CN109224945A - A kind of novel cement homogenization equipment - Google Patents

Abstract

The present invention provides a kind of novel cement homogenization equipment, including equipment tank body, driving mechanism, break up storehouse, screening storehouse, mixing discharging bin and auxiliary body；The driving mechanism is located at equipment top of the tank, and is driven by the hydraulic turbine；The driving mechanism output is connected to main shaft；The main shaft is fixed on equipment tank body middle position, and passes through and break up storehouse, screening storehouse and mixing discharging bin；It is described break up in storehouse be equipped with break up cutterhead, counterpunch board, striker plate and screw conveyor；Sieve pore is equipped on the helical blade of the screw conveyor, the counterpunch board and striker plate are equipped with sieve pore, the counterpunch board and striker plate are independently detachable, the screening storehouse is equipped with air elutriator and vibration screen, the mixing discharging bin is equipped with mechanical stirring leaf, pneumatic agitation pipe and circulation stirring pipe, and the auxiliary body includes vacuum cleaner and settling tank.Utilitarian design of the present invention, break up it is high-efficient, homogenizing mixed effect it is excellent, overhaul of the equipments is convenient and efficient.

Description

A kind of novel cement homogenization equipment

Technical field

The invention belongs to cement making equipment technical fields, are related to a kind of novel cement homogenization equipment.

Background technique

Homo-effect has direct influence to cement quality in the production process of cement, the industrial powder used at this stage Body material homogenization installation mostly uses greatly multiple groups helical blade stirrer homogenizing to be transported to homogenizing storehouse again and is stored, and which is due to object Often occur " the end heap effect " in casting eduction and rectangle stockyard, homo-effect when material particle size range unevenness storage Difference.And if using pneumatic homognization method merely, although homo-effect is preferable, its equipment occupied ground is larger, equipment energy consumption Height, the big disadvantage of cost input have been no longer desirable for being laid out on modern increasingly automated production line.

To disclose a kind of cement powder automatic for the Chinese utility model application that publication number is CN201720157837.6 Homogenizer is stirred, homogenization installation technical field is belonged to.The utility model include screening machine, blender, actuating unit and Control device；Screening machine includes upper housing and is arranged in the intracorporal roto-siofter of upper casing；Blender includes stirring cylinder and stirs Mix the intracorporal paddle of bucket；Actuating unit includes motor, speed reducer, transmission shaft, driving chain；Screening machine is located at stirring The surface of machine drives roto-siofter rotation by driving chain；In one plane, paddle is straight for blender and actuating unit It connects and is mounted on transmission shaft, discharge port is arranged at stirring cylinder lower part, by using roto-siofter and blender combined operating.

Above scheme is easy to appear casting isolation without dispersing device, when material particles are uneven, sieves structure, agitating function Single, homo-effect is poor, and equipment energy consumption is high, and occupied space is big, not can solve end heap effect.

Summary of the invention

To solve the above problems, the present invention provides a kind of novel cement homogenization equipment.Including equipment tank body, driving machine Structure breaks up storehouse, screening storehouse, mixing discharging bin and auxiliary body；Device driver is driven by the hydraulic turbine, and driving spindle is worn It crosses and breaks up storehouse, screening storehouse and mixing discharging bin, equipment breaks up, horizontal screw conveyer, vertical screw type conveyer, pneumatic jig, bias Vibrating screen driving is taken turns by spindle drive power, can be realized automatic cycle break up, pre-sifted；The counterpunch board broken up is equipped with anti- Stifled sieve pore, mixing discharging bin are equipped with mechanical stirring leaf, pneumatic agitation pipe and circulation stirring and work simultaneously, and auxiliary body is used to It is dusted.The present invention is ingenious in design practical, enhances homogenizing mixed effect, also saves space, equipment operating efficiency is high, non- Often it is suitble to be used on cement production process.

