CN115196367B

CN115196367B - Dust removal anti-blocking material vibration lifting device

Info

Publication number: CN115196367B
Application number: CN202210822290.2A
Authority: CN
Inventors: 肖丽萍; 周盛昌; 詹毅荣; 邢传峰; 罗作明; 吴有林
Original assignee: Liaoning Aonong Feed Co ltd; Fujian Aonong Biological Technology Group Co Ltd
Current assignee: Changchun Aonong Biotechnology Co ltd; Jilin Yingshanhong Feed Co ltd; Liaoning Aonong Feed Co ltd; Fujian Aonong Biological Technology Group Co Ltd
Priority date: 2022-07-13
Filing date: 2022-07-13
Publication date: 2023-05-09
Anticipated expiration: 2042-07-13
Also published as: CN115196367A

Abstract

The invention provides a dust-removing anti-blocking material vibration lifting device, which comprises two sections of spiral feeding frames, a double-layer feeding disc, a feeding hole, a discharging hole, a vibration motor and a detachable screen disc, wherein the two sections of spiral feeding frames are respectively provided with a hollow tray and a gradual-change hollow tray; according to the vibration lifting device, the materials are layered before feeding and are filtered by the lifted screen disc, so that fine dust, broken slag and the like in the materials are removed, and the harm of the dust to human bodies and working environments is reduced; the traditional uniform feeding process is changed into the accelerated feeding process, so that the feeding efficiency is effectively improved, and the material blockage is reduced; meanwhile, the pile extrusion passive discharging is changed into active discharging, so that the coagulation and blockage of materials are further prevented, the discharging efficiency is greatly improved, dust pollution is avoided, and the product quality and the production efficiency are effectively improved.

Description

Dust removal anti-blocking material vibration lifting device

Technical Field

The invention relates to the field of elevators, in particular to a dust-removing anti-blocking material vibration lifting device.

Background

Modern manufacturing and processing enterprises generally adopt a lifter to carry out matched processing, transferring and lifting on granular, powdery and massive materials, and the existing lifter has the following common problems when in use: 1. the screening filtration is absent after feeding, so that dust and powder are doped in the fed particles; 2. the outer diameters of spiral conveying grooves of the existing vibration elevator are uniform, and the lifting speed of the existing vibration elevator is uniform, so that acceleration feeding cannot be realized in patent documents such as CN204453606U, CN 206939699U; 3. the feeding disc is easy to generate dust pollution; 4. the discharging efficiency is low, the materials are extruded to discharge materials in front by means of the stacking acting force of the materials, and the blocking condition of the coagulated mass is easy to occur.

The problems are common in the prior art, are not solved, severely restrict the product quality and the production efficiency, even cause equipment failure and environmental dust pollution, and are not beneficial to the technical progress of the industry.

Disclosure of Invention

In order to solve the above-mentioned problems in the background art, the present invention provides a dust-removing anti-blocking material vibration lifting device, including:

the rack body comprises a lower end base, two sections of independent spiral feeding racks are arranged on the upper portion of the base, the spiral feeding racks are in gradient spiral connection with a multi-layer hollow tray structure, and the outer diameters of the hollow trays of the first spiral feeding racks are the same; the second spiral feeding frame is arranged above the first spiral feeding frame, and is a gradual change type hollow tray, namely, the gradual change type multilayer hollow tray structure is gradually reduced in outer diameter from bottom to top; a hollow bracket is fixed outside the spiral feeding frame;

the feeding disc is of a double-layer structure, the upper layer is a material bearing disc distributed over fine sieve holes, the lower layer is provided with a vibrator, and the vibrator is connected with the material bearing disc on the upper layer;

the feed inlet is connected with the feed tray, and a cutter disc is arranged at the feed inlet;

the detachable screen disc is arranged at the upper end of the spiral feeding frame, is connected with the second spiral feeding frame, comprises an upper screen disc and a lower screen disc cavity, and is provided with a plurality of screen holes; a conical cover with high middle and low periphery is arranged in the sieve tray cavity, at least three switch windows are arranged at equal intervals outside the sieve tray cavity, and a pressure sensor is also arranged inside the sieve tray cavity;

the discharge port is connected with the detachable screen disc;

and the vibration motor is fixed above the detachable screen disc.

More preferably, an air pipe is arranged in the hollow bracket, and an air suction opening is formed in the air pipe at the feeding disc.

More preferably, the feed inlet is connected with the feed tray through a feed pipe, a support plate is arranged in the feed pipe, and a cutter disc is arranged on the inner wall of the feed pipe at the upper part of the support plate.

More preferably, the discharge port is communicated with a discharge channel, and the discharge channel is connected with a sieve tray cavity of the detachable sieve tray.

