CN112623526A - Vibration drying device for easily-bonded materials - Google Patents

Abstract

The invention belongs to the technical field of seed drying equipment, and particularly relates to a vibration drying device for easily-bonded materials, which comprises a shell part, a material flattening device arranged at the top of the shell part, a vibration device and a material level sensing device which are positioned in the shell part, wherein the upper end of the whole shell part is a feeding section shell, a drying section shell is arranged below the feeding section shell, and the lower end of the drying section shell is connected with a discharging section shell. Effectively improve the drying quality of the materials.

Description

Vibration drying device for easily-bonded materials

Technical Field

The invention belongs to the technical field of seed drying equipment, and particularly relates to a vibration drying device for an easily-bonded material.

Background

The coating is a key process in seed production and processing, and is a technology for promoting agricultural production and harvest. Aims at preventing and controlling diseases and pests in seedling stage, promoting growth and development and raising crop yield. The surface moisture of the coated seeds is high, the coating agent is not formed into a film and solidified, and if the seeds are directly packaged or statically dried for a long time, the seeds are bonded, so that the coating quality is seriously influenced, and even the quality of the seeds is influenced. Therefore, the coated seeds need to be dried to a certain moisture content, so that the seed coating agent can be quickly formed into a film and solidified, and then packaged.

Traditional drying device universally adopts the mode of the ejection of compact of trickling naturally, has the intermediate position in the use to concentrate the ejection of compact, and the material of border position can't discharge always, causes the border material to be in always by the stoving state, especially at the in-process of drying in succession, only when stopping drying, no longer feeds in the storehouse, and the border material just can discharge, seriously influences homogeneity and the material oven-dry mass of material stoving. In addition, the material outlet is generally blocked due to material bonding in the natural discharging process.

Disclosure of Invention

Aiming at the problems and the defects in the prior art, the invention provides a vibration drying device for easily-bonded materials.

In order to achieve the purpose, the invention provides the following technical scheme:

a vibration drying device for easily-bonded materials comprises a shell part, a material flattening device arranged at the top of the shell part, a vibration device and a material level sensing device which are positioned in the shell part;

the shell part comprises a feeding section shell, a top cover plate, a top reinforcing rib, a feeding hole, a side overhauling cover plate, a drying section shell, an air channel partition plate, an air channel bottom plate, an air channel sealing plate, a U-shaped clamping plate, a sealing plate fixing device, a discharging section shell, a reinforcing rib, a discharging hole, a discharging overhauling cover plate, an air inlet chamber shell, an air inlet, an air outlet chamber shell and an air outlet;

the material leveling device comprises a material leveling motor, a motor seat plate, a square seat, a rotating shaft, a material leveling shaft and a material leveling plate;

the vibrating device comprises a driving motor, a motor belt wheel, an eccentric belt wheel, a mounting plate, a diamond-shaped seat, a rotating shaft, a balancing weight, a suspension seat, a connecting rod, a spring plate, a reinforcing plate, a support plate, an elastomer pressing plate, a blocking plate, a feeding plate, a spring plate support and a protective plate;

the material level sensing device comprises a feeding high material level sensor, a feeding low material level sensor and a discharging low material level sensor;

the feeding section shell is arranged at the upper end of the whole shell part, a top cover plate is arranged at the top of the feeding section shell, a feeding port is formed in the top cover plate, a material leveling device is arranged at the top of the feeding section shell, a mounting hole for mounting a rotating shaft is reserved at the top of the feeding section shell, the rotating shaft is vertically mounted in the mounting hole, a material leveling shaft is arranged at the lower end of the rotating shaft, a material leveling plate is connected below the material leveling shaft, the upper end of the rotating shaft is connected with a material leveling motor through a square base, the square base and a motor base plate are mounted at the top of the feeding section shell, the material leveling motor is mounted on the motor base plate at the top of the feeding section shell, an access hole is formed in the right side of the feeding section shell;

