CN115502086A

CN115502086A - Multilayer vibrations titanium dioxide powder screening equipment

Info

Publication number: CN115502086A
Application number: CN202211237067.8A
Authority: CN
Inventors: 冯威; 喻林; 程璐; 王清远; 王少江; 苏振华; 邓嫄媛; 孔清泉; 朱晓东; 安旭光; 孙艳; 杨旭林; 吴小强; 黄林; 张瑞; 罗建军; 傅朝坤
Original assignee: Chengdu University
Current assignee: Chengdu University
Priority date: 2022-10-10
Filing date: 2022-10-10
Publication date: 2022-12-23
Anticipated expiration: 2042-10-10
Also published as: CN115502086B

Abstract

The invention provides multilayer vibration titanium dioxide powder screening equipment, which relates to the technical field of powder screening and comprises a shell, wherein the shell is hollow, the bottom of the shell is respectively provided with two classified storage tanks, large-particle collecting tanks are arranged above the two classified storage tanks, a plurality of plate changing through holes are arranged on the surface of the shell and above the large-particle collecting tanks, the inner wall of the shell is respectively provided with a connecting slide rail, a plurality of screening components for screening powder are arranged between the two connecting slide rails, and a plurality of switching components for switching the flow direction of the powder are arranged on the inner wall of the shell and below the screening components; according to the invention, the screw rod is in threaded fit with the threaded sleeve by starting the motor, the movable rod body moves up and down, the teeth are meshed with the matching gears, and the connecting rotating shaft is driven to turn over the material receiving plate, so that switching of different angles is realized, guidance of different powders is realized, manual operation of personnel is not required, and the screening efficiency is accelerated.

Description

Multilayer vibrations titanium dioxide powder screening equipment

Technical Field

The invention relates to the technical field of powder screening, in particular to multilayer vibration titanium dioxide powder screening equipment.

Background

Titanium dioxide is an inorganic, white solid or powdered amphoteric oxide with non-toxicity, optimal opacity, optimal whiteness and brightness. It can be widely used in the industries of paint, plastics, paper making, printing ink, chemical fiber, rubber, cosmetics, etc. The titanium dioxide has high melting point, and can be used for manufacturing refractory glass, glaze, enamel, pottery clay, high-temperature-resistant experimental utensils and the like, and the titanium dioxide can be applied to different production lines, so that the titanium dioxide is required to be screened in different specifications so as to be suitable for different production lines;

but current screening equipment is individual layer screening usually and can not collect respectively what sieve out after the screening to when handling in the face of the screening of different specifications, current equipment need sieve respectively not only needs extra equipment, but also need pair extra personnel and manage, thereby leads to its screening efficiency lower and occupy the area of site.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides multilayer vibration titanium dioxide powder screening equipment, which solves the problem that the efficiency is poor when screening treatment of different specifications is performed due to the fact that the existing equipment cannot synchronously screen powder of different specifications.

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides a multilayer vibrations titanium dioxide powder screening equipment, includes the shell, the inside cavity of shell, the shell bottom is provided with two categorised storage tanks respectively, two categorised storage tank top is provided with the large granule collecting vat, the shell surface just is located large granule collecting vat top and is provided with a plurality of board through-holes of trading, the connection slide rail is installed respectively to the shell inner wall, installs the screening subassembly that a plurality of is used for sieving the powder between two connection slide rails, the shell inner wall just is located the screening subassembly below and is provided with a plurality of switching components that are used for switching the powder flow direction, the shell surface just is located every screening subassembly top and runs through and has seted up the pan feeding mouth, categorised storage tank and large granule collecting vat bottom all are provided with down the slope.

Preferably, each screening assembly comprises an assembly frame, a connecting slide block is integrally arranged at the end part of the assembly frame and is in sliding connection with a connecting slide rail on one corresponding side, an inserting plate is arranged inside the assembly frame, and screening holes for screening powder are formed in the surface of the inserting plate.

Preferably, the two sides of the component frame are respectively provided with an expansion groove, each expansion groove is movably provided with a support frame inside, and a connecting spring is fixedly arranged between the middle part of each support frame and the inner wall of each expansion groove.

