CN105564739A

CN105564739A - Integrated packaging equipment for porous ceramic particles classified according to particle size

Info

Publication number: CN105564739A
Application number: CN201610086610.7A
Authority: CN
Inventors: 郭敏
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-02-16
Filing date: 2016-02-16
Publication date: 2016-05-11

Abstract

The invention discloses integrated packaging equipment for porous ceramic particles classified according to particle size. The integrated packaging equipment comprises a straight-line vibrating screen, a material conveying and counting device, a membrane conveying mechanism, a forming device, and a three-dimensional scanning system, wherein the straight-line vibrating screen is used for separating and screening porous ceramic particles with different sizes; the material conveying and counting device is arranged at a position under the straight-line vibrating screen and is used for receiving, conveying and counting the porous ceramic particles, and the material feeding end of the material conveying and counting device is arranged relative to the material discharging end of the straight-line vibrating screen; the membrane conveying mechanism is arranged at the material discharging end of the material conveying and counting device, and is used for conveying packaging paper to be formed; the forming device is arranged at the material discharging end of the material conveying and counting device and is matched with the membrane conveying mechanism for work, the material feeding end of the forming device is used for receiving the packaging paper conveyed by the membrane conveying mechanism and enabling the packaging paper to be formed into packaging bags, and the material feeding end of the forming device is used for receiving the porous ceramic particles which are outputted by the material conveying and counting device; one end of the three dimension scanning system is arranged on a material feeding section. According to the integrated packaging equipment disclosed by the invention, the quality of the porous ceramic particles is convenient to control, and the integrated packaging equipment is novel in design and easy to popularize and implement.

Description

Porous ceramic particles is by the integrative packaged design equipment of particle size classification

Technical field

the invention belongs to wrapping machine field, be specifically related to the integrative packaged design equipment of a kind of porous ceramic particles by particle size classification.

Background technology

porous ceramic film material be with the quality raw materials such as emergy, carborundum, cordierite be major ingredient, through overmolding and special high-sintering process prepare a kind of have open pore size, high apparent porosity a kind of porous ceramic materials, have high temperature resistant, the corrosion of high pressure, antiacid, alkali and organic media, the advantage such as good biologically inert, controlled pore structure and high open porosity, long service life, product recyclability are good, the secondary filter going for various medium be separated, high pressure gas exhaust noise silencing, distribution of gas and electrolytic film etc.And porous ceramic particles is spherical porous ceramic film material.

in the process of manufacture of porous ceramic particles, last flow process often needs to pack the porous ceramic particles of different-diameter, and traditional method is all workman's manual operations packaging, and labour intensity is excessive and Packing Unit is very little, inefficiency.

Summary of the invention

the invention provides the integrative packaged design equipment of a kind of porous ceramic particles by particle size classification.

to achieve these goals, the technical solution used in the present invention is: a kind of porous ceramic particles, by the integrative packaged design equipment of particle size classification, comprising:

linear vibrating screen, for separating of the porous ceramic particles of screening different size, described linear vibrating screen comprises feeding end and discharge end;

be arranged on described linear vibrating screen lower position, for accepting and carry the porous ceramic particles of the different size filtered out, and add up the feeding counting device of porous ceramic particles quantity, described feeding counting device comprises feeding end and discharge end, and the feeding end of described feeding counting device is arranged relative to the discharge end of described linear vibrating screen;

be arranged on the discharge end of described feeding counting device, for carrying the film feeding mechanism of wrapper to be formed;

be arranged on feeding counting device discharge end and with the shaped device of described film feeding mechanism cooperating, described shaped device comprises feeding end and discharge end, the feeding end of described shaped device accepts the wrapper of described film feeding mechanism conveying and formed package paper is packaging bag, the feeding end of described shaped device accepts the porous ceramic particles of feeding counting device output simultaneously, and described in type packaging bag is arranged relative to the discharge end position of described shaped device;

also including one establishes end at the 3 D scanning system of pan feeding section, in order to the stereopsis of periodic sampling porous ceramic particles.

