KR102553758B1 - Prefab Chimney Flow Measuring Device with Pitot Tube Assembly - Google Patents

Abstract

A prefabricated chimney flow rate measuring device equipped with a pitot tube assembly is disclosed. The present invention is provided with a pitot tube assembly in which a plurality of pitot tubes each equipped with a total pressure measurement sphere and a static pressure measurement sphere inside the chimney are coupled, and a plurality of through holes through which the plurality of pitot tubes respectively pass. a first fixed panel; and a flange panel fixed to a side surface of the chimney and provided with a plurality of through holes through which a plurality of pitot tubes respectively pass. According to the present invention, when maintenance or replacement is required due to corrosion by corrosive gas in the chimney of the pitot tube assembly, temperature sensor, fixed panel, reinforcing frame, or flange panel constituting the chimney flow rate measurement device, the corresponding parts are separately separated. By enabling maintenance or replacement, the convenience and efficiency of maintenance of the chimney flow rate measurement device, reduction of maintenance costs, and extension of service life can be promoted. In addition, according to the present invention, since the pitot tube can be adjusted to be installed at an optimal depth during the initial installation of the chimney flow rate measurement device, the chimney flow rate can be measured very accurately through accurate adjustment of the measuring point.

Description

Prefab Chimney Flow Measuring Device with Pitot Tube Assembly {Prefab Chimney Flow Measuring Device with Pitot Tube Assembly}

The present invention relates to a prefabricated chimney flow rate measuring device having a pitot tube assembly, and more particularly, to a pitot tube assembly constituting the chimney flow rate measuring device, a temperature sensor, a fixed panel, a reinforcing frame, or a flange panel in a chimney of a corrosive gas. When maintenance or replacement is required due to corrosion, etc., the relevant parts can be separately separated for maintenance or replacement, so that the chimney flow measurement device can be serviced conveniently and efficiently, reduced maintenance costs, and extended service life. In addition, as the pitot tube can be adjusted to be installed at the optimum depth during the initial installation of the chimney flow measurement device, the chimney flow rate can be measured very accurately through precise adjustment of the measuring point Prefabricated chimney flow measurement device equipped with a pitot tube assembly It is about.

In order to prevent and manage air pollution caused by factory fumes, the Clean Air Conservation Act stipulates emission standards for pollutant gases and fine dust discharged from chimneys. The chimney discharge flow rate must be accurately measured according to the total amount of exhaust fumes.

As such, the chimney flow rate measuring device, which must be installed for each chimney that manages the total amount of smoke exhausted from the chimney, measures the flow rate of the exhausted smoke through the pitot tube installed inside the standard measurement hole of the chimney, and based on this, various pollutant gases and fine dust By calculating the measured mass value, the total emission amount for each pollutant category is calculated.

However, since the Pitot tube flow rate measurement device according to the prior art has a structure in which the pitot tube and the temperature sensor tube are welded into one SUS316 or SUS304 pipe in an integral structure, if a part of the pitot tube assembly is unusable due to corrosion, etc., the entire pitot tube assembly is used. Since it had to be replaced, there was a problem that maintenance costs were inevitably incurred.

In addition, the pitot tube flow rate measuring device according to the prior art has a structure in which the installation position of the pitot tube cannot be adjusted according to the size of the inside diameter of the chimney and the position of the standard measuring point of the flow rate in the chimney, so that it is impossible to accurately adjust the optimum standard point.

In addition, the pitot tube flow rate measuring device according to the prior art requires removing the entire pitot tube and temperature measuring device installed in the chimney for periodic inspection and transporting them to an inspection agency. there was

Accordingly, an object of the present invention is to repair or replace parts of a pitot tube assembly, a temperature sensor, a fixed panel, a reinforcing frame, or a flange panel constituting a chimney flow measurement device due to corrosion by corrosive gas in a chimney. By separating and replacing the chimney flow measurement device, maintenance convenience and efficiency, maintenance cost reduction, and service life extension of the chimney flow measurement device can be promoted. An object of the present invention is to provide a prefabricated chimney flow rate measuring device having a pitot tube assembly capable of measuring the chimney flow rate very accurately through precise adjustment of the measuring point as it can be adjusted to be installed at an optimal depth.

