CN207058932U - A kind of full-automatic colour mixture brick fabric mixing plant - Google Patents

Abstract

The utility model discloses a kind of full-automatic colour mixture brick fabric mixing plant, including toner storage and micro- metering device, fabric stirring barrel, automatic material distributing device, colour mixture fabric material distributing machine and colour mixture fabric bending belt feeder；Toner stores and micro- metering device includes the logical blanking component of number, the micro- gauge assembly of at least two groups of storings, micro- weighing hopper component, and micro- weighing hopper component connects fabric agitator device；Colour mixture fabric material distributing machine includes at least two groups of thermomechanical components that horizontal Tile is set, and every group of thermomechanical components include receiving hopper component, transition feeding material component and guide cloth component；Automatic material distributing device is accepted the colorant that fabric agitator device is sent out and sent automatically to the receiving hopper component of corresponding group thermomechanical components.Simple in construction, compact, centralized integrated, manufacture craft is simple, flexible and changeable, the preparation of various colored face bricks is disclosure satisfy that, particularly meets the making of sine curve bar flower pattern colour floor tile, the production for colour floor tile provides a kind of brand-new thinking and makes approach.

Description

A kind of full-automatic colour mixture brick fabric mixing plant

Technical field

It the utility model is related to colour mixture brick preparation field, in particular to a kind of full-automatic colour mixture brick fabric mixing plant.

Background technology

As living standard steps up, people also more pay attention to the environment depended on for existence, to city-building, road Landscaping it is also proposed higher requirement.Wherein road beautification be unable to do without the auxiliary of colour floor tile, traditional colour ground Monochrome is only presented in brick, monolithic, reaches multicolour pattern floor tile road by the different monochromatic regular mashed up layings of floor tile afterwards Effect, the pattern flower pattern that this kind of mode is risked seems excessively coarse, and pattern is limited.The colored ground of monolithic is improved in this people The colored pattern of face brick breaks through this bottleneck.

Have the mashed up colour patterned floor tile of multiple color or colorful brick at present.Colour patterned floor tile is by two Kind above colorant risks the regular colored face brick of regular flower pattern, and the manufacture of the colored face brick of this kind of rule at present must purchase corresponding figure The mould of case groove, afterwards by filling colorant by color successively, manufacturing step is extremely cumbersome, and every kind of flower pattern needs a pair of exploitation 1 The mould and flow answered, extremely it is unfavorable for enterprise scale and efficiently produces.Colorful brick is to risk gradual change by two or more colorants to dazzle The irregular colored face brick of color effect, due to its irregular characteristic, without being designed mould, different colorants are led in making Cross and arbitrarily raise the mode spread to realize that color is dazzled in gradual change, although obtained colorful brick compared to traditional monochromatic azulejo with more decoration Property, but its irregular characteristic also determines that it can not meet higher demand of the people to colour floor tile.

It is apparent from the foregoing that the production currently for colour mixture floor tile is prepared in the presence of certain retardance, do not have after all There is the skill that can prepare various regular pattern design colour face bricks for researching and developing that manufacture craft is simple, equipment is succinct Art.In consideration of it, inventor furthers investigate to above mentioned problem, and proposes a kind of full-automatic colour mixture brick fabric mixing plant, Thus this case produces.

Utility model content

The purpose of this utility model is to provide a kind of full-automatic colour mixture brick fabric mixing plant, simple in construction, compact, concentration Integration, manufacture craft is simple, flexible and changeable, disclosure satisfy that the preparation of various colored face bricks, particularly meets sine curve bar The making of flower pattern colour floor tile, the production for colour floor tile provide a kind of brand-new thinking and make approach.

In order to reach above-mentioned purpose, solution of the present utility model is：

A kind of full-automatic colour mixture brick fabric mixing plant, including in the toner storage set gradually up and down and micro- metering device, Fabric stirring barrel, automatic material distributing device, colour mixture fabric material distributing machine and colour mixture fabric bending belt feeder；

Toner stores and micro- metering device includes the logical blanking component of number, the micro- gauge assembly of at least two groups of storings, micro- weighing hopper There is blanking entrance and at least two-way blanking to export for component, the logical blanking component of number, and blanking entrance connection toner conveying device goes out Expect end, at least two-way blanking outlet and the storing entrance of at least two groups micro- gauge assemblies of storing connects one to one respectively, at least The storing outlet of two groups of micro- gauge assemblies of storing is all connected to the metering entrance of micro- weighing hopper component；The metering of micro- weighing hopper component The pan feeding bung of outlet connection fabric agitator device；

Colour mixture fabric material distributing machine includes at least two groups of thermomechanical components that horizontal Tile is set, and every group of thermomechanical components are included up and down successively Receiving hopper component, transition feeding material component and the guide cloth component of conveying connection；At least two groups of thermomechanical components and at least two groups of storings Micro- gauge assembly is corresponds dispensing colorant, and automatic material distributing device horizontal anomalous movement is located at fabric stirring barrel and colour mixture fabric Between material distributing machine, automatic material distributing device is accepted the colorant that fabric agitator device is sent out and sent automatically to corresponding group thermomechanical components In receiving hopper component.

The transition feeding material component has the transition flat belt of a horizontal transmission, and the discharging opening of receiving hopper component is located at transition The surface of flat belt；Guide cloth component includes material guiding hopper and eccentric stiffener, and material guiding hopper includes upper bucket and lower bucket, and upper bucket is fixed The underface of the corresponding discharge end of transition flat belt is located at, lower bucket activity is hung on the lower section of bucket, and eccentric stiffener connects with lower bucket Connect to drive the lower bucket to make wobbling action.

The thermomechanical components are provided with least two groups of thermomechanical components, and at least two groups of thermomechanical components are set in horizontal Tile and side side by side To the output direction of transfer for colour mixture fabric.

The upper bucket includes the first half and lower half, and the lower half is in square tube shape structure, and the first half is in ladder wide at the top and narrow at the bottom Shape barrel structure；Lower bucket is circle bucket type structure wide at the top and narrow at the bottom；The discharging opening of the upper bucket bottom is less than the feeding mouth of lower bucket upper end, And bottom of bucket is down extended in the feeding mouth of lower bucket on this under nature.

The lateral wall of the upper bucket is provided with two hanging scrolls, and lower bucket is hung on two hanging scrolls by bearing part activity.

The eccentric stiffener includes swing rod motor, eccentric wheel and swing rod；Eccentric wheel is arranged on swing rod motor On output shaft, one end connecting eccentric wheel of swing rod, the other end is connected on lower bucket.

The receiving hopper component includes receiving hopper and regulation door mechanism；Receiving hopper is directly over transition flat belt, with mistake Cross on the basis of the conveying direction of flat belt to；The upper and lower side of receiving hopper is respectively equipped with feeding mouth and discharging opening, pair of the discharging opening Should towards benchmark to side offer regulation breach, it is corresponding towards benchmark to side that regulation door mechanism is arranged on the discharging opening In side wall, there is lid to be located on regulation breach and make up and down adjustable adjustable plate for the regulation door mechanism.

The regulation breach has the indentations bottom set upward, the arc that the indentations bottom protrudes in middle up arc Face structure, the bottom of adjustable plate are in the curved portions being adapted with the arcwall face structure of indentations bottom.

