CN102825652A - Movable multifunctional energy-saving environment-friendly screw type extruding brick making machine - Google Patents

Abstract

A movable multifunctional energy-saving environment-friendly screw type extruding brick making machine comprises a motor, an automotive rear axle, a pressure shaft, a shifting paw, a screw type extruding reamer, large and small crank cases and cranks, a connection rod, a pull rod, a cam shaft and a cam, a hopper, a feed cylinder, a green-brick mold input-output device, a green-brick output device, a bracket, a rack, and a eight-wheel moving device, and is characterized by being provided with a dig hopper for feeding materials; the screw type extruding reamer extrudes the materials on the green-brick mold from the feed cylinder until green bricks are formed; the green bricks are pressed and pumped on a conveyor belt by the interconnection and cooperation of the crankshafts, the connection rod, the pull rod, the cam shaft and the cam, a gear shaft and a gear, and then transmitted out by the conveyor belt device.

Description

The spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective

One, affiliated technical field

The present invention is innovative, and to relate to spiral extruding be principle; The spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective, especially can distinguish common brickmaking machine not available energy-conservation, reduce the thrifty spiral extruding brickmaking machine of mobile multifunctional environmental protection on human and material resources, the financial resource.

Two, background technology

The present known common supporting machine of brickmaking machine in the base process: excavator; Draw native machine; Earth mover, rooter, crowded sheet machine, mud bar machine, seven links of mud-strip cutting machine cooperatively interact down, and operation could be accomplished whole base process together, and the production link of this chain-type is indispensable, causes the waste of the human, financial, and material resources and the energy to country.

Three, summary of the invention

Lack limit in order to overcome existing brickmaking machine technology; Can not give the consumption of the national thrifty human, financial, and material resources and the energy, the spiral extruding brickmaking machine of novel mobile multifunctional environmental protection, flexible against the small and exquisite conveniently moving of the bodily form; With spiral extruding is principle; The spiral extruding reamer of unique exterior design and relevant important transmission parts cooperate operation, this technological improvement, not only give the existing energy-saving and emission-reduction of advocating of country this advocate and match; Also give country thrifty huge human, financial, and material resources and the consumption of the energy, also break the traditional mode of production on this industry of whole brickmaking simultaneously.

Four, the technical scheme that adopted of innovative its technical problem of solution of the present invention is

Long 4.6 meters of the spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective fuselage, wide 1.5 meters, high 2 meters; Conduct oneself with dignity 1186 kilograms; Fuselage base lower end is provided with eight adjustable moving runners, and convenient and any place can work production, compared with the green brick machine of conventional fixed; Reduce the excavator shoveling, drawn native machine to draw soil, three links of earth mover mound, all be different from the characteristic of the energy-conserving and environment-protective that common brickmaking machine do not possess from the fuselage design.

On structure and the operation principle, more can embody the characteristic of multi-functional environment-protection internally:

Do not start before this machine; (opening) checks whether top tank has enough lubricating oil earlier; When lubricants capacity is sufficient, opens fuel tank control valve control oil mass flow velocity and be lubricated, check again whether lower fuel tank has lubricating oil to immerse; Just explain that the lubricant passage way parts have had enough oil lubrication, have formed closed circuit if having.