As preferred, the electric push rod is installed to shell inner wall downside, electric push rod output end fixed mounting has the connecting plate, connecting plate both sides fixed mounting respectively has the driving plate, driving plate surface integration is provided with a plurality of push pedals, every the push pedal upper end all laminates with adjacent support frame lower extreme.

Preferably, a combined groove is formed in the middle of the assembly frame, the inserting plate is slidably mounted inside the combined groove, a protective plate for preventing materials from leaking is mounted on the upper surface of the assembly frame, a cleaning brush is arranged on the inner wall of an opening of the combined groove, and the end portion of the inserting plate is located in a plate changing through hole in one adjacent side and is fixedly provided with a pull rod.

Preferably, the switching assembly comprises material receiving plates, connecting rotating shafts are respectively installed on two sides of each material receiving plate, the connecting rotating shafts are respectively rotatably installed on the inner wall of the shell, guide side plates are arranged on the upper surfaces of the material receiving plates, and each material receiving plate is located below the adjacent assembly frame.

Preferably, the connecting rotating shaft body is provided with a matching gear, the motor is fixedly mounted on the inner wall of the shell and positioned between the two switching assemblies, the output end of the motor is fixedly provided with a screw rod, the end part of the screw rod is movably connected with a bearing seat, and the bearing seat is arranged on the inner wall of the shell.

Preferably, the screw rod body is provided with a threaded sleeve in a threaded manner, a movable rod is fixedly mounted on one side of the threaded sleeve, the upper end and the lower end of the movable rod body are respectively provided with a plurality of teeth, and each tooth is meshed with a corresponding matched gear.

Preferably, the back of the shell is fixedly provided with an extension shell, the surface of the extension shell is provided with two receiving frames, the two receiving frames are respectively positioned below adjacent switching assemblies, and the end parts of the receiving frames are attached to the receiving plates.

As preferred, the upper end connect material frame one side to install the second guiding groove, the lower extreme connect material frame one side to install first guiding groove, first guiding groove sets up with the second guiding groove is crisscross, first conveyer pipe and first conveyer pipe bottom are installed to first guiding groove bottom and are connected with the classified storage groove that corresponds one side, second conveyer pipe and second conveyer pipe bottom are installed to second guiding groove bottom and are connected with the classified storage groove that corresponds one side.

Compared with the prior art, the invention has the following beneficial effects:

1. through setting up the whereabouts slope can be so that classified storage groove and the powder that the large granule collecting vat received can shift to the exit, and the personnel of being convenient for collect is provided with a plurality ofly and distributes in the screening subassembly top through the pan feeding mouth to can place the powder of different needs inside the screening subassembly that corresponds according to personnel's demand, and then subsequent classification of being convenient for is sieved.

2. In order to realize unified vibration of the component frames, the connecting plate drives the transmission plates on the two sides to move up and down by starting the electric push rod, and then the push plates are arranged to be matched with the support frames so as to synchronously push the support frames, and the component frames can also vibrate up and down along with the support frames when the support frames move, so that compared with the prior art, the component frame vibration device can synchronously vibrate the screening components so that the screening components can uniformly screen different powders; in order to facilitate cleaning of residual materials by personnel, the plugboard is taken out of the combination groove by pulling the pull rod, the cleaning brush is arranged on the inner wall of the opening of the combination groove while the plugboard is taken out, the surface of the plugboard is cleaned, powder is prevented from remaining on the surface of the plugboard after the plugboard is taken out, and the powder can uniformly fall into a large-particle collecting tank when the plugboard is taken out.

3. The screw rod is in threaded fit with the threaded sleeve by starting the motor, the movable rod body moves up and down under the limitation of the assembly frame on the movable rod body, when the movable rod moves up and down, teeth arranged on the movable rod are meshed with the matching gear, so that the matching gear rotates, and the connecting rotating shaft is driven to turn the material receiving plate, so that different angles can be switched; when receiving the flitch and connecing the material frame laminating time through every layer of position difference that switches the subassembly will correspond the powder that screening subassembly sieved and guide, and shift respectively to first guiding groove and second guiding groove in, at last through first conveyer pipe and the second conveyer pipe with first guiding groove and second guiding groove intercommunication for the powder can shift respectively to correspond in the categorised storage tank of one side, thereby realize collecting respectively of powder.

