CN213984336U - A high-efficient drying device for preparation of fire-retardant nanometer zinc carbonate - Google Patents

Abstract

The utility model discloses a high-efficient drying device for preparation of fire-retardant nanometer zinc carbonate mainly includes first support column, second support column, rotates wheel, stoving section of thick bamboo, feed inlet, heating portion and rotation motor. The rotating wheels are arranged on the drying cylinder and are positioned at two ends of the drying cylinder. The rotating wheel is connected with the first supporting column and the second supporting column to form a gantry shape. The heating part is arranged in the drying cylinder, is positioned in the middle of the drying cylinder and is connected with two ends of the drying cylinder. The rotating motor is arranged on the first supporting column and is positioned at one end, close to the rotating wheel, of the bottom of the first supporting column. The rotating motor is connected with the rotating wheel in a transmission way. The feed inlet is arranged on the drying cylinder and is positioned at one end close to the first support column. The raw materials that get into a stoving section of thick bamboo through the feed inlet pass through a stoving section of thick bamboo rotatory, are heated by heating portion simultaneously and dry, can effectually submit the drying efficiency of powder.

Description

A high-efficient drying device for preparation of fire-retardant nanometer zinc carbonate

Technical Field

The utility model belongs to fire-retardant nanometer zinc carbonate preparation field, in particular to a high-efficient drying device that is used for fire-retardant nanometer zinc carbonate preparation to use.

Background

When the flame-retardant nano zinc carbonate is prepared, the drying efficiency and quality of the raw materials directly influence the quality of the finished product, and the drying device specially used for preparing the flame-retardant nano zinc carbonate can greatly improve the production and preparation efficiency of the flame-retardant nano zinc carbonate.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the high-efficiency drying device for preparing the flame-retardant nano zinc carbonate is provided, and the drying efficiency in the preparation process of the flame-retardant nano zinc carbonate can be effectively improved.

The technical scheme is as follows: a high-efficient drying device for preparation of fire-retardant nanometer zinc carbonate, includes first support column, second support column, rotates wheel, a stoving section of thick bamboo, feed inlet, heating portion and rotation motor.

Wherein, the rotating wheel is arranged on the drying cylinder and is positioned at two ends of the drying cylinder. The rotating wheel is connected with the first supporting column and the second supporting column to form a gantry shape. The heating part is arranged in the drying cylinder, is positioned in the middle of the drying cylinder and is connected with two ends of the drying cylinder. The rotating motor is arranged on the first supporting column and is positioned at one end, close to the rotating wheel, of the bottom of the first supporting column. The rotating motor is connected with the rotating wheel in a transmission way. The feed inlet is arranged on the drying cylinder and is positioned at one end close to the first support column.

The utility model discloses a high-efficient drying device for preparation of fire-retardant nanometer zinc carbonate mainly includes first support column, second support column, rotates wheel, stoving section of thick bamboo, feed inlet, heating portion and rotation motor. The rotating wheels are arranged on the drying cylinder and are positioned at two ends of the drying cylinder. The rotating wheel is connected with the first supporting column and the second supporting column to form a gantry shape. The heating part is arranged in the drying cylinder, is positioned in the middle of the drying cylinder and is connected with two ends of the drying cylinder. The rotating motor is arranged on the first supporting column and is positioned at one end, close to the rotating wheel, of the bottom of the first supporting column. The rotating motor is connected with the rotating wheel in a transmission way. The feed inlet is arranged on the drying cylinder and is positioned at one end close to the first support column. The raw materials that get into a stoving section of thick bamboo through the feed inlet pass through a stoving section of thick bamboo rotatory, are heated by heating portion simultaneously and dry, can effectually submit the drying efficiency of powder.

Furthermore, the efficient drying device for preparing the flame-retardant nano zinc carbonate further comprises a transmission. The derailleur is established on first support column, and one end is connected with the rotation motor, and the other end is connected with the rotation wheel. As the utility model discloses a preferred, change the output rotational speed who rotates the motor through the derailleur, improve rotation efficiency and practice thrift the energy consumption.

Furthermore, the efficient drying device for preparing the flame-retardant nano zinc carbonate further comprises a feeding hole sealing cover. The sealing cover of the feeding hole is arranged on the feeding hole and is covered with the feeding hole. The feed inlet sealing cover is hinged with the feed inlet. As the utility model discloses an it is preferred, the sealed lid of feed inlet can improve the sealing performance of a stoving section of thick bamboo, and articulated mode simultaneously, the lid that makes things convenient for the sealed lid of feed inlet that can be more closes.