Open compressibility control power switch, start compression motor, the motor gear that is provided with on motor gear and the compression automobile axle front end gear shaft is connected, and produces power, transmission of power, drives and compresses automobile axle front end gear shaft and gear.The feeding gear shaft gear that is provided with on the compression automobile axle front end gear shaft is connected with the feeding gear shaft gear; Produce power, transmission of power; Drive feeding gear shaft gear and rear end gear; Feed spool gear shaft rear end gear with dig the bucket teeth wheel axle gear and be connected, produce power, transmission of power, drive and dig bucket teeth wheel shaft and gear.Dig the bucket teeth wheel shaft and carry out axle with clutch release shaft and link to each other, produce power, transmission of power, drive clutch release shaft with axle.Clutch release shaft is separated by clutch shifter control and combines, and declutch shaft divides the rear and front end, and the material gear shaft is dug in the front end connection, and hopper digging chain gear shaft is dug in the rear end connection.The clutch release shaft shift fork: control separator separates axle separates and combines.When shift fork when the separation point position, clutch release shaft digs bucket teeth wheel shaft axle with front end to be separated with axle, simultaneously corresponding clutch separation shaft rear end with dig hopper digging chain gear shaft axle and separate with axle, stop transmission of power.When shift fork pushes binding site; Clutch release shaft and front end dig bucket teeth wheel shaft axle and connect with axle; Produce power, transmission of power, drive clutch release shaft, simultaneously corresponding clutch separation shaft rear end with dig hopper digging chain gear shaft axle and connect with axle; Produce power, transmission of power, drive and dig hopper digging chain gear shaft; Digging chain gear shaft gear: have and dig the hopper chain and connect the digging chain gear shaft gear be arranged on the correspondence on the bucket, produce power, transmission of power, drive digging chain gear shaft and gear on the bucket, be welded on and dig hopper and chain run-in synchronism on the chain.The material from bucket dig deliver to the compression hopper.The corresponding digging chain that digs on hopper digging chain gear shaft wheel gear and the bucket is set on the bucket gear shaft digs the bucket teeth wheel axle gear and be connected, produce power, transmission of power, drive bucket gear shaft and gear; On the bucket gear shaft; The correspondence that is provided with is agitated on gear shaft gear and the bucket and is agitated the gear shaft gear to be connected, and produces power, transmission of power, drives the bucket Sheng and agitates gear shaft; Agitating gear shaft to agitate pusher dog to be arranged on agitates on the gear shaft; With agitating gear shaft to turn round, paddling is agitated plate, agitates plate to slide into the material rotating plate orientation to the material in the bucket quickly.The material rotating plate gear shaft gear mesh that is provided with on material rotating plate gear shaft gear and the bucket gear shaft on the bucket should be connected; Produce power, transmission of power, drive material rotating plate gear shaft and gear, material rotating plate is welded on the material rotating plate gear shaft; Turn round with gear shaft; Turn over the material of agitating plate to slide into by material rotating plate and into to dig the hopper orientation, send into material in the compression hopper from bucket, accomplish the feeding process by digging hopper.

Open the compressibility power switch, start compression motor, motor gear be arranged on compression automobile axle front end gear mesh and should be connected generation power, transmission of power, driving automobile back axle, lower end abutment shaft.Automobile axle lower end abutment shaft carries out axle with spiral extruding reamer pressure axis and docks with axle, produces power, transmission of power, drives spiral extruding reamer pressure axis, carries out transmission of power; Spiral extruding reamer pressure axis branch: compression fixture: compression pusher dog, screw extrusion reamer three parts; The compression fixture: the pressure axis right ends is provided with fixed mount and silk hole nut, is fastened on spiral crowded reamer pressure axis on the body frame; Compression pusher dog branch: pusher dog, pusher dog head, from the compression hopper, send in the compression barrel material; The screw extrusion reamer docks with spiral extruding reamer pressure axis, produces power, transmission of power, drives spiral extruding reamer, and in the compression barrel, powerful extruding is pressed into the adobe internal mold material, forms until adobe, accomplishes compression process.

Open the induction system power switch, start and carry motor, be arranged on the vertical end tooth wheel of the automobile axle of carrying on the motor and should be connected, produce power, transmission of power, the horizontal end power output shaft of driving automobile back axle with the gear mesh of carrying the setting of automobile axle front end.Carry the large crankshaft gear shaft in horizontal end power output shaft of automobile axle and the crankcase, carry out axle and dock, produce power, transmission of power, drive large crankshaft gear shaft gear and bent axle in the crankcase with axle;

Crankcase is provided with large and small crankcase, crank teeth wheel shaft and gear.Large crankshaft in the Daqu axle box: the gear on the gear shaft on three ends before, during and after the branch, the gear on the front end bent axle and small crankshaft case is meshed generation power, transmission of power; Drive the small crankshaft running in the small crankshaft case, be arranged on preceding " getting device " cam of camshaft on top on the small crankshaft case, under the paddling of small crankshaft top bent axle; Produce power, transmission of power, " getting device " cam of camshaft before driving, preceding " getting device " cam of camshaft drives camshaft; Preceding " getting device " camshaft is connected with preceding " getting device " connecting rod, produces power, transmission of power, the pulling connecting rod; Preceding " getting device " connecting rod is connected with preceding " getting device " pressure bearing pull bar, produces power, transmission of power, pulling pressure bearing pull bar; Pressure bearing is fastened on the pressure bearing pull bar, turns round with pull bar, and the piston before driving on " getting device " turns round up and down; Preceding " getting device " re-packs and is arranged on the inwall of piston upper body, turns round up and down with piston, waits the adobe external mold; Before arriving fully during " getting device " position, get on conveyer belt by preceding " getting device " " adobe " force feed of sending the adobe external mold here that re-packs.

