阅读说明：本技术 制粒干燥机 (Granulating drier ) 是由 邱岭 吉杰标 张彬 于 2021-09-08 设计创作，主要内容包括：本发明涉及物料干燥机技术领域,具体涉及一种制粒干燥机,制粒机构与外壳连接,干燥机构与外壳连接,两个弹性件与外壳连接,两个震动电机与两个弹性件连接,两个连接块与两个震动电机连接,若干分流板与承接盘连接,承接盘具有若干筛孔,转动电机与外壳连接,第二转轴与转动电机连接,第二转轴与承接盘连接,震动电机驱动连接块带动承接盘震动使制粒机构制作后掉落到承接盘上的颗粒原料相互分离,并因承接盘跟随第二转轴转动产生的离心力从筛孔依次掉落到干燥机构进行干燥,解决了制粒干燥机的制粒机构制成的颗粒原料容易推挤在一起,导致与干燥机构接触不够充分,从而影响对颗粒原料的干燥效果的问题。(The invention relates to the technical field of material dryers, in particular to a granulating dryer, wherein a granulating mechanism is connected with a shell, a drying mechanism is connected with the shell, two elastic pieces are connected with the shell, two vibration motors are connected with the two elastic pieces, two connecting blocks are connected with the two vibration motors, a plurality of flow distribution plates are connected with a bearing disc, the bearing disc is provided with a plurality of sieve holes, a rotating motor is connected with the shell, a second rotating shaft is connected with the rotating motor, the second rotating shaft is connected with the bearing disc, the vibration motors drive the connecting blocks to drive the bearing disc to vibrate, so that particle raw materials falling onto the bearing disc after being manufactured by the granulating mechanism are mutually separated, and the particle raw materials sequentially fall onto the drying mechanism from the sieve holes for drying due to the centrifugal force generated by the rotation of the bearing disc along with the second rotating shaft, the problem that the particle raw materials manufactured by the granulating machine of the granulating dryer are easily pushed together and are not sufficiently contacted with the drying mechanism is solved, thereby affecting the drying effect of the granular raw material.)

1. A granulating drier is characterized by comprising an installation mechanism, a granulating mechanism, a drying mechanism and a dispersing mechanism;

the installation mechanism comprises a shell and four supporting components, the four supporting components are respectively and fixedly connected with the shell and are all positioned on one side of the shell, the shell is provided with a feeding hole and a discharging hole, the granulating mechanism is fixedly connected with the shell and positioned in the shell, and the drying mechanism is fixedly connected with the shell and positioned in the shell;

the dispersing mechanism comprises two elastic parts, two vibration motors, two connecting blocks, two sliding blocks, a bearing disc, a plurality of splitter plates, a rotating motor and a second rotating shaft, the two elastic parts are respectively fixedly connected with the shell and are positioned on the inner side wall of the shell, the two vibration motors are respectively fixedly connected with the two elastic parts and are positioned on one side far away from the shell, the two connecting blocks are respectively fixedly connected with the output ends of the two vibration motors, the two sliding blocks are respectively fixedly connected with the two connecting blocks and are positioned on one side close to the granulating mechanism, the bearing disc is provided with a sliding chute, the bearing disc is slidably connected with the two sliding blocks, the sliding blocks are positioned in the sliding chute, the plurality of splitter plates are respectively fixedly connected with the bearing disc and are positioned on one side far away from the sliding blocks, and the bearing disc is also provided with a plurality of sieve meshes, the rotating motor is fixedly connected with the shell and is positioned on one side far away from the supporting component, one side of the second rotating shaft is fixedly connected with the output end of the rotating motor and penetrates through the shell, and the other side of the second rotating shaft is fixedly connected with the bearing plate.

2. The granulation dryer as claimed in claim 1,

the elastic component includes urceolus, spring, stopper and inner tube, the urceolus with shell fixed connection, and be located the shell inside wall, the spring with urceolus fixed connection, and be located inside the shell, the stopper with urceolus sliding connection, and be located inside the urceolus, the inner tube with stopper fixed connection, and run through the urceolus, vibrating motor with inner tube fixed connection, and be located and keep away from one side of stopper.

