CN108643915A - A kind of high steady driving ripping device of sandstone machine - Google Patents

Abstract

The present invention discloses a kind of high steady driving ripping device of sandstone machine, includes total drive component and longitudinal sectional component；Total drive component includes power source and input shaft, and power source is employed as the internal combustion engine in single power source；Longitudinal sectional component includes driving gear set, forward spindle and longitudinal sectional saw blade；A forward spindle case is connected between input shaft and forward spindle, driving gear set is installed in forward spindle case and the two is configured to gear driven type swing arm, and the swing arm cylinder component for driving it to swing is connected in the gear driven type swing arm.The total drive component of the present invention uses fixed external installation, it makees dexterously seperated design with longitudinal sectional saw blade by driving gear set, the lifting action design of longitudinal sectional saw blade avoids total drive component and makees independent design, driving gear set is dexterously designed as swing arm structure, it is swung up and down while this need drives longitudinal sectional saw blade to rotate by a swing arm cylinder component, it is longitudinally cutting to complete；Complete machine structure is succinct, reasonable design, and manipulation is easy, while bringing steady reliable, efficient longitudinal cutting operation.

Description

A kind of high steady driving ripping device of sandstone machine

The application be to be 2016.6.1 application No. is " 201610382577.2 ", the applying date application theme be " a kind of The ripping device of sandstone machine " proposes divisional application.

Technical field

The present invention relates to the high steady driving ripping devices of a kind of stone mining equipment, in particular to a kind of sandstone machine.

Background technology

Stone mining equipment is the mechanized equipment after a kind of piecemeal by mine stones and being transported out, the machinery of existing stone material It melts and has adopted very universal, have the characteristics that energy-efficient, high yield rate, small to mine destruction.Stone mining equipment at present Structure mainly includes railcar and the sawing machine component that is located in railcar, sawing machine component be divided to have it is crosscutting and two kinds longitudinal sectional.

Longitudinal sectional sawing machine component, also oscilaltion, longitudinally cutting to complete while length sawing piece rotates.Longitudinal sectional sawing machine component It needs to complete to rotate and lifting bidimensional action, the bidimensional movements design for being directed to longitudinal sectional saw at present all uses rotary drive mechanism With saw blade unitary design, i.e., during carrying out the descending operation of saw blade, rotary drive mechanism synchronization action therewith is first right It realizes that the associated mechanisms performance requirement of descending operation is higher, second can also influence efficiency, the precision of descending operation, and even shadow Ring the runnability of complete machine.

In consideration of it, inventor furthers investigate the above problem, and innovatively propose a kind of high steady drive of sandstone machine Thus dynamic ripping device, this case generate.

Invention content

The purpose of the present invention is to provide a kind of high steady driving ripping devices of sandstone machine, by rotary drive assembly and saw Piece dexterously seperated design brings the advantages that simple for structure, manipulation is easy, steady reliable, high efficiency.

In order to achieve the above objectives, solution of the invention is：

A kind of high steady driving ripping device of sandstone machine, includes total drive component and longitudinal sectional component；Total drive component Include the power source and input shaft being mutually sequentially connected, power source is employed as the internal combustion engine in single power source；Longitudinal sectional group Part includes driving gear set, forward spindle and longitudinal sectional saw blade, and driving gear set is sequentially connected between input shaft and forward spindle, indulges Saw blade is cut on forward spindle；A forward spindle case is connected between input shaft and forward spindle, driving gear set is installed on preceding master In axle box and the two is configured to one using input shaft as the gear driven type swing arm of fulcrum, is connected in the gear driven type swing arm The swing arm cylinder component for driving it to swing.

The each group gear of the driving gear set is in setting in one line, and sinks to being arranged by the gear of front end, corresponding There is preceding galianconism rear long-armed and toward the bottom, swing arm cylinder component to be correspondingly connected in rear long-armed position for the gear driven type swing arm of composition Set place.

By rear bearing assembly and input axis connection, the front end of forward spindle case passes through fore bearing for the rear end of the forward spindle case Component is connect with forward spindle, and driving gear set is integrally installed on by gear-bearing component on forward spindle case.