The middle-end bent axle is connected with the outer connecting rod of crankcase, produces power, transmission of power, middle-end bent axle drivening rod; Connecting rod is connected with adobe die drawing plate, connecting rod pulling adobe die drawing plate, and external mold is fastened on the adobe die drawing plate; Turn round with adobe die drawing plate, internal mould device is pressed a row brickmaking mode with external mold one in external mold; Go forward side by side simultaneously, front and back are back and forth moved, and send into compression and drain position to the adobe internal mold.

On large crankshaft position, two tops about middle-end bent axle binding connective pole, device has back " getting device " cams of two lock shapes, during the large crankshaft running; Turn round with large crankshaft, and with crankcase in back " getting device " cam of camshaft gear of being provided be meshed, produce power, transmission of power; Drive back " getting device " camshaft, back " getting device " camshaft is connected with outer back " getting device " connecting rod of crankcase, produces power, transmission of power; The pulling connecting rod, connecting rod is connected with back " getting device " pressure bearing pull bar, produces power, transmission of power; Pulling pressure bearing pull bar, pressure bearing is fastened on pressure and holds on the pull bar, turns round with pull bar; The piston that drives on the back " getting device " turns round up and down, and back " getting device " re-packs and is arranged on the inwall of piston upper body, turns round up and down with piston; Arrive the back fully during " getting device " position Deng the adobe external mold, get on the conveyer belt by back " getting device " the adobe force feed of sending the adobe external mold here that re-packs.

Large crankshaft rear end in the crankcase, the crankshaft toothed wheel shaft gear is meshed with the gear shaft gear of the interior conveyer belt that is provided with of crankcase, produces power, transmission of power; Conveyer belt gear shaft and gear in the driving box; The conveyer belt gear shaft that is arranged in conveyer belt gear shaft and the crankcase on the crankcase shell is with the root axle, conveyer belt gear shaft and gear that the driven in synchronism case is outer, and the conveyer belt gear shaft gear that is arranged on the crankcase shell is connected with gear shaft wheel shaft on the conveyor belt support; Produce power, transmission of power; Drive the gear shaft wheel shaft on the conveyer belt, conveyer belt is fixed on the conveyer belt gear shaft wheel shaft, and conveyer belt turns round with conveyer belt gear shaft wheel shaft; See the adobe that forward and backward " getting device " force feed is got outside the body off, accomplish course of conveying.

Five, beneficial effect

The innovative beneficial effect of the present invention is; The spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective; With spiral extruding is principle, and design on the brick-making technology of spiral extruding reamer disposable extrusion modling in the compression barrel and the successful utilization of spiral extruding reamer angle technology in the compression barrel only need the spiral extruding reamer of transposing; Not only can produce fired brick but also can produce non-burning brickly, just can reach multi-functional, this designing requirement of energy-saving and environmental protection.

Description of drawings

Be elaborated below in conjunction with accompanying drawing

Fig. 1 is a brickmaking machine lubricant oil road structure sketch map

Fig. 2 is the positive overall structure sketch map of brickmaking machine

Fig. 3 is a brickmaking machine reverse side overall structure sketch map

Fig. 4 is that feeding funnel process sprocket wheel connects sketch map

Fig. 5-9 separates sketch map for feeding process sprocket wheel connects important null part

Figure 10-14 is a compression process STRUCTURE DECOMPOSITION sketch map

Figure 15-20 carries the operation process exploded view for preceding " getting device " connects

Figure 21-23 touches arm-tie for adobe and connects conveying operation process exploded view

Figure 24-28 carries the operation process exploded view for back " getting device " connects

Figure 29-31 carries the operation process exploded view for conveyer belt

Figure 32 is adjustable mobile deflecting roller sketch map

The lubricant oil road structure sketch map

Structure title: 1; Last axle box 2; Brickmaking machine adobe die drawing plate oil inlet pipe 3; Brickmaking machine adobe die drawing plate oil inlet pipe three-way control valve 4; Brickmaking machine adobe die drawing plate left side oil inlet pipe 5; Brickmaking machine adobe die drawing plate right side oil inlet pipe 6; Lubrication hole 7 before the brickmaking machine adobe die drawing plate left side; Central oiling hole, brickmaking machine adobe die drawing plate left side 8; Back, brickmaking machine adobe die drawing plate left side lubrication hole 9; Lubrication hole 10 before the brickmaking machine adobe die drawing plate right side; Central oiling hole, brickmaking machine adobe die drawing plate right side 11; Lubrication hole 12 behind the brickmaking machine adobe die drawing plate right side; Brickmaking machine adobe die drawing plate left side oil return pipe 13; Brickmaking machine adobe die drawing plate right side oil return pipe 14; Lower fuel tank threeway oil return pipe 15; Lower fuel tank 16; Brickmaking machine adobe mould moves wheel oil inlet pipe 17; Brickmaking machine adobe mould moves wheel oil inlet pipe switch 18; Brickmaking machine moves wheel

