CN219141408U - Vibration fluidization air-drying production line - Google Patents

Abstract

The utility model discloses a vibrating fluidization air drying production line which comprises a vibrating fluidized bed shell, wherein a moving mechanism is arranged at the top of the fluidized bed shell and comprises a first motor, a bevel gear set, a disc, a cylinder, an annular groove, a connecting block, a slide column and a connecting plate. This production line is air-dried in vibration fluidization, through the cooperation between first motor, the bevel gear group, the disc, the cylinder, the ring channel, the connecting block, the traveller and the connecting plate, thereby first motor drive bevel gear group rotates and drives the round pin axle and rotate, thereby the round pin axle drives the disc and rotate, the cylinder drives the slip in the ring channel, the ring channel drives the connecting block and slides in the vibration fluidized bed shell, the connecting block drives the traveller and slides in the slide rail, the connecting block drives the connecting plate and removes, the connecting plate drives the blowing pipe and removes, the top with the blowing pipe setting at the vibrations board has been solved and the problem that can block up the blowing mouth.

Description

Vibration fluidization air-drying production line

Technical Field

The utility model relates to the technical field of vibrating fluidized beds, in particular to a vibrating fluidized air drying production line.

Background

The vibration fluidized bed is a novel fluidization high-efficiency drying device suitable for drying granular and powdery materials, and is widely applied to the drying, cooling and humidifying operations of various granular material crystals and powder particle mixtures due to the advantages of convenient operation, environmental protection and the like. Such as the pharmaceutical industry: various tablet particles, boric acid, borax, various additives of benzenediol and the like; food building material industry: vinasse, monosodium glutamate, granulated sugar, salt, granular chicken essence, slag, bean cotyledon seeds and the like.

The existing vibration fluidization air-drying production line still has some problems when using, when air-drying the to-be-air-dried object, the blast gate is arranged on the surface of the vibration plate, when the vibration plate vibrates to air-dry the object, the air-dried object can be vibrated to remove some fragments, when the vibration plate vibrates, the fragments vibrate into the blast gate easily to cause the blockage of the blast gate, the air-drying efficiency is also reduced along with the blockage of the blast gate, the blocked blast gate is very troublesome, the vibration fluidized bed needs to be disassembled, meanwhile, the vibration plate is driven to work through the vibration motor when working, the vibration motor is fixed through the bolt, the bolt for fixing the vibration motor can loose to cause potential safety hazards, and the bolt also needs to be calibrated regularly, so that the vibration motor can generate some vibration when working.

Disclosure of Invention

The utility model aims to provide a vibrating fluidization air drying production line, which is used for solving the problems that when an object to be air-dried is air-dried, an air blowing port is formed in the surface of a vibrating plate, when the vibrating plate vibrates the air-dried object, the air-dried object can be vibrated to remove some scraps, when the vibrating plate vibrates, the scraps easily vibrate into the air blowing port to cause blocking of the air blowing port, the air drying efficiency is reduced along with blocking of the air blowing port, the blocked air blowing port is very troublesome, a vibrating fluidized bed needs to be disassembled, meanwhile, when the vibrating plate works, the vibrating plate is driven to work through a vibrating motor, the vibrating motor is fixed through a bolt, and when the vibrating plate works for a long time, the bolt used for fixing the vibrating motor is loosened, so that potential safety hazards are caused, the bolt needs to be regularly calibrated, and the problem that some vibration is generated when the vibrating motor works is very troublesome.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the vibrating fluidization air drying production line comprises a vibrating fluidized bed shell, wherein a moving mechanism is arranged at the top of the fluidized bed shell;

the moving mechanism comprises a first motor, a bevel gear set, a disc, a cylinder, an annular groove, a connecting block, a sliding column and a connecting plate;

the utility model discloses a vibrating fluidized bed, including vibrating fluidized bed shell, including the motor cabinet, the output shaft of first motor, round pin axle, cylinder, ring channel, connecting block, slide column, slide rail, connecting plate, the output shaft of first motor passes through the motor cabinet rigid coupling at vibrating fluidized bed shell's surface, the output shaft of first motor passes through bevel gear group and is connected with the round pin axle rotation, the round pin axle passes through the upstand and is connected with vibrating fluidized bed shell rotation, the outer wall rigid coupling of round pin axle has the disc, the surface rigid coupling of disc has the cylinder, cylinder and ring channel sliding connection, the tip rigid coupling of ring channel has the connecting block, connecting block and vibrating fluidized bed shell sliding connection, the outer wall rigid coupling of connecting block has the slide column, slide rail is seted up in vibrating fluidized bed shell's inside, the tip rigid coupling of connecting block has the connecting plate.