Oil seal is equipped between the input shaft and rear bearing assembly, forward spindle is equipped with oil seal with fore bearing inter-module.

The driving gear set includes input gear, intermediate gear assemblies and front gear；Input gear is mounted on input On axis, front gear is mounted on forward spindle, and intermediate gear assemblies are sequentially connected between input gear and front gear.

The intermediate gear assemblies include at least two groups gear shaft and one-to-one at least two groups arranged in parallel Between gear, which is driven engagement successively.

The intermediate gear assemblies further include having double reduction gearing group, which is misplaced by big pinion gear It is sequentially connected and constitutes.

The forward spindle is equipped with the folder cutterhead for installing longitudinal sectional saw blade；The folder cutterhead is equipped with several, sets up separately preceding The both ends of main shaft, wherein being arranged by separates between two adjacent folder cutterheads.

The swing arm cylinder component is double head oil cylinder, which has the work that cylinder body and both ends stretch out cylinder body Stopper rod；Cylinder body is rotatably connected in associated supports, and the lower end of piston rod is rotatably connected on forward spindle case, piston rod it is upper End is equipped with adjusting nut.

The longitudinal sectional saw blade is also equipped with saw blade cover, which includes fixed cover, movable guard and overturning oil cylinder；It is fixed Cover is fixedly installed in by fixing buckle on longitudinal sectional component, and movable guard is rotatably connected on the top of fixed cover, and overturning oil cylinder is connected to Between fixed cover and movable guard, to drive movable guard to make rotary movement.

After adopting the above scheme, the high steady driving ripping device of a kind of sandstone machine of the present invention, compared with the existing technology Advantageous effect is：Total drive component uses fixed external installation, is made dexterously by driving gear set with longitudinal sectional saw blade Fission design, longitudinal sectional component realize the drive connection of longitudinal sectional saw blade and total drive component by driving gear set.Longitudinal sectional saw blade Lifting action design avoid total drive component and make independent design, driving gear set is dexterously designed as swing arm structure, in This need is swung up and down while can succinctly and simply driving longitudinal sectional saw blade to rotate by a swing arm cylinder component, to complete It is longitudinally cutting.Whole device of the present invention is simple for structure, reasonable design, and manipulation is easy, while bringing steady reliable, efficient vertical Cut operation.

Description of the drawings

Fig. 1 is the stereogram of the ripping device of sandstone machine of the present invention；

Fig. 2 is the installation diagram of the longitudinal sectional component of sandstone machine of the present invention；

Fig. 3 is the exploded view of Fig. 2；

Fig. 4 is the sectional view at the input shaft position in Fig. 2；

Fig. 5 is the sectional view at the forward spindle position in Fig. 2；

Fig. 6 is the schematic diagram of swing arm cylinder component；

Fig. 7 is the schematic diagram of saw blade cover；

Fig. 8 is the stereogram for the sandstone machine that ripping device of the present invention is applied；

Fig. 9 is the exploded view of Fig. 8.

Label declaration

Moving trolley 1:Chassis 11, oscillating arm bracket 12, portal support 13；

Total drive component 2:Power source 21, input shaft 22, big belt pulley 23, oil seal 26；

Longitudinal sectional component 3:

Driving gear set 31, forward spindle 32, longitudinal sectional saw blade 33, forward spindle case 34, swing arm cylinder component 36；

Input gear 311, intermediate gear assemblies 312, front gear 313；Double reduction gearing group 314；

Gear wheel 1, pinion gear 1, gear wheel 2 3143, pinion gear 2 3144；

Press from both sides cutterhead 331, partition 332；Bearing assembly 351 afterwards, front axle bearing assembly 352,

Gear-bearing component 353, cylinder body 361, piston rod 362, adjusting nut 363；

Saw blade cover 6：Fixed cover 61, movable guard 62, overturning oil cylinder 63, fixing buckle 64；

Hydraulic oil container 91, electric cabinet 92, operation lower platform 93, left socle 94, protection network 95,

Wire guide channels 96, sunshade 97.

