CN107269281B - A kind of flexible and efficient molding sand rock machine - Google Patents

Abstract

The present invention discloses a kind of flexible and efficient molding sand rock machine, includes moving trolley, total driving assembly, longitudinal sectional component and crosscutting component；Total driving assembly includes power source and input shaft；Longitudinal sectional component includes driving gear set, forward spindle and longitudinal sectional saw blade, and driving gear set is sequentially connected between input shaft and forward spindle；Crosscutting component includes bevel gear group, side main shaft and crosscutting saw blade, and bevel gear group is sequentially connected between input shaft and side main shaft, and crosscutting saw blade is mounted on the main shaft of side.Crosscutting component further includes having movable axis, and movable axis is connected on input shaft by splined member coaxial transmission, and bevel gear group is sequentially connected between movable axis and side main shaft；Lateral oil cylinder is installed on moving trolley.The present invention designs longitudinal sectional component and the ingenious combination of crosscutting component, and the two shares one group of total driving assembly, and total driving assembly is fixed external installation, it is succinct in this complete machine structure, rationally, manipulation is easy for design, brings longitudinal sectional and crosscutting steady reliable, efficient advantage.

Description

A kind of flexible and efficient molding sand rock machine

The application be to be on June 1st, 2016 application No. is the 201610382575.3, applying date, subject name is " a kind of The divisional application that sandstone machine " proposes.

Technical field

The present invention relates to a kind of stone mining equipment, in particular to a kind of flexible and efficient molding sand rock machines.

Background technique

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；Cross-cut saw unit Part, jack saw piece also move horizontally while rotation, and to complete horizontal section cutting, while jack saw piece is also designed to liftable, To realize the cutting of horizontal section different height.With this, since longitudinal sectional sawing machine component and crosscutting sawing machine component respectively need to complete The movement of multidimensional, stone mining equipment all at present, longitudinal sectional sawing machine component and crosscutting sawing machine component are mutually indepedent design, It is wherein especially length sawing piece and each one group of rotary drive mechanism of self-configuring of jack saw piece palpus, structure is complicated, manipulates cumbersome.Furthermore no Longitudinal sectional sawing machine component or crosscutting sawing machine component are managed, multidimensional movements design all uses rotary drive mechanism to set with saw blade integral type Meter, i.e., carry out saw blade move horizontally or during descending operation, rotary drive mechanism synchronization action therewith, first to reality It now moves horizontally higher with the associated mechanisms performance requirement of descending operation, second also will affect and to move horizontally or descending operation Efficiency, precision, and even influence the runnability of complete machine.

In consideration of it, inventor furthers investigate the above problem, and innovatively propose a kind of flexible and efficient molding sand Thus rock machine, this case generate.

Summary of the invention

The purpose of the present invention is to provide a kind of flexible and efficient molding sand rock machines, and longitudinal sectional and crosscutting dexterously combine is designed, Simultaneously by the dexterously seperated design of rotary drive assembly and saw blade, bring simple for structure, manipulation is easy, steadily reliably, high efficiency The advantages that.

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

A kind of flexible and efficient molding sand rock machine includes moving trolley and the total driving assembly being located on the moving trolley, longitudinal sectional group Part and crosscutting component；Total driving assembly includes the power source and input shaft being mutually sequentially connected；Longitudinal sectional component includes transmission Gear set, forward spindle and longitudinal sectional saw blade, driving gear set are sequentially connected between input shaft and forward spindle, and longitudinal sectional saw blade is mounted on On forward spindle；Crosscutting component includes bevel gear group, side main shaft and crosscutting saw blade, and bevel gear group is sequentially connected in input shaft and side Between main shaft, crosscutting saw blade is mounted on the main shaft of side；The crosscutting component further includes having movable axis, and movable axis passes through splined member Coaxial transmission is connected on input shaft, and bevel gear group is sequentially connected between movable axis and side main shaft；Cross is installed on moving trolley To oil cylinder, which is connect to drive the crosscutting component to move horizontally along the axial direction of movable axis with crosscutting component.

Be connected with a forward spindle case between the input shaft and forward spindle, driving gear set be installed in forward spindle case and The two is configured to one using input shaft as the gear driven type swing arm of fulcrum, its swing of drive is connected in the gear driven type swing arm Swing arm cylinder component.

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 further include having double reduction gearing group, which is misplaced by big pinion gear Transmission connection is constituted.

The swing arm cylinder component is double head oil cylinder, the work which there is cylinder body and both ends to 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 side main shaft is the double-deck king post system structure comprising the central axis and hollow shaft for having inside and outside spline to be arranged；Umbrella Gear set is connect with Hollow Shaft Transmission；Crosscutting saw blade is installed in the lower end of central axis, and the upper end of central axis is connected with for band The central axis is moved with respect to the lifting cylinder component that hollow shaft is gone up and down.

The crosscutting component has been additionally provided with the guider assembly of horizontally-guided, which is that piston type guiding is total At comprising there are rod set, piston rod and piston body；Rod set level is fixedly mounted, and piston rod is movably arranged in rod set, piston rod Outer end is stretched out rod set and is connected on crosscutting component；Piston body is arranged on the piston rod, and the lateral wall of the piston body is recessed There is oil guide groove, the slot both ends of the oil guide groove are arranged side by side along the axial direction of rod set and slot both ends are opening-like.

It is additionally provided with eight drives walking component on the moving trolley, includes the first driving headstock, second main in the distribution of vehicle four-wheel Dynamic case, the first driven headstock and the second driven headstock；First driving headstock is equipped with total driving source, first driving headstock and the second driving headstock It is sequentially connected between the ipsilateral setting in front and back and the two by main connecting shaft；First driven headstock and the second driven headstock are in front and back difference one One is correspondingly arranged at the first driving headstock, by the second driving headstock, and the first driven headstock and the first driving headstock are connected by the first secondary connecting shaft transmission It connects, the second driven headstock and the second driving headstock are sequentially connected by the second secondary connecting shaft；First driving headstock, the second driving headstock, first from Two traveling wheels that front and back is arranged respectively are sequentially connected on dynamic case and the second driven headstock.

