阅读说明：本技术 一种陶瓷高分子微粒组成的绿色涂料生产用筛分装置 (Screening plant is used in a kind of green coating production of ceramic macromolecular particle composition ) 是由 陈中祎 曹忠富 陈春俊 陈宗宝 朱宝 于 2019-08-28 设计创作，主要内容包括：本发明涉及筛分装置技术领域,且公开了一种陶瓷高分子微粒组成的绿色涂料生产用筛分装置,包括筛分箱和筛分筒,筛分筒的侧壁开设有多个均匀分布的筛分孔,多个筛分孔的孔径从右至左依次增大设置,筛分筒的内圆周侧壁固定连接有螺旋输送杆,筛分筒位于筛分箱的内部水平设置,筛分筒的左端固定连接有第一转轴,第一转轴远离筛分筒的一端贯穿筛分箱的左侧并通过第一滚动轴承与筛分箱转动连接。该陶瓷高分子微粒组成的绿色涂料生产用筛分装置,能够对陶瓷颗粒进行多重筛分,筛分效率高,且能够自动进行进料,降低人们的劳动强度,提高筛分效率,还能够对筛孔进行清洁,避免筛孔堵塞而影响筛分效率,便于人们使用。(The present invention relates to screening plant technical fields, and disclose a kind of green coating production screening plant of ceramic macromolecular particle composition, including screening case and sifting barrel, the side wall of sifting barrel offers multiple equally distributed screening holes, the aperture in multiple screening holes is sequentially increased setting from right to left, the inner circumferential side wall of sifting barrel is fixedly connected with spiral conveyor rod, sifting barrel is located at the inner horizontal setting of screening case, the left end of sifting barrel is fixedly connected with first rotating shaft, the one end of first rotating shaft far from sifting barrel is through the left side for sieving case and passes through the first rolling bearing and screening case rotation connection.The green coating production screening plant of ceramic macromolecular particle composition, multiple screening can be carried out to ceramic particle, screening efficiency is high, and it can be fed automatically, the labor intensity of people is reduced, improves screening efficiency, additionally it is possible to clean to sieve pore, it avoids sieve pore blockade and influences screening efficiency, used convenient for people.)

1. a kind of green coating production screening plant of ceramic macromolecular particle composition, including screening case (1) and sifting barrel (2), it is characterised in that: the side wall of the sifting barrel (2) offers multiple equally distributed screening holes, multiple screening holes Aperture is sequentially increased setting from right to left, and the inner circumferential side wall of the sifting barrel (2) is fixedly connected with spiral conveyor rod (3), institute The inner horizontal setting that sifting barrel (2) are located at screening case (1) is stated, the left end of the sifting barrel (2) is fixedly connected with first rotating shaft (4), the first rotating shaft (4) far from sifting barrel (2) one end through screening case (1) left side and by the first rolling bearing with Case (1) rotation connection is sieved, the right end of screening case (1) is plugged with roller (5), the rolling by the rotation of the second rolling bearing The one end of cylinder (5) far from sifting barrel (2) through screening case (1) right side wall and with the fixed grafting of screening case (1), described first turn Axis (4) is located at the external one end of screening case (1) and is fixedly connected with the first belt pulley (6), solid on the left of the upper end of screening case (1) Surely it is connected with dual-axle motor (7), the left end of the dual-axle motor (7) is fixed to be rotatably connected to the second shaft by first shaft coupling (8), second shaft (8) is fixedly connected with the second belt pulley (9) far from the one end of dual-axle motor (7), first belt It takes turns (6) and the second belt pulley (9) to be sequentially connected by belt (10), the upper end of screening case (1) is additionally provided with automatic feeding machine Structure, the lower end of screening case (1) are to open setting, and the lower inside of screening case (1) is fixedly connected to be set there are two longitudinal The lower end of the partition (11) set, two partitions (11) is fixedly connected to inclined plate (12), under two inclined plates (12) Two sides are obliquely installed to the left and right respectively at end, and the lower end four corners of screening case (1) are fixedly connected to support rod (24), described The inner upper of screening case (1) is additionally provided with cleaning mechanism.