Specific implementation mode

This case is described in further detail with reference to the accompanying drawings and detailed description.

This case is related to a kind of high steady driving ripping device of sandstone machine, as shown in Figure 1, mainly including total drive component 2 and longitudinal sectional component 3.Total drive component 2 and longitudinal sectional component 3 are mounted on the moving trolley 1 of sandstone machine, on the moving trolley 1 of sandstone machine It is additionally provided with crosscutting component 4.

Total drive component 2 mainly includes the power source 21 being mutually sequentially connected and input shaft 22.Be sequentially connected a kind of reality It is belt transmission mode to apply mode, is equipped with big belt pulley 23 in input shaft 22, the output shaft of power source 21 is by belt (in figure It is not shown) it is sequentially connected with big belt pulley 23.Moving trolley 1 is equipped with chassis 11, and chassis 11 is equipped with motor cabinet, and power source 21 is fixed It is installed on motor cabinet.Chassis 11 is equipped with two oscillating arm brackets 12 of left and right side by side, and the adaptation of input shaft 22 is installed on two swing arm branch On frame 12.

As shown in Figure 2-5, longitudinal sectional component 3 mainly includes driving gear set 31, forward spindle 32 and longitudinal sectional saw blade 33.Transmission Gear set 31 is sequentially connected between input shaft 22 and forward spindle 32, and longitudinal sectional saw blade 33 is mounted on forward spindle 32.Sandstone machine is made When industry, total drive component 2 starts, and power source 21 is rotated with driven input shaft 22；The input shaft 22 of rotation is via driving gear set 31 Forward spindle 32 is driven to rotate, to drive 33 rotary operation of longitudinal sectional saw blade.Crosscutting component 4 is sequentially connected with input shaft 22, rotation Input shaft 22 can drive the crosscutting saw blade rotary operation of crosscutting component 4 simultaneously.

The lifting action of longitudinal sectional saw blade 33 designs, and driving gear set 31 is dexterously designed as swing arm structure, specifically, A forward spindle case 34 is connected between input shaft 22 and forward spindle 32, the correspondence of driving gear set 32 is installed in forward spindle case 34, And driving gear set 32 and forward spindle case 34 the two are configured to a gear driven type swing arm with input shaft 22 for fulcrum, should Swing arm cylinder component 36 is connected in gear driven type swing arm, to drive the swing arm to swing.

Under the premise of not interfering with driving gear set 31 and driving longitudinal sectional 33 spinning movement of saw blade, passes through and control swing arm oil cylinder Component 36 stretches, you can gear driven type swing arm is driven (to drive forward spindle case 34 together with driving gear set 32 and longitudinal saw Piece 33) it swings up and down, realize the 33 oscillating lifting action of longitudinal saw blade.Certain swing process is without driving associated drives component therewith Action, oscillating lifting is simple for structure, and smooth operation is reliable and efficient.

The ripping device of sandstone machine of the present invention, total drive component 2 uses fixed external installation, with longitudinal sectional saw blade 33 make dexterously seperated design, longitudinal sectional component 3 by driving gear set 31 realizes longitudinal sectional saw blade 33 by driving gear set 31 With the drive connection of total drive component 2.The lifting action design of longitudinal sectional saw blade 33 avoids total drive component 2 and makees independent design, Driving gear set 31 is dexterously designed as swing arm structure, it can be succinctly again simple by a swing arm cylinder component 36 in this need Ground is swung up and down while driving ripsaw piece 33 to rotate, longitudinally cutting to complete.

The connection type of the forward spindle case 34 is that the rear end of forward spindle case 34 passes through rear bearing assembly 351 and input shaft 22 connections, the front end of forward spindle case 34 are connect by front axle bearing assembly 352 with forward spindle 32, and driving gear set 31 passes through gear shaft Bearing assembly 353 is integrally installed on forward spindle case 34.Bearing assembly 351, front axle bearing assembly 352 and gear-bearing component after described 353 include that the bearing and bearing block mutually assembled is correspondingly provided with when being equipped with multigroup gear among driving gear set 31 Multigroup gear-bearing component 353.The mounting hole position that installation is corresponded for each bearing assembly is offered on forward spindle case 34.

