CN206780643U - A kind of reciprocating raw material mixing arrangement - Google Patents

Abstract

The utility model discloses a kind of reciprocating raw material mixing arrangement, including feeding machine and blending bunker, the blending bunker is arranged at the lower section of feeding machine, the feeding machine includes feeding conveying belt unit, feeding power car and feeding frame, the feeding power car is arranged at the top of feeding frame, and the feeding conveying belt unit is installed on the feeding power car.Different types of ceramic raw material is prepared and is formulated by the reciprocating raw material mixing arrangement by the feeding machine according to ceramic tile, it is layed in different proportions in the blending bunker, so as to the ceramic raw material of different proportion, layer-stepping shakedown fills in the inside of the blending bunker from top to bottom.In feeding, ceramic raw material is trickled down from the batch mixing delivery outlet below blending bunker because of Action of Gravity Field, so as to ensure that various composition ratio is all consistent and accurate in the ceramic raw material taken out every time.

Description

A kind of reciprocating raw material mixing arrangement

Technical field

It the utility model is related to ceramic production device field, more particularly to a kind of reciprocating raw material mixing arrangement.

Background technology

Ceramics by dry granulating technique, because it is consumed, the energy is few, and carbon emission amount is low, in architectural pottery especially ceramic wall and floor bricks Raw material preparation field be used widely.Ceramics by dry granulating technique is by the way that ceramic raw material to be ground into superfine dry powder Material, then powder to be sent into comminutor, and water smoke is sprayed into comminutor so that powder mixes with water and has viscosity, and Cutting stirring is carried out, so as to form spherical particle.Ceramics by dry granulating technique water removal drying amount of moisture is few, therefore saves the energy, Meet modernization green production requirement.

Need to crush different types of ceramic raw material before non-slurry pelletizing, and will it is broken after ceramic raw material will be according to ceramic tile Prepare formula to be layed in blending bunker in different proportions, so as to complete burden process.Because existing burden process passes through people Work is completed, be layed in blending bunker ceramic raw material can not uniform ground, taken from blending bunker during so as to cause each non-slurry pelletizing The ceramic raw material component ratio gone out is inconsistent, and then it is poor to cause to produce ceramic quality stability, same batch ceramics be present The uneven situation of quality of item.

Utility model content

The purpose of this utility model is ceramic raw material uniform ground when proposition one kind can ensure that dispensing, can improve ceramic green The reciprocating raw material mixing arrangement of yield and quality stability.

To use following technical scheme up to this purpose, the utility model：

A kind of reciprocating raw material mixing arrangement, including feeding machine and blending bunker, the blending bunker are arranged under feeding machine Side；

The feeding machine includes feeding conveying belt unit, feeding power car and feeding frame, and the feeding power car is set In the top of feeding frame, the feeding conveying belt unit is installed on the feeding power car；

The feeding frame includes feeding guide rail, and the feeding guide rail is installed on the top of the feeding frame, described to feed Material power car moves back and forth along the feeding guide rail；

The feeding conveying belt unit includes feeding conveyer belt, and the feeding conveyer belt is installed on the feeding power car On；

The blending bunker is arranged at the lower section of the feeding frame.

Preferably, the blending bunker includes batch mixing warehouse and Duo Gen batch mixing reinforcements, and it is defeated that the batch mixing warehouse includes batch mixing Entrance and batch mixing delivery outlet, the batch mixing input port are arranged at the top of the batch mixing warehouse, and the batch mixing delivery outlet is arranged at The bottom of the batch mixing warehouse；

The bore of the batch mixing input port is more than the bore of batch mixing delivery outlet, and the longitudinal section of the batch mixing warehouse is inverted trapezoidal Shape；

The batch mixing reinforcement is arranged at intervals at the inside of the batch mixing warehouse；

The batch mixing input port of the blending bunker is placed in the lower section of the feeding guide rail.

Preferably, the feeding power car includes feeding car body, feeding motor, feeding dynamic conveyor belt, feeding master Driving wheel and multiple feeding wheels, the feeding wheel are arranged at the bottom of the feeding car body, and the feeding car body passes through described Feeding wheel is against on the feeding guide rail；

The feeding motor is installed on one end of the feeding car body, and the feeding driving wheel and feeding wheel connect Connect；

The feeding dynamic conveyor belt is placed between the output shaft of the feeding driving wheel and feeding motor, described to feed Expect that motor drives feeding driving wheel to rotate by feeding dynamic conveyor belt, and then drive the feeding wheel along the feeding Guide rail rolls.