The lubricant passage way conspectus further specifies

Connect fuel tank on brickmaking machine adobe die drawing plate oil inlet pipe 2, the upper end; Communicate; Connecting brickmaking machine oil inlet pipe three-way control valve 3 under the lower end, linking to each other and communicating is lubricated, and oil inlet pipe control valve 3 lower ends link to each other with brickmaking machine adobe die drawing plate left side oil inlet pipe 4 respectively and communicate, and linking to each other with right side brickmaking machine adobe die drawing plate oil inlet pipe 5 communicates again; Brickmaking machine adobe die drawing plate left side oil inlet pipe 4 carries out respectively fuel feed hole before, during and after 6,7, the 8 fuel feed holes left side brickmaking machine adobe die drawing plate; Linking to each other and communicating is lubricated left side hydraulic pressure ball arm-tie, brickmaking machine adobe die drawing plate oil inlet pipe 5, and carrying out respectively links to each other and communicate 9,10,11 fuel feed holes carries out right side hydraulic pressure ball arm-tie is lubricated; Keep steady-working state, increase work efficiency.Lubricating oil in 12,13 oil return pipes of the brickmaking machine adobe die drawing plate left and right sides comes together in the lower fuel tank threeway oil return pipe 14, and lower fuel tank threeway oil return pipe links to each other with lower fuel tank 15 and communicates and reclaims the lubricating oil collection after lubricated and be deposited in the lower fuel tank.Move and to connect lower fuel tank on the wheel oil inlet pipe upper end and link to each other and communicate, the lower end is moved to connect under the wheel oil inlet pipe and is moved wheel oil inlet pipe switch 17 and link to each other and communicate, and opens to move the wheel switch and be lubricated and move wheel 18, makes to move wheel and move smooth and easy.

Like Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, shown in Figure 8; Open compressibility control power switch 19; Start compression motor 20; The motor gear 23 that is provided with on motor gear 21 and the compression automobile axle 22 front end gear shafts is connected, and produces power, transmission of power, drives compression automobile axle front end gear shaft and gear.The feeding gear shaft gear 24 that is provided with on the compression automobile axle front end gear shaft is connected with the feeding gear shaft gear; Produce power, transmission of power; Drive feeding gear axle front end gear 25 and rear end gear 26, feeding gear shaft rear end gear 26, feeding gear shaft rear end gear with dig bucket teeth wheel axle gear 27 and be connected; Produce power, transmission of power, drive and dig bucket teeth wheel shaft and gear.Dig bucket teeth wheel shaft 28 and clutch release shaft and carry out axle and dock, produce power, transmission of power, drive clutch release shaft 29 with axle.Clutch release shaft is separated by clutch shifter 30 control and combines, and declutch shaft divides the rear and front end, and bucket teeth wheel shaft 28 is dug in the front end connection, and hopper digging chain gear shaft 31 is dug in the rear end connection.Clutch release shaft shift fork 30: control 29 separation of separator separates axle and combine.When shift fork 30 during to the separation point position, clutch release shaft 29 and front end dig 28 on bucket teeth wheel shaft to be separated with axle, simultaneously corresponding clutch release shaft 29 rear ends with dig 31 of hopper digging chain gear shafts and separate with axle, stop transmission of power.When shift fork 30 pushes binding site; Clutch release shaft 29 digs 28 on bucket teeth wheel shaft with front end and axle connects; Produce power, transmission of power, drive clutch release shaft 29, simultaneously corresponding clutch release shaft 29 rear ends with dig 31 of hopper digging chain gear shafts and connect with axle; Produce power, transmission of power, drive and dig hopper digging chain gear shaft 31 and gear 32; Digging chain gear shaft gear 32: by dig the hopper chain connect 33 connect the correspondence that is arranged on the bucket digging chain gear shaft gear 34; Produce power, transmission of power; Drive digging chain gear shaft 35 and gear on the bucket; Dig hopper 36 and be welded on the chain 33, dig hopper 36 and chain 33 run-in synchronisms.Dig material from bucket 37 and to deliver to compression material 38 buckets.With dig hopper digging chain gear shaft 35 on the bucket on the corresponding hopper digging chain gear shaft wheel gear 40 that digs is set on the gear 39 that is provided with and the bucket gear shaft and is connected generation power, transmission of power, drive bucket gear shaft 41 and gear; 41 correspondences that are provided with are agitated on gear shaft gear 42 and the bucket and are agitated gear shaft gear 43 to be connected on the bucket gear shaft; Produce power, transmission of power; Drive the bucket Sheng and agitate gear shaft 44, agitate gear shaft to agitate pusher dog 45 to be arranged on and agitate on the gear shaft 44, with agitating gear shaft 44 runnings; Paddling is agitated plate 46, agitates plate 46 to slide into the material rotating plate orientation to the material in the bucket 37 quickly.Material rotating plate gear shaft gear 48 corresponding connections on the material rotating plate gear shaft gear 47 that is provided with on the bucket gear shaft and the bucket; Produce power, transmission of power, drive material rotating plate gear shaft 49 and gear, material rotating plate 50 is welded on the material rotating plate gear shaft 49; With gear shaft 49 runnings; Turn over the material of agitating plate sliding 46 to advance by material rotating plate 50 and into to dig hopper 36 orientation, send into material in compression material 38 buckets from bucket 37, accomplish the feeding process by digging hopper 36.