The regulation door mechanism includes regulating bolt, fixed seat and connecting seat；Fixed seat is fixedly mounted on receiving hopper In side wall, adjustable plate is arranged on connecting seat, is flexibly connected between connecting seat and fixed seat by regulating bolt.

The regulation door mechanism also includes two groups of spacing guide blocks, and two groups of spacing guide blocks are fixedly mounted on the side wall of receiving hopper The left and right sides that is upper and being correspondingly located at adjustable plate, activity is embedded at two groups of spacing guide blocks with connecing respectively for the left and right sides of adjustable plate In the guide groove that hopper side wall is formed.

The transition feeding material component includes mounting bracket, power transmission shaft, transition flat belt and helical gear frequency conversion speed-down machine；Power transmission shaft On mounting bracket, transition flat belt is transmitted around being located on power transmission shaft, and power transmission shaft is mutually driven with helical gear frequency conversion speed-down machine Connection.

It is threeway blanking component that the number, which leads to blanking component, and the threeway blanking component includes threeway hopper, under the threeway Hopper has positioned at the first middle blanking channel, and is symmetrically positioned in the second blanking channel and the 3rd of the first blanking channel both sides Blanking channel；The both ends of first blanking channel are respectively blanking entrance and the first blanking outlet；Under second blanking channel and the 3rd The connection end of material passage is connected with the first blanking channel, is respectively connected in facing the first connected entrance opened up and second Mouthful；The free end of second blanking channel and the 3rd blanking channel is respectively the second blanking outlet and the 3rd blanking outlet；Described The first door-plate and the second door-plate of opening or closed communicating mouth are respectively provided with one connected entrance and the second connected entrance, this One door-plate and the second door-plate are connected to the door-plate drive mechanism for driving them to be swung using respective bottom as rotating shaft.

The lower end position of first connected entrance and the second connected entrance is across provided with connecting shaft, the first door-plate and second The bottom of plate is fixedly connected with corresponding connecting shaft；Door-plate drive mechanism is connected with connecting shaft to drive connecting shaft Rotation.

The door-plate drive mechanism is arranged on the lateral wall of threeway hopper, includes cylinder and push pedal；The connection One end of axle is stretched out threeway hopper and is fixedly connected with one end of push pedal；The other end of push pedal and the output shaft of cylinder are mutual It is flexibly connected, cylinder installation settings in a manner of the bearing of trend of its output shaft bearing of trend and connecting shaft is orthogonal.

First door-plate and the second door-plate are formed by two sheets, and end below two sheet is fixedly connected on connecting shaft Both sides and upper end are mutually set by mode together.

The door-plate of correspondence first of the madial wall of the blanking entrance and the second door-plate opening position are caved in provided with what is set down The upper end of step, the first door-plate and the second door-plate up extends and depression is caved in step in this.

The micro- gauge assembly of storing includes toner storage bucket and micro- metering screw mechanism；Toner storage bucket has charging aperture And discharging opening, charging aperture are connected with the blanking outlet of the logical blanking component of number, discharging opening connects micro- meter of micro- metering screw mechanism Entrance is measured, micro- metering outlet of micro- metering screw mechanism is connected to the metering entrance of micro- weighing hopper component；Toner storage bucket leans on Nearly end position up and down is separately installed with level-sensing device and lower level-sensing device, and the end position on the lower of toner storage bucket is also equipped with helping stream Device.

At least two toner storage buckets are in that common side wall is wholely set at least corresponding to two groups of micro- gauge assemblies of storing.

Micro- weighing hopper component has the micro- weighing hopper of toner, and the micro- weighing hopper of the toner has corresponding at least two groups of storings micro- At least two metering entrances of gauge assembly；Sensor and electromagnetic shaker are installed on the micro- weighing hopper of the toner.

The automatic material distributing device includes hollow out frame, walking belt component and cylinder assembly；Belt component of walking slides Ground is erected in hollow out frame, and cylinder assembly is connected between hollow out frame and walking belt component, to drive flat rubber belting group of walking Part slides back and forth；Walking belt component includes walker, two groups of belt shafts, roller group and belt；Two groups of belt shaft rotational installations On walker, belt is around being located on two groups of belt shafts；Roller is mounted on the lower section of the corresponding belt between two groups of belt shafts, roller Subgroup has along three groups of rollers being arranged side by side perpendicular to Belt Conveying direction, three groups of rollers with middle groups roller in it is horizontal, Both sides group roller is set in a manner of the updip of outer end, then the both sides updip for corresponding to belt forms hopper.

The roller group is provided with two row, the two row roller group positioned at the centre of two groups of belt shafts, along Belt Conveying direction simultaneously Row are arranged at intervals.

The both sides of corresponding belt on the walker further respectively have a rib, and the rib is inclination contact on belt Rubber slab.

The angle of the past updip of the rubber slab is more than the angle of belt both sides updip.

Column is installed on the walker, rubber slab is locked on column by iron plate.

The toner storage metering device includes hopper, spiral element and winding displacement pin electric-motor drive unit；Spiral element is oblique Setting is stretched, there is the charging aperture under and lead to the blanking entrance of blanking component in upper discharging opening, discharging opening connection number；Hopper Discharging opening connects the charging aperture of spiral element, the spiral bar portion of winding displacement pin electric-motor drive unit drive connection spiral element.

After such scheme, a kind of full-automatic colour mixture brick fabric mixing plant of the utility model, relative to prior art Beneficial effect is：In making, different colours colorant is respectively fed to by same toner conveying device, is sent into toner storage afterwards And micro- metering device, by the logical blanking component control of number, different colours colorant is directed respectively into the different groups of micro- gauge assemblies of storing, via Fabric stirring barrel stirring is sent into after micro- weighing hopper component, by automatic material distributing device by different colours colorant pair after being stirred The corresponding group thermomechanical components of colour mixture fabric material distributing machine should be sent into, different group thermomechanical components pass through transition feeding material component and guide cloth afterwards Component is acted on, while different colours colorant rule is laid on the walking belt of colour mixture fabric bending belt feeder, whole to make Process is full-automatic, simple, smooth, reliable, can be set, disclosure satisfy that according to the species simple and flexible of required different colours colorant Simple, the efficient preparation of various colored face bricks, a kind of brand-new thinking and system are provided for the production of current colour floor tile industry Make approach.

Brief description of the drawings

Fig. 1 is the front view of the full-automatic colour mixture brick fabric mixing plant of the utility model；

Fig. 2 is the side view (not stirring platform comprising fabric) of the full-automatic colour mixture brick fabric mixing plant of the utility model；

Fig. 3 is the front view of the utility model colour mixture fabric sine material distributing machine；

Fig. 4 is the side view of the utility model colour mixture fabric sine material distributing machine；

Fig. 5 is the front view of the utility model thermomechanical components；

Fig. 6 is the top view of the utility model thermomechanical components；

Fig. 7 is the front view of the utility model material guiding hopper；

Fig. 8 is the schematic diagram of the utility model eccentric stiffener；

Fig. 9 is the schematic diagram of the utility model eccentric stiffener bias coupling part；

Figure 10 is another schematic diagram of the utility model eccentric stiffener bias coupling part；

Figure 11 is the front view of the utility model transition feeding material component；

Figure 12 is the top view of the utility model transition feeding material component；

Figure 13 is the front view of the utility model receiving hopper component；

Figure 14 is the side view of the utility model receiving hopper component；

Figure 15 is the storage of the utility model toner and micro- metering device, the front view of toner conveying device；Figure 16 is this reality With the storage of new toner and the front view of micro- metering device；

Figure 17 is the side view of the storage of the utility model toner and micro- metering device；

Figure 18 is the front view of threeway blanking component；

Figure 19 is the top view of threeway blanking component；

Figure 20 is the front view of toner storage bin hopper；

Figure 21 is the schematic diagram of the micro- metering screw mechanism of toner；

Figure 22 is the front view of the micro- weighing hopper of toner；

Figure 23 is the partial schematic diagram of toner conveying device；

Figure 24 is the front view of automatic material distributing device；

Figure 25 is the top view of automatic material distributing device；

Figure 26 is the side view of automatic material distributing device.

