CN115307420B

CN115307420B - Drying equipment with homogenizing function

Info

Publication number: CN115307420B
Application number: CN202211243309.4A
Authority: CN
Inventors: 马升东
Original assignee: Nantong Yuanyi New Material Technology Co ltd
Current assignee: Nantong Yuanyi New Material Technology Co ltd
Priority date: 2022-10-11
Filing date: 2022-10-11
Publication date: 2023-04-14
Anticipated expiration: 2042-10-11
Also published as: CN115307420A

Abstract

The invention relates to drying equipment with a material homogenizing function, which comprises a frame, wherein a smoothing device and a dryer which are arranged in front and back are arranged on the frame; the smoothing device comprises a shell, a bin, a conveying mechanism, a plurality of material opening plates and a plurality of inductors; the upper end of the bin is open and the bottom of the bin is provided with a plurality of discharge holes; the conveying mechanism is positioned in front of the storage bin and shovels and conveys the ultrahigh part of the material to the storage bin; the material opening plate can be arranged at the bottom of the material bin in a front-back sliding mode and corresponds to the material outlets one by one, and the front end of the inductor can be hinged to the material opening plate in an up-down sliding mode, and the middle of the inductor is rotatably arranged on the shell. The lower end of the inductor is contacted with the material, when the material pits appear on the material, the inductor rotates clockwise under the action of self gravity to drive the corresponding material opening plate to move backwards to open the material outlet, the material in the material bin is discharged from the corresponding material outlet to fill the pits, so that the material is spread uniformly, and the drying efficiency and the drying effect are improved.

Description

Drying equipment with homogenizing function

Technical Field

The invention relates to the field of drying, in particular to drying equipment with a material homogenizing function.

Background

Drying equipment refers to mechanical equipment that vaporizes moisture (typically moisture or other volatile liquid components) in a material to obtain a solid material of a specified moisture content. In production and life, materials are usually paved and then dried by providing a heat source for the materials through drying equipment, the materials can be prevented from being accumulated during paving and drying, the drying efficiency is high, and the drying device is used in the industries such as chemical industry, food, agricultural and sideline products, wood, building materials and paper products.

However, under the influence of the distribution thickness of the dried material, the situation that the position with thinner material thickness distribution is heated too much and the drying degree of the position with thicker material distribution is not ideal often occurs in the drying process, so that the drying is not uniform, and the drying efficiency is influenced. In the related art, materials are required to be manually spread, time and labor are wasted, the drying quality is greatly influenced by the operation proficiency of workers, and the improvement on the drying efficiency and the drying quality is very limited.

Disclosure of Invention

According to the defects of the prior art, the invention provides drying equipment with a material homogenizing function, and aims to solve the problems that materials are heated unevenly, and the drying efficiency and the drying effect are poor when the existing drying equipment is used for drying.

The drying equipment with the material homogenizing function adopts the following technical scheme: the vehicle comprises a frame, wherein the bottom of the frame is hollow, and a smoothing device positioned at a vehicle head and a dryer positioned at a vehicle tail are arranged on the frame; the smoothing device comprises a shell, a bin, a conveying mechanism, a plurality of material opening plates and a plurality of inductors;

the shell is arranged on the frame, the lower end of the shell is open, the bin is arranged in the shell, and a plurality of discharge ports are uniformly arranged at the bottom of the bin at intervals along the left and right direction; the conveying mechanism is arranged on the shell and positioned in front of the storage bin, extends obliquely from low front to high back and is configured to scoop up and convey the ultrahigh part of the material to the storage bin;

the material opening plate is arranged at the bottom of the storage bin in a front-back sliding manner and corresponds to the material outlets one by one, and the material opening plate plugs the material outlets in an initial state and opens the material outlets after sliding backwards;

the inductor opens board one-to-one with the material mouth, and the front end of inductor hinges in the material mouth around the axis of controlling the extension and opens the board and can slide from top to bottom, and the middle part of inductor rotationally installs in the casing around the axis of controlling the extension, and inductor lower extreme and material contact when the pit appears in the material, the inductor clockwise rotation drives corresponding material mouth and opens the board and move backward and open the discharge gate under self action of gravity.