The power source is the internal combustion engine as flexible and efficient molding sand rock machine single power source.

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 on longitudinal sectional component by fixing buckle, 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, a kind of flexible and efficient molding sand rock machine of the present invention, beneficial effect compared with the existing technology exist In:

One, longitudinal sectional component and the ingenious combination of crosscutting component are designed, the two shares one group of total driving assembly, and longitudinal sectional component is logical Driving gear set is crossed to realize the transmission connection of longitudinal sectional saw blade Yu total driving assembly, crosscutting component realizes cross by bevel gear group The transmission connection for cutting saw blade Yu total driving assembly, succinct in this complete machine structure, rationally, manipulation is easy for design；

Two, total driving assembly is fixed external installation, makees dexterously seperated design with longitudinal sectional saw blade, crosscutting saw blade, Other dimensions of longitudinal sectional saw blade and crosscutting saw blade to movements design ingenious can avoid total driving assembly and make independent design, in This brings longitudinal sectional and crosscutting steady reliable, efficient advantage；

Three, wherein driving gear set can be dexterously designed as swing arm knot by longitudinal sectional component, the lifting action of longitudinal sectional saw blade Structure can succinctly and simply drive longitudinal sectional saw blade to swing up and down while rotation in this need by a swing arm cylinder component, It is longitudinally cutting to complete；

Four, wherein crosscutting component, the horizontal balance of crosscutting component, can design the movable axis of spline fitted to realize horizontal shifting It is dynamic, it is moved horizontally while this need can succinctly by a lateral oil cylinder and simply belt driven cross-cut saw piece rotates, with complete It is cut at horizontal section；

Five, further, crosscutting component is also designed to liftable, is at this time innovatively designed as the side main shaft of crosscutting component double Layer king post system structure, in this ensure crosscutting saw blade be driven to rotate act while, only need to be by a lifting cylinder component, i.e., Longitudinal sectional saw blade lifting can succinctly and be simply driven, realizes the simple adjustment of horizontal section height.

Six, eight drives walking component further, is additionally provided on moving trolley, by the first driving headstock, the second driving headstock, first driven Case and four part of the second driven headstock composition, four part are distributed in vehicle four-wheel, are corresponded to novel side and are connect mode, compact structure letter Clean, reasonable Arrangement occupies little space, and is not take up the bottom principal space of moving trolley, is very beneficial to install；Furthermore four part Between transmission flexibly connected by a main connecting shaft and second mate's connecting shaft, each part has two traveling wheels of front and back setting, constitutes list Motor eight drives transmission, and driveability is excellent, walks on sandstone track, non-slip, crosses a pit simply, and stationarity is good, and shock resistance is good, Very big benifit is brought to the excellent running of flexible and efficient molding sand rock machine.

Detailed description of the invention

Fig. 1 is the perspective view of flexible and efficient one angle of molding sand rock machine of the present invention；

Fig. 2 is the perspective view of the flexible and efficient another angle of molding sand rock machine of the present invention；

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

Fig. 4 is the installation diagram of total driving assembly of the flexible and efficient molding sand rock machine of the present invention, longitudinal sectional component and crosscutting component；

Fig. 5 is the exploded view of Fig. 4；

Fig. 6 is the decomposition diagram of the longitudinal sectional component of the present invention；

Fig. 7 is the cross-sectional view at the input shaft position in Fig. 6；

Fig. 8 is the cross-sectional view at the forward spindle position in Fig. 6；

Fig. 9 is the structural exploded view of the crosscutting component of the present invention；

Figure 10 is the cross-sectional view of the crosscutting component of the present invention；

Figure 11 is the enlarged drawing of part A in Figure 10；

Figure 12 is the enlarged drawing of part B in Figure 10；

Figure 13 is the perspective view of guider assembly of the present invention；

Figure 14 is the cross-sectional view of guider assembly of the present invention；

Figure 15 is the exploded view of guider assembly of the present invention；

Figure 16 is the schematic diagram of swing arm cylinder component；

Figure 17 is the schematic diagram of saw blade cover；

Figure 18 is the structural schematic diagram that the present invention eight drives walking component；

Figure 19 is the diagrammatic cross-section connected between eight drives walking the first driving headstock of component and the second driving headstock；

Figure 20 is the longitudinal profile connected between eight drives walking the first driving headstock of component and the first driven headstock；

Figure 21 is the cross-sectional schematic diagram connected between eight drives walking the first driving headstock of component and the first driven headstock；

Figure 22 is the longitudinal profile connected between eight drives walking the second driving headstock of component and the second driven headstock；

Figure 23 is the cross-sectional schematic diagram connected between eight drives walking the second driving headstock of component and the second driven headstock.

Label declaration

Moving trolley 1:

Chassis 11, oscillating arm bracket 12, portal support 13, oil cylinder installation position 111, assembly installation position 112；

Total driving assembly 2:

Power source 21, input shaft 22, big belt pulley 23, splined member 24, connecting flange 25,

Oil seal 26, adjustment hole 221；

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；Rear axle bearing assembly 351, front axle bearing assembly 352,

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

Crosscutting component 4:

Bevel gear group 41, side main shaft 42, crosscutting saw blade 43, movable axis 44, lateral oil cylinder 45；

Shell 46, lifting cylinder component 49；Large bevel gear 411, cone pinion 412；

Central axis 421, shaft part 4211 on spline, smoothly lower shaft part 4212；

Hollow shaft 422, spline housing section 4221, piston rod 491；

Guide sleeve 461, side spindle box 462, lift adjustment seat 463, auricle 464, adjusting screw rod 465；

Wearing piece 471, gear spacer 472, main shaft bearing component 473；

Connecting flange 481, lifting bearing component 482, bearing cap 483, oil seal 484, blend stop 485；