The driving gear set 31, as shown in figure 3, it includes input gear 311, intermediate gear assemblies 312 and nipper Wheel 313.Intermediate gear assemblies 312 include gear shaft and and the intermediate gear on the gear shaft.Input gear 311 is installed On input shaft 22, front gear 313 is mounted on forward spindle 32, and intermediate gear is sequentially connected in input gear 311 and front gear Between 313.Preferably, intermediate gear assemblies 312 include at least two groups gear shaft arranged in parallel and it is one-to-one at least Two groups of intermediate gears, at least two groups intermediate gear are driven engagement successively.In the specific embodiment provided, intermediate gear assemblies 312 are equipped with four groups to be sequentially connected successively, can suitably increase and decrease setting according to design requirement certainly.

In order to control the operating speed of longitudinal sectional saw blade 33, in being also devised with reduction assemblies in intermediate gear assemblies 313, specifically In embodiment, two groups of the least significant end of intermediate gear assemblies 312 is designed as double reduction gearing group 314, the double reduction gearing Group 314 is sequentially connected by the dislocation of big pinion gear and is constituted.Specifically, as shown in figure 3, double reduction gearing group 314 includes big Gear 1, pinion gear 1, gear wheel 2 3143 and pinion gear 2 3144；Gear wheel 1 and pinion gear 1 Coaxial assembling, gear wheel 2 3143 and pinion gear 2 3144 coaxially assemble, gear wheel 1 and preceding corresponding intermediate gear Transmission engagement, pinion gear 1 are engaged with the mutually transmission of gear wheel 2 3143, and pinion gear 2 3144 is nibbled with the transmission of front gear 313 It closes.

The driving gear set 31, each group gear is in preferably setting in one line, and is sunk by the gear of front end Setting, in specific embodiment, front gear 313 and rear class train of reduction gears (gear wheel 2 3143 and pinion gear 2 3144) slightly under Heavy setting, the corresponding gear driven type swing arm constituted have preceding galianconism (shown in Figure 3) rear long-armed and toward the bottom, swing arm oil Cylinder component 36 is correspondingly connected at rear long-armed position, and so design is relatively conducive to the swinging operation of swing arm and putting down for longitudinal sectional saw blade 33 Steady lifting.

As shown in figure 4, the big belt pulley 23 is mounted on the at one end of input shaft 22, the end adapter peace of input shaft 22 Equipped with internal gland and outer press cover.The other end of input shaft 22 can be used as the drive connection end of crosscutting component 4.After on input shaft 22 The outer end that bearing assembly 351 is equipped with bearing assembly 351 after symmetrical two groups, two groups is equipped with bearing cap.Bearing after one of which Component 351 is disposed adjacent with big belt pulley 23, and seal disc is equipped between the two, and the inside of corresponding adjacent bearing cap is equipped with oil seal 26.Oil seal 26 is again provided with after another group between bearing assembly 351 and input shaft 22.

As shown in figure 5, front axle bearing assembly 352 on forward spindle 32 is equipped with symmetrical two groups, two groups of front axle bearing assemblies 352 Outer end is equipped with bearing cap, and the inside of bearing cap is equipped with oil seal.Forward spindle 32 is equipped with folder cutterhead 331, longitudinal sectional for installing The effect of saw blade 33.It presss from both sides cutterhead 331 to be needed that several can be equipped with according to cutting, sets up separately in the left and right ends of forward spindle 32, give Go out in specific embodiment, left end is set there are three cutterhead 331 is pressed from both sides, and right side is equipped with two folder cutterheads 331.Cutterhead 331 is pressed from both sides according to longitudinal sectional The position installation of saw blade 33 needs, and has length to distinguish setting.Set on the end of forward spindle 32 using long folder cutterhead, realize longitudinal sectional Saw blade 33 left and right to extension setting, while also be conducive to 32 end of forward spindle to press from both sides cutterhead lock be provided as using.Adjacent two Preferably separated by partition 332 between folder cutterhead 331 and is arranged.

