阅读说明：本技术 一种旋风收尘器 (Cyclone dust collector ) 是由 曾计生 姚秀丽 刘剑英 王彬 张延良 陶瑛 刘志辉 刘非非 刘存超 陈昱良 于 2020-06-28 设计创作，主要内容包括：本发明涉及旋风收尘器技术领域,公开了一种旋风收尘器,包括进风蜗壳、圆柱壳体以及倒锥壳体,进风蜗壳、圆柱壳体以及倒锥壳体向下依次连接,进风蜗壳的顶部设有用于向上出风的一第一出风内筒,倒锥壳体上设有用于向下出风的一第二出风内筒,在进风蜗壳的顶部设置向上出风的第一出风口,在倒锥壳体上设置向下出风的第二出风口,能上下双向出风,能够提高截面风速,提高生产效率；虽然旋风收尘器的内部增设第二出风内筒而增加一些高度,其直径却只有现有同等风量处理能力的旋风收尘器的一半,可以获得较高的高径比,能够简化相应的工艺管道布置,减少车间的工程改造量。(The invention relates to the technical field of cyclone dust collectors, and discloses a cyclone dust collector which comprises an air inlet volute, a cylindrical shell and an inverted cone shell, wherein the air inlet volute, the cylindrical shell and the inverted cone shell are sequentially connected downwards; although the second air outlet inner cylinder is additionally arranged in the cyclone dust collector to increase certain height, the diameter of the cyclone dust collector is only half of that of the existing cyclone dust collector with the same air volume processing capacity, so that a higher height-diameter ratio can be obtained, the corresponding process pipeline arrangement can be simplified, and the engineering reconstruction amount of a workshop is reduced.)

1. The utility model provides a cyclone dust collector, includes air inlet spiral case, cylinder casing and the shell of falling the cone, air inlet spiral case, cylinder casing and the downward consecutive connection of back taper shell, its characterized in that, the top of air inlet spiral case is equipped with a first air-out inner tube that is used for the air-out that makes progress, be equipped with a second air-out inner tube that is used for the air-out downwards on the shell of falling the cone.

2. The cyclone dust collector as claimed in claim 1, wherein the second air outlet inner cylinder comprises a straight cylinder section and a curved cylinder section, the straight cylinder section is located below the first air outlet inner cylinder, the upper end of the curved cylinder section is communicated with the lower end of the straight cylinder section, the inverted cone shell is provided with a mounting hole for penetrating through the curved cylinder section, and the curved cylinder section is circumferentially and hermetically connected with the mounting hole.

3. The cyclone dust collector as claimed in claim 2, wherein the inverted cone housing comprises a storage hopper at the bottom, the storage hopper is provided with a lower discharge port, and a gap is provided between the elbow section and the lower discharge port.

4. The cyclone dust collector as claimed in claim 2, wherein the first air outlet inner cylinder is coaxially arranged with the straight cylinder section.

5. The cyclone dust collector as claimed in claim 2, wherein a first guide vane is fixedly arranged at the lower end of the first air outlet inner cylinder.

6. The cyclone dust collector as claimed in claim 2, wherein a second guide vane is fixedly arranged at the upper end of the straight cylinder section.

7. The cyclone dust collector as claimed in claim 2, wherein a first guide vane is fixedly arranged at the lower end of the first air outlet inner cylinder, and a second guide vane is fixedly arranged at the upper end of the straight cylinder section.

8. The cyclone dust collector as claimed in any one of claims 1 to 7, wherein a support base is provided on the cylindrical housing.

9. The cyclone dust collector as claimed in any one of claims 1 to 7, wherein an access opening is provided on the cylindrical housing.

Technical Field

The invention relates to the technical field of cyclone dust collectors, in particular to a cyclone dust collector.

Techniques for the preparation of

In the prior art, the cyclone dust collector is used as gas-solid separation equipment, and has the advantages of simple structure, high temperature resistance and the like, so that the cyclone dust collector is widely applied to industries such as metallurgy, building materials, mines and the like.

