CN113771261A - ASA high rubber powder drying process conveying equipment - Google Patents

Abstract

The invention discloses ASA high-rubber powder drying process conveying equipment, and relates to the technical field of high-rubber powder conveying equipment. Including belt vacuum drying machine, belt vacuum drying machine discharge end's outer wall bottom fixedly connected with ejection of compact side pipe, finished product transport mechanism is installed to ejection of compact side pipe bottom, and belt vacuum drying machine material loading end's outer wall top is in order to run through form fixedly connected with former charge pipe, and the former charge pipe is located a plurality of raw materials of the inside one end difference fixedly connected with tiling mechanism of belt vacuum drying machine. According to the invention, the belt type vacuum dryer which is more suitable for drying the slurry is used, and the raw material spreading machine which is matched with the vacuum conveying belt in the belt type vacuum dryer is adopted, so that the traditional rocker arm circulating spreading mode is avoided, the uniform spreading of the material is realized, the material pump which works statically is adopted to replace a swing arm type spreading mechanism, the movement of the mechanism is reduced, the probability of equipment damage is reduced, and a more reasonable spreading mode is provided, so that the drying and the later processing of the material are more facilitated.

Description

ASA high rubber powder drying process conveying equipment

Technical Field

The invention relates to the technical field of high rubber powder conveying equipment, in particular to ASA high rubber powder drying process conveying equipment.

Background

The ASA high-rubber powder can improve various properties of ASA plastics, and different qualities of the ASA high-rubber powder are required to be produced in the production and processing of the ASA plastics.

Chinese patent publication No. CN104165505A discloses a multifunctional dryer system and a working method thereof, which are suitable for the drying production of cake-shaped, crystalline and easily oxidized products or preparations in the industries of biology, pharmacy, chemical industry, etc., which require soft water or organic solvent for filtration and washing, sterilization, solvent recovery, crushing, granulation and vacuum drying at the terminal.

The method for drying the slurry in a steam mode has the following problems that 1, the drying effect of the liquid slurry is poor, the contact area of steam and the slurry is small, the traditional belt type vacuum dryer can be used for drying the slurry with a good effect, but the feeding end of raw materials is a feeding swing arm with periodic operation, the feeding swing arm rotates through a certain radian to tile the vacuum conveying belt in the dryer, the swing arm needs to continuously move back and forth in the operation process, and the motor needs to frequently switch the rotating direction, so that the failure rate is high; 2. the material after drying directly carries the transmission through the pipeline in foretell patent, and the material often needs carry out the granulation or grind the step of processing after carrying out the drying and can finally become the finished product that can pack, and this equipment still need put in the material to other equipment and reprocess after accomplishing the processing, has prolonged production cycle to a certain extent.

Disclosure of Invention

The invention aims to provide ASA high-rubber powder drying process conveying equipment to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a conveying device for an ASA high rubber powder drying process comprises a belt type vacuum dryer, wherein a discharge square pipe is fixedly connected to the bottom of the outer wall of the discharge end of the belt type vacuum dryer, a finished product conveying mechanism is installed at the bottom of the discharge square pipe, a raw material pipe is fixedly connected to the top of the outer wall of the feed end of the belt type vacuum dryer in a penetrating mode, a plurality of raw material tiling mechanisms are respectively and fixedly connected to one end of the raw material pipe, the finished product conveying mechanism comprises a protective cover, a partition plate is fixedly connected between the front inner wall and the back inner wall of the protective cover, material conveying pipes are arranged on two sides of the partition plate in a penetrating mode at equal intervals, a material conveying motor is installed at one end of each material conveying pipe, the output end of each material conveying motor penetrates through one end of each material conveying pipe and is fixedly connected with a material conveying auger inside each material conveying pipe, a recovery bent pipe is fixedly connected to the top of the outer wall of each material conveying pipe, and the top of each recovery bent pipe is connected with the discharge square pipe, protection casing bottom fixedly connected with mounting box, the linear vibrator is installed to mounting box bottom inner wall symmetry, and linear vibrator top fixedly connected with vibrating sleeve has seted up the protection casing bottom and has passed the material hole, and protection casing bottom inner wall is located the position fixedly connected with fortune material oblique bucket that passes the material hole, and fortune material oblique bucket side noose is at vibrating sleeve one end outer wall, and the vibrating sleeve other end cup joints at passing the material pipe outer wall, the grinding mechanism is installed to the position that the protection casing bottom is located the material hole below.