Drawings

FIG. 1 is a schematic three-dimensional structure of the present invention;

FIG. 2 is a schematic elevation view of the present invention;

FIG. 3 isbase:Sub>A schematic structural view of the sectional perspective A-A in FIG. 2;

FIG. 4 is a schematic sectional perspective view taken along line B-B in FIG. 2;

FIG. 5 is a schematic view of the internal three-dimensional structure of the present invention;

FIG. 6 is a schematic illustration of a three dimensional structure of a screen assembly;

FIG. 7 is a schematic illustration of the internal three-dimensional structure of a screen assembly;

FIG. 8 is a schematic three-dimensional structure of the housing of the present invention;

FIG. 9 is a schematic structural view of the cross-sectional perspective at C-C in FIG. 8;

FIG. 10 is a schematic cross-sectional perspective view taken at D-D in FIG. 8;

FIG. 11 is an enlarged view of a portion a of FIG. 10;

FIG. 12 is a schematic diagram of a partial structure of a switching assembly;

figure 13 is a schematic view of a portion of a screen assembly.

In the figure: 1. a housing; 101. a plate replacing through hole; 102. a classified storage tank; 103. a large particle collecting tank; 104. falling down a slope; 2. a screen assembly; 201. an assembly frame; 2011. connecting the sliding block; 2012. an expansion slot; 2013. a combination tank; 2014. a cleaning brush; 202. a guard plate; 203. inserting plates; 2031. a pull rod; 2032. screening holes; 204. a drive plate; 2041. a connecting plate; 2042. an electric push rod; 2043. pushing the plate; 205. a support frame; 2051. a connecting spring; 3. a feeding port; 4. a switching component; 401. a material collecting plate; 4011. a guide side plate; 4012. connecting the rotating shaft; 4013. a mating gear; 402. a movable rod; 4021. a threaded sleeve; 4022. teeth; 403. a motor; 404. a screw rod; 405. a bearing seat; 5. a material receiving frame; 6. an extension case; 7. connecting a slide rail; 8. a first guide groove; 801. a first delivery pipe; 9. a second guide groove; 901. a second delivery pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1 to 4, a multilayer vibrations titanium dioxide powder screening equipment, including shell 1, shell 1 is inside cavity, shell 1 bottom is provided with two categorised storage tanks 102 respectively, two categorised storage tanks 102 top are provided with large granule collecting vat 103, shell 1 surface just is located large granule collecting vat 103 top and is provided with a plurality of through-holes 101 of trading the board, shell 1 inner wall is installed respectively and is connected slide rail 7, two are connected and install a plurality of screening subassembly 2 that are used for sieving the powder between the slide rail 7, shell 1 inner wall just is located screening subassembly 2 below and is provided with a plurality of switching module 4 that are used for switching over the powder flow direction, shell 1 surface just is located every screening subassembly 2 top and runs through and has seted up pan feeding mouth 3, categorised storage tank 102 and large granule collecting vat 103 bottom all are provided with down slope 104. Through setting up whereabouts slope 104 can make the powder that classified storage groove 102 and large granule collecting vat 103 received shift to the exit, the personnel of being convenient for collect, be provided with a plurality ofly through pan feeding mouth 3 and distribute in screening subassembly 2 top to can place the powder of different needs inside corresponding screening subassembly 2 according to personnel's demand is on its own, and then subsequent classification of being convenient for is sieved.

Example 2

As shown in fig. 1 to 7 and 13, each sieving assembly 2 includes an assembly frame 201, a connecting slider 2011 is integrally arranged at an end of the assembly frame 201, the connecting slider 2011 is slidably connected with the connecting slide rail 7 on the corresponding side, an inserting plate 203 is arranged inside the assembly frame 201, and a sieving hole 2032 for sieving powder is formed in the surface of the inserting plate 203. In order to make screen assemblies 2 more stable when moving, they are slidably connected to connecting rails 7 by connecting blocks 2011 so that screen assemblies 2 do not shift when vibrating.

In this embodiment, the two sides of the assembly frame 201 are respectively provided with an expansion slot 2012, a support frame 205 is movably installed inside each expansion slot 2012, and a connection spring 2051 is fixedly installed between the middle of each support frame 205 and the inner wall of the expansion slot 2012. Through being provided with a plurality of support frames 205 to the subsequent transmission of cooperation, wherein utilize connecting spring 2051 can increase the vibrations range of subassembly frame 201, improve the screening effect.