a drying section shell is arranged below the feeding section shell, an air channel partition plate is arranged in the drying section shell, an air channel bottom plate is arranged below the air channel partition plate, air channels for air circulation are formed among the air channel partition plate, the air channel bottom plate and the drying section shell, the air channels are alternately arranged from one side of the drying section shell to an air outlet channel A and an air inlet channel B, a material flowing region D is formed between two adjacent air channel partition plates, a U-shaped clamping plate is arranged at the bottom of the air channel partition plate, an air channel sealing plate is clamped in the U-shaped clamping plate, a feeding plate is arranged below the air channel sealing plate, reinforcing plates are arranged at two ends of the feeding plate, blocking plates are arranged at the lower ends of the reinforcing plates, a spring plate support is arranged on each reinforcing plate, one end of each spring plate is connected onto each spring plate support, the other end of each spring plate is connected, the rotating shaft penetrates through the mounting plate, the mounting plate is connected with the blocking plate, the two ends of the rotating shaft are provided with the balancing weight and the rhombic seat, the rhombic seat is arranged on the mounting plate, the outer side of the mounting plate is provided with the eccentric belt wheel, the mounting plate on one side provided with the eccentric belt wheel is provided with the driving motor, the driving motor is provided with the motor belt wheel, the eccentric belt wheel and the motor belt wheel synchronously rotate through the V-belt, the mounting plate and the reinforcing plate are provided with two supporting plates, and the elastomer is mounted;

one side of the drying section shell is an exhaust chamber shell, the other side of the drying section shell is an air inlet chamber shell, an air outlet is formed in the exhaust chamber shell, and an air inlet is formed in the air inlet chamber shell;

the lower end of the drying section shell is connected with a discharging section shell, the discharging section shell is composed of four plates and is of a quadrangular pyramid surface structure, a discharging port is arranged at the bottom of the discharging section shell, and one conical surface of the discharging section shell is provided with a discharging overhaul cover plate and a discharging low material level sensor.

Furthermore, a top reinforcing rib is arranged on the top cover plate.

Further, a gap between the feeding plate and the air duct partition plate is secondarily fixed through a sealing plate fixing device.

Further, the vibrating device is entirely sealed by a protector plate connected to the housing portion and the mounting plate.

Furthermore, all be provided with the strengthening rib on the four sides of ejection of compact section casing.

Furthermore, the gap between the air duct partition plate and the feeding plate is smaller than the particle size of the dried material.

Compared with the prior art, the invention has the beneficial effects that:

the method has the advantages that: the material drying section adopts a straight-through structure, so that the materials in all areas fall simultaneously in the whole drying process, the condition of uneven local discharging is avoided, the bottom of the material drying section adopts a vibration discharging structure, the materials in the whole drying section are dried and discharged in time, and the materials entering a bin are completely discharged after being dried, so that the problem that the edge materials are always kept in the bin for drying due to the centralized discharging of the middle part is thoroughly solved, and the material drying quality is effectively improved;

the method has the advantages that: the air inlet channel, the air outlet channel and the material flowing area formed by the air channel partition plates are arranged on the same plane, so that the drying medium vertically penetrates through the materials, the materials are dried in the material flowing process, and the function of online drying is realized. The drying quality and the drying efficiency are effectively improved;

the method has the advantages that: the material leveling device and the mechanical material leveling mode are adopted, so that natural accumulation of materials due to friction in the feeding process is effectively eliminated, the materials in the bin are uniformly distributed, the materials in the bin are dried better, material accumulation caused by the influence of the overall height of the equipment on a material accumulation angle is not required to be considered, and the height of the equipment is effectively reduced;

the advantages are that: the vibrating type discharging structure is adopted, so that an evacuation effect is generated on the coated materials in the vibrating discharging process, the problems of material adhesion and material blockage at a discharging port cannot occur in the drying and discharging processes, the equipment failure rate is reduced, and the material drying efficiency is improved;

the advantages are that: the drying medium can fully dry the materials in the drying section and the discharging section, so that the retention time of the materials in the bin is reduced, the drying efficiency is improved, and the drying quality is ensured;

the method has the advantages that: a material level alarm device is arranged, the material level condition in the bin is constantly monitored in the operation process of the equipment, the material quantity in the bin is controlled by combining monitoring signals with the adjustment of feeding and discharging, the fault occurrence rate of the equipment is reduced, the fault real-time alarm processing is carried out, and the working efficiency of the equipment is improved;

the method has the advantages that: and an access hole is reserved at the key position of the equipment, so that the equipment is convenient for an operator to carry out fault maintenance and regular maintenance on the equipment.

