KR101791977B1 - Foreign material inflow Prevention cover for Turbomachinery - Google Patents

Abstract

The present invention relates to a cover for preventing introduction of foreign matters for a turbo machine, and more specifically, to a cover for preventing introduction of foreign matters, which is capable of preventing the introduction of foreign matters to an air inlet formed in a turbo machine. Through the present invention, an effect of preventing the introduction of foreign matters into the air inlet formed in the turbo machine is provided, thereby preventing the introduction of foreign matters which is the cause of the failure of the turbo machine, and preventing the expansion of the lifespan and the deterioration of a performance of the turbo machine. In addition, since a mesh body constituting a cover for preventing introduction of foreign matters is formed in a mesh shape having a dome shape, a contact area of air is made wider than a flat-type mesh body, thereby allowing a flow rate check to be performed within an error range by a pressure difference sensor, and eliminating external influence factors influencing on the differential pressure.

Description

[0001] The present invention relates to a foreign material inflow prevention cover for turbo machines,

The present invention relates to a cover for preventing foreign matter from entering the turbo machine, and more particularly, to a cover for preventing foreign matter from entering the air inlet formed in the turbo machine.

Turbo Blower refers to a machine that rotates an impeller at a high speed by using the rotational force of a motor to blow air into and out of the outside, and is used for spraying powder or for aeration in sewage treatment plants.

In such a turbo blower, the rotation of the motor does not reach a steady state at the time of initial driving, the pressure of the blowing air to be delivered is low, and when it is used in a sewage treatment plant, it is difficult to achieve the original purpose such as aeration.

Thus, the blowing air is blown into the atmosphere until the rotational force of the motor reaches a steady state, so that the motor reaches a steady state in a short period of time, and then blows air to the original intended position.

For this purpose, a butterfly valve is conventionally used. At this time, the actuator operates the valve by using the high-pressure air generated from the compressor to wind the blowing air delivered in the initial operation of the turbo blower, When it folded, it was blown to the original intention.

However, in the air inlet of the turbo machine such as the above-described turbo blower, there is a problem that a foreign substance is sucked because the facility for preventing the inflow of another foreign substance is not installed separately, and when the foreign matter is continuously inflowed, Is becoming a reality.

Therefore, it has become necessary to develop a device for preventing foreign matter from entering the air inlet of the turbo machine.

Korean Utility Model Registration No. 20-0373611

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

An object of the present invention is to provide a cover for preventing foreign matter from entering the air inlet formed in the turbo machine.

Another object of the present invention is to provide a dust collecting apparatus and a dust collecting apparatus capable of preventing dust from flowing into a mesh body having a dome shape by making the contact area of the air wider than the mesh body of the plate type, In order to make it possible to carry out it.

According to an aspect of the present invention, there is provided a cover for preventing foreign matter from entering the turbo machine,

A turbo machine inlet part 50 having an air inlet 10, a flow rate regulator 20 for the differential pressure sensor on one side of the side wall, and a protruding step 30 protruding outward from the side wall; Wow

A mesh body 100 having a diameter larger than the diameter of the air inlet 10 and formed of a fine meshed mesh which is permeable to air and capable of filtering out foreign matter;

A bending part 210 is formed at one end of the mesh body to be coupled to the protruding jaws and a coupling groove 220 is formed in the bending part, And an engaging bracket 200 for engaging with the protruding jaws so as to penetrate the protruding jaws, thereby solving the problems of the present invention.

The cover for preventing foreign matter inflow to the turbo machine according to the present invention provides an effect of preventing foreign matter from flowing into the air inlet formed in the turbo machine, thereby preventing foreign matter from entering the turbo machine, extending the life of the turbo machine, .

Further, since the mesh body constituting the cover for preventing foreign matter inflow is formed in a mesh shape having a dome shape, the flow area can be checked within the tolerance range by the differential pressure sensor by widening the contact area of the air with respect to the plate- So that it is possible to eliminate external influence factors on the differential pressure.

1 is a perspective view of a cover for preventing foreign matter from entering the turbo machine according to an embodiment of the present invention.
2 is an exploded perspective view of a cover for preventing foreign matter from entering the turbo machine according to an embodiment of the present invention.
FIG. 3 is a control block diagram of a cover for preventing foreign object inflow for a turbo machine according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a cover for preventing foreign matter from entering the turbo machine according to the present invention will be described in detail.

1 is a perspective view of a cover for preventing foreign matter from entering the turbo machine according to an embodiment of the present invention.

2 is an exploded perspective view of a cover for preventing foreign matter from entering the turbo machine according to an embodiment of the present invention.

As shown in FIGS. 1 and 2, the cover for preventing foreign matter from entering the turbo machine according to the present invention includes a turbo machine inlet portion 50, a mesh body 100, and a coupling bracket 200.

The turbo machine inlet portion 50 refers to an air inlet passage of a turbo blower, for example, a turbo blower. An air inlet 10 is formed in the turbo machine inlet portion, and a flow rate hole 20 for a differential pressure sensor is formed on one side of the side wall. Is installed.

And the air introduced by the flow rate port for the differential pressure sensor is provided to the differential pressure sensor connected thereto to perform the flow rate check.

At this time, a protruding protrusion 30 protruding outward is formed in an upper portion of the side wall.

Conventionally, since a protecting device for preventing foreign matter from entering the air inlet is not provided, foreign matter flows into the inside of the turbo blower, thereby causing a costly turbo blower failure and deteriorating the performance of the turbo blower.

Therefore, the mesh body 100 is constructed such that the air inlets are connected to the joint bracket 200 coupled to the mesh body 100 of the present invention to prevent foreign matter from entering from the outside, but not to obstruct the inflow of air.

