CN113979152A

CN113979152A - Full-automatic activated powder production line

Info

Publication number: CN113979152A
Application number: CN202111387023.9A
Authority: CN
Inventors: 洪晓婷; 黄久花
Original assignee: Wuxi Sanxiao New Material Co ltd
Current assignee: Wuxi Sanxiao New Material Co ltd
Priority date: 2021-11-22
Filing date: 2021-11-22
Publication date: 2022-01-28

Abstract

The invention relates to a full-automatic activated powder production line which structurally comprises a pretreatment mechanism, a roasting mechanism, a blanking mechanism and a finished product screening mechanism which are sequentially arranged, wherein a dust removal mechanism is connected with the roasting mechanism, the blanking mechanism and the finished product screening mechanism, and a charging tray is sequentially conveyed from the pretreatment mechanism, passes through the roasting mechanism and the blanking mechanism and returns to the pretreatment mechanism. The invention has the advantages that: the full-automatic activated powder distributing and feeding device has the advantages of being reasonable in structural design, achieving full-automatic material distributing, weighing, material raking, roasting, cooling, discharging and finished product screening of activated powder, effectively improving production efficiency, guaranteeing product quality and meeting production requirements.

Description

Full-automatic activated powder production line

Technical Field

The invention relates to a full-automatic activated powder production line.

Background

The activated powder, i.e. zeolite activated powder, is a white powder with high fluidity and high adsorptivity. It can not only adsorb water, but also adsorb substances with molecular diameter smaller than the self-aperture; has the functions of reducing water content, eliminating bubbles and improving the uniformity and strength of the material. Water adsorption serves as the main function of the zeolite activated powder, and can adsorb 20% of its own weight of water even in the case of low moisture. The adsorption of the zeolite activated powder is a physical process without any side effects. Is widely applied to the production of polyurethane series products, epoxy zinc-rich paint, hollow glass adhesive tapes, cosmetics and the like.

The activating powder production line in the prior art has the defects of low automation degree, poor production effect and insufficient continuity, influences the production efficiency and the product quality, and can not meet the production requirement.

Disclosure of Invention

The invention provides a full-automatic activated powder production line, aiming at overcoming the defects in the prior art, realizing full-automatic activated powder production, effectively improving the production effect and improving the production continuity.

The technical solution of the invention is as follows: full-automatic activated powder production line, its structure is including the preceding processing mechanism, calcination mechanism, unloading mechanism and the finished product screening mechanism that set gradually, and calcination mechanism, unloading mechanism and finished product screening mechanism are connected to dust removal mechanism, and the charging tray is carried in proper order through calcination mechanism and unloading mechanism and is got back to the preceding processing mechanism in the front processing mechanism.

Preferably, the pretreatment mechanism comprises a material sending mechanism, a material raking mechanism and a feeding rack, feeding rollers are uniformly distributed on the feeding rack, the feeding rollers are driven to rotate by a driving wheel in end contact, the material sending mechanism comprises a plurality of storage hoppers, the bottom of each storage hopper is connected with a material sending quantitative auger, each material sending quantitative auger is connected with a material sending pipe, all the material sending pipes are connected with the same mixing barrel, a stirring mechanism is arranged in the mixing barrel, the bottom of the mixing barrel is connected with a material discharging auger, the material discharging auger is connected with the material pipes, and the material pipe outlets are positioned above the outer ends of the feeding rack;

the raking mechanism is located above the inner side end of the feeding rack and comprises a lifting cylinder installed on an installation top plate, the output end of the lifting cylinder is vertically downward and connected with a lifting installation plate, the lifting installation plate is further connected with the installation top plate through a guide rod in a lifting mode, a transverse moving motor is installed on the bottom surface of the installation top plate and is connected with a transverse moving plate through a lead screw nut pair, the transverse moving plate is connected with a horizontal main rod, and a raking body vertically downward is arranged at the end part of the main rod.