Preferably, the feeding conveying belt unit also includes feeding drive, feeding driven pulley and feeding feeder motor, institute The other end that feeding feeder motor is installed on the feeding car body is stated, the feeding drive is installed on the another of the feeding car body The close end of one end, the output shaft of the feeding feeder motor are connected with feeding drive, and the feeding feeder motor driving is fed Expect that drive rotates；

The feeding driven pulley is installed on the close end of one end of the feeding car body, and the feeding conveyer belt is placed on described The outside of feeding drive and feeding driven pulley.

Preferably, the feeding conveying belt unit also includes more feeding carrying rollers, described in the feeding carrying roller is arranged at intervals The inner side of feeding conveyer belt.

Preferably, in addition to pug mill, the pug mill are arranged at the upstream end of the feeding machine；

The pug mill include agitator tank, the first agitating shaft, the second agitating shaft and grind trowel piece, first agitating shaft and Second agitating shaft both passes through the inside of the agitator tank；On first agitating shaft and the second agitating shaft in the agitator tank It is arranged at intervals the stone roller trowel piece.

Preferably, in addition to mud protective cover is ground, the stone roller mud protective cover is arranged at the top of the agitator tank；

The pug mill also includes protective cover installation rotating shaft and protective cover fixing lock, and the protective cover installation rotating shaft is installed on The side of the agitator tank, the protective cover fixing lock are installed on the opposite side of the agitator tank；

The side for grinding mud protective cover is socketed on protective cover installation rotating shaft, the opposite side for grinding mud protective cover and The protective cover fixing lock connection.

Preferably, in addition to grind mud motor and grind mud transmission device, the stone roller mud transmission device includes grinding mud actively Gear and mud driven gear is ground, the output shaft for grinding mud motor is by grinding one end of mud driving gear and the first agitating shaft Connection；

Described one end ground mud driven gear and be installed on second agitating shaft, the stone roller mud driving gear and stone roller mud are driven Gear is intermeshed.

Preferably, described one end for grinding mud protective cover, which is provided with, grinds mud charging aperture；

The agitator tank includes grinding mud discharging opening, the bottom ground mud discharging opening and be arranged at the agitator tank, and institute State and grind mud discharging opening away from the stone roller mud charging aperture.

Preferably, the stone roller mud protective cover is network structure；The edge for grinding trowel piece is zigzag.

The reciprocating raw material mixing arrangement is prepared different types of ceramic raw material according to ceramic tile by the feeding machine Formula, is layed in the blending bunker in different proportions, so as to the ceramic raw material layer-stepping shakedown from top to bottom of different proportion The inside of the blending bunker is filled in, ceramic raw material proportion is more big then thicker, that is, completes the burden process in Production of Ceramics. During ceramic raw material is unrestrained, ceramic raw material does the movement of falling object, so as to which the less ceramic raw material particle of particle diameter is trickled down mixed The middle part of feed bin, and the larger ceramic raw material particle of particle diameter is trickled down in the both sides of blending bunker, that is, spreads the ceramics filled in blending bunker Raw material is thick for middle thin both sides, during batch mixing delivery outlet feeding so below blending bunker, ensures that the ceramics that take out each time are former Material all have slightly have it is thin, in order to the big ceramic raw material of particle diameter during follow-up non-slurry pelletizing and particle diameter it is small ceramic raw material mixing it is equal It is even, it is easier to follow-up grinding, to reduce grinding feed back rate.

Brief description of the drawings

Accompanying drawing is described further to the utility model, but the content in accompanying drawing is not formed to any limit of the present utility model System.

Fig. 1 is the raw material blending device structural representation of the one of embodiment of the utility model；

Fig. 2 is the blending bunker structural representation of the one of embodiment of the utility model；

Fig. 3 is the raw material blending device left view structure chart of the one of embodiment of the utility model；

Fig. 4 is the feeding machine structural representation of the one of embodiment of the utility model；

Fig. 5 is the feeding machine overlooking structure figure of the one of embodiment of the utility model；

Fig. 6 is the pug mill overlooking the structure diagram of the one of embodiment of the utility model；

Fig. 7 is the stone roller mud protective roof structure schematic diagram of the one of embodiment of the utility model；

Fig. 8 is the pug mill side block diagram of the one of embodiment of the utility model；

Fig. 9 is the stone roller trowel chip architecture schematic diagram of the one of embodiment of the utility model.

