CN209939683U - Vibrating fluidization cooling conveyor - Google Patents

Abstract

The utility model relates to a vibration fluidization cooling conveyer, including sieve case (1), vibration source (2), cloth wind case (3) and cloth tuber pipe (4), when the material passes through on the conveyer, receive the effect of below cloth tuber pipe cooling air, the phenomenon that the material can appear rolling, jumping is similar to the water of boiling. The high-speed cooling air flows from bottom to top, and when the material is permeated, most heat is taken away, so that cold and heat exchange is completed, and the material is rapidly cooled. The cooling and dehumidifying device has good cooling and dehumidifying effects on the problems of high material temperature or sticky materials, and is simple in structure, convenient to maintain, energy-saving, environment-friendly and good in using effect.

Description

Vibrating fluidization cooling conveyor

Technical Field

The utility model relates to a material sorting technical field especially relates to a vibration fluidization cooling conveyer.

Background

The vibration conveyer is a continuous conveying machine which utilizes a vibration exciter to vibrate a trough so as to enable materials in the trough to slide or throw in a certain direction. Generally for horizontal transport. When the car is inclined upward, the productivity decreases as the inclination angle increases. Except some parts of the excitation mechanism, the relative rotating parts are few, the structure is simple, materials with various particle sizes can be conveyed, the hot, flammable and explosive materials, toxic and dusty materials can be conveyed in a closed manner, and the process operations such as screening, dehydration, cooling and the like can be completed simultaneously in the conveying process. But not viscous materials. It is commonly used in chemical and building material factories.

A vibrating conveyor is a device that continuously conveys material by the action of vibration. The vibration exciter mainly comprises a vibration exciter, a bearing groove, a main vibration spring, a machine frame and the like. Can be used for horizontally, slowly-inclined or vertically conveying (ascending along the spiral groove) various loose materials. The processes of screening, drying, dehydrating, cooling, mixing and the like can be simultaneously completed in the conveying process. The material with much dust and harmful components can be conveyed by a sealed groove body. The mine has simple structure and low power consumption, and is widely used in mines.

With the progress of society and the development of science and technology, the conveyor used in the industrial departments of mineral separation, steel, building materials and the like in the prior art has the problem that the conveying effect is influenced due to high temperature and high viscosity of materials when the conveyors encounter special materials. In particular, when the temperature of the fine-particle material is too high, a problem of high viscosity may be transmitted, which may affect the operation of the conveyor.

SUMMERY OF THE UTILITY MODEL

For overcoming the above-mentioned technical problem that prior art exists, the utility model provides a vibration fluidization cooling conveyer, it has rational in infrastructure, changes characteristics such as installation and adjustment convenience.

The utility model provides an above-mentioned technical problem's technical scheme as follows:

a vibrating fluidization cooling conveyor comprises a screen box 1, a vibration source 2, an air distribution box 3 and an air distribution pipe 4, wherein,

the vibration source 2 is connected with the screen box 1 and drives the screen box 1 to reciprocate in a limited range according to a set motion track; a plurality of air distribution pipes 4 are longitudinally arranged at the bottom of the sieve box 1 in parallel, and air inlet ends of the air distribution pipes 4 are connected with the air distribution box 3; the air distribution box 3 drives cooling air to uniformly flow to the plurality of air distribution pipes 4 at constant speed and equal pressure.

The peripheral surface of cloth tuber pipe 4 sets up a plurality of ventilative holes 5 according to wind speed wind pressure.

The ventilation holes 5 are uniformly arranged or are non-uniformly arranged according to the principle that the wind pressure of each ventilation hole 5 is the same.

The ventilation holes 5 are densely arranged on the peripheral surface of each air distribution pipe 4.

A plurality of internal reducing joints 6 are arranged inside the air distribution pipe 4, so that the air volume of each peripheral ventilation hole 5 is the same or nearly the same.

The air distribution pipe 4 is fixedly arranged on the bottom plate of the screen box 1.

The air distribution pipe 4 is a through steel pipe with internal ventilation.

The wind distribution box 3 is internally provided with a wind distribution plate for adjusting the wind direction of the cooling wind, so that the cooling wind flows to the plurality of wind distribution pipes 4 uniformly at constant speed and equal pressure.

The air distribution plate is a plurality of transversely arranged ventilating nets.

And a filter screen for filtering cooling air is arranged on the air distribution plate.

The utility model has the advantages that: when the materials pass through the conveyer, the materials are rolled and jumped under the action of cooling air of the air distribution pipe below the conveyer. Similar to boiling water. The high-speed cooling air flows from bottom to top, and when the material is permeated, most heat is taken away, so that cold and heat exchange is completed, and the material is rapidly cooled. The cooling and dehumidifying device has good cooling and dehumidifying effects on the problems of high material temperature or sticky materials, and is simple in structure, convenient to maintain, energy-saving, environment-friendly and good in using effect.

Drawings

Fig. 1 is a schematic structural view of a vibrating fluidized cooling conveyor provided in an embodiment of the present invention;

fig. 2 is a schematic structural view of a wind distributing box and a wind distributing pipe of the vibrating fluidized cooling conveyor provided by the embodiment of the present invention;

fig. 3 is a schematic view of an air distribution pipe structure of the vibrating fluidized cooling conveyor provided by the embodiment of the present invention.

In the drawings, the reference numerals denote the following components:

1-sieve box, 2-vibration source, 3-air distribution box, 4-air distribution pipe, 5-ventilation hole and 6-internal reducer union.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

The present embodiment provides a vibrating fluidized cooling conveyor, as shown in fig. 1, comprising a screen box 1, a vibration source 2, an air distribution box 3 and an air distribution pipe 4, wherein,

the vibration source 2 is connected with the screen box 1 and drives the screen box 1 to reciprocate in a limited range according to a set motion track; a plurality of air distribution pipes 4 are longitudinally arranged at the bottom of the sieve box 1 in parallel, and air inlet ends of the air distribution pipes 4 are connected with the air distribution box 3; the air distribution box 3 drives cooling air to uniformly flow to the plurality of air distribution pipes 4 at constant speed and equal pressure.

The air distribution pipe 4 is fixedly arranged on the bottom plate of the screen box 1.

As shown in fig. 2, the air distribution box 3 is arranged at the air inlet end of the air distribution pipe 4, and a plurality of air distribution pipes 4 are arranged in parallel and fixed on the bottom plate of the sieve box 1, can vibrate together with the sieve box 1, and can also be independently fixed without participating in vibration.

The wind distribution box 3 is internally provided with a wind distribution plate for adjusting the wind direction of the cooling wind, so that the cooling wind flows to the plurality of wind distribution pipes 4 uniformly at constant speed and equal pressure.

The air distribution plate is a plurality of transversely arranged ventilating nets.

And a filter screen for filtering cooling air is arranged on the air distribution plate.

As shown in fig. 3, a plurality of ventilation holes 5 are formed in the outer circumferential surface of the air distribution pipe 4 according to the wind speed and the wind pressure.

The ventilation holes 5 are uniformly arranged or are non-uniformly arranged according to the principle that the wind pressure of each ventilation hole 5 is the same.

The ventilation holes 5 are densely arranged on the peripheral surface of each air distribution pipe 4.

A plurality of internal reducing joints 6 are arranged inside the air distribution pipe 4, so that the air volume of each peripheral ventilation hole 5 is the same or nearly the same.

The air distribution pipe 4 is a through steel pipe with internal ventilation.

This embodiment adopts cloth bellows 3 and cloth tuber pipe 4 to the conveyer on external wind is even, and the material receives the effect of 4 cooling winds of below cloth tuber pipe when passing through on the conveyer, and the phenomenon that rolls, jump can appear in the material. Similar to boiling water. The high-speed cooling air flows from bottom to top, and when the material is permeated, most heat is taken away, so that cold and heat exchange is completed, and the material is rapidly cooled. Thereby achieving the purpose of cooling in the conveying process.