Like Fig. 2, Fig. 3, Figure 10, Figure 11, Figure 12, shown in Figure 13; Open compressibility power switch 19; Start compression motor 20; Motor gear 21 be arranged on compression automobile axle 22 front end gear shafts on motor gear 23 corresponding connection, produce power, transmission of power, automobile axle lower end butt joint 51 is compressed in drive.Compression automobile axle lower end butt joint 51 and spiral extruding reamer pressure axis 52 carry out axle and spool dock, and generation power, transmission of power drive spiral extruding reamer pressure axis 52, carry out transmission of power; Spiral extruding reamer pressure axis 52 minutes: compression fixture 53: compression pusher dog 54, spiral extruding reamer 55 3 parts; 53 compression fixtures: the pressure axis right ends is provided with fixed mount and silk hole nut, is fastened on spiral crowded reamer pressure axis 52 on the body frame 56; Compression pusher dog 54 minutes: pusher dog, pusher dog head, from compression hopper 38, send in the compression barrel 57 material; Screw extrusion reamer 55 docks with spiral extruding reamer pressure axis 52, produces power, transmission of power, drives spiral extruding reamer 55, and in compression barrel 57, powerful extruding is pressed in the adobe internal mold 58 material, forms until adobe, accomplishes compression process.

Like Fig. 2, Fig. 3, Figure 15, Figure 16, Figure 17, Figure 18, Figure 19, shown in Figure 20; Open induction system power switch 59; Start and carry motor 60; The motor gear 63 corresponding connections that 62 bridge front ends are provided with after being arranged on the vertical end tooth wheel 61 of the automobile axle of carrying on the motor and carrying automobile produce power, transmission of power, the horizontal end power output shaft 64 of driving automobile back axle.Carry horizontal end power output shaft 64 of automobile axle and the interior large crankshaft gear shaft of crankcase, preceding terminal teeth wheel shaft 65 carries out axle and docks with axle, produces power, transmission of power, drives large crankshaft gear shaft gear and bent axle in the Daqu axle box;

Crankcase is provided with large and small crankcase, crank teeth wheel shaft and gear.Large crankshaft in the Daqu axle box 66: the gear 69 on the small crankshaft gear shaft on three ends before, during and after the branch, the gear 67 on the front end bent axle and small crankshaft case 68 is meshed generation power, transmission of power; Drive small crankshaft 70 runnings in the small crankshaft case, be arranged on preceding " getting device " cam of camshaft 71 before the bent axle of top on the interior small crankshaft case of small crankshaft case, under the paddling of small crankshaft top bent axle 72; Produce power, transmission of power, " getting device " cam of camshaft 71 before driving drives camshaft 73 on " getting device " camshaft 73 before preceding " getting device " cam of camshaft is arranged on; Preceding " getting device " camshaft 73 is connected with preceding " getting device " connecting rod 74, produces power, transmission of power, pulling connecting rod 74; Preceding " getting device " connecting rod 74 is connected with preceding " getting device " pressure bearing pull bar 75, produces power, transmission of power, pulling pressure bearing pull bar 75; Pressure bearing 76 is fastened on the pressure bearing pull bar 75; With pull bar 75 running, the piston 78 before driving on " getting device " 77 turns round up and down, and preceding " getting device " re-packs and 79 be arranged on the piston upper body inwall 80; Turn round up and down with piston 78; Deng the adobe internal mold, before arriving fully during " getting device " 77 positions, get on conveyer belt by preceding " getting device " " adobe " force feed that 79 adobe internal molds 58 send here that re-packs.