Optionally, the storage bin comprises a front enclosing plate, a rear enclosing plate, a bottom plate and side enclosing plates, wherein the front enclosing plate of the storage bin is obliquely arranged in a high-back-low manner to form a guide slope plate, and the thickness of the guide slope plate is gradually reduced from a preset position at the upper end to the lower end; the material opening plate is hinged with a sliding rod around a left-right extending axis, the sliding rod can slide back and forth along the guide slope plate and can move up and down relative to the material opening plate, and the upper end of the sliding rod is vertically connected with a sliding cover; the sliding cover is arranged on the guide slope plate and can slide back and forth along the extension direction of the guide slope plate;

a material blocking mechanism is arranged on the guide slope plate and comprises a plurality of material blocking units which correspond to the material opening plates one by one, each material blocking unit comprises a hinged column, a first material blocking plate and a second material blocking plate, the first material blocking plate and the second material blocking plate are hinged to the hinged column, the first material blocking plate extends rightwards, the second material blocking plate extends leftwards, and the hinged column is slidably arranged on the sliding cover and is connected with the lower end of the sliding cover through a pressure spring;

the first material blocking plate and the second material blocking plate of the two adjacent material blocking units are inserted in a sliding mode, and the hinged columns of the two adjacent material blocking units are connected through tension springs.

Optionally, the lower end of the inductor is provided with a roller in contact with the material to be dried, the roller having a predetermined width.

Optionally, the inner surface of the guide ramp is provided with a guide chute, the bottom surface of the guide chute is parallel to the outer surface of the guide ramp, a sliding hole penetrating through the guide ramp is formed in the guide chute, the sliding rod is slidably disposed in the sliding hole, and the sliding cover is slidably disposed in the guide chute.

Optionally, a rectangular groove extending along the length direction of the sliding cover is formed in the sliding cover, a sliding pad is arranged at the lower end of the hinge post and slidably arranged in the rectangular groove, and the pressure spring is connected between the rear end face of the sliding pad and the rear end face of the rectangular groove; the sliding pad is vertically provided with a pillar, and the tension spring is connected between two adjacent pillars.

Optionally, the front end of the material opening plate is provided with a transverse moving rod extending upwards, and the sliding rod is hinged to the transverse moving rod and can slide up and down relative to the transverse moving rod;

the below of the material opening plate is provided with downwardly extending's push rod, and the push rod is located the rear side of sideslip pole, and the front end of inductor articulates in the push rod and can follow the push rod and slide from top to bottom.

Optionally, the conveying mechanism is a belt drive, and a plurality of shovels are arranged on the conveying belt at intervals.

Optionally, the casing includes protecgulum, upper cover, back lid and two side shields that enclose each other, and the back panel of feed bin sets up in order to act as the back lid vertically, and two side shields act as the side shield of feed bin.

Optionally, the dryer is a microwave dryer.

The invention has the beneficial effects that: according to the drying equipment with the material homogenizing function, the flattening device and the dryer are arranged on the frame in a front-back mode, in the process that the frame advances along the material paving direction, the conveying mechanism in the flattening device shovels the ultrahigh parts of the materials and conveys the ultrahigh parts of the materials into the storage bin for temporary storage, the sensor senses the material pits and moves to drive the material opening plate to move backwards to open the material outlet at the bottom of the storage bin, the materials in the storage bin are discharged from the corresponding material outlet to fill the pits, and therefore the materials are paved evenly, and the drying efficiency and the drying effect are improved.

Furthermore, the material blocking structure is arranged on the guide slope plate of the storage bin, materials conveyed to the storage bin by the conveying mechanism are blocked by the material blocking structure, the material blocking structure is matched with the material opening plate, when the corresponding material opening plate moves backwards to open the discharge hole, a gap is formed between the corresponding material blocking unit of the material blocking structure and the guide slope plate when the corresponding material opening plate moves backwards to move downwards, the materials are allowed to fall, meanwhile, the material unit moves towards the material blocking unit adjacent to the material blocking unit, the material blocking structure takes the material blocking unit at the material concave position as the center to form a V-shaped structure which is concave downwards, the materials in the storage bin are guided to move towards the material blocking unit at the ground material concave position and are discharged from the corresponding discharge hole, the concave pit of the ground is filled, therefore, the materials in the storage bin can be intensively guided to the discharge hole at the concave position to be discharged through the linkage design of the material blocking structure, the distribution condition of the materials in the storage bin is changed, and the discharge efficiency of the materials is improved.

Drawings

In order to illustrate embodiments of the invention or prior art solutions more clearly, the drawings that are needed in the description of embodiments or prior art will be briefly described below, it being apparent that the drawings in the description below are only some embodiments of the invention and that other drawings may be derived by those skilled in the art without inventive effort, and it will be understood that the drawings are not necessarily drawn to scale.