3. The granulation dryer as claimed in claim 1,

pelletization mechanism is including pelletization board, spiral stripper plate and cutting component, pelletization board with shell fixed connection, and be located inside the shell, spiral stripper plate with second pivot fixed connection, and be located second pivot lateral wall, cutting component with second pivot sliding connection, and be located second pivot lateral wall, pelletization board has a plurality of pelletization holes.

4. The granulation dryer as claimed in claim 3,

the cutting assembly comprises a plurality of clamping blocks and a plurality of cutting knives, the second rotating shaft is provided with a plurality of clamping grooves, the clamping blocks are respectively in sliding connection with the second rotating shaft and are all located in the clamping grooves, and the cutting knives are respectively fixedly connected with the clamping blocks and are all located on one side far away from the second rotating shaft.

5. The granulation dryer as claimed in claim 4,

the cutting assembly further comprises two stop blocks, and the two stop blocks are respectively detachably connected with the second rotating shaft and are located on the outer side wall of the second rotating shaft.

6. The granulation dryer as claimed in claim 1,

installation mechanism still includes feed valve and feeder hopper, feed valve with shell fixed connection, and be located feed inlet department, the feeder hopper with feed valve fixed connection, and be located and keep away from one side of shell.

7. The granulation dryer as claimed in claim 1,

the mounting mechanism further comprises a discharge valve, and the discharge valve is fixedly connected with the shell and is positioned at the discharge port.

Technical Field

The invention relates to the technical field of material dryers, in particular to a granulating dryer.

Background

In the drying agent processing process, granulation and drying are two important processes;

the existing granulating drier mainly comprises a granulating mechanism for granulating raw materials, a drying mechanism for drying the raw materials and discharging the dried raw materials;

however, the granulated material formed by the granulator is easily pushed together, which leads to insufficient contact with the drying mechanism, thereby affecting the drying effect of the granulated material.

Disclosure of Invention

The invention aims to provide a granulating dryer, and aims to solve the problem that the contact between granular raw materials prepared by a granulating mechanism of the granulating dryer and a drying mechanism is insufficient, so that the drying effect of the granular raw materials is influenced.

In order to achieve the purpose, the invention provides a granulating dryer, which comprises an installation mechanism, a granulating mechanism, a drying mechanism and a dispersing mechanism;

the installation mechanism comprises a shell and four supporting components, the four supporting components are respectively and fixedly connected with the shell and are all positioned on one side of the shell, the shell is provided with a feeding hole and a discharging hole, the granulating mechanism is fixedly connected with the shell and positioned in the shell, and the drying mechanism is fixedly connected with the shell and positioned in the shell;

the dispersing mechanism comprises two elastic parts, two vibration motors, two connecting blocks, two sliding blocks, a bearing disc, a plurality of splitter plates, a rotating motor and a second rotating shaft, the two elastic parts are respectively fixedly connected with the shell and are positioned on the inner side wall of the shell, the two vibration motors are respectively fixedly connected with the two elastic parts and are positioned on one side far away from the shell, the two connecting blocks are respectively fixedly connected with the output ends of the two vibration motors, the two sliding blocks are respectively fixedly connected with the two connecting blocks and are positioned on one side close to the granulating mechanism, the bearing disc is provided with a sliding chute, the bearing disc is slidably connected with the two sliding blocks, the sliding blocks are positioned in the sliding chute, the plurality of splitter plates are respectively fixedly connected with the bearing disc and are positioned on one side far away from the sliding blocks, and the bearing disc is also provided with a plurality of sieve meshes, the rotating motor is fixedly connected with the shell and is positioned on one side far away from the supporting component, one side of the second rotating shaft is fixedly connected with the output end of the rotating motor and penetrates through the shell, and the other side of the second rotating shaft is fixedly connected with the bearing plate.

The vibrating motor drives the connecting block drives it makes to accept the vibrations of dish drop after the preparation of pelletization mechanism accept the granule raw materials alternate segregation on the dish, and because of accept the dish and follow the centrifugal force that the second pivot rotated the production is followed accept the dish the sieve mesh drops in proper order drying mechanism carries out the drying.

Wherein, the elastic component includes urceolus, spring, stopper and inner tube, the urceolus with shell fixed connection, and be located the shell inside wall, the spring with urceolus fixed connection, and be located inside the shell, the stopper with urceolus sliding connection, and be located inside the urceolus, the inner tube with stopper fixed connection, and run through the urceolus, shock dynamo with inner tube fixed connection, and be located and keep away from one side of stopper.