The mesh body 100 should be formed to have a diameter larger than the diameter of the air inlet 10 so that foreign matter may be intrinsically blocked.

In addition, the air should be formed into a fine mesh that is permeable and capable of filtering foreign matter.

The coupling brackets 200 may be formed at predetermined intervals on the ends of the mesh body, and the bending portions 210 may be formed on one side of the coupling brackets 200 in order to be coupled to the protrusions.

At this time, the coupling groove 220 is formed in the bent portion, and the coupling groove is inserted through coupling means, for example, a bolt, and is coupled to the projecting jaw.

Therefore, a groove is formed in a portion of the protruding jaw in the coupling groove, so that the bolt is tightly coupled when the bolt is rotated.

As described above, when combined, the foreign material from the outside is prevented from being introduced into the air inlet by the mesh body.

In addition, according to the second embodiment, the mesh body 100 is a network of a network in which the central portion protrudes upwardly from a lower circumference to a dome-like shape.

In other words, when the mesh body 100 is formed into a dome-shaped mesh shape, it is possible to provide an effect of widening the contact area of the air through the dome shape with respect to the mesh body of the plate- The flow rate is checked by providing the air introduced by the flow rate regulator to the differential pressure sensor connected thereto, and it is possible to determine whether the flow rate exceeds the error range by checking the flow rate.

If a flat plate is used, the area becomes narrow and deviates from the error range of the pressure difference because the air resistance is excessive.

Meanwhile, the turbomachine to which the coupling bracket 200 of the present invention is applied is a turbo blower and a turbo compressor.

The reason for constructing the differential pressure sensor is to check the flow rate in real time and to stop the operation of the turbo blower when the error exceeds the set error range. In order to check the flow rate within the error range, It is to be widened.

That is, the flow rate can be checked within the error range by giving a dome shape.

In addition, the mesh body may be formed of a metal material or a plastic material.

There are many kinds of foreign substances described in the present invention, such as dust and dirt due to yellow dust in spring, fallen leaves in autumn, and snow in winter. When a large amount of foreign matter is sucked in and obstructing the air flow path, This can be a factor.

Caution Depending on the environmental conditions, foreign matter such as snow and fallen leaves are caught on the mesh body and attached to the entire surface of the mesh body so that it does not flow into the inside of the mesh body, thereby preventing performance deterioration and malfunction.

3, an error range determination unit 510 for obtaining a pressure value measured by the differential pressure sensor and determining whether the pressure value exceeds a predetermined error range, according to the third embodiment,

An event generation control unit 520 for generating an event signal and outputting the event signal to the alarm unit when the error range determination unit determines that the pressure value exceeds the error range,

And an alarm unit 530 for providing an alarm or a buzzer signal when an event signal is acquired by the event generation control unit.

In this case, according to the fourth embodiment, a plurality of air injection nozzles 540 are further formed around the protruding jaws 30 at predetermined intervals.

At this time, an air supply unit 550 for supplying air to the air injection nozzle may be further included.

The air supply unit supplies an event signal to the air supply unit. The air supply unit supplies a supply signal to the air pump when acquiring the event signal, .

Therefore, when the foreign substance sticks to the periphery of the mesh body in real time and the pressure value exceeded the error range, the foreign matter is automatically removed from the mesh body by using the air of the air injection nozzle, It is possible to eliminate external factors.

By providing the effect of preventing the inflow of foreign matter into the air inlet formed in the turbo machine, it is possible to prevent foreign substances from entering the turbo machine, prolong the life of the turbo machine, and prevent performance degradation.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: mesh sieve
200: Coupling bracket

Claims (5)

delete delete delete delete A cover for preventing foreign matter from entering the turbo machine,
There is provided an air inlet 10 and a flow rate regulator 20 for the differential pressure sensor for providing air to the differential pressure sensor is provided at one side of the side wall and a protruding protrusion 30 protruding outward is formed at an upper portion of the side wall A turbo machine inlet part 50;
A mesh body 100 having a diameter larger than the diameter of the air inlet 10 and formed of a fine meshed mesh which is permeable to air and capable of filtering out foreign matter;
A bending part 210 is formed at one end of the mesh body to be coupled to the protruding jaws and a coupling groove 220 is formed in the bending part, And an engaging bracket (200) for engaging with the protruding jaws,
And the foreign matter is prevented from being introduced into the air inlet from the outside by the mesh body,
The mesh body (100)
A mesh shape in which a central portion protrudes upward from a lower circumference to a dome shape and a contact area of air through a dome shape is wider than that of a plate type mesh body, And the flow rate is checked to determine whether the flow rate exceeds the error range, so that the flow rate check is performed by the differential pressure sensor in the error range And the contact area of the air is widened so that it can be carried out in the air,
The coupling bracket (200)
A turbo blower, and a turbo compressor,
An error range determination unit 510 for determining whether the pressure value measured by the differential pressure sensor is obtained and exceeds the set error range,
An event generation control unit 520 for generating an event signal and outputting the event signal to the alarm unit when the error range determination unit determines that the pressure value exceeds the error range,
An alarm unit 530 for providing an alarm or a buzzer signal when an event signal is obtained by the event generation control unit,
A plurality of air injection nozzles 540 formed at predetermined intervals around the protruding jaws 30,
And an air supply unit 550 for supplying air to the air injection nozzle, wherein the event generation control unit provides an event signal to the air supply unit. In the case where the air supply unit acquires the event signal By supplying a supply signal to the air pump to supply air to the air injection nozzle,
A cover for preventing foreign matter from entering the turbo machine, which removes the foreign matter from the mesh body by using air of the air injection nozzle automatically when the foreign substance sticks to the periphery of the mesh body in real time and the checked pressure value exceeds the error range.

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