KR102003992B1 - blower module maximizing air flow stabilization and efficiency - Google Patents

Abstract

The present invention relates to a blower module that maximizes airflow stabilization and efficiency.
The present invention provides a double suction blower having a suction port and a discharge port formed at one side of a casing, the double suction blower comprising: an impeller assembled inside the casing and rotating at high speed; An abacus guide collar protruding from the central circumferential plate of the impeller and having a rotating collar so as to prevent turbulence from being generated at the confluence of the airflows; And a side plate stabilizer protruding from both side plates of the impeller, respectively, and having a rotatable feather for stabilizing high-speed airflow from the impeller and changing it to a constant pressure.
The present invention configured as described above minimizes the collision of the airflow generated at the end of the rotating impeller having the casing of the airfoil backward and the Sirocco (Forward curved) to stabilize the airflow to maximize the efficiency, Quality and reliability of the product, thereby satisfying the various needs of the users of the user and providing a good image.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a blower module that maximizes air flow stabilization and efficiency,

An embodiment of the present invention relates to a blower module that maximizes airflow stabilization and efficiency by means of an airflow guiding guide collar, and more particularly to a blower module having a centrifugal (Airfoil backward) and Sirocco (Forward curved) And minimizes the collision of the generated air currents to stabilize the airflow to maximize the efficiency, thereby greatly improving the quality and reliability of the blower module, thereby satisfying various needs of the user, .

As is known, a blower (impeller) is a impeller for generating a flow, and is made of a casing for guiding a flow entering and leaving the impeller. There are many ways to classify the blower. The most common method is classified by the characteristics of the flow through the wing car. It is divided into an axial flow fan, a radial-flow fan, (Mixed-flow fan).

If the flow of air occurs in a direction parallel to the axis of rotation of the wing car, it is called an axial flow fan. In this case, the flow direction of the wing car inlet and outlet coincides with the rotation axis. Propeller type blowers, that is, ordinary home fans. Axial flow blowers are used where the applied energy is mainly used to increase the speed of the fluid, so that the flow is much needed but the pressure is not needed. The radial type blower is mainly used for increasing the pressure by the centrifugal force, and therefore, it is widely used where the pressure is required rather than the flow rate.

The centrifugal type blower is generally used in a case where a spiral casing is used so that the flow of the inlet of the impeller is in the direction of the axis of rotation or the flow of the outlet is in the direction of the right angle of the rotary shaft, and the case of using a tubular casing such that both the flow .

A mixed-flow blower is used when both axial and radial flows are present in a wing car, and both flow rate and pressure increase are required at the same time. In addition, new types of blowers that do not depend on the rotation of the wing car are used for special purposes, and a blower that does not require a motor using a piezoelectric element may be used. The blower must be selected appropriately according to its application target and operating characteristics, and it is industrially used mainly in air conditioning system, various intake / exhaust systems. Its size ranges from compact to large industrial blowers, such as computer cooling fans.

However, the above-mentioned prior art has encountered many problems as follows.

That is, as shown in FIG. 1 (a) and FIG. 1 (b), there is a problem that turbulence is generated by the impinging air current generated at the end of the impeller.

In addition, the above-mentioned prior art has a problem that collision phenomenon of recirculated air occurs, and in particular, there is a great problem that the collision phenomenon can not be minimized structurally at the exit.

In order to solve the above-mentioned problems, the following prior art documents have been developed in the prior art, however, a great problem has arisen which still can not solve various problems of the prior art.