Preferably, as shown in Fig. 1, Fig. 6, the swing arm cylinder component 36 uses double head oil cylinder, the double head oil cylinder to have oil The piston rod 362 of cylinder body 361 is stretched out at cylinder body 361 and both ends.Cylinder body 36 is rotatably connected in associated supports, specific next It says, the front end of oscillating arm bracket 12 is provided with portal support 13, and cylinder body 361 is rotatably connected on portal support 13.Piston rod 362 Lower end be rotatably connected on forward spindle case 34, the upper end of piston rod 362 is equipped with adjusting nut 363.

Swing arm cylinder component 36 uses double head oil cylinder structure, conducive to the rotary type installation of concision and compact is made；And double head oil cylinder The rotary type installation of itself, makes it be more suitable for driving swing arm swinging operation.Importantly, the adjusting nut 363 of double head oil cylinder Design, only need to pass through adjusting nut 363, you can simple adjustment swing arm cylinder component 36 drives the amplitude peak of the swing arm bottom, Bring swing arm amplitude of fluctuation simply adjustable effect.

About the power source 21, it is preferably employed as the internal combustion engine in single power source, compared to using electronic motor-driven Power source mode or other modes particularly use internal combustion engine on the basis of structure of the invention performance design, can make whole knot Structure is more succinct, and power drive is more reliable and more stable, using in exploitation it is not necessary that by environment, either electric power etc. is influenced or is constrained, it is real It is strong with performance, it is had the advantages of and the benefit brought it is very prominent.

About crosscutting component 4, horizontal direction action can be realized by designing the movable axis of spline fitted with input shaft 22 It can also be moved horizontally while synchronous rotary, crosscutting component 4 and cross can succinctly be driven by a lateral oil cylinder in this need It cuts saw blade to move horizontally, to complete horizontal section cutting.

Preferably, longitudinal sectional saw blade 3 is also equipped with saw blade cover 6, as shown in fig. 7, the saw blade cover 6 includes fixed cover 61, lives Dynamic cover 62 and overturning oil cylinder 63.Fixed cover 61 is fixedly installed in by fixing buckle 64 on the front axle bearing assembly 352 of longitudinal sectional component 3, Movable guard 62 is rotatably connected on the top of fixed cover 61, and overturning oil cylinder 63 is connected between fixed cover 61 and movable guard 62, passes through 63 expanding-contracting action of overturning oil cylinder, you can drive movable guard 62 to make overturning and be provide with action.Fixed cover 61 and movable guard 62 are in four points One of circle configurations, after the two mutually fastens, in the semicircle cover structure for the upper semicircumference for being located at longitudinal sectional saw blade 33, play protection The effect of longitudinal sectional saw blade 33.

If Fig. 8-9 is arrangement schematic diagram of the ripping device of the present invention in sandstone complete machine, the cylinder component is hydraulic pressure Cylinder component is also equipped with hydraulic oil container 91 on moving trolley 1.Electric cabinet 92 is additionally provided on moving trolley 1, in order to be conducive to manipulate, electricity Operation lower platform 93 is additionally provided with by control case 92.The structure distribution of each component is on moving trolley 1, and power source 21 and hydraulic oil container 91 are left The right side is disposed adjacent, and the two is set to the middle part of moving trolley 1, and crosscutting component 4 and longitudinal sectional component 3 are set to the front of moving trolley 1, electric cabinet 92 are set to the rear portion of moving trolley 1 with operation lower platform 93.The structure distribution concision and compact.A left side can be provided on power source 21 Holder 94 plays protective action, can be set to wire guide channels 96 on left socle 94, supply lines is succinctly arranged.Hydraulic oil container 91 it is upper Side is equipped with protection network 95, plays protective action.In order to reinforce the comfort in operating personnel's operation, in the rear portion of moving trolley 1 also frame Equipped with sunshade 97.

