KR101612856B1 - A testing apparatus for turbomachinery - Google Patents

Abstract

According to an aspect of the present invention, there is provided a turbocharger including a first arm piping unit connected to a turbo device, a first swivel connection unit connected to the first arm piping unit, a second arm piping unit connected to the first swivel connection unit, A second swivel connection part connected to the arm piping part, and a fixed piping part connected to the second swivel connection part.

Description

[0001] The present invention relates to a testing apparatus for turbomachinery,

The present invention relates to a turbo apparatus test apparatus.

A turbomachinery is a device in which energy is transferred between a rotor, which is a rotating body, and a fluid.

A representative example of a turbo apparatus is a compressor and a turbine. Among them, a compressor is a device in which energy is transferred to a fluid by rotation of the rotor, and a turbine is a device in which energy of the fluid is transmitted to the rotor.

Turbo devices have various types and formats, and several testing rigs are being used to test such turbo devices. For example, Japanese Laid-Open Patent Publication No. 2011-47404 discloses a configuration for a power transmission system for driving a test rig of a compressor.

According to an aspect of the present invention, there is provided a turbo apparatus testing apparatus capable of reducing installation time and installation cost.

According to an aspect of the present invention, there is provided a turbocharger comprising: a first arm piping section connected to a turbo device; a first swivel connection section connected to the first arm piping section; a second arm piping section connected to the first swivel connection section; A second swivel connection part connected to the second arm piping part, and a fixed piping part connected to the second swivel connection part.

The portion of the portion of the turbo device connected to the first arm pipe portion may be an inlet or an outlet.

Here, the inlet or the outlet of the turbo device may be connected to the first arm piping by the connection piping.

Here, the second arm pipe portion may be connected to a spare pipe portion.

Here, the preliminary pipe support portion is provided with a preliminary pipe support portion, and at least one wheel may be installed under the preliminary pipe support portion.

Here, the workbench is rotatably installed in the preliminary pipe portion, and a workbench support portion is provided below the workbench, and at least one wheel may be installed under the workbench support portion.

Here, the worktable supporting part may be provided with a ladder.

Here, the fixed pipe portion may be supported by a fixed pipe support portion.

At least one of a flow rate measuring device and a temperature measuring device may be installed in the fixed pipe.

The turbo apparatus testing apparatus according to one aspect of the present invention has an effect of facilitating installation, reducing installation time and installation cost.

1 is a schematic perspective view showing a turbo apparatus testing apparatus according to an embodiment of the present invention installed in a turbo apparatus.
2 is a schematic perspective view of a turbo apparatus testing apparatus according to an embodiment of the present invention.
FIGS. 3A and 3B are schematic views showing the installation of a turbo apparatus testing apparatus according to an embodiment of the present invention.
4 is a schematic view showing a connectable region of a first arm piping section of a turbo apparatus testing apparatus according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In the present specification and drawings, the same reference numerals are used for constituent elements having substantially the same configuration, and redundant description is omitted.

FIG. 1 is a schematic perspective view showing a turbo apparatus testing apparatus according to an embodiment of the present invention installed in a turbo apparatus, and FIG. 2 is a schematic perspective view of a turbo apparatus testing apparatus according to an embodiment of the present invention.

1 and 2, the turbo apparatus testing apparatus 100 is an apparatus for testing the compressor C, and includes a first arm piping unit 110, a first swivel connection unit The second swivel connection part 140, the fixed pipe part 150, the preliminary pipe part 160, the preliminary pipe support part 170, the workbench 180, the workbench support part 190 ).

The turbo apparatus to which the turbo apparatus testing apparatus 100 according to the present embodiment is installed for testing is a compressor, but the present invention is not limited thereto. That is, the turbo apparatus to which the turbo apparatus testing apparatus 100 according to the present invention is installed may be various turbo apparatuses such as a centrifugal pump, a blower, a gas turbine, and a steam turbine.

The first arm piping 110 is connected to the outlet K of the compressor C. The first arm piping 110 is not directly connected to the discharge port K of the compressor C but is connected to the discharge port K of the compressor C by the connection piping 111 directly.

Although the first arm piping 110 according to the present embodiment is connected to the discharge port K of the compressor C, the present invention is not limited thereto. That is, the first arm piping unit 110 according to the present invention can be installed without any restriction as long as the fluid flow test is required. For example, the first arm piping portion can be tested by being installed in various places such as the inlet of the turbo device, the inlet of the turbo device, the intermediate outlet, the intermediate inlet, and the like.

The first arm piping 110 according to the present embodiment is not connected directly to the discharge port K of the compressor C but is connected through the connection piping 111. However, the present invention is not limited thereto. That is, the first arm piping 110 according to the present invention may be directly connected to the discharge port K of the compressor C without being connected to the connection piping 111.

The first swivel connection part 120 is connected to the first arm piping part 110. The first swivel connection part 120 has a pivotable connection pipe structure, and a known swivel joint pipe can be used as it is. That is, the first swivel connection part 120 has a structure capable of pivoting about the Z2 axis in FIG.