In order to achieve the above object, a prefabricated chimney flow rate measuring device having a pitot tube assembly according to the present invention includes a plurality of pitot tubes each having a total pressure measuring sphere and a static pressure measuring sphere inside the chimney. the combined pitot tube assembly; a first fixed panel having a plurality of through holes through which the plurality of Pitot tubes respectively pass; and a flange panel fixed to a side surface of the chimney and having a plurality of through-holes through which the plurality of pitot tubes respectively pass.

Preferably, the second fixed panel is installed at the rear of the second fixed panel and includes a plurality of through holes through which the plurality of Pitot tubes respectively pass.

In addition, a reinforcing frame reinforcing the rigidity of the pitot tube assembly by being installed while connecting the first fixing panel, the second fixing panel, and the flange panel is further included.

In addition, the pitot tube assembly, the first fixing panel, the second fixing panel, the flange panel, and the reinforcing frame may be detachably coupled to each other.

According to the present invention, when maintenance or replacement is required due to corrosion by corrosive gas in the chimney of the pitot tube assembly, temperature sensor, fixed panel, reinforcing frame, or flange panel constituting the chimney flow rate measurement device, the corresponding parts are separately separated. By enabling maintenance or replacement, the convenience and efficiency of maintenance of the chimney flow rate measurement device, reduction of maintenance costs, and extension of service life can be promoted.

In addition, according to the present invention, since the pitot tube can be adjusted to be installed at an optimal depth during the initial installation of the chimney flow rate measurement device, the chimney flow rate can be measured very accurately through accurate adjustment of the measuring point.

1 is a view showing the structure of a prefabricated chimney flow rate measuring device equipped with a pitot tube assembly according to an embodiment of the present invention;
2 is a view showing the structure of a prefabricated chimney flow rate measuring device equipped with a pitot tube assembly according to another embodiment of the present invention;
3 is an exploded perspective view illustrating a coupling structure of a pitot tube assembly, a first fixing panel, and a reinforcing frame in a prefabricated chimney flow rate measuring device having a pitot tube assembly according to an embodiment of the present invention;
4 is an exploded perspective view illustrating a coupling structure of a pitot tube assembly, a reinforcing frame, and a flange panel in a prefabricated chimney flow rate measuring device equipped with a pitot tube assembly according to an embodiment of the present invention; and
5 is a view explaining a process of installing a prefabricated chimney flow rate measuring device equipped with a pitot tube assembly according to an embodiment of the present invention into a chimney.

Hereinafter, the present invention will be described in more detail with reference to the drawings. It should be noted that like elements in the drawings are indicated by like numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a view showing the structure of a prefabricated chimney flow rate measuring device equipped with a pitot tube assembly according to an embodiment of the present invention. Referring to FIG. 1, a prefabricated chimney flow rate measuring device having a pitot tube assembly according to an embodiment of the present invention includes a pitot tube assembly 100, a first fixing panel 200-1, a flange panel 300, and a reinforcing frame. (400).

The pitot tube assembly 100 is a structure in which a plurality of pitot tubes each equipped with a total pressure measurement sphere and a static pressure measurement sphere inside the chimney are combined, and the plurality of pitot tubes are once connected through an opening on the side of the chimney. It is inserted into the chimney and transfers voltage and static pressure within the chimney to the outside of the chimney along the pitot tube connected in multiple stages according to the depth of the chimney. On the other hand, in practicing the present invention, a temperature sensor may be installed in the pitot tube to measure the temperature inside the chimney and transmit the temperature to an arithmetic device on the ground.

Meanwhile, the first fixing panel 200-1 is provided with a plurality of through holes 210 through which a plurality of pitot tubes constituting the pitot tube assembly 100 respectively pass, and the flange panel 300 protrudes from the side of the chimney. It is fixedly installed on the flange which is the formed chimney opening surface 10.

In such a flange panel 300, a plurality of through-holes through which a plurality of pitot tubes constituting the pitot tube assembly 100 penetrating the plurality of through-holes 210 provided in the first fixed panel 200-1 additionally pass through. (310) is provided.