Preferably, the roasting mechanism comprises a roasting furnace close to the pretreatment mechanism and a cooling furnace close to the blanking mechanism, which are mutually communicated, the roasting furnace comprises a first frame, 8 first upper cover plates and 8 first lower cover plates which correspond up and down are detachably arranged on the first frame, the inner side of each first upper cover plate is a roasting furnace unit, a feeding side cover plate is arranged on one side surface of the first frame close to the pretreatment mechanism, a feeding hole matched with a material tray in size is formed in the feeding side cover plate, feeding rollers are uniformly distributed along gaps between all the first upper cover plates and the first lower cover plates, two ends of each feeding roller protrude out of the outer side surfaces of the first upper cover plates and the first lower cover plates, the feeding rollers are driven to rotate by driving wheels which are in contact with the inner sides of the first lower cover plates, and the heights of the feeding rollers of the roasting furnace are the same as the heights of the feeding rollers of the pretreatment mechanism;

the cooling furnace comprises a second frame, 6 second upper cover plates and 6 second lower cover plates which correspond up and down are detachably arranged on the second frame, a cooling furnace unit is arranged on the inner side of each second upper cover plate, a discharge side cover plate is arranged on one side face, close to the blanking mechanism, of the second frame, a discharge port matched with a material tray in size is arranged on the discharge side cover plate, feed rollers are uniformly distributed in gaps between all the second upper cover plates and the second lower cover plates, two ends of each feed roller protrude out of the outer side faces of the second upper cover plates and the outer side faces of the second lower cover plates, the feed rollers are driven to rotate by driving wheels which are in contact with the inner sides of the second lower cover plates, and the height of the feed rollers of the cooling furnace is the same as that of the feed rollers of the roasting furnace.

Preferably, unloading mechanism includes out the feed bin, goes out the feed bin and openly establishes transparent curtain, establishes ejection of compact frame in going out the feed bin, and the equipartition has the feed roll in the ejection of compact frame, and the feed roll is rotated by the drive wheel drive of tip contact, goes out feed bin side and discharge gate intercommunication, the pay-off mouth is established to another side, and the pay-off manipulator is established to the feed roll top in going out the feed bin, goes out the feed bin top and is equipped with the charging tray conveyer belt that preceding processing agency extended.

Preferably, finished product screening mechanism includes the hopper, and hopper top entry and pay-off mouth intercommunication, bottom exit linkage are equipped with the unloading auger of hopper motor, and unloading auger exit linkage unloading pipe, unloading union coupling crushing sieve, and finished product discharge gate and waste material mouth are established respectively to crushing sieve both sides face.

Preferably, the dust removal mechanism comprises a first dust collection pipe communicated with the top of the roasting furnace, a second dust collection pipe communicated with the top of the cooling furnace, a first dust collection hose communicated with the top of the discharging bin, and a second dust collection hose communicated with the top of the crushing sieve, the first dust collection pipe, the second dust collection pipe, the first dust collection hose and the second dust collection hose are all communicated with a main dust collection pipe, a dust collection fan is arranged on the main dust collection pipe, the main dust collection pipe is connected with a bag-type dust collector, and the bag-type dust collector is connected with an exhaust pipe.

Preferably, all the drive wheels contacting the feed roller are driven by a drive chain through a drive motor.

The invention has the advantages that: the full-automatic activated powder distributing and feeding device has the advantages of being reasonable in structural design, achieving full-automatic material distributing, weighing, material raking, roasting, cooling, discharging and finished product screening of activated powder, effectively improving production efficiency, guaranteeing product quality and meeting production requirements.

Drawings

FIG. 1 is a schematic structural view of an apparatus for producing activated powder according to the present invention.

Fig. 2 is a schematic structural view of the pretreatment mechanism in fig. 1.

FIG. 3 is a schematic view of the structure of the firing mechanism in FIG. 1.

Fig. 4 is a schematic structural view of the blanking mechanism in fig. 1.

Fig. 5 is a schematic structural view of the product screening mechanism in fig. 1.

Fig. 6 is a schematic structural diagram of the raking mechanism in fig. 2.

