CN216814962U - Drying equipment with continuous feeding function - Google Patents

Abstract

The utility model relates to drying equipment with a continuous feeding function, which comprises a heating chamber, an evaporation chamber and an inclined conveyor belt, wherein the heating chamber is arranged in the heating chamber; the hot waves of the hot air blower enter the evaporation chamber through the round holes, the inclined conveyor belt conveys the materials to the feed inlet and falls into the first mesh conveyor belt, and then falls into the second mesh conveyor belt and the third mesh conveyor belt, the third mesh-shaped conveyor belt falls onto the conveyor belt to complete the drying process of the materials, moisture generated in the drying process is discharged from the exhaust pipe, the lifting component drives the third mesh-shaped conveyor belt to rise and then to be away from the round holes, the temperature is lowered, the moisture content of the material is increased, the lifting component drives the third mesh-shaped conveyor belt to fall and then to be close to the round holes, the temperature is increased, the moisture content of the material is lowered, the inclined conveyer belt is used for continuously conveying the materials into the material inlet, thereby realizing continuous drying operation, the distance between the third mesh conveyor belt and the circular holes is adjusted according to the moisture content of the material.

Description

Drying equipment with continuous feeding function

Technical Field

The utility model relates to a drying device with a continuous feeding function.

Background

The drying equipment is used for vaporizing the moisture in the materials by heating the materials with the moisture so that the moisture in the materials reaches the specified moisture content, and the dried materials are convenient to transport and store.

Generally, after materials to be dried are added into drying equipment, a certain time is needed for drying in the drying equipment, however, in the process, the materials to be dried cannot be added into the drying equipment, and the materials to be dried cannot be continuously added into the drying equipment, so that the drying equipment cannot continuously dry, and the humidity of the materials is different, so that the existing drying equipment can only dry a single material.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide drying equipment with a continuous feeding function, which can continuously feed materials and can adjust according to the moisture content of the materials.

In order to accomplish the above object, the present invention provides a drying apparatus having a continuous feeding function; comprises a heating chamber, an evaporation chamber and an inclined conveyor belt;

an air heater is arranged in the heating cavity, a circular hole is formed in the upper end of the heating cavity, and the circular hole is formed above the air heater;

the evaporation chamber is arranged at the upper end of the heating chamber, a first mesh conveyor belt, a second mesh conveyor belt, a third mesh conveyor belt and a lifting assembly are arranged in the evaporation chamber, the first mesh conveyor belt, the second mesh conveyor belt and the third mesh conveyor belt are sequentially connected, both sides of the lower end of the first mesh conveyor belt are connected with both sides of the upper end of the second mesh conveyor belt through connecting blocks, both sides of the lower end of the second mesh conveyor belt are connected with both sides of the upper end of the third mesh conveyor belt through connecting blocks, the lifting assembly is arranged at the upper end of the heating chamber, the third mesh conveyor belt is connected with the lifting assembly, the lifting assembly is used for driving the third mesh conveyor belt to ascend and descend, a feed inlet is arranged at the left side of the upper end of the evaporation chamber, and an exhaust pipe is arranged in the middle position of the upper end of the evaporation chamber, a conveying belt is arranged below the right side of the third reticular conveying belt;

the inclined conveyor belt is arranged on the left side of the evaporation chamber.

The hot air blower has the advantages that the hot air blower is started, hot waves blown out by the hot air blower enter the evaporation chamber through the round holes, materials to be dried are conveyed to the feed inlet through the inclined conveyor belt, the materials fall onto the left side of the first mesh conveyor belt through the feed inlet, the hot waves begin to dry the materials, the materials on the first mesh conveyor belt are conveyed to the right side and fall onto the right side of the second mesh conveyor belt after being turned over, the materials on the second mesh conveyor belt are conveyed to the left side and fall onto the left side of the third mesh conveyor belt in a turning manner, the materials on the third mesh conveyor belt are conveyed to the right side, the materials are dried and fall onto the conveyor belt to be transferred to the next process, the materials are moved and turned over on the mesh conveyor belt, the drying process is completed, and moisture generated in the moving and turning processes of the materials can be discharged from the exhaust pipe, can be to treat continuous through putting the conveyer belt to one side of dry material and carry to in the feed inlet, both realized continuity drying operation, when driving the ascending of the netted conveyer belt of third through lifting unit, first netted conveyer belt rises simultaneously with the netted conveyer belt of second, then keep away from circular hole when the netted conveyer belt of third rises, relative temperature then can become low, the moisture that contains of material then can become high, when driving the decline of the netted conveyer belt of third through lifting unit, first netted conveyer belt descends with the netted conveyer belt of second simultaneously, then draw close to circular hole when the netted conveyer belt of third descends, relative temperature then can become high, the moisture that contains of material then can become low, adjust the interval between third netted conveyer belt and the circular hole according to the moisture that contains of material.