The diameter of the outer cylinder is the most basic size of the cyclone dust collector, the tangential speed of the rotating airflow generates centrifugal force on dust in inverse proportion to the diameter of the outer cylinder, and under the same tangential speed, the smaller the diameter of the outer cylinder is, the smaller the rotating radius of the airflow is, the larger the centrifugal force is applied to the particles, and the more easily the dust particles are trapped. The production efficiency can be improved by improving the collection of dust particles, the height ratio is increased when the diameter of the outer cylinder is unchanged and the height of the outer cylinder is increased proportionally, and the dust particles are collected more easily when the centrifugal force applied to the particles is increased. However, the height of the outer cylinder is increased, the difficulty of workshop arrangement is increased, and the structural engineering quantity is increased. Another way is to increase the number of cyclone dust collectors to improve the production efficiency of the factory, which not only increases the difficulty of the workshop arrangement and the structural engineering amount, but also increases the investment amount. Particularly, in the cement industry, with the increase of the scale of a cement firing system, a breakthrough in the cyclone dust collector technology is sought, and the improvement of the height-diameter ratio, the improvement of the production efficiency and the reduction of the scale of workshop modification are urgent tasks.

Disclosure of Invention

The invention aims to provide a cyclone dust collector which can improve the production efficiency, obtain higher height-diameter ratio and reduce the scale of workshop reconstruction.

The invention is realized by the following technical scheme: the utility model provides a cyclone dust collector, includes air inlet spiral case, cylinder casing and the shell of falling the cone, air inlet spiral case, cylinder casing and back taper casing connect gradually downwards, the top of air inlet spiral case is equipped with a first air-out inner tube that is used for the air-out that makes progress, be equipped with a second air-out inner tube that is used for air-out downwards on the shell of falling the cone.

Specifically, second air-out inner tube includes straight section of thick bamboo section and elbow section, straight section of thick bamboo is located the below of first air-out inner tube, the upper end of elbow section with the lower extreme of straight section of thick bamboo section is linked together, be equipped with on the inverted cone casing and be used for wearing out the mounting hole of elbow section, the elbow section with surrounding sealing connection between the mounting hole.

The preferred scheme has, the back taper casing is including the storage hopper that is located the bottom, the storage hopper is equipped with the lower part discharge gate, the elbow section with be equipped with the clearance between the discharge gate of lower part.

Preferably, the first air outlet inner cylinder and the straight cylinder section are coaxially arranged.

The preferable scheme is that a first guide vane is fixedly arranged at the lower end of the first air outlet inner cylinder.

Preferably, the upper end of the straight cylinder section is fixedly provided with a second guide vane.

The preferable scheme is that a first guide vane is fixedly arranged at the lower end of the first air outlet inner cylinder, and a second guide vane is fixedly arranged at the upper end of the straight cylinder section.

Preferably, the cylindrical shell is provided with a supporting seat.

In addition, the preferred scheme still sets up the access hole on the cylinder casing.

In addition, the height of the cyclone dust collector can be adjusted by setting the height or the number of the cylindrical shells.

The beneficial effects are that: compared with the prior art, the air inlet volute is provided with the first air outlet for upward air outlet at the top and the second air outlet for downward air outlet at the inverted cone shell, so that the air can be discharged in an up-and-down two-way manner, the section air speed can be improved, and the production efficiency can be improved; although the second air outlet inner cylinder is additionally arranged in the cyclone dust collector to increase certain height, the diameter of the cyclone dust collector is only half of that of the existing cyclone dust collector with the same air volume processing capacity, so that a higher height-diameter ratio can be obtained, the corresponding process pipeline arrangement can be simplified, and the engineering reconstruction amount of a workshop is reduced.

Drawings

The following detailed description of embodiments of the invention is provided in conjunction with the appended drawings, in which:

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a top view of the cylindrical shell of FIG. 1 and a second guide vane therein;

FIG. 3 is a left side view (including an axial section) of FIG. 1;

wherein the reference numerals are:

1. an air inlet volute; 2. a cylindrical housing; 3. a reverse taper shell; 4. a lower discharge port; 5. a first air outlet inner cylinder; 501. a first air outlet; 6. a second air outlet inner cylinder; 601. a straight cylinder section; 602. a cylinder section; 603. a second air outlet; 7. a first guide vane; 8. a second guide vane; 9. a supporting seat; 10. and (6) an access hole.

Detailed Description

As shown in fig. 1-3, a cyclone dust collector comprises an air inlet volute 1, a cylindrical shell 2 and a reverse cone shell 3, wherein the air inlet volute 1, the cylindrical shell 2 and the reverse cone shell 3 are sequentially and downwards in a sealing connection, a first air outlet inner barrel 5 for upwards discharging air is arranged at the top of the air inlet volute 1, and a second air outlet inner barrel 6 for downwards discharging air is arranged on the reverse cone shell 3. The air is discharged in the upper and lower directions, so that the section air speed can be improved, and the production efficiency is improved; although the second air outlet inner cylinder 6 is additionally arranged in the cyclone dust collector to increase certain heights, the diameter of the cyclone dust collector is only half of that of the existing cyclone dust collector with the same air volume processing capacity, so that a higher height-diameter ratio can be obtained, the corresponding process pipeline arrangement can be simplified, and the engineering reconstruction amount of a workshop is reduced.