Preferably, the surface rigid coupling of connecting plate has the blowing pipe, the shower nozzle has been seted up on the surface of blowing pipe, the tip rigid coupling of blowing pipe is in the inside of box, the hot plate of fan is installed respectively to the inside of box.

Preferably, both ends of the vibrating fluidized bed shell are respectively provided with a feed inlet and an air outlet.

Preferably, the vibrating fluidized bed shell is in sliding connection with the cart.

Preferably, a vibration mechanism is arranged in the vibrating fluidized bed shell;

the vibration mechanism comprises a second motor, a connecting rod, a cam, a concave block, a vibration plate, a spring and a sliding block;

the second motor passes through the motor cabinet rigid coupling on the outer wall of vibrating fluid bed shell, the output shaft rigid coupling of second motor has the connecting rod, the both ends of connecting rod rotate with vibrating fluid bed shell and stand respectively and are connected, the stand rigid coupling is in vibrating fluid bed shell's inside, the outer wall rigid coupling of connecting rod has the cam, two the cam all laminates with concave piece mutually, two the tip of concave piece has the vibrations board all rigid coupling, the both ends of vibrations board all rigid coupling has the slider, two the slider all with spout sliding connection, two the inside at vibrating fluid bed shell is all seted up to the spout, the surface rigid coupling of vibrations board has the one end of spring.

Preferably, the other end of the spring is fixedly connected to the surface of the transverse plate, and the two transverse plates are fixedly connected to the inside of the vibrating fluidized bed shell.

Compared with the prior art, the utility model has the beneficial effects that: this production line is air-dried in vibration fluidization, through the cooperation between first motor, the bevel gear group, the disc, the cylinder, the ring channel, the connecting block, the traveller and the connecting plate, thereby first motor drive bevel gear group rotates and drives the round pin axle and rotate, thereby the round pin axle drives the disc and rotate, the cylinder drives the slip in the ring channel, the ring channel drives the connecting block and slides in the vibration fluidized bed shell, the connecting block drives the traveller and slides in the slide rail, the connecting block drives the connecting plate and removes, the connecting plate drives the blowing pipe and removes, the top with the blowing pipe setting at the vibrations board has been solved and the problem that can block up the blowing mouth.

Through the cooperation between second motor, connecting rod, cam, concave piece, vibrations board, spring, the slider, thereby the second motor drives the connecting rod and rotates and drive two cams and rotate, and two cams drive concave piece and remove, and concave piece drives the vibrations board and remove, and the vibrations board drives two sliders and slides in the spout, and the vibrations board drives two spring stretching, has realized driving the vibrations board through vibration motor and has rotated, has solved the problem that can cause the potential safety hazard and regularly go tight bolt of school.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the external structure of FIG. 1;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1A;

FIG. 4 is an enlarged schematic view of the structure of FIG. 1 at B;

fig. 5 is an enlarged schematic view of the structure at C in fig. 1.

In the figure: 1. the vibrating fluidized bed comprises a vibrating fluidized bed shell, 2, a moving mechanism, 201, a first motor, 202, a bevel gear set, 203, a disc, 204, a cylinder, 205, an annular groove, 206, a connecting block, 207, a sliding column, 208, a connecting plate, 3, a box, 4, a fan, 5, a blowing pipe, 6, a heating plate, 7, a feed inlet, 8, a vibrating mechanism, 801, a second motor, 802, a connecting rod, 803, a cam, 804, a concave block, 805, a vibrating plate, 806, a spring, 807, a sliding block, 8a1, a pin roll, 8a2, a roller, 9, a cart, 10, a column, 11, a transverse plate, 12 and an air outlet.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1:

referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides a vibration fluidization air-drying production line, including vibration fluidized bed shell 1, the top of fluidized bed shell 1 is equipped with shifter 2, shifter 2 includes first motor 201, bevel gear group 202, disc 203, cylinder 204, ring channel 205, connecting block 206, slide column 207 and connecting plate 208, first motor 201 model is selected according to actual demand, can be satisfied the work, first motor 201 passes through the motor cabinet rigid coupling at vibration fluidized bed shell 1's surface, first motor 201's output shaft passes through bevel gear group 202 and round pin axle swivelling joint, first motor 201 drives bevel gear group 202 and rotates thereby drives the round pin axle and rotate, bevel gear group 202 comprises two bevel gears meshing, one bevel gear and the output shaft fixed connection of first motor 201, another bevel gear and round pin axle fixed connection, the round pin axle passes through the upstand and is connected with vibration fluidized bed shell 1 swivelling joint, the outer wall rigid coupling of round pin axle has disc 203, the surface of the disc 203 is fixedly connected with a cylinder 204, a pin shaft drives the disc 203 to rotate so as to drive the cylinder 204 to rotate, the cylinder 204 is in sliding connection with an annular groove 205, the cylinder 204 drives the annular groove 205 to slide, the end part of the annular groove 205 is fixedly connected with a connecting block 206, the connecting block 206 is in sliding connection with the vibrating fluidized bed shell 1, the annular groove 205 drives the connecting block 206 to slide in the vibrating fluidized bed shell 1, the outer wall of the connecting block 206 is fixedly connected with a slide column 207, the connecting block 206 drives the slide column 207 to slide in a slide rail, the slide rail is arranged in the vibrating fluidized bed shell 1, the end part of the connecting block 206 is fixedly connected with a connecting plate 208, the connecting block 206 drives the connecting plate 208 to move, the surface of the connecting plate 208 is fixedly connected with a blowing pipe 5, the connecting plate 208 drives the blowing pipe 5 to move, the blowing pipe 5 is a hose, when the bottom of the disc 203 in the cylinder 204 rotates to the top, the blowing pipe 5 moves to the right end of the inside of the vibrating fluidized bed shell 1, a spray head is arranged on the surface of the blowing pipe 5, the end part of the blowing pipe 5 is fixedly connected in the box body 3, the heating plates 6 of the fans 4 are respectively arranged in the box body 3, the fans 4 suck external air into the box body 3, the air is sprayed out from the spray head of the blowing pipe 5 through the heating plates 6, and the two ends of the vibrating fluidized bed shell 1 are respectively provided with a feed inlet 7 and an air outlet 12;

through the cooperation between first motor 201, bevel gear group 202, disc 203, cylinder 204, ring channel 205, connecting block 206, slide column 207 and connecting plate 208, thereby first motor 201 drives bevel gear group 202 rotation and drives the round pin axle rotation, thereby the round pin axle drives disc 203 rotation and drives cylinder 204 rotation, cylinder 204 drives the slip in ring channel 205, ring channel 205 drives connecting block 206 and slides in vibrating fluidized bed shell 1, connecting block 206 drives slide column 207 and slides in the slide rail, connecting block 206 drives connecting plate 208 and removes, connecting plate 208 drives blowing pipe 5 and removes, realize setting up the blowing pipe in the top of vibrations board, the problem that can block up the blowing mouth has been solved.

Referring to fig. 1 and 5, a vibrating fluidized bed housing 1 is slidably connected with a cart 9, a vibrating mechanism 8 is arranged in the vibrating fluidized bed housing 1, the vibrating mechanism 8 comprises a second motor 801, a connecting rod 802, a cam 803, a concave block 804, a vibrating plate 805, a spring 806 and a sliding block 807, the model of the second motor 801 is selected according to practical requirements, the second motor 801 is fixedly connected on the outer wall of the vibrating fluidized bed housing 1 through a motor base, the connecting rod 802 is fixedly connected with an output shaft of the second motor 801, two ends of the connecting rod 802 are respectively and rotatably connected with the vibrating fluidized bed housing 1 and an upright post 10, the upright post 10 is fixedly connected in the vibrating fluidized bed housing 1, the outer wall of the connecting rod 802 is fixedly connected with the cam 803, the second motor 801 drives the connecting rod 803 to rotate so as to drive the two cams 803 to rotate, the two cams 803 are respectively attached to the concave block 804, the two cams 803 drive the concave blocks 804 to move, the end parts of the two concave blocks 804 are fixedly connected with the vibrating plate 805, the concave blocks 804 drive the vibrating plate 805 to move, the two ends of the vibrating plate 805 are fixedly connected with the sliding blocks 807, the two sliding blocks 807 are in sliding connection with the sliding grooves, the vibrating plate 805 drive the two sliding blocks 807 to slide in the sliding grooves, the two sliding grooves are formed in the vibrating fluidized bed shell 1, one end of a spring 806 is fixedly connected to the surface of the vibrating plate 805, the other end of the spring 806 is fixedly connected to the surface of the transverse plate 11, the vibrating plate 805 drives the two springs 806 to stretch, when the upper end of the cam 803 rotates to the lower end, the vibrating plate 805 rises, the spring 806 stretches, when the lower end of the cam 803 rotates to the upper end, the springs 806 shrink to drive the vibrating plate 805 to return to an initial position, and the two transverse plates 11 are fixedly connected in the vibrating fluidized bed shell 1;