2. a kind of green coating production screening plant of ceramic macromolecular particle composition according to claim 1, special Sign is: the automatic feeding mechanism includes feed hopper (13), feeding tube (14), bull stick (15), helical feed leaf (16) and L shape Feed pipe (17) feeding tube (14) is located on the right side of the upper end of screening case (1) laterally setting, the feed hopper (13) and conveying It is fixedly connected on the left of the upper end of cylinder (14), and the lower end of feed hopper (13) is connected to setting, the bull stick (15) with feeding tube (14) Inner transverse positioned at feeding tube (14) is arranged, and the bar wall of bull stick (15) is fixedly attached with helical feed leaf (16), and described turn The left end of bar (15) is run through the left end of feeding tube (14) and is rotatablely connected by third rolling bearing and feeding tube (14), described double The right end of spindle motor (7) is rotatablely connected by second shaft coupling and bull stick (15) left end, the right end and L shape of the feeding tube (14) The vertical end of feed pipe (17) is fixedly connected, and the horizontal ends of the L shape feed pipe (17) extend to the inner right side of sifting barrel (2) And it is fixedly connected with roller (5).

3. a kind of green coating production screening plant of ceramic macromolecular particle composition according to claim 1, special Sign is: the cleaning mechanism includes channel washer (18), is fixedly connected on the downside of the bar wall of the channel washer (18) multiple uniform The bristle of distribution, the upper side wall of the bristle and sifting barrel (2) offset setting, and the upper end of the channel washer (18) is fixedly connected with The upper inner sidewall of two symmetrically arranged first fixed blocks (19), screening case (1) is fixedly connected there are two the second fixed block (20), two first fixed blocks (19) are fixed with two the second fixed blocks (20) respectively by fixing bolt (21) and are connected It connects, the front side wall of screening case (1) offers strip gab corresponding with channel washer (18) position.

4. a kind of green coating production screening plant of ceramic macromolecular particle composition according to claim 1, special Sign is: the upper end front and rear sides of the inclined plate (12) are fixedly connected to baffle (22).

5. a kind of green coating production screening plant of ceramic macromolecular particle composition according to claim 1, special Sign is: the diameter that the diameter of first belt pulley (6) is greater than the second belt pulley (9) is arranged.

6. a kind of green coating production screening plant of ceramic macromolecular particle composition according to claim 1, special Sign is: the lower end of four support rods (24) is fixedly connected to antiskid plate (23).

7. a kind of green coating production screening plant of ceramic macromolecular particle composition according to claim 1, special Sign is: the sifting barrel (2), spiral conveyor rod (3), two partitions (11) and two inclined plates (12) are stainless steel material system At.

Technical field

The present invention relates to screening plant technical field, specially a kind of green coating production of ceramic macromolecular particle composition Use screening plant.

Background technique

The green coating of ceramic macromolecular particle composition is micro- by polymer composite and the ceramic macromolecular of special preparation Grain composition, this can allow coating surface layer to possess fabulous smoothness, and aquatile can not be formed on its surface permanent community, It is possible to prevente effectively from biodeterioration and siltation phenomenon, it is only necessary to which customary cleaning can allow aquatic crustacean/microorganism It falls off from its coating.

The particle fine degree of ceramic macromolecular particle seriously affects the quality of coating, in the prior art, to ceramic high score When sub- particle is sieved, screening efficiency is low, and needs manually persistently to be fed, and increases the labor intensity of people, and Screening makes, and sieve pore is easy to happen blocking, could continue to sieve after needing manual cleaning, is easy to influence screening efficiency, it is therefore proposed that Screening plant is used in a kind of green coating production of ceramic macromolecular particle composition.

Summary of the invention

(1) the technical issues of solving

In view of the deficiencies of the prior art, the present invention provides a kind of green coating production screenings of ceramic macromolecular particle composition Device, have can with automatic feed, sieve pore automated cleaning and screening efficiency is high the advantages that, the ceramics solved now on the market are high Molecule particles screening efficiency is low, and needs manually persistently to be fed, and increases the labor intensity of people, and make in screening, sieves Hole is easy to happen blocking, could continue to sieve after needing manual cleaning, is easy the problem of influencing screening efficiency.