Drawings

FIG. 1 is an isometric view of the present invention;

FIG. 2 is a view of the housing structure of the present invention;

FIG. 3 is a view showing the construction of the leveling device according to the present invention;

FIG. 4 is an isometric view of the vibratory feeding apparatus of the present invention;

FIG. 5 is a front view of the vibratory feeding apparatus of the present invention;

FIG. 6 is a left side view of the present invention;

FIG. 7 is a cross-sectional view of the invention A-A;

FIG. 8 is a front view of the present invention;

FIG. 9 is a cross-sectional view of the invention B-B;

fig. 10 is a partial view of the present invention.

In the figure: 1-shell part, 2-material flattening device, 3-vibrating device, 4-material level sensing device, 11-feeding section shell, 111-top cover plate, 112-top reinforcing rib, 113-feeding hole, 114-side overhaul cover plate, 12-drying section shell, 121-air duct partition plate, 122-air duct bottom plate, 123-air duct sealing plate, 124-U-shaped clamping plate, 125-sealing plate fixing device, 13-discharging section shell, 131-reinforcing rib, 132-discharging hole, 133-discharging overhaul cover plate, 14-air inlet chamber shell, 141-air inlet, 15-air outlet chamber shell, 151-air outlet, 21-material flattening motor, 22-motor seat plate, 23-square seat, 24-rotating shaft, 25-material flattening shaft, 26-material flattening plate, 31-driving motor, 32-motor belt wheel, 33-eccentric belt wheel, 34-mounting plate, 35-diamond seat, 36-rotating shaft, 37-counterweight block, 38-suspension seat, suspension seat, 39-connecting rod, 310-spring plate, 320-reinforcing plate, 330-supporting plate, 340-elastomer, 350-elastomer pressing plate, 360-blocking plate, 370-feeding plate, 380-spring plate support, 390-protecting plate, 41-feeding high-material level inductor, 42-feeding low-material level inductor, 43-discharging low-material level inductor, A-air outlet channel, B-air inlet channel and D-material flowing area.

Detailed Description

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

As shown in fig. 1-10, a vibration drying device for easily-adhered materials comprises a shell part 1, a material flattening device 2 arranged at the top of the shell part 1, a vibration device 3 and a material level sensing device 4 which are arranged inside the shell part 1;

the shell part 1 comprises a feeding section shell 11, a top cover plate 111, a top reinforcing rib 112, a feeding hole 113, a side overhaul cover plate 114, a drying section shell 12, an air duct partition plate 121, an air duct bottom plate 122, an air duct sealing plate 123, a U-shaped clamping plate 124, a sealing plate fixing device 125, a discharging section shell 13, a reinforcing rib 131, a discharging hole 132, a discharging overhaul cover plate 133, an air inlet chamber shell 14, an air inlet 141, an air outlet chamber shell 15 and an air outlet 151;

the material leveling device 2 comprises a material leveling motor 21, a motor seat plate 22, a square seat 23, a rotating shaft 24, a material leveling shaft 25 and a material leveling plate 26;

the vibrating device 3 comprises a driving motor 31, a motor belt wheel 32, an eccentric belt wheel 33, a mounting plate 34, a diamond-shaped seat 35, a rotating shaft 36, a balancing weight 37, a suspension seat 38, a connecting rod 39, a spring plate 310, a reinforcing plate 320, a support plate 330, an elastic body 340, an elastic body pressing plate 350, a blocking plate 360, a feeding plate 370, a spring plate support 380 and a guard plate 390;