Further, raw materials tiling mechanism is including tiling the frame, the tiling frame is the rectangle square frame structure, and tiling frame bottom fixedly connected with side's pipe that gathers materials, the side's of managing bottom fixedly connected with orifice plate that gathers materials, orifice plate bottom fixedly connected with hole cover, the material pump is installed to tiling frame bottom one side, material pump material pumping end through the connecting pipe with the former charge tube is linked together, a plurality of branch material pipes of material pump discharge end fixedly connected with, divide the material pipe outer wall to all install the flow solenoid valve, divide the other end and the side's pipe that gathers materials of expecting to be linked together.

Furthermore, single-row first-level material leakage holes are formed in the top of the pore plate at equal intervals, double-row second-level material leakage holes are formed in the bottom of the hole cover, and the aperture of the first-level material leakage holes is larger than that of the second-level material leakage holes.

Furthermore, grind the mechanism and include the material loading pipe that communicates with the biography material hole, material loading bottom fixedly connected with grinds the cover, grinds cover top inner wall fixedly connected with and is the screw hole board that the screw was seted up to the circumference form, grinds the cover top and is the equidistant adjusting bolt that runs through of circumference form, and adjusting bolt runs through screw threaded connection and the through thread hole board on grinding cover top and the screw hole board, and adjusting bolt runs through the one end of screw hole board and rotates through the bearing housing and be connected with the activity and grind the piece, grind cover bottom fixedly connected with and grind the bottom plate, grind the bottom plate bottom and install grinding motor, grind the motor output and run through grinding the bottom plate and fixedly connected with fixed grinding piece, grind the position fixedly connected with discharging pipe that the cover side lies in between fixed grinding piece and the grinding bottom plate.

Furthermore, fixed grinding piece top is provided with the arc recess of undercut, activity grinding piece bottom is provided with the arc arch of downward salient, and the arc arch is the same with the radian of arc recess, arc recess top is circumference form equidistance fixedly connected with grinds the piece, grind cover bottom fixedly connected with supporting legs.

Furthermore, the top of the protective cover is fixedly connected with a cover plate, the top of the cover plate is provided with an adaptive opening for the penetration of the recovery elbow, and the top of the cover plate is fixedly connected with the bottom of the belt type vacuum drying machine through a fixing frame.

Furthermore, the front side and the back side of the bottom of the belt vacuum dryer are fixedly connected with bottom frames respectively, a control cabinet is installed at the top of the bottom frame positioned on the front side, and the belt vacuum dryer, the finished product conveying mechanism, the grinding mechanism and the raw material tiling mechanism are electrically connected with the control cabinet respectively.

Furthermore, retrieve the inside fixedly connected with cover that gathers materials of return bend, the cover that gathers materials is established in retrieving the return bend and is passed the material union coupling department, and the cover face that gathers materials is to passing material pipe one side and seted up the circular port that is linked together with passing the material pipe, gathers materials the cover opposite side and seted up the quad slit with retrieving return bend inner wall smooth connection, and smooth transition is linked together between circular port and the quad slit.

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

according to the ASA high-rubber powder drying process conveying equipment, the belt type vacuum dryer which is more suitable for drying slurry is used, the raw material tiling machine which is installed on the vacuum conveying belt in the belt type vacuum dryer is matched, raw materials are pumped into the aggregate square pipe for pre-storage through the material pump, the materials are tiled on the vacuum conveying belt in the belt type vacuum dryer in a dropwise or linear mode through the primary material leaking hole in the pore plate and the secondary material leaking hole in the bottom of the hole cover, the traditional rocker arm circulating material paving mode is avoided, uniform material tiling is achieved, the material pump which works statically replaces the swing arm type material paving mechanism, the movement of the mechanism is reduced, the equipment damage probability is reduced, and the more reasonable material paving mode is provided, and drying and later-stage processing of the materials are more facilitated.

At off-the-shelf ejection of compact in-process, can transmit the dry material that finishes of belt vacuum drying machine to vibration sleeve through retrieving the return bend through the finished product transport mechanism who sets up, rely on the ejection of compact form of the cutting ejection of compact of belt vacuum drying machine itself and pass the preliminary breakage of material auger and can let the great partial material of volume diminish, the vibration sleeve driven through linear vibrator can let the even transport of material rely on material gravity to slide down to grind in the mechanism in the material is fought to the fortune.