Wherein：Feeding machine 2；Blending bunker 3；Feeding conveying belt unit 21；Feeding power car 22；Feeding frame 23；Feeding is led Rail 231；Feeding conveyer belt 211；Batch mixing warehouse 31；Batch mixing reinforcement 32；Batch mixing input port 311；Batch mixing delivery outlet 312；Feeding Conveyer belt 4；Feeding car body 221；Feeding motor 223；Feeding dynamic conveyor belt 224；Feeding driving wheel 225；Feeding wheel 222；Feeding drive 212；Feeding driven pulley 213；Feeding feeder motor 214；Feeding carrying roller 215；Pug mill 1；Agitator tank 11； First agitating shaft 12；Second agitating shaft 13；Grind trowel piece 15；Grind mud protective cover 16；Protective cover installs rotating shaft 161；Protective cover is consolidated Lock 162；Grind mud motor 14；Grind mud transmission device 17；Grind mud driving gear 171；Grind mud driven gear 172；Mud is ground to enter Material mouth 163；Grind mud discharging opening 111.

Embodiment

Further illustrate the technical solution of the utility model below in conjunction with the accompanying drawings and by embodiment.

The reciprocating raw material mixing arrangement of the present embodiment, as shown in figure 1, including feeding machine 2 and blending bunker 3, the batch mixing Storehouse 3 is arranged at the lower section of feeding machine 2；The feeding machine 2 includes feeding conveying belt unit 21, feeding power car 22 and feeding frame 23, the feeding power car 22 is arranged at the top of feeding frame 23, and the feeding conveying belt unit 21 is installed on the feeding On power car 22；The feeding frame 23 includes feeding guide rail 231, and the feeding guide rail 231 is installed on the feeding frame 23 Top, the feeding power car 22 moves back and forth along the feeding guide rail 231；The feeding conveying belt unit 21 includes feeding Conveyer belt 211, the feeding conveyer belt 211 are installed on the feeding power car 22；The blending bunker 3 is arranged at the feeding The lower section of frame 23.

The reciprocating raw material mixing arrangement is prepared different types of ceramic raw material according to ceramic tile by the feeding machine 2 Formula, is layed in the blending bunker 3 in different proportions, so as to the ceramic raw material layer-stepping shakedown from top to bottom of different proportion The inside of the blending bunker 3 is filled in, ceramic raw material proportion is more big then thicker, that is, completes the burden process in Production of Ceramics. The feeding machine 2 conveys the ceramic raw material crushed, and the feeding power by feeding conveying belt unit 21 to blending bunker 3 Car 22 moves back and forth along the feeding guide rail 231, so as to which the uniform shakedown of ceramic raw material is filled in blending bunker 3.In ceramic raw material During unrestrained, ceramic raw material does the movement of falling object, so as to which the less ceramic raw material particle of particle diameter is trickled down in blending bunker 3 Portion is simultaneously agglomerated into bullet, and the larger ceramic raw material particle of particle diameter is rolled to the both sides of blending bunker 3 from bullet, i.e., paving fills in Ceramic raw material in blending bunker 3 is thick for middle thin both sides, and this principle is just with toward the principle of salt is identical in salt cellar, fine salt is assembled Gather among salt cellar and be in massif shape, crude salt can be tumbled in salt cellar surrounding.Batch mixing delivery outlet 312 so below blending bunker 3 During feeding, ensure that the ceramic raw material that takes out each time all has and slightly has thin, and the average grain of the ceramic raw material taken out every time Footpath is identical, reaches the effect of preliminary homogenisation, the big ceramic raw material of particle diameter and particle diameter small ceramic raw material during in order to subsequently grind Well mixed, the grindability of ceramic raw material is close, and the particle size of ceramic raw material is in normal distribution, it is easier to follow-up grinding, Reduce grinding feed back rate.

In feeding ceramic raw material because Action of Gravity Field it is unrestrained from the batch mixing delivery outlet 312 below blending bunker 3, it is every so as to ensure Various composition ratio is all consistent and accurate in the ceramic raw material of secondary taking-up；, like cutting into a cake, the ceramics of layer-stepping are former for this Material is just as thousand layers of cake, and for feeding just as cutting thousand layers of cake, thousand layers of cake of each piece cut out are all that the number of plies is identical with dispensing 's.