preferably, described linear vibrating screen comprises screen box, is arranged on the casing different vibrating motor in ground and supports the bracing frame of screen box, at least one deck sieve plate that vertically layering is arranged is provided with in described screen box, described sieve plate is provided with sieve aperture, the aperture of described sieve aperture is reduced to lower floor's sieve plate successively by upper strata sieve plate, side relative with described feeding end on described screen box is provided with at least two discharge ends, the vertically layering of described discharge end is arranged, described discharge end is corresponding with the position of sieve plate, the overall downward-sloping setting in side towards discharge end of described screen box.

preferably, described discharge end comprises collection unit and discharging opening, and the inside of collection unit is the porous ceramic particles movable passageway of hollow and is communicated with casing, and described discharging opening is arranged on collection unit away from one end of casing, discharging opening opening down.

preferably, described collection unit is upper, middle and lower vertically storied placement, described collection unit comprises the first collection unit being positioned at lower floor, the second collection unit being positioned at middle level and is positioned at the 3rd collection unit on upper strata, 3rd collection unit length is in the horizontal direction less than the length of the second collection unit, the length of the second collection unit is less than the length of the first collection unit, and the first collection unit being positioned at lower floor is in the same plane with the inner bottom surface of casing and connect.

preferably, described feeding counting device comprises feeding module, straight line vibrations feed appliance, barrier module and counting module, feeding module is arranged at the top position place of straight line vibrations feed appliance, the slideway that feeding module comprises linear feeding dish and connects with it, described linear feeding dish is arranged at the position of the discharge end of linear vibrating screen, described slideway connects with the feeding end of described shaped device, described barrier module installation is in the top position of linear feeding dish, barrier module is used for stopping that the porous ceramic particles in linear feeding dish falls in good time, the position that the porous ceramic particles that described counting module is arranged at described linear feeding dish falls.

preferably, described counting module is IMS frame-type HIAC sensor, and described counting module is set at least two.

preferably, described film feeding mechanism comprises the vertical rod and cross bar that are fixed together and are formed as framed structure, and the debatching mechanism be arranged on cross bar and guide mechanism, described film feeding mechanism is also provided with adjustment block, the position of described adjustment block between described debatching mechanism and cross bar installation site.

preferably, also comprise air extractor, it comprises interconnective negative pressure air pump and aspirate tube, and described aspirate tube extends to the position of the discharge end of shaped device from the position of negative pressure air pump, described aspirate tube is corresponding with the position of the packaging bag exported in shaped device.

compared with prior art beneficial effect of the present invention: the present invention regularly scans by arranging 3 D scanning system, in order to the stereo-picture feature of porous ceramic particles of sampling, above-mentioned graphicinformation is back to upper computer by described 3 D scanning system, analyze, in order to control the quality of porous ceramic particles for engineering staff.Good stability of the present invention, reliability is high, easy for operation, novel in design, practical, is easy to apply.

Accompanying drawing explanation

fig. 1 is block diagram of the present invention;

fig. 2 is the block diagram of linear vibrating screen of the present invention;

fig. 3 is the cutaway view of linear vibrating screen of the present invention;

fig. 4 is the block diagram of feeding counting device of the present invention;

fig. 5 is the block diagram of film feeding mechanism of the present invention;

fig. 6 is the block diagram of shaped device of the present invention;

reference numeral:

100, total frame, 200, driven unit,

300, linear vibrating screen, 310, bracing frame, 311, strut bar, 312, pipe link, 313, recoil spring, 314, screen box, 315, casing, 316, case lid, 317, feeding end, 318, discharge end, 319, collection unit, the 320, first collection unit, the 321, second collection unit, 322, the 3rd collection unit, 323, discharging opening, 324, the inner bottom surface of casing, 325, the first sieve plate, the 326, second sieve plate, 327, vibrating motor;

400, feeding counting device, 410, feeding module, 411, straight line vibrations feed appliance, 412, linear feeding dish, 413, slideway, 414, scraper plate, 420, barrier module, 421, support, 422, dividing plate, 423, upset motor, 430, counting module;