In addition, the activity abrasive sheet among the grinding mechanism can make adjusting bolt reciprocate at the screw hole board through rotatory adjusting bolt, thereby single regulation screw thread bottom is through bearing housing and interactive abrasive sheet rotate the clearance adjustment that can realize activity abrasive sheet and fixed abrasive sheet, and rely on arc recess and the arc arch that sets up on fixed abrasive sheet and the activity abrasive sheet to realize the meticulous grinding of material, with this realize that the material just can realize the preliminary working at the in-process of transportation after the drying, the drawback that traditional drying equipment still need carry out secondary transportation processing extension production cycle after the drying has been avoided.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the discharge end opening of the belt vacuum dryer of the present invention;

FIG. 3 is a schematic view of the feed end opening of the belt vacuum dryer of the present invention;

FIG. 4 is a top disassembled view of the finished product transport mechanism of the present invention;

FIG. 5 is a bottom disassembled view of the finished product transporting mechanism of the present invention;

FIG. 6 is a schematic view of the grinding mechanism of the present invention;

FIG. 7 is a schematic structural diagram of a raw material spreading mechanism according to the present invention;

FIG. 8 is a schematic view of the combination of the polishing pads of the present invention.

In the figure: 1. a belt vacuum dryer; 2. a finished product conveying mechanism; 201. a protective cover; 202. a partition plate; 203. a material conveying pipe; 204. a material conveying motor; 205. a material conveying auger; 206. recovering the bent pipe; 207. a material collecting cover; 208. vibrating the casing; 209. a material conveying inclined hopper; 210. a cover plate; 211. an adapter port; 212. a fixed mount; 213. mounting a box; 214. a material conveying hole; 215. a linear vibrator; 3. discharging square tubes; 4. a raw material pipe; 5. a chassis; 6. a control cabinet; 7. a raw material tiling mechanism; 701. a flat laying frame; 702. collecting square pipes; 703. an orifice plate; 704. an escutcheon; 705. distributing pipes; 706. a material pump; 707. a connecting pipe; 708. a flow rate solenoid valve; 8. a grinding mechanism; 801. a grinding cover; 802. grinding the bottom plate; 803. grinding the motor; 804. supporting legs; 805. fixing the grinding sheet; 806. a threaded orifice plate; 807. adjusting the bolt; 808. a movable abrasive sheet; 809. feeding pipes; 810. a discharge pipe; 811. and a bearing sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in 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.

It should be noted that in the description of the present invention, the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description and simplification of description, and do not indicate or imply that the referred device or element must have a specific orientation, be configured in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Further, it will be appreciated that the dimensions of the various elements shown in the figures are not drawn to scale, for ease of description, and that the thickness or width of some layers may be exaggerated relative to other layers, for example.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus, once an item is defined or illustrated in one figure, it will not need to be further discussed or illustrated in detail in the description of the following figure.

Examples

The ASA high-rubber powder drying process conveying equipment provided by the invention is adopted to dry and convey the ASA high-rubber powder in the production and manufacturing process of the ASA high-rubber powder, the main body drying equipment of the equipment is a belt type vacuum dryer 1, a plurality of vacuum conveying belts are arranged in the belt type vacuum dryer 1 and are suitable for drying slurry type conveying materials, the raw materials are dried in the conveying process after being laid on the vacuum conveying belts in a flatly mode and discharged from the other ends of the conveying belts, a special chopper is arranged to cut off the connected materials in the discharging process, the basic function of the traditional belt type vacuum dryer 1 is achieved, the basic principle and the main body structure of the traditional belt type vacuum dryer 1 are adopted in the equipment, and raw material transportation equipment at the feeding end and finished product transportation equipment at the discharging end are improved, so that functions which are not possessed by the traditional drying machine and the drying equipment of the comparison document are realized.