Like Fig. 2, Fig. 3, Figure 21, Figure 22, shown in Figure 23, large crankshaft middle-end bent axle 81 is connected with connecting rod 82 outside the crankcase in the Daqu axle box, produces power, transmission of power; Middle-end bent axle 81 drivening rods 82, connecting rod 82 is connected with adobe die drawing plate 83, connecting rod 82 pulling adobe die drawing plates 83; External mold 84 is fastened on the adobe die drawing plate 83, and with 83 runnings of adobe die drawing plate, internal mold 58 is arranged on external mold interior 84; Press a row brickmaking mode with external mold 84 1; Go forward side by side simultaneously, front and back are back and forth moved, and send into compression and drain position to adobe internal mold 58.

Like Fig. 3, Figure 24, Figure 25, Figure 26, Figure 27, shown in Figure 28, large crankshaft middle-end bent axle 81 links about connective poles on the large crankshaft position, two tops in the Daqu axle box, and device has two back " getting device " cams 85 of locking shapes; Large crankshaft when running, turn round with large crankshaft, and with crankcase in back " getting device " cam of camshaft 86 of being provided be meshed; Produce power, transmission of power, drive back " getting device " camshaft 87, back " getting device " camshaft 87 is connected with outer back " getting device " connecting rod 88 of crankcase; Produce power, transmission of power, pulling connecting rod 88, connecting rod 88 is connected with back " getting device " pressure bearing pull bar 89; Produce power, transmission of power, pulling pressure bearing pull bar 89, pressure bearing 90 is fastened on pressure and holds on the pull bar 89; With pull bar 89 runnings; The piston 92 that drives on " the getting device " 91 of back turn round up and down, and back " getting device " re-packs and 93 be arranged on the piston upper body inwall 94, turns round up and down with piston 92; Arrive the back fully during " getting device " 91 positions Deng adobe internal mold 58, get on the conveyer belt by back " getting device " the adobe force feed that 93 adobe internal molds send here that re-packs.

Like Fig. 3, Figure 29, Figure 30, shown in Figure 31; Large crankshaft rear end 95 in the Daqu axle box, crankshaft toothed wheel shaft gear 96 is meshed with the gear shaft gear 97 of the interior conveyer belt that is provided with of crankcase, produces power, transmission of power; Conveyer belt gear shaft 98 and gear in the driving box; The conveyer belt gear shaft 99 that is arranged on the crankcase shell is with the root axle with conveyer belt gear shaft in the crankcase, and conveyer belt gear shaft and gear that the driven in synchronism case is outer are arranged on conveyer belt gear shaft gear 100 and conveyor belt support 101 on the crankcase shell shaft gear 102 that cogs and are connected; Produce power, transmission of power; Drive the gear shaft wheel shaft 103 on the conveyor belt support, conveyer belt 104 is fixed on conveyor belt support and cogs on the arbor wheel axle 103, with conveyor belt support arbor wheel axle 103 runnings that cog; See the adobe that forward and backward " getting device " force feed is got outside the body off, accomplish course of conveying.

Shown among Fig. 3 20, the spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective, compression motor adopt power be in 5.5 kilowatts speed motor as this machine compression motor; Produce among power, transmission of power and Fig. 2 shown in 60; Carrying motor to take power is that speed motor is carried motor as this machine in 4.5 kilowatts, produces power, transmission of power, innovative supporting with the present invention; 3-5 people's compounding practice is arranged, but brickmaking base 1800-2100 piece per hour.

Shown in figure 32, adjustable mobile deflecting roller 105 is that principle is carried out the technological innovation design improvement with the automobile mechanical steer drive, has designed and has produced eight of utility model and taken turns deflecting roller, and eight take turns the bogie wheel configuration technology wouldn't disclose.

Claims (9)

1. the spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective comprises motor, automobile axle, digs hopper, device " is got " in hopper, barrel, pay-off, pressure axis, pusher dog, spiral extruding reamer, adobe mould, compression set, big or small crankcase and bent axle, camshaft and cam, gear shaft and gear, connecting rod, pull bar, adobe die drawing plate, front and back, adobe mould I/O device, support, frame, eight are taken turns mobile device, tank lubrication oil circuit device etc. up and down.