500, film feeding mechanism, the 510, first vertical rod, the 511, second vertical rod, the 512, first cross bar, the 513, second cross bar, the 514, the 3rd cross bar, the 515, the 4th cross bar, 516, draw-in groove;

520, debatching mechanism, 521, axle, 522, setscrew nut, 523, material installs rod, 524, stop portion, 525, axle portion, 526, adjustment block, 527, lock screw;

530, guide mechanism, 531, drive motor, the 532, first support arm, the 533, second support arm, the 534, the 3rd support arm, the 535, the 4th support arm, 536, chute, the 537, first deflector roll, the 538, second deflector roll, the 539, the 3rd deflector roll, the 540, the 4th deflector roll.

, shaped device, 610, trunk former, 611, vertical sealing machine, 620, seal apparatus is cut, 621, rotating disk, 622, connecting rod, 623, lead slide bar, and 624, fixed block, 625, end socket, 626, crop, 627, baffle plate, 628, guide groove, 630, air extractor, 631, negative pressure air pump, 632, aspirate tube

700, Material collecting box for harvesting, 800, wrapper.

Detailed description of the invention

be further elaborated the present invention below in conjunction with accompanying drawing, wherein, direction of the present invention take Fig. 1 as standard.

with reference to Fig. 1, porous ceramic particles of the present invention is by the integrative packaged design equipment of particle size classification, comprise total frame 100, and the driven unit 200 be arranged in total frame 100, linear vibrating screen 300, feeding counting device 400, film feeding mechanism 500, shaped device 600 and Material collecting box for harvesting 700, total frame 100 is tower structure, the inside of total frame 100 forms the space of installing driven unit 200, film feeding mechanism 500, linear vibrating screen 300 and feeding counting device 400 are arranged on the tip position place of total frame 100, shaped device 600 and Material collecting box for harvesting 700 are positioned at the lower position of film feeding mechanism 500, to accept linear vibrating screen 300 and feeding counting device 400 place carries the porous ceramic particles of coming, after porous ceramic particles being encapsulated by film feeding mechanism 500, fall into Material collecting box for harvesting 700 to collect, total frame 100 is also provided with roller.

driven unit 200 runs for driving shaped device 600, and driven unit 200 adopts the mode of motor gear auxiliary driving to provide power.

see Fig. 2 to Fig. 3, linear vibrating screen 300 comprises bracing frame 310, and is arranged on the screen box 314 on bracing frame 310, the feeding end 317 be communicated with screen box 314, orders about the vibrating motor 327 that screen box 314 vibrates and the discharge end 318 be communicated with screen box 314.

bracing frame 310 is framed structure, bracing frame 310 comprises four strut bars 311 vertically arranged and the pipe link 312 connected by four strut bars 311, strut bar 311 and pipe link 312 form the framework of rectangle, the top of each strut bar 311 is provided with recoil spring 313, recoil spring 313 is vertically vertically arranged, with the impact preventing screen box 314 to be subject to vibrating motor 327, recoil spring 313 is for supporting all wt of screen box 314, and recoil spring 313 and ground are 90 degree and install.

screen box 314 comprises casing 315 and case lid 316, case lid 316 is connected with casing 315 by bolt, casing 315 is closed, casing 315 is for splendid attire porous ceramic particles, screen box 314 is arranged on the recoil spring 313 of frame, screen box 314 entirety is obliquely installed downwards slightly towards the side of discharge end 318, casing 315 be provided with the feeding end 317 be communicated with it, feeding end 317 is positioned at the height point position of screen box 314, in order to the space in screen box 314 can be made full use of, feeding end 317 is arranged near the position of the lateral wall of screen box 314, feeding end 317 can be bell-shaped material bin, the position of discharge end 318 and feeding end 317 is in being oppositely arranged, and discharge end 318 is communicated with screen box 314, discharge end 318 is in the low dot location place of screen box 314, discharge end 318 is set to three, discharge end 318 comprises collection unit 319 and discharging opening 323, the inside of collection unit 319 is the porous ceramic particles movable passageway of hollow and is communicated with casing 315, discharging opening 323 to be arranged in collection unit 319 and to be positioned on the one end away from casing 315, discharging opening 323 opening down, collection unit 319 is in upper upper/lower positions storied placement, comprise the first collection unit 352 being positioned at lower floor, be positioned at second collection unit 321 in middle level and be positioned at the 3rd collection unit 322 on upper strata, 3rd collection unit 322 length is in the horizontal direction less than the length of the second collection unit 321, the length of the second collection unit 321 is less than the length of the first collection unit 352, the porous ceramic particles movable passageway being positioned at the first collection unit 352 of lower floor is in the same plane with the inner bottom surface 324 of casing and connect,

