CN216241655U - Flow field uniform distribution device suitable for adjustable shrinkage cavity of pulverized coal pipeline - Google Patents

Abstract

The utility model discloses a flow field uniform distribution device suitable for an adjustable shrinkage cavity of a pulverized coal pipeline, which comprises a shell, a central blunt body arranged at the center of the shell, and a first guide ring, a second guide ring and a third guide ring which are arranged between the shell and the central blunt body from outside to inside, wherein the first guide ring, the second guide ring and the third guide ring are connected with the shell through support ribs; the central blunt body comprises a lip-shaped blunt body and annular blades arranged on the circumferential direction of the lip-shaped blunt body, and the shell is axially provided with an air inlet and an air outlet. And a multilayer annular airflow channel is formed among the first guide ring, the second guide ring, the third guide ring, the central blunt body and the shell. The utility model can improve the distribution characteristic of the airflow after the primary air pipe is subjected to adjustable shrinkage, improve the distribution uniformity of the airflow, and meet the test requirements under the existing actual conditions, thereby improving the test precision and improving the working efficiency.

Description

Flow field uniform distribution device suitable for adjustable shrinkage cavity of pulverized coal pipeline

Technical Field

The utility model belongs to the technical field of coal-fired thermal power plant equipment, and particularly relates to a flow field uniform distribution device suitable for an adjustable shrinkage cavity of a pulverized coal pipeline.

Background

The primary wind speed plays an important role in safe, economical and stable operation of the boiler, if the primary wind speed deviation of each layer is large, a series of problems of flame deflection in the boiler, uneven heat load of a hearth, over-temperature of a heating surface, coking of a water cooling wall and the like can be caused, and a primary wind speed leveling test is generally required during debugging of a newly-built unit or before and after boiler maintenance, so that the accuracy of primary wind speed measurement is very important for ensuring the safety and the economy of the operation state of the boiler.

In order to accurately measure the primary wind speed, the commonly used primary wind speed measurement mainly adopts a pitot tube or a backrest tube and the like which are processed and designed according to the standard DL/T467 of the power industry, one end of the pitot tube or the backrest tube extends into the primary wind tube, the other end of the pitot tube or the backrest tube is connected with a micro-pressure gauge, the point-by-point measurement is carried out according to an equal section grid method, and finally the average wind speed is obtained. The method is easy to realize and high in stability, but has strict requirements on the positions of measuring points, and the length L of the straight pipe section in front of (upstream) the measuring interface is required to be measured according to the recommendation of GB/T10184 for the measuring interface₁About 8-10 times of the equivalent diameter of the pipeline, and the length L of the straight pipe section behind (downstream) the interface is required to be measured₂The equivalent diameter of the pipeline is about 1-3 times, and most of the current engineering projects occupy relatively small space and compact space layout design in order to save investment cost, so that the requirement of the standard on the position of a measuring point is hardly met. In addition, for the primary air pipe provided with the adjustable shrinkage cavity, due to the throttling interference effect of the adjustable shrinkage cavity, the subsequent air flow distribution is quite disordered, so that the problems of low accuracy of primary air speed test, low working efficiency and the like are caused to a great extent. Due to the fact thatTherefore, how to improve the uniformity of the air flow in the primary air pipe, improve the testing precision and improve the working efficiency becomes a problem which needs to be solved urgently by testing technicians.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art, and provides the flow field uniform distribution device suitable for the adjustable shrinkage cavity of the pulverized coal pipeline, which can improve the distribution characteristic of airflow after the adjustable shrinkage cavity of the primary air pipe, improve the distribution uniformity of the airflow, and meet the test requirements under the existing actual conditions, thereby improving the test precision and improving the working efficiency.

The utility model solves the technical problems through the following technical scheme:

a flow field uniform distribution device suitable for a coal powder pipeline adjustable shrinkage cavity comprises a shell, a central blunt body arranged at the center of the shell, and a first guide ring, a second guide ring and a third guide ring which are arranged between the shell and the central blunt body from outside to inside, wherein the first guide ring, the second guide ring and the third guide ring are connected with the shell through support ribs; the central blunt body comprises a lip-shaped blunt body and annular blades arranged on the circumferential direction of the lip-shaped blunt body, and the shell is axially provided with an air inlet and an air outlet.

The lip-shaped blunt body is an arc-shaped flow guide body, the through-flow part in the arc-shaped flow guide body is conical, the diameter of the air inlet is smaller than that of the air outlet, the through-flow part of the arc-shaped flow guide body is provided with a wear-resistant layer, and the wear-resistant layer covers a circle around the through-flow opening.