2. the spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective according to claim 1; It is characterized in that: do not start before this machine, (opening) checks whether top tank has enough lubricating oil earlier, when lubricants capacity is sufficient; Opening fuel tank control valve control oil mass flow velocity is lubricated; Check that more whether lower fuel tank has lubricating oil to immerse, and just explains that the lubricant passage way parts have had enough oil lubrication, have formed closed circuit if having.

3. the spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective according to claim 1; It is characterized in that: open compressibility control power switch; Start compression motor; The motor gear that is provided with on motor gear and the compression automobile axle front end gear shaft is connected, and produces power, transmission of power, drives compression automobile axle front end gear shaft and gear.The feeding gear shaft gear that is provided with on the compression automobile axle front end gear shaft is connected with the feeding gear shaft gear; Produce power, transmission of power; Drive feeding gear shaft gear and rear end gear; Feed spool gear shaft rear end gear with dig the bucket teeth wheel axle gear and be connected, produce power, transmission of power, drive and dig bucket teeth wheel shaft and gear.Dig bucket teeth wheel shaft and clutch release shaft and carry out axle and dock, produce power, transmission of power, the drive clutch release shaft with axle.Clutch release shaft is separated by clutch shifter control and combines, and declutch shaft divides the rear and front end, and the material gear shaft is dug in the front end connection, and hopper digging chain gear shaft is dug in the rear end connection.The clutch release shaft shift fork: control separator separates axle separates and combines.When shift fork when the separation point position, clutch release shaft digs bucket teeth wheel shaft axle with front end to be separated with axle, simultaneously corresponding clutch separation shaft rear end with dig hopper digging chain gear shaft axle and separate with axle, stop transmission of power.When shift fork pushes binding site; Clutch release shaft and front end dig bucket teeth wheel shaft axle and connect with axle; Produce power, transmission of power, drive clutch release shaft, simultaneously corresponding clutch separation shaft rear end with dig hopper digging chain gear shaft axle and connect with axle; Produce power, transmission of power, drive and dig hopper digging chain gear shaft; Digging chain gear shaft gear: have and dig the hopper chain and connect the digging chain gear shaft gear be arranged on the correspondence on the bucket, produce power, transmission of power, drive digging chain gear shaft and gear on the bucket, be welded on and dig hopper and chain run-in synchronism on the chain.The material from bucket dig deliver to the compression hopper.The corresponding digging chain that digs on hopper digging chain gear shaft wheel gear and the bucket is set on the bucket gear shaft digs the bucket teeth wheel axle gear and be connected, produce power, transmission of power, drive bucket gear shaft and gear; On the bucket gear shaft; The correspondence that is provided with is agitated on gear shaft gear and the bucket and is agitated the gear shaft gear to be connected, and produces power, transmission of power, drives the bucket Sheng and agitates gear shaft; Agitating gear shaft to agitate pusher dog to be arranged on agitates on the gear shaft; With agitating gear shaft to turn round, paddling is agitated plate, agitates plate to slide into the material rotating plate orientation to the material in the bucket quickly.The material rotating plate gear shaft gear mesh that is provided with on material rotating plate gear shaft gear and the bucket gear shaft on the bucket should be connected; Produce power, transmission of power, drive material rotating plate gear shaft and gear, material rotating plate is welded on the material rotating plate gear shaft; Turn round with gear shaft; Turn over the material of agitating plate to slide into by material rotating plate and into to dig the hopper orientation, send into material in the compression hopper from bucket, accomplish the feeding process by digging hopper.

4. the spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective according to claim 1; It is characterized in that: open the compressibility power switch; Start compression motor, motor gear be arranged on compression automobile axle front end gear mesh and should be connected generation power, transmission of power; The driving automobile back axle, the lower end butt joint.The butt joint of automobile axle lower end is carried out axle with spiral extruding reamer pressure axis and is docked with axle, produces power, transmission of power, drives spiral extruding reamer pressure axis, carries out transmission of power; Spiral extruding reamer pressure axis branch: compression fixture: compression pusher dog, screw extrusion reamer three parts; The compression fixture: the pressure axis right ends is provided with fixed mount and silk hole nut, is fastened on spiral crowded reamer pressure axis on the body frame; Compression pusher dog branch: pusher dog, pusher dog head, from the compression hopper, send in the compression barrel material; The screw extrusion reamer docks with spiral extruding reamer pressure axis, produces power, transmission of power, drives spiral extruding reamer, and in the compression barrel, powerful extruding is pressed in the adobe internal mold material, forms until adobe, accomplishes compression process.