through the cooperation between second motor 801, connecting rod 802, cam 803, concave block 804, vibrations board 805, spring 806, slider 807, thereby second motor 801 drives connecting rod 802 rotation and drives two cams 803 rotation, two cams 803 drive concave block 804 and remove, concave block 804 drives vibrations board 805 and removes, vibrations board 805 drives two sliders 807 and slides in the spout, vibrations board 805 drives two springs 806 and stretches, realized not driving vibrations board rotation through vibrations motor, solved can cause the potential safety hazard and regularly remove the problem of tight bolt of school.

Working principle:

firstly, a vibrating plate 805 is vibrated, a second motor 801 is connected with an external power supply, the second motor 801 drives a connecting rod 802 to rotate so as to drive two cams 803 to rotate, the two cams 803 drive a concave block 804 to move, the concave block 804 drives a vibrating plate 805 to move, the vibrating plate 805 drives two sliding blocks 807 to slide in a chute, the vibrating plate 805 drives two springs 806 to stretch, when the upper end of the cam 803 is rotated to the lower end, the vibrating plate 805 rises, the springs 806 are stretched, when the lower end of the cam 803 is rotated to the upper end, the springs 806 shrink so as to drive the vibrating plate 805 to return to an initial position, then hot air is arranged in a vibrating fluidized bed shell 1, a fan 4 is started, the fan 4 sucks external air into a box body 3, the air is sprayed out from a spray head of a blowing pipe 5 through a heating plate 6, the first motor 201 is connected with the external power supply, the first motor 201 drives a bevel gear set 202 to rotate so as to drive a pin shaft to rotate, the pin shaft drives the disc 203 to rotate so as to drive the cylinder 204 to rotate, the cylinder 204 drives the annular groove 205 to slide, the annular groove 205 drives the connecting block 206 to slide in the vibrating fluidized bed shell 1, the connecting block 206 drives the sliding column 207 to slide in the sliding rail, the connecting block 206 drives the connecting plate 208 to move, the connecting plate 208 drives the blowing pipe 5 to move, the blowing pipe 5 is a hose, when the top of the disc 203 in the cylinder 204 rotates to the bottom, the blowing pipe 5 moves to the left end in the vibrating fluidized bed shell 1, when the bottom of the disc 203 in the cylinder 204 rotates to the top, the blowing pipe 5 moves to the right end in the vibrating fluidized bed shell 1, air-dried objects to be air-dried fall into the vibrating plate 805 from the feed inlet 7, through holes are formed on the surface of the vibrating plate 805, the air-dried objects to be air-dried slowly vibrate to the right end through holes of the vibrating plate 805 at the left end of the vibrating plate 805, finally, the air-dried object to be air-dried falls into the cart 9, the air blowing pipe 5 evaporates the water on the surface of the air-dried object to be air-dried, the water vapor in the vibrating fluidized bed shell 1 passes through the filter screen from the air outlet 12 to the outside, the filter screen is an activated carbon filter screen, the activated carbon has good adsorptivity until the air-dried object to be air-dried is completely air-dried, the first motor 201 and the second motor 801 are stopped, the cart 9 is pulled out, and the next use is waited.

