CN218511379U - Efficient drying machine - Google Patents

Abstract

The utility model discloses a high-efficiency dryer, which comprises a charging barrel, wherein the charging barrel is communicated with a material conveying frame, a material conveying rod is connected in the material conveying frame in a rotating manner, a heating wire a is installed outside the material conveying frame, the material conveying rod is fixedly connected with a stirring shaft, the stirring shaft is provided with a stirring rod, the stirring rod is fixedly connected with a scraping plate, the scraping plate is connected with a dryer in a sliding manner, the dryer is wound and connected with a heating wire b, the dryer is rotatably connected with a bottom frame, the dryer is communicated with a discharging pipe, the discharging pipe is positioned above a telescopic pipe, the telescopic pipe is communicated with a cooling frame, a conveying belt is arranged in the cooling frame, and the conveying belt is connected with a cooling pipe in a sliding manner; the material is primarily heated by the material conveying frame and then conveyed into the drier for stirring and drying, and the drying effect is good; the components in the cooling rack are matched, so that the dried material can be automatically moved out of the dryer for cooling, and the use is convenient.

Description

Efficient drying machine

Technical Field

The utility model relates to a high efficiency drying machine specifically is a high efficiency drying machine belongs to desiccator technical field.

Background

The dryer is a mechanical device for reducing moisture of materials by using heat energy, and is used for drying objects. The dryer vaporizes moisture (typically moisture or other volatile liquid components) in the material by heating to escape to obtain a solid material of a specified moisture content. The purpose of drying is for material use or further processing requirements. The drying machine is classified into an atmospheric drying machine and a vacuum drying machine according to the operation pressure, and classified into an atmospheric drying machine and a vacuum drying machine (the vacuum drying machine is also called as a vacuum drying machine) according to the operation pressure, and the medical intermediate ALPHA- (di-n-butylamine methyl) -2,7-dichlorofluorene-4-methanol is dried by the drying machine.

The prior art dryers have the following disadvantages: 1. the existing dryer has poor drying effect, long drying time and incomplete drying of partial dried materials; 2. the material in the desiccator needs the manual material of people to shift out after dry and cools off, uses inconveniently, consequently, improves to above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and provide a high-efficiency dryer, the materials are primarily heated by a material conveying frame and then conveyed into the dryer for stirring and drying, and the drying effect is good; the components in the cooling rack are matched, so that the dried material can be automatically moved out of the dryer for cooling, and the use is convenient.

The utility model discloses a following technical scheme realizes above-mentioned purpose, a high efficiency drying machine, including the feed cylinder, feed cylinder and defeated material frame intercommunication, defeated material frame internal rotation is connected with defeated material pole, heater strip a is installed in the defeated material frame outside, defeated material pole fixedly connected with (mixing) shaft, the puddler is installed to the (mixing) shaft, puddler fixedly connected with scraper blade, scraper blade sliding connection has the desiccator, the desiccator winding is connected with heater strip b, the desiccator rotates and is connected with the chassis, desiccator and discharging pipe intercommunication, the discharging pipe is located the top of flexible pipe, flexible pipe and cooling frame intercommunication, be equipped with the conveyer belt in the cooling frame, conveyer belt sliding connection has the cooling tube.

Preferably, a motor b is installed on the left side of the bottom frame, and the output end of the motor b is fixedly connected with a material conveying rod.

Preferably, the material conveying frame is rotatably connected with a dryer, and the right end of the stirring shaft is rotatably connected with the dryer.

Preferably, a motor a is installed on the right side of the bottom frame, the output end of the motor a is fixedly connected with a rotating shaft, and the rotating shaft is fixedly connected with a drying machine.

Preferably, the top end of the telescopic pipe is fixedly connected with a top plate, and hydraulic cylinders are installed on two sides of the top plate.

Preferably, the hydraulic cylinder is installed on the surface of the cooling frame, and the cooling pipe is in threaded connection with a water pump.

Preferably, the water pump is positioned in front of the water tank, and the cooling pipe is installed inside the cooling rack.

Preferably, a scraping frame is installed in the cooling frame, the scraping frame is located above the conveying belt, and cooling fins are installed on two sides of the cooling frame.