In addition, the material to be dried is preferably a sheet material or other shaped material, which is not suitable for drying granular materials due to the mesh-shaped conveyor belt.

One preferred scheme is that the left side upper end of first mesh conveyor belt is provided with first material blocking frame, the right side upper end of second mesh conveyor belt is provided with first material blocking frame, the left side upper end of third mesh conveyor belt is provided with first material blocking frame, first material blocking frame on the first mesh conveyor belt sets up the below at the feed inlet. Prevent that the material from dropping through the setting of first material blocking frame.

One preferred scheme is, the right side tip of heating cavity is provided with the base, the upper end both sides of base are provided with the connecting plate, both sides connect through the upper plate between the upper end of connecting plate, both sides connect through the diaphragm between the right side of connecting plate, be provided with the opening on the diaphragm, both sides the left side of connecting plate and upper plate is connected with the right side tip of evaporation cavity, the middle part position of conveyer belt setting on the base, the left side of conveyer belt sets up the below at the netted conveyer belt of third, the opening is worn to establish on the right side of conveyer belt, be provided with the second fender material frame on the left side of conveyer belt. The material after the drying is finished is prevented from dropping to other places when dropping to the conveying belt through the arrangement of the second material blocking frame.

In a preferred embodiment, the three air heaters are respectively arranged at the left, middle and right positions of the heating chamber, and the three air heaters respectively correspond to one circular hole.

One preferred scheme is that the number of the lifting components is four, the four lifting components are divided into two groups, and two groups of lifting components are respectively arranged on the left side and the right side of the third reticular conveyor belt, the lifting components comprise a fixed cylinder, a lifting column, a rotating gear and a mounting plate, the fixed cylinder is arranged at the upper end of the heating chamber, one side of the upper end of the fixed cylinder is provided with a notch, the lifting column is arranged in the fixed cylinder in a lifting way, one side of the lifting column is provided with a lifting tooth part, the mounting plates are arranged on one side of the fixed cylinder, the mounting plates on the two sides are connected through a rotating shaft rod, the rotating gear is arranged on the rotating shaft rod and is meshed and connected with the lifting tooth part through the notch, the upper end of the lifting column is connected with the third mesh-shaped conveyor belt, one end of the rotating shaft rod is connected with the rotating motor, and the rotating motor is arranged on one side outside the evaporation cavity.

Drawings

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

FIG. 1 is a schematic view showing the structure of a drying apparatus having a continuous feeding function according to the present invention;

FIG. 2 is a schematic view of a part of a drying apparatus having a continuous feeding function according to the present invention;

fig. 3 is an enlarged schematic view of a region a in fig. 2.

Detailed Description

The technical solution in the embodiments of the present invention is clearly and completely described below with reference to the drawings in the embodiments of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

As shown in fig. 1 to 3, the present invention provides a drying apparatus having a continuous feeding function; comprises a heating chamber 10, an evaporation chamber 20 and an inclined conveyor belt 110;

an air heater 11 is arranged in the heating chamber 10, a round hole 12 is arranged at the upper end of the heating chamber 10, and the round hole 12 is arranged above the air heater;

the evaporation chamber 20 is arranged at the upper end of the heating chamber 10, a first mesh conveyor belt 21, a second mesh conveyor belt 22, a third mesh conveyor belt 23 and a lifting assembly 40 are arranged in the evaporation chamber 20, the first mesh conveyor belt 21, the second mesh conveyor belt 22 and the third mesh conveyor belt 23 are sequentially connected, two sides of the lower end of the first mesh conveyor belt 21 are connected with two sides of the upper end of the second mesh conveyor belt 22 through connecting blocks 24, two sides of the lower end of the second mesh conveyor belt 22 are connected with two sides of the upper end of the third mesh conveyor belt 23 through connecting blocks 24, the lifting assembly 40 is arranged at the upper end of the heating chamber 10, the third mesh conveyor belt 23 is connected with the lifting assembly 40, the lifting assembly 40 is used for driving the third mesh conveyor belt 23 to ascend and descend, a feed inlet 25 is arranged at the left side of the upper end of the evaporation chamber 20, an exhaust pipe 26 is arranged in the middle of the upper end of the evaporation chamber 20, and a conveying belt 27 is arranged below the right side of the third mesh-shaped conveying belt 23;

the inclined conveyor 110 is disposed at the left side of the evaporation chamber 20.