Technical scheme is as follows:

A kind of novel cement homogenization equipment, including equipment tank body, driving mechanism, break up storehouse, screening storehouse, mixing discharging bin and auxiliary Mechanism is helped, the driving mechanism is fixed on equipment top of the tank, and is driven by the hydraulic turbine, the driving mechanism both ends connection There are inlet and outlet, the driving mechanism output is connected to gearbox, and the gearbox output is connected to main shaft；The master Axis is fixed on equipment tank body middle position, and passes through and break up storehouse, screening storehouse and mixing discharging bin；Described break up in storehouse is equipped with Cutterhead, counterpunch board, striker plate, horizontal screw conveyer and vertical screw type conveyer are broken up, the cutterhead of breaing up is fixed on axle sleeve Installation position on, the axle sleeve be equipped with spline housing, the axle sleeve be equipped with two groups, be bolted on main shaft；It is described anti- It hits plate and is set as circular shape, top is equipped with and is fixedly connected with block, and the block that is fixedly connected is connected to equipment tank body inner top, the gear Flitch, which is located at, breaks up cutterhead bottom, and the striker plate is set as fan shape, and the striker plate bottom is equipped with support rod, the backgauge Plate is fixed on support rod, and the counterpunch board bottom is fixed on support rod, and the support rod both ends are fixed on equipment tank body； The main shaft is equipped with angular wheel I, and the angular wheel I is engaged with the driven tapered gear I being arranged on driven shaft I, institute I one end of driven shaft is stated equipped with horizontal conveyor roller gear, the other end is equipped with the tapered gear of vertical-transmission, the horizontal conveyor cylinder Gear is engaged with the roller gear being arranged on horizontal screw conveyer, and the tapered gear of vertical-transmission is with setting in vertical spiral shell Revolve the angular wheel engagement on conveyer；The horizontal screw conveyer bottom is equipped with trough, and the trough is equipped with sieve pore, institute The cylinder casing for stating vertical screw type conveyer is equipped with sieve pore, the spiral of the horizontal screw conveyer and vertical screw type conveyer Sieve pore is equipped on blade, the trough is connected with slanted screen net, and the slanted screen net biasing is fixed on equipment tank body, the level Screw conveyor discharge port is connected with the feed inlet of vertical screw type conveyer, and the discharge port of the vertical screw type conveyer is connected to It is located on the feed inlet of equipment top of the tank, the feed inlet is equipped with controlled valve；The hydraulic turbine is connected serially to production system In waterway pipe, driven using the redundancy hydraulic pressure in water route；The main shaft is equipped with spline section, is in match with spline housing shape Connection is closed, the sleeve combination, which is mounted on, to be fixed on main shaft, and is broken up cutterhead and is located at axle sleeve, can be convenient maintenance replacement cutterhead； Described counterpunch board one end is fixed on equipment top of the tank, and encompasses cylindrical shape and be arranged in and break up cutterhead surrounding, bottom then shape It is fixed on equipment tank wall, bottom and cylinder vertical position junction hollow out at circle, prevents buildup excessive；The horizontal spiral shell Conveyer is revolved by helical-blade and the trough of bottom friction transmission material, and the vertical screw type conveyer relies on helical-blade and cylinder The friction of casing transmits material, the horizontal screw conveyer and vertical screw type conveyer and is distributed from main shaft by driven shaft I To operating power, the helical-blade, trough, roller casing be equipped with sieve pore can only transmission a coarse fodder carry out circulation break up；It is described Inclined wire sieve is biased to equipment tank body side and the horizontal screw conveyer for being located at bottom is avoided to intersect with main shaft；The counterpunch board is by muti-piece Arc plate composition, top are fixed on equipment tank body inner top by being fixedly connected with block, form a cylinder around cutterhead is broken up Working space, the striker plate are made of muti-piece fanning strip, are formed one block of plectane breaing up cutterhead bottom, are blocked not completing and break up Material, keep material scattering abundant, the counterpunch board and striker plate can independent monolithic dismantled, it is convenient that equipment is examined Repair replacement.

Further, sieve pore is equipped on the counterpunch board, the sieve pore is that two half-conical microstomes are connected to form, institute It states sieve pore bottom port area and is greater than top orifice area, band spine partition is equipped between two hole of sieve pore；The sieve pore is radial Area of section is set as big, medium and small, lower big, and upper section area is big but smaller than lower section compared with middle part, and the depth in hole is partially shallow, can Preferably to collect fines rebound coarse fodder, coarse fodder accumulated plugging, the material particular diameter that middle part area of section screens as needed are prevented Setting, the expansion of lower section area can make material by not will form blocking after the sieve pore of middle part；Spine is set between two sieve pores Partition, which separates, can make be easier above broken from breaing up material impacting that cutterhead is thrown away, and broken material is more effectively fallen In sieve pore.