It should be noted that an electric push rod 2042 is installed on the lower side of the inner wall of the housing 1, a connecting plate 2041 is fixedly installed at the output end of the electric push rod 2042, driving plates 204 are respectively and fixedly installed on two sides of the connecting plate 2041, a plurality of push plates 2043 are integrally arranged on the surfaces of the driving plates 204, and the upper end of each push plate 2043 is attached to the lower end of the adjacent support frame 205. In order to realize shaking a plurality of subassembly frames 201 in unison, make the driving plate 204 that connecting plate 2041 drove both sides reciprocate through starting electric putter 2042, it can cooperate with a plurality of support frames 205 to be provided with a plurality of push pedals 2043 afterwards, thereby promote a plurality of support frames 205 in step, subassembly frame 201 also can follow it and shake about shaking when support frame 205 takes place to move about, thereby compare with prior art this application can shake a plurality of screening subassemblies 2 in step and make screening subassembly 2 can carry out unified screening to different powders.

When the combined type cleaning device is specifically arranged, a combined groove 2013 is formed in the middle of the assembly frame 201, the inserting plate 203 is slidably mounted in the combined groove 2013, the protective plate 202 for preventing materials from leaking is mounted on the upper surface of the assembly frame 201, the cleaning brush 2014 is arranged on the inner wall of the opening of the combined groove 2013, the end portion of the inserting plate 203 is located in the plate replacing through hole 101 on the adjacent side, and the end portion of the inserting plate 203 is fixedly provided with the pull rod 2031. In order to facilitate cleaning of residual materials by personnel, the insertion plate 203 is taken out of the combination groove 2013 by pulling the pull rod 2031, the cleaning brush 2014 is arranged on the inner wall of the opening of the combination groove 2013 while the insertion plate 203 is taken out, the surface of the insertion plate 203 is cleaned, powder is prevented from remaining on the surface of the taken-out insertion plate 203, and when the insertion plate 203 is taken out, the powder can uniformly fall into the large-particle collecting tank 103.

Example 3

As shown in fig. 1 to 13, the switching assembly 4 includes material receiving plates 401, the connecting shafts 4012 are installed on both sides of the material receiving plates 401, the connecting shafts 4012 are installed on the inner wall of the housing 1 in a rotating manner, the guide side plates 4011 are arranged on the upper surface of the material receiving plates 401, and each material receiving plate 401 is located below the adjacent assembly frame 201. The receiving plate 401 is rotatably installed on the inner wall of the housing 1 by using a connecting rotating shaft 4012 and is positioned below the assembly frame 201, so that powder discharged by the assembly frame 201 is guided, and the powder is conveyed to different places according to different angles of the receiving plate 401.

It can be understood that in this application, connect pivot 4012 axle body and all be provided with cooperation gear 4013, be located two shell 1 inner wall fixed mounting between switching module 4 and have motor 403, and motor 403 output fixed mounting has lead screw 404, and lead screw 404 end swing joint has bearing frame 405, and bearing frame 405 sets up at shell 1 inner wall.

The screw rod 404 is provided with a threaded sleeve 4021 in a threaded manner, a movable rod 402 is fixedly mounted on one side of the threaded sleeve 4021, the upper end and the lower end of the rod body of the movable rod 402 are respectively provided with a plurality of teeth 4022, and the teeth 4022 at each end are engaged with a corresponding matching gear 4013. Make lead screw 404 and thread bush 4021 screw-thread fit through starter motor 403, under the injecing of subassembly frame 201 to movable rod 402 pole body, movable rod 402 pole body carries out the removal of upper and lower position, utilize tooth 4022 and the meshing of cooperation gear 4013 that is provided with on the movable rod 402 when movable rod 402 reciprocates, make cooperation gear 4013 rotate, and drive and connect pivot 4012 and will receive flitch 401 upset, in order to realize the switching of different angles, this application can switch through the angle to receiving flitch 401 for current equipment, can adjust the whereabouts direction of powder, thereby collect respectively the processing to the powder of different specifications, and need not personnel manual operation, also reduced manpower resources's use when having accelerated screening efficiency greatly.