5. the spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective according to claim 1; It is characterized in that: open the induction system power switch; Start and carry motor; Be arranged on the vertical end tooth wheel of the automobile axle of carrying on the motor and should be connected, produce power, transmission of power, the horizontal end power output shaft of driving automobile back axle with the gear mesh of carrying the setting of automobile axle front end.Carry the large crankshaft gear shaft in horizontal end power output shaft of automobile axle and the crankcase, carry out axle and dock, produce power, transmission of power, drive large crankshaft gear shaft gear and bent axle in the crankcase with axle;

6. the spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective according to claim 1, it is characterized in that: crankcase is provided with large and small crankcase, crank teeth wheel shaft and gear.Large crankshaft in the Daqu axle box: the gear on the small crankshaft on three ends before, during and after the branch, the gear on the front end bent axle and small crankshaft case is meshed generation power, transmission of power; Drive the small crankshaft running in the small crankshaft case, be arranged on preceding " getting device " cam of camshaft before the bent axle of top on the interior small crankshaft case of small crankshaft case, under the paddling of small crankshaft top bent axle; Produce power, transmission of power, " getting device " cam of camshaft before driving, preceding " getting device " cam of camshaft drives camshaft; Preceding " getting device " camshaft is connected with preceding " getting device " connecting rod, produces power, transmission of power, the pulling connecting rod; Preceding " getting device " connecting rod is connected with preceding " getting device " pressure bearing pull bar, produces power, transmission of power, pulling pressure bearing pull bar; Pressure bearing is fastened on the pressure bearing pull bar, turns round with pull bar, and the piston before driving on " getting device " turns round up and down; Preceding " getting device " re-packs and is arranged on the inwall of piston upper body, turns round up and down with piston, waits the adobe external mold; Before arriving fully during " getting device " position, get on conveyer belt by preceding " getting device " " adobe " force feed of sending the adobe internal mold here that re-packs.

7. the spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective according to claim 1 is characterized in that: the middle-end bent axle is connected with the outer connecting rod of crankcase, produces power, transmission of power; Middle-end bent axle drivening rod, connecting rod is connected with adobe die drawing plate, connecting rod pulling adobe die drawing plate; External mold is fastened on the adobe die drawing plate, turns round with adobe die drawing plate, and internal mould device is in external mold; Press a row brickmaking mode with external mold one; Go forward side by side simultaneously, front and back are back and forth moved, and send into compression and drain position to the adobe internal mold.

8. the spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective according to claim 1 is characterized in that: on large crankshaft position, two tops about middle-end bent axle binding connective pole, device has back " getting device " cams of two lock shapes; Large crankshaft when running, turn round with large crankshaft, and with crankcase in back " getting device " cam of camshaft gear of being provided be meshed; Produce power, transmission of power, drive back " getting device " camshaft, back " getting device " camshaft is connected with outer back " getting device " connecting rod of crankcase; Produce power, transmission of power, the pulling connecting rod, connecting rod is connected with back " getting device " pressure bearing pull bar; Produce power, transmission of power, pulling pressure bearing pull bar, pressure bearing is fastened on pressure and holds on the pull bar; Turn round with pull bar; The piston that drives on the back " getting device " turns round up and down, and back " getting device " re-packs and is arranged on the inwall of piston upper body, turns round up and down with piston; Arrive the back fully during " getting device " position Deng the adobe external mold, get on the conveyer belt by back " getting device " the adobe force feed of sending the adobe internal mold here that re-packs.

9. the spiral extruding brickmaking machine of mobile multifunctional energy-conserving and environment-protective according to claim 1; It is characterized in that: large crankshaft rear end in the crankcase, the crankshaft toothed wheel shaft gear is meshed with the gear shaft gear of the interior conveyer belt that is provided with of crankcase, produces power, transmission of power; Conveyer belt gear shaft and gear in the driving box; The conveyer belt gear shaft that is arranged in conveyer belt gear shaft and the crankcase on the crankcase shell is with the root axle, conveyer belt gear shaft and gear that the driven in synchronism case is outer, and the conveyer belt gear shaft gear that is arranged on the crankcase shell is connected with gear shaft wheel shaft on the conveyor belt support; Produce power, transmission of power; Drive the gear shaft wheel shaft on the conveyer belt, conveyer belt is fixed on conveyor belt support and cogs on the arbor wheel axle, turns round with the gear shaft wheel shaft on the conveyor belt support; See the adobe that forward and backward " getting device " force feed is got outside the body off, accomplish course of conveying.

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