Further, the screening storehouse is equipped with air elutriator and vibration screen, and the air elutriator is connected with pneumatic jig transmission gear, The pneumatic jig transmission gear is engaged with horizontal conveyor roller gear, and the air elutriator outlet is equipped with blower, the blower bottom Portion is equipped with coarse fodder collection bucket, and coarse fodder collection bucket bottom is equipped with coarse fodder pipe, and the coarse fodder pipe is connected on conveying fan, described Conveying fan is connected with coarse fodder feed back pipe, and the coarse fodder feed back pipe is connected on feed inlet；The air elutriator by driven shaft I from Power is assigned on main shaft, the blower outlet air blows to from inclined wire and sieves the material fallen, and the material of weighting can fall on coarse fodder receipts Collection bucket, partially light material are directly fallen on eccentric wheel vibration mesh screen, and coarse fodder collection bucket bottom, which is connected with coarse fodder pipe, to be made The coarse fodder being collected into sends back feed inlet along coarse fodder feed back pipe by conveying fan and breaks up again.

Further, the vibration screen bottom is connected with four groups of eccentric wheels, and the eccentric wheel is connected on eccentric rod, The wheel tapered gear of bar is equipped among the eccentric rod, it is described to take turns the tapered gear of bar and be located at the wheel bar at II both ends of driven shaft actively The engagement of tapered gear, is equipped with driven tapered gear II among the driven shaft II, the driven tapered gear II be located at main shaft On angular wheel II engage, described II one end of driven shaft is connected with vacuum cleaner, and the other end is connected on conveying fan；Described four Group eccentric wheel is respectively fixed on eccentric rod at an angle of 90, can make the material fallen on vibrating screen in three-dimensional parabola into Row screening, screening efficiency are higher；The power of the operation of the eccentric wheel is obtained from main shaft by driven shaft II.

Further, the mixing discharging bin is equipped with mechanical stirring leaf, pneumatic agitation pipe and circulation stirring pipe；The machinery Paddle is fixedly mounted on main shaft；The pneumatic agitation pipe setting is blending bin bottom position, the pneumatic agitation pipe It is equipped with air nozzle；Circulation stirring pipe one end is connected on the ratio adjusting valve of equipment tank base, and the other end is connected to Discharging bin top is mixed, the ratio adjusting valve top is equipped with particle homogenizing degree detector, and the ratio adjusting valve bottom is Material mouth, three groups of material-level measure sensors are disposed on the mixing discharging bin tank skin, and the equipment tank base is equipped with tank body branch Support foot；The mechanical stirring leaf is fixed on main shaft by axle sleeve, replacement convenient to overhaul；It is uniformly arranged on the pneumatic agitation pipe There is air nozzle, keep material stirring more uniform, the pneumatic agitation interface tube is connected in air compression system pipeline；The circulation is stirred The internal circulating load that pipe controls material by ratio adjusting valve is mixed, the ratio adjusting valve is also simultaneously according to particle homogenizing degree detector Testing result controls the amount of discharge port, and matter homogenizing degree reduces load when approaching the limits of setting, increases internal circulating load, with Increase the time of the stirring of material, improves homogenizing degree；The material-level measure sensor can constantly monitor the material in mixing discharging bin Position variation, to control the switch valve that feed inlet is arranged in, it is ensured that material position is in stable safe range.

Further, the auxiliary body includes vacuum cleaner and settling tank, and the vacuum cleaner suction inlet is connected with screening Storehouse sweep-up pipe and mixing bunker sweep-up pipe, the screening storehouse sweep-up pipe are connected in screening storehouse upper side storehouse, and the mixing bunker is inhaled Dirt pipe is connected in mixing bunker upper side storehouse, and the vacuum cleaner outlet is connected to settling tank, and the settling tank top is equipped with heavy Partition drops, and the sedimentation pot bottom is equipped with subsider, and the sedimentation trench bottom is equipped with sedimentation discharge port；The vacuum cleaner by from The power that moving axis II is distributed from main shaft, the settling tank using sedimentation theory to screening storehouse and mixing discharging bin in generate Dust be dusted, the settling tank treated dust can be recycled by settling discharge port.