The foregoing is merely the preferred embodiment of the present invention, all equivalent changes done with scope of the invention as claimed and Modification, should all belong to the range of the claims in the present invention.

Claims (10)

1. a kind of high steady driving ripping device of sandstone machine, it is characterised in that：Include total drive component and longitudinal sectional component；Always Drive component includes the power source and input shaft being mutually sequentially connected, and power source is employed as the internal combustion in single power source Machine；Longitudinal sectional component includes driving gear set, forward spindle and longitudinal sectional saw blade, and driving gear set is sequentially connected in input shaft and preceding master Between axis, longitudinal sectional saw blade is mounted on forward spindle；A forward spindle case, driving gear set peace are connected between input shaft and forward spindle Loaded in forward spindle case and the two is configured to one using input shaft as the gear driven type swing arm of fulcrum, the gear driven type swing arm On be connected with drive its swing swing arm cylinder component.

2. the high steady driving ripping device of a kind of sandstone machine as described in claim 1, it is characterised in that：The transmission gear The each group gear of group is in setting in one line, and sinks to being arranged by the gear of front end, the corresponding gear driven type swing arm constituted With preceding galianconism rear long-armed and toward the bottom, swing arm cylinder component is correspondingly connected at rear long-armed position.

3. the high steady driving ripping device of a kind of sandstone machine as described in claim 1, it is characterised in that：The forward spindle case Rear end by rear bearing assembly and input axis connection, the front end of forward spindle case connect by front axle bearing assembly with forward spindle, biography Moving gear group is integrally installed on by gear-bearing component on forward spindle case.

4. the high steady driving ripping device of a kind of sandstone machine as claimed in claim 3, it is characterised in that：The input shaft with Oil seal is equipped between bearing assembly afterwards, forward spindle is equipped with oil seal with fore bearing inter-module.

5. the high steady driving ripping device of a kind of sandstone machine as described in claim 1, it is characterised in that：The transmission gear Group includes input gear, intermediate gear assemblies and front gear；Input gear is mounted on input shaft, and front gear is mounted on preceding master On axis, intermediate gear assemblies are sequentially connected between input gear and front gear.

6. the high steady driving ripping device of a kind of sandstone machine as claimed in claim 5, it is characterised in that：The intermediate gear Component includes at least two groups gear shaft arranged in parallel and one-to-one at least two groups intermediate gear, among at least two groups Gear is driven engagement successively.

7. the high steady driving ripping device of a kind of sandstone machine as claimed in claim 5, it is characterised in that：The intermediate gear Component further includes having double reduction gearing group, which is sequentially connected by the dislocation of big pinion gear and is constituted.

8. the high steady driving ripping device of a kind of sandstone machine as claimed in claim 7, it is characterised in that：Double reduction gearing Group includes gear wheel one, pinion gear one, gear wheel two and pinion gear two；Gear wheel one and pinion gear one coaxially assemble, canine tooth Wheel two and pinion gear two coaxially assemble, and gear wheel one is engaged with preceding corresponding intermediate gear transmission, pinion gear one and gear wheel Two mutually transmission engagements, pinion gear two are engaged with front gear transmission.

9. the high steady driving ripping device of a kind of sandstone machine as described in claim 1, it is characterised in that：The swing arm oil cylinder Component is double head oil cylinder, which has the piston rod that cylinder body and both ends stretch out cylinder body；Cylinder body is rotatablely connected In associated supports, the lower end of piston rod is rotatably connected on forward spindle case, and the upper end of piston rod is equipped with adjusting nut.

10. the high steady driving ripping device of a kind of sandstone machine as described in claim 1, it is characterised in that：The ripsaw Piece is also equipped with saw blade cover, which includes fixed cover, movable guard and overturning oil cylinder；Fixed cover is fixed by fixing buckle pacifies Loaded on longitudinal sectional component, movable guard is rotatably connected on the top of fixed cover, and overturning oil cylinder is connected between fixed cover and movable guard, To drive movable guard to make rotary movement.