In this embodiment, the back of the housing 1 is fixedly mounted with the extension case 6, the surface of the extension case 6 is mounted with two receiving frames 5, the two receiving frames 5 are respectively located below the adjacent switching components 4, and the end of the receiving frame 5 is attached to the receiving plate 401.

When the device is specifically arranged, a second guide groove 9 is installed on one side of the material receiving frame 5 at the upper end, a first guide groove 8 is installed on one side of the material receiving frame 5 at the lower end, the first guide groove 8 and the second guide groove 9 are arranged in a staggered mode, a first conveying pipe 801 is installed at the bottom of the first guide groove 8, the bottom of the first conveying pipe 801 is connected with the classification storage groove 102 on one corresponding side, and a second conveying pipe 901 is installed at the bottom of the second guide groove 9, and the bottom of the second conveying pipe 901 is connected with the classification storage groove 102 on one corresponding side. When receiving flitch 401 with connect the material frame 5 laminating time through every layer of switch assembly 4 the position difference will correspond the powder that screening subassembly 2 sieved and guide, and shift respectively to first guiding groove 8 and second guiding groove 9 in, at last through first conveyer pipe 801 and the second conveyer pipe 901 with first guiding groove 8 and second guiding groove 9 intercommunication for the powder can shift respectively to corresponding in the categorised storage tank 102 of one side, thereby realize collecting respectively the powder.

The working principle of the multilayer vibration titanium dioxide powder screening device is as follows:

when the powder screening device is used, powder to be screened is firstly placed in the material inlet 3, the powder can be placed in the corresponding material inlet 3 respectively according to needs, then the powder is stored on the upper surface of the inserting plate 203, then the electric push rod 2042 is started to drive the transmission plates 204 on two sides to move up and down under the connection of the connecting plate 2041, a plurality of push plates 2043 are arranged on the surfaces of the transmission plates 204, so that the support frames 205 are pushed to move when the transmission plates 204 move up and down, the support frames 205 are movably arranged in the expansion grooves 2012, so that the component frames 201 synchronously vibrate up and down, and the qualified powder is transferred downwards through the screening holes 2032 arranged on the inserting plate 203 during vibration;

when the powder collecting device is used, one end of the material collecting plate 401 is in default to be lapped at the upper end of the material receiving frame 5, so that currently falling powder can be transferred to the material receiving frame 5 on the corresponding side under the guidance of the inclined material collecting plate 401, and then the powder is respectively connected with the first guide groove 8 and the second guide groove 9 through the material receiving frames 5 on different layers, so that the powder enters the first conveying pipe 801 or the second conveying pipe 901 through the first guide groove 8 or the second guide groove 9 and is finally stored in the classification storage groove 102 on the corresponding side, and classification storage operation is finished;

in order to facilitate taking out large granular powder by a worker after screening is completed, firstly, a motor 403 needs to be started to drive a screw rod 404 to be in threaded fit with a threaded sleeve 4021, and the movable rod 402 is limited by an assembly frame 201, so that the threaded sleeve 4021 drives the movable rod 402 to move up and down, teeth 4022 are meshed with corresponding matching gears 4013, a material receiving plate 401 is driven to turn over, the material receiving plate 401 is separated from a material receiving frame 5, and switching of discharging directions is achieved;

after switching, the inserting plate 203 is taken out of the combination groove 2013 by pulling the pull rod 2031, and the cleaning brush 2014 arranged on the inner wall of the combination groove 2013 is used for cleaning materials on the surface of the inserting plate 203 in the taking-out process and uniformly transferring the materials to the large-particle collecting groove 103, so that unified treatment of personnel is facilitated.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and that various other modifications and changes can be made on the basis of the above description by those skilled in the art.

Claims

1. A multilayer vibrations titanium dioxide powder screening installation, includes shell (1), its characterized in that: the inside cavity of shell (1), shell (1) bottom is provided with two classified storage groove (102), two respectively classified storage groove (102) top is provided with large granule collecting vat (103), shell (1) surface just is located large granule collecting vat (103) top and is provided with a plurality of board through-holes of trading (101), shell (1) inner wall is installed respectively and is connected slide rail (7), installs a plurality of screening subassembly (2) that are used for sieving the powder between two connection slide rail (7), shell (1) inner wall just is located screening subassembly (2) below and is provided with a plurality of switching components (4) that are used for switching over the powder flow direction, shell (1) surface just is located every screening subassembly (2) top and runs through and has seted up pan feeding mouth (3), classified storage groove (102) and large granule collecting vat (103) bottom all are provided with whereabouts slope (104).