Compared with prior art, advantages of the present invention:

1. the present invention is driven using the redundancy hydraulic pressure in production system by the hydraulic turbine, motor driven is not used, not additionally Increase energy consumption, energy-saving effect is excellent, while being equipped with dust-extraction unit and carrying out recycling dust removal process, meets novel environment-protecting device and wants It asks.

2. structure of the invention is ingenious in design, material automatic cycle is broken up, is sieved, break up cutterhead, helical feed, air elutriator, Eccentric wheel vibrating screen, conveying fan, being connected by power for vacuum cleaner are allocated by same root main shaft, and the mode of being connected by power is set It is ingenious reasonable to count, securely and reliably.

3. material of the present invention carries out prescreening using counterpunch board sieve pore while breaing up, the sieve pore on counterpunch board has Choke preventing function；The helical-blade of flat spin conveying and vertical spin conveying, trough, casing are equipped with sieve pore, break up in spiral circulation Also prescreening screening is carried out while conveying, just enters blower screening using one layer of inclined wire sieve after prescreening and eccentric wheel shakes Storehouse is screened, has carried out five screenings in total, finally obtained material particles partial size is highly uniform, and windrow is avoided casting isolation occur Phenomenon effectively improves homo-effect.

4. the present invention uses mechanical stirring, pneumatic agitation and circulation stirring simultaneously and is homogenized, homo-effect is excellent, together Shi Liyong particle homogenizing degree detector constantly monitors the matter homogenizing degree of discharge port to control the aperture of discharging proportioning valve, with control Load, circulation stirring amount and mixing time, without " end heap effect ", and the homogenizing degree to discharge is highly stable；It mixes on homogenizing bin It is additionally provided with high, normal, basic material-level measure sensor, the switch of feed inlet can be controlled according to material position variable quantity, securely and reliably.

5. counterpunch board of the present invention and striker plate can monolithic carry out dismounting and change, it is convenient that maintenance replacement is carried out to equipment, mention High equipment breaks up working efficiency.

Detailed description of the invention

Fig. 1 is equipment overall schematic.

Fig. 2 is device driver and breaks up storehouse schematic diagram.

Fig. 3 is connector sleeve schematic diagram.

Fig. 4 is counterpunch board sieve pore enlarged diagram.

Fig. 5 is inclined wire sieve schematic diagram.

Fig. 6 is screening storehouse schematic diagram.

Fig. 7 is that eccentric wheel is connected by power top view.

Fig. 8 is mixing discharging bin and auxiliary body's schematic diagram.

Fig. 9 is counterpunch board and striker plate schematic diagram

Parts title and serial number in figure:

Equipment tank body 1, driving mechanism 2 break up storehouse 3, screening storehouse 4, mixing discharging bin 5, auxiliary body 6, feed inlet 7, switch valve Door 8, water inlet 2.1, water outlet 2.2, gearbox 2.3, main shaft 2.4, axle sleeve 3.1, spline housing 3.2, installation position 3.3, bolt 3.4, cutterhead 3.5, counterpunch board 3.6, angular wheel I 3.7, driven tapered gear I 3.8, driven shaft I 3.9, horizontal conveyor circle are broken up The tapered gear 3.11 of stud wheel 3.10, vertical-transmission, roller gear 3.12, horizontal screw conveyer 3.13, trough 3.14, taper Gear 3.15, vertical screw type conveyer 3.16, cylinder casing 3.17, slanted screen net 3.18, striker plate 3.19, sieve pore 3.61, aperture Mouth 3.62, spine partition 3.63 are fixedly connected with block 3.64, support rod 3.65, pneumatic jig transmission gear 4.1, air elutriator 4.2, blowing Pipe 4.3, coarse fodder collection bucket 4.4, coarse fodder pipe 4.5, coarse fodder feed back pipe 4.6, conveying fan 4.7, driven tapered gear II 4.8, from Moving axis II 4.9, angular wheel II 4.10, eccentric wheel 4.11, vibration screen 4.12, eccentric rod 4.13, the wheel tapered gear of bar 4.14, actively tapered gear 4.15, mechanical stirring leaf 5.1, pneumatic agitation pipe 5.2, air nozzle 5.3, material-level measure sense wheel bar Device 5.4, particle homogenizing degree detector 5.5, ratio adjusting valve 5.6, discharge port 5.7, circulation stirring pipe 5.8, tank body support leg 5.9, vacuum cleaner 6.1, screening storehouse sweep-up pipe 6.2, mixing bunker sweep-up pipe 6.3, settling tank 6.4, sedimentation partition 6.5, subsider 6.6, discharge port 6.7 is settled.