Example 2:

referring to fig. 1 and 5, the present utility model provides a technical solution: the vibration mechanism 8 further comprises a pin shaft 8a1 and a roller 8a2, the pin shaft 8a1 rotates with the concave block 804, the roller 8a2 is fixedly connected to the outer wall of the pin shaft 8a1, the roller 8a2 is attached to the cam 803, the cam 803 drives the roller 8a2 to rotate, the roller 8a2 drives the pin shaft 8a1 to rotate, the pin shaft 8a1 drives the concave block 804 to move, and further when the vibration plate 805 vibrates, sliding friction between the concave block 804 and the cam 803 is changed into rolling friction, friction force is reduced, and the concave block 804 is prevented from being ground short for a long time.

Working principle:

the cam 803 drives the roller 8a2 to rotate, the roller 8a2 drives the pin shaft 8a1 to rotate, and the pin shaft 8a1 drives the concave block 804 to move, so that when the vibration plate 805 vibrates, sliding friction between the concave block 804 and the cam 803 is changed into rolling friction, friction force is reduced, and the concave block 804 is prevented from being ground to be short for a long time.

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

Claims (6)

1. The utility model provides a vibration fluidization air-dries production line, includes vibration fluidized bed shell (1), its characterized in that: the top of the fluidized bed shell (1) is provided with a moving mechanism (2);

the moving mechanism (2) comprises a first motor (201), a bevel gear set (202), a disc (203), a cylinder (204), an annular groove (205), a connecting block (206), a sliding column (207) and a connecting plate (208);

the utility model discloses a vibrating fluidized bed shell, including vibrating fluidized bed shell (1), including first motor (201), taper gear group (202) and round pin axle, taper gear group (207) and round pin axle, round pin axle and round pin axle are connected through upright post and vibrating fluidized bed shell (1) rotation, the outer wall rigid coupling of round pin axle has disc (203), the surface rigid coupling of disc (203) has cylinder (204), cylinder (204) and ring channel (205) sliding connection, the tip rigid coupling of ring channel (205) has connecting block (206), connecting block (206) and vibrating fluidized bed shell (1) sliding connection, the outer wall rigid coupling of connecting block (206) has slide column (207), slide column (207) and slide rail sliding connection, the inside at vibrating fluidized bed shell (1) is seted up to the slide rail, the tip rigid coupling of connecting block (206) has connecting plate (208).

2. A vibratory fluidization air drying production line as set forth in claim 1 wherein: the surface rigid coupling of connecting plate (208) has blowpipe (5), the shower nozzle has been seted up on the surface of blowpipe (5), the tip rigid coupling of blowpipe (5) is in the inside of box (3), hot plate (6) of fan (4) are installed respectively to the inside of box (3).

3. A vibratory fluidization air drying production line as set forth in claim 1 wherein: two ends of the vibrating fluidized bed shell (1) are respectively provided with a feed inlet (7) and an air outlet (12).

4. A vibratory fluidization air drying production line as set forth in claim 1 wherein: the vibrating fluidized bed shell (1) is in sliding connection with the trolley (9).

5. A vibratory fluidization air drying production line as set forth in claim 1 wherein: a vibration mechanism (8) is arranged in the vibrating fluidized bed shell (1);

the vibration mechanism (8) comprises a second motor (801), a connecting rod (802), a cam (803), a concave block (804), a vibration plate (805), a spring (806) and a sliding block (807);

the utility model discloses a vibrating fluidized bed shell, including vibrating fluidized bed shell (1), motor cabinet, connecting rod (802) are located on the outer wall of vibrating fluidized bed shell (1) through motor cabinet rigid coupling, the output shaft rigid coupling of second motor (801), the both ends of connecting rod (802) are connected with vibrating fluidized bed shell (1) and stand (10) rotation respectively, stand (10) rigid coupling is in the inside of vibrating fluidized bed shell (1), the outer wall rigid coupling of connecting rod (802) has cam (803), two cam (803) all laminate with concave piece (804), two the tip of concave piece (804) all rigid coupling has vibrations board (805), the both ends of vibrations board (805) all rigid coupling have slider (807), two slider (807) all with spout sliding connection, two the inside at vibrating fluidized bed shell (1) is all seted up to the spout, the surface rigid coupling of vibrations board (805) has one end of spring (806).

6. A vibratory fluidization air drying production line as set forth in claim 5 wherein: the other end of the spring (806) is fixedly connected to the surface of the transverse plate (11), and the two transverse plates (11) are fixedly connected to the inside of the vibrating fluidized bed shell (1).

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