Guider assembly 5:

Rod set 51, piston rod 52, piston body 53, plug 54, terminal pad 55, oil seal 56；

Oil guide groove 531, oil supplying hole 541, wear-resisting ring 551；

Saw blade cover 6:

Fixed cover 61, movable guard 62, overturning oil cylinder 63, fixing buckle 64；

Eight drive walking component 7:

Total driving source 70, the first driving headstock 71, the second driving headstock 72, the first driven headstock 73,

Second driven headstock 74, main connecting shaft 75, the first secondary connecting shaft 76, the second secondary connecting shaft 77；

First walking main wheel 711, the first walking accessory whorl 712, the first bevel gear group 713,

First master gear 714, the first pinion 715,

Input gear 7161, first accepts gear 7162, and second accepts gear 7163,

Output gear 7164, bearing shaft 7165,

First layer connects gear 717, First Transition gear 718；

Second walking main wheel 721, the second walking accessory whorl 722, the second bevel gear group 723,

Second master gear 724, the second pinion 725,

The second layer connects gear 727, the second transition gear 728；

Third walking main wheel 731, third walking accessory whorl 732,

Third master gear 734, third pinion 735, third transition gear 738；

Fourth line walks main wheel 741, and fourth line walks accessory whorl 742,

4th master gear 744, the 4th pinion 745, the 4th transition gear 748；

Track 8；

Hydraulic oil container 91, electric cabinet 92, operation lower platform 93, left support 94, protective net 95,

Wire guide channels 96, sunshade 97.

Specific embodiment

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

This case is related to a kind of flexible and efficient molding sand rock machine, mainly includes moving trolley 1, and be located at the row as shown in Figs. 1-5 Total driving assembly 2, longitudinal sectional component 3 and crosscutting component 4 in mule carriage 1.

Total driving assembly 2 includes mainly the power source 21 and input shaft 22 being mutually sequentially connected.Be sequentially connected a kind of reality Applying mode is belt transmission 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 figs 6-8, 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.Such as Fig. 5, Fig. 9 Shown, crosscutting component 4 mainly includes bevel gear group 41, side main shaft 42 and crosscutting saw blade 43；The transmission connection of bevel gear group 41 exists Between input shaft 22 and side main shaft 42, crosscutting saw blade 43 is mounted on side main shaft 42.

When flexible and efficient molding sand rock machine operation, total driving assembly 2 starts, and power source 21 is rotated with driven input shaft 22.Rotation Input shaft 22 via driving gear set 31 drive forward spindle 32 rotate, to drive longitudinal sectional 33 rotary operation of saw blade；Turn simultaneously Dynamic input shaft 22 drives side main shaft 42 to rotate via bevel gear group 41, thus 43 rotary operation of belt driven cross-cut saw piece.

It preferably uses and makees for flexible and efficient molding sand rock machine single power of the invention source about the power source 21 For the internal combustion engine in single power source, compares and use motor power source mode or other modes, the flexible and efficient type of the present invention Internal combustion engine is particularly used on the basis of the structure-property design of sandstone machine, overall structure can be made more succinct, power drive is more Add it is reliable and stable, using, without by environment or electric power etc. being influenced or being constrained, practical performance is strong in exploitation, it is had the advantages of And bring benefit is very prominent.

The flexible and efficient molding sand rock machine of the present invention designs longitudinal sectional component 3 and the ingenious combination of crosscutting component 4, and the two shares one group Total driving assembly 2, total driving assembly 2 be it is fixedly mounted, pass through transmission gear respectively with longitudinal sectional saw blade 3, crosscutting saw blade 4 Group 31 and 41 mode of bevel gear group make dexterously seperated design, thus longitudinal sectional to realize under the premise of external total driving assembly 2 Other dimensions of saw blade 33 and crosscutting saw blade 43 to movements design support is provided, i.e., the present invention is not only by longitudinal sectional component 3 and crosscutting Installation external can be fixed in the common driving assembly of the ingenious combination of component 4 design, simplified structure, while the two, with the two Other tie up to movements design it is mutually seperated independent, improve the steady reliable of longitudinal sectional and crosscutting respectively various operations and efficiently in this Rate.

About longitudinal sectional component 3, the lifting action of longitudinal sectional saw blade 33 is designed, and can dexterously be designed as putting by driving gear set 31 Arm configuration, in this need by a swing arm cylinder component 36, while can succinctly and simply driving longitudinal sectional saw blade 33 to rotate It swings up and down, it is longitudinally cutting to complete.Specifically, as shown in Figure 4-8, before being connected with one between input shaft 22 and forward spindle 32 Spindle box 34, the correspondence of driving gear set 32 are installed in forward spindle case 34, and driving gear set 32 and forward spindle case 34 this two Person is configured to a gear driven type swing arm with input shaft 22 for fulcrum, is connected with swing arm oil cylinder group in the gear driven type swing arm Part 36, to drive the swing arm to swing.Under the premise of will not influence driving gear set 31 and drive longitudinal sectional 33 spinning movement of saw blade, lead to The flexible of control swing arm cylinder component 36 is crossed, can driving gear driven type swing arm, (i.e. drive forward spindle case 34 is together with driving cog Wheel group 32 and longitudinal saw blade 33) it swings up and down, realize longitudinal 33 oscillating lifting of saw blade movement.Certain swing process is without driving phase It closes driving assembly to act therewith, oscillating lifting is simple for structure, and smooth operation is reliable and efficient.

The connection type of the forward spindle case 34 is that the rear end of forward spindle case 34 passes through rear axle bearing assembly 351 and input shaft The front end of 22 connections, forward spindle case 34 is 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.The rear axle bearing assembly 351, front axle bearing assembly 352 and gear-bearing component 353 include that the bearing and bearing block mutually assembled is correspondingly provided with when being equipped with multiple groups gear among driving gear set 31 Multiple groups gear-bearing component 353.The installation hole location that installation is corresponded for each bearing assembly is offered on forward spindle case 34.