Preferably, as shown in Figure 2 and Figure 3, the blending bunker 3 includes batch mixing warehouse 31 and Duo Gen batch mixings reinforcement 32, described Batch mixing warehouse 31 includes batch mixing input port 311 and batch mixing delivery outlet 312, and the batch mixing input port 311 is arranged at the blending bunker The top of body 31, the batch mixing delivery outlet 312 are arranged at the bottom of the batch mixing warehouse 31；The mouth of the batch mixing input port 311 Footpath is more than the bore of batch mixing delivery outlet 312, and the longitudinal section of the batch mixing warehouse 31 is inverted trapezoidal shape；Between the batch mixing reinforcement 32 Every the inside for being arranged at the batch mixing warehouse 31；The batch mixing input port 31 of the blending bunker 3 is placed under the feeding guide rail 231 Side.

Preferably, as shown in Figure 1, Figure 3, in addition to feeding conveyer belt 4, the feeding conveyer belt 4 are arranged at the batch mixing The bottom of warehouse 31, the feeding conveyer belt 4 close the batch mixing delivery outlet 312 in feeding, and in feeding, the feeding is defeated The other end of the band 4 from one end of the batch mixing warehouse 31 to batch mixing warehouse 31 is sent to slide.The batch mixing warehouse 31 is wide at the top and narrow at the bottom Inverted ladder-shaped body structure so that the center of gravity of the ceramic raw material of storage is on the axis of batch mixing warehouse 31, so as to being made pottery in feeding Porcelain raw material is more easy to export from batch mixing delivery outlet 312 under gravity, reduces ceramic raw material and is adhered to the inwall of batch mixing warehouse 31 Occur.The batch mixing reinforcement 32 is arranged at intervals at the inside of the batch mixing warehouse 31, and the batch mixing reinforcement 32 can improve institute The structural strength of batch mixing warehouse 31 is stated, strengthens the bearing capacity of the batch mixing warehouse 31, extends the use of the batch mixing warehouse 31 Life-span.

Preferably, as shown in figure 4, the feeding power car 22 includes feeding car body 221, feeding motor 223, feeding Dynamic conveyor belt 224, feeding driving wheel 225 and multiple feeding wheels 222, the feeding wheel 222 are arranged at the feeding vehicle The bottom of body 221, the feeding car body 221 are against on the feeding guide rail 231 by the feeding wheel 222；The feeding Motor 223 is installed on one end of the feeding car body 221, and the feeding driving wheel 225 and feeding wheel 222 connect；Institute Feeding dynamic conveyor belt 224 is stated to be placed between the output shaft of the feeding driving wheel 225 and feeding motor 223, it is described to feed Material motor 223 drives feeding driving wheel 225 to rotate by feeding dynamic conveyor belt 224, and then drives the feeding wheel 222 roll along the feeding guide rail 231.

The phase that the feeding vehicle 22 passes through feeding motor 223, feeding dynamic conveyor belt 224 and feeding driving wheel 225 Interaction drives the feeding car body 221 to be moved back and forth on the feeding guide rail 231, so as to by ceramic raw material uniform ground Paving is filled in blending bunker 3.Power source is provided using motor, feeding car body 221 is realized by the rotating of feeding motor 223 Moving back and forth on the feeding guide rail 231, it is driven more accurate, efficiency high, compact-sized, reliable operation, long lifespan.

Preferably, as shown in Figure 4, Figure 5, it is driven also to include feeding drive 212, feeding for the feeding conveying belt unit 21 Wheel 213 and feeding feeder motor 214, the feeding feeder motor 214 is installed on the other end of the feeding car body 221, described Feeding drive 212 is installed on the close end of the other end of the feeding car body 221, the output of the feeding feeder motor 214 Axle and feeding drive 212 connect, and the feeding feeder motor 214 drives feeding drive 212 to rotate；The feeding driven pulley 213 are installed on the close end of one end of the feeding car body 221, and the feeding conveyer belt 211 is placed on the feeding drive 212 With the outside of feeding driven pulley 213.