The utility model discloses a vibration motor, including the urceolus, the urceolus includes the urceolus, the inner tube is equipped with the spring, the spring passes through the elastic component the spring with the shell is connected, has increased vibration motor's vibrations effect, the urceolus with the inner tube will the spring surrounds, avoids the foreign matter to cause the influence to the work of spring, the inner tube basis the compression condition of spring is in corresponding slip is carried out to the urceolus is inside, the diameter of stopper is greater than the bore of urceolus, can avoid the spring will the inner tube is ejecting inside the urceolus.

Wherein, pelletization mechanism is including pelletization board, spiral stripper plate and cutting component, pelletization board with shell fixed connection, and be located inside the shell, spiral stripper plate with second pivot fixed connection, and be located second pivot lateral wall, cutting component with second pivot sliding connection, and be located the second pivot lateral wall, pelletization board has a plurality of pelletization holes.

The raw material falls onto the granulating plate of the granulating mechanism in the shell from the feeding hole, the spiral extrusion plate rotates along with the second rotating shaft to extrude the raw material towards the dispersing mechanism, so that the raw material is extruded from the granulating hole of the granulating plate, and the cutting assembly rotates along with the second rotating shaft to cut the raw material extruded from the granulating hole into granules.

The cutting assembly comprises a plurality of clamping blocks and a plurality of cutting knives, the second rotating shaft is provided with a plurality of clamping grooves, the clamping blocks are respectively in sliding connection with the second rotating shaft and are all located in the clamping grooves, and the cutting knives are respectively fixedly connected with the clamping blocks and are all located on one side far away from the second rotating shaft.

The cutting knife of the cutting assembly rotates along with the second rotating shaft through the clamping block to cut the raw materials extruded from the granulating hole into granules, the cutting knife can slide on the clamping groove of the second rotating shaft to adjust the distance between the cutting knife and the granulating plate according to the requirement of the size of the granular raw materials, when the distance between the clamping block and the granulating plate is reduced, the granules prepared by the raw materials cut by the cutting knife are smaller, and when the distance between the clamping block and the granulating plate is increased, the granules prepared by the cutting knife cutting the raw materials are larger.

The cutting assembly further comprises two stop blocks, and the two stop blocks are respectively detachably connected with the second rotating shaft and are located on the outer side wall of the second rotating shaft.

When the position of the clamping block on the cutting knife on the clamping groove is adjusted, the clamping block of the cutting knife is fixed on the clamping groove of the second rotating shaft by the stop block, and the stability of the clamping block on the clamping groove is improved.

Wherein, installation mechanism still includes feed valve and feeder hopper, feed valve with shell fixed connection, and be located feed inlet department, the feeder hopper with feed valve fixed connection, and be located and keep away from one side of shell.

Under the condition that the granulating dryer is not suitable for use, the feeding valve is closed to prevent foreign matters from entering the shell from the feeding hole, and when the granulating dryer is used, the feeding valve is opened, the diameter of the feeding hole is increased by the feeding hopper, so that raw materials are prevented from overflowing from the feeding hole when being fed into the shell through the feeding hole.

The mounting mechanism further comprises a discharge valve, and the discharge valve is fixedly connected with the shell and is positioned at the discharge port.

Under the condition that the granulating dryer is not suitable for use, the discharge valve is closed to prevent foreign matters from entering the shell from the discharge port, and when the granulating dryer is used, the discharge valve is opened to discharge prepared particles from the discharge port.

According to the granulating dryer, the vibration motor drives the connecting block to drive the bearing disc to vibrate, so that the granular raw materials falling onto the bearing disc after being manufactured by the granulating mechanism are separated from each other, and the granular raw materials sequentially fall onto the drying mechanism from the sieve holes of the bearing disc for drying due to the centrifugal force generated by the rotation of the bearing disc along with the second rotating shaft, so that the problem that the granular raw materials are easily pushed together and are insufficiently contacted with the drying mechanism, and the drying effect of the granular raw materials is influenced is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a granulation dryer according to the present invention;

FIG. 2 is a side view of a pelletization dryer provided by the present invention;

FIG. 3 is a cross-sectional view of a pelletization dryer provided by the present invention;

FIG. 4 is an enlarged view of detail A of FIG. 3;

fig. 5 is a sectional view of the elastic member.