Specific embodiment

The following further describes the present invention with reference to the drawings.

Embodiment 1:

As shown in Figure of description, a kind of novel cement homogenization equipment, including equipment tank body 1, driving mechanism 2, break up storehouse 3, Screening storehouse 4, mixing discharging bin 5 and auxiliary body 6；The driving mechanism 2 is fixed on the top of equipment tank body 1, and by the hydraulic turbine into Row driving, 2 both ends of driving mechanism are connected with water inlet 2.1 and water outlet 2.2, and the output of driving mechanism 2 is connected to change Fast case 2.3, the output of gearbox 2.3 are connected to main shaft 2.4；The main shaft 2.4 is fixed on 1 middle position of equipment tank body, And it passes through and breaks up storehouse 3, screening storehouse 4 and mixing discharging bin 5；It is described break up be equipped in storehouse 3 break up cutterhead 3.5, counterpunch board 3.6, Striker plate 3.19, horizontal screw conveyer 3.13 and vertical screw type conveyer 3.16, the cutterhead 3.5 of breaing up are fixed on axle sleeve On 3.1 installation position 3.3, the axle sleeve 3.1 is equipped with spline housing 3.2, and the axle sleeve 3.1 is equipped with two groups, solid by bolt 3.4 It is scheduled on main shaft 2.4；The counterpunch board 3.6 is set as circular shape, and top is equipped with and is fixedly connected with block 3.64, described to be fixedly connected with block 3.64 are connected to 1 inner top of equipment tank body, and the striker plate 3.19, which is located at, breaks up 3.5 bottom of cutterhead, and the striker plate 3.19 is set For fan shape, 3.19 bottom of striker plate is equipped with support rod 3.65, and the striker plate 3.19 is fixed on support rod 3.65, 3.6 bottom of counterpunch board is fixed on support rod 3.65, and 3.65 both ends of support rod are fixed on equipment tank body 1；It is described Main shaft 2.4 is equipped with angular wheel I 3.7, the driven tapered gear I angular wheel I 3.7 and be arranged on driven shaft I 3.9 3.8 engagements, described I 3.9 one end of driven shaft are equipped with horizontal conveyor roller gear 3.10, and the other end is equipped with the tapered gear of vertical-transmission 3.11, the horizontal conveyor roller gear 3.10 is engaged with the roller gear 3.12 being arranged on horizontal screw conveyer 3.13, The tapered gear 3.11 of vertical-transmission is engaged with the angular wheel 3.15 being arranged on vertical screw type conveyer 3.16；The water 3.13 bottom of flat spin conveyer is equipped with trough 3.14, and the trough is equipped with sieve pore, the vertical screw type conveyer 3.16 Cylinder casing 3.17 is equipped with sieve pore, on the helical blade of the horizontal screw conveyer 3.13 and vertical screw type conveyer 3.16 It is equipped with sieve pore, the trough 3.14 is connected with slanted screen net 3.18, and the biasing of slanted screen net 3.18 is fixed on equipment tank body 1, 3.13 discharge port of horizontal screw conveyer is connected with the feed inlet of vertical screw type conveyer 3.16, the vertical spin conveying The discharge port of machine 3.16 is connected on the feed inlet 7 for being located at 1 top of equipment tank body, and the feed inlet 7 is equipped with controlled valve 8.