The feeding conveying belt unit 21 drives feeding drive 212 by feeding feeder motor 214, so feeding from Feeding conveyer belt 211 rotates in the presence of driving wheel 213, and the feeding car body 221 is hollow structure, so as to the feeding conveyer belt 211 constantly conveying ceramic raw material to its end are then trickled down to the blending bunker 3 of lower section, greatly reduce the work of operating personnel Intensity, realize that feeding automates.And in the presence of feeding conveyer belt 211, ceramic raw material makees the movement of falling object, so that It is thick for middle thin both sides to spread the ceramic raw material filled in blending bunker 3, the feeding of batch mixing delivery outlet 312 so below blending bunker 3 When, ensure the ceramic raw material that takes out each time all have slightly have it is thin, in order to which the big ceramics of particle diameter during follow-up non-slurry pelletizing are former Material and the small ceramic raw material of particle diameter are well mixed, it is easier to are granulated, are reduced the feed back rate of comminutor.

Preferably, as shown in figure 5, the feeding conveying belt unit 21 also includes more feeding carrying rollers 215, the feeding support Roller 215 is arranged at intervals the inner side of the feeding conveyer belt 211.The feeding carrying roller 215 plays a part of a support boosting, both The support ceramic raw material of feeding conveyer belt 211 can be aided in, preventing the Action of Gravity Field of ceramic raw material becomes the feeding conveyer belt 211 It is slack and undisciplined；Boosting power can be provided for the rotation of the feeding conveyer belt 211 again, so as to reduce the resistance of motion of feeding conveyer belt 211, Reduce the power consumption of feeding feeder motor 214.

Preferably, as shown in fig. 6, also including pug mill 1, the pug mill 1 is arranged at the upstream end of the feeding machine 2； The pug mill 1 includes agitator tank 11, the first agitating shaft 12, the second agitating shaft 13 and grinds trowel piece 15, first agitating shaft 12 and second agitating shaft 13 both pass through the inside of the agitator tank 11；First agitating shaft 12 in the agitator tank and The stone roller trowel piece 15 is arranged at intervals on two agitating shafts 13.

The pug mill 1 is arranged at the upstream end of the feeding machine 2, for by ceramic raw material (including stickiness raw material and ridge Property raw material) carry out mixing and breaking up it is uniform.In Production of Ceramics, the reciprocating raw material mixing arrangement first passes through pug mill 1 will Ceramic raw material (including stickiness raw material and ridge raw material) carries out mixing and breaking up into uniform ceramic raw material, and bulk walk is broken up After be adhered on other ridge material, the ceramics that different ceramic raw materials will become various composition combination after the mixing of pug mill 1 are former Material, then the powder crushed is layed in the blending bunker 3 by the feeding machine 2 according to a certain percentage, i.e. different proportion Powder layer-stepping shakedown fills in the inside of the blending bunker 3, is taken out finally by the feeding conveyer belt 4 in the blending bunker 3 Powder to carry out ceramic manufacture.

Ceramic raw material (including stickiness raw material and ridge raw material) is put into the agitator tank 11, the first stirring described in during work The agitating shaft 13 of axle 12 and second is gyrating, so as to the stone roller trowel piece on the agitating shaft 13 of the first agitating shaft 12 and second 15 carry out broken stirring in rotary course to ceramic raw material, so as to form uniform ceramic raw material.

Because ceramic principle contains stickiness raw material (such as clay), stickiness raw material quality is very soft and has compared with high viscosity, existing Breaker (such as jaw crusher, double-roll crusher) be difficult to realize the broken mixing of stickiness raw material；And in broken mixing During, stickiness raw material can be attached on the rolling-compaction roller of breaker, cause failure.And the pug mill 1 passes through twin shaft pair Roll-type shearing-crushing so that the fully broken mixing of stickiness raw material, set on the agitating shaft 13 of the first agitating shaft 12 and second The stone roller trowel piece 15, can both smash ceramic raw material mixing, can avoid sticking to crushing mixed effect because of stickiness raw material again Impact；The pug mill 1 is sufficiently mixed stickiness raw material and ridge raw material, so as to avoid ceramic raw material after broken again Conglomeration.

Preferably, as shown in fig. 7, also including grinding mud protective cover 16, the stone roller mud protective cover 16 is arranged at the agitator tank 11 top；

The pug mill 1 also includes protective cover installation rotating shaft 161 and protective cover fixing lock 162, and the protective cover installation turns Axle 161 is installed on the side of the agitator tank 11, and the protective cover fixing lock 162 is installed on the opposite side of the agitator tank 11；

The side for grinding mud protective cover 16 is socketed on the protective cover installation rotating shaft 161, the stone roller mud protective cover 16 Opposite side and the protective cover fixing lock 162 connect.