1-mounting mechanism, 2-granulating mechanism, 3-drying mechanism, 4-dispersing mechanism, 5-shell, 6-supporting component, 7-feeding inlet, 8-discharging outlet, 9-elastic component, 10-vibration motor, 11-universal wheel, 12-connecting block, 13-sliding block, 14-bearing disc, 15-sliding chute, 16-flow distribution plate, 17-sieve pore, 18-rotating motor, 19-second rotating shaft, 20-outer cylinder, 21-spring, 22-limiting block, 23-inner cylinder, 24-granulating plate, 25-spiral extrusion plate, 26-cutting component, 27-granulating hole, 28-clamping block, 29-cutting knife, 30-clamping groove, 31-stopping block, 32-feeding valve, etc, 33-a feed hopper, 34-a discharge valve, 35-a drying slide way, 36-a heating plate, 37-a supporting leg, 38-a shock pad, 39-an air cylinder, 40-a piston rod and 41-an installation block.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 5, the present invention provides a granulating dryer, which includes an installation mechanism 1, a granulating mechanism 2, a drying mechanism 3 and a dispersing mechanism 4;

the mounting mechanism 1 comprises a shell 5 and four supporting components 6, the four supporting components 6 are respectively and fixedly connected with the shell 5 and are all positioned at one side of the shell 5, the shell 5 is provided with a feeding hole 7 and a discharging hole 8, the granulating mechanism 2 is fixedly connected with the shell 5 and is positioned inside the shell 5, and the drying mechanism 3 is fixedly connected with the shell 5 and is positioned inside the shell 5;

the dispersing mechanism 4 comprises two elastic parts 9, two vibration motors 10, two connecting blocks 12, two sliding blocks 13, a bearing disc 14, a plurality of flow distribution plates 16, a rotating motor 18 and a second rotating shaft 19, wherein the two elastic parts 9 are respectively fixedly connected with the shell 5 and are positioned on the inner side wall of the shell 5, the two vibration motors 10 are respectively fixedly connected with the two elastic parts 9 and are positioned on one side far away from the shell 5, the two connecting blocks 12 are respectively fixedly connected with the output ends of the two vibration motors 10, the two sliding blocks 13 are respectively fixedly connected with the two connecting blocks 12 and are positioned on one side close to the granulating mechanism 2, the bearing disc 14 is provided with a sliding groove 15, the bearing disc 14 is slidably connected with the two sliding blocks 13, the sliding blocks 13 are positioned in the sliding groove 15, and the flow distribution plates 16 are respectively fixedly connected with the bearing disc 14, all be located keep away from slider 13 one side, accept dish 14 still has a plurality of sieve meshes 17, rotate motor 18 with shell 5 fixed connection to be located the one side of keeping away from supporting component 6, one side of second pivot 19 respectively with rotate motor 18 output fixed connection, and run through shell 5, the opposite side of second pivot 19 with accept dish 14 fixed connection.

In this embodiment, the supporting component 6 of the mounting mechanism 1 provides stability for the operations of the granulating mechanism 2, the drying mechanism 3 and the dispersing mechanism 4 inside the housing 5, the raw material is fed into the granulating mechanism 2 inside the housing 5 from the feeding port 7 of the housing 5, the granulating mechanism 2 discharges the raw material to the receiving tray 14 of the dispersing mechanism 4 in a granular form, the vibration motor 10 drives the connecting block 12 to drive the receiving tray 14 to vibrate so that the granular raw material falling onto the receiving tray 14 after being manufactured by the granulating mechanism 2 is separated from each other, the granular raw material is prevented from being accumulated, the rotation motor 18 drives the second rotating shaft 19 to drive the receiving tray 14 to rotate, and the granular raw material sequentially falls from the sieve holes 17 of the receiving tray 14 to the drying mechanism under the drainage of the flow distribution plate 16 due to the centrifugal force generated by the rotation of the receiving tray 14 following the rotation of the second rotating shaft 19 3 carry out after the drying follow 8 discharges in the discharge gate accept set 14 when rotating, shock dynamo 10 connecting block 12 passes through slider 13 is in accept on the dish 14 slide in the spout 15, shock dynamo 10 passes through elastic component 9 with shell 5 is connected, elastic component 9 has increased shock dynamo 10's vibrations effect, and the granule raw materials that the pelletization mechanism 2 of having solved the pelletization desiccator made push away easily together, lead to insufficient with the contact of drying mechanism 3 to the problem of the drying effect of influence to granule raw materials.