The utility model has the further improvement that the arc-shaped flow guide body is an arc-shaped opening formed by closing double core plates in the adjustable shrinkage cavity matched with the pulverized coal pipeline.

The utility model is further improved in that the annular blades can be adjusted adaptively according to the size of the airflow.

The utility model is further improved in that the annular blade is made of a blade-shaped wear-resistant light steel belt, and the blade-shaped wear-resistant light steel belt is connected with the lip-shaped blunt body through an arc-shaped hinge.

The utility model has the further improvement that the first flow guide ring, the second flow guide ring and the third flow guide ring are arranged on the periphery of the central blunt body at equal intervals, a plurality of layers of annular airflow channels are formed among the first flow guide ring, the second flow guide ring, the third flow guide ring, the central blunt body and the shell, and the plurality of layers of annular airflow channels are provided with wear-resistant layers.

The utility model is further improved in that the first guide ring, the second guide ring and the third guide ring are made of wear-resistant steel plates and are connected with the shell through support ribs.

The utility model is further improved in that the size of the shell is matched with the size of the adjustable shrinkage cavity and the size of the interface of the pulverized coal pipeline, and the shell is connected with the adjustable shrinkage cavity and the pulverized coal pipeline through connecting bolts.

The utility model has at least the following beneficial technical effects:

according to the flow field uniform distribution device suitable for the adjustable shrinkage cavity of the pulverized coal pipeline, due to the uniform flow guiding effect of the arc-shaped flow guiding body of the central blunt body main body and the self-adaptive airflow balance characteristic of the annular blades, the over-concentrated characteristic of airflow after the adjustable shrinkage cavity is throttled can be effectively avoided, the distribution characteristic of the airflow after the adjustable shrinkage cavity of the primary air pipe can be obviously improved, and the airflow distribution uniformity is improved, so that the testing precision is really improved and the working efficiency is improved in the air speed measuring process; the adjustable shrinkage cavity has the advantages of simple structure and low investment cost, all through-flow components are provided with the wear-resistant layers, the durability is realized, and the adjustable shrinkage cavity is suitable for most coal-fired power plant coal powder pipelines.

Drawings

Fig. 1 is a schematic structural view (top view) of a pulverized coal pipeline primary air flow distribution device of the present invention.

Fig. 2 is a schematic structural view (side view) of the pulverized coal pipeline primary air flow uniform distribution device of the present invention.

Description of reference numerals:

1. the flow guide device comprises a shell, 2, a central blunt body, 3, a first flow guide ring, 4, a second flow guide ring, 5, a third flow guide ring, 6, a support rib, 7, a connecting bolt, 8, an air inlet, 9, an air outlet, 21, a lip-shaped blunt body, 22 and annular blades.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the accompanying drawings.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "left", "right", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element 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. In addition, in the description of the present invention, it should be noted that the terms "mounted," "connected," and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 2, the flow field uniform distribution device suitable for the adjustable shrinkage cavity of the pulverized coal pipeline provided by the utility model comprises a shell 1, a central blunt body 2, a first guide ring 3, a second guide ring 4, a third guide ring 5, a support rib 6 and a connecting bolt 7.

The central bluff body 2 comprises a lip bluff body 21 and annular blades 22 arranged on the circumferential direction of the lip bluff body 21, the shell 1 comprises an air inlet 8 and an air outlet 9, and the first flow guide ring 3, the second flow guide ring 4 and the third flow guide ring 5 are connected with the shell 1 through support ribs 6. In the working process, primary air flows intensively enter the lower part of the central blunt body 2 after throttling through the adjustable shrinkage hole of the pulverized coal pipeline, the lip-shaped blunt body 21 is matched with an arc-shaped opening formed by closing double core plates in the adjustable shrinkage hole of the pulverized coal pipeline, when the air flows pass through the lip-shaped blunt body 21, a small part of the air flows into the conical through-flow part through the middle air inlet 8, because the diameter of the air inlet of the conical flow guide body is smaller than that of the air outlet, the air flows into the pulverized coal pipeline through the air outlet 9 after being diffused and decelerated by the flow guide body, most of the air flows are blocked by the lip-shaped blunt body 21 to generate a diffusion-shaped flow form, tend to be uniformly distributed, and then enter the pulverized coal pipeline through a multilayer annular air flow channel between the central blunt body 2 and the shell 1. All through-flow positions of the central blunt body 2 and the annular airflow channel are provided with wear-resistant layers, so that the scouring abrasion of pulverized coal particles is avoided, and the service life of the whole device is prolonged.