U.S. Patent No. 6,935,835 (Aug. 30, 2005) was registered. Korean Patent Registration No. 1493685 (Feb. 10, 2015) was registered. Korean Registered Patent No. 1645209 (Jun. 28, 2016) has been registered. Korean Patent Registration No. 1530610 (Jun. 16, 2015) was registered. Korea Registered Utility Model No. 0276584 (2002. 05. 14) has been registered.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a double suction blower or a single suction blower in which a casing and a fixed guide pulley, And a second object of the present invention is to provide a collision of airflow generated at a rotating impeller end having a casing of an airfoil backward and a Sirocco (Forward curved) And the third objective is to increase the efficiency of the fan having the casing by providing the airflow induction guide vane at the end of the impeller. The fourth object is to increase the efficiency of the fan having the casing by minimizing the airflow from entering the right and left inlets The fifth object of the present invention is to prevent turbulence from occurring due to collision of air discharged at a high speed, The air flow generated from the impeller is not recirculated into the casing but is directly sent to the discharge port to raise the efficiency. The sixth purpose is to help the dynamic pressure generated by the impeller to be converted to the stable pressure of the airflow through the guide pulley The seventh object is to solve the problem that the recirculated air does not collide, and the eighth object is to minimize the structural collision phenomenon at the outlet, and the ninth object is to improve the air volume, the static pressure and the efficiency , And the 10th purpose is to improve the quality and reliability of the blower module. Therefore, it is possible to improve the airflow stabilization and efficiency A blower module is provided.

In order to achieve the above object, the present invention provides a double suction blower having a suction port and a discharge port at one side of a casing, the double suction blower comprising: an impeller assembled inside the casing and rotating at high speed; An abacus guide collar protruding from the central circumferential plate of the impeller and having a rotating collar so as to prevent turbulence from being generated at the confluence of the airflows; And a side plate stabilizing protrusion protruding from both side plates of the impeller and having a rotary collar for stabilizing a high speed air flow from the impeller and changing the pressure to a constant pressure. to provide.

The present invention also provides a double suction blower having a suction port and a discharge port on one side of a casing, the double suction blower comprising: an impeller assembled inside the casing and rotating at high speed; And a side plate stabilizing protrusion protruding from both side plates of the impeller and having a rotary collar for stabilizing a high speed air flow from the impeller and changing the pressure to a constant pressure. to provide.

The present invention also provides a double suction blower having a suction port and a discharge port on one side of a casing, the double suction blower comprising: an impeller assembled inside the casing and rotating at high speed; And an abacus guide collar protruding from the central circumferential plate of the impeller and having a rotating collar to prevent turbulence from being generated at the confluence of the air flows. The present invention provides an air blower module that maximizes airflow stabilization and efficiency.

The present invention also provides a double suction blower having a suction port and a discharge port on one side of a casing, the double suction blower comprising: an impeller assembled inside the casing and rotating at high speed; And a fixing collar protruding from a lower end of the central ceiling of the casing to prevent turbulence from being generated at a location where the airflows are merged, wherein the airflow stabilization and the efficiency of the blower module are maximized.

The present invention also provides a double suction blower having a suction port and a discharge port on one side of a casing, the double suction blower comprising: an impeller assembled inside the casing and rotating at high speed; And a fixed guide collar assembled on both sides of the casing to stabilize high-speed airflow from the impeller and to change the dynamic pressure to a constant pressure. The present invention provides an air blower module that maximizes airflow stabilization and efficiency.

Further, the present invention provides a single suction blower having a suction port and a discharge port formed at one side of a casing, the single suction blower comprising: an impeller assembled inside the casing and rotating at high speed; An abacus guide collar protruding from the main plate of the impeller and having a rotatable collar to prevent turbulence from being generated at a location where airflows are merged; And a side plate stabilizing protrusion protruding from the side plate of the impeller and having a rotatable feather for stabilizing a high speed air flow from the impeller and changing the static air pressure to a constant pressure, and a fan module that maximizes efficiency of air flow stabilization .

Further, the present invention provides a single suction blower having a suction port and a discharge port formed at one side of a casing, the single suction blower comprising: an impeller assembled inside the casing and rotating at high speed; And a side plate stabilizing protrusion protruding from the side plate of the impeller and having a rotatable feather for stabilizing a high speed air flow from the impeller and changing the static air pressure to a constant pressure, and a fan module that maximizes efficiency of air flow stabilization .

Further, the present invention provides a single suction blower having a suction port and a discharge port formed at one side of a casing, the single suction blower comprising: an impeller assembled inside the casing and rotating at high speed; And an auxiliary guide collar protruding from the main plate of the impeller and having a rotating collar to prevent turbulence from being generated at a location where airflows are merged.