The beneficial effects of the utility model are that:

1. the material is primarily heated by the material conveying frame and then conveyed into the drier for stirring and drying, and the drying effect is good; the method comprises the following steps of pouring a medical intermediate ALPHA- (di-n-butylamine methyl) -2,7-dichlorofluorene-4-methanol into a material barrel, fixing the material barrel above a material conveying frame, enabling the material to continuously move downwards, simultaneously enabling a motor b on a bottom frame to rotate, enabling the motor b to rotate to drive a connected material conveying rod to rotate clockwise, enabling the material conveying rod to rotate to drive the material in the material barrel to continuously move rightwards, enabling a heating wire a to be wound and connected to the right side of the material conveying frame, enabling the heating wire a to continuously generate heat after being electrified, enabling the generated heat to be transferred to the material conveying frame to heat the material in the right side of the material conveying frame, enabling the material in the material conveying frame to be heated primarily, enabling the right side of the material conveying rod to be connected with a stirring shaft, enabling the right side of the stirring shaft to be connected with a dryer in a rotating mode, enabling the stirring shaft to rotate to drive a plurality of stirring rods connected to rotate to stir the material entering the dryer, the puddler outside is fixed with the scraper blade, the puddler rotates and to drive the scraper blade and scrape the desiccator inner wall and get, can avoid the material adhesion on the desiccator surface, the desiccator outside winding is connected with heater strip b, heater strip b produces the heat after the circular telegram, can heat the material in the desiccator, the material after preheating can absorb behind the heat that heater strip b produced fast and heat up, the motor a of chassis right side installation starts simultaneously, motor a rotates the pivot that drives the connection and rotates, the pivot rotates the desiccator anticlockwise rotation who drives the connection, the puddler can stir the material on the (mixing) shaft of reverse rotation when the rotatory desiccator can last the upset aversion to the bottom material, can make material fully movable dry, whole drying effect is good.

2. The components in the cooling rack are matched, so that the dried material can be automatically moved out of the dryer for cooling, and the use is convenient; after the materials in the dryer are dried, a motor a rotates to drive the dryer connected with a rotating shaft to rotate and recover to the original position, a discharging pipe on the dryer is vertically downward, hydraulic cylinders arranged on two sides of the top end of a cooling frame extend, the hydraulic cylinders extend to drive a connected top plate to move upwards, the top plate moves upwards to drive a connected telescopic pipe to extend, the top plate moves upwards continuously until the bottom end of the discharging pipe is inserted into the telescopic pipe, a valve on the discharging pipe is opened, the dried materials in the dryer continuously move downwards through the discharging pipe and enter the telescopic pipe, the telescopic pipe is connected with the cooling frame, the materials in the telescopic pipe are continuously conveyed to the surface of a conveying belt arranged in the cooling frame, the motor drives the conveying belt to rotate backwards and can drive the materials on the conveying belt to move backwards, a scraping frame is fixed in the cooling frame and has a certain distance from the surface of the conveying belt, and when the conveying belt drives the materials to move backwards to the scraping frame, the scraping frame can scrape the materials on the conveying belt, the material scraping device is backwards moved with a certain thickness, redundant materials are accumulated in front of the scraping frame, the conveyor belt drives the materials with uniform thickness to continuously backwards move, a cooling pipe is arranged in the cooling frame, the cooling pipe is in a serpentine structure and is positioned at the inner side of the conveyor belt and is attached to the surface of the conveyor belt, a water pump is started to continuously extract water in a water tank and convey the water into the cooling pipe, the water can continuously absorb heat of the materials on the conveyor belt in the flowing process in the cooling pipe, the temperature of the materials is reduced after the heat is released, the water in the cooling pipe continuously moves and conveys the water into a water return tank after absorbing the heat, meanwhile, radiating fins are arranged at two sides of the cooling frame, the radiating fins can continuously absorb the heat transferred to the cooling frame and then contact with air to radiate the heat, the whole radiating and cooling effect is good, the cooled materials can be collected at the rear of the cooling frame, after the materials in the drying machine are moved out, a hydraulic cylinder is shortened to drive a telescopic pipe connected with a top plate to be separated from a discharging pipe, the valve is closed on the discharging pipe and can be dried to the material once more, and accessible cooling rack and the flexible pipe cooperation of telescopic are automatic to be shifted out the material after drying in the desiccator and cool off convenient to use.

Drawings

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

FIG. 2 is a schematic view of a partial cross-sectional structure of the cooling rack of the present invention;

fig. 3 is a schematic view of a partial sectional structure of a top view of the cooling rack of the present invention.