Further, elastic component 9 includes urceolus 20, spring 21, stopper 22 and inner tube 23, urceolus 20 with 5 fixed connection of shell, and be located 5 inside walls of shell, spring 21 with 20 fixed connection of urceolus, and be located inside 5 of shell, stopper 22 with 20 sliding connection of urceolus, and be located inside the urceolus 20, inner tube 23 with stopper 22 fixed connection, and run through urceolus 20, shock dynamo 10 with inner tube 23 fixed connection, and be located and keep away from one side of stopper 22.

In this embodiment, the shock motor 10 passes through the elastic component 9 the spring 21 with the shell 5 is connected, has increased the vibrations effect of shock motor 10, urceolus 20 with the inner tube 23 will the spring 21 surrounds, avoids the foreign matter to cause the influence to the work of spring 21, the inner tube 23 basis the compression condition of spring 21 is in the urceolus 20 is inside to carry out corresponding slip, the diameter of stopper 22 is greater than the bore of urceolus 20, can avoid the spring 21 will the inner tube 23 is ejecting inside the urceolus 20.

Further, the granulating mechanism 2 includes a granulating plate 24, a spiral pressing plate 25 and a cutting assembly 26, the granulating plate 24 is fixedly connected with the housing 5 and is located inside the housing 5, the spiral pressing plate 25 is fixedly connected with the second rotating shaft 19 and is located on the outer side wall of the second rotating shaft 19, the cutting assembly 26 is slidably connected with the second rotating shaft 19 and is located on the side wall of the second rotating shaft 19, and the granulating plate 24 has a plurality of granulating holes 27; the cutting assembly 26 comprises a plurality of clamping blocks 28 and a plurality of cutting knives 29, the second rotating shaft 19 is provided with a plurality of clamping grooves 30, the clamping blocks 28 are respectively connected with the second rotating shaft 19 in a sliding mode and are all positioned in the clamping grooves 30, and the cutting knives 29 are respectively fixedly connected with the clamping blocks 28 and are all positioned on one side far away from the second rotating shaft 19; the cutting assembly 26 further includes two stoppers 31, and the two stoppers 31 are detachably connected to the second rotating shaft 19 respectively and are located on the outer side wall of the second rotating shaft 19.

In the present embodiment, the raw material drops from the feed port 7 onto the granulating plate 24 of the granulating mechanism 2 in the housing 5, the screw pressing plate 25 rotates along with the second rotating shaft 19 to press the raw material toward the dispersing mechanism 4, so that the raw material is pressed out from the granulating hole 27 of the granulating plate 24, the cutting assembly 26 rotates along with the second rotating shaft 19 to cut the raw material pressed out from the granulating hole 27 into granules, the cutting knife 29 of the cutting assembly 26 rotates along with the second rotating shaft 19 via the block 28 to cut the raw material pressed out from the granulating hole 27 into granules, the cutting knife 29 can adjust the distance between the cutting knife 29 and the granulating plate 24 by sliding on the block 30 of the second rotating shaft 19 according to the requirement of the size of the granular raw material, when the distance between the block 28 and the granulating plate 24 is reduced, the granules prepared by the raw material cut by the cutting knife 29 are smaller, when the distance between the fixture block 28 and the granulating plate 24 is increased, the granules prepared by the raw material cut by the cutting knife 29 are larger, and when the position of the fixture block 28 on the cutting knife 29 on the fixture groove 30 is adjusted, the fixture block 28 of the cutting knife 29 is fixed on the fixture groove 30 of the second rotating shaft 19 by the stop block 31, so that the stability of the fixture block 28 on the fixture groove 30 is increased.