In the figure, 1 is a pretreatment mechanism, 11 is a material sending mechanism, 111 is a storage hopper, 112 is a material sending pipe, 113 is a material sending quantitative dragon, 114 is a mixing barrel, 115 is a stirring mechanism, 116 is a discharging auger, 117 is a material pipe, 12 is a raking mechanism, 121 is a mounting top plate, 122 is a lifting cylinder, 123 is a guide rod, 124 is a lifting mounting plate, 125 is a traversing motor, 126 is a screw nut pair, 127 is a traversing plate, 128 is a main rod, 129 is a rake, 13 is a feeding frame, 2 is a roasting mechanism, 21 is a roasting furnace, 211 is a first frame, 212 is a first upper cover plate, 213 is a first lower cover plate, 214 is a feeding side cover plate, 215 is a feeding port, 22 is a cooling furnace, 221 is a second frame, 222 is a second upper cover plate, 223 is a second lower cover plate, 224 is a discharging side cover plate, 225 is a discharging port, 3 is a discharging mechanism, 31 is a discharging bin, 311 is a transparent curtain, 312 is a feeding port, 313 is a discharging frame, 32 is a discharging manipulator, 321 is a tray conveyer belt, 4 is a finished product screening mechanism, 41 is a hopper, 42 is a hopper motor, 43 is a discharging auger, 44 is a crushing sieve, 45 is a finished product discharging port, 46 is a waste port, 47 is a discharging pipe, 5 is a dust removing mechanism, 51 is a first dust absorbing pipe, 52 is a second dust absorbing pipe, 53 is a first dust absorbing hose, 54 is a second dust absorbing hose, 55 is a main dust absorbing pipe, 56 is a dust absorbing fan, 57 is a bag-type dust remover, 58 is an exhaust pipe, 61 is a feeding roller, 62 is a driving wheel, and 7 is a tray.

Detailed Description

The present invention will be described in further detail with reference to examples and specific embodiments.

As shown in fig. 1-6, the full-automatic activated powder production line structurally comprises a pretreatment mechanism 1, a roasting mechanism 2, a blanking mechanism 3 and a finished product screening mechanism 4 which are sequentially arranged, a dust removal mechanism 5 is connected with the roasting mechanism 2, the blanking mechanism 3 and the finished product screening mechanism 4, and a material tray 7 is sequentially conveyed from the pretreatment mechanism 1, passes through the roasting mechanism 2 and the blanking mechanism 3 and returns to the pretreatment mechanism 1.

The pretreatment mechanism 1 comprises a feeding mechanism 11, a raking mechanism 12 and a feeding rack 13, wherein feeding rollers 61 are uniformly distributed on the feeding rack 13, the feeding rollers 61 are driven to rotate by a driving wheel 62 contacted with the end part, the feeding mechanism 11 comprises a plurality of storage hoppers 111, the bottom of each storage hopper 111 is connected with a feeding quantitative auger 113, each feeding quantitative auger 113 is connected with a feeding pipe 112, all the feeding pipes 112 are connected with the same mixing barrel 114, a stirring mechanism 115 is arranged in the mixing barrel 114, the bottom of the mixing barrel 114 is connected with a discharging auger 116, the discharging auger 116 is connected with a feeding pipe 117, and an outlet of the feeding pipe 117 is positioned above the outer end of the feeding rack 13;

the raking mechanism 12 is located above the inner end of the feeding frame 13 and comprises a lifting cylinder 122 mounted on a mounting top plate 121, the output end of the lifting cylinder 122 is vertically downward connected with a lifting mounting plate 124, the lifting mounting plate 124 is further connected with the mounting top plate 121 in a lifting manner through a guide rod 123, a traverse motor 125 is mounted on the bottom surface of the mounting top plate 121, the traverse motor 125 is connected with a traverse plate 127 through a screw-nut pair 126, the traverse plate 127 is connected with a horizontal main rod 128, and a raking fork 129 which is vertically downward is arranged at the end of the main rod 128.