The reinforcing frame 400 connects the first fixed panel 200-1 and the flange panel 300 and is installed to reinforce the bending rigidity of the pitot tube assembly 100. Specifically, the reinforcing frame 400 secures bending stiffness by having a V-shaped cross-sectional structure, and one end of the reinforcing frame 400 is coupled with a bolt or the like to a V-shaped groove formed at the top of the first fixing panel 200-1 It is coupled and installed through the sphere 50, and the other end of the reinforcing frame 400 is inserted into the V-shaped hole 330 formed in the central portion of the flange panel 300.

More specifically, the other end of the reinforcing frame 400 protrudes to the outer surface of the flange panel 300 through the V-shaped hole 330 of the flange panel 300, and the outer surface of the flange panel 300 has a lower portion. As the fixture 500 provided with the V-shaped protrusion 550 is coupled and installed, the V-shaped protrusion 550 of the fixture 500 is the V-shaped upper part of the reinforcing frame 400 protruding to the outer surface of the flange panel 300. By being fixedly coupled to the surface, a stable installation state of the reinforcing frame 400 is implemented.

2 is a view showing the structure of a prefabricated chimney flow rate measuring device equipped with a pitot tube assembly according to another embodiment of the present invention. Referring to FIG. 2 , a prefabricated chimney flow rate measuring device having a pitot tube assembly according to another embodiment of the present invention includes a pitot tube assembly 100, a first fixing panel 200-1, and a second fixing panel 200-2. , a flange panel 300, and a reinforcing frame 400.

The pitot tube assembly 100 in FIG. 2 is a structure in which a total pressure measuring sphere and a static pressure measuring sphere inside the chimney are respectively provided, and a plurality of pitot tubes installed continuously in the vertical direction are combined. One end of the pitot tube is inserted into the chimney through an opening on the side of the chimney, and transfers voltage and static pressure within the chimney to the outside of the chimney along the pitot tube connected in multiple stages according to the depth of the chimney. Meanwhile, in practicing the present invention, a temperature sensor for measuring the temperature inside the chimney may be installed in the pitot tube.

The first fixing panel 200-1 and the second fixing panel 200-2 each have a plurality of through holes 210 through which a plurality of pitot tubes constituting the pitot tube assembly 100 pass.

The flange panel 300 is fixedly installed on a flange that is a chimney opening surface 10 protruding from the side of the chimney, and the flange panel 300 includes a first fixed panel 200-1 and a second fixed panel 200-2 is provided with a plurality of through holes 310 through which a plurality of pitot tubes constituting the pitot tube assembly 100 that continuously pass through the plurality of through holes 210 respectively are additionally passed through.

Meanwhile, in carrying out the present invention, an additional fixed panel 200 may be additionally installed in addition to the first fixed panel 200-1 and the second fixed panel 200-2 as needed.

The reinforcing frame 400 reinforces the bending rigidity of the pitot tube assembly 100 by continuously connecting and installing the first fixed panel 200-1, the second fixed panel 200-2, and the flange panel 300.

Specifically, one end of the reinforcing frame 400 having a V-shaped cross section is coupled to the V-shaped groove formed at the top of the first fixed panel 200-1 through a coupler 50 such as a bolt, and the reinforcing frame ( 400) is coupled to the V-shaped groove formed at the top of the second fixed panel 200-2 through a coupler 50 such as a bolt, and the other end of the reinforcing frame 400 is attached to the flange panel 300. It is inserted and installed into the formed V-shaped hole 330 .

Meanwhile, in practicing the present invention, the chimney, such as the pitot tube assembly 100, the first fixing panel 200-1, the second fixing panel 200-2, the reinforcing frame 400, and the flange panel 300, etc. It would be desirable to increase the rigidity and corrosion resistance of each part by making all parts installed inside with titanium, PTFE, or the like.

3 illustrates a coupling structure of a pitot tube assembly 100, a first fixing panel 200-1, and a reinforcing frame 400 in a prefabricated chimney flow rate measuring device having a pitot tube assembly according to an embodiment of the present invention. It is an exploded perspective view. Referring to FIG. 3 , a plurality of through holes 210 are formed in the first fixed panel 200-1, and a V-shaped coupling groove 230 is formed on the upper surface of the first fixed panel 200-1. And, on the formation surface of the V-shaped coupling groove 230, coupling holes 235 into which fasteners 50 such as bolts are inserted are formed.