2. The multi-deck vibrating titanium dioxide powder screening apparatus as claimed in claim 1, wherein: every screening subassembly (2) all is including subassembly frame (201), subassembly frame (201) tip integration is provided with link block (2011), link block (2011) and connection slide rail (7) sliding connection who corresponds one side, inside picture peg (203) that is provided with of subassembly frame (201), screening hole (2032) that are used for sieving the powder are seted up on picture peg (203) surface.

3. The multi-deck vibrating titanium dioxide powder screening apparatus as claimed in claim 2, wherein: expansion grooves (2012) are respectively formed in two sides of the component frame (201), each expansion groove (2012) is internally and movably provided with a support frame (205), and a connecting spring (2051) is fixedly arranged between the middle part of each support frame (205) and the inner wall of each expansion groove (2012).

4. The multi-deck vibrating titanium dioxide powder screening apparatus as claimed in claim 3, wherein: electric push rod (2042) is installed to shell (1) inner wall downside, electric push rod (2042) output end fixed mounting has connecting plate (2041), connecting plate (2041) both sides fixed mounting respectively has driving plate (204), driving plate (204) surface integration is provided with a plurality of push pedals (2043), every push pedal (2043) upper end all laminates with adjacent support frame (205) lower extreme.

5. The multi-deck vibrating titanium dioxide powder screening apparatus as claimed in claim 2, wherein: the utility model discloses a cleaning brush, including subassembly frame (201), combination groove (2013) inside slidable mounting has picture peg (203), surface mounting has backplate (202) that prevent the material and spill on subassembly frame (201), combination groove (2013) opening part inner wall is provided with cleaning brush (2014), picture peg (203) tip is located the board through-hole (101) of trading of adjacent one side and picture peg (203) tip fixed mounting has pull rod (2031).

6. The multi-deck vibrating titanium dioxide powder screening apparatus as claimed in claim 2, wherein: switch subassembly (4) including receipts flitch (401), connect pivot (4012), two are installed respectively to receipts flitch (401) both sides connect pivot (4012) to rotate respectively and install at shell (1) inner wall, receipts flitch (401) upper surface is provided with guide curb plate (4011), every receipts flitch (401) all are located the below of adjacent subassembly frame (201).

7. The multi-deck vibrating titanium dioxide powder screening apparatus as claimed in claim 6, wherein: connect pivot (4012) axle body all to be provided with cooperation gear (4013), be located between two switching components (4) shell (1) inner wall fixed mounting has motor (403), motor (403) output end fixed mounting has lead screw (404), lead screw (404) tip swing joint has bearing frame (405), bearing frame (405) set up at shell (1) inner wall.

8. The multi-deck vibrating titanium dioxide powder screening apparatus as claimed in claim 7, wherein: the screw rod (404) is provided with a threaded sleeve (4021) in a threaded manner, a movable rod (402) is fixedly mounted on one side of the threaded sleeve (4021), a plurality of teeth (4022) are respectively arranged at the upper end and the lower end of the rod body of the movable rod (402), and each tooth (4022) is meshed with a corresponding matching gear (4013).

9. The multi-deck vibrating titanium dioxide powder screening apparatus as claimed in claim 6, wherein: the utility model discloses a material receiving device, including shell (1), shell (6), extension shell (6) fixed mounting has extension shell (6), it has two material receiving frames (5) to extend shell (6) surface mounting, two material receiving frames (5) are located adjacent switching component (4) below respectively, material receiving frame (5) tip and material receiving plate (401) laminating.

10. The multi-deck vibrating titania powder screening apparatus of claim 9, wherein: second guide slot (9) are installed to material receiving frame (5) one side of upper end, and first guide slot (8) are installed to material receiving frame (5) one side of lower extreme, first guide slot (8) and second guide slot (9) crisscross setting, first conveyer pipe (801) and first conveyer pipe (801) bottom are installed to first guide slot (8) bottom and are connected with the categorised holding vessel (102) that correspond one side, second conveyer pipe (901) and second conveyer pipe (901) bottom are installed to second guide slot (9) bottom and are connected with the categorised holding vessel (102) that correspond one side.