the sieve plate in upper-lower position storied placement is provided with in casing 315, the two-layer sieve plate of vertically layering interval laying, sieve plate is provided with sieve aperture, sieve plate comprises the first sieve plate 325 being positioned at casing 315 middle position, with the second sieve plate 326 being positioned at casing 315 upper position place, the second sieve plate 326 is made to be positioned at the top position place of the first sieve plate 325, sieve diameter on second sieve plate 326 is greater than the sieve diameter on the first sieve plate 325, the porous ceramic particles movable passageway being positioned at the second collection unit 321 of middle position is in the same plane with the first sieve plate 325 being positioned at casing 315 middle position and connect, the porous ceramic particles movable passageway being positioned at the 3rd collection unit 322 on upper strata is in the same plane with the second sieve plate 326 being positioned at upper strata and connect, consider the frangibility of porous ceramic particles, sieve plate all adopts acrylic material to make,

vibrating motor 327 is arranged on the bottom position place of screen box 314, and vibrating motor 327 is 45 degree with the setting angle of screen box 314.

see Fig. 4, feeding counting device 400 is arranged in position immediately below linear vibrating screen 300 discharge end 318 for accepting the porous ceramic particles sifted out from linear vibrating screen 300, the position that feeding counting device 400 connects with the discharge end 318 of linear vibrating screen 300 is the feeding end of feeding counting device 400, feeding counting device 400 comprises feeding module 410, straight line vibrations feed appliance 411, barrier module 420 and counting module 430, feeding module 410 is arranged at the top position place of straight line vibrations feed appliance 411, the slideway 413 that feeding module 410 comprises linear feeding dish 412 and connects with it, linear feeding dish 412 comprises three bearing plates be arranged in parallel, the vertical section of this bearing plate is the V-arrangement that top lower opening portion narrows, every bar bearing plate faces immediately below linear vibrating screen 300 discharging opening 323, the open end of one of them of bearing plate connects with one end of slideway 413, the other end of slideway 413 connects with shaped device 600, slideway 413 entirety is in J font, the Upper vertical of slideway 413, the bottom of slideway 413 is towards curving and relative to the downward-sloping extension of horizontal direction, the end of slideway 413 connects with shaped device 600, its position connected is the discharge end of feeding counting device 400, and the feeding end of shaped device 600, scraper plate 414 is also rotatablely equipped with in each slideway 413, the impeller shape of scraper plate 414 entirety in X font, when porous ceramic particles is assembled in slideway 413, the upset that scraper plate 414 carries out 360 degree is oppressed by the deadweight of porous ceramic particles, ceaselessly porous ceramic particles is scraped by scraper plate 414, porous ceramic particles can be moved along slideway 413 all the time, be deposited in slideway 413 to avoid porous ceramic particles, barrier module 420 is arranged on the top position of the open end of this bearing plate, barrier module 420 comprises support 421, dividing plate 422 and upset motor 423, support 421 to be arranged in total frame 100 perpendicular to the length direction of bearing plate and both sides for being crossed on bearing plate, support 421 is rotatablely equipped with dividing plate 422, motor is arranged on the position relative to dividing plate 422 on support 421, upset motor 423 overturns for driving dividing plate 422, dividing plate 422 is for stopping the open end of V-type bearing plate, dividing plate 422 can relative to the open end upset 90 degree of bearing plate, when counting module 430 detects that the porous ceramic particles number fallen from bearing plate reaches prearranged number, dividing plate 422 will overturn 90 degree and be blocked in the open end place of bearing plate, porous ceramic particles is no longer fallen, counting module 430 is HIAC sensor.