First, the operator selects a pitot tube assembly 100 having a length corresponding to the size and shape of the chimney on which the chimney flow rate measuring device is installed, and then attaches a plurality of pitot tubes constituting the pitot tube assembly 100 to the first fixing panel 200- It will be possible to insert and install each of the plurality of through holes 210 of 1).

In addition, in the practice of the present invention, when it is necessary to reinforce the bending stiffness of the pitot tube assembly 100, the operator may use the pitot tube assembly 100 passing through the plurality of through holes 210 of the first fixing panel 200-1. ) may be additionally inserted into the plurality of through holes 210 of the second fixed panel 200-2.

In addition, in the practice of the present invention, when it is necessary to additionally reinforce the bending stiffness of the pitot tube assembly 100, the operator uses the pitot tube assembly passing through the plurality of through holes 210 of the second fixing panel 200-2. The plurality of pitot tubes of (100) may be additionally inserted into the plurality of through holes 210 of additional fixed panels 200 such as the third fixed panel (not shown) and the fourth fixed panel (not shown).

Then, the worker installs the reinforcing frame 400 to connect the first fixed panel 200-1 and the second fixed panel 200-2, specifically, the first fixed panel 200-1 and the second fixed panel 200-2. The V-shaped reinforcing frame 400 may be fixedly installed in the V-shaped grooves provided on the upper surface of the panel 200-2 through fasteners 50 such as bolts.

In carrying out the present invention, more specifically, as shown in FIG. 3, the operator is formed on the V-shaped groove formed on the upper surfaces of the first fixing panel 200-1 and the second fixing panel 200-2, respectively. Reinforcing frame 400 on the upper part of the fixed panel 200 by inserting and installing a coupler 50 such as a bolt in a state where the coupling hole 235 and the coupling hole 435 provided in the reinforcing frame 400 are overlapped. You will be able to install the combined .

On the other hand, in practicing the present invention, when the length of the pitot tube assembly 100 needs to be extended, the operator attaches the connector 150, which is a coupling member installed at the end of the pitot tube and coupled to the end of another transfer pipe, to the end of the pitot tube. By installing it, the length of the pitot tube assembly 100 can be extended as needed according to the site conditions.

4 is an exploded perspective view illustrating a coupling structure of the pitot tube assembly 100, the reinforcing frame 400, and the flange panel 300 in the prefabricated chimney flow rate measuring device equipped with the pitot tube assembly according to an embodiment of the present invention.

Referring to FIG. 4 , after completing the assembly and installation of the pitot tube assembly 100, the fixing panel 200, and the reinforcing frame 400 as shown in FIG. 3, the operator installs the first fixing panel 200-1 and the second A plurality of pitot tubes in the pitot tube assembly 100 that continuously pass through the through holes 210 of the fixed panel 200-2 can be inserted into the plurality of through holes 310 provided in the flange panel 300, respectively. will be.

In addition, the operator inserts and installs the other end of the reinforcing frame 400 into the V-shaped hole 330 formed in the flange panel 300, and penetrates the V-shaped hole 330 of the flange panel 300 to the flange panel ( 300) to the outside of the flange panel 300, the fixture 500 is fixedly coupled to the V-shaped upper surface of the other end of the reinforcing frame 400 protruding to the outer surface of the V-shaped protrusion 550 provided at the bottom of the fixing unit. It can be fixed to the surface.

On the other hand, in carrying out the present invention, the operator installs the coupling 50, such as a bolt, to pass through the coupling hole 535 provided in the fixture 500 and the coupling hole 335 provided in the flange panel 300 By doing so, it will be possible to fix the fixture 500 to the outer surface of the flange panel 300.

In addition, in carrying out the present invention, the worker may install the display panel 350 displaying information such as the manufacturer on the outer surface of the flange panel 300 through a coupler 50 such as a bolt.

In this way, when the assembly of the prefabricated chimney flow rate measuring device equipped with the pitot tube assembly according to an embodiment of the present invention is completed, the operator horizontally inserts the end of the pitot tube assembly 100 into the opening formed on the side of the chimney as shown in FIG. A prefabricated type equipped with a pitot pipe assembly according to an embodiment of the present invention by inserting and fixing the flange panel 300 to the flange of the chimney opening 10 protruding from the side of the chimney through a coupling 50 such as a bolt. The installation of the chimney flow measurement device will be completed.