Label declaration

Toner conveying device 100：

Hopper 11, spiral element 12, winding displacement pin electric-motor drive unit 13；

Feeding mouth 121, discharging opening 122, winding displacement pin motor 131,

Reductor sprocket wheel 132, duplex chain 133；

Toner stores and micro- metering device 200：

Frame 20, the logical blanking component 21 of number, the micro- gauge assembly 22 of storing, micro- weighing hopper component 23；First blanking channel 211, blanking entrance 2111, the first blanking outlet 2112,

Second blanking channel 212, the first connected entrance 2121, the second blanking outlet 2122,

3rd blanking channel 213, the second connected entrance 2131, the 3rd blanking outlet 2132,

First door-plate 214, the second door-plate 215, connecting shaft 216, band rhombus bearing block 2161,

Cylinder 217, cylinder block 2171, push pedal 218, cave in step 219；

Toner storage bucket 221, charging aperture 2211, discharging opening 2212,

Upper level-sensing device 223, lower level-sensing device 224,

Micro- metering screw mechanism 222, micro- metering entrance 2221, micro- metering outlet 2222,

Measure entrance 231, metering outlet 232, sensor 233, electromagnetic shaker 234；

Fabric stirs barrel 300, dump skip 301；

Automatic material distributing device 400：

Hollow out frame 40, cylinder assembly 41, walker 42, road wheel 421, column 422,

Iron plate 423, belt shaft 43, roller group 44, middle groups roller 441, both sides group roller 442, belt 45, hopper 451, Rubber slab 46；

Colour mixture fabric material distributing machine 500：

Receiving hopper component 51, transition feeding material component 52, guide cloth component 53；

Receiving hopper 511, feeding mouth 5111, discharging opening 5112, regulation breach 5113, baffle plate 5114,

Regulation door mechanism 512, adjustable plate 5121, regulating bolt 5122, fixed seat 5123,

Connecting seat 5124, spacing guide block 5125；

Mounting bracket 521, power transmission shaft 522, transition flat belt 523, helical gear frequency conversion speed-down machine 524；

Upper bucket 531, lower bucket 532, eccentric stiffener 533；

The first half 5311, lower half 5312, hanging scroll 5313, connection sheet 5314,

Swing rod connecting seat 5321, swing rod motor 5331, eccentric wheel 5332, swing rod 5333；

Colour mixture fabric bending belt feeder 600；Fabric stirs platform 700, cat ladder 701.

Embodiment

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

This case is related to a kind of full-automatic colour mixture brick fabric mixing plant, as shown in Figure 1-2, main to include being in set gradually up and down Toner storage and micro- metering device 200, fabric stirring barrel 300, automatic material distributing device 400, colour mixture fabric material distributing machine 500 And colour mixture fabric bending belt feeder 600.Toner storage and micro- metering device 200 are also associated with supplying the toner conveying device of toner 100。

Mixing plant is additionally provided with to be erected at each device periphery and play high lift device certain fabric for connecting supporting role and stirred Mix platform 700, operating personnel, which by fabric stir platform 700 and ascended a height, to be realized and carry out operation, face to the described device of relevant position Material stirring platform 700 is provided with the cat ladder 701 for being beneficial to ascend a height.

The number that the toner storage and micro- metering device 200 include setting gradually up and down leads to blanking component 21, at least two groups The micro- gauge assembly 22 of storing, micro- weighing hopper component 23.The logical number of discharging and the micro- gauge assembly 22 of storing of the logical blanking component 22 of number Group number is corresponding, and specifically there is the logical blanking component 22 of number a blanking entrance and at least two-way blanking to export, blanking outlet The group number of logical number gauge assembly 22 micro- with storing is corresponding.The discharge end of blanking entrance connection toner conveying device 100, at least two Logical blanking outlet and the storing entrance of the micro- gauge assembly 22 of at least two groups of storings connect one to one respectively.At least two groups of storings are micro- The storing outlet of gauge assembly 22 is all connected to the metering entrance of micro- weighing hopper component 23.The metering outlet of micro- weighing hopper component 23 Connect the pan feeding bung of fabric agitator device 300.In the specific embodiment provided, the micro- gauge assembly 22 of storing is provided with three groups, The logical blanking component 21 of number is threeway blanking component, and there are three blankings to export.The discharge tank mouthpiece of fabric stirring barrel 300 connects There is dump skip 301, the feeding of automatic material distributing device 400 is given beneficial to it.

The colour mixture fabric material distributing machine 500 includes at least two groups of thermomechanical components that horizontal Tile is set.At least two groups of units Part and the micro- gauge assembly 22 of at least two groups of storings, the group number of the two are correspondingly arranged, and as correspond dispensing colorant.It is corresponding In specific embodiment, thermomechanical components are provided with corresponding three groups.Every group of thermomechanical components include up and down the receiving hopper group of conveying connection successively Part 51, transition feeding material component 52 and guide cloth component 53.The horizontal anomalous movement of automatic material distributing device 400 is located at fabric stirring barrel Between 300 and colour mixture fabric material distributing machine 500, automatic material distributing device 400 accepts the colorant that fabric agitator device 300 is sent out, and In automatic dispensing to the receiving hopper component 51 of corresponding group thermomechanical components.After the splicing of receiving hopper component 51, via transition feeding material component 52 After transition feeding, the progress fabric cloth material operation on colour mixture fabric bending belt feeder 600 is realized by guide cloth component 53.

Citing goes out three blankings of threeway blanking component, it is necessary to three kinds of different colours colorants make colour mixture brick fabric Mouth is respectively labeled as outlet 1,2,3, and the micro- gauge assembly 22 of three groups of storings is respectively the micro- metering group of first, second, third group of storing Part 22, three groups of thermomechanical components are respectively first, second, third group of thermomechanical components.Toner conveying device 100 first conveys the first colorant, Enter the blanking entrance of threeway blanking component by its discharge end, the corresponding outlet 1 of threeway blanking component is opened, and colorant is by going out Mouth 1 is sent into the micro- gauge assembly 22 of first group of storing, and colorant is sent into weighing hopper component 23 while passing through micro- metering, precisely weighed The toner of amount is sent into fabric stirring barrel 300, and (they pass through in addition with the cement in fabric stirring barrel 300, dispensing etc. The conveying mechanism of setting is delivered to fabric stirring barrel 300) it is sufficiently stirred, after stirring, discharging to automatic material distributing device 400, the automatic horizontal movement of automatic material distributing device 400 is extremely corresponding with first group of thermomechanical components, the colorant after stirring is fallen into first group In the receiving hopper component 51 of thermomechanical components.The whole conveying manufacturing process of second, third kind of colorant similarly, wherein second of colorant pair What is answered is the micro- gauge assembly 22 of 2, second groups of outlet storing and second group of thermomechanical components, is outlet the 3, the 3rd corresponding to the third colorant The group micro- gauge assembly 22 of storing and the 3rd group of thermomechanical components.Corresponding to three kinds of different colours colorants feedings in receiving hopper component 51, by The respective difference activity blanking of guide cloth component 53 effect, is realized on the walking belt of colour mixture fabric bending belt feeder 600 The regular cloth of difference simultaneously, thus obtain the brick fabric of required color design.