The roasting mechanism 2 comprises a roasting furnace 21 close to the pretreatment mechanism 1 and a cooling furnace 22 close to the blanking mechanism 3, which are communicated with each other, the roasting furnace 21 comprises a first frame 211, 8 first upper cover plates 212 and 8 first lower cover plates 213 which correspond up and down are detachably arranged on the first frame 211, the inner side of each first upper cover plate 212 is a roasting furnace unit, a feeding side cover plate 214 is arranged on one side surface of the first frame 211 close to the pretreatment mechanism 1, a feeding hole 215 matched with a charging tray 7 in size is arranged on the feeding side cover plate 214, feeding rollers 61 are uniformly distributed along gaps between all the first upper cover plates 212 and the first lower cover plates 213, two ends of each feeding roller 61 protrude out of the outer side surfaces of the first upper cover plates 212 and the first lower cover plates 213, the feeding rollers 61 are driven to rotate by a driving wheel 62 which is in contact with the inner side of the first lower cover plates 213, and the height of the feeding rollers 61 of the roasting furnace 21 is the same as that of the feeding rollers 61 of the pretreatment mechanism 1;

the cooling furnace 22 comprises a second frame 221, 6 second upper cover plates 222 and 6 second lower cover plates 223 which correspond up and down are detachably mounted on the second frame 221, a cooling furnace unit is arranged on the inner side of each second upper cover plate 222, a discharge side cover plate 224 is mounted on one side, close to the blanking mechanism 3, of the second frame 221, a discharge port 225 which is matched with the material tray 7 in size is mounted on the discharge side cover plate 224, feed rollers 61 are uniformly distributed along gaps between all the second upper cover plates 222 and the second lower cover plates 223, two ends of each feed roller 61 protrude out of the outer side faces of the second upper cover plates 222 and the outer side faces of the second lower cover plates 223, the feed rollers 61 are driven to rotate by driving wheels 62 which are in contact with the inner sides of the second lower cover plates 223, and the height of the feed rollers 61 of the cooling furnace 22 is the same as that of the feed rollers 61 of the roasting furnace 21.

The discharging mechanism 3 comprises a discharging bin 31, a transparent curtain 311 is arranged on the front surface of the discharging bin 31, a discharging rack 313 is arranged in the discharging bin 31, feeding rollers 61 are uniformly distributed on the discharging rack 313, the feeding rollers 61 are driven to rotate by a driving wheel 62 in end contact, one side surface of the discharging bin 31 is communicated with a discharging port 225, a feeding port 312 is arranged on the other side surface of the discharging bin 31, a discharging manipulator 32 is arranged above the feeding rollers 61 in the discharging bin 31, and a tray conveying belt 321 extending towards the front processing mechanism 1 is arranged above the discharging bin 31.

The finished product screening mechanism 4 comprises a hopper 41, wherein an inlet at the top of the hopper 41 is communicated with a feeding port 312, an outlet at the bottom of the hopper 41 is connected with a discharging auger 43 provided with a hopper motor 42, an outlet of the discharging auger 43 is connected with a discharging pipe 47, the discharging pipe 47 is connected with a crushing sieve 44, and two side surfaces of the crushing sieve 44 are respectively formed into a finished product discharging port 45 and a waste material port 46.

The dust removing mechanism 5 comprises a first dust suction pipe 51 communicated with the top of the roasting furnace 21, a second dust suction pipe 52 communicated with the top of the cooling furnace 22, a first dust suction hose 53 communicated with the top of the discharging bin 31 and a second dust suction hose 54 communicated with the top of the crushing sieve 44, the first dust suction pipe 51, the second dust suction pipe 52, the first dust suction hose 53 and the second dust suction hose 54 are all communicated with a dust suction main pipe 55, a dust suction fan 56 is arranged on the dust suction main pipe 55, the dust suction main pipe 55 is connected with a bag-type dust remover 57, and the bag-type dust remover 57 is connected with an exhaust pipe 58.

All the drive wheels 62 contacting the feed roller 61 are driven by a transmission chain through a transmission motor (not shown).

The two ends of the feeding roller 61 are rotatably connected with the frame, which is not described in detail.