The second arm pipe portion 130 is connected to the first swivel connection portion 120.

A spare piping section 160 is installed at one side of the second arm piping section 130 and a second swiveling connection section 140 is connected to the other side of the second arm piping section 130.

The preliminary piping section 160 is closed at one end with the valve 161, so that the flow does not normally occur, and is opened when necessary. This can be used, for example, when opening is required depending on the type of flow fluid or when connection to a separate test apparatus is required.

The second swivel connection part 140 is connected to the other side of the second arm piping part 130. The second swivel connection part 140 has a connection piping structure capable of pivoting. Like the first swivel connection part 120, a known swivel joint piping can be used as it is. That is, the second swivel connection part 140 has a structure capable of rotating about the Z1 axis in FIG.

Meanwhile, one end of the fixed pipe part 150 is connected to the second swivel connection part 140, and is fixed to the installation place by the fixed pipe support part 151.

The other end of the fixed pipe portion 150 may be connected to a pipe of another device such as a separate compressor, a combustor, or the like.

Although the fixed pipe portion 150 according to the present embodiment is formed in a "? &Quot; shape, the present invention is not limited thereto. That is, the fixed piping according to the present invention may be formed in other shapes.

The fixed pipe portion 150 according to the present embodiment is provided with a flow rate measuring device 152 to measure the flow rate flowing therein. Here, the orifice flow meter can be applied to the flow rate measuring device 152.

The fixed pipe unit 150 according to the present embodiment is provided with a flow rate measuring device 152, but the present invention is not limited thereto. That is, the type of the measuring apparatus provided in the fixed piping unit 150 according to the present invention is not limited. For example, various measurement devices such as a temperature measuring device and a specific gravity measuring device may be installed in the fixed piping 150 to measure the flow rate.

The preliminary piping section 160 has a shape extending downward from one side of the second arm piping section 130. The preliminary piping support section 170 is installed below the preliminary piping section 160.

The preliminary pipe support part 170 is fixed to the lower part of the preliminary pipe part 160 by welding or the like. A plurality of wheels 171 are installed under the preliminary pipe support part 170, do. Here, the wheel 171 is installed in a rotatable structure below the spare pipe support portion 170 so that the moving direction thereof is not fixed.

A work table 180 is rotatably installed above the installation point of the preliminary pipe support part 170 of the part of the preliminary pipe part 160.

That is, the work table 180 is configured to rotate along the circumference of the preliminary pipe section 160, and is installed in the preliminary pipe section 160 as a bearing 181 for this purpose.

The workbench support part 190 is installed at a lower part of the workbench 180. A plurality of wheels 191 are provided under the workbench support part 190 to assist in the movement. Here, the wheel 191 is installed in a rotatable structure at the lower portion of the worktable support 190 so that its moving direction is not fixed.

A ladder 192 is installed on the workbench support part 190, and the worker can easily ascend to the workbench 180 using the ladder 192.

Hereinafter, the installation process and operation of the turbo apparatus testing apparatus 100 according to one embodiment of the present invention will be described with reference to FIGS. 3A to 4. FIG.

FIG. 4 is a sectional view of the first arm pipe of the turbo apparatus testing apparatus according to the embodiment of the present invention. FIG. 4 is a cross- And Fig. 5 is a schematic view showing a connectable region of negative.

First, the operator assembles the remaining parts of the turbo device testing apparatus 100 except for the fixed piping section 150 and waits near the installation place.

Next, the worker uses the fixed pipe support part 151 to fix and fix the fixed pipe part 150, and connects the second swivel connection part 140 to the fixed end part of the fixed pipe part 150. When the process is completed, the second arm piping portion 130 of the turbo apparatus testing apparatus 100 is in a state of being able to rotate about the Z1 axis as shown in Fig. Next, the operator carries the compressor (C) to be tested to the vicinity of the turbo apparatus testing apparatus (100) and installs the same. At this time, when the operator installs the compressor C, the installation position of the compressor C should be determined so that the discharge port K of the compressor C can be connected to the first arm piping 110. In this embodiment, It is easy to determine the installation position of the compressor C by the configuration of the two swivel connection portions 120 and 140 and the two arm piping portions 110 and 130 as shown in FIG. 4, since the connection area between the first arm piping 110 and the discharge port K of the compressor C is wide, the process of determining the installation position of the compressor C is facilitated do.

When the operator places the compressor C and installs it, the operator installs the connection pipe portion 111 in the discharge port K of the compressor C. [

The worker then appropriately moves the preliminary pipe support part 170 and the workbench support part 190 to allow the operator to access the first swivel connection part 120 at the workbench 180. In this case, the movement is facilitated by the wheels 171 and 191 under the preliminary pipe support part 170 and the workbench support part 190, and the workbench 180 is supported by the bearing 181 in the preliminary pipe part 160 And the rotation is facilitated.