More specifically, in fixing and installing the flange panel 300 to the chimney opening 10 protruding from the side of the chimney, the operator engages the coupling hole 15 formed in the opening 10 and the flange panel 300. A coupler 50 such as a bolt may be inserted and installed through the hole 335 .

On the other hand, the operator needs maintenance or replacement of the pitot tube assembly 100, the fixing panel 200, the reinforcing frame 400 or the flange panel 300 constituting the prefabricated chimney flow rate measuring device equipped with the pitot tube assembly according to the present invention. In this case, by performing the above-described assembling process in reverse, parts requiring maintenance or replacement can be separated from the chimney flow rate measurement device for maintenance or replacement, thereby securing the maintenance convenience of the chimney flow rate measurement device.

In addition, in practicing the present invention, the operator measures the dynamic pressure inside the chimney based on the total pressure inside the chimney transmitted through the pitot tube assembly 100 and the static pressure inside the chimney. and an arithmetic device for measuring the flow rate of the pitot tube based on this is installed on the ground, and the ends of the plurality of pitot tubes in the pitot tube assembly 100 protruding to the outer surface of the flange panel 300 are connected to the arithmetic device on the ground through the connecting pipe. You will be able to install the link with

As described above, according to the present invention, by connecting and installing the pitot tube assembly and the calculation device on the ground through the connecting pipe, the flow rate and temperature in the chimney can be more safely and efficiently without the burden of work of directly installing the calculation device, which is a heavy and expensive equipment, into the chimney. can be measured.

On the other hand, in carrying out the present invention, as shown in FIG. 4, horizontal planes are formed on the upper and lower portions of the flange panel 300, vertical planes are formed on the left and right sides of the flange panel 300, respectively, and the reinforcing frame has a V-shaped cross-sectional structure. The V-shaped hole 330 of the flange panel 300 to which 400 is coupled forms left-right symmetry with respect to the vertical center line of the flange panel 300, so that the horizontal surface of the flange panel 300 is in a constant level state. When the flange panel 300 is installed on the chimney opening surface 10 to form a plurality of pitot tubes constituting the pitot tube assembly 100, a constant vertical installation state as in FIG. 1 or a constant vertical installation as in FIG. 2 It would be desirable to enable accurate pressure measurement in the Pitot tube by forming the state.

Terms used in the present invention are only used to describe specific embodiments and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, the terms "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

Although preferred embodiments and application examples of the present invention have been shown and described above, the present invention is not limited to the specific embodiments and application examples described above, and the present invention without departing from the gist of the present invention claimed in the claims Various modifications and implementations are possible by those skilled in the art, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

10: chimney opening, 50: coupler,
100: Pitot tube assembly, 150: connector,
200: fixed panel, 210: through hole,
230: coupling groove, 300: flange panel,
330: V-shaped hole, 350: display board,
400: reinforcement frame, 500: fixture,
550: protrusion.

Claims (4)

A pitot tube assembly 100 in which a plurality of pitot tubes each equipped with a total pressure measurement sphere and a static pressure measurement sphere inside the chimney are coupled;
a first fixed panel 200-1 having a plurality of through holes 210 through which the plurality of Pitot tubes respectively pass;
a flange panel 300 fixed to a side surface of the chimney and provided with a plurality of through holes 310 through which the plurality of pitot tubes respectively pass;
a second fixed panel 200-2 installed behind the first fixed panel 200-1 and having a plurality of through holes 210 through which the plurality of Pitot tubes respectively pass; and
A reinforcing frame 400 connecting the first fixed panel 200-1, the second fixed panel 200-2, and the flange panel 300 and reinforcing the rigidity of the pitot tube assembly 100 by being installed.
Prefabricated chimney flow rate measuring device equipped with a pitot tube assembly comprising a.
delete delete According to claim 1,
The pitot tube assembly 100, the first fixing panel 200-1, the second fixing panel 200-2, the flange panel 300, and the reinforcing frame 400 are detachably coupled to each other Prefabricated chimney flow rate measuring device equipped with a pitot tube assembly.

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