see Fig. 5, film feeding mechanism 500 comprises the vertical rod and cross bar that are fixed together, and debatching mechanism 520 mounted thereto and guide mechanism 530, and vertical rod is two that vertically be arranged in parallel, comprises the first vertical rod 510 and the second vertical rod 511, cross bar is four that horizontal parallel is arranged, comprise the first cross bar 512, second cross bar 513, the 3rd cross bar 514 and the 4th cross bar 515, first cross bar 512 and the second cross bar 513 are arranged in the first vertical rod 510,3rd cross bar 514 and the 4th cross bar 515 are arranged in the second vertical rod 511, first cross bar 512 is positioned at the top position place of the second vertical rod 511,3rd cross bar 514 is positioned at the top position place of the 4th cross bar 515, and all cross bars all stretch out setting towards the same side, to form the structure of frame-type, the two ends of debatching mechanism 520 are rotated with the first cross bar 512 and the 3rd cross bar 514 respectively and are installed, debatching mechanism 520 comprises axle 521, material installs rod 523 and adjustment block 526, first cross bar 512 is provided with draw-in groove 516 away from one end of vertical rod, 3rd cross bar 514 is provided with fixed orifice away from one end of vertical rod, the two ends of axle 521 are rotatably connected in the fixed orifice with the draw-in groove 516 of the first cross bar 512 and the 3rd cross bar 514, axle 521 is positioned at protruding one section of the side of the draw-in groove 516 of the first cross bar 512, for installing setscrew nut 522, axle 521 is locked on the first cross bar 512 and the 3rd cross bar 514, material is installed rod 523 and is comprised stop portion 524 and axle portion 525, stop portion 524 is arranged on the end positions place in axle portion 525, the shaft section making material install rod 523 is I shape, the center in axle portion 525 is provided with through hole vertically, position, axle portion 525 between two stop portions 524 is used for laying spool type wrapper 800, and material is installed rod 523 and is arranged in axle 521, the position of installing between the stop portion 524 of rod 523 side and the first cross bar 512 at material is provided with adjustment block 526, adjustment block 526 entirety is in cylindric, its center is provided with through hole, the size of through hole and the consistent size of axle 521, be set in axle 521 to make adjustment block 526 by through hole, the outer wall of adjustment block 526 is provided with one perpendicular to the lock screw 527 of adjustment block 526 axis, and adjustment block 526 can move along axle 521.