3A, the operator ascends to the workbench 180 using the ladder 192 provided on the workbench support portion 190 to check the connection state of the first swivel connection portion 120, The direction of the first swivel connection part 120 is adjusted so that the first arm piping part 110 is directed toward the connection piping part 111.

3B, the operator reaches the end of the connecting pipe portion 111 so that the position of the work bench 180 reaches the end of the connecting pipe portion 111 and the auxiliary pipe supporting portion 170 and the work bench supporting portion 190).

When the position of the work table 180 reaches the end of the connection piping 111, the operator performs an operation of connecting the end of the first arm piping 110 to the connection piping 111 in the work table 180 The installation of the turbo apparatus testing apparatus 100 is completed.

According to the present embodiment, when the operator installs and installs the compressor C, the operator installs the connection piping 111 at the outlet K of the compressor C, but the present invention is not limited thereto. That is, according to the present invention, the operator attaches the connecting pipe unit 111 to the first arm pipe unit 110 from the beginning, so that the first arm pipe unit 110 and the connecting pipe unit 111 move together, The turbo apparatus testing apparatus 100 is operated by appropriately moving the spare pipe support unit 170 and the work table support unit 190 to connect the end of the connection pipe unit 111 to the outlet K of the compressor C. [ Can be completed.

After the installation of the turbo apparatus testing apparatus 100 is completed, the tester operates the compressor C to discharge the fluid from the outlet K of the compressor C. The fluid is then discharged through the connecting pipe portion 111, The fluid is moved to pass through the piping 110, the first swivel connection part 120, the second arm piping part 130, the second swivel connection part 140, and the fixed piping part 150. The tester tests the performance of the compressor (C) by using a measuring device such as a flow rate measuring device (152) installed in the turbo apparatus testing apparatus (100).

Next, when it is desired to test the performance of another compressor, first, the compressor C whose performance test has been completed is removed. In the process of dismantling, first, the connection piping section 111 is separated from the discharge port K of the compressor C and the first arm piping section 110. Then, the preliminary piping support portion 170 and the worktable support portion 190 are appropriately moved to make a space for demolishing the compressor C, and then the demolition of the compressor C is performed.

After completing the demolition of the compressor (C), a new compressor is disposed, and then a series of the above-described installation steps are performed. In this case, since the turbo apparatus testing apparatus 100 is already assembled as shown in FIG. 2 for the performance test of the entire compressor C, it will be performed from the next installation procedure.

The worker mounts the connecting pipe portion 111 at the outlet of the installed new compressor, and then, through the process shown in FIGS. 3A and 3B, the worker moves the end portion of the first arm pipe portion 110 By connecting the connecting piping 111 to the connecting piping 111, the installation of the turbo device testing apparatus 100 for testing a new compressor is completed, and then the performance of the new compressor is tested. In this way, performance tests of several compressors can be performed.

As described above, the turbo apparatus testing apparatus 100 according to the present embodiment has a structure in which the compressor C is installed by the configuration of the two swivel connection portions 120, 140 and the two arm piping portions 110, The position can be easily determined, and the installation work can be facilitated. As a result, the turbo apparatus testing apparatus 100 according to the present embodiment can be installed as it is in various turbo apparatuses of different sizes and types from the compressor (C) of the present embodiment. Therefore, The test piping installation cost and installation cost can be reduced.

In the turbo apparatus testing apparatus 100 according to the present embodiment, the preliminary pipe support unit 170 and the work table support unit 190 are provided with the wheels 171 and 191, and the work table 180 is connected to the preliminary pipe unit 160 The turbo apparatus testing apparatus 100 can be easily installed so that the installation time and the installation cost can be reduced. The safety of the operator can be ensured, and the demolition work can be easily performed after the test.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, You will understand the point. Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

According to one aspect of the present invention, the present invention can be applied to an industry that manufactures or uses a turbo apparatus and a turbo apparatus test apparatus.

100: Turbo apparatus test apparatus 110: First arm piping section
120: first swivel connection part 130: second arm piping part
140: second swivel connection part 150: fixed piping part
160: preliminary piping section 170: preliminary piping support section
180: worktable 190: worktable support

Claims (9)

A first arm piping section connected to the turbo device;
A first swivel connection portion connected to the first arm piping portion;
A second arm pipe section connected to the first swivel connection section;
A second swivel connection part connected to the second arm piping part; And
And a fixed piping portion connected to the second swivel connection portion,
And a second piping section connected to the second arm piping section,
Wherein the preliminary pipe support portion is provided with a preliminary pipe support portion, at least one wheel is provided below the preliminary pipe support portion,
Wherein the work pipe is provided on the preliminary pipe portion so as to be rotatable, a work platform support portion is provided below the work platform, and at least one wheel is provided under the work platform support portion. delete The method according to claim 1,
A portion of the portion of the turbo device connected to the first arm piping portion is an inlet or an outlet,
Wherein the inlet or outlet of the turbo device is connected to the first arm piping by a connecting piping. Claim 4 has been abandoned due to the setting registration fee. The method according to claim 1,
And a ladder is formed on the workbench support portion. delete delete delete delete delete

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