The driving gear set 31, as shown in fig. 6, 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 that is mounted 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 successively driven engagement.In the specific embodiment provided, intermediate gear assemblies 312 are equipped with four groups to be successively sequentially connected, 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, it is designed as double reduction gearing group 314 by two groups of least significant end of intermediate gear assemblies 312, the double reduction gearing Group 314 is made of the dislocation transmission connection of big pinion gear.Specifically, as shown in fig. 6, 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 are preferably in setting in one line, and are 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 6) rear long-armed and toward the bottom, swing arm oil Cylinder component 36 is correspondingly connected at rear long-armed position, is designed in this way the flat of the swinging operation and longitudinal sectional saw blade 33 for being relatively conducive to swing arm Steady lifting.

As shown in fig. 7, the big belt pulley 23 is mounted at one end of input shaft 22, the end adapter peace of input shaft 22 Equipped with internal gland and outer press cover.Rear axle bearing assembly 351 on input shaft 22 is equipped with symmetrical two groups, two groups of rear axle bearing assemblies 351 Outer end be equipped with bearing cap.Wherein one group of rear axle bearing assembly 351 is disposed adjacent with big belt pulley 23, and sealing is equipped between the two The inside of disk, corresponding adjacent bearing cap is equipped with oil seal 26.It is again provided between another group of rear axle bearing assembly 351 and input shaft 22 Oil seal 26.

As shown in figure 8, 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 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 of saw blade 33, which is installed, to be needed, 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 folder 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. 5, Figure 16, the swing arm cylinder component 36 uses double head oil cylinder, which has 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 use double head oil cylinder structure, conducive to the rotary type installation for making concision and compact；And the rotary type installation of double head oil cylinder itself, make it It is more suitable for driving swing arm swinging operation.Importantly, the design of the adjusting nut 363 of double head oil cylinder, it only need to be by adjusting spiral shell Mother 363 can simply adjust the amplitude peak that swing arm cylinder component 36 drives the swing arm bottom, swing arm amplitude of fluctuation is brought simply may be used The effect of tune.

About crosscutting component 4, horizontal direction movement can realize horizontal shifting by designing the movable axis 44 of spline fitted It is dynamic, it can be moved horizontally while succinct 43 rotation of belt driven cross-cut saw piece in this need by a lateral oil cylinder 45, to complete water Flat section cutting.Specifically, as shown in figs. 9-10, crosscutting component 4 further includes having movable axis 44, the other end of input shaft 22 Equipped with splined member 24, movable axis 44 and 24 spline of splined member are assembled, movable axis 44 by splined member 24 realize with it is defeated Enter the connection of 22 coaxial transmission of axis.Bevel gear group 41 is sequentially connected between movable axis 44 and side main shaft 42, specifically, bevel gear group 41 have large bevel gear 411 and cone pinion 412, and large bevel gear 411 is mounted on movable axis 44, and cone pinion 412 is mounted on On side main shaft 42.Lateral 45 level of oil cylinder is fixedly mounted on moving trolley 1, is specifically mounted on the oil cylinder installation position of chassis 11 At 111.The piston rod of the transverse direction oil cylinder 45 is connect with crosscutting component 4, to drive the crosscutting component 4 along the axial water of movable axis 44 Translation is dynamic.

The movable axis 44 is mobile with crosscutting 4 level of synchronization of component, and movable axis 44 is cooperated still by splined member 24 Constantly keep and 22 Synchronous Transmission of input shaft.In this, 41 belt driven cross-cut saw piece of bevel gear group, 43 spinning movement will not influence Under the premise of, by controlling the flexible of lateral oil cylinder 45, can driving crosscutting component, (i.e. drive movable axis 44 is together with bevel gear group 41, side main shaft 42 and crosscutting saw blade 43) it moves horizontally, that realizes crosscutting saw blade 43 moves horizontally movement.Certainly it moved horizontally Cheng Wuxu drives associated drives component to act therewith, and translation structure is succinct, and smooth operation is reliable and efficient.

Core component of the side main shaft 42 as flexible and efficient molding sand rock machine transverse direction sawing, by controlling lifting cylinder group Stretching for part 49, can make lift adjustment to central axis 421, finally realize the succinct lifting action of crosscutting saw blade 43, realize water The simple and efficient adjustment of flat profile height.It is sequentially connected by hollow shaft 422, on the one hand, rotary drive assembly drive activity Axis rotation drives hollow shaft 422 to rotate via bevel gear group 41, finally can synchronous drive central axis 421 and the rotation of crosscutting saw blade 43 Rotation is made；On the other hand, movable axis 44 is assembled using spline, can succinctly be driven in this need by a lateral oil cylinder crosscutting Saw blade 43 moves horizontally while rotation, to complete horizontal section cutting.

The mounting means of the splined member 24 is that the end of input shaft 22 is equipped with connecting flange 25, passes through the connection Flange 25 is correspondingly connected with splined member 24.Connecting flange 25 and splined member 24 are properly fitted into rear axle bearing assembly 351. Furthermore it is acted to be conducive to the horizontal extension of movable axis 44, the end of input shaft 22 offers adjustment hole 221, the adjustment hole 221 It is correspondingly arranged with splined member 24, for 44 horizontal extension of movable axis.

Preferably, crosscutting component 4 further includes having shell 46, and side main shaft 42 and bevel gear group 41 are mounted on the shell 46 It is interior.The piston rod of lateral oil cylinder 45 is connected with shell 46.In embodiment, shell 46 is additionally provided with connecting plate 466, lateral oil cylinder 45 Piston rod is connected with connecting plate 466.

As shown in figure 9, the shell 46 includes the guide sleeve 461 and side spindle box 462 for being vertically connected with setting.Side main shaft 42 and bevel gear group 41 be installed in side spindle box 462, the top of side main shaft 42 extends in guide sleeve 461.