In the figure: 1. a charging barrel; 2. a material conveying rod; 3. a heating wire a; 4. a material conveying frame; 5. a dryer; 6. heating wires b; 7. a squeegee; 8. a stirring rod; 9. a stirring shaft; 10. a rotating shaft; 11. a motor a; 12. a discharge pipe; 13. a chassis; 14. a hydraulic cylinder; 15. a water tank; 16. a water pump; 17. a cooling tube; 18. a cooling rack; 19. a telescopic pipe; 20. a top plate; 21. a motor b; 22. a scraping frame; 23. a heat sink; 24. and (4) a conveyor belt.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1: referring to fig. 1-3, a high efficiency dryer comprises a charging barrel 1, the charging barrel 1 is communicated with a material conveying frame 4, ALPHA- (di-n-butylamine methyl) -2,7-dichlorofluorene-4-methanol can be conveyed into the material conveying frame 4 through the charging barrel 1, a material conveying rod 2 is connected in the material conveying frame 4 in a rotating mode, the material conveying rod 2 rotates to drive ALPHA- (di-n-butylamine methyl) -2,7-dichlorofluorene-4-methanol to move right into a dryer 5, a heating wire a3 is installed on the outer side of the material conveying frame 4, the heating wire a3 is located in a heat insulation sleeve a, the heat insulation sleeve a is fixed on the outer side of the material conveying frame 4, a stirring shaft 9 is fixedly connected with the material conveying rod 2, the material conveying rod 2 rotates to drive a stirring shaft 9 connected with the material conveying frame to rotate, the stirring shaft 9 is provided with a stirring rod 8, the stirring shaft 9 rotates to drive a scraper 7 connected with the stirring rod 8 to rotate, the stirring rod 8 is fixedly connected with a scraping plate 7, the scraping plate 7 is connected with a drying machine 5 in a sliding manner, the scraping plate 7 can scrape the surface of the drying machine 5, the drying machine 5 is connected with a heating wire b6 in a winding manner, the heating wire b6 is positioned in a heat-insulating sleeve b, the heat-insulating sleeve b is wrapped on the outer side of the drying machine 5, the drying machine 5 is rotatably connected with a bottom frame 13, the drying machine 5 can rotate on the bottom frame 13, the drying machine 5 is communicated with a discharge pipe 12, ALPHA- (di-n-butylamine methyl) -2,7-dichlorofluorene-4-methanol in the drying machine 5 is dried and then is moved out through the discharge pipe 12, the discharge pipe 12 is provided with a valve which can control the discharge condition, the discharge pipe 12 is positioned above a telescopic pipe 19, the discharge pipe 12 and the telescopic pipe 19 are positioned corresponding to the telescopic pipe, the bottom end of the discharge pipe 12 can be inserted into the telescopic pipe 19 by moving up, the telescopic pipe 19 is communicated with the cooling rack 18, materials in the telescopic pipe 19 are conveyed into the cooling rack 18, a conveying belt 24 is arranged in the cooling rack 18, the conveying belt 24 in the cooling rack 18 rotates to drive the materials to move backwards, and the conveying belt 24 is connected with the cooling pipe 17 in a sliding mode. The cooling pipe 17 is attached to the inner surface of the conveyor belt 24.

Specifically, motor b21 is installed on chassis 13 left side, and chassis 13 can provide mounting platform for motor b21, motor b 21's output fixedly connected with defeated material pole 2, motor b21 rotates and can drive defeated material pole 2 of connection and rotate.

Particularly, defeated work or material rest 4 rotates and is connected with desiccator 5, and desiccator 5 rotates the left end and can rotate at defeated work or material rest 4 right-hand members, 9 right-hand members of (mixing) shaft rotate and are connected with desiccator 5, and the revolving rack is installed on the right side in the desiccator 5, and 9 right-hand members of (mixing) shaft can revolve the revolving rack and rotate.

Specifically, a top plate 20 is fixedly connected to the top end of the telescopic pipe 19, the telescopic pipe 19 can extend and retract along with the up-and-down movement of the top plate 20, hydraulic cylinders 14 are mounted on two sides of the top plate 20, and the hydraulic cylinders 14 extend and retract to drive the connected top plate 20 to move up and down.