(2) technical solution

To realize above-mentioned following technology can be provided with automatic feed, sieve pore automated cleaning and the high purpose of screening efficiency, the present invention Scheme: a kind of green coating production screening plant of ceramic macromolecular particle composition, including screening case and sifting barrel, the sieve The side wall of cylinder is divided to offer multiple equally distributed screening holes, the apertures in multiple screening holes are sequentially increased from right to left to be set It sets, the inner circumferential side wall of the sifting barrel is fixedly connected with spiral conveyor rod, and the sifting barrel is located at the inner horizontal of screening case Setting, the left end of the sifting barrel are fixedly connected with first rotating shaft, and the one end of the first rotating shaft far from sifting barrel is through screening The left side of case is simultaneously rotatablely connected by the first rolling bearing and screening case, and the right end of the screening case is forwarded by second axis of rolling Dynamic to be plugged with roller, grafting, institute are fixed through the right side wall for sieving case and with screening case in the one end of the roller far from sifting barrel It states one end that first rotating shaft is located at outside screening case and is fixedly connected with the first belt pulley, the company of fixation on the left of the upper end of the screening case It is connected to dual-axle motor, the left end of the dual-axle motor is fixed to be rotatably connected to the second shaft by first shaft coupling, and described second Shaft is fixedly connected with the second belt pulley far from one end of dual-axle motor, and first belt pulley and the second belt pulley pass through belt Transmission connection, the upper end of the screening case are additionally provided with automatic feeding mechanism, and the lower end of the screening case is to open setting, the sieve The lower inside of branch mailbox is fixedly connected there are two longitudinally disposed partition, and the lower end of two partitions is fixedly connected to tiltedly Plate, two sides are obliquely installed to the left and right respectively for the lower end of two inclined plates, and the lower end four corners of the screening case are fixedly connected with There is support rod, the inner upper of the screening case is additionally provided with cleaning mechanism.

Preferably, the automatic feeding mechanism includes feed hopper, feeding tube, bull stick, helical feed leaf and L shape feed pipe institute It states feeding tube and is located on the right side of the upper end of screening case laterally setting, be fixedly connected on the left of the feed hopper and the upper end of feeding tube, and The lower end of feed hopper is connected to setting with feeding tube, and the bull stick is located at the inner transverse setting of feeding tube, and the bar wall of bull stick with Helical feed leaf is fixedly attached, and the left end of the bull stick is run through the left end of feeding tube and turned by third rolling bearing and feeding tube The right end of dynamic connection, the dual-axle motor is rotatablely connected by second shaft coupling and bull stick left end, the right end and L of the feeding tube The vertical end of shape feed pipe is fixedly connected, and the horizontal ends of the L shape feed pipe extend to the inner right side of sifting barrel and and roller It is fixedly connected.

Preferably, the cleaning mechanism includes channel washer, is fixedly connected on the downside of the bar wall of the channel washer multiple uniform The upper side wall of the bristle of distribution, the bristle and sifting barrel offsets setting, and the upper end of the channel washer is fixedly connected with that there are two right Claiming the first fixed block of setting, the upper inner sidewall of the screening case is fixedly connected there are two the second fixed block, and two described first Fixed block passes through fixing bolt and is fixedly connected respectively with two the second fixed blocks, it is described screening case front side wall offer with clearly The corresponding strip gab in clean bar position.

Preferably, the upper end front and rear sides of the inclined plate are fixedly connected to baffle.

Preferably, the diameter that the diameter of first belt pulley is greater than the second belt pulley is arranged.

Preferably, the lower end of four support rods is fixedly connected to antiskid plate.

Preferably, the sifting barrel, spiral conveyor rod, two partitions and two inclined plates are that stainless steel material is made.

(3) beneficial effect

Compared with prior art, the present invention provides a kind of green coating production screening dresses of ceramic macromolecular particle composition Set, have it is following the utility model has the advantages that

1, the green coating production screening plant of ceramic macromolecular particle composition, passes through the first rotating shaft that is equipped with, the first skin The mutual cooperation of belt wheel, the second shaft, the second belt pulley, belt feeder dual-axle motor is able to drive sifting barrel rotation, by being equipped with Sifting barrel, spiral conveyor rod, it is multiple screening hole, two partitions and two inclined plates mutual cooperation, can be to sifting barrel inside Ceramic macromolecular particle carry out multiple screening and improve screening efficiency and screening precision, by can be right equipped with channel washer and bristle Screening hole is cleaned, and avoids ceramic macromolecular particle that from sieving hole plug and influence screening efficiency.