According to the above structure, during operation, the pretreatment mechanism 1 performs material distributing and raking, specifically, one or more raw materials are placed into one or more storage hoppers 111, the material distributing amount is controlled by the material distributing quantitative auger 113, then the raw materials enter the material mixing barrel 114 to be mixed and stirred and mixed by the stirring mechanism 115, then the raw materials are output to the material tray 7 on the feeding roller 61 on the feeding frame 13 from the material discharging auger, and then the raw materials are conveyed backwards, the raking mechanism 12 rakes the powder in the material tray 7, rakes out the gully, increases the heating area, specifically, the traverse motor 125 drives the traverse plate to traverse through the screw nut pair to drive the main rod 128 and the rake 129, then the lifting cylinder 122 drives the rake 129 to insert into the powder in the lower material tray 7, the traverse motor 125 drives the rake 129 to traverse again to the opposite direction to finish raking, then the lifting cylinder 122 is lifted, and the structures are recovered to the original positions, the charging tray 7 is continuously and automatically conveyed into the roasting mechanism 2 for roasting and cooling, roasting is sequentially stopped in 8-section roasting furnace units, whether normal feeding is carried out or not can be conveniently observed by the convex feeding roller 61, faults are timely treated, then the charging tray 7 is conveyed onto the feeding roller 61 of the discharging bin 31, the charging tray 7 is grabbed by the discharging manipulator 32, powder is conveyed into the hopper 41 of the finished product screening mechanism 4 from the feeding port 312, the empty charging tray 7 is conveyed back to the pretreatment mechanism 1 by the charging tray conveying belt 321, the powder is transferred into the charging hopper 41, the discharging auger 43 outputs the powder to enter the crushing sieve 44 for crushing and screening, finished products and waste materials are separated, subsequent packaging and other processes are carried out, and the production of activated powder is completed.

All the above components are prior art, and those skilled in the art can use any model and existing design that can implement their corresponding functions.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various changes and modifications can be made without departing from the inventive concept of the present invention, and these changes and modifications are all within the scope of the present invention.

Claims

1. Full-automatic activated powder production line, its characteristic is including preceding processing mechanism (1), calcination mechanism (2), unloading mechanism (3) and finished product screening mechanism (4) that set gradually, and calcination mechanism (2), unloading mechanism (3) and finished product screening mechanism (4) are connected in dust removal mechanism (5), and charging tray (7) are carried in proper order through calcination mechanism (2) and unloading mechanism (3) and are got back to preceding processing mechanism (1) in the past processing mechanism (1).

2. The full-automatic activated powder production line as claimed in claim 1, wherein the pre-treatment mechanism (1) comprises a material dispensing mechanism (11), the raking mechanism (12) and the feeding rack (13), feeding rollers (61) are uniformly distributed on the feeding rack (13), the feeding rollers (61) are driven to rotate by a driving wheel (62) in contact with the end portion, the feeding mechanism (11) comprises a plurality of storage hoppers (111), the bottom of each storage hopper (111) is connected with a feeding quantitative auger (113), each feeding quantitative auger (113) is connected with a feeding pipe (112), all the feeding pipes (112) are connected with the same mixing barrel (114), a stirring mechanism (115) is arranged in each mixing barrel (114), the bottom of each mixing barrel (114) is connected with a discharging auger (116), each discharging auger (116) is connected with a feeding pipe (117), and an outlet of each feeding pipe (117) is positioned above the outer end of the feeding rack (13);

the raking mechanism (12) is located above the inner side end of the feeding rack (13) and comprises a lifting cylinder (122) installed on an installation top plate (121), the output end of the lifting cylinder (122) is vertically downward and connected with a lifting installation plate (124), the lifting installation plate (124) is further connected with the installation top plate (121) through a guide rod (123) in a lifting mode, a transverse moving motor (125) is installed on the bottom surface of the installation top plate (121), the transverse moving motor (125) is connected with a transverse moving plate (127) through a screw-nut pair (126), the transverse moving plate (127) is connected with a horizontal main rod (128), and a raking rake (129) which is vertically downward is arranged at the end part of the main rod (128).