The working process is that the hot air blower 11 is started, hot waves blown by the hot air blower 11 enter the evaporation chamber 20 through the circular holes 12, materials to be dried are conveyed to the feed inlet 25 through the inclined conveyor belt 110, the materials fall onto the left side of the first mesh conveyor belt 21 through the feed inlet 25, the hot waves start to dry the materials, the materials on the first mesh conveyor belt 21 are conveyed to the right side and fall onto the right side of the second mesh conveyor belt 22 after being overturned, the materials on the second mesh conveyor belt 22 are conveyed to the left side and fall onto the left side of the third mesh conveyor belt 23, the materials on the third mesh conveyor belt 23 are conveyed to the right side, at the moment, the materials are dried and fall onto the conveyor belt 27 to be conveyed to the next process, the materials are moved and overturned on the mesh conveyor belt, the drying process is completed, and moisture generated in the moving and overturning processes of the materials can be discharged from the exhaust pipe 26, the material to be dried can be continuously conveyed into the feeding hole 25 through the inclined conveyor belt 110, continuous drying operation is realized, when the lifting assembly 40 drives the third mesh conveyor belt 23 to ascend, the first mesh conveyor belt 21 and the second mesh conveyor belt 22 ascend simultaneously, when the third mesh conveyor belt 23 ascends, the third mesh conveyor belt 23 is far away from the circular hole 12, relative temperature can become low, humidity content of the material can become high, when the lifting assembly 40 drives the third mesh conveyor belt 23 to descend, the first mesh conveyor belt 21 and the second mesh conveyor belt 22 descend simultaneously, when the third mesh conveyor belt 23 descends, the third mesh conveyor belt 23 draws close to the circular hole 12, relative temperature can become high, humidity content of the material can become low, and the distance between the third mesh conveyor belt 23 and the circular hole 12 is adjusted according to the humidity content of the material.

In addition, the material to be dried is preferably a sheet material or other shaped material, which is not suitable for drying granular materials due to the mesh-shaped conveyor belt.

Preferably, the left upper end of the first mesh conveyor belt 21 is provided with a first material blocking frame 50, the right upper end of the second mesh conveyor belt 22 is provided with the first material blocking frame 50, the left upper end of the third mesh conveyor belt 50 is provided with the first material blocking frame 50, and the first material blocking frame 50 on the first mesh conveyor belt 21 is arranged below the feed port 25. The material is prevented from falling to the corners in the evaporation chamber 20 by the arrangement of the first material blocking frame 50.

Preferably, the right side end of heating chamber 10 is provided with base 13, the upper end both sides of base 13 are provided with connecting plate 14, both sides connect through upper plate 15 between the upper end of connecting plate 14, both sides connect through diaphragm 16 between the right side of connecting plate 14, be provided with opening 17 on the diaphragm 16, both sides the left side of connecting plate 14 and upper plate 15 is connected with the right side end of evaporation chamber 20, conveyer belt 27 sets up the middle part position on base 13, the left side of conveyer belt 27 sets up the below at the netted conveyer belt 23 of third, opening 17 has been worn to establish on the right side of conveyer belt 27, be provided with second fender material frame 60 on the left side of conveyer belt 27. The material after the completion of drying is prevented from falling to other places when falling onto the conveyor belt 27 by the arrangement of the second material blocking frame 60.

In addition, the conveyor belt 27 conveys the material to the next process through the opening 17.

Preferably, the number of the hot air blowers 11 is three, which are respectively disposed at the left, middle and right positions in the heating chamber 10, and the three hot air blowers 11 respectively correspond to one circular hole 12.

Preferably, the number of the lifting assemblies 40 is four, the four lifting assemblies 40 are divided into two groups, and the two groups of lifting assemblies 40 are respectively disposed on the left side and the right side of the third mesh conveyor belt 23, each lifting assembly 40 includes a fixed cylinder 41, a lifting column 42, a rotary gear 43 and a mounting plate 44, the fixed cylinder 41 is disposed at the upper end of the heating chamber 10, a notch 45 is disposed on one side of the upper end of the fixed cylinder 41, the lifting column 42 is disposed in the fixed cylinder 41 in a lifting manner, a lifting tooth 46 is disposed on one side of the lifting column 42, the mounting plate 44 is disposed on one side of the fixed cylinder 41, the mounting plates 44 on both sides are connected through a rotary shaft 47, the rotary gear 43 is disposed on the rotary shaft 47, the rotary gear 43 is engaged with the lifting tooth 46 through the notch 45, the upper end of the lifting column 42 is connected with the third mesh conveyor belt 23, one end of the rotating shaft 47 is connected to a rotating motor 49, and the rotating motor 49 is disposed at one side outside the evaporation chamber 20.

When the moisture content of the material is high, the rotating motor 49 drives the rotating shaft rod 47 to rotate, the rotating shaft rod 47 drives the rotating gear 43 to rotate, the rotating gear 43 rotates and drives the lifting column 42 to ascend through the lifting tooth part 46, the third mesh conveyor belt 23 is driven to ascend through the ascending of the lifting column 42, meanwhile, the first mesh conveyor belt 21 and the second mesh conveyor belt 22 ascend, the third mesh conveyor belt 23 is far away from the circular hole 12, the successive temperature is low, the moisture content of the material is high, when the moisture content of the material is low, the third mesh conveyor belt 23 is driven to descend to the circular hole 12 through the lifting assembly 40, the successive temperature is high, and the moisture content of the material is low.