As shown in fig. 1 to 8, the present invention provides a technical solution: an ASA high rubber powder drying process conveying device comprises a belt type vacuum drier 1, a discharge square pipe 3 is fixedly connected to the bottom of the outer wall of the discharge end of the belt type vacuum drier 1, a finished product conveying mechanism 2 is installed at the bottom of the discharge square pipe 3, a raw material pipe 4 is fixedly connected to the top of the outer wall of the feed end of the belt type vacuum drier 1 in a penetrating manner, one end of the raw material pipe 4, which is positioned inside the belt type vacuum drier 1, is respectively and fixedly connected with a plurality of raw material tiling mechanisms 7, the finished product conveying mechanism 2 comprises a protective cover 201, a partition plate 202 is fixedly connected between the front inner wall and the back inner wall of the protective cover 201, material conveying pipes 203 are equidistantly arranged on the two sides of the partition plate 202 in a penetrating manner, material conveying motors 204 are respectively installed at one ends of the material conveying pipes 203, material conveying augers 205 are fixedly connected to the ends of the material conveying pipes 203, a recovery elbow 206 is fixedly connected to the top of the outer wall of the material conveying pipes 203, and the top of the recovery elbow 206 is connected with the discharge square pipe 3, the bottom of the protective cover 201 is fixedly connected with a mounting box 213, the inner wall of the bottom of the mounting box 213 is symmetrically provided with a linear vibrator 215, the top of the linear vibrator 215 is fixedly connected with a vibration sleeve 208, the bottom of the protective cover 201 is provided with a material conveying hole 214, the inner wall of the bottom of the protective cover 201 is positioned at the material conveying hole 214 and is fixedly connected with a material conveying inclined hopper 209, the side surface of the material conveying inclined hopper 209 is sleeved on the outer wall of one end of the vibration sleeve 208, the other end of the vibration sleeve 208 is sleeved on the outer wall of the material conveying pipe 203, the bottom of the protective cover 201 is positioned below the material conveying hole 214 and is provided with a grinding mechanism 8, the top of the protective cover 201 is fixedly connected with a cover plate 210, the top of the cover plate 210 is provided with an adaptive opening 211 for penetrating a recovery bent pipe 206, the top of the cover plate 210 is fixedly connected with the bottom of the belt vacuum dryer 1 through a fixing frame 212, the front and the back sides of the bottom of the belt vacuum dryer 1 are respectively fixedly connected with an underframe 5, and a control cabinet 6 is arranged on the top of the front underframe 5, belt vacuum drying machine 1, finished product transport mechanism 2, grind mechanism 8 and raw materials tiling mechanism 7 respectively with 6 electric connection of switch board, retrieve the inside fixedly connected with of return bend 206 and gather materials cover 207, it sets up in retrieving return bend 206 and biography material pipe 203 junction to gather materials cover 207, gather materials cover 207 towards pass material pipe 203 one side set up with pass the circular port that material pipe 203 is linked together, gather materials cover 207 opposite side set up with retrieve 206 inner wall smooth connection's quad slit, smooth transition is linked together between circular port and the quad slit.

As shown in fig. 4-5, it should be noted that, the finished product transporting mechanism 2 is adopted to receive the materials cut off by the belt vacuum dryer 1, the matrix-type recovery bent pipes 206 are arranged side by side without leaving gaps, the dried materials can fall into different recovery bent pipes 206 for further transportation, at this time, it is to be understood that the discrete degree of the materials tiled by the raw material tiling mechanism 7 is large, large-area block materials cannot be presented, occasionally generated large materials can be broken off in the discharging chopping stage of the belt vacuum dryer 1 and when the materials travel in the material conveying auger 205, the diameters of the materials reaching the vibrating sleeve 208 by the material conveying auger 205 are small, the transporting mode of the materials can be changed after the materials reach the vibrating sleeve 208 by the material conveying pipe 203, and the linear vibrator 215 is arranged as a transporting device for the next stage of the dried materials, and can vibrate the materials reaching the vibrating sleeve 208 The formula is carried out the transmission, because vibration sleeve pipe 208 relies on linear vibrator 215 to carry out its conveying speed of vibration transportation slower than passing material auger 205, consequently can be with the concentrated heap of material more in vibration sleeve pipe 208, make things convenient for follow-up grinding mechanism 8's continuation material loading work, vibration sleeve pipe 208 noose is in passing material pipe 203 outer wall and is not in frictional contact with passing material pipe 203 outer wall, transport material tipping bucket 209 does not take place the contact with it at vibration sleeve pipe 208 outer wall with same mode noose simultaneously, consequently vibration sleeve pipe 208's vibration can not produce the damage to the two, the speed that relies on vibration sleeve pipe 208 of fixed frequency transportation material relatively even can cooperate with grinding mechanism 8's grinding speed, thereby can avoid dry material to take place to block up in fortune material tipping bucket 209 department.