More preferably, the lower end base of the frame body extends out of the supporting foot frame in the horizontal direction, and the supporting foot frame is provided with a foundation bolt hole.

More preferably, the feeding disc is arranged below the first spiral feeding frame and props against the lowest hollow tray of the first spiral feeding frame, and a slag discharging port is formed in the lower layer of the feeding disc.

More preferably, the cutter disc is secured to the upper wall of the feed tube by a mounting block, and the cutter disc is removable.

More preferably, the discharging pipe channel is internally provided with wave shaft threads, and the wave shaft threads are connected with a motor outside the discharging channel.

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

(1) The feeding disc is of a double-layer structure, after materials are placed in the feeding disc, the feeding disc vibrates up and down through the vibrator at the lower layer, fine dust and slag are vibrated to the lower layer, conventional materials vibrate to the upper layer, layering of the materials before feeding is achieved, the screening disc is lifted to filter, fine dust, slag and the like in the materials are screened out in the whole process, and dust pollution is reduced. In addition, when the feeding disc is used for feeding and the vibrator is used for working, dust aeration pollution is easy to generate, and the design of the exhaust port is additionally arranged, so that the harm of dust and harmful gas to human bodies and working environments can be reduced synergistically and greatly, dust and slag can be directly discharged from the feeding disc, the cleaning frequency of equipment and the manual working intensity are reduced, and further the production efficiency is improved.

(2) In the aspect of feeding, a cutter head is additionally arranged at a feed inlet, the materials are cut and separated in advance, and the blocking condition of material coagulated lumps at the feed inlet is reduced; simultaneously spiral charging frame has two sections, and first half section spiral charging frame (first spiral charging frame) cavity tray external diameter is the same, realizes at the uniform velocity the material loading, and second half section spiral charging frame (second spiral charging frame) cavity tray external diameter is established to gradually decrease, and this section material loading process external diameter diminishes, and the centrifugal force of material removal process grow, and the material loading speed accelerates, and the traditional at the uniform velocity material loading process of change is can accelerate the material loading process, effectively promotes material loading efficiency, reduces the material jam.

In the aspect of discharging, the wavy shaft threads are additionally arranged in the discharging pipe, and the discharging pipe is matched with a motor, so that the piling and extruding passive discharging is changed into active discharging, the blocking condition of material agglomeration is further prevented, the discharging efficiency is greatly improved, dust pollution is avoided, the product loss and the environmental pollution are reduced to the greatest extent, the product quality and the production efficiency are effectively improved, and the discharging pipe is green, safe and environment-friendly.

(3) The screen disc is detachably replaced by other screen holes, so that the adaptability and the application range of the device are enhanced; the sieve tray further filters dust, residues and the like generated after lifting, so that the dust removal effect is improved; the screen disc is also provided with a pressure sensor, so that the material deviation and equipment shaking caused by the large weight of the material and uneven distribution and stress of the material are prevented, and the process control is facilitated.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of the removable screen tray of the present invention;

FIG. 3 is a schematic cross-sectional view of a feed tray of the present invention;

FIG. 4 is a schematic view of a cutter disc of the present invention;

FIG. 5 is a schematic view of wave shaft threads in a discharge channel of the present invention;

FIG. 6 is a schematic structural view of a hollow stent of the present invention;

in the figure: 1. a vibration motor; 2. a motor base; 3. a feed inlet; 31. a cutter disc; 32. a support plate; 33. a feed pipe; 34. a mounting base; 4. a lower base; 5. a first spiral feeding frame; 6. a second spiral feeding frame; 7. a hollow stent; 71. an air duct; 72. an air suction port; 8. a feed tray; 81. a vibrator; 82. fine mesh; 83. a slag discharge port; 84. a material carrying tray; 9. a detachable screen tray; 91. an upper layer screen tray; 92. a sieve tray cavity; 93. a sieve pore; 94. a conical cover; 95. a switch window; 96. a pressure sensor; 10. a discharge port; 110. a discharge channel; 111. wave shaft threads; 112. an external motor; 11. a support foot rest; 12. a foundation bolt hole; 13. a hollow tray; 14. a gradual change type hollow tray.

Detailed Description

The invention will be further described with reference to the drawings and the specific examples.

Examples

Referring to fig. 1 to 6 in combination, fig. 1 is a schematic view of the overall structure of the present invention, fig. 2 is a schematic view of the detachable screen disc of the present invention, fig. 3 is a schematic view of the feed disc of the present invention, fig. 4 is a schematic view of the cutter disc of the present invention, and fig. 5 is a schematic view of the wave shaft threads in the discharge channel of the present invention; fig. 6 is a schematic structural view of the hollow stent of the present invention.