Further, the mounting mechanism 1 further comprises a feeding valve 32 and a feeding hopper 33, wherein the feeding valve 32 is fixedly connected with the housing 5 and is located at the feeding port 7, and the feeding hopper 33 is fixedly connected with the feeding valve 32 and is located at one side far away from the housing 5; the mounting mechanism 1 further comprises a discharge valve 34, and the discharge valve 34 is fixedly connected with the housing 5 and is located at the discharge port 8.

In this embodiment, in the case of not being suitable for a granulation dryer, the feeding valve 32 and the discharging valve 34 are closed to prevent foreign matters from entering the inside of the housing 5 through the feeding port 7 and the discharging port 8, and in use, the feeding valve 32 and the discharging valve 34 are opened, so that the diameter of the feeding port 7 is increased by the feeding hopper 33 to prevent raw materials from overflowing from the feeding port 7 when the raw materials are fed into the inside of the housing 5 through the feeding port 7.

Further, dry mechanism 3 includes dry slide 35 and hot plate 36, dry slide 35 with shell 5 fixed connection, and be located inside the shell 5, hot plate 36 with dry slide 35 fixed connection, and be located dry slide 35 lateral wall.

In the present embodiment, the granular raw material dropped from the sieve holes 17 is discharged from the drying chute 35 to the discharge port 8 by sliding, and the heating plate 36 heats the drying chute 35 to dry the granular raw material while sliding on the drying chute 35.

Further, supporting component 6 includes supporting leg 37, shock pad 38, cylinder 39, piston rod 40, installation piece 41 and universal wheel 11, supporting leg 37 with shell 5 fixed connection, and be located and keep away from one side of feed inlet 7, shock pad 38 with supporting leg 37 fixed connection, and be located and keep away from one side of shell 5, cylinder 39 with supporting leg 37 fixed connection, and be located supporting leg 37 inside wall, piston rod 40 with cylinder 39 output end fixed connection, installation piece 41 with piston rod 40 fixed connection, and be located and keep away from one side of cylinder 39, universal wheel 11 with installation piece 41 fixed connection, and be located and keep away from one side of piston rod 40.

In this embodiment, the supporting leg 37 of the supporting component 6 is the inside of the shell 5, the granulation mechanism 2, the drying mechanism 3 and the dispersion mechanism 4 provide stability during operation, the shock pad 38 will the shell 5 is transmitted to the shock absorption of the supporting leg 37, for the shell 5 provides stability, when carrying the shell 5, the cylinder 39 drives the piston rod 40 will the universal wheel 11 on the mounting block 41 is pushed out of the inner side wall of the supporting leg 37 until the universal wheel 11 and the piston rod 40 are right the shell 5 is supported, namely, the universal wheel 11 is right the shell 5 is carried, and the convenience of the shell 5 in carrying is increased.

In the granulation dryer of the present invention, the support assembly 6 of the mounting mechanism 1 provides stability for the operation of the granulation mechanism 2, the drying mechanism 3 and the dispersing mechanism 4 inside the housing 5, raw materials are fed into the granulation mechanism 2 inside the housing 5 from the feed inlet 7 of the housing 5, the granulation mechanism 2 discharges the raw materials into granules to the receiving tray 14 of the dispersing mechanism 4, the vibration motor 10 drives the connecting block 12 to drive the receiving tray 14 to vibrate, so that the raw particles falling onto the receiving tray 14 after being manufactured by the granulation mechanism 2 are separated from each other, the raw particles are prevented from being accumulated, the rotation motor 18 drives the second rotating shaft 19 to drive the receiving tray 14 to rotate, and the raw particles sequentially fall from the sieve holes 17 of the receiving tray 14 to the sieve holes 17 of the receiving tray 14 under the drainage of the flow distribution plate 16 due to the centrifugal force generated by the rotation of the receiving tray 14 following the rotation of the second rotating shaft 19 Drying mechanism 3 carries out the drying back and follows discharge gate 8 discharges accept set 14 when rotating, shock dynamo 10 connecting block 12 passes through slider 13 is in accept on the dish 14 slide in the spout 15, shock dynamo 10 passes through elastic component 9 with shell 5 is connected, elastic component 9 has increased shock dynamo 10's vibrations effect, and the granule raw materials that granulation mechanism 2 of having solved the granulation desiccator made push away easily together, lead to insufficient with drying mechanism 3 contact to the problem of the drying effect of influence to granule raw materials.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.