As shown in fig. 6, for fine grinding of materials, the grinding mechanism 8 includes a feeding tube 809 connected to the material conveying hole 214, a grinding cover 801 is fixedly connected to the bottom of the feeding tube 809, a threaded hole plate 806 with screw holes formed in a circumferential shape is fixedly connected to the inner wall of the top of the grinding cover 801, adjusting bolts 807 are arranged in a circumferential shape and penetrate through the top of the grinding cover 801 at equal intervals, the adjusting bolts 807 penetrate through the top of the grinding cover 801, are in threaded connection with the screw holes of the threaded hole plate 806 and penetrate through the threaded hole plate 806, one end of the adjusting bolt 807 penetrating through the threaded hole plate 806 is rotatably connected with a movable grinding plate 808 through a bearing sleeve 811, a grinding bottom plate 802 is fixedly connected to the bottom of the grinding cover 801, a grinding motor 803 is installed at the bottom of the grinding bottom plate 802, an output end of the grinding motor 803 penetrates through the grinding bottom plate 802 and is fixedly connected with a fixed grinding plate 805, a discharging tube 810 is fixedly connected to a position of the side surface of the grinding cover 801 between the fixed grinding plate 805 and the grinding bottom plate 802, the top of the fixed grinding sheet 805 is provided with an arc-shaped groove which is sunken downwards, the bottom of the movable grinding sheet 808 is provided with an arc-shaped bulge which protrudes downwards, the arc-shaped bulge is the same as the arc of the arc-shaped groove, the top of the arc-shaped groove is fixedly connected with grinding blocks in a circumference shape with equal distance, and the bottom of the grinding cover 801 is fixedly connected with a supporting leg 804.

As shown in fig. 6 and 8, it should be noted that in the process of grinding materials, the dry materials reach the inside of the grinding cover 801 through the feeding pipe 809, a hole for the materials to pass through is provided between the movable grinding plate 808 and the threaded hole plate 806, the materials will fall from the central hole of the movable grinding plate 808 and be located between the movable grinding plate 808 and the fixed grinding plate 805, the fixed grinding plate 805 is driven by the grinding motor 803 to grind the materials, the ground materials will fall from the periphery of the fixed grinding plate 805 to the grinding bottom plate 802 for pre-storage, the discharging pipe 810 of the external wall device of the grinding cover 801 needs to be externally connected with a vacuum suction machine to lift the materials, and the materials are sucked into a large amount of storage cylinder for storage, so as to avoid the need of separate grinding operation in the conventional drying process, thereby shortening the production cycle.

It should be noted that when the movable grinding piece 808 is adjusted by the adjusting bolt 807, the adjusting bolts 807 at four positions need to be rotated in the same number of turns, so as to ensure the level of the bottom of the movable grinding piece 808, when the adjusting bolt 807 is adjusted, the adjusting bolt 807 penetrates through the top of the grinding cover 801 and is positioned on the threaded hole plate 806 in threaded connection with the grinding cover, and the threaded hole plate 806 is independently arranged, so that the situation that the whole grinding cover 801 needs to be replaced due to the situation of thread breakage and the like when the grinding cover 801 is arranged is avoided, the maintenance cost of the equipment is reduced, the bottom of the adjusting bolt 807 is fixedly sleeved and connected on the inner wall of the bearing, the outer wall of the bearing is sleeved and connected with a ring, the ring is fixed on the top of the movable grinding piece 808, and the ring and the bearing are combined and called as a bearing sleeve 811.

It should be noted that, when the movable grinding piece 808 is adjusted, the grinding motor 803 is firstly started, so that the grinding motor 803 drives the fixed grinding piece 805 to rotate, the adjusting bolt 807 is rotated until a slight contact friction sound is heard, the adjusting bolt 807 is adjusted back for one to two circles to start the device for pre-grinding, the fineness of the ground material is observed, if the requirement is met, the vacuum suction machine is connected to the discharge pipe 810, and if the material is too large or too small, the diameter of the discharged material can be adjusted by adjusting the movable grinding piece 808 through up and down.