FIG. 1 is a schematic structural diagram of a drying apparatus with a material homogenizing function according to the present invention;

FIG. 2 is a sectional view of a drying apparatus having a material homogenizing function according to the present invention;

FIG. 3 is an enlarged view taken at A in FIG. 2;

FIG. 4 is a cut-away perspective view of a drying apparatus with a material homogenizing function according to the present invention;

FIG. 5 is an enlarged view of FIG. 4 at B;

FIG. 6 is a top view of a drying apparatus with a homogenizing function according to the present invention;

FIG. 7 is an enlarged view at C of FIG. 6;

fig. 8 is a schematic structural view of a material blocking unit in the invention;

fig. 9 is a schematic structural view of the slide bar and the slide cover in the present invention.

In the figure: 1. a dryer; 2. a frame; 3. a smoothing device; 31. a front cover; 32. an upper cover; 33. a side dam; 34. a transport mechanism; 35. a storage bin; 361. an inductor; 362. a push rod; 363. opening a plate at the material port; 364. a traversing rod; 365. a slide bar; 366. a stock stop mechanism; 367. a sliding cover; 368. a tension spring; 369. compressing the spring; 41. a first striker plate; 42. a second retainer plate; 43. a pillar; 44. a sliding pad; 45. a hinged column.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1 to 9, the drying equipment with the material homogenizing function comprises a frame 2, the bottom of the frame 2 is hollow, a smoothing device 3 located at a head of the vehicle and a dryer 1 located at a tail of the vehicle are arranged on the frame 2, a material to be dried is paved on the ground or other supporting planes, the frame 2 moves forward along the material paving direction (the head of the vehicle is front, the tail of the vehicle is rear), the smoothing device 3 smoothes the material in the moving process, and the dryer 1 dries the smoothed material.

The smoothing device 3 includes a housing, a bin 35, a conveying mechanism 34, a plurality of opening plates 363, and a plurality of sensors 361. The shell is arranged on the frame 2 and the lower end is open,

the bin 35 is arranged in the shell, the upper end of the bin is open, and a plurality of discharge ports are uniformly arranged at the bottom of the bin 35 along the left-right direction at intervals; the conveying mechanism 34 is disposed inside the housing and located in front of the bin 35, and the conveying mechanism 34 extends obliquely from front to back and is configured to scoop up and convey the ultrahigh portion of the material to the bin 35.

The material opening plate 363 is slidably arranged at the bottom of the material bin 35 in a front-back direction and corresponds to the material outlets one by one, and the material opening plate 363 seals the material outlets in an initial state and opens the material outlets after sliding backwards. The inductors 361 correspond to the material opening plates 363 one by one, hinge shafts extending left and right are arranged on the shell, the middle parts of the inductors 361 are rotatably arranged on the hinge shafts, and the front ends of the inductors 361 are hinged to the material opening plates 363 around axes extending left and right and can slide up and down; inductor 361 lower extreme and material contact, when the pit appears in the material, inductor 361 rotates clockwise under self action of gravity and drives corresponding material mouth and open board 363 and move backward and open the discharge gate, and the material passes through corresponding discharge gate whereabouts, fills the material to the pit to this makes the material pave evenly, improves drying efficiency and stoving effect. It should be noted that the inductor 361 has a certain weight to ensure that it contacts with the material under the action of gravity, and meanwhile, the inductor 361 is provided with a roller (not shown in the figure) having a certain width, so that the contact area is increased and the friction is reduced, thereby ensuring that the inductor 361 runs reliably on the material.

In this embodiment, the storage bin 35 includes a front wall, a rear wall, a bottom plate, and side walls, the front wall of the storage bin 35 is inclined in a high-back direction to form a guiding slope, and the thickness of the guiding slope gradually decreases from a preset position at the upper end to the lower end; a sliding rod 365 is hinged to the material opening plate 363 around an axis extending left and right, the sliding rod 365 can slide back and forth along the guide slope plate and can move up and down relative to the material opening plate 363, and the upper end of the sliding rod 365 is vertically connected with a sliding cover 367; the slide cover 367 is provided on the guide slope plate and can slide back and forth along the extending direction of the guide slope plate.

A material blocking mechanism 366 is arranged on the guide slope plate, and the material blocking mechanism 366 is arranged on the guide slope plate of the storage bin 35 along the left-right direction so as to block materials conveyed by the conveying mechanism 34. The material blocking mechanism 366 comprises a plurality of material blocking units which correspond to the material opening plates 363 one to one, each material blocking unit comprises a hinged column 45, a first material blocking plate 41 and a second material blocking plate 42, the first material blocking plate 41 and the second material blocking plate 42 are hinged to the hinged column 45, the first material blocking plate 41 extends rightwards, the second material blocking plate 42 extends leftwards, the hinged column 45 is slidably arranged on the sliding cover 367 and is connected with the lower end of the sliding cover 367 through a pressure spring 369, and the hinged column 45 is enabled to move upwards to the upper end limit position through the pressure spring 369 in the initial state.