This case mixing plant, by the novel designs of conjunction-oco, realize the centralized integrated of mixing plant, structure design Very succinct, compact, whole manufacturing process is full-automatic, and simple smooth, reliable in order, processing step simplifies, flexible and changeable, mixes Painting cloth material novel form is various, and the fully-automatic production for current colour mixture brick fabric provides a kind of brand-new thinking and makes approach.

The colour mixture fabric material distributing machine 500 is preferably a kind of colour mixture fabric sine material distributing machine, as seen in figures 3-6, including Frame 50 and at least two groups of thermomechanical components in frame 50.According to the species of different colours colorant needed for colour mixture fabric, application The thermomechanical components of respective sets number, that is to say, that the corresponding one group of thermomechanical components of each color colorant.At least two groups of thermomechanical components are in horizontal Tile Set and direction is colour mixture fabric side by side output direction of transfer, i.e. in Fig. 2 the output of colour mixture fabric bending belt feeder 600 pass Send direction.Provide in specific embodiment, referring to Fig. 3, unit number is provided with three groups side by side.

The thermomechanical components include up and down receiving hopper component 51, transition feeding material component 52 and the guide cloth of conveying connection successively Component 53.Transition feeding material component 52 has the flat belt 521 of a horizontal transmission, and the discharging opening of receiving hopper component 51 is put down positioned at transition The position directly above of belt 523, the end of the direction of transfer of transition flat belt 523 is its discharge end.Guide cloth component 53 wraps Material guiding hopper and eccentric stiffener 533 are included, material guiding hopper includes upper bucket 531 and lower bucket 532；Upper bucket 531, which is fixed, is located at transition flat belt 523 Corresponding discharge end underface, it is lower bucket 532 activities be hung on bucket 531 lower section；Eccentric stiffener 533 and lower bucket 532 are mutual Connection, the lower bucket 532 is driven to make wobbling action, direction and the colour mixture fabric bending belt feeder of reciprocating swing by eccentric stiffener 533 600 output direction of transfer is perpendicular.

This case colour mixture fabric sine material distributing machine is located at the top of the colour mixture fabric output belt feeder 600 of mixing plant, for reality The sinusoidal cloth effect of existing colour mixture fabric.In work, according to the species of different colours colorant needed for colour mixture fabric, using respective sets Several thermomechanical components.After every kind of colorant is by the corresponding splicing storing of receiving hopper component 51, sent by its discharging opening in transition feeding group On the transition flat belt 523 of part 52, colorant is timely and appropriately sent into material guiding hopper by transition flat belt 523, specifically led to successively Cross bucket 531 and be sent into lower bucket 532, in the process, lower bucket 532 under the drive of eccentric stiffener 533 according to the amplitude of setting and Frequency makees controllable swing, and the outbound course of the swaying direction and colour mixture fabric output belt feeder is perpendicular, and sinusoidal cloth is realized in this Expect effect.Each color colorant can set corresponding required different swing effects by the control of corresponding thermomechanical components, thus, it is possible to It is enough to realize the not juxtaposition cloth, or have by the design of setting regularly on colour mixture fabric output belt feeder simultaneously The overlapping cloth of rule, fabric is obtained in the mixed of the various various kinds of sine curve bar colour design thus, it is possible to easy making Color fabric brick.

This case material guiding hopper is designed as bucket 531 and the 532 two parts combination of lower bucket, the upper fixed setting of bucket 531, beneficial to reliable flat The colorant sent quietly is accepted, lower bucket 532 is driven by eccentric stiffener 533 and put while bucket 531 sends colorant in undertaking Mono-pendulum type discharging is equally presented in dynamic operation, the colorants that thus lower bucket 532 drops out, and coordinates the belt for accepting colorant to be and its side of swing To vertical linear motion, sinusoid cloth can be obtained in this, the brick face for realizing sinusoidal cloth is made applied to colour mixture fabric Expect effect.By controlling the amplitude and frequency of 532 single pendulums of lower bucket, i.e., it can control the sinusoidal density size of cloth.

As shown in fig. 7, material guiding hopper presents 532 designing two portions of bucket 531 and lower bucket, the two-part cooperation is very crucial, In order to lift the fitness for accepting material, the discharging opening of 531 bottoms of upper bucket is designed as to the feeding mouth for being less than lower 532 upper ends of struggling against, and And bottom of bucket 531 is down extended in the feeding mouth of lower bucket 532 on this under nature.So even in 532 amplitude of fluctuations of lower bucket Spend it is larger in the case of, can also ensure that the colorant of bucket 531 is smoothly sent into lower bucket 532 and participates in cloth in time, in this enhancing The uniformity of sinusoidal cloth.

Further, upper bucket 531 is designed as the first half 5311 and lower half 5312, the lower half 5312 is in square tube shape knot Structure, the first half 5312 are in trapezoidal barrel structure wide at the top and narrow at the bottom.Lower bucket 532 is circle bucket type structure wide at the top and narrow at the bottom.So it is beneficial to upper Bucket 531 accepts the colorant sent, afterwards uniformly, smooth-going reliably import lower bucket 532 again.

Preferably, the mode that hangs of the lower bucket 532 is that activity is hung on bucket 431.Specifically, upper bucket 531 Lateral wall is provided with two hanging scrolls 5311, and lower bucket 532 is hung on two hanging scrolls 5311 by bearing part activity.In addition, in order to beneficial to The fixed installation effect of upper bucket 531, the bucket of upper bucket 531 turns up provided with connection sheet 5314 along upper level, in specific embodiment, connection Piece 5314 encloses three set provided with three faces.Locked by the connection sheet 5314 beneficial to bucket 531 on this with associated supports and set fixation.

Preferably, as seen in figs. 8-10, the eccentric stiffener 533 include swing rod motor 5331, eccentric wheel 5332 and Swing rod 5333.Swing rod motor 5331 is fixed and is located on motor mount 5334, and eccentric wheel 5332 is arranged on swing rod driving electricity On the output shaft of machine 5331, one end connecting eccentric wheel 5332 of swing rod 5333, the other end is connected on lower bucket 532.Under specifically, The side wall of bucket 532 is provided with swing rod connecting seat 5321, and the other end of swing rod 5333 is connected to the pendulum by the connecting plate to match On bar connecting seat 5321.Driven by swing rod motor 5331, band movable eccentric wheel 5332 rotates, and band driven fork 5333 is reciprocal afterwards Swing back and forth, it is final to drive the reciprocally swinging effect back and forth of lower bucket 532.