Raw materials tiling mechanism 7 is including tiling frame 701, tiling frame 701 is the rectangle square frame structure, tiling frame 701 bottom fixedly connected with side's pipe 702 that gathers materials, side's pipe 702 bottom fixedly connected with orifice plate 703 that gathers materials, orifice plate 703 bottom fixedly connected with escutcheon 704, tiling frame 701 bottom one side is installed material pump 706, material pump 706 takes out the material end and is linked together with raw materials pipe 4 through connecting pipe 707, material pump 706 discharge end fixedly connected with a plurality of branch pipes 705, divide pipe 705 outer wall all to install flow solenoid valve 708, divide pipe 705's the other end and gather materials side's pipe 702 to be linked together, orifice plate 703 top equidistance has been seted up single row one-level hourglass material hole, double second grade hourglass material hole has been seted up to escutcheon 704 bottom, the aperture in one-level hourglass material hole is greater than second grade hourglass material hole.

It should be noted that, the traditional swing arm type spreading machine which is easy to damage is abandoned in the process of feeding materials to the belt vacuum drying machine 1, the fixed raw material spreading mechanism 7 driven by the material pump 706 is arranged for spreading, the materials can be transmitted to the material collecting square pipe 702 from the material distributing pipe 705 at an even speed through the continuous material pumping of the material pump 706 and the work of the flow electromagnetic valve 708, the materials are spread on the vacuum conveying belt of the belt vacuum drying machine 1 in a dripping mode through the leakage of the orifice plate 703 and the orifice cover 704, the efficiency of the larger drying of the spreading area of the materials is higher, the formed small materials are convenient for subsequent processing.

Further, the equipment is generally controlled by the control cabinet 6 in the working process, the control cabinet 6 can control the spreading speed of the raw material spreading mechanism 7 and the conveying speed of the vacuum conveying belt of the belt type vacuum drying machine 1, the conveying speed of the finished product conveying mechanism 2 and the grinding speed of the grinding mechanism 8 can be adjusted, and the operation coordination among the equipment is adjusted according to the production requirements or the different water-containing degrees of slurry, so that the overall control of the equipment is carried out according to different drying conditions.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a ASA high rubber powder drying process conveying equipment, includes belt vacuum drying machine (1), the outer wall bottom fixedly connected with ejection of compact side pipe (3) of belt vacuum drying machine (1) discharge end, its characterized in that: finished product conveying mechanism (2) is installed at the bottom of the discharging square pipe (3), the top of the outer wall of the feeding end of the belt type vacuum drying machine (1) is fixedly connected with raw material pipes (4) in a penetrating mode, one ends of the raw material pipes (4) located inside the belt type vacuum drying machine (1) are respectively and fixedly connected with a plurality of raw material tiling mechanisms (7), the finished product conveying mechanism (2) comprises a protective cover (201), a partition plate (202) is fixedly connected between the front side inner wall and the back side inner wall of the protective cover (201), material conveying pipes (203) are arranged on the two sides of the partition plate (202) in a penetrating mode at equal intervals, material conveying motors (204) are installed at one ends of the material conveying pipes (203), the output ends of the material conveying motors (204) penetrate through one ends of the material conveying pipes (203), material conveying packing augers (205) are fixedly connected inside the material conveying pipes (203), and recovery bent pipes (206) are fixedly connected with the top of the outer wall of the material conveying pipes (203), retrieve return bend (206) top and ejection of compact side pipe (3) and be connected, protection casing (201) bottom fixedly connected with mounting box (213), linear vibrator (215) are installed to mounting box (213) bottom inner wall symmetry, linear vibrator (215) top fixedly connected with vibration sleeve pipe (208), conveying hole (214) have been seted up to protection casing (201) bottom, protection casing (201) bottom inner wall is located the position fixedly connected with fortune material tipping bucket (209) of conveying hole (214), fortune material tipping bucket (209) side noose is at vibration sleeve pipe (208) one end outer wall, vibration sleeve pipe (208) other end cup joints at conveying pipe (203) outer wall, grinding mechanism (8) are installed to protection casing (201) bottom position that is located conveying hole (214) below.