Sieve pore 3.61 is equipped on the counterpunch board 3.6 and striker plate 3.19, the sieve pore 3.61 is that two half-conicals are small Aperture 3.62 is connected to form, and the 3.61 bottom port area of sieve pore is greater than top orifice area.

The screening storehouse 4 is equipped with air elutriator 4.2 and vibration screen 4.12, and the air elutriator 4.2 is connected with pneumatic jig driving cog Wheel 4.1, the pneumatic jig transmission gear 4.1 is engaged with horizontal conveyor roller gear 3.10, and the outlet of air elutriator 4.2 is equipped with blowing Pipe 4.3,4.3 bottom of blower are equipped with coarse fodder collection bucket 4.4, and 4.4 bottom of coarse fodder collection bucket is equipped with coarse fodder pipe 4.5, The coarse fodder pipe 4.5 is connected on conveying fan 4.7, and the conveying fan 4.7 is connected with coarse fodder feed back pipe 4.6, the coarse fodder Feed back pipe 4.6 is connected on feed inlet 7.

4.12 bottom of vibration screen is connected with four groups of eccentric wheels 4.11, and the eccentric wheel 4.11 is connected to eccentric rod Be equipped with the wheel tapered gear 4.14 of bar on 4.13, among the eccentric rod 4.13, the tapered gear 4.14 of the wheel bar and be located at from Actively tapered gear 4.15 engages the wheel bar at II 4.9 both ends of moving axis, is equipped with driven tapered gear II among the driven shaft II 4.9 4.8, the driven tapered gear II 4.8 is engaged with the angular wheel II 4.10 being located on main shaft 2.4, the driven shaft II 4.9 One end is connected with vacuum cleaner 6.1, and the other end is connected on conveying fan 4.7.

The mixing discharging bin 5 is equipped with mechanical stirring leaf 5.1, pneumatic agitation pipe 5.2 and circulation stirring pipe 5.8；The machine Tool paddle 5.1 is fixedly mounted on main shaft 2.4；The setting of pneumatic agitation pipe 5.2 is in mixing 5 bottom position of discharging bin, institute Pneumatic agitation pipe 5.2 is stated equipped with air nozzle 5.3；Described 5.8 one end of circulation stirring pipe is connected to the ratio of 1 bottom of equipment tank body In regulating valve 5.6, the other end is connected to mixing 7 top of discharging bin, and 5.6 top of ratio adjusting valve is examined equipped with particle homogenizing degree Instrument 5.5 is surveyed, 5.6 bottom of ratio adjusting valve is discharge port 5.7, and 1 bottom of equipment tank body is equipped with tank body support leg 5.9.

The auxiliary body 6 includes vacuum cleaner 6.1 and settling tank 6.4, and 6.1 suction inlet of vacuum cleaner is connected with screening Storehouse sweep-up pipe 6.2 and mixing bunker sweep-up pipe 6.3, the screening storehouse sweep-up pipe 6.2 are connected in 4 upper side storehouse of screening storehouse, institute Mixing bunker sweep-up pipe 6.3 to be stated to be connected in 5 upper side storehouse of mixing bunker, the outlet of vacuum cleaner 6.1 is connected to settling tank 6.4, 6.4 top of settling tank is equipped with sedimentation partition 6.5, and 6.4 bottom of settling tank is equipped with subsider 6.6, the subsider 6.6 Bottom is equipped with sedimentation discharge port 6.7.

Embodiment 2:

The present embodiment 2 is essentially identical with 1 structure of embodiment and principle, the difference is that being equipped with band spine between 3.61 liang of holes of the sieve pore Support is arranged at partition 3.63,3.63 bottom of spine partition, and head spine is parallel with upper compass screen surface, and material is by breaing up cutterhead acceleration After centrifugation is thrown away, the head spine position of spine partition 3.63 is collided, material is enable effectively to be crushed.

Embodiment 3:

The present embodiment 3 is essentially identical with 1 structure of embodiment and principle, the difference is that being disposed on 5 tank skin of mixing discharging bin Three groups of material-level measure sensors 5.4, the material-level measure sensor 5.4 are mounted on mixing discharging bin 5 top, middle part, bottom On tank skin, 5.4 feedback signal of material-level measure sensor is connected to control system, the variation of control system based on the feedback signal The folding of the controlled valve 8 on feed inlet 7 is automatically controlled, inlet amount is controlled.