In addition, because the heat wave generated by the hot air blower enters the evaporation chamber from the circular hole, the temperature is higher when the heat wave is closer to the circular hole, and the temperature is lower when the heat wave is farther away.

In other embodiments, the lifting assembly may also be of a cylinder structure, that is, the platform on which the third mesh-shaped conveyor belt is located is driven to move up and down by a telescopic rod of the cylinder structure, or the height of the third mesh-shaped conveyor belt is manually adjusted and fixed at a certain height, or the third mesh-shaped conveyor belt and the upper part are driven to move up and down by other existing methods such as screw rod driving. In addition, the first mesh conveyor belt has a smaller length than the second mesh conveyor belt, which has a smaller length than the third mesh conveyor belt, so that a sequential drop is achieved when conveying to the end position. The driving force of the mesh conveyor belt can be rotated by the existing motor driving mode.

It is to be understood that the described embodiments are merely a few embodiments of the utility model, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims (5)

1. Drying apparatus with continuous feed, comprising:

the heating device comprises a heating cavity, wherein an air heater is arranged in the heating cavity, and a circular hole is formed in the upper end of the heating cavity and is arranged above the air heater;

the evaporation device comprises an evaporation chamber, the evaporation chamber is arranged at the upper end of a heating chamber, a first mesh conveyor belt, a second mesh conveyor belt, a third mesh conveyor belt and a lifting assembly are arranged in the evaporation chamber, the first mesh conveyor belt, the second mesh conveyor belt and the third mesh conveyor belt are sequentially connected, two sides of the lower end of the first mesh conveyor belt are connected with two sides of the upper end of the second mesh conveyor belt through connecting blocks, two sides of the lower end of the second mesh conveyor belt are connected with two sides of the upper end of the third mesh conveyor belt through connecting blocks, the lifting assembly is arranged at the upper end of the heating chamber, the third mesh conveyor belt is connected with the lifting assembly, the lifting assembly is used for driving the third mesh conveyor belt to ascend and descend, a feed inlet is arranged at the left side of the upper end of the evaporation chamber, and an exhaust pipe is arranged in the middle position of the upper end of the evaporation chamber, a conveying belt is arranged below the right side of the third reticular conveying belt;

the inclined conveying belt is arranged on the left side of the evaporation chamber.

2. The drying equipment with the continuous feeding function as claimed in claim 1, wherein a first material blocking frame is arranged at the upper end of the left side of the first mesh conveyor belt, a first material blocking frame is arranged at the upper end of the right side of the second mesh conveyor belt, a first material blocking frame is arranged at the upper end of the left side of the third mesh conveyor belt, and the first material blocking frame on the first mesh conveyor belt is arranged below the feeding hole.

3. The drying equipment with the continuous feeding function as claimed in claim 1, wherein a base is arranged at the right side end of the heating chamber, connecting plates are arranged on two sides of the upper end of the base, the upper ends of the connecting plates are connected through an upper plate, the right sides of the connecting plates are connected through a transverse plate, an opening is formed in the transverse plate, the left sides of the connecting plates and the upper plate are connected with the right side end of the evaporation chamber, the conveying belt is arranged at the middle position of the base, the left side of the conveying belt is arranged below a third mesh conveying belt, the opening is penetrated through the right side of the conveying belt, and a second material blocking frame is arranged on the left side of the conveying belt.

4. The drying apparatus with continuous feeding function as claimed in claim 1, wherein the number of the hot air blowers is three, and the three hot air blowers are respectively disposed at the left, middle and right positions of the heating chamber, and each of the three hot air blowers corresponds to one circular hole.

5. The drying apparatus with continuous feeding function according to claim 1, wherein the number of the lifting assemblies is four, the four lifting assemblies are divided into two groups, and the two groups of the lifting assemblies are respectively disposed at the left side and the right side of the third mesh conveyor belt, the lifting assemblies comprise a fixed cylinder, a lifting column, a rotary gear and a mounting plate, the fixed cylinder is disposed at the upper end of the heating chamber, one side of the upper end of the fixed cylinder is provided with a notch, the lifting column is liftably disposed in the fixed cylinder, one side of the lifting column is provided with a lifting tooth portion, the mounting plate is disposed at one side of the fixed cylinder, the mounting plates at the two sides are connected through a rotating shaft, the rotary gear is disposed on the rotating shaft, the rotary gear is engaged with the lifting tooth portion through the notch, the upper end of the lifting column is connected with the third mesh conveyor belt, one end of the rotating shaft rod is connected with a rotating motor, and the rotating motor is arranged on one side outside the evaporation cavity.

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