the material level sensing device 4 comprises a feeding high material level sensor 41, a feeding low material level sensor 42 and a discharging low material level sensor 43;

the upper end of the whole shell part 1 is a feeding section shell 11, the top of the feeding section shell 11 is provided with a top cover plate 111, the top cover plate 111 is provided with a top reinforcing rib 112 and a feeding hole 113, the top reinforcing rib 112 is used for increasing the strength of the top surface, the top of the feeding section shell 11 is provided with a material leveling device 2, the top of the feeding section shell 11 is provided with a mounting hole for mounting a rotating shaft 24, the rotating shaft 24 is vertically arranged in the mounting hole, a material leveling shaft 25 is arranged at the lower end of the rotating shaft 24, a material leveling plate 26 is connected below the material leveling shaft 25, the upper end of the rotating shaft 24 is connected with a material leveling motor 21 through a square seat 23, the square seat 23 and a motor seat plate 22 are installed at the top of the feeding section shell 11, the material leveling motor 21 is installed on the motor seat plate 22 at the top of the feeding section shell 11, an access hole is formed in the right side of the feeding section shell 11, a side access cover plate 114 is arranged, and a feeding high material level inductor 41 and a feeding low material level inductor 42 are arranged beside the side access cover plate 114;

a drying section shell 12 is arranged below the feeding section shell 11, an air duct partition plate 121 is arranged inside the drying section shell 12, an air duct bottom plate 122 is arranged below the air duct partition plate 121, air ducts 121, the air duct bottom plate 122 and a channel for air circulation are formed among the drying section shell 12, the channels are alternately arranged with an air outlet channel A and an air inlet channel B from one side of the drying section shell 12, a material flowing area D is formed between two adjacent air duct partition plates 121, a U-shaped clamping plate 124 is arranged at the bottom of the air duct partition plate 121, an air duct sealing plate 123 is clamped inside the U-shaped clamping plate 124, a feeding plate 370 is arranged below the air duct sealing plate 123, reinforcing plates 320 are arranged at two ends of the feeding plate 370, a blocking plate 360 is arranged at the lower end of the reinforcing plate 320, a spring plate support 380 is arranged on the reinforcing plate 320, one end of the spring plate support 380 is connected with one end of a spring plate, a hanging seat 38 is arranged at the other end of the connecting rod 39, a rotating shaft 36 is installed on the hanging seat 38, the rotating shaft 36 penetrates through the installation plate 34, the installation plate 34 is connected with the blocking plate 360, a balancing weight 37 and a rhombic seat 35 are installed at two ends of the rotating shaft 36, the rhombic seat 35 is arranged on the installation plate 34, an eccentric belt wheel 33 is installed on the outer side of the installation plate 34, a driving motor 31 is installed on the installation plate 34 on one side where the eccentric belt wheel 33 is installed, a motor belt wheel 32 is installed on the driving motor 31, the eccentric belt wheel 33 and the motor belt wheel 32 synchronously rotate through a triangular belt, two support plates 330 are arranged on the installation plate 34 and the reinforcing plate 320;

one side of the drying section shell 12 is an exhaust chamber shell 15, the other side is an air inlet chamber shell 14, an air outlet 151 is arranged on the exhaust chamber shell 15, and an air inlet 141 is arranged on the air inlet chamber shell 14;

the lower end of the drying section shell 12 is connected with a discharging section shell 13, the discharging section shell 13 is composed of four plates and is of a quadrangular pyramid surface structure, reinforcing ribs 131 are arranged on four surfaces of the discharging section shell 13, a discharging port 132 is arranged at the bottom of the discharging section shell 13, one conical surface of the discharging section shell 13 is provided with a discharging maintenance cover plate 133 and a discharging low material level sensor 43

When the drying device is used specifically, materials enter from the feeding hole 113 on the top cover plate 111 and fall onto the feeding plate 370 through the material flowing area D formed between the two air duct partition plates 121, the gap between the feeding plate 370 and the air duct partition plates 121 is secondarily fixed through the sealing plate fixing device 125, the gap between the air duct partition plates 121 and the feeding plate 370 is smaller than the particle size of the dried materials, and the materials cannot pass through the gaps on the two sides; at this time, the drying hot air enters from the air inlet 141, passes through the material through the air inlet channel B, enters the air outlet channel a, and is discharged through the air outlet 151, so as to dry the material in the process.