Specifically, the hydraulic cylinder 14 is installed on the surface of a cooling frame 18, the cooling frame 18 can provide a mounting platform for the hydraulic cylinder 14, the cooling pipe 17 is connected with a water pump 16 in a threaded manner, and the water pump 16 continuously pumps water to be conveyed into the cooling pipe 17.

Specifically, the water pump 16 is located in front of the water tank 15, the water pump 16 can continuously pump water in the water tank 15, the cooling pipe 17 is installed inside the cooling rack 18, and the cooling pipe 17 is fixed inside the cooling rack 18 in a serpentine shape.

Specifically, the cooling frame 18 is internally provided with the scraping frame 22, the cooling frame 18 can fix the position of the scraping frame 22, a certain distance is reserved between the scraping frame 22 and the conveyor belt 24, the scraping frame 22 is positioned above the conveyor belt 24, the cooling fins 23 are arranged on two sides of the cooling frame 18, and the cooling fins 23 can play a role in heat dissipation.

Example 2: referring to fig. 1, the difference between the present embodiment and embodiment 1 is: motor a11 is installed on 13 right sides of chassis, and chassis 13 can provide mounting platform for motor a11, motor a 11's output fixedly connected with pivot 10, motor a11 rotate and drive the pivot 10 of connecting and rotate, pivot 10 fixedly connected with desiccator 5, pivot 10 rotate and drive the desiccator 5 of connecting and rotate.

When the utility model is used, the medicine intermediate ALPHA- (di-n-butylamine methyl) -2,7-dichlorofluorene-4-methanol is poured into the material cylinder 1, the material cylinder 1 is fixed above the material conveying frame 4, the material continuously moves downwards, meanwhile, the motor b21 on the bottom frame 13 rotates, the motor b21 rotates to drive the connected material conveying rod 2 to rotate clockwise, the material conveying rod 2 rotates to drive the material in the material cylinder 1 to continuously move to the right, the right side of the material conveying frame 4 is wound and connected with the heating wire a3, the heating wire a3 can continuously generate heat after being electrified, the generated heat is transferred to the material conveying frame 4 to heat the material in the right side of the material conveying frame 4, the material in the material conveying frame 4 can be preliminarily heated, the right side of the material conveying rod 2 is connected with the stirring shaft 9, and the right side of the stirring shaft 9 is rotatably connected with the dryer 5, namely, the material conveying rod 2 can drive the stirring shaft 9 to synchronously rotate when rotating, the stirring shaft 9 can drive the connected stirring rods 8 to rotate to stir materials entering the dryer 5, the scraper 7 is fixed on the outer side of the stirring rod 8, the stirring rod 8 can drive the scraper 7 to scrape the inner wall of the dryer 5 to prevent the materials from being adhered to the surface of the dryer 5, the heating wire b6 is wound and connected on the outer side of the dryer 5, the heating wire b6 generates heat after being electrified to heat the materials in the dryer 5, the preheated materials can quickly absorb the heat generated by the heating wire b6 and then are heated, meanwhile, the motor a11 arranged on the right side of the bottom frame 13 is started, the motor a11 rotates to drive the connected rotating shaft 10 to rotate, the rotating shaft 10 rotates to drive the connected dryer 5 to rotate anticlockwise, the continuously rotating dryer 5 can continuously overturn and shift the bottom materials, meanwhile, the stirring rods 8 on the reversely rotating stirring shaft 9 can stir the materials, and the materials can be fully moved to be dried, after the materials in the dryer 5 are dried, the motor a11 rotates to drive the dryer 5 connected with the rotating shaft 10 to rotate and restore to the original position, at the moment, a discharge pipe 12 on the dryer 5 vertically faces downwards, hydraulic cylinders 14 arranged on two sides of the top end of a cooling frame 18 extend, the hydraulic cylinders 14 extend to drive a connected top plate 20 to move upwards, the top plate 20 moves upwards to drive a connected telescopic pipe 19 to extend, the top plate 20 continuously moves upwards until the bottom end of the discharge pipe 12 is inserted into the telescopic pipe 19, a valve on the discharge pipe 12 is opened, the dried materials in the dryer 5 continuously move downwards through the discharge pipe 12 to enter the telescopic pipe 19, the telescopic pipe 19 is connected with the cooling frame 18, the materials in the telescopic pipe 19 are continuously conveyed to the surface of a conveyor belt 24 arranged in the cooling frame 18, the motor drives the conveyor belt 24 to rotate and move backwards to drive the materials on the conveyor belt 24 to move backwards, a scraping frame 22 is fixed in the cooling frame 18, and the scraping frame 22 is at a certain distance from the surface of the conveyor belt 24, when the conveyor belt 24 drives the materials to continuously move backwards to the scraping frame 22, the scraping frame 22 can scrape the materials on the conveyor belt 24 to enable the materials to move backwards with a certain thickness, redundant materials are accumulated in front of the scraping frame 22, the conveyor belt 24 drives the materials with uniform thickness to continuously move backwards, the cooling frame 18 is internally provided with the cooling pipe 17, the cooling pipe 17 is in a snake-shaped structure and is positioned at the inner side of the conveyor belt 24 to be attached to the surface of the conveyor belt 24, the water pump 16 starts the water in the sustainable extraction water tank 15 to be conveyed into the cooling pipe 17, the water can sustainably absorb the heat of the materials on the conveyor belt 24 in the flowing process of the cooling pipe 17, the temperature of the materials is reduced after heat release, the water in the cooling pipe 17 continuously moves to be conveyed back into the water tank 15 after absorbing heat, meanwhile, the radiating fins 23 are arranged at two sides of the cooling frame 18, the radiating fins 23 can sustainably absorb the heat transferred to the cooling frame 18 and then contact with air to radiate the heat, and the whole radiating and cooling effect is good, the cooled materials can be collected behind the cooling frame 18, after the materials in the dryer 5 are moved out, the hydraulic cylinder 14 shortens the telescopic pipe 19 which can drive the top plate 20 to be connected and separated from the discharge pipe 12, and the valve on the discharge pipe 12 is closed, so that the materials can be dried again.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A high-efficiency dryer comprises a charging barrel (1), and is characterized in that: the material conveying device is characterized in that the material conveying barrel (1) is communicated with the material conveying frame (4), a material conveying rod (2) is connected to the material conveying frame (4) in a rotating mode, a heating wire a (3) is installed on the outer side of the material conveying frame (4), a stirring shaft (9) is fixedly connected with the material conveying rod (2), a stirring rod (8) is installed on the stirring shaft (9), a stirring rod (8) is fixedly connected with a scraping plate (7), the scraping plate (7) is connected with a drying machine (5) in a sliding mode, the drying machine (5) is connected with a heating wire b (6) in a winding mode, the drying machine (5) is connected with a bottom frame (13) in a rotating mode, the drying machine (5) is communicated with a discharging pipe (12), the discharging pipe (12) is located above a telescopic pipe (19), the telescopic pipe (19) is communicated with a cooling frame (18), a conveying belt (24) is arranged in the cooling frame (18), and the conveying belt (24) is connected with a cooling pipe (17) in a sliding mode.