Further, the present invention provides a single suction blower having a suction port and a discharge port formed at one side of a casing, the single suction blower comprising: an impeller assembled inside the casing and rotating at high speed; And a fixed guide collar assembled to the casing to stabilize high-speed airflow from the impeller and to change the dynamic pressure to a constant pressure. The present invention provides an air blower module that maximizes airflow stabilization and efficiency.

As described in detail above, the present invention is characterized in that a double suction blower or a single suction blower is provided with a casing, a fixed guide pulley, an impeller, an abacus guide collar, and a side plate stabilizer.

The present invention with the above-described technical features minimizes collision of airflow generated at the end of a rotating impeller having a casing of an airfoil backward and a Sirocco (Forward curved) to stabilize the airflow to maximize efficiency.

In addition, the present invention provides an airflow induction guide vane at the end of the impeller to increase the efficiency of the fan having the casing.

In addition, the present invention prevents turbulence from occurring due to collision of air discharged at a high speed with the main platelets entering from the left and right inlets.

Further, in the present invention, the side flap is located close to the casing discharge port so that the airflow from the impeller is not recirculated to the inside of the casing, but is sent straight to the discharge port to increase the efficiency.

Further, the present invention helps the dynamic pressure generated by the impeller to be converted to the stable pressure of the airflow through the guide pulley.

Particularly, the present invention solves the problem that recirculated air does not collide.

In addition, the present invention minimizes the structural collision phenomenon at the exit.

In addition, the present invention is advantageous in that the air volume, the static pressure, the efficiency are improved, and the noise is reduced.

The present invention greatly improves the quality and reliability of the blower module due to the above-described effects, and thus is a very useful invention that can provide a good image by satisfying various needs of users as users.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 (a) is a double suction type structure diagram of a conventional blower structure,
(b) is a single suction type structure diagram of a conventional blower structure.
Fig. 2 (a) is a view showing the construction of the first embodiment of the double suction fan type of the present invention,
(b) is a perspective view of the impeller of the first embodiment.
3 (a) is a view showing a second embodiment of the double suction fan type of the present invention,
(b) is a perspective view of the impeller of the second embodiment.
4 (a) is a view showing a third embodiment of the double suction blower type of the present invention,
(b) is a perspective view of an impeller according to a third embodiment of the present invention.
5 (a) is a view of a fourth embodiment of the double suction blower type of the present invention,
(b) is a perspective view of the casing of the fourth embodiment.
6 is a view showing a fifth embodiment of the double suction fan type of the present invention.
7 is a view showing a first embodiment of a single suction blower of the present invention.
8 is a view showing a second embodiment of the single suction blower type of the present invention.
9 is a view showing a third embodiment of the single suction fan type of the present invention.
10 is a view showing a fourth embodiment of the single suction blower of the present invention.

The blower module that maximizes airflow stabilization and efficiency applied to the present invention is configured as shown in FIGS. 2 to 10.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

Also, the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of explanation, and the present invention is not necessarily limited to those shown in the drawings.

The present invention provides a double suction blower 100 and a single suction blower 100a. First, a double suction blower 100 will be described as follows.

The present invention has the following technical features in a double suction blower 100 having a suction port 130 and a discharge port 140 formed on one side of a casing 110.

That is, as shown in the first embodiment of FIGS. 2 (a) and 2 (b), the impeller 120 assembled inside the casing 110 and rotating at high speed is provided.

In addition, the present invention is characterized in that an impeller (120) is provided with an abacus guide vane (130) protruding from the central main plate of the impeller (120) to prevent collision of air discharged at a high speed from a suction port, (121) is formed.

In addition, the present invention pro- vides on both side plates of the impeller 120 so as to extend and stabilize a high-speed airflow generated from the impeller 120 and to change the airflow into a static pressure. The airflow from the impeller is positioned near the discharge port of the casing, The present invention provides an air blower module that maximizes airflow stabilization and efficiency by including a side plate stabilizing vane (122) having a rotatable feather that is directly circulated to a discharge port to increase efficiency.

The second embodiment of the present invention as shown in Figs. 3 (a) and 3 (b) is configured as follows.