Preferably, the transition feeding material component 52 as depicted in figs. 11-12, including put down by mounting bracket 521, power transmission shaft 522, transition Belt 523 and helical gear frequency conversion speed-down machine 524.Power transmission shaft 522 is rotatably installed on mounting bracket 521, and transition flat belt 523 transmits Around being located on power transmission shaft 522, power transmission shaft 522 is mutually connected with helical gear frequency conversion speed-down machine 524 by gear mechanism.Work In, the frequency conversion controllable rotary of power transmission shaft 522 is driven by helical gear frequency conversion speed-down machine 524, you can drive transition flat belt 523 according to sending Material demand carries out the controllable output colorant effect of frequency conversion.

Receiving hopper component 51 as illustrated in figs. 13-14, including receiving hopper 511 and regulation door mechanism 512.Receiving hopper 511 is located at Directly over transition flat belt, on the basis of the conveying direction of transition flat belt to.The upper and lower side of receiving hopper 511 is respectively equipped with pan feeding Mouthfuls 5111 and discharging opening 5112, discharging opening 5112 and transition flat belt leave the gap that discharges in being disposed proximate to up and down, between the two.Go out The correspondence of material mouth 5112 offers regulation breach 5113 towards benchmark to the side in (left side in Figure 14).Adjust door mechanism 512 Corresponded to installed in the discharging opening 5112 on towards benchmark to the side wall of side, the regulation door mechanism 512 has adjustable plate 5121, should The lid of adjustable plate 5121 is located on regulation breach 5113 and makees up and down adjustable setting.

The regulation breach 5113 is the side opening structure towards benchmark to side, and such ad-hoc location design can just play Receiving hopper coordinates with transition flat belt realizes that discharging is adjustable.Breach is controlled to adjust by the adjustable plate 5121 for adjusting door mechanism 512 5113 openings of sizes, realize the load that receiving hopper discharges to transition flat belt is how many, speed effective control, while go back band To avoid discharging opening from blocking the effect to get stuck, orderly transition buffer and conveyer belt for colorant conveying carry out very big benifit.

Preferably, the regulation breach 5113 has the indentations bottom set upward, and the indentations bottom is in middle up arc The arcwall face structure of shape protrusion, the bottom of corresponding adjustable plate 5121 is in the arc being adapted with the arcwall face structure of indentations bottom Portion.Arcuate structure design make during regulation it is more smooth effectively, discharging is more smooth controllable.

Preferably, in order to beneficial to effective mating reaction between adjustable plate 5121 and regulation breach 5113, the receiving hopper 511 It is designed as mainly being enclosed by four blocks of side plates and sets the square bucket structure being spliced to form, adjustable plate 5121 is in then to be sticked on corresponding side plate Plate-like structure.

The preferred embodiment of the regulation door mechanism 512, includes regulating bolt 5122, fixed seat 5123 and connecting seat 5124.Fixed seat 5123 is fixedly mounted in the side wall of receiving hopper 511, and adjustable plate 5121 is arranged on connecting seat 5124, connection It is flexibly connected between seat 5124 and fixed seat 5123 by regulating bolt 5122, specifically, one end of regulating bolt 5122 is consolidated Lock is located on connecting seat 5124, and the other end is set with fixed seat 5123 by screw nut adjustable lock.Need regulation regulation up and down During plate 5121, it need to only outward winding nut and shift regulating bolt 5122 up and down.

Preferably, in order to which the stationarity adjusted beneficial to adjustable plate about 5121, the regulation door mechanism 512 also include two groups Spacing guide block 5125, spacing guiding function is carried out to adjustable plate 5121.Specifically, two groups of spacing guide blocks 5125 are fixedly mounted on It is located in the side wall of receiving hopper 511 and correspondingly the left and right sides position of adjustable plate 5121, two groups of spacing guide blocks 5125 and splicing Struggled against the guide groove that 511 side walls are formed, and activity is embedded in guide groove respectively for the left and right sides of adjustable plate 5121.

Preferably, in order to beneficial to effective cooperation between discharging opening 5112 and transition flat belt, it is ensured that colorant effectively conveys, in Symmetrically arranged two baffle plate 5114 extended along reference direction, two baffle plate 5114 are provided with the discharging opening 5112 of receiving hopper 511 Bottom be less than discharging opening 5112, in this this it is low go out part form safe edge knot between discharging opening 5112 and transition flat belt Structure.Side extension where the correspondence toward reference direction of two baffle plates 5114 is provided with protection extension, plays to transition flat belt The continuous protective action of deferent segment.

The toner storage and micro- metering device 200, as seen in figs. 15-17, including frame 20, and in frame 20 The logical micro- gauge assembly 22 of storing of blanking component 21, at least two groups of number and micro- weighing hopper component 23.The number, which leads to blanking component 21, to be had There are blanking entrance A and at least two-way blanking outlet B, blanking entrance A is that the toner of the micro- metering device 200 of toner storage always inputs Mouthful.The group number of at least two-way blanking outlet B logical number gauge assembly 22 micro- with storing is identical, at least two-way blanking outlet B and extremely The storing entrance C of the micro- gauge assembly 22 of few two groups of storings connects one to one respectively, the micro- gauge assembly 22 of at least two groups of storings Storing outlet D is all connected to the metering entrance E of micro- weighing hopper component 23.The metering outlet F of micro- weighing hopper component 23 deposits for toner Store up the total delivery outlet of toner of micro- metering device 200.In the preferred embodiment provided, the logical blanking component 21 of number is threeway blanking group Part, has three independent blanking outlets, and the micro- gauge assembly 22 of corresponding storing has three groups be arranged side by side.Certainly as needed The logical increase setting for counting and organizing number can be appropriate.

This case toner stores micro- metering device 200 and is applied in colour mixture brick fabric mixing plant, and toner stores micro- metering device The discharge end of the toner conveying device of the 200 total input port of toner (blanking entrance A) connection mixing plant, the micro- metering dress of toner storage Put the pan feeding bung of the fabric stirring barrel of the 200 total delivery outlet of toner (metering outlet F) connection mixing plant.This case toner is deposited Store up micro- metering device 200 be colour mixture brick realize different colours colorant simultaneously, in order, efficient storage and metrological operation it is indispensable New device.In making, different colours colorant is sequentially sent into the blanking entrance A that number leads to blanking component 21 respectively, is led to by the number The passage control of blanking component 21, makes each color colorant be directed respectively into the micro- gauge assembly 22 of storing of corresponding group, by each storing Micro- gauge assembly 22 carries out temporary storage to each color colorant, and sequentially micro- metering is exported to micro- weighing hopper component 23 respectively, Afterwards the colorant in micro- weighing hopper component 23 be sequentially sent to respectively mixing plant fabric stirring barrel be stirred operation, it Sequentially send out respectively again afterwards.Device has under the premise of structure concentrates integral type compact design and realizes the synchronization of different colours colorant The characteristics of precisely micro- metering of separate storage, asynchronous independence, preamble storing process and follow-up micro- metering process synchronous high-efficiency are carried out, And the characteristics of full-automatic, flexible and changeable, having taken into account colour mixture fabric needs in order and efficiently, and the storage that application adaptability is strong Measure transportation integration effect.