When the material enters the feeding hole 113, the material leveling device 2 is started, the material leveling motor 21 is operated by electricity to drive the rotating shaft 24, the material leveling shaft 25 and the material leveling plate 26 to rotate, so that the natural accumulation phenomenon caused by the material accumulation angle is avoided, and the materials in the bin are uniformly distributed all the time.

When the materials in the bin are accumulated to the feeding low material level sensor 42, the vibrating device 3 starts to act, the driving motor 31 starts to drive the motor belt wheel 32 and the eccentric belt wheel 33 to operate, so that the rotating shaft 36 rotates to drive the balancing weight 37 and the suspension seat 38 to rotate, the connecting rod 39 and the spring plate 310 start to reciprocate, the supporting plate 330, the elastomer 340 and the elastomer pressing plate 350 drive the feeding plate 370 to vibrate and discharge, and the materials enter the discharging section shell 13 through the material plate 370 and are finally discharged from the discharging hole 132. In the whole vibrating and discharging process, the support plate 330, the elastic body 340 and the elastic body pressing plate 350 form a damping mechanism to play a damping role.

When the material in the bin is accumulated in the feeding high level sensor 41, the feeding port 113 stops feeding.

The discharging low material level sensor 43 is used for adjusting the material feeding and discharging amount in the bin to reach a balance state when the equipment is started at the initial stage, and when the material in the bin is lower than the discharging low material level sensor 43, the vibrating device 3 stops acting, and the residual material naturally flows out.

Claims (6)

1. A vibration drying device for easily-bonded materials is characterized by comprising a shell part (1), a material flattening device (2) arranged at the top of the shell part (1), a vibration device (3) and a material level sensing device (4) which are positioned in the shell part (1);

the shell part (1) comprises a feeding section shell (11), a top cover plate (111), top reinforcing ribs (112), a feeding port (113), a side overhauling cover plate (114), a drying section shell (12), an air duct partition plate (121), an air duct bottom plate (122), an air duct sealing plate (123), a U-shaped clamping plate (124), a sealing plate fixing device (125), a discharging section shell (13), reinforcing ribs (131), a discharging port (132), a discharging overhauling cover plate (133), an air inlet chamber shell (14), an air inlet (141), an air exhaust chamber shell (15) and an air outlet (151);

the material leveling device (2) comprises a material leveling motor (21), a motor seat plate (22), a square seat (23), a rotating shaft (24), a material leveling shaft (25) and a material leveling plate (26);

the vibrating device (3) comprises a driving motor (31), a motor belt wheel (32), an eccentric belt wheel (33), a mounting plate (34), a diamond-shaped seat (35), a rotating shaft (36), a balancing weight (37), a suspension seat (38), a connecting rod (39), a spring plate (310), a reinforcing plate (320), a support plate (330), an elastic body (340), an elastic body pressing plate (350), a blocking plate (360), a feeding plate (370), a spring plate support (380) and a protection plate (390);

the material level sensing device (4) comprises a feeding high material level sensor (41), a feeding low material level sensor ((42)) and a discharging low material level sensor (43);