Furthermore, the outer side wall of the drying cylinder is wrapped with a layer of thickened heat-insulating material shell. As a preferred, the thickening insulation material shell of a stoving section of thick bamboo can make better the maintaining of the temperature in a section of thick bamboo, reduces the loss of heat transfer.

Furthermore, the efficient drying device for preparing the flame-retardant nano zinc carbonate further comprises a discharge hole. The discharge port is arranged on the drying cylinder and is positioned at one end far away from the feed port. As a preferred, the discharge gate can make things convenient for the discharge of the material after drying.

Furthermore, the efficient drying device for preparing the flame-retardant nano zinc carbonate further comprises a discharging and extracting machine. The discharging and extracting machine is arranged on the discharging port and is positioned at one end far away from the drying cylinder. As the utility model discloses a preferably, arrange material extractor and adopt air compressor to make, can discharge the material that dries in the extraction together with the gaseous extraction in the section of thick bamboo of drying, improve exhaust efficiency.

The technical scheme shows that the invention has the following beneficial effects: the utility model discloses a high-efficient drying device for preparation of fire-retardant nanometer zinc carbonate mainly includes first support column, second support column, rotates wheel, stoving section of thick bamboo, feed inlet, heating portion and rotation motor. The rotating wheels are arranged on the drying cylinder and are positioned at two ends of the drying cylinder. The rotating wheel is connected with the first supporting column and the second supporting column to form a gantry shape. The heating part is arranged in the drying cylinder, is positioned in the middle of the drying cylinder and is connected with two ends of the drying cylinder. The rotating motor is arranged on the first supporting column and is positioned at one end, close to the rotating wheel, of the bottom of the first supporting column. The rotating motor is connected with the rotating wheel in a transmission way. The feed inlet is arranged on the drying cylinder and is positioned at one end close to the first support column. Raw materials entering a drying cylinder through a feeding port rotate through the drying cylinder, meanwhile, the raw materials are heated and dried by a heating part, the drying efficiency of powder can be effectively submitted, the output rotating speed of a rotating motor is changed through a speed changer, the rotating efficiency is improved, the energy consumption is saved, the sealing performance of the drying cylinder can be improved through a feeding port sealing cover, meanwhile, the hinged mode is adopted, the cover of the feeding port sealing cover can be more conveniently closed, the temperature in the cylinder can be better maintained through a thickening heat-insulating material shell of the drying cylinder, the loss of heat transfer is reduced, the discharging port can conveniently discharge materials after drying, a discharging machine is made by an air compressor, the gas in the drying cylinder can be extracted, in the extracting process, the dried materials can be discharged together, and the discharging efficiency is improved.

Drawings

FIG. 1 is a high-efficiency drying device for preparing flame-retardant nano zinc carbonate, which is described in embodiment 1 of the present invention;

fig. 2 is a high-efficient drying device for preparing flame-retardant nano zinc carbonate in embodiment 2 of the present invention.

In the figure: the drying device comprises a first support column 1, a second support column 11, a rotating wheel 12, a drying cylinder 2, a feed inlet 21, a feed inlet sealing cover 211, a discharge outlet 22, a discharging extractor 221, a heating part 3, a rotating motor 4 and a speed changer 41.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

Example 1

The efficient drying device for preparing the flame-retardant nano zinc carbonate shown in fig. 1 comprises a first support column 1, a second support column 11, a rotating wheel 12, a drying cylinder 2, a feeding hole 21, a heating part 3 and a rotating motor 4. Wherein, the rotating wheels 12 are arranged on the drying cylinder 2 and are positioned at two ends of the drying cylinder 2. The rotating wheel 12 is connected with the first support column 1 and the second support column 11 to form a gantry shape. The heating part 3 is arranged in the drying cylinder 2, is positioned in the middle of the drying cylinder 2, and is connected with two ends of the drying cylinder 2. The rotating motor 4 is arranged on the first support column 1 and is positioned at one end of the bottom of the first support column 1 close to the rotating wheel 12. The rotating motor 4 is in transmission connection with the rotating wheel 12. The feed inlet 21 is arranged on the drying cylinder 2 and is positioned at one end close to the first support column 1. Further, a transmission 41 is included. The transmission 41 is provided on the first support column 1, and has one end connected to the rotating motor 4 and the other end connected to the rotating wheel 12. Wherein, also comprises a feed inlet sealing cover 211. The feed inlet sealing cover 211 is arranged on the feed inlet 21 and is covered with the feed inlet 21. The feed inlet sealing cover 211 is hinged to the feed inlet 21. In addition, the outer side wall of the drying cylinder 2 is wrapped with a layer of thickened heat-insulating material shell. Meanwhile, a discharge hole 22 is also included. The discharge port 22 is disposed on the drying cylinder 2 and located at an end far from the feed port 21.