It is specially threeway blanking component that the number, which leads to blanking component 21, provides preferred embodiment, as depicted in figs. 18-19, Mainly include threeway hopper, door-plate and door-plate drive mechanism.The threeway hopper has the first blanking channel 211, second The blanking channel 213 of blanking channel 212 and the 3rd.First blanking channel 211 is centrally located, the second blanking channel 212 and Three blanking channels 213 are symmetrically positioned in the both sides of the first blanking channel 211.The both ends of first blanking channel 211 are respectively that blanking enters The blanking outlet 2112 of mouth 2111 and first, blanking entrance 2111 is total feeding mouth of threeway.Under second blanking channel 212 and the 3rd Material passage 213 is respectively provided with the connection end being connected with the first blanking channel 211, and the free end freely extended；Second blanking The connection end of the blanking channel 213 of passage 212 and the 3rd is connected with the first blanking channel 211, respectively the first connected entrance 2121 and second connected entrance 2131, the connected entrance 2131 of the first connected entrance 2121 and second open up setting in facing；Under second The free end of the material blanking channel 213 of passage 212 and the 3rd is respectively the second blanking outlet 2122 and the 3rd blanking outlet 2132.

The first door-plate for being used for opening or close first connected entrance 2121 is provided with first connected entrance 2121 214, similarly, at the second connected entrance 2131 it is provided with the first door-plate 215 for being used for opening or close second connected entrance 2131.Should First door-plate 214 and the second door-plate 215 are connected to a door-plate drive mechanism, drive them using respective bottom as rotating shaft Carry out swing operation.The plate of first door-plate 214 and the second door-plate 215 is high to be more than or equal between the first door-plate 214 and the second door-plate 215 The spacing of (between the first connected entrance 2121 and the second connected entrance 2131), so when the first door-plate 214 toward the direction of the second door-plate 215 most It can lean on or at least contradict on the second door-plate 215 when significantly swinging, similarly, when the second door-plate 215 is toward the first door-plate 214 direction amplitude peaks can be leaned on or at least contradicted on the first door-plate 214 when swinging.

This case threeway blanking component realizes that three kinds of different colours colorants of colour mixture brick fabric correspond to three-aisled conveying, threeway The blanking entrance 2111 of hopper connects the delivery outlet of toner conveying device, and (the first blanking goes out for three outlets of threeway hopper 2132) the 2112, second blanking of mouth outlet 2122 and the 3rd blanking outlet connect three colorant storage bin hoppers respectively.Original state, door Plate drive mechanism does not drive the first door-plate 214 and the second door-plate 215 to swing, and the first door-plate 214 is in the first connected entrance of closure 2121 states, similarly the second door-plate 215 be in closure and the state of the second connected entrance 2131, now blanking entrance 2111 is only with first The connection of blanking outlet 2112, i.e. now threeway blanking only has the first blanking channel 211 to be in exclusive communication state, for the first color Powder is conveyed by the first blanking channel 211 and realizes storing.When only needing the second blanking channel 212 to connect, by the second blanking The door-plate drive mechanism of passage 212 drives the first door-plate 214 to be swung toward the direction of the second door-plate 215, the upper end of the first door-plate 214 Rest on the second door-plate 215, now realize connection (blanking entrance 2111, the first connected entrance 2121 in the second blanking channel 212 And second blanking outlet 2122 composition access) while close the first blanking channel 211, pass through second for second of toner Blanking channel 212 conveys and realizes storing；When only needing the 3rd blanking channel 213 to connect, otherwise similarly operate.It is described Threeway blanking selects and control realize it is completely simple, reliable, efficiently, bring colour mixture fabric make in different colours colorant it is same Pipeline conveys respectively and the effect of parallel storage new model.

Preferably, the movable mountings of the door-plate 215 of the first door-plate 214 and second are：The He of first connected entrance 2121 The lower end position of second connected entrance 2131 is across provided with connecting shaft 216, the bottom of the first door-plate 214 and the second door-plate 215 It is fixedly connected with corresponding connecting shaft 216.Two groups of door-plate drive mechanisms are connected with corresponding connecting shaft 216, realize Drive connecting shaft 216 to rotate, finally realize that the first door-plate 214, the respective of the second door-plate 215 are swung respectively.In order to beneficial to connection Axle 216 is installed and gearing, and threeway hopper is provided with band rhombus bearing block 2161, and connecting shaft 216 is rotatably installed in the band On rhombus bearing block 2161.

Preferably, the concrete structure of the door-plate drive mechanism is：Door-plate drive mechanism is arranged on the outer of threeway hopper In side wall, include cylinder 217 and push pedal 218.One end of connecting shaft 216 stretches out threeway hopper and with the one of push pedal 218 End is fixedly connected；The other end of push pedal 218 is mutually flexibly connected with the output shaft of cylinder 217, and cylinder 217 is extended with its output shaft Direction and the orthogonal mode installation settings of bearing of trend of connecting shaft 216.It is specifically, solid on the lateral wall of threeway hopper Surely there is cylinder mounting seat 2171, the cylinder body of cylinder 217 is rotationally installed in cylinder mounting seat 2171.In this way, pass through cylinder The expanding-contracting action of 217 output shaft, the positive and negative rotation of connecting shaft 216 can be driven by push pedal 218, so as to realize the first door-plate 214th, the appropriate swing of the second door-plate 215.

Preferably, the first door-plate 214 and the second door-plate 215 are formed by two sheets, end below two sheet is fixed to be connected It is connected on the both sides of connecting shaft 216 and upper end is mutually set by mode together.In this way, too late be beneficial to the He of the first door-plate 214 The connection of second door-plate 215 is set, and two panels harden structure makes connecting shaft 216 realize hidden setting, is avoided toner from mixing passage and is let out Dew, make the equal smooth of conduit wall of the threeway of the first door-plate 214 and the second door-plate 215 composition, effectively transmitted beneficial to toner.Again Have, in the madial wall of blanking entrance 2111 correspondence the first door-plate 214 and the opening position of the second door-plate 215 be provided with down set in The upper end of sunken step 219, the first door-plate 214 and the second door-plate 215 up extends and depression is caved in step 219 in this, So play the backswing restriction effect, while also avoid in place to the first door-plate 214 and the backswing of the second door-plate 215 to original state First door-plate 214 and the second door-plate 215 upper end protrusion and influence toner transmission problem.

The micro- gauge assembly 22 of every group of storing is as shown in Figure 16-17,20-21, including toner storage bucket 221 and micro- metering Screw mechanism 222.Toner storage bucket 221 has charging aperture 2211 and a discharging opening 2212, and every group of micro- gauge assembly 21 of storing enters Material mouth 2211 is connected with the corresponding blanking outlet B (2112/2122/2132) of the logical blanking component 21 of number, and discharging opening 2212 connects Micro- metering entrance 2221 of micro- metering screw mechanism 222, micro- metering screw mechanism 2221 micro- metering outlet 2222 be connected to it is micro- The metering entrance 231 of weighing hopper component 23., will at least two in order to simplify the mounting design of the micro- gauge assembly 21 of at least two groups of storings At least two toner storage buckets 221 corresponding to the group micro- gauge assembly 22 of storing are in that common side wall is wholely set.In specific embodiment, Provided with the micro- gauge assembly 22 of three groups of storings, corresponding three groups of toner storage buckets 221 such as Figure 20 is in that common side wall is integrally connected with.