In order to improve the uniform distribution effect of the air flow and the uniform degree of mixing of the primary air flow and the pulverized coal particles, the periphery of the lip-shaped blunt body 21 is connected with a plurality of annular blades 22 through arc-shaped hinges, the annular blades 22 are vane-shaped wear-resistant light steel belts, the annular blades 22 can be adjusted in a self-adaptive manner according to the air speed, when the adjustable shrinkage cavity throttling function of the pulverized coal pipeline is larger, the air flow speed of the opening of the adjustable shrinkage cavity is very high, the velocity of the primary air flow below the corresponding central blunt body 2 is also higher, at the moment, the annular blades with different lengths are blown by the high-speed air flow to further strengthen the diversion and diffusion effects, when the throttling effect of the adjustable shrinkage cavity of the pulverized coal pipeline is smaller, the air flow velocity of the primary air below the corresponding central blunt body 2 is relatively low, at the moment, the annular blade cannot be blown up along with the air flow, the diversion diffusion effect is relatively weak, and the uniform distribution effect can be greatly guaranteed.

In order to further improve the uniform distribution effect, the first guide ring 3, the second guide ring 4 and the third guide ring 5 are arranged at the periphery of the central blunt body 2 at equal intervals, a multilayer annular airflow channel is formed among the first guide ring 3, the second guide ring 4, the third guide ring 5, the central blunt body 2 and the shell 1, the multilayer annular airflow channel uniformly divides and guides the primary air flow, and the flowing mode produces a better uniform distribution effect.

Further, the size of the shell 1 is matched with the size of the adjustable shrinkage cavity and the size of the interface of the pulverized coal pipeline, and the shell is connected with the adjustable shrinkage cavity and the pulverized coal pipeline through the connecting bolt 7.

While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that these are by way of example only, and that the scope of the utility model is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the utility model, and these changes and modifications are within the scope of the utility model.

Claims (8)

1. A flow field uniform distribution device suitable for a coal powder pipeline adjustable shrinkage cavity is characterized by comprising a shell, a central blunt body arranged at the center of the shell, and a first guide ring, a second guide ring and a third guide ring which are arranged between the shell and the central blunt body from outside to inside, wherein the first guide ring, the second guide ring and the third guide ring are connected with the shell through support ribs; the central blunt body comprises a lip-shaped blunt body and annular blades arranged on the circumferential direction of the lip-shaped blunt body, and the shell is axially provided with an air inlet and an air outlet.

2. The flow field uniform distribution device suitable for the adjustable shrinkage cavity of the pulverized coal pipeline as claimed in claim 1, wherein the lip-shaped blunt body is an arc-shaped flow guide body, the through-flow part inside the arc-shaped flow guide body is tapered, the diameter of the air inlet is smaller than that of the air outlet, the through-flow part of the arc-shaped flow guide body is provided with a wear-resistant layer, and the wear-resistant layer covers a circle around the through-flow opening.

3. The flow field uniform distribution device suitable for the adjustable shrinkage cavity of the pulverized coal pipeline as claimed in claim 2, wherein the arc-shaped flow deflector is an arc-shaped notch formed by matching the double core plates inside the adjustable shrinkage cavity of the pulverized coal pipeline in a closed mode.

4. The flow field uniform distribution device suitable for the adjustable shrinkage cavity of the pulverized coal pipeline as claimed in claim 1, wherein the annular blades can be adjusted in a self-adaptive manner according to the size of the airflow.

5. The flow field uniform distribution device suitable for the adjustable shrinkage cavity of the pulverized coal pipeline as claimed in claim 1, wherein the annular blade is a blade-shaped wear-resistant light steel belt, and the blade-shaped wear-resistant light steel belt is connected with the lip-shaped blunt body through an arc-shaped hinge.

6. The flow field uniform distribution device suitable for the adjustable shrinkage cavity of the pulverized coal pipeline as claimed in claim 1, wherein the first guide ring, the second guide ring and the third guide ring are arranged at equal intervals on the periphery of the central bluff body, and a plurality of layers of annular airflow channels are formed among the first guide ring, the second guide ring, the third guide ring, the central bluff body and the shell, and are provided with wear-resistant layers.

7. The flow field uniform distribution device suitable for the adjustable shrinkage cavity of the pulverized coal pipeline as claimed in claim 6, wherein the first guide ring, the second guide ring and the third guide ring are made of wear-resistant steel plates, and are connected with the casing through support ribs.

8. The flow field uniform distribution device suitable for the adjustable shrinkage cavity of the pulverized coal pipeline as claimed in claim 1, wherein the size of the housing matches the size of the adjustable shrinkage cavity and the interface of the pulverized coal pipeline, and the housing is connected with the adjustable shrinkage cavity and the pulverized coal pipeline through connecting bolts.

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