The first material blocking plate 41 and the second material blocking plate 42 of two adjacent material blocking units are inserted in a sliding mode, and the hinge columns 45 of the two adjacent material blocking units are connected through tension springs 368.

It should be noted that a guide sliding groove is provided on an inner surface of the guide slope plate of the bin 35 (the inside of the bin 35 is the inside, and the outside is the outside), a groove bottom surface of the guide sliding groove is arranged in parallel with an outer surface of the guide slope plate of the bin 35, a sliding hole penetrating through the guide slope plate is provided in the guide sliding groove, the sliding rod 365 is slidably provided in the sliding hole, and the sliding cover 367 is slidably provided in the guide sliding groove. The sliding cover 367 is provided with a rectangular groove extending along the length direction of the sliding cover, the lower end of the hinge post 45 is provided with a sliding pad 44, the sliding pad 44 is arranged in the rectangular groove in a sliding mode, and the pressure spring 369 is connected between the rear end face of the sliding pad 44 and the rear end face of the rectangular groove; the sliding pad 44 is vertically provided with the pillars 43, and the tension spring 368 is connected between two adjacent pillars 43.

In the advancing process of the frame 2, the lower end of the sensor 361 is always in contact with the materials, if the materials have depressions, the corresponding sensor 361 rotates clockwise around the hinge shaft at the middle of the sensor 361 under the action of self gravity, and when the sensor 361 rotates clockwise, the upper end moves backwards to drive the material opening plate 363 corresponding to the sensor to move backwards to open the material outlet. Meanwhile, the material opening plate 363 pushes the corresponding sliding rod 365 backwards and downwards to move and drive the hinge column 45 of the corresponding material blocking unit backwards and downwards, so that a gap appears between the first material blocking plate 41 and the inner surface of the guide slope plate of the bin 35 and between the second material blocking plate 42 and the inner surface of the guide slope plate of the bin 35, and the material can be discharged from the gap. At this moment, under the effect of extension spring 368, the first striker plate 41 and the second striker plate 42 of material depressed place hinge post 45 both sides slide and extend, and the hinge post 45 of pulling adjacent material blocking unit overcomes the elasticity of pressure spring 369 and moves a certain distance backward, the first striker plate 41 and the second striker plate 42 of all material blocking units use the material blocking unit of material depressed place to form the V-arrangement structure of undercut as the center, the material in the guide feed bin 35 removes and discharges from corresponding discharge gate to the material blocking unit of ground material depressed place, fill the pit on ground, make the material pave more evenly, improve drying efficiency and stoving effect. With this linkage design through stock stop 366, can concentrate the discharge gate that guides to pit department with the material in the feed bin 35 and discharge, change the distribution of material in feed bin 35, improve the discharge efficiency of material.

In this embodiment, for the convenience of installation, the front end of the material opening plate 363 is provided with a traversing rod 364 extending upward, and the sliding rod 365 is hinged to the traversing rod 364 and can slide up and down relative to the traversing rod 364. A push rod 362 extending downwards is arranged below the material opening plate 363, the push rod 362 is located at the rear side of the traverse rod 364, and the front end of the sensor 361 is hinged to the push rod 362 and can slide up and down along the push rod 362.

In the present embodiment, the housing includes a front cover 31, an upper cover 32, a rear cover, and two side guards 33, and the front cover 31, the upper cover 32, the rear cover, and the two side guards 33 enclose each other to protect the internal structure of the smoothing device 3. For the convenience of structural arrangement in the present invention, it is preferable that the back panel of the bin 35 is vertically arranged to serve as a back cover, and the two side guards 33 serve as side panels of the bin 35.

The conveying mechanism 34 conveys materials by adopting belt transmission, a power device for driving the conveying mechanism 34 to act is arranged on the side baffle 33, the power device is a motor, a plurality of material shovels are arranged on the conveying belt at intervals, and the material shovels shovel the ultrahigh parts of the materials and upwards transport the ultrahigh parts of the materials to the storage bin 35 when the material shovels rotate along with the conveying belt until the lower ends of the material shovels are parallel to the materials.

In addition, the dryer 1 of the present invention is a microwave dryer, but is not limited to a microwave dryer, and may be applied to, for example, electric heating. The material can be heated by hot air under the condition that the material is heavy and can be heated by hot air.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, which is intended to cover any modifications, equivalents, improvements, etc. within the spirit and scope of the present invention.