2. A high efficiency dryer as claimed in claim 1, wherein: the left side of the bottom frame (13) is provided with a motor b (21), and the output end of the motor b (21) is fixedly connected with a material conveying rod (2).

3. A high efficiency dryer as claimed in claim 1, wherein: the material conveying frame (4) is rotatably connected with a dryer (5), and the right end of the stirring shaft (9) is rotatably connected with the dryer (5).

4. A high efficiency dryer as claimed in claim 1, wherein: motor a (11) are installed on chassis (13) right side, the output fixedly connected with pivot (10) of motor a (11), pivot (10) fixedly connected with desiccator (5).

5. A high efficiency dryer as claimed in claim 1, wherein: the top end of the telescopic pipe (19) is fixedly connected with a top plate (20), and hydraulic cylinders (14) are installed on two sides of the top plate (20).

6. A high efficiency dryer as claimed in claim 5, wherein: the hydraulic cylinder (14) is installed on the surface of the cooling frame (18), and the cooling pipe (17) is in threaded connection with a water pump (16).

7. A high efficiency dryer according to claim 6 wherein: the water pump (16) is positioned in front of the water tank (15), and the cooling pipe (17) is arranged inside the cooling rack (18).

8. A high efficiency dryer as claimed in claim 1, wherein: the cooling device is characterized in that a scraping frame (22) is installed in the cooling frame (18), the scraping frame (22) is located above the conveyor belt (24), and cooling fins (23) are installed on two sides of the cooling frame (18).

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