guide mechanism 530 is arranged on the position between the second cross bar 513 and the 4th cross bar 515, comprise support arm, deflector roll and drive motor 531, support arm is arranged on the second cross bar 513 and the 4th cross bar 515 by attaching parts detouchable, support arm comprises the first support arm 532, second support arm 533, the 3rd support arm 534 and the 4th support arm 535, first support arm 532 and the 3rd support arm 534 vertically extended down, the second support arm 533 and the 4th support arm 535 are obliquely installed towards downward-extension and towards the direction of stand, one end of first support arm 532 and the second support arm 533 is arranged on the second cross bar 513 respectively, and the first support arm 532 is positioned at the outer fix place of the second cross bar 513, the position of the second support arm 533 between the first support arm 532 and the first vertical rod 510, one end of 3rd support arm 534 and the 4th support arm 535 is arranged on the 4th cross bar 515 respectively, and the 3rd support arm 534 is positioned at the outer fix place of the 4th cross bar 515, the position of the 4th support arm 535 between the 3rd support arm 534 and the second vertical rod 511, the position of the first support arm 532 and the 3rd support arm 534 is mutually corresponding to be arranged, the position of the second support arm 533 and the 4th support arm 535 is oppositely arranged, first support arm 532, second support arm 533, 3rd support arm 534 and the 4th support arm 535 all offer through chute 536 along its length, support arm arranges chute 536, make that deflector roll is adjustable to be arranged on support arm, thus the position of wrapper can be adjusted in good time, displacement is bent to avoid wrapper, good seal when ensureing that porous ceramic particles is packed, first support arm 532 is concordant with the bottom of the second vertical rod 511 with the first vertical rod 510 with the 3rd support arm 534, to form the support of frame, the two ends of deflector roll are adjustable to be arranged on support arm, deflector roll comprises the first deflector roll 537, second deflector roll 538, 3rd deflector roll 539 and the 4th deflector roll 540, first deflector roll 537 and the second deflector roll 538 are set parallel to each other, and closing together, the two ends of the first deflector roll 537 and the second deflector roll 538 are positioned on the second cross bar 513 and the 4th cross bar 515 respectively, first deflector roll 537 and the second cross bar 513 and the 4th cross bar 515 are for fixedly mount, second deflector roll 538 and the second cross bar 513 and the 4th cross bar 515 are installed for rotating, and the first deflector roll 537 and the second deflector roll 538 are positioned at the outer fix place of the first support arm 532 and the 3rd support arm 534, wrapper 800 passes between the first deflector roll 537 and the second deflector roll 538, first deflector roll 537 is for supporting package paper 800, second deflector roll 538 is driven by drive motor 531 and rotates, second deflector roll 538 is for conveying and packaging paper 800, be driven plain at the effect lower mandrel member wrapper 800 of the first deflector roll 537 and the second deflector roll 538, so that energy actv. package encapsulation porous ceramic particles after entering packaging ring joint after entering former, the two ends of the 3rd deflector roll 539 lay respectively in the chute 536 of the first support arm 532 and the 3rd support arm 534, the part that 3rd deflector roll 539 is positioned at chute 536 is provided with bearing, thus the 3rd deflector roll 539 is rotated arrange with in chute 536, the 3rd deflector roll 539 is for accepting from drawing the first deflector roll 537 and the wrapper 800 of coming carried by the second deflector roll 538, the two ends of the 4th deflector roll 540 lay respectively in the chute 536 of the second support arm 533 and the 4th support arm 535, the part that 4th deflector roll 540 is positioned at chute 536 is provided with bearing, thus making the 4th deflector roll 540 rotate setting with in chute 536, the 4th deflector roll 540 carries the wrapper 800 of coming for accepting from drawing the 3rd deflector roll 539.

see Fig. 6, shaped device 600 is positioned at the lower position of the 4th deflector roll 540, shaped device 600 comprises trunk former 610, vertical sealing machine 611, cut seal apparatus 620 and air extractor 630, the feeding end of shaped device 600 is the upper opening position of trunk former 610, the wrapper 800 of coming carried by the 4th deflector roll 540 for accepting film feeding mechanism 500, simultaneously trunk former 610 accepts the porous ceramic particles that feeding counting device 400 exports, by trunk former 610, wrapper 800 is shaped to packed, by vertical sealing machine 611, cut seal apparatus 620 and be formed as the packaging bag of side and sealed bottom top opening wide, the packaging bag that this top is opened wide is arranged relative to the discharge end position of shaped device 600, the i.e. outlet at bottom position of trunk former 610, air extractor 630 comprises negative pressure air pump 631 and aspirate tube 632, and negative pressure air pump 631 is arranged in total frame 100, and aspirate tube 632 is connected with negative pressure air pump 631, and aspirate tube 632 extends to the position of trunk former 610 from the position of negative pressure air pump 631.