3. The full-automatic activated powder production line of claim 2, wherein the roasting mechanism (2) comprises a roasting furnace (21) close to the pretreatment mechanism (1) and a cooling furnace (22) close to the blanking mechanism (3) which are communicated with each other, the roasting furnace (21) comprises a first frame (211), 8 first upper cover plates (212) and 8 first lower cover plates (213) which correspond to each other up and down are detachably arranged on the first frame (211), a roasting furnace unit is arranged on the inner side of each first upper cover plate (212), a feeding side cover plate (214) is arranged on one side surface of the first frame (211) close to the pretreatment mechanism (1), a feeding hole (215) which is matched with the charging tray 7 in size is arranged on the feeding side cover plate (214), feeding rollers (61) are uniformly distributed along gaps between all the first upper cover plates (212) and the first lower cover plates (213), two ends of each feeding roller (61) protrude out of the first upper cover plates (212) and the outer side surfaces of the first lower cover plates (213), the feeding roller (61) is driven to rotate by a driving wheel (62) which is in contact with the feeding roller and positioned on the inner side of the first lower cover plate (213), and the height of the feeding roller (61) of the roasting furnace (21) is the same as that of the feeding roller (61) of the pretreatment mechanism (1);

the cooling furnace (22) comprises a second frame (221), 6 second upper cover plates (222) and 6 second lower cover plates (223) which correspond up and down are detachably arranged on the second frame (221), a cooling furnace unit is arranged on the inner side of each second upper cover plate (222), a discharging side cover plate (224) is arranged on one side, close to the blanking mechanism (3), of the second frame (221), a discharging hole (225) matched with the material tray 7 in size is formed in the discharging side cover plate (224), feeding rollers (61) are uniformly distributed along gaps between all the second upper cover plates (222) and the second lower cover plates (223), two ends of each feeding roller (61) protrude out of the outer side surfaces of the second upper cover plates (222) and the second lower cover plates (223), the feeding rollers (61) are driven to rotate by a driving wheel (62) located on the inner side of the second lower cover plates (223) in a contact mode, and the height of the feeding rollers (61) of the cooling furnace (22) is the same as that of the feeding rollers (61) of the roasting furnace (21).

4. The full-automatic activated powder production line of claim 3, wherein the discharging mechanism (3) comprises a discharging bin (31), a transparent curtain (311) is arranged on the front surface of the discharging bin (31), a discharging rack (313) is arranged in the discharging bin (31), feeding rollers (61) are uniformly distributed on the discharging rack (313), the feeding rollers (61) are driven to rotate by a driving wheel (62) contacted with the end part, one side surface of the discharging bin (31) is communicated with the discharging port (225), the other side surface of the discharging bin is provided with a feeding port (312), a discharging manipulator (32) is arranged above the feeding rollers (61) in the discharging bin (31), and a charging tray conveying belt (321) extending towards the front processing mechanism (1) is arranged above the discharging bin (31).

5. The full-automatic activated powder production line of claim 4, wherein the finished product screening mechanism (4) comprises a hopper (41), an inlet at the top of the hopper (41) is communicated with the feeding port (312), an outlet at the bottom of the hopper (41) is connected with a discharging auger (43) provided with a hopper motor (42), an outlet of the discharging auger (43) is connected with a discharging pipe (47), the discharging pipe (47) is connected with a crushing sieve (44), and a finished product discharging port (45) and a waste port (46) are respectively arranged on two side surfaces of the crushing sieve (44).

6. The full-automatic activated powder production line of claim 5, wherein the dust removal mechanism (5) comprises a first dust suction pipe (51) communicated with the top of the roasting furnace (21), a second dust suction pipe (52) communicated with the top of the cooling furnace (22), a first dust suction hose (53) communicated with the top of the discharging bin (31), and a second dust suction hose (54) communicated with the top of the crushing sieve (44), the first dust suction pipe (51), the second dust suction pipe (52), the first dust suction hose (53) and the second dust suction hose (54) are all communicated with a main dust suction pipe (55), a main dust suction fan (56) is arranged on the main dust suction pipe (55), the main dust suction pipe (55) is connected with a bag-type dust remover (57), and the bag-type dust remover (57) is connected with an exhaust pipe (58).

7. A fully automatic activated powder production line as claimed in claims 2 to 6, characterised in that all the driving wheels (62) contacting said feed roller (61) are driven by a transmission chain through a transmission motor.