That is, the present invention is a double suction blower 100 having a suction port 130 and a discharge port 140 formed on one side of a casing 110, and includes a casing 110, an impeller 120 .

The present invention also provides an airflow stabilization system including a side plate stabilizing collar (122) projecting from both side plates of the impeller (120) and having a rotatable feather for stabilizing a high speed airflow from the impeller (120) And a blower module that maximizes efficiency.

The present invention The third embodiment of Figs. 4 (a) and 4 (b) is configured as follows.

That is, the present invention is a double suction blower 100 having a suction port 130 and a discharge port 140 formed on one side of a casing 110, and includes a casing 110, an impeller 120 .

In addition, the present invention is characterized in that an impeller (120) is provided with an abacus guide vane (130) protruding from the central main plate of the impeller (120) to prevent collision of air discharged at a high speed from a suction port, And a blower module (121) that maximizes airflow stabilization and efficiency.

The present invention The fourth embodiment of Figs. 5 (a) and 5 (b) is configured as follows.

That is, the present invention is a double suction blower 100 having a suction port 130 and a discharge port 140 formed on one side of a casing 110, and includes a casing 110, an impeller 120 .

In addition, the present invention provides an air conditioner including a fixed vane (111) protruding from a lower end of a central ceiling of the casing (110) to prevent turbulence from being generated at a confluence of airflows, .

The fifth embodiment of the present invention Fig. 6 is configured as follows.

That is, the present invention is a double suction blower 100 having a suction port 130 and a discharge port 140 formed on one side of a casing 110, and includes a casing 110, an impeller 120 .

"와 같은 형상으로 가이드깃이 형성되어 임펠러에서 발생한 동압을 상기 고정식가이드깃(115)을 통하여 기류의 안정으로 정압 변환이 되도록 하는 것이다.In addition, the present invention provides air flow stabilization and efficiency including a fixed guide vane 115 that is installed on both sides of the casing 110 to stabilize high-speed airflow from the impeller 120 and change the dynamic pressure to a constant pressure. The fixed guide vane 115 is provided with an air blower module for preventing the turbulence from being generated at the junction of the air currents,

Quot ;, so that the dynamic pressure generated in the impeller can be converted to the stable pressure of the airflow through the fixed guide vane 115. [

Hereinafter, a single suction blower 100a applied to the present invention will be described.

The first embodiment of the present invention Fig. 7 is configured as follows.

That is, the present invention is a single suction blower 100a having a suction port 130 and a discharge port 140 formed at one side of a casing 110. The single suction blower 100a includes an impeller 120 .

Also, the present invention is provided with a main guide vane 121 having a rotary collar so as to protrude from the main plate of the impeller 120 and prevent turbulence from being generated at a place where the airflow generated between the main plate and the side plate are merged.

In addition, the present invention provides an airflow stabilization and efficiency control system including a side plate stabilizing vane (122) protruding from a side plate of the impeller (120) and having a rotatable feather for stabilizing a high speed airflow from the impeller A blower module is provided.

The second embodiment of the present invention Fig. 8 is configured as follows.

That is, the present invention is a single suction blower 100a having a suction port 130 and a discharge port 140 formed at one side of a casing 110. The single suction blower 100a includes an impeller 120 .

The present invention also provides an airflow stabilization and efficiency control system including a side plate stabilizing vane (122) protruding from a side plate of the impeller (120) and having a rotary vane for stabilizing a high speed airflow from the impeller (120) A blower module is provided.

The third embodiment of the present invention Fig. 9 is configured as follows.

That is, the present invention is a single suction blower 100a having a suction port 130 and a discharge port 140 formed at one side of a casing 110. The single suction blower 100a includes an impeller 120 .

In addition, the present invention provides an air conditioner comprising a main plate guiding member (121) having a rotating feather and extending to the main plate of the impeller (120) so as to prevent turbulence from being generated at the confluence of the air flows, .

Finally, the fourth embodiment of the present invention shown in FIG. 10 is configured as follows.

That is, the present invention is a single suction blower 100a having a suction port 130 and a discharