total by manipulating assembly
Into with two grades of discharge assemblies.
The walking assembly includes the traveling vehicle frame for being fixed on frame assembly bottom, and the two ends of traveling vehicle frame are by hinge of walking
Spindle is hinged with walking wheeling supporting frame, is hinged with road wheel, traveling crawler is engaged with road wheel, walk on walking wheeling supporting frame
The middle part of wheeling supporting frame adjusts oil cylinder by upgrade angle with traveling vehicle frame and is connected, and dynamicliquid pressure motor is driven by jointed shaft and walked
Wheel is rotated.
The control depth assembly that slides includes being articulated with the slip internal frame of frame assembly by controlling deep jointed shaft, outside slip internal frame
Portion is arranged with slip outrigger, and slip upper frame is provided with the upside of slip outrigger, and two sliding extension oil cylinders are hinged with slip upper frame,
The sliding extension oil cylinder other end is hinged with slip internal frame, and the control depth hydraulic cylinder for driving the deep jointed shaft of control is provided with frame assembly,
The scroll wheel of vertical direction, scroll wheel and slip internal frame wall contacts are provided with the inside of slip outrigger, are stretched in sliding extension oil cylinder
Under contracting effect, slip internal frame is slided up and down under scroll wheel guide effect inside slip outrigger.
The milling assembly includes the right milling frame being hinged on by milling jointed shaft on the deep assembly of control of sliding and left milling
Be connected with milling angle conditions oil cylinder on frame, right milling frame and left milling frame, right milling frame and left milling frame respectively with right milling
Gripper shoe (51) and left milling gripper shoe are connected firmly, and right milling gripper shoe is fixedly connected by H type connecting plates with left milling gripper shoe,
It is provided with oil circuit, right side milling cylinder and middle milling cylinder middle setting in right milling gripper shoe and left milling gripper shoe respectively
There is right hydraulic motor, milling cylinder in left side has left hydraulic motor with middle milling cylinder middle setting, and left and right sides motor is simultaneously
Connection work, is provided with the milling cutter of V-shaped arrangement, is set on left side milling cylinder and right side milling cylinder respectively on middle milling cylinder
It is equipped with oppositely oriented milling cutter.
The assembly that gathers materials includes the cover plate that gathers materials for being arranged at milling assembly top, and the deep assembly bottom of control of sliding is provided with collection
Hopper, is provided with the aggregate bin angular adjustment oil cylinder being connected with the deep assembly of control of sliding on aggregate bin.
The one-level discharge assembly includes the one-level discharge frame being connected with aggregate bin, and one-level discharge frame is internally provided with one-level
Discharge conveyer belt, one-level discharge conveyer belt bottom are arranged and are connected with first order kinetics hydraulic motor, are provided with the outside of one-level discharge frame
Slide rail, inside slide rail and roller contact, roller is arranged on the sliding support plate being fixed on slip outrigger, the deep assembly of control of sliding
On be provided with switching hopper, switching hopper is fixedly connected by switching hopper gripper shoe.
Two grades of discharge assemblies include two grades of discharge body frames and two grades of discharge subframes, two grades of discharge body frames and two grades of discharges
Subframe is internally provided with two grades of discharge conveyer belts, and two grades of discharge conveyer belt bottoms arrange and are connected with second motive force hydraulic motor, and two
Level discharge conveyer belt is provided with two grades of receiving hoppers on the upside of bottom, and two grades of discharge body frames are hinged with two grades of discharge subframes, two grades of discharges
Folding connecting plate is hinged with the outside of body frame, the connecting plate other end is folded and is hinged with folding connecting rod, the folding connecting rod other end is articulated with two grades
On discharge subframe, fold and be connected on two grades of discharge body frames by folding retractable oil cylinder in the middle part of connecting plate, two grades of discharge body frame bottoms
The two grades of discharge platforms rotated around frame assembly are provided with, two grades of discharge platforms pass through two grades of discharge jointed shafts and two grades of rows
Material body frame bottom is hinged, the relative frame assembly rotation under two grades of discharge dynamicliquid pressure motor effects of two grades of discharge platforms, slides
The deep assembly of control is connected with two grades of discharge assemblies by attachment means, and two grades of discharge assemblies can be under attachment means effect with cunning
Dynamic control depth assembly is rotated rotating around two grades of discharge jointed shafts and the deep jointed shaft of control simultaneously.
The power assembly includes Diesel engine and drives hydraulic pump.
The manipulation assembly includes the manipulation integrated panel being arranged on frame assembly, seat and is arranged on above seat
Sunshade.
Compared with prior art, this utility model evades the deficiency of heating thawing method and Blasting Excavation method completely, efficiently complete
Into plateau permafrost excavation work, with efficiency high, the advantages such as regular shape are excavated, it is adaptable to which pipeline making, trench are excavated, draining
The construction operation types such as road excavation, have filled up the blank in plateau permafrost trench digging field.This utility model design science is reasonable, comprising
The deep assembly of control of sliding, milling assembly, the assembly that gathers materials, one-level discharge assembly and two grades of discharge assemblies etc., are capable of achieving Plateau Permafrost Areas
The Mechanical Excavation of Frozen Soil in domain.This utility model adopts Automatic Control, and high degree of automation is simple to operation, it is adaptable to pipeline paving
Build, trench is excavated, the construction operation type such as drainage excavation.Whole machine adopts diesel, hydraulic drive and electrically-driven side
Formula, whole system stable performance, field work and mobile strong adaptability.Whole machine coordinates transporter when working, and can be easily accomplished jelly
The Mechanical Excavation of Frozen Soil and dregs in native region such as removes at the work.
Description of the drawings
Fig. 1 is overall appearance structural representation under off working state of the present utility model;
Fig. 2 is overall appearance structural representation under working condition of the present utility model;
Fig. 3 is position top view when two grades of discharge assemblies of this utility model work;
Fig. 4 is this utility model walking assembly structural representation;
Fig. 5 is the deep assembly of this utility model slip control, gather materials assembly and one-level discharge assembly structure schematic diagram;
Fig. 6 is cutters layout schematic diagram in this utility model milling assembly;
Fig. 7 is this utility model milling assembly structure disassembly diagram;
Fig. 8 is this utility model power-control section annexation schematic diagram.
Wherein, 1- frame assemblies, 2- walking assemblies, 3- power assemblies, 4- manipulation assemblies, 5- slide and control deep assembly, 6- millings
Cut assembly, 7- gathers materials assembly, 8- one-level discharge assemblies, bis- grades of discharge assemblies of 9-;10- safe fences;
11- traveling crawlers, 12- road wheels, 13- walking jointed shafts, 14- walking wheeling supporting frames, 15- traveling vehicle frames, 16- are climbed
Slope angle adjusts oil cylinder, 18- jointed shafts;
30- manipulates integrated panel, 31- seats, 32- sunshades;
The deep jointed shaft of 40- controls, 41- slip outriggers, 42- slip upper frames, 43- sliding extension oil cylinders, 44- slip internal frames, 45-
The deep hydraulic cylinder of control, the deep jointed shaft of 46- controls, 47- attachment means, 48- scroll wheels;
50- milling jointed shafts, the right milling gripper shoes of 51-, the left milling gripper shoes of 52-, 53-H type connecting plates, milling in the middle of 54-
Cut cylinder, 55- milling cutters, 56- right hydraulic motors, the right milling framves of 57-, the left milling framves of 58-, milling cylinder on the right side of 61-, 62- are left
Side milling cylinder, 63- milling hydraulic motors;
71- aggregate bins, 72- aggregate bin angular adjustment oil cylinders;
80- one-level discharge framves, 81- one-level discharge conveyer belts, 83- slide rails, 84- rollers, 85- sliding support plates, 86- switchings
Hopper, 87- switching hopper gripper shoes;
Bis- grades of discharge body frames of 90-, bis- grades of discharge subframes of 91-, bis- grades of discharge conveyer belts of 93-, bis- grades of receiving hoppers of 95-, 96- foldings
Folded connecting plate, 97- folding connecting rods, 98- folding retractable oil cylinders, bis- grades of discharge platforms of 99-, bis- grades of discharge jointed shafts of 100-.
Specific embodiment
Below in conjunction with the accompanying drawings this utility model is described further.
Referring to Fig. 1 to Fig. 7, this utility model includes frame assembly 1, and 1 bottom of frame assembly is provided with walking assembly 2, car
Power assembly 3, manipulation assembly 4, the deep assembly 5 of control of sliding and milling assembly 6 are provided with frame assembly 1, it is solid on the deep assembly 5 of control of sliding
Surely gather materials assembly 7 and one-level discharge assembly 8 are connected with, 8 rear of one-level discharge assembly is provided with two grades of discharge assemblies 9, and vehicle frame is total
Safe fence 10 is provided with into around 1, power assembly 3 drives walking assembly 2, the deep assembly 5 of control of sliding, collection by manipulating assembly 4
Material assembly 7, one-level discharge assembly 8 and two grades of discharge assemblies 9.
Walking assembly 2 includes the traveling vehicle frame 15 for being fixed on 1 bottom of frame assembly, and the two ends of traveling vehicle frame 15 are by walking
Jointed shaft 13 is hinged with walking wheeling supporting frame 14, is hinged with road wheel 12, is engaged with road wheel 12 on walking wheeling supporting frame 14
Traveling crawler 11, the middle part of wheeling supporting frame 14 of walking adjust oil cylinder 16 by upgrade angle with traveling vehicle frame 15 and are connected, dynamicliquid pressure
Motor drives road wheel 12 to rotate by jointed shaft 18.
The deep assembly 5 of control of sliding includes the slip internal frame 44 that frame assembly 1 is articulated with by controlling deep jointed shaft 40, slip internal frame
Slip outrigger 41 is arranged with outside 44, slip upper frame 42 is provided with the upside of slip outrigger 41, in slip upper frame 42, two is hinged with
Sliding extension oil cylinder 43,43 other end of sliding extension oil cylinder are hinged with slip internal frame 44, are provided with driving control deep on frame assembly 1
The control depth hydraulic cylinder 45 of jointed shaft 40, is provided with the scroll wheel 48 of vertical direction, scroll wheel 48 and slip on the inside of slip outrigger 41
44 wall contacts of internal frame, under 43 telescopic action of sliding extension oil cylinder, slip internal frame 44 is being slided under 48 guide effect of scroll wheel
Slide up and down inside dynamic outrigger 41, dynamicliquid pressure motor drives road wheel 12 to rotate by jointed shaft 18,12 rotational band of road wheel
Dynamic traveling crawler 11 is moved to the walking of whole machine.
Milling assembly 6 includes the right milling frame 57 being hinged on by milling jointed shaft 50 on the deep assembly 5 of control of sliding and left milling
Frame 58 is cut, milling angle conditions oil cylinder, right milling frame 57 and left milling frame 58 on right milling frame 57 and left milling frame 58, is connected with
Connect firmly with right milling gripper shoe 51 and left milling gripper shoe 52 respectively, right milling gripper shoe 51 and left milling gripper shoe 52 pass through H
Type connecting plate 53 is connected, and is provided with oil circuit, right side milling cylinder 61 in right milling gripper shoe 51 and left milling gripper shoe 52 respectively
There is right hydraulic motor 56 with middle 54 middle setting of milling cylinder, set in the middle of left side milling cylinder 61 and middle milling cylinder 54
Left hydraulic motor is equipped with, left and right sides motor parallel operation is provided with the milling cutter 55 of V-shaped arrangement on middle milling cylinder 54,
Oppositely oriented milling cutter 55 is respectively arranged with left side milling cylinder 61 and right side milling cylinder 62.
The assembly 7 that gathers materials includes the cover plate that gathers materials for being arranged at 6 top of milling assembly, and deep 5 bottom of assembly of control of sliding is provided with collection
Hopper 71, is provided with the aggregate bin angular adjustment oil cylinder 72 being connected with the deep assembly 5 of control of sliding on aggregate bin 71.
One-level discharge assembly 8 includes the one-level discharge frame 80 being connected with aggregate bin 71, and one-level discharge frame 80 is internally provided with
One-level discharge conveyer belt 81,81 bottom of one-level discharge conveyer belt are arranged and are connected with first order kinetics hydraulic motor, one-level discharge frame 80
Outside is provided with slide rail 83, contacts with roller 84 inside slide rail 83, and roller 84 is arranged at the slip being fixed on slip outrigger 41
In gripper shoe 85, switching hopper 86 on the deep assembly 5 of control of sliding, is provided with, switching hopper 86 is fixed by hopper gripper shoe 87 of transferring
Connection.
Two grades of discharge assemblies 9 include two grades of discharge body frames 90 and two grades of discharge subframes 91, two grades of discharge body frames 90 and two grades
Discharge subframe 91 is internally provided with two grades of discharge conveyer belts 93, and two grades of 93 bottoms of discharge conveyer belt arrange and are connected with second motive force liquid
Pressure motor, is provided with two grades of receiving hoppers 95, two grades of discharge body frames 90 and two grades of discharge pairs on the upside of two grades of 93 bottoms of discharge conveyer belt
Frame 91 is hinged, and folding connecting plate 96 is hinged with the outside of two grades of discharge body frames 90, folds 96 other end of connecting plate and is hinged with folding connecting rod 97,
97 other end of folding connecting rod is articulated with two grades of discharge subframes 91, is folded and is connected to by folding retractable oil cylinder 98 in the middle part of connecting plate 96
On two grades of discharge body frames 90, two grades of 90 bottoms of discharge body frame are provided with two grades of discharge platforms 99 around the rotation of frame assembly 1,
Two grades of discharge platforms 99 are hinged with two grades of 90 bottoms of discharge body frame by two grades of discharge jointed shafts 100, and two grades of discharge platforms are two
Under the motor effect of level discharge dynamicliquid pressure, relative frame assembly 1 rotates, and the deep assembly 5 of control of sliding passes through attachment means 47 and two grades are arranged
Material assembly 8 connects, and two grades of discharge assemblies 8 can be in the case where attachment means 47 be acted on as the control depth assembly 5 that slides is simultaneously rotating around two
Level discharge jointed shaft 100 and the deep jointed shaft 46 of control rotate.
Power assembly 3 includes Diesel engine and drives hydraulic pump.
Manipulation assembly 4 includes the manipulation integrated panel 30 being arranged on frame assembly 1, seat 31 and is arranged on seat 31
The sunshade 32 of top.
The course of work of the present utility model is as described below:
After whole machine enters into operational area, the control depth hydraulic cylinder 45 connected between the deep assembly 5 of control of sliding and frame assembly 1
Shrink, the deep assembly 5 of control of sliding is rotated clockwise to certain angle around the deep jointed shaft 46 of control under control 45 contraction of deep hydraulic cylinder,
Two grades of discharge assemblies 8 are under the effect of attachment means 47 as the rotation of the deep assembly 5 of control of sliding is simultaneously around two grades of discharge jointed shafts 100
Rotation.
It is articulated with the sliding extension oil cylinder 43 at the top of slip upper frame 42 to stretch out, is hinged with 43 other end of sliding extension oil cylinder
Slip internal frame 44 is stretched out with sliding extension oil cylinder 43, in the case where scroll wheel 48 is acted on along on the inside of slip outrigger 41 to downslide
It is dynamic.One-level discharge frame 80 is under the effect of slide rail 83 and roller 84 with declining together with slip internal frame 44.
Folding retractable oil cylinder 98 shrinks, 96 rotate counterclockwise of Foldable connecting plate, folds connecting plate 96 and passes through folding connecting rod 97
Drive two grades of discharge subframes 91 around with the rotation of two grades of discharge body frames, 90 direct jointed shaft until two grades of discharge subframes 91 and two grades
Stop when discharge body frame 90 is completely attached to.
Two grades of discharge platforms relative frame assembly 1 under two grades of discharge dynamicliquid pressure motor effects is rotated to certain angle,
When alloing work, slag charge is sent to transport vehicle.
It is connected to the flexible 6 relative slip internal frame 44 of drive milling assembly of milling angle conditions oil cylinder of 44 bottom of slip internal frame
6 front end milling attachment contact ground of milling assembly is adjusted around the rotation of milling jointed shaft 50, milling hydraulic motor 63 starts, by power
Two side milling drivewheel wheel hubs are transferred to by power spindle 57, two side milling drivewheel wheel hubs drive 61 He of left side milling cylinder
Right side milling cylinder 62 is rolled, while power is passed by left side milling cylinder 61 and right side milling cylinder 62 by milling drivewheel 53
Milling chain belt 54 is defeated by,
After milling assembly 6 starts, car load starts to move forward, and with the traveling of car load, milling angle conditions oil cylinder is progressively
Stretch out, adjust 6 front end milling attachment of milling assembly and gradually reduce, while aggregate bin 71 starts to contact ground and by aggregate bin angle
Degree adjusts oil cylinder 72 and adjusts and the angle between slip internal frame 44 so that track of the aggregate bin 71 along 6 milling of milling assembly
Carry out the collection of dregs.
6 front end milling attachment of milling assembly gradually reduce to lowest depth require after, milling angle conditions oil cylinder start by
Step carries out reciprocating contraction and stretches out so that milling attachment reciprocating milling before ground with minimum milling depth, aggregate bin 71
Lowest depth is always maintained at after reaching milling lowest depth carries out the collection of dregs.
, after the collection of aggregate bin 71, on one-level discharge conveyer belt 81, one-level discharge conveyer belt 81 is in one-level for dregs
Dynamicliquid pressure motor drives decline dregs to be delivered to inside switching hopper 86, and received dregs is collected and transmitted by switching hopper 86
To two grades of receiving hoppers 95, dregs is sent on two grades of discharge conveyer belts 93 after two grades of 95 splicings of receiving hopper, two grades of discharge transmission
Dregs is delivered to outside transport vehicle under the effect of second motive force hydraulic motor by band 93.
Claims (9)
1. a kind of continuous way frozen soil slotter, it is characterised in that including frame assembly (1), frame assembly (1) bottom is provided with row
Assembly (2) is walked, power assembly (3), manipulation assembly (4), the deep assembly (5) of control of sliding and milling is provided with frame assembly (1) total
Into (6), on the deep assembly (5) of control of sliding, the assembly that gathers materials (7) and one-level discharge assembly (8), one-level discharge assembly (8) are fixedly connected with
Rear is provided with around two grades of discharge assemblies (9), frame assembly (1) and is provided with safe fence (10), and power assembly (3) is by behaviour
Control assembly (4) drives walking assembly (2), the deep assembly (5) of control of sliding, the assembly that gathers materials (7), one-level discharge assembly (8) and two grades of rows
Material assembly (9).
2. a kind of continuous way frozen soil slotter according to claim 1, it is characterised in that the walking assembly (2) includes
The traveling vehicle frame (15) of frame assembly (1) bottom is fixed on, the two ends of traveling vehicle frame (15) are hinged by jointed shaft (13) of walking
There is walking wheeling supporting frame (14), in walking wheeling supporting frame (14), be hinged with road wheel (12), road wheel is engaged with walking on (12)
Crawler belt (11), the middle part of wheeling supporting frame (14) of walking adjust oil cylinder (16) by upgrade angle with traveling vehicle frame (15) and are connected, power
Hydraulic motor drives road wheel (12) to rotate by jointed shaft (18).
3. a kind of continuous way frozen soil slotter according to claim 1, it is characterised in that slip control depth assembly (5)
Including the slip internal frame (44) that frame assembly (1) is articulated with by controlling deep jointed shaft (40), it is arranged with outside slip internal frame (44)
Slip outrigger (41), is provided with the upside of slip outrigger (41) in slip upper frame (42), slip upper frame (42) and is hinged with two slips
Telescopic oil cylinder (43), sliding extension oil cylinder (43) other end are hinged with slip internal frame (44), and frame assembly is provided with driving on (1)
Control depth hydraulic cylinder (45) of the deep jointed shaft (40) of control, is provided with the scroll wheel (48) of vertical direction, rolls on the inside of slip outrigger (41)
Driving wheel (48) and slip internal frame (44) wall contacts, under sliding extension oil cylinder (43) telescopic action, slip internal frame (44) is in rolling
Under driving wheel (48) guide effect, slide up and down inside slip outrigger (41).
4. a kind of continuous way frozen soil slotter according to claim 1, it is characterised in that the milling assembly (6) includes
The right milling frame (57) being hinged on by milling jointed shaft (50) on the deep assembly (5) of control of sliding and left milling frame (58), right milling
Be connected with milling angle conditions oil cylinder on frame (57) and left milling frame (58), right milling frame (57) and left milling frame (58) respectively with
Right milling gripper shoe (51) and left milling gripper shoe (52) are connected firmly, and right milling gripper shoe (51) and left milling gripper shoe (52) pass through
H type connecting plates (53) is fixedly connected, and is provided with oil circuit, right side respectively in right milling gripper shoe (51) and left milling gripper shoe (52)
Milling cylinder (61) has right hydraulic motor (56) with middle milling cylinder (54) middle setting, and left side milling cylinder (61) is with
Between milling cylinder (54) middle setting have left hydraulic motor, left and right sides motor parallel operation is set on middle milling cylinder (54)
The milling cutter (55) of V-shaped arrangement is equipped with, in left side milling cylinder (61) and right side milling cylinder (62), rotation direction phase is respectively arranged with
Anti- milling cutter (55).
5. a kind of continuous way frozen soil slotter according to claim 1, it is characterised in that the assembly that gathers materials (7) includes
The cover plate that gathers materials on milling assembly (6) top is arranged at, deep assembly (5) bottom of control of sliding is provided with aggregate bin (71), aggregate bin
(71) aggregate bin angular adjustment oil cylinder (72) being connected with the deep assembly (5) of control of sliding is provided with.
6. a kind of continuous way frozen soil slotter according to claim 1, it is characterised in that the one-level discharge assembly (8)
Including one-level discharge frame (80) being connected with aggregate bin (71), one-level discharge frame (80) is internally provided with one-level discharge conveyer belt
(81), one-level discharge conveyer belt (81) bottom arranges and is connected with first order kinetics hydraulic motor, arranges on the outside of one-level discharge frame (80)
Have inside slide rail (83), slide rail (83) and contact with roller (84), roller (84) is arranged at the cunning being fixed on slip outrigger (41)
On dynamic gripper shoe (85), on the deep assembly (5) of control of sliding, switching hopper (86) is provided with, switching hopper (86) is by hopper of transferring
Fagging (87) is fixedly connected.
7. a kind of continuous way frozen soil slotter according to claim 1, it is characterised in that two grades of discharge assemblies (9)
Including two grades of discharge body frames (90) and two grades of discharge subframes (91), two grades of discharge body frames (90) and two grades of discharge subframes (91) inside
Two grades of discharge conveyer belts (93) are provided with, two grades of discharge conveyer belt (93) bottoms arrange and are connected with second motive force hydraulic motor, two
Two grades of receiving hoppers (95), two grades of discharge body frames (90) and two grades of discharge subframes are provided with the upside of level discharge conveyer belt (93) bottom
(91) it is hinged, on the outside of two grades of discharge body frames (90), is hinged with folding connecting plate (96), folds connecting plate (96) other end and folding connecting rod
(97) it is hinged, folding connecting rod (97) other end is articulated with two grades of discharge subframes (91), folds in the middle part of connecting plate (96) by folding
Telescopic oil cylinder (98) is connected on two grades of discharge body frames (90), and two grades of discharge body frame (90) bottoms are provided with around frame assembly
(1) the two grades of discharge platforms (99) for rotating, two grades of discharge platforms (99) are by two grades of discharge jointed shafts (100) and two grades of discharges
Body frame (90) bottom is hinged, relative frame assembly (1) rotation under two grades of discharge dynamicliquid pressure motor effects of two grades of discharge platforms,
The deep assembly (5) of control of sliding is connected with two grades of discharge assemblies (8) by attachment means (47), and two grades of discharge assemblies (8) can be even
With the deep assembly (5) of control of sliding while rotating around two grades of discharge jointed shafts (100) and the deep jointed shaft of control under connection device (47) effect
(46) rotate.
8. a kind of continuous way frozen soil slotter according to claim 1, it is characterised in that the power assembly (3) includes
Diesel engine and driving hydraulic pump.
9. a kind of continuous way frozen soil slotter according to claim 1, it is characterised in that the manipulation assembly (4) includes
Manipulation integrated panel (30), seat (31) and the sunshade being arranged on above seat (31) being arranged on frame assembly (1)
(32)。
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621241676.0U CN206174022U (en) | 2016-11-17 | 2016-11-17 | Continuous type frozen soil groove cutting machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621241676.0U CN206174022U (en) | 2016-11-17 | 2016-11-17 | Continuous type frozen soil groove cutting machine |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206174022U true CN206174022U (en) | 2017-05-17 |
Family
ID=58685405
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621241676.0U Expired - Fee Related CN206174022U (en) | 2016-11-17 | 2016-11-17 | Continuous type frozen soil groove cutting machine |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN206174022U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106592669A (en) * | 2016-11-17 | 2017-04-26 | 长安大学 | Permafrost excavation machine |
CN110670655A (en) * | 2018-07-02 | 2020-01-10 | 喻天宝 | Vertical sinking well development machine |
-
2016
- 2016-11-17 CN CN201621241676.0U patent/CN206174022U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106592669A (en) * | 2016-11-17 | 2017-04-26 | 长安大学 | Permafrost excavation machine |
CN106592669B (en) * | 2016-11-17 | 2018-11-06 | 长安大学 | A kind of Mechanical Excavation of Frozen Soil machine |
CN110670655A (en) * | 2018-07-02 | 2020-01-10 | 喻天宝 | Vertical sinking well development machine |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN102939434B (en) | For opencast protrusive longwall systems | |
CN107165630B (en) | Quick digging and anchoring integrated machine for coal mine | |
CN206174022U (en) | Continuous type frozen soil groove cutting machine | |
CN205530208U (en) | Careless square device is laid to sand ground | |
CN104847361B (en) | Oscillatory type surface miner | |
CN206694038U (en) | Hob type push pipe excavator | |
CN2921098Y (en) | Two-stage rotary hydraulic automatic ice and snow-removing machine | |
CN109677864A (en) | A kind of portable belt conveyer and " it " font earthwork digging method | |
CN111022094B (en) | Cutting and supporting dual-purpose mechanical equipment and method for treating tunnel surrounding rock | |
CN107435541A (en) | A kind of new TBM and its construction method for possessing pipe roof construction ability | |
CN106592669B (en) | A kind of Mechanical Excavation of Frozen Soil machine | |
CN101864781B (en) | Mining machine for dredging | |
CN105887642B (en) | Slope of highway repairs rotary cutting apparatus | |
CN201420233Y (en) | Cement concrete pavement irregular crack slotting machine | |
CN106437739A (en) | Multi-rocker arm rock crushing plant with alterable cutting radius | |
CN204954021U (en) | Double arm robot with shear work ability | |
CN208866146U (en) | A kind of original position turn over plane stable soil prosthetic device | |
CN207131408U (en) | A kind of new TBM for possessing pipe roof construction ability | |
CN201137167Y (en) | Vertical film-laying machine for trench digging | |
CN207003514U (en) | A kind of two-wheeled digging excavation conveyer | |
CN205658167U (en) | Novel clear excrement spills navy barrow | |
CN105317065A (en) | Synchronous grooving and plastic laying all-in-one machine | |
CN203594067U (en) | Crawler dozer | |
CN107387108A (en) | A kind of tunneling equipment | |
CN209669961U (en) | Dam flood-discharge hole underwater desilting system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170517 Termination date: 20171117 |