Further, crosscutting component 4 is also designed to liftable, is at this time innovatively designed as the side main shaft 42 of crosscutting component 4 The double-deck king post system structure, in this ensure crosscutting saw blade 43 be driven to rotate act while, only need to pass through a lifting cylinder group Part 49 can succinctly belt driven cross-cut saw piece 43 go up and down, realize the simple and efficient adjustment of horizontal section height.Specifically, such as Shown in Fig. 9-10, side main shaft 42 is the double-deck king post system structure comprising the central axis 421 and hollow shaft for having inside and outside spline to be arranged 422.Bevel gear group 41 and hollow shaft 422 are sequentially connected, i.e., cone pinion 412 is mounted in hollow shaft 422.Central axis 411 Lower end stretches out hollow shaft 422 and installs crosscutting saw blade 43.The upper end of central axis 411 connects lifting cylinder component 49, uses Make lifting action with respect to hollow shaft 412 in the drive central axis 411.

Spline assembles inside and outside the central axis 421 and hollow shaft 422, and bevel gear group 41 can be synchronized via hollow shaft 422 Drive central axis 421 and 43 spinning movement of crosscutting saw blade；It will not influence 422 belt driven cross-cut saw piece of hollow shaft, 43 spinning movement Under the premise of, by the flexible of control lifting cylinder component 49, it can succinctly drive central axis 421 and crosscutting saw blade 43 to go up and down dynamic Make.The descending operation process of crosscutting saw blade 43 only has central axis 421 with its component gone up and down, and other any parts are not necessarily to It acts therewith, lifting is very simple, steady, reliable, accurate high efficiency again.

Preferably, as shown in figs9-12, central axis 421 has on spline that shaft part 4211 is peaceful slides shaft part 4212, this is flat It slides shaft part 4212 to be nested in hollow shaft 422, the upper end composition of hollow shaft 422 has compatible with shaft part 4211 on spline Spline housing section 4221.Life problems are reduced in order to avoid wearing between central axis 421 and hollow shaft 422, are inlayed in hollow shaft 422 Embedded with wearing piece 471, which is set between central axis 421 and hollow shaft 422, makes central axis 421 and hollow shaft 422 Between there are microgaps, to reduce abrasive action between the two.

It is equipped with gear spacer 472 by correspondence cone pinion 412 in hollow shaft 422, carries out isolating and protecting effect.Hollow shaft 422 are assembled by main shaft bearing component 473 and side spindle box 462, and main shaft bearing component 473 is equipped with upper and lower two groups, side spindle box It is also equipped bearing cap at 462 upper and lower ends, is equipped with oil seal on the inside of bearing cap.

Preferably, as shown in figs. 9-11, the upper end of the shell 46 is additionally provided with lift adjustment seat 463, lifting cylinder group Part 49 is mounted on the lift adjustment seat 463, installation that the adaptation to realize lifting cylinder component 49 is adjustable.Specifically, it goes up and down Adjustment seat 463 is set in the upper end of guide sleeve 461, is equipped with auricle 464 on lift adjustment seat 463 and guide sleeve 461, the ear Piece 464 is equipped with the adjusting screw rod 465 for adjusting.By being arranged the corrective action of assembly and adjusting screw rod 465, lifting is realized The simple adjustable operation that cylinder component 49 is installed.

The mounting means of the lifting cylinder component 49 is that the piston rod 491 of lifting cylinder component 49 is connected with connection method Orchid 481, the upper end of central axis 421 is equipped with lifting bearing component 482, and the connecting flange 481 and lifting bearing component 482 are solid Fixed connection.Lifting bearing component 482 is locked in the upper end of central axis 421 by nut piece, lifting bearing component 482 up and down Side is equipped with bearing cap 483, and oil seal 484 is equipped between the bearing cap 483 and central axis 421.Furthermore it is steady in order to promote lifting Property, lifting bearing component 482 is equipped with retaining groove, is fixed with the blend stop 485 being vertically arranged, retaining groove and blend stop in guide sleeve 461 485 activities are coupled, and are guided lifting bearing component 482 and central axis 421 by blend stop 485 and are steadily gone up and down.

Further, in order to promote the accurate stability that crosscutting component 4 moves horizontally, crosscutting component 4 has also been equipped with level The guider assembly 5 of guiding.As illustrated in figs. 13-15, which is the piston type guiding assemblage of innovation comprising is had Rod set 51, piston rod 52 and piston body 53.Rod set 51 is horizontal to be fixedly mounted, and the assembly installation of chassis 11 is specifically fixedly mounted on At position 112.Piston rod 52 is movably arranged in rod set 51, and the outer end of piston rod 52 stretches out rod set 51 and is connected to crosscutting component On 4, specifically it is connected on the connecting plate 466 of crosscutting component 4.Piston body 53 is set on piston rod 52, the outside of the piston body 53 Wall is recessed with oil guide groove 531, and the slot both ends of the oil guide groove 531 are arranged side by side along the axial direction of rod set 51, and slot both ends are in opening Shape.

Guider assembly 5 of the present invention, is oriented to using piston type, and guiding is precisely reliable.More it is crucial that piston body 53 and thereon Oil guide groove 531 new structural design, the inner cavity of rod set 51 is divided into two chambers by piston body 53；Crosscutting component 4 is horizontal to be moved During dynamic, piston rod 52 makees expanding-contracting action with respect to rod set 51, and piston body 53 moves back and forth, by the company of oil guide groove 531 Logical effect, lubricating oil are drained with moving repeatedly for piston body 53 in two chambers back and forth, and extremely excellent profit is played with this Sliding effect, ensure that the persistence of the smooth of 5 guiding role of guider assembly, flattening effect and the effect.