The top ground mud protective cover 16 and be arranged at the agitator tank 11, so as to prevent that ceramics are former in broken mixed process Material sputters from agitator tank 11, avoids ceramic raw material from wasting and sputter the ceramic raw material come and hits operating personnel, greatly Improve production and application security.The opposite side for grinding mud protective cover 16 can install rotating shaft 161 around the protective cover and freely overturn, When the pug mill 1 works, the opposite side for grinding mud protective cover 16 and the protective cover fixing lock 162 connect, so that The top ground mud protective cover 16 and be fixed on the agitator tank 11, prevents ceramic raw material from sputtering to come from agitator tank 11；And Off working state, the stone roller mud protective cover 16 can be dug, in order to which operating personnel carry out maintenance to the pug mill 1.

Preferably, as shown in fig. 6, also including grinding mud motor 14 and grinding mud transmission device 17, the stone roller mud transmission dress Putting 17 includes grinding mud driving gear 171 and grinds mud driven gear 172, and the output shaft for grinding mud motor 14 is by grinding mud master Moving gear 171 connects with one end of the first agitating shaft 12；The stone roller mud driven gear 172 is installed on second agitating shaft 13 One end, the stone roller mud driving gear 171 and stone roller mud driven gear 172 are intermeshed.

The stone roller mud motor 14 drives the first agitating shaft 12 to rotate by grinding mud driving gear 171, simultaneously because institute State to grind mud driving gear 171 and grind mud driven gear 172 and be intermeshed, so as to the stone roller mud motor 14 can grind simultaneously mud from Moving gear 172 rotates, and second agitating shaft 13 for then making to be connected with grinding mud driven gear 172 rotates, and can make first Agitating shaft 12 is different with the direction of rotation of the second agitating shaft 13, to internal rotation, improves the broken efficiency of ceramic raw material and ceramics The well-balanced property of raw material mixing.Using the stone roller mud transmission device 17 of gear type, more accurate, efficiency high is driven, compact-sized, work Reliably, long lifespan.

Preferably, as shown in figure 8, described one end for grinding mud protective cover 16 is provided with and grinds mud charging aperture 163；The agitator tank 11 Including grinding mud discharging opening 111, the bottom ground mud discharging opening 111 and be arranged at the agitator tank 11, and the stone roller mud discharging Mouth 111 is away from the stone roller mud charging aperture 163.Ceramic raw material is put into the agitator tank 11 from the stone roller mud charging aperture 163, described Mud discharging opening 111 is ground away from the stone roller mud charging aperture 163, so as in the effect of the agitating shaft 13 of the first agitating shaft 12 and second Under, powder can flow out and be subsequently transferred on the feeding conveyer belt 211 from the stone roller mud discharging opening 111 naturally, realize The broken seamless connection with burden process of raw material mixing.

Preferably, as shown in fig. 7, the stone roller mud protective cover 16 is network structure；As shown in figure 9, the stone roller trowel piece 15 Edge be zigzag.The stone roller mud protective cover 16 is network structure, so that on the premise of operating personnel are protected, it is easy to operation The working condition of the safe double-shaft spiral pug mill of personal observations.The edge for grinding trowel piece 15 be zigzag, so as to increasing and The contact area of ceramic raw material, sharp serrated knife blade peace cutoff edge improve shear ability compared to that can produce bigger pressure, Improve crushing efficiency.

Technical principle of the present utility model is described above in association with specific embodiment.These descriptions are intended merely to explain this reality With new principle, and the limitation to scope of protection of the utility model can not be construed in any way.Based on explanation herein, Those skilled in the art, which would not require any inventive effort, can associate other embodiments of the present utility model, These modes are fallen within the scope of protection of the utility model.

Claims (10)

1. a kind of reciprocating raw material mixing arrangement, including feeding machine and blending bunker, the blending bunker are arranged at the lower section of feeding machine, It is characterized in that：

The feeding machine includes feeding conveying belt unit, feeding power car and feeding frame, and the feeding power car, which is arranged at, feeds Expect the top of frame, the feeding conveying belt unit is installed on the feeding power car；

The feeding frame includes feeding guide rail, and the feeding guide rail is installed on the top of the feeding frame, and the feeding moves Power car moves back and forth along the feeding guide rail；

The feeding conveying belt unit includes feeding conveyer belt, and the feeding conveyer belt is installed on the feeding power car；

The blending bunker is arranged at the lower section of the feeding frame.