2. The ASA high-rubber powder drying process conveying equipment as claimed in claim 1, wherein the ASA high-rubber powder drying process conveying equipment comprises: raw materials tiling mechanism (7) are including tiling frame (701), tiling frame (701) are rectangle square frame structure, and tiling frame (701) bottom fixedly connected with side pipe (702) that gathers materials, side pipe (702) bottom fixedly connected with orifice plate (703) that gathers materials, orifice plate (703) bottom fixedly connected with escutcheon (704), tiling frame (701) bottom one side install material pump (706), material pump (706) take out the material end through connecting pipe (707) with former feed pipe (4) are linked together, and material pump (706) discharge end fixedly connected with a plurality of minute material pipes (705), flow solenoid valve (708) are all installed to minute material pipe (705) outer wall, and the other end and the side pipe (702) of minute material pipe (705) are linked together.

3. The ASA high-rubber powder drying process conveying equipment as claimed in claim 2, wherein the ASA high-rubber powder drying process conveying equipment comprises: the top of the pore plate (703) is equidistantly provided with a single-row first-level material leakage hole, the bottom of the hole cover (704) is provided with a double-row second-level material leakage hole, and the aperture of the first-level material leakage hole is larger than that of the second-level material leakage hole.

4. The ASA high-rubber powder drying process conveying equipment as claimed in claim 1, wherein the ASA high-rubber powder drying process conveying equipment comprises: the grinding mechanism (8) comprises a feeding pipe (809) communicated with the material conveying hole (214), the bottom of the feeding pipe (809) is fixedly connected with a grinding cover (801), the inner wall of the top of the grinding cover (801) is fixedly connected with a threaded hole plate (806) with screw holes arranged in a circumferential manner, the top of the grinding cover (801) is provided with adjusting bolts (807) in a circumferential manner in an equidistant penetrating manner, the adjusting bolts (807) penetrate through the top of the grinding cover (801) and are in threaded connection with the screw holes on the threaded hole plate (806) and penetrate through the threaded hole plate (806), one end of each adjusting bolt (807) penetrating through the threaded hole plate (806) is rotatably connected with a movable grinding sheet (808) through a bearing sleeve (811), the bottom of the grinding cover (801) is fixedly connected with a grinding bottom plate (802), a grinding motor (803) is installed at the bottom of the grinding bottom plate (802), and the output end of the grinding motor (803) penetrates through the grinding bottom plate (802) and is fixedly connected with a fixed grinding sheet (805), the side surface of the grinding cover (801) is fixedly connected with a discharge pipe (810) at a position between the fixed grinding sheet (805) and the grinding bottom plate (802).

5. The ASA high-rubber powder drying process conveying equipment as claimed in claim 4, wherein the ASA high-rubber powder drying process conveying equipment comprises: the top of the fixed grinding sheet (805) is provided with an arc-shaped groove which is sunken downwards, the bottom of the movable grinding sheet (808) is provided with an arc-shaped bulge which protrudes downwards, the arc-shaped bulge is identical to the radian of the arc-shaped groove, the top of the arc-shaped groove is a circumference-shaped equidistant fixedly connected with grinding block, and the bottom of the grinding cover (801) is fixedly connected with supporting legs (804).

6. The ASA high-rubber powder drying process conveying equipment as claimed in claim 1, wherein the ASA high-rubber powder drying process conveying equipment comprises: the top of the protective cover (201) is fixedly connected with a cover plate (210), the top of the cover plate (210) is provided with an adaptation port (211) for penetrating through a recovery bent pipe (206), and the top of the cover plate (210) is fixedly connected with the bottom of the belt type vacuum drying machine (1) through a fixing frame (212).

7. The ASA high-rubber powder drying process conveying equipment as claimed in claim 1, wherein the ASA high-rubber powder drying process conveying equipment comprises: the front and the back both sides of belt vacuum drying machine (1) bottom are fixedly connected with chassis (5) respectively, are located openly chassis (5) top is installed switch board (6), belt vacuum drying machine (1), finished product transport mechanism (2), grinding mechanism (8) and raw materials tiling mechanism (7) respectively with switch board (6) electric connection.

8. The ASA high-rubber powder drying process conveying equipment as claimed in claim 1, wherein the ASA high-rubber powder drying process conveying equipment comprises: retrieve return bend (206) inside fixedly connected with cover (207) that gathers materials, gather materials cover (207) and set up in retrieving return bend (206) and biography material pipe (203) junction, gather materials cover (207) and set up towards biography material pipe (203) one side and offer the circular port that is linked together with biography material pipe (203), gather materials cover (207) opposite side and offer the quad slit with retrieving return bend (206) inner wall smooth connection, smooth transition is linked together between circular port and the quad slit.

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