the upper end of the whole shell part (1) is a feeding section shell (11), the top of the feeding section shell (11) is provided with a top cover plate (111), the top cover plate (111) is provided with a feeding hole (113), the top of the feeding section shell (11) is provided with a material flattening device (2), the top of the feeding section shell (11) is provided with a mounting hole for mounting a rotating shaft (24), the rotating shaft (24) is vertically mounted in the mounting hole, the lower end of the rotating shaft (24) is provided with a material flattening shaft (25), a material flattening plate (26) is connected below the material flattening shaft (25), the upper end of the rotating shaft (24) is connected with a material flattening motor (21) through a square seat (23), the square seat (23) and a motor seat plate (22) are mounted at the top of the feeding section shell (11), the material flattening motor (21) is mounted on the motor seat plate (22) at the top of the feeding section shell (11, a side surface overhauling cover plate (114) is arranged, and a feeding high material level inductor (41) and a feeding low material level inductor (42) are arranged beside the side surface overhauling cover plate (114);

a drying section shell (12) is arranged below the feeding section shell (11), an air duct partition plate (121) is arranged inside the drying section shell (12), an air duct bottom plate (122) is arranged below the air duct partition plate (121), air duct partition plates (121), the air duct bottom plate (122) and a channel for air circulation are formed among the drying section shell (12), the channel is alternately arranged by an air outlet channel A and an air inlet channel B from one side of the drying section shell (12), a material flowing area D is formed between every two adjacent air duct partition plates (121), a U-shaped clamping plate (124) is arranged at the bottom of each air duct partition plate (121), an air duct sealing plate (123) is clamped inside each U-shaped clamping plate (124), a feeding plate (370) is arranged below each air duct sealing plate (123), reinforcing plates (320) are arranged at two ends of each feeding plate (370), a blocking plate (360) is arranged at the lower end of each reinforcing plate (320), and a spring plate support (380) is, one end of a spring plate (310) is connected to a spring plate support (380), the other end of the spring plate (310) is connected with one end of a connecting rod (39), a suspension seat (38) is arranged at the end head of the other end of the connecting rod (39), a rotating shaft (36) is installed on the suspension seat (38), the rotating shaft (36) penetrates through a mounting plate (34), the mounting plate (34) is connected with a blocking plate (360), a balancing weight (37) and a rhombic seat (35) are installed at two ends of the rotating shaft (36), the rhombic seat (35) is arranged on the mounting plate (34), an eccentric belt wheel (33) is installed on the outer side of the mounting plate (34), a driving motor (31) is installed on the mounting plate (34) on one side provided with the eccentric belt wheel (33), a motor belt wheel (32) is installed on the driving motor (31), the eccentric belt wheel (33) synchronously rotates with the motor wheel (32) through a triangular belt, the elastic body (340) is arranged on the support plate (330) through an elastic body pressure plate (350);

one side of the drying section shell (12) is an exhaust chamber shell (15), the other side of the drying section shell is an air inlet chamber shell (14), an air outlet (151) is formed in the exhaust chamber shell (15), and an air inlet (141) is formed in the air inlet chamber shell (14);

the lower end of the drying section shell (12) is connected with a discharging section shell (13), the discharging section shell (13) is composed of four plates and is of a quadrangular pyramid surface structure, a discharging hole (132) is formed in the bottom of the discharging section shell (13), and one conical surface of the discharging section shell (13) is provided with a discharging maintenance cover plate (133) and a discharging low material level sensor (43).

2. The vibration dryer for the easily-bonded materials as claimed in claim 1, wherein the top cover plate (111) is provided with top ribs (112).

3. The vibration drying device for the easily-bonded materials as claimed in claim 1, wherein the gap between the feeding plate (370) and the air duct partition plate (121) is secondarily fixed by the sealing plate fixing device (125).

4. A vibration drying apparatus for easily bondable material according to claim 1, wherein the vibration device (3) is integrally sealed by a cover (390) connected to the casing portion (1) and the mounting plate (34).

5. The vibration drying device for the easily-bonded materials according to claim 1, wherein the discharging section shell (13) is provided with reinforcing ribs (131) on four sides.

6. The vibration drying device for the easily-bonded materials as claimed in claim 1, wherein the gap between the air duct partition plate (121) and the feeding plate (370) is smaller than the particle size of the materials to be dried.

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