2, the green coating production screening plant of ceramic macromolecular particle composition, by the dual-axle motor that is equipped with, into The mutual cooperation of hopper, feeding tube, bull stick, helical feed leaf and L shape feed pipe, can be automatically by ceramic macromolecular particle to sieve Divide in cylinder and conveyed, reduce the labor intensity of people, is used convenient for people.

Detailed description of the invention

Fig. 1 is that the surface of screening plant is used in a kind of green coating production of ceramic macromolecular particle composition proposed by the present invention Structural schematic diagram；

Fig. 2 is a kind of green coating production of the ceramic macromolecular particle composition proposed by the present invention cross-section structure of screening plant Schematic diagram；

Fig. 3 is the schematic enlarged-scale view of part A in Fig. 2；

Fig. 4 is the side structure schematic diagram of sifting barrel and spiral conveyor rod 3 in Fig. 2.

In figure: 1 screening case, 2 sifting barrels, 3 spiral conveyor rods, 4 first rotating shafts, 5 rollers, 6 first belt pulleys, 7 twin shafts electricity Machine, 8 second shafts, 9 second belt pulleys, 10 belts, 11 partitions, 12 inclined plates, 13 feed hoppers, 14 feeding tubes, 15 bull sticks, 16 spirals Conveying leaf, 17 L shape feed pipes, 18 channel washers, 19 first fixed blocks, 20 second fixed blocks, 21 fixing bolts, 22 baffles, 23 are prevented Slide plate, 24 support rods.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Please refer to Fig. 1-4, a kind of green coating production screening plant of ceramic macromolecular particle composition, including screening case 1 and sifting barrel 2, the side wall of sifting barrel 2 offers multiple equally distributed screening holes, the apertures in multiple screening holes from right to left according to Secondary increase setting, the inner circumferential side wall of sifting barrel 2 are fixedly connected with spiral conveyor rod 3, and sifting barrel 2 is located at the inside of screening case 1 Horizontally disposed, the left end of sifting barrel 2 is fixedly connected with first rotating shaft 4, and the one end of first rotating shaft 4 far from sifting barrel 2 is through screening The left side of case 1 is simultaneously rotatablely connected by the first rolling bearing and screening case 1, and the right end of screening case 1 is forwarded by second axis of rolling Dynamic to be plugged with roller 5, grafting is fixed through the right side wall for sieving case 1 and with screening case 1 in the one end of roller 5 far from sifting barrel 2, the One end that one shaft 4 is located at outside screening case 1 is fixedly connected with the first belt pulley 6, sieves and is fixedly connected on the left of the upper end of case 1 Dual-axle motor 7, the left end of dual-axle motor 7 is fixed to be rotatably connected to the second shaft 8 by first shaft coupling, and the second shaft 8 is separate One end of dual-axle motor 7 is fixedly connected with the second belt pulley 9, the first belt pulley 6 and the second belt pulley 9 and is connected by the transmission of belt 10 It connects, the upper end of screening case 1 is additionally provided with automatic feeding mechanism, and the lower end of screening case 1 is to open setting, sieves the lower inside of case 1 Longitudinally disposed partition 11 there are two being fixedly connected, the lower end of two partitions 11 is fixedly connected to inclined plate 12, two inclined plates 12 Two sides are obliquely installed to the left and right respectively for lower end, the lower end four corners of screening case 1 are fixedly connected to support rod 24, sieve case 1 Inner upper be additionally provided with cleaning mechanism.

Automatic feeding mechanism includes that feed hopper 13, feeding tube 14, bull stick 15, helical feed leaf 16 and L shape feed pipe 17 are defeated Barrel 14 is located on the right side of the upper end of screening case 1 laterally setting, is fixedly connected on the left of feed hopper 13 and the upper end of feeding tube 14, and into The lower end of hopper 13 is connected to setting with feeding tube 14, and bull stick 15 is located at the inner transverse setting of feeding tube 14, and the bar of bull stick 15 Wall is fixedly attached with helical feed leaf 16, the left end of bull stick 15 through feeding tube 14 left end and by third rolling bearing with it is defeated Barrel 14 is rotatablely connected, and the right end of dual-axle motor 7 is rotatablely connected by second shaft coupling and 15 left end of bull stick, the right side of feeding tube 14 End is fixedly connected with the vertical end of L shape feed pipe 17, and the horizontal ends of L shape feed pipe 17 extend to the inner right side of sifting barrel 2 simultaneously It is fixedly connected with roller 5, ceramic particle to be sieved is put into feed hopper 13, so that ceramic particle can fall into feeding tube 14 In, dual-axle motor 7 drives bull stick 15 to rotate, and bull stick 15 drives helical feed leaf 16 to rotate, so as to will be in feeding tube 14 Ceramic particle pushes in straight L shape feed pipe 17, is able to enter in sifting barrel 2 by L shape feed pipe 17, is convenient for automatic feed, drop The labour of low people.