Embodiment 4:

The present embodiment 4 is essentially identical with 1 structure of embodiment and principle, the difference is that being equipped with band spine between 3.61 liang of holes of the sieve pore Support is arranged at partition 3.63,3.63 bottom of spine partition, and head spine is parallel with upper compass screen surface, and material is by breaing up cutterhead acceleration After centrifugation is thrown away, the head spine position of spine partition 3.63 is collided, material is enable effectively to be crushed, efficiency is broken up in raising； Three groups of material-level measure sensors 5.4 are disposed on 5 tank skin of mixing discharging bin, the material-level measure sensor 5.4 is mounted on On the tank skin for mixing 5 top of discharging bin, middle part, bottom, 5.4 feedback signal of material-level measure sensor is connected to control system System, the variation of control system based on the feedback signal control the folding of the controlled valve 8 on feed inlet 7, automatically control inlet amount, make Equipment is more sliding safe and reliable.

Specific embodiment described herein is only an example for the spirit of the invention.The neck of technology belonging to the present invention The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Claims (6)

1. a kind of novel cement homogenization equipment, including equipment tank body (1), driving mechanism (2), break up storehouse (3), screening storehouse (4), Mixing discharging bin (5) and auxiliary body (6), it is characterised in that: the driving mechanism (2) is fixed at the top of equipment tank body (1), and It is driven by the hydraulic turbine, driving mechanism (2) both ends are connected with water inlet (2.1) and water outlet (2.2), the driving machine Structure (2) output is connected to gearbox (2.3), and gearbox (2.3) output is connected to main shaft (2.4)；The main shaft (2.4) is solid It is scheduled on equipment tank body (1) middle position, and passes through and breaks up storehouse (3), screening storehouse (4) and mixing discharging bin (5)；It is described to break up It is equipped in storehouse (3) and breaks up cutterhead (3.5), counterpunch board (3.6), striker plate (3.19), horizontal screw conveyer (3.13) and vertically Screw conveyor (3.16), the cutterhead (3.5) of breaing up are fixed on the installation position (3.3) of axle sleeve (3.1), the axle sleeve (3.1) spline housing (3.2) are equipped with, the axle sleeve (3.1) is equipped with two groups, is fixed on main shaft (2.4) by bolt (3.4)； The counterpunch board (3.6) is set as circular shape, and top is equipped with and is fixedly connected block (3.64), described to be fixedly connected with block (3.64) connection To equipment tank body (1) inner top, the striker plate (3.19), which is located at, breaks up cutterhead (3.5) bottom, and the striker plate (3.19) sets For fan shape, striker plate (3.19) bottom is equipped with support rod (3.65), and the striker plate (3.19) is fixed on support rod (3.65) on, counterpunch board (3.6) bottom is fixed on support rod (3.65), and support rod (3.65) both ends, which are fixed on, to be set On standby tank body (1)；The main shaft (2.4) is equipped with angular wheel I (3.7), and the angular wheel I (3.7) is with setting driven Driven tapered gear I (3.8) engagement on axis I (3.9), described driven shaft I (3.9) one end is equipped with horizontal conveyor roller gear (3.10), the other end is equipped with the tapered gear of vertical-transmission (3.11), and the horizontal conveyor roller gear (3.10) and setting are in water Roller gear (3.12) engagement on flat spin conveyer (3.13), the tapered gear of vertical-transmission (3.11) and setting are being hung down Angular wheel (3.15) engagement on straight screw conveyor (3.16)；Horizontal screw conveyer (3.13) bottom is equipped with trough (3.14), the trough is equipped with sieve pore, and the cylinder casing (3.17) of the vertical screw type conveyer (3.16) is equipped with sieve pore, Sieve pore, the trough are equipped on the helical blade of the horizontal screw conveyer (3.13) and vertical screw type conveyer (3.16) (3.14) it is connected with slanted screen net (3.18), slanted screen net (3.18) biasing is fixed on equipment tank body (1), the flat spin Conveyer (3.13) discharge port is connected with the feed inlet of vertical screw type conveyer (3.16), the vertical screw type conveyer (3.16) Discharge port be connected on the feed inlet (7) being located at the top of equipment tank body (1), the feed inlet (7) be equipped with controlled valve (8).