In the specific embodiment provided, guider assembly 5 is equipped with parallel three groups, is arranged in angular distribution, guide effect And accuracy is more preferably.Further more, piston body 53 is set on the inner end of piston rod 52 in embodiment, the inner end of piston rod 52 Necking down is a mounting portion, and piston body 53 is set on mounting portion.It is mounted on inner end, acts piston body 53 with piston rod 52, The partition of performance and connection drainage are more preferably.In addition, the bottom of rod set 51 is additionally provided with plug 54, confession is offered on the plug 54 Oilhole 541, in favor of fuel feeding effect.

The oil guide groove 531 can be equipped with several, and structure be, slot both ends be arranged side by side along the axial direction of rod set 51 and Slot both ends are opening-like.The specific embodiment provided, helically slot structure, spiral disk are located at piston body 53 to oil guide groove 531 On lateral wall, such more conducively guide functions.

Further more, the top of rod set 51 be equipped with terminal pad 55, with 112 assembly connection of assembly installation position.In the terminal pad 55 It is embedded with the corresponding wear-resisting ring 551 being set on piston rod 52, is served anti-wear.In addition, in order to reinforce the oil in rod set 51 Sealing property is additionally provided with oil sealing disk 56 at the top of rod set 51, and the inside of the oil sealing disk 56 is equipped with the sealing cooperated with piston rod 52 Circle.

Preferably, longitudinal sectional saw blade 3 is also equipped with saw blade cover 6, and as shown in figure 17, which includes fixed cover 61, lives Dynamic cover 62 and overturning oil cylinder 63.Fixed cover 61 is fixedly installed on the front axle bearing assembly 352 of longitudinal sectional component 3 by fixing buckle 64, 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 can drive movable guard 62 to make overturning and be provide with movement.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.

Each cylinder component is hydraulic cylinder component, is also equipped with hydraulic oil container 91 on moving trolley 1.On moving trolley 1 also Operation lower platform 93 is additionally provided with by electric cabinet 92 in order to be conducive to manipulation equipped with electric cabinet 92.The structure of each component on moving trolley 1 It is distributed as, power source 21 and hydraulic oil container 91 or so are disposed adjacent, and the two is set to the middle part of moving trolley 1, crosscutting component 4 and longitudinal sectional Component 3 is set to the front of moving trolley 1, and electric cabinet 92 and operation lower platform 93 are set to the rear portion of moving trolley 1.The structure distribution is succinct It is compact.It can be provided with left support 94 on power source 21, play protective action, wire guide channels 96 can be set on left support 94, Supply lines is succinctly arranged.The top of hydraulic oil container 91 is equipped with protective net 95, plays protective action.In order to reinforce in operator's operation Comfort, be also provided with sunshade 97 in the rear portion of moving trolley 1.

Preferably, it is additionally provided with eight drives walking component 7 on moving trolley 1, includes to be distributed in vehicle four-wheel as shown in Figure 18-23 The first driving headstock 71, the second driving headstock 72, the first driven headstock 73 and the second driven headstock 74.First driving headstock 71 is equipped with unique Total driving source 70.Total driving source 70 can use motor, and hydraulic driving machine (the hydraulic horse of oil pressure actuated also can be used Up to).

First driving headstock 71 and the second driving headstock 72 are in the ipsilateral setting in front and back, are sequentially connected between the two by main connecting shaft 75. First driven headstock 73 and the second driven headstock 74 are in the ipsilateral setting in front and back, and correspond be set to the first driving headstock 71, the respectively By two driving headstocks 72.First driven headstock 73 and the first driving headstock 71 are sequentially connected by the first secondary connecting shaft 76, the second driven headstock 74 It is sequentially connected with the second driving headstock 72 by the second secondary connecting shaft 77.

First driving headstock 71, the second driving headstock 72, the first driven headstock 73 and the second driven headstock 74 are that the present invention eight drives walking The four of component are most of.Two traveling wheels that front and back is arranged respectively are sequentially connected in four major part.Specifically, first The first walking main wheel 711 and the first walking accessory whorl 712 are connected on driving headstock 71；The second walking is connected on second driving headstock 72 Main wheel 721 and the second walking accessory whorl 722；Third walking main wheel 731 and third walking accessory whorl are connected on first driven headstock 73 732；It is connected with that fourth line walks main wheel 741 and fourth line walks accessory whorl 742 on second driven headstock 74.

By a main connecting shaft 75 and second mate's connecting shaft 76,77, flexibly connection is driven between four major parts of eight drive walking components, is matched Two traveling wheels that each part has front and back setting to be set, single motor eight is constituted in this and drives transmission, driving force is big, and it is non-slip, it puts down Stability is fabulous.Further more, the present invention eight drives being distributed in vehicle four-wheel for walking component, connection type is using a main connecting shaft 75 and second mate Connecting shaft 76,77 makees side and sets transmission connection, and compact structure is succinct, and reasonable Arrangement occupies little space, and is not take up the bottom master of moving trolley Space is very beneficial to flexible and efficient molding sand rock machine installation, it may also be possible to apply the invention for certainly and flexible and efficient molding sand rock machine class As in other walking machine equipment.

Preferably, in order to conducive to compact-sized setting, as depicted in figs. 18-19, the first driving headstock 71 and the second driving headstock 72 Using upper layer and lower layer formula structure, the main transmission connection of connecting shaft 75 is on the upper layer of the first driving headstock 71 and the upper layer of the second driving headstock 72 Between；Between the lower layer and the first driven headstock 73 of the first driving headstock 71, the second secondary connecting shaft 77 is driven for the first secondary transmission connection of connecting shaft 76 It is connected between the lower layer of the second driving headstock 72 and the second driven headstock 74.This kind of main connecting shaft 75 lifting appropriate design, also acts as and keeps away It allows flexible and efficient molding sand rock thermomechanical components, brings succinct conducive to complete machine, compact and reliable design and assembly effect.

First driving headstock 71, the second driving headstock 72, the first driven headstock 73 and the respective internal biography of the second driven headstock 74 Dynamic connection type, is given below a preferred embodiment.