2. reciprocating raw material mixing arrangement according to claim 1, it is characterised in that：The blending bunker includes batch mixing warehouse With more batch mixing reinforcements, the batch mixing warehouse includes batch mixing input port and batch mixing delivery outlet, and the batch mixing input port is arranged at The top of the batch mixing warehouse, the batch mixing delivery outlet are arranged at the bottom of the batch mixing warehouse；

The bore of the batch mixing input port is more than the bore of batch mixing delivery outlet, and the longitudinal section of the batch mixing warehouse is inverted trapezoidal shape；

The batch mixing reinforcement is arranged at intervals at the inside of the batch mixing warehouse；

The batch mixing input port of the blending bunker is placed in the lower section of the feeding guide rail.

3. reciprocating raw material mixing arrangement according to claim 1, it is characterised in that：The feeding power car includes feeding Car body, feeding motor, feeding dynamic conveyor belt, feeding driving wheel and multiple feeding wheels, the feeding wheel are arranged at The bottom of the feeding car body, the feeding car body are against on the feeding guide rail by the feeding wheel；

The feeding motor is installed on one end of the feeding car body, and the feeding driving wheel connects with feeding wheel；

The feeding dynamic conveyor belt is placed between the output shaft of the feeding driving wheel and feeding motor, and the feeding drives Dynamic motor drives feeding driving wheel to rotate by feeding dynamic conveyor belt, and then drives the feeding wheel along the feeding guide rail Roll.

4. reciprocating raw material mixing arrangement according to claim 3, it is characterised in that：The feeding conveying belt unit also wraps Feeding drive, feeding driven pulley and feeding feeder motor are included, the feeding feeder motor is installed on the another of the feeding car body One end, the feeding drive are installed on the close end of the other end of the feeding car body, the output of the feeding feeder motor Axle connects with feeding drive, and the feeding feeder motor driving feeding drive rotates；

The feeding driven pulley is installed on the close end of one end of the feeding car body, and the feeding conveyer belt is placed on the feeding The outside of drive and feeding driven pulley.

5. reciprocating raw material mixing arrangement according to claim 3, it is characterised in that：The feeding conveying belt unit also wraps More feeding carrying rollers are included, the feeding carrying roller is arranged at intervals the inner side of the feeding conveyer belt.

6. reciprocating raw material mixing arrangement according to claim 1, it is characterised in that：Also include pug mill, the stone roller mud Machine is arranged at the upstream end of the feeding machine；

The pug mill includes agitator tank, the first agitating shaft, the second agitating shaft and grinds trowel piece, first agitating shaft and second Agitating shaft both passes through the inside of the agitator tank；It is spaced on first agitating shaft and the second agitating shaft in the agitator tank The stone roller trowel piece is set.

7. reciprocating raw material mixing arrangement according to claim 6, it is characterised in that：Also include grinding mud protective cover, it is described Grind the top that mud protective cover is arranged at the agitator tank；

The pug mill also includes protective cover installation rotating shaft and protective cover fixing lock, and the protective cover installation rotating shaft is installed on described The side of agitator tank, the protective cover fixing lock are installed on the opposite side of the agitator tank；

The side for grinding mud protective cover is socketed on protective cover installation rotating shaft, the opposite side for grinding mud protective cover and described Protective cover fixing lock connects.

8. reciprocating raw material mixing arrangement according to claim 6, it is characterised in that：Also include grinding mud motor and stone roller Mud transmission device, the mud transmission device that grinds include grinding mud driving gear and grind mud driven gear, the stone roller mud motor Output shaft is connected by grinding one end of mud driving gear and the first agitating shaft；

Described one end ground mud driven gear and be installed on second agitating shaft, stone roller mud driving gear and stone roller the mud driven gear Intermeshing.

9. reciprocating raw material mixing arrangement according to claim 7, it is characterised in that：Described one end for grinding mud protective cover is set Have and grind mud charging aperture；

The agitator tank includes grinding mud discharging opening, the bottom ground mud discharging opening and be arranged at the agitator tank, and the stone roller Mud discharging opening is away from the stone roller mud charging aperture.

10. reciprocating raw material mixing arrangement according to claim 7, it is characterised in that：The stone roller mud protective cover is netted Structure；The edge for grinding trowel piece is zigzag.