2. the novel cement homogenization equipment of one kind according to claim 1, it is characterised in that: the counterpunch board (3.6) and It is equipped on striker plate (3.19) sieve pore (3.61), the sieve pore (3.61) is the connected group of two half-conical microstomes (3.62) At sieve pore (3.61) the bottom port area is greater than top orifice area, and band spine is equipped between (3.61) two hole of sieve pore Partition (3.63).

3. the novel cement homogenization equipment of one kind according to claim 1, it is characterised in that: the screening storehouse (4) is equipped with Air elutriator (4.2) and vibration screen (4.12), the air elutriator (4.2) are connected with pneumatic jig transmission gear (4.1), and the pneumatic jig passes Moving gear (4.1) is engaged with horizontal conveyor roller gear (3.10), and air elutriator (4.2) outlet is equipped with blower (4.3), institute Blower (4.3) bottom is stated equipped with coarse fodder collection bucket (4.4), coarse fodder collection bucket (4.4) bottom is equipped with coarse fodder pipe (4.5), The coarse fodder pipe (4.5) is connected on conveying fan (4.7), and the conveying fan (4.7) is connected with coarse fodder feed back pipe (4.6), The coarse fodder feed back pipe (4.6) is connected on feed inlet (7).

4. the novel cement homogenization equipment of one kind according to claim 3, it is characterised in that: the vibration screen (4.12) Bottom is connected with four groups of eccentric wheels (4.11), and the eccentric wheel (4.11) is connected on eccentric rod (4.13), the eccentric wheel Be equipped with the wheel tapered gear of bar (4.14) among bar (4.13), the tapered gear of the wheel bar (4.14) be located at driven shaft II (4.9) Actively tapered gear (4.15) engagement of the wheel bar at both ends, the driven shaft II (4.9) is intermediate to be equipped with driven tapered gear II (4.8), the driven tapered gear II (4.8) is engaged with the angular wheel II (4.10) being located on main shaft (2.4), described driven Axis II (4.9) one end is connected with vacuum cleaner (6.1), and the other end is connected on conveying fan (4.7).

5. the novel cement homogenization equipment of one kind according to claim 1, it is characterised in that: the mixing discharging bin (5) Equipped with mechanical stirring leaf (5.1), pneumatic agitation pipe (5.2) and circulation stirring pipe (5.8)；The mechanical stirring leaf (5.1) is fixed It is mounted on main shaft (2.4)；Pneumatic agitation pipe (5.2) setting is in mixing discharging bin (5) bottom position, the pneumatic agitation It manages (5.2) and is equipped with air nozzle (5.3)；Described circulation stirring pipe (5.8) one end is connected to the ratio tune of equipment tank body (1) bottom It saves on valve (5.6), the other end is connected to mixing discharging bin (7) top, and ratio adjusting valve (5.6) top is homogenized equipped with particle It spends detector (5.5), ratio adjusting valve (5.6) bottom is discharge port (5.7), cloth on mixing discharging bin (5) tank skin Three groups of material-level measure sensors (5.4) are equipped with, equipment tank body (1) bottom is equipped with tank body support leg (5.9).

6. the novel cement homogenization equipment of one kind according to claim 1, it is characterised in that: auxiliary body (6) packet Vacuum cleaner (6.1) and settling tank (6.4) are included, vacuum cleaner (6.1) suction inlet is connected with screening storehouse sweep-up pipe (6.2) and mixes It closes storehouse sweep-up pipe (6.3), the screening storehouse sweep-up pipe (6.2) is connected in screening storehouse (4) upper side storehouse, and the mixing bunker is inhaled Dirt pipe (6.3) is connected in mixing bunker (5) upper side storehouse, and vacuum cleaner (6.1) outlet is connected to settling tank (6.4), institute It states settling tank (6.4) top and is equipped with sedimentation partition (6.5), settling tank (6.4) bottom is equipped with subsider (6.6), described heavy It drops slot (6.6) bottom and is equipped with sedimentation discharge port (6.7).