The close upper and lower end position of each toner storage bucket 221 is separately installed with level-sensing device 223 and lower level-sensing device 224, Detection and control for upper and lower corresponding material position, it is ensured that each toner storage bucket 221 avoids buying securities with all one's capital flash or hole capital after selling all securities is made without material With.The end position on the lower of each toner storage bucket 221 is also equipped with flow-aid device, plays and helps stream to draw material effect.Micro- metering screw machine Micro- metering entrance 2221 of micro- metering screw mechanism 222 is made enlarging design, micro- meter by structure 222 using the mechanism of VFC Measure the wide wide size of mouth for being designed and sized to micro- metering outlet 2222 of mouth of entrance 2221 2-3 times, can so make micro- metering spiral shell The toner conveying metering for revolving mechanism 222 is more precisely reliable controllable.

Micro- weighing hopper component 23 is as shown in figure 22, has the micro- weighing hopper of toner, and the micro- weighing hopper of the toner has corresponding At least two metering entrances 231 of the micro- gauge assembly 22 of at least two groups of storings, corresponding specific embodiment has micro- to be measured with three The one-to-one three meterings entrances 231 of mouth 2222.There is the micro- weighing hopper of toner a metering to export 232, for toner storage metering The final discharging opening of device.Sensor 233 and electromagnetic shaker 234 are also equipped with the micro- weighing hopper of toner, sensor 233 is used to weigh Material controlling, electromagnetic shaker 234 play a part of being beneficial to vibrations blanking discharging.

Metering device 200 is mainly stored by toner conveying device 100 and toner, fabric stirs barrel 300 and divides automatically Expect that device 400 forms toner conveying and stores micro- metering system, as shown in Figure 2,3.Toner conveying stores micro- metering system and realized not Conveyed in order with color toner integral type, separate storage, micro- full-automatic assembly line effect measured, independently transferred out again, be mixed The simple preparation of color brick fabric provides brand-new technical support and guarantee.

The toner stores metering device 100, as shown in Figure 15,23, including hopper 11, spiral element 12 and winding displacement pin electricity Machine driver element 13.Spiral element tiltedly stretches setting, is supported by associated support leg and bracing piece.Spiral element 12 has under Charging aperture 121 and in upper discharging opening 122, discharging opening 122 connects the blanking entrance A that number leads to blanking component 21；Hopper 11 goes out Material mouth connects the charging aperture 121 of spiral element 12.The screw rod of the drive connection spiral element 12 of winding displacement pin electric-motor drive unit 13 Portion.Winding displacement pin electric-motor drive unit 13 has specifically included winding displacement pin motor 131, reductor sprocket wheel 132 and duplex chain 133, Reductor sprocket wheel 132 is arranged on the output shaft of winding displacement pin motor 131, and duplex chain 133 is connected in reductor sprocket wheel Between 132 and the spiral bar portion of spiral element 12.Thus, by the frequency conversion drive of winding displacement pin motor 131, reductor sprocket wheel is passed through 132 and duplex chain 133 be driven, you can drive the work feeding of spiral element 12 spiral.

The automatic material distributing device 400, as shown in figs 24-26, including hollow out frame 40, cylinder assembly 41 and walking belt Component；Walking belt component mainly includes 42, two groups of belt shafts 43 of walker, roller group 44 and belt 45.The walking belt It is erected in hollow out frame 40 component slippage, it is specifically, front and rear on walker 42 to be provided with four groups of road wheels 421, hollow out machine Frame 40 is provided with track, and four groups of road wheels 421 set up realization in orbit and slided back and forth.Cylinder assembly 43 is connected to hollow out frame Between 40 and walking belt component (walking part 42), to drive walking flat rubber belting component integrally to slide back and forth.

Two groups of belt shafts 43 are rotatably installed on walker 42, and belt 45 is around being located on two groups of belt shafts 43.Hollow out frame 40 be engraved structure, and being in the both ends of the belt 45 of this walking belt component can be toward the discharge end of dropping material sub-material.Belt shaft 43 are connected with drive mechanism, drive the belt shaft 43 to be rotated and reverse by drive mechanism, that is, drive belt 45 positive and negative Discharge end selection discharging is realized in walking.The lower position of corresponding belt 45 of the roller group 44 between two groups of belt shafts 43, compared with Centre position of the good roller group 44 between two groups of belt shafts 43.Roller group 44 have along perpendicular to Belt Conveying direction simultaneously Arrange the three groups of rollers set, respectively middle groups roller 441 and both sides group roller 442, the axle bearing of trend of three groups of rollers with The axle bearing of trend of belt shaft 43 is parallel, and three groups of rollers are with middle groups roller 441 in horizontal, both sides group roller 442 respectively in outer The mode of end updip is set, then the both sides difference updip for corresponding to belt 45 bypasses both sides group roller 442, and composition has hopper 451.Being mounted on for roller group 44 ensures that belt 45 plays the effect for changing the moulding of belt 45 on the premise of smoothly sliding.Material Groove 451 is in middle toward both sides groove depth is progressively lower, groove width gradually small structure.Particular preferred embodiment, roller group 44 are provided with two row, and this two Row roller group 44 is spaced apart setting, the hopper so formed side by side positioned at the centre of two groups of belt shafts 43, along Belt Conveying direction 451 have by-level groove section and both ends gradually oblique section, can cloth beneficial to splicing and both ends.

This case automatic material distributing device 400 is used for the automatic feed dividing of different colours colorant, by walking belt component upper belt 45 The hopper 451 of composition accepts the colorant sent, and the both ends in Belt Conveying direction can be used as discharge end, pass through cylinder assembly 41 Drive walker 42 to slide, that is, realize the appropriate controllable displacement effect of discharge end.Thus in operating, according to automatic material distributing device The position of each receiving hopper of 400 lower section distributions, walking belt component is driven to slide by cylinder assembly 41 corresponding to one discharge end The surface of a certain receiving hopper, after the hopper 451 of belt 45 accepts a certain color colorant sent, conveyed by belt 45, i.e., It can be sent from one discharge end by colorant to corresponding receiving hopper.Another color colorant sub-material is to corresponding another splicing next time The operation of bucket is similarly.

Preferably, the both sides of the corresponding belt 45 on the walker 42 further respectively have a rib, and the rib is inclination Contact the rubber slab 46 on belt 45.Conveying direction of the length of rubber slab 46 along belt 45 is extended.Rubber slab 46 Both sides side bumper shield is played a part of in setting, and colorant drops off problem from both sides during avoiding the sub-material of belt 45.Preferably, rubber slab The angle of inclination of 46 past updip is more than the angle of the both sides updip of belt 45, so equivalent to the height for increasing hopper 451, plays Gear shield it is better.Coordinated using rubber slab 46 beneficial to it with belt 45, avoiding influenceing to rise on the basis of belt 45 detours To effective blocking effect.Preferably, the mounting means of rubber slab 46 is：Two columns have been installed on the both sides of walker 42 respectively 422, rubber slab 46 is locked on column 422 by iron plate 423.