Transmission connection in first driving headstock 71, preferred embodiment, as shown in figs. 19-21, in the first driving headstock 71 Equipped with the first bevel gear group 713, the first master gear 714 and the first pinion 715.The corresponding end of total driving source 70 and main connecting shaft 75 Transmission connection, main connecting shaft 75 are sequentially connected by the first bevel gear group 713 and the first master gear 714, the installation of the first master gear 714 On the first secondary connecting shaft 76, the external first walking main wheel 711 of the corresponding end of the first secondary connecting shaft 76；First master gear 714 is logical It crosses the first pinion 715 and is driven external first walking accessory whorl 712.

As shown in figures 20-21, third master gear 734 and third pinion 735 are equipped in first driven headstock 73.Third Master gear 734 is mounted on the first secondary connecting shaft 76, the external third walking main wheel 731 of the corresponding end of the first secondary connecting shaft 76, the Three master gears 734 are driven external third walking accessory whorl 732 by third pinion 735.

Transmission connection in second driving headstock 72, preferred embodiment, as shown in Figure 19, Figure 22-23, the second driving headstock The second bevel gear group 723, the second master gear 724 and the second pinion 725 are equipped in 72.Main connecting shaft 75 passes through the second bevel gear group 723 and second master gear 724 be sequentially connected, the second master gear 724 is mounted on the second secondary connecting shaft 77, the second secondary connecting shaft 77 The external second walking main wheel 721 of corresponding end；Second master gear 724 is driven external second walking pair by the second pinion 725 Wheel 722.

As shown in figs. 22-23, the 4th master gear 744 and the 4th pinion 745 are equipped in second driven headstock 74.4th Master gear 744 is mounted on the second secondary connecting shaft 77, and the external fourth line of corresponding end of the second secondary connecting shaft 77 walks main wheel 741, the Four master gears 744 are driven external fourth line by the 4th pinion 745 and walk accessory whorl 742.

When component of walking drives moving trolley 1 to walk, total driving source 70 works, and main connecting shaft 75 is driven to rotate, that is, realizes single electricity Machine eight drives effect；Specific transmission principle is as follows:

Drive line one, main connecting shaft 75 are successively driven via the first bevel gear group 713, the first master gear 714, drive the first pair Connecting shaft 76 rotates, to drive the first walking rotation walking of main wheel 711；The first master gear 714 is via the first pinion 715 simultaneously Transmission drives the first walking 712 synchronous rotary of accessory whorl walking；

Drive line two, main connecting shaft 75 connect the second driving headstock 72, the main connecting shaft 75 of rotation via the second bevel gear group 723, First master gear 724 is successively driven, and the second secondary connecting shaft 76 is driven to rotate, to drive the second walking rotation walking of main wheel 721；Together When the second master gear 724 be driven via the second pinion 725, drive second walking 722 synchronous rotary of accessory whorl walking；

Drive line three, the first secondary connecting shaft 76 connect the first driven headstock 73, and the secondary connecting shaft 76 of the first of synchronous rotary drives third The rotation of main wheel 731 of walking is walked；Third master gear 734 is rotated with the first secondary connecting shaft 76 simultaneously, is passed via third pinion 735 It is dynamic, it is final to drive third walking 732 synchronous rotary of accessory whorl walking；

Drive line four, the second secondary connecting shaft 77 connect the second driven headstock 74, and the secondary connecting shaft 77 of the second of synchronous rotary drives the 4th The rotation of main wheel 741 of walking is walked；The 4th master gear 744 is rotated with the second secondary connecting shaft 77 simultaneously, is passed via the 4th pinion 745 It is dynamic, it is final that fourth line is driven to walk the walking of 742 synchronous rotary of accessory whorl.

Preferably, as shown in figure 19, it is connected between total driving source 70 and main connecting shaft 75 by motor-driven gear group, the motor Driving gear set preferred embodiment, including bearing shaft 765, input gear 761, first accept gear 762, second and accept gear 763 and output gear 764.Bearing shaft 765 and main connecting shaft 75 are arranged in parallel misalignment, and first accepts gear 762 and the second undertaking Gear 763 is mounted on bearing shaft 765.Output gear 764 is mounted on main connecting shaft 75, and the output gear 764 and second is accepted The transmission engagement of gear 763；Input gear 761 is engaged with the first undertaking transmission of gear 762, and input gear 761 is for total driving The spindle drive in source 70 is installed.

Total driving source 70 works, pass sequentially through input gear 761, first accept gear 762, second accept gear 763 and Output gear 764 finally drives main 75 rotary work of connecting shaft.Motor-driven gear group is not only conducive to motor using dislocation design The transmitting of driving force, while it being additionally favorable for the compact setting of drive mechanism, in preferred embodiment, the motor-driven gear group, main connecting shaft 75 and 713 compact and reasonable of the first bevel gear group be set to the first driving headstock 71 upper layer.

Preferably, as shown in figure 19, the first master gear 714 and the second pinion 715 are set to the lower layer of the first driving headstock 71, It is conducive to before and after the first walking main wheel 711 and the first walking accessory whorl 712 be set side by side with this and realizes that walking acts on.First umbrella tooth Wheel group 713 and the first master gear 714 are arranged in the first driving headstock 71 in upper and lower level, connect gear 717 by first layer between the two Transmission connection.Specifically, the rear end of the first bevel gear group 713, which is coaxially installed with, connects the mistake that gear 717 is meshed with first layer Ferry boat 719.The flexible cooperation of gear 717 is connect by the transition wheel 719 and first layer, not only realizes upper layer and lower layer connection, but also Inside contract the lower layer of the first driving headstock 71 can in inside and outside compact Layout, the first walking main wheel 711 and the first walking accessory whorl 712 Half hidden of lower position in upper layer designs.