Example 2

The efficient drying device for preparing the flame-retardant nano zinc carbonate shown in fig. 2 comprises a first support column 1, a second support column 11, a rotating wheel 12, a drying cylinder 2, a feeding hole 21, a heating part 3 and a rotating motor 4. Wherein, the rotating wheels 12 are arranged on the drying cylinder 2 and are positioned at two ends of the drying cylinder 2. The rotating wheel 12 is connected with the first support column 1 and the second support column 11 to form a gantry shape. The heating part 3 is arranged in the drying cylinder 2, is positioned in the middle of the drying cylinder 2, and is connected with two ends of the drying cylinder 2. The rotating motor 4 is arranged on the first support column 1 and is positioned at one end of the bottom of the first support column 1 close to the rotating wheel 12. The rotating motor 4 is in transmission connection with the rotating wheel 12. The feed inlet 21 is arranged on the drying cylinder 2 and is positioned at one end close to the first support column 1. Further, a transmission 41 is included. The transmission 41 is provided on the first support column 1, and has one end connected to the rotating motor 4 and the other end connected to the rotating wheel 12. Wherein, also comprises a feed inlet sealing cover 211. The feed inlet sealing cover 211 is arranged on the feed inlet 21 and is covered with the feed inlet 21. The feed inlet sealing cover 211 is hinged to the feed inlet 21. In addition, the outer side wall of the drying cylinder 2 is wrapped with a layer of thickened heat-insulating material shell. Meanwhile, a discharge hole 22 is also included. The discharge port 22 is disposed on the drying cylinder 2 and located at an end far from the feed port 21. In addition, a discharge extractor 221 is included. Extractor 221 is disposed at discharge port 22 and is located at an end remote from drum 2.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (6)

1. The utility model provides a high-efficient drying device that is used for fire-retardant nanometer zinc carbonate preparation to use which characterized in that: comprises a first supporting column (1), a second supporting column (11), a rotating wheel (12), a drying cylinder (2), a feeding hole (21), a heating part (3) and a rotating motor (4); the rotating wheels (12) are arranged on the drying drum (2) and are positioned at two ends of the drying drum (2); the rotating wheel (12) is connected with the first supporting column (1) and the second supporting column (11) to form a gantry shape; the heating part (3) is arranged in the drying cylinder (2), is positioned in the middle of the drying cylinder (2), and is connected with two ends of the drying cylinder (2); the rotating motor (4) is arranged on the first support column (1) and is positioned at one end, close to the rotating wheel (12), of the bottom of the first support column (1); the rotating motor (4) is in transmission connection with the rotating wheel (12); the feed inlet (21) is formed in the drying cylinder (2) and is located at one end close to the first support column (1).

2. The efficient drying device for preparing the flame-retardant nano zinc carbonate according to claim 1, which is characterized in that: further comprising a transmission (41); the transmission (41) is arranged on the first support column (1), one end of the transmission is connected with the rotating motor (4), and the other end of the transmission is connected with the rotating wheel (12).

3. The efficient drying device for preparing the flame-retardant nano zinc carbonate according to claim 1, which is characterized in that: the feed inlet sealing cover (211) is further included; the feed inlet sealing cover (211) is arranged on the feed inlet (21) and is covered with the feed inlet (21); the feed inlet sealing cover (211) is hinged with the feed inlet (21).

4. The efficient drying device for preparing the flame-retardant nano zinc carbonate according to claim 1, which is characterized in that: the outer side wall of the drying cylinder (2) is wrapped with a layer of thickened heat-insulating material shell.

5. The efficient drying device for preparing the flame-retardant nano zinc carbonate according to claim 1, which is characterized in that: also comprises a discharge hole (22); the discharge port (22) is arranged on the drying cylinder (2) and is positioned at one end far away from the feed port (21).

6. The efficient drying device for preparing the flame-retardant nano zinc carbonate according to claim 5, characterized in that: also comprises a discharging and extracting machine (221); the discharging and extracting machine (221) is arranged on the discharging port (22) and is positioned at one end far away from the drying cylinder (2).

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