Cleaning mechanism includes channel washer 18, is fixedly connected with multiple equally distributed bristles on the downside of the bar wall of channel washer 18, The upper side wall of bristle and sifting barrel 2 offsets setting, and the upper end of channel washer 18 is fixedly connected with that there are two symmetrically arranged first fixations Block 19, the upper inner sidewall of screening case 1 are fixedly connected there are two the second fixed block 20, and two the first fixed blocks 19 pass through fixed spiral shell Bolt 21 is fixedly connected with two the second fixed blocks 20 respectively, and the front side wall of screening case 1 offers corresponding with 18 position of channel washer Strip gab, when sifting barrel 2 rotates, channel washer 18 and bristle can upper side wall to sifting barrel 2 into cleaning, so as to sieve Divide the surface screening hole of cylinder 2 to be cleaned, avoids screening hole plug, and channel washer 18 and bristle are convenient for dismounting and change.

The upper end front and rear sides of inclined plate 12 are fixedly connected to baffle 22, avoid the ceramic particle after sieving from inclined plate 12 Upper end front and rear sides slide.

The diameter that the diameter of first belt pulley 6 is greater than the second belt pulley 9 is arranged, and can reduce the rotation of the first belt pulley 6 Speed can sufficiently sieve ceramic particle to reduce the velocity of rotation of sifting barrel 2.

The lower end of four support rods 24 is fixedly connected to antiskid plate 23, convenient for carrying out stablizing placement to screening plant.

Sifting barrel 2,3, two partitions 11 of spiral conveyor rod and two inclined plates 12 are that stainless steel material is made, and can be reduced Frictional force between sifting barrel 2,3, two partitions 11 of spiral conveyor rod and two inclined plates 12 and ceramic particle, and make sifting barrel 2, 3, two partitions 11 of spiral conveyor rod and two inclined plates 12 fasten durable, are not easy to be corroded.

In conclusion the green coating production screening plant of ceramic macromolecular particle composition, in use, by be sieved Ceramic particle be put into feed hopper 13, so that ceramic particle can be fallen into feeding tube 14, start dual-axle motor 7, twin shaft electricity Machine 7 drives bull stick 15 to rotate, and bull stick 15 drives helical feed leaf 16 to rotate, so as to push away the ceramic particle in feeding tube 14 It moves in straight L shape feed pipe 17, is able to enter in sifting barrel 2 by L shape feed pipe 17, be convenient for automatic feed, dual-axle motor 7 can also The second shaft 8 is enough driven to rotate, the second shaft 8 drives the rotation of the second belt pulley 9, and the second belt pulley 12 drives the by belt 10 The rotation of one belt pulley 6, the first belt pulley 6 drive first rotating shaft 4 to rotate, and first rotating shaft 4 drives sifting barrel 2 to rotate, to sieve Cylinder 2 is able to drive internal ceramic particle and is shaken, and sifting barrel 2 drives spiral conveyor rod 3 to rotate, in pushing The ceramic particle in portion is moved to the left, and can carry out multiple sieve to ceramic particle by the screening hole for a variety of different pore sizes being equipped with Point, by two partitions 11 and two inclined plates 12 that are equipped with different directions transmission can be carried out to the ceramic particle after screening.

It should be noted that term " includes " or any other variant thereof is intended to cover non-exclusive inclusion, thus So that the process, method, article or equipment for including a series of elements not only includes those elements, but also including not clear The other element listed, or further include for elements inherent to such a process, method, article, or device.Do not having more In the case where more limitations, the element that is limited by sentence "including a ...", it is not excluded that including process, the side of the element There is also other identical elements in method, article or equipment.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.