Claims

1. The utility model provides a drying equipment with homocline function which characterized in that: the vehicle comprises a frame, wherein the bottom of the frame is hollow, and a smoothing device positioned at a vehicle head and a dryer positioned at a vehicle tail are arranged on the frame; the smoothing device comprises a shell, a stock bin, a conveying mechanism, a plurality of material opening plates and a plurality of inductors; the shell is arranged on the frame, the lower end of the shell is open, the bin is arranged in the shell, and a plurality of discharge ports are uniformly arranged at the bottom of the bin at intervals along the left and right direction; the conveying mechanism is arranged on the shell and positioned in front of the storage bin, extends obliquely from low front to high back and is configured to scoop up the ultrahigh part of the material and convey the ultrahigh part of the material to the storage bin;

the material opening plate is arranged at the bottom of the storage bin in a front-back sliding manner and corresponds to the material outlets one by one, and the material opening plate plugs the material outlets in an initial state and opens the material outlets after sliding backwards; the sensors correspond to the material opening plates one to one, the front ends of the sensors are hinged to the material opening plates around the axis extending left and right and can slide up and down, the middle parts of the sensors are rotatably installed on the shell around the axis extending left and right, the lower ends of the sensors are in contact with the material, and when the material pits appear in the material, the sensors rotate clockwise under the action of self gravity to drive the corresponding material opening plates to move backwards to open the material outlet;

the storage bin comprises a front enclosing plate, a rear enclosing plate, a bottom plate and side enclosing plates, wherein the front enclosing plate of the storage bin is obliquely arranged in a high front-back low manner to form a guide slope plate, and the thickness of the guide slope plate is gradually reduced from the preset position at the upper end to the lower end; the material opening plate is hinged with a sliding rod around a left-right extending axis, the sliding rod can slide back and forth along the guide slope plate and can move up and down relative to the material opening plate, and the upper end of the sliding rod is vertically connected with a sliding cover; the sliding cover is arranged on the guide slope plate and can slide back and forth along the extension direction of the guide slope plate; a material blocking mechanism is arranged on the guide slope plate and comprises a plurality of material blocking units which correspond to the material opening plates one by one, each material blocking unit comprises a hinged column, a first material blocking plate and a second material blocking plate, the first material blocking plate and the second material blocking plate are hinged to the hinged column, the first material blocking plate extends rightwards, the second material blocking plate extends leftwards, and the hinged column is slidably arranged on the sliding cover and is connected with the lower end of the sliding cover through a pressure spring; the first material blocking plate and the second material blocking plate of the two adjacent material blocking units are inserted in a sliding mode, and the hinge columns of the two adjacent material blocking units are connected through tension springs.

2. The drying equipment with the material homogenizing function as claimed in claim 1, wherein: the lower extreme of inductor is provided with the gyro wheel with treating dry material contact, and the gyro wheel has predetermines the width.

3. The drying equipment with the material homogenizing function as claimed in claim 1, wherein: the internal surface of direction ramp is provided with the direction spout, and the tank bottom surface of direction spout and the surface parallel arrangement of direction ramp, be provided with the sliding hole who link up the direction ramp in the direction spout, the slide bar slides and sets up in sliding hole and sliding closure slip set up in the direction spout.

4. The drying equipment with the material homogenizing function as claimed in claim 1, wherein: the sliding cover is provided with a rectangular groove extending along the length direction of the sliding cover, the lower end of the hinge post is provided with a sliding pad, the sliding pad is slidably arranged in the rectangular groove, and the pressure spring is connected between the rear end face of the sliding pad and the rear end face of the rectangular groove; the sliding pad is vertically provided with a pillar, and the tension spring is connected between two adjacent pillars.

5. The drying equipment with the material homogenizing function as claimed in claim 1, wherein: the front end of the material opening plate is provided with a transverse moving rod extending upwards, and the sliding rod is hinged to the transverse moving rod and can slide up and down relative to the transverse moving rod;

the below that the board was opened to the material mouth is provided with downwardly extending's push rod, and the push rod is located the rear side of sideslip pole, and the front end of inductor articulates in the push rod and can follow the push rod and slide from top to bottom.

6. The drying equipment with the material homogenizing function as claimed in claim 1, wherein: the conveying mechanism is in belt transmission, and a plurality of material shovels are arranged on the conveying belt at intervals.

7. The drying equipment with the material homogenizing function as claimed in claim 1, wherein: the casing is including enclosing protecgulum, upper cover, back lid and two side shields that close each other, and the back boarding of feed bin is vertical to be set up in order acting as the back lid, and two side shields act as the side shield of feed bin.

8. The drying equipment with the material homogenizing function as claimed in claim 1, wherein: the dryer is a microwave dryer.