the seal apparatus 620 of cutting of shaped device 600 comprises rotating disk 621, connecting rod 622, guiding slide bar 623, fixed block 624, end socket 625, crop 626 and baffle plate 627, rotating disk 621 is rotated by the driving of driven unit 200, on the end face that connecting rod 622 is rotatably connected on rotating disk 621 and relative to off centering one segment distance of rotating disk 621, guiding slide bar 623 is rotationally connected with one end of connecting rod 622, end socket 625 and crop 626 are connected on the other end of connecting rod 622, end socket 625 and crop 626 are laid in upper-lower position, end socket 625 is positioned at above crop 626, fixed block 624 is fixed in total frame 100, for support guide slide bar 623, fixed block 624 is provided with guide groove 628, guide groove 628 is arranged in the horizontal direction, guiding slide bar 623 is for be slidably installed in guide groove 628 in the horizontal direction, when driven unit 200 drives rotating disk 621 to rotate, connecting rod 622 is driven by rotating disk 621 and rotates, connecting rod 622 push-and-pull guiding slide bar 623, guiding slide bar 623 is moved reciprocatingly in the horizontal direction in guide groove 628, simultaneously be arranged on guiding slide bar 623 slide on end socket 625 and crop 626 be also move reciprocatingly along horizontal direction, baffle plate 627 is fixedly installed in the position of total frame 100 corresponding with end socket 625 and crop 626, end socket 625 and between crop 626 and block by lead slide bar 623 crank motion and fit together, be pressed on baffle plate 627 so that be positioned at end socket 625 top so that the opening at packaging bag top is sealed, simultaneously crop 626 top is pressed in packaging bag top with by the position sealed, thus cut-out packaging bag.

the foregoing is only better embodiment of the present invention, the present invention is not limited to above-mentioned embodiment, the structural modification that local is small may be there is in implementation process, if do not depart from the spirit and scope of the present invention to various change of the present invention or modification, and belonging within claim of the present invention and equivalent technologies scope, then the present invention is also intended to comprise these change and modification.

Claims

1. porous ceramic particles, by an integrative packaged design equipment for particle size classification, is characterized in that, comprising:

2. porous ceramic particles according to claim 1 is by the integrative packaged design equipment of particle size classification, it is characterized in that, described linear vibrating screen comprises screen box, be arranged on the casing different vibrating motor in ground and support the bracing frame of screen box, at least one deck sieve plate that vertically layering is arranged is provided with in described screen box, described sieve plate is provided with sieve aperture, the aperture of described sieve aperture is reduced to lower floor's sieve plate successively by upper strata sieve plate, side relative with described feeding end on described screen box is provided with at least two discharge ends, the vertically layering of described discharge end is arranged, described discharge end is corresponding with the position of sieve plate, the overall downward-sloping setting in side towards discharge end of described screen box.

3. porous ceramic particles according to claim 1 is by the integrative packaged design equipment of particle size classification, it is characterized in that, described discharge end comprises collection unit and discharging opening, the inside of collection unit is the porous ceramic particles movable passageway of hollow and is communicated with casing, described discharging opening is arranged on collection unit away from one end of casing, discharging opening opening down.

4. porous ceramic particles according to claim 3 is by the integrative packaged design equipment of particle size classification, it is characterized in that, described collection unit is upper, middle and lower vertically storied placement, described collection unit comprises the first collection unit being positioned at lower floor, the second collection unit being positioned at middle level and is positioned at the 3rd collection unit on upper strata, 3rd collection unit length is in the horizontal direction less than the length of the second collection unit, the length of the second collection unit is less than the length of the first collection unit, and the first collection unit being positioned at lower floor is in the same plane with the inner bottom surface of casing and connect.

5. porous ceramic particles according to claim 1 is by the integrative packaged design equipment of particle size classification, it is characterized in that, described feeding counting device comprises feeding module, straight line vibrations feed appliance, barrier module and counting module, feeding module is arranged at the top position place of straight line vibrations feed appliance, the slideway that feeding module comprises linear feeding dish and connects with it, described linear feeding dish is arranged at the position of the discharge end of linear vibrating screen, described slideway connects with the feeding end of described shaped device, described barrier module installation is in the top position of linear feeding dish, the position that the porous ceramic particles that described counting module is arranged at described linear feeding dish falls.

6. porous ceramic particles according to claim 5 is by the integrative packaged design equipment of particle size classification, and it is characterized in that, described counting module is IMS frame-type HIAC sensor, and described counting module is set at least two.

7. porous ceramic particles according to claim 1 is by the integrative packaged design equipment of particle size classification, it is characterized in that, described film feeding mechanism comprises the vertical rod and cross bar that are fixed together and are formed as framed structure, and the debatching mechanism be arranged on cross bar and guide mechanism, described film feeding mechanism is also provided with adjustment block, the position of described adjustment block between described debatching mechanism and cross bar installation site.