The foregoing is only preferred embodiment of the present utility model, it is all done with the utility model claims scope it is equal Deng change and modify, the scope of the utility model claims all should be belonged to.

Claims (10)

1. A kind of 1. full-automatic colour mixture brick fabric mixing plant, it is characterised in that：Including in set gradually up and down toner storage and it is micro- Metering device, fabric stirring barrel, automatic material distributing device, colour mixture fabric material distributing machine and colour mixture fabric bending belt feeder；

   Toner stores and micro- metering device includes the logical blanking component of number, the micro- gauge assembly of at least two groups of storings, micro- weighing hopper component, There is the logical blanking component of number blanking entrance and at least two-way blanking to export, and blanking entrance connects the discharge end of toner conveying device, At least two-way blanking outlet and the storing entrance of at least two groups micro- gauge assemblies of storing connects one to one respectively, at least two groups of storages Expect that the storing outlet of micro- gauge assembly is all connected to the metering entrance of micro- weighing hopper component；The metering outlet of micro- weighing hopper component connects Junction material stirs the pan feeding bung of barrel；

   Colour mixture fabric material distributing machine includes at least two groups of thermomechanical components that horizontal Tile is set, and every group of thermomechanical components include up and down conveying successively Receiving hopper component, transition feeding material component and the guide cloth component of connection；At least two groups of thermomechanical components and at least two groups of micro- meters of storing Component is measured to correspond dispensing colorant, automatic material distributing device horizontal anomalous movement is located at fabric stirring barrel and colour mixture fabric cloth Between machine, automatic material distributing device is accepted the colorant that fabric agitator device is sent out and sent automatically to the splicing of corresponding group thermomechanical components Struggle against in component.
2. A kind of 2. full-automatic colour mixture brick fabric mixing plant as claimed in claim 1, it is characterised in that：The transition feeding material component Transition flat belt with a horizontal transmission, the discharging opening of receiving hopper component are located at the surface of transition flat belt；Guide cloth Component includes material guiding hopper and eccentric stiffener, and material guiding hopper includes upper bucket and lower bucket, and the upper fixed correspondence for being located at transition flat belt of bucket goes out Expect the underface at end, lower bucket activity is hung on the lower section of bucket, and eccentric stiffener and lower bucket connect dynamic to drive the lower bucket to make swing Make.
3. A kind of 3. full-automatic colour mixture brick fabric mixing plant as claimed in claim 2, it is characterised in that：The eccentric stiffener includes Swing rod motor, eccentric wheel and swing rod；Eccentric wheel is arranged on the output shaft of swing rod motor, and one end connection of swing rod is inclined Heart wheel, the other end are connected on lower bucket.
4. A kind of 4. full-automatic colour mixture brick fabric mixing plant as claimed in claim 1, it is characterised in that：The receiving hopper component bag Include receiving hopper and regulation door mechanism；Receiving hopper is directly over transition flat belt, on the basis of the conveying direction of transition flat belt To；The upper and lower side of receiving hopper is respectively equipped with feeding mouth and discharging opening, the correspondence of the discharging opening towards benchmark to side offer Breach is adjusted, regulation door mechanism is arranged on the discharging opening and corresponded on towards benchmark to the side wall of side, and the regulation door mechanism has Lid is located on regulation breach and makees up and down adjustable adjustable plate.
5. A kind of 5. full-automatic colour mixture brick fabric mixing plant as claimed in claim 4, it is characterised in that：The regulation breach has The indentations bottom set upward, in the arcwall face structure of middle up arc protrusion, the bottom of adjustable plate is in the indentations bottom The curved portions being adapted with the arcwall face structure of indentations bottom.
6. A kind of 6. full-automatic colour mixture brick fabric mixing plant as claimed in claim 1, it is characterised in that：The transition feeding material component Including mounting bracket, power transmission shaft, transition flat belt and helical gear frequency conversion speed-down machine；Power transmission shaft is arranged on mounting bracket, the flat skin of transition Around being located on power transmission shaft, power transmission shaft is mutually connected with helical gear frequency conversion speed-down machine for band transmission.
7. A kind of 7. full-automatic colour mixture brick fabric mixing plant as claimed in claim 1, it is characterised in that：The number leads to blanking component For threeway blanking component, the threeway blanking component includes threeway hopper, and the threeway hopper has under middle first Expect passage, and be symmetrically positioned in the second blanking channel and the 3rd blanking channel of the first blanking channel both sides；First blanking channel Both ends are respectively blanking entrance and the first blanking outlet；The connection end of second blanking channel and the 3rd blanking channel and the first blanking Passage is connected, respectively in facing the first connected entrance and the second connected entrance opened up；Under second blanking channel and the 3rd The free end of material passage is respectively the second blanking outlet and the 3rd blanking outlet；First connected entrance and the second connected entrance punishment The first door-plate and the second door-plate of opening or closed communicating mouth She You be used for, first door-plate and the second door-plate to connect respectively There is the door-plate drive mechanism for driving them to be swung using respective bottom as rotating shaft.
8. A kind of 8. full-automatic colour mixture brick fabric mixing plant as claimed in claim 7, it is characterised in that：First connected entrance and Across provided with connecting shaft, the bottom of the first door-plate and the second door-plate is fixedly connected with right the lower end position of second connected entrance In the connecting shaft answered；Door-plate drive mechanism is connected with connecting shaft to drive connecting shaft to rotate；The door-plate drive mechanism peace On the lateral wall of threeway hopper, include cylinder and push pedal；One end of the connecting shaft stretch out threeway hopper and It is fixedly connected with one end of push pedal；The other end of push pedal is mutually flexibly connected with the output shaft of cylinder, and cylinder is prolonged with its output shaft Stretch the orthogonal mode installation settings of bearing of trend in direction and connecting shaft.
9. A kind of 9. full-automatic colour mixture brick fabric mixing plant as claimed in claim 1, it is characterised in that：The micro- metering group of storing Part includes toner storage bucket and micro- metering screw mechanism；Toner storage bucket has a charging aperture and discharging opening, under charging aperture and number are logical The blanking outlet of material component is connected, and discharging opening connects micro- metering entrance of micro- metering screw mechanism, micro- metering screw mechanism Micro- metering outlet is connected to the metering entrance of micro- weighing hopper component；The close upper and lower end position of toner storage bucket is separately installed with Level-sensing device and lower level-sensing device, the end position on the lower of toner storage bucket are also equipped with flow-aid device.
10. A kind of 10. full-automatic colour mixture brick fabric mixing plant as claimed in claim 1, it is characterised in that：The automatic feed dividing dress Put including hollow out frame, walking belt component and cylinder assembly；Walking belt component is slidably erected in hollow out frame, cylinder Component is connected between hollow out frame and walking belt component, to drive walking flat rubber belting component to slide back and forth；Walking belt component Including walker, two groups of belt shafts, roller group and belt；Two groups of belt shafts are rotatably installed on walker, and belt is around being located at two On group belt shaft；Roller is mounted on the lower section of the corresponding belt between two groups of belt shafts, and roller group has along defeated perpendicular to belt Three groups of rollers that direction is arranged side by side are sent, three groups of rollers are with middle groups roller in horizontal, both sides group roller in outer end updip Mode is set, then the both sides updip for corresponding to belt forms hopper.