In this embodiment, provide a dust removal anti-blocking formula material vibration hoisting device, include: the frame body specifically comprises a lower end base 4, two sections of independent spiral feeding frames are arranged on the upper portion of the lower end base 4, the two sections of spiral feeding frames are of a multi-layer hollow tray 13 structure, the multi-layer hollow tray 13 structure is in gradient spiral connection, and the outer diameters of the hollow trays 13 of the first spiral feeding frames 5 are the same; the second spiral feeding frame 6 is arranged above the first spiral feeding frame 5, and the second spiral feeding frame 6 is a gradual change type hollow tray 14, that is, the gradual change type multilayer hollow tray 14 structure gradually reduces the outer diameter from bottom to top. In this embodiment, in order to avoid higher material conveying speed in the gradual change type multilayer hollow tray 14 with smaller outer diameter, the design of power and vibration parameters set by the vibration motor 1 should be combined to prevent the material from tilting and scattering due to too fast movement rate.

In the frame body structure, the outside of the two-section spiral feeding frame is fixed with a hollow bracket 7, and referring to fig. 3 and 6, the hollow bracket 7 of the embodiment is of a hollow structure, an air pipe 71 is arranged in the hollow part of the hollow bracket, the air pipe 71 is connected with a fan through an external pve hose, and the fan and the external pve hose are both selected conventionally. An air suction opening 72 is provided at the lower part of the air duct 71, and in this embodiment the air suction opening 72 is provided at the feed tray 8. Referring to fig. 3, the feeding tray 8 is a double-layer structure, and the feeding tray 8 is disposed below the first spiral feeding frame 5 and abuts against the lowest hollow tray 13 of the first spiral feeding frame 5.

The upper layer of the feeding disc 8 is a material bearing disc 84 distributed over the fine sieve holes 82, the lower layer is provided with a vibrator 81, and the vibrator 81 is connected with the material bearing disc 84 on the upper layer; after the feeding disc 8 is fed, a vibrator 81 can be used for carrying out front material screening operation, the vibrator 81 drives an upper material bearing disc 84 to vibrate rapidly, fine dust and slag vibrate to the lower part and are screened to the lower layer through fine screening holes 82 distributed on the material bearing disc 84, layering of materials before feeding is achieved, and fine dust, slag and materials are prevented from rising simultaneously. The slag discharge port 83 is arranged at the lower layer of the feeding disc 8, and after the feeding process is finished, dust and broken slag remained in the feeding disc 8 can be discharged through the slag discharge port 83, so that the cleaning frequency of equipment and the manual operation intensity are reduced, and the production efficiency is further improved. When the feeding disc 8 feeds materials and the vibrator 81 works, dust aeration pollution is easy to generate, and the harm of dust to human bodies and working environments can be greatly reduced through the design of the air suction opening 72.

More specifically, with reference to the schematic view of the cutter disc of the present invention as shown in fig. 4, the present embodiment is provided with a feed inlet 3, the feed inlet 3 is connected to the feed disc 8 through a feed tube 33, a support plate 32 is provided in the feed tube 33 and connected to the cutter disc 31 at the upper portion thereof, the cutter disc 31 is fastened by a mounting seat 34 and fixed to the upper wall of the feed tube 33, the fastening structure enables the cutter disc 31 to be detachable, the cutter disc 31 plays a role of front cutting and separating, and the cutter disc 31 can be detached and replaced according to the size and shape of the material, for example, when processing granular material, the cutter disc 31 is replaced with a mesh-shaped cutter disc.

In this embodiment, a detachable screen tray 9 is further provided, referring to fig. 1 and fig. 2, the detachable screen tray 9 is disposed at the upper end of the spiral feeding frame and is connected to the second spiral feeding frame 6, the detachable screen tray 9 includes an upper screen tray 91 and a lower screen tray cavity 92, a plurality of screen holes 93 are disposed on the tray surface of the upper screen tray 91, the screen holes 93 are designed according to the properties of materials and technological requirements, and the adaptability and application range of the device are enhanced; the upper layer sieve tray 91 further filters dust and residues generated after lifting, the dust removal effect is improved, a conical cover 94 with high middle and low periphery is arranged in the sieve tray cavity 92, the conical cover 94 has the function of enabling impurities screened by the upper layer sieve tray 91 to roll down to the periphery of the sieve tray cavity 92, and at least three switch windows 95, preferably 4 switch windows are arranged at equal intervals outside the sieve tray cavity 92 to further remove the impurities; the pressure sensor 96 is further arranged in the sieve tray cavity 92, the weight of discharged products can be recorded through the design of the pressure sensor 96, and the material deviation and equipment shaking caused by the fact that the weight of the material is large and the distribution and stress of the material are uneven are prevented, so that the process control is facilitated.

It should be further noted that the device is also provided with a discharge port 10, which is connected with the detachable screen disc 9, and the material screened by the screen disc further enters the discharge port 10 to be discharged. In the prior art, the materials are generally directly discharged after being lifted by vibration, and the blockage and adhesion are very easy to occur. Referring to the schematic diagram of wave shaft threads in the discharge channel of fig. 5 of the invention, the discharge channel 110 is connected with the sieve tray cavity 92 of the detachable sieve tray 9, wave shaft threads 111 are arranged in the discharge channel 110, the wave shaft threads 111 are connected with an external motor 112 of the discharge channel 110, the external motor 112 drives the wave shaft threads 111 to rotate, materials are positioned in gaps among the threads, a pulling force along the discharge channel 110 is generated along with the rotation process, the materials are directly pulled out, the vibration movement of the materials and the centrifugal force generated by the rotation of the wave shaft threads 111 are matched, the passive discharge is changed into active discharge, the discharge efficiency is greatly improved, the blocking condition of the materials is further prevented, dust pollution is avoided, the product loss and environmental pollution are reduced to the greatest extent, the product quality and the production efficiency are effectively improved, and the device is green, safe and environment-friendly.

In this embodiment, the lower end base 4 extends out of the supporting leg 11 in the horizontal direction, and the supporting leg 11 is provided with a foundation bolt hole 12, and is fixedly connected through the foundation bolt, so as to ensure stability and reliability of the device. The vibrating motor 1 is fixed on two sides of the motor base 2 above the detachable screen disc 9, various functions are realized by the above vibrating principle, and the distance between the feeding disc 8 and the ground is effectively reduced.

In the embodiment, in the aspect of feeding, a cutter disc is additionally arranged at a feeding port 3 to cut and separate materials in advance, so that the blocking condition of material coagulated lumps at the feeding port is reduced; meanwhile, the spiral feeding frame is provided with two sections, the outer diameters of the hollow trays 13 of the first half section spiral feeding frame (the first spiral feeding frame 5) are the same, uniform feeding is realized, the outer diameters of the gradual change type hollow trays 14 of the second half section spiral feeding frame (the second spiral feeding frame 6) are gradually changed to be small, the outer diameter of the feeding process of the section is reduced, the centrifugal force in the material moving process is increased, the feeding speed is increased, the feeding efficiency is effectively improved, and the material blockage is reduced.

In the aspect of discharging, the wave shaft threads 111 are additionally arranged in the discharging port 10, and the passive discharging is changed into active discharging by matching with the external motor 112, so that the discharging efficiency is greatly improved, and the material blocking condition is further prevented.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "vertical," "horizontal," "inner," "outer," and the like indicate an orientation or a positional relationship based on that shown in the drawings, merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, since the limitation of the present invention is not to be construed.

In the present invention, unless explicitly specified and limited otherwise, terms such as "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, connected, detachably connected, or integrated; can be mechanically or electrically connected; either directly or indirectly via an intermediary, etc.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present invention.

Claims

1. The utility model provides a prevent stifled material vibration hoisting device removes dust which characterized in that includes:

the discharge port is connected with the detachable screen disc;

and the vibration motor is fixed above the detachable screen disc.

2. The dust removal anti-blocking material vibration lifting device according to claim 1, wherein an air pipe is arranged in the hollow bracket, and an air suction opening is formed in the air pipe at the feeding disc.

3. The dust removal anti-blocking material vibration lifting device according to claim 1, wherein the feeding port is connected with the feeding disc through a feeding pipe, a supporting plate is arranged in the feeding pipe, and a cutter disc is arranged on the inner wall of the feeding pipe at the upper part of the supporting plate.

4. The dust removal anti-blocking material vibration lifting device according to claim 1, wherein the discharge port is communicated with a discharge channel, and the discharge channel is connected with a screen disc cavity of the detachable screen disc.

5. The dust removal anti-blocking material vibration lifting device according to claim 1, wherein the lower end base of the frame body extends out of a supporting foot frame in the horizontal direction, and a foundation bolt hole is formed in the supporting foot frame.

6. The dust removal anti-blocking material vibration lifting device according to claim 1, wherein the feeding disc is arranged below the first spiral feeding frame and abuts against a hollow tray at the lowest layer of the first spiral feeding frame, and a slag discharging port is formed in the lower layer of the feeding disc.

7. A dust and block-resistant vibratory deck apparatus as set forth in claim 3 wherein said cutter disc is secured to said feed tube upper wall by a mounting block, said cutter disc being removable.

8. The dust removal anti-blocking material vibration lifting device according to claim 4, wherein a wave shaft thread is arranged in the discharging channel and is connected with an external motor of the discharging channel.