Preferably, as shown in figure 22, the second master gear 724 and the second pinion 725 are set to the lower layer of the second driving headstock 72, It is conducive to before and after the second walking main wheel 721 and the second walking accessory whorl 722 be set side by side with this and realizes that walking acts on.Second umbrella tooth Wheel group 723 and the second master gear 724 are arranged in the second driving headstock 72 in upper and lower level, connect gear 727 by the second layer between the two Transmission connection.Specifically, the rear end of the second bevel gear group 723, which is coaxially installed with, connects the mistake that gear 727 is meshed with the second layer Ferry boat 729.The flexible cooperation of gear 727 is connect by the transition wheel 729 and the second layer, not only realizes upper layer and lower layer connection, but also Inside contract the lower layer of the second driving headstock 72 can in inside and outside compact Layout, the second walking main wheel 721 and the second walking accessory whorl 722 Half hidden of lower position in upper layer designs.

Preferably, as shown in figure 21, the first master gear 714 and the first pinion 715 are arranged in front and back, by the between the two The transmission connection of one transition gear 718.Third master gear 734 and third pinion 735 are arranged in front and back, pass through third mistake between the two Cross the transmission connection of gear 738.Similarly, as shown in figure 23, the second master gear 724 and the second pinion 725 are arranged in front and back, the two Between by the second transition gear 728 be sequentially connected.4th master gear 744 and the 4th pinion 745 are arranged in front and back, lead between the two Cross the transmission connection of the 4th transition gear 748.The design of transition gear, conducive to the arrangement and transmission effect of Double-gear.

The secondary connecting shaft 76 of the main connecting shaft 75, first and the second secondary connecting shaft 77, are mounted on corresponding cabinet by bearing assembly Interior, other intermediate gears equally realize installation by bearing assembly.

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

Claims (9)

1. a kind of flexible and efficient molding sand rock machine, it is characterised in that: include moving trolley and total driving group for being located on the moving trolley Part, longitudinal sectional component and crosscutting component；Total driving assembly includes the power source and input shaft being mutually sequentially connected；Longitudinal sectional component packet Driving gear set, forward spindle and longitudinal sectional saw blade are included, driving gear set is sequentially connected between input shaft and forward spindle, ripsaw Piece is mounted on forward spindle；Crosscutting component includes bevel gear group, side main shaft and crosscutting saw blade, and bevel gear group is sequentially connected defeated Enter between axis and side main shaft, crosscutting saw blade is mounted on the main shaft of side；The crosscutting component further includes having movable axis, and movable axis passes through Splined member coaxial transmission is connected on input shaft, and bevel gear group is sequentially connected between movable axis and side main shaft；On moving trolley Lateral oil cylinder is installed, the axial horizontal shifting which connect to drive the crosscutting component along movable axis with crosscutting component It is dynamic.

2. a kind of flexible and efficient molding sand rock machine as described in claim 1, it is characterised in that: between the input shaft and forward spindle It is connected with a forward spindle case, driving gear set is installed in forward spindle case and the two is configured to one using input shaft as the tooth of fulcrum Driven type swing arm is taken turns, the swing arm cylinder component for driving it to swing is connected in the gear driven type swing arm.

3. a kind of flexible and efficient molding sand rock machine as claimed in claim 1 or 2, it is characterised in that: the driving gear set includes There are input gear, intermediate gear assemblies and front gear；Input gear is mounted on input shaft, and front gear is mounted on forward spindle, Intermediate gear assemblies are sequentially connected between input gear and front gear.

4. a kind of flexible and efficient molding sand rock machine as claimed in claim 3, it is characterised in that: the intermediate gear assemblies further include There is double reduction gearing group, which is made of the dislocation transmission connection of big pinion gear.

5. a kind of flexible and efficient molding sand rock machine as claimed in claim 2, it is characterised in that: the swing arm cylinder component is double end Oil cylinder, the piston rod which there is cylinder body and both ends to stretch out cylinder body；Cylinder body is rotatably connected on moving trolley On bracket, 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.

6. a kind of flexible and efficient molding sand rock machine as described in claim 1, it is characterised in that: the side main shaft is the double-deck king post system Structure comprising the central axis and hollow shaft for thering is inside and outside spline to be arranged；Bevel gear group is connect with Hollow Shaft Transmission；Central axis Crosscutting saw blade is installed in lower end, and the upper end of central axis is connected with the lifting oil for driving the central axis with respect to hollow shaft lifting Cylinder component.

7. a kind of flexible and efficient molding sand rock machine as described in claim 1, it is characterised in that: the crosscutting component has been additionally provided with water The guider assembly of flat guiding role, the guider assembly are piston type guiding assemblage comprising have rod set, piston rod and piston Body；Rod set level is fixedly mounted, and piston rod is movably arranged in rod set, and the outer end of piston rod is stretched out rod set and is connected to crosscutting On the connecting plate of component；Piston body is arranged on the piston rod, and the lateral wall of the piston body is recessed with oil guide groove, the slot two of the oil guide groove End is arranged side by side along the axial direction of rod set and slot both ends are opening-like.

8. a kind of flexible and efficient molding sand rock machine as described in claim 1, it is characterised in that: be additionally provided with eight drives on the moving trolley Walking component includes the first driving headstock, the second driving headstock, the first driven headstock and the second driven headstock being distributed in vehicle four-wheel；The One driving headstock is equipped with total driving source, first driving headstock and the second driving headstock and passes through master between the ipsilateral setting in front and back and the two Connecting shaft transmission connection；First driven headstock and the second driven headstock are corresponded respectively set on the first driving headstock, second actively in front and back By case, the first driven headstock and the first driving headstock are sequentially connected by the first secondary connecting shaft, and the second driven headstock passes through with the second driving headstock Second secondary connecting shaft transmission connection；Respectively transmission connects on first driving headstock, the second driving headstock, the first driven headstock and the second driven headstock It is connected to two traveling wheels that front and back is arranged.

9. a kind of flexible and efficient molding sand rock machine as described in claim 1, it is characterised in that: the power source is as flexibly high The internal combustion engine in acting type sandstone machine single power source.