A screen box 1: the main bearing part of the equipment, on which the materials pass, and the air distribution pipe 4 and the like are fixed.

Vibration source 2: the device is positioned above the device, bears the power action of the device and drives the device to reciprocate in a limited range according to a certain motion track.

Air distributing box 3: the box that has the air distribution plate in, when the cooling air in the single air distribution pipe 4 flowed in from the fan, through the effect of air distribution plate, a plurality of air distribution pipes 4 of isobaric even flow direction of cooling air constant speed.

And (4) air distribution pipe: fix on sieve case 1 bottom plate and have the cooling air through the logical root steel pipe with material direct contact. It is a steel pipe with ventilation holes 5 on the periphery and designed according to wind speed and wind pressure. The air volume of each ventilation hole 5 on the periphery can be approximately equal through the action of the inner reducing joint 6.

The utility model aims at solving the problems of high temperature and sticky materials. Adopt the vibration fluidization cooling conveyer that this embodiment provided, the cooling function of solution material in transportation process that can be better, simple structure is very easily realized.

The utility model has the advantages of simple and reasonable structure, excellent use effect, energy saving and environmental protection.

The utility model discloses mainly include: the device comprises a screen box 1, a vibration source 2, an air distribution box 3, an air distribution pipe 4 and the like.

Compared with the conventional cooling equipment, the utility model has the characteristics of it is following:

1. and (5) conveying and cooling at the same time.

2. Compared with the cooling equipment with hundreds of kilowatts, the energy consumption is greatly reduced.

3. The process is reasonable in arrangement and compact in structure.

In the description of the present invention, it should be noted that the terms "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. A vibrating fluidization cooling conveyor is characterized by comprising a screen box (1), a vibration source (2), an air distribution box (3) and an air distribution pipe (4),

the vibration source (2) is connected with the screen box (1) and drives the screen box (1) to do reciprocating motion in a limited range according to a set motion track; a plurality of air distribution pipes (4) are longitudinally arranged at the bottom of the screen box (1) in parallel, and air inlet ends of the air distribution pipes (4) are connected with the air distribution box (3); the air distribution box (3) drives cooling air to uniformly flow to the plurality of air distribution pipes (4) in a constant-speed isobaric manner.

2. The vibrating fluidized cooling conveyor according to claim 1, wherein the peripheral surface of the air distribution pipe (4) is provided with a plurality of ventilation holes (5) according to wind speed and wind pressure.

3. The vibrating fluidized cooling conveyor according to claim 2, wherein the ventilation holes (5) are uniformly arranged or are non-uniformly arranged according to the principle that the air pressure of each ventilation hole (5) is the same.

4. The vibrating fluidized cooling conveyor according to claim 2, wherein the ventilation holes (5) are densely arranged on the peripheral surface of each air distribution pipe (4).

5. The vibrating fluidized cooling conveyor according to claim 2, wherein a plurality of internal reducing joints (6) are arranged inside the air distribution pipe (4), so that the air volume of each peripheral ventilation hole (5) is the same or nearly the same.

6. The vibrating fluidized cooling conveyor according to claim 1, wherein the air distribution pipe (4) is fixedly arranged on the bottom plate of the screen box (1).

7. Vibrating fluidized cooling conveyor according to claim 1, characterized in that the air distribution pipe (4) is an internally ventilated steel pipe.

8. The vibrating fluidized cooling conveyor according to claim 1, wherein the air distribution box (3) is internally provided with an air distribution plate for adjusting the air direction of the cooling air so that the cooling air flows to the plurality of air distribution pipes (4) uniformly at a constant speed and an equal pressure.

9. The vibrating fluidized cooling conveyor of claim 8, wherein the air distribution plate is a plurality of transversely disposed air permeable screens.

10. The vibrating fluidized cooling conveyor according to claim 8, wherein the air distribution plate is provided with a filter screen for filtering cooling air.

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