As shown in fig. 3, a first inlet for an ascending air current is disposed at a lower end of the first air outlet inner cylinder 5, and a first air outlet 501 is disposed at a top of the first air outlet inner cylinder 5; second air-out inner tube 6 includes straight section of thick bamboo 601 and elbow section 602, straight section of thick bamboo 601 is located the below of first entry, the upper end of elbow section 602 with the lower extreme of straight section of thick bamboo 601 is linked together, be equipped with on the inverted cone casing 3 and be used for wearing out the mounting hole of elbow section 602, elbow section 602 with circumferential sealing connection between the mounting hole, lie in on the elbow section 602 the outside of inverted cone casing 3 is equipped with second air outlet 603. The upper end of the second air outlet inner cylinder 6 is provided with a second inlet for ascending air flow, the lower end of the first air outlet inner cylinder 5 is higher than the upper end of the second air outlet inner cylinder 6, and a certain height difference H1 is arranged between the first inlet and the second inlet.

The inverted cone shell 3 comprises a storage hopper at the bottom, the storage hopper is provided with a lower discharge port 4, a gap H3 is formed between the elbow section 602 and the lower discharge port 4, and after the lower discharge port 4 is opened, the falling and discharging of powder are facilitated.

The difference from the above embodiment is that a certain height difference H2 is required between the upper end of the second outlet inner cylinder 6 and the storage hopper of the inverted cone housing 3, so as to prevent dust particles in the storage hopper from being brought into the second inlet by the ascending air flow.

The difference from the above embodiment is that the height of the cyclone collector can be adjusted by setting the height or the number of the cylindrical housings 2.

As shown in fig. 3, the lower end of the first air outlet inner cylinder 5 is provided with a first guide vane 7 through a vane hub, and the first guide vane 7 belongs to a component in the prior art, generally has a shape with a large upper part and a small lower part, and can reduce turbulence and short-circuit airflow, reduce pressure loss of the cyclone dust collector, improve separation efficiency of the cyclone dust collector, and reduce power consumption of the system.

Or, the second guide vane 8 is installed at the upper end of the straight cylinder section 601 through a vane hub, the second guide vane 8 belongs to a component in the prior art, and is generally in a shape with a small upper part and a large lower part, so that turbulent flow and short-circuit airflow can be reduced, pressure loss of the cyclone dust collector can be reduced, separation efficiency of the cyclone dust collector is improved, and power consumption of a system is reduced.

Or, first air-out inner tube 5 lower extreme passes through blade wheel hub and installs first guide vane 7, simultaneously, blade wheel hub installation second guide vane 8 is passed through to the upper end of straight section of thick bamboo 601, and first guide vane 7 is located second guide vane 8's top, and is equipped with difference in height H4 between the two, can reduce turbulent flow and short-circuit air current better, and the cyclone dust collector can reduce the pressure loss, improves the separation efficiency of cyclone dust collector, has reduced the system power consumption.

Of course, the first guide vane 7 and the second guide vane 8 may be the same type of guide vane, and when the guide vane is installed at the lower end of the first air outlet inner cylinder 5, the first guide vane 7 may be formed, and when the guide vane is installed at the upper end of the straight cylinder section 601, the second guide vane 8 may be formed.

In a better embodiment, the first air outlet inner cylinder 5 and the straight cylinder section 601 are coaxially arranged, and particularly, are coaxially arranged with the cylindrical shell 2, which is beneficial to reducing turbulence.

As shown in fig. 1, the cylindrical shell 2 is provided with a support seat 9, which facilitates the installation and fixation of the cyclone dust collector of the present invention and improves the stability of operation.

In addition, as shown in fig. 1, the cylindrical shell 2 is provided with the access hole 10, the access hole 10 is closed when the machine runs, and can be opened when needing to be overhauled, so that the overhaul is convenient, and particularly, the access hole 10 is arranged at the height positions of the first guide vane 7 and the second guide vane 8, so that the frequent maintenance of the guide vanes is facilitated.

The above embodiments are not limited to the technical solutions of the embodiments themselves, and the embodiments may be combined with each other into a new embodiment. The above embodiments are only for illustrating the technical solutions of the present invention and are not limited thereto, and any modification or equivalent replacement without departing from the scope of the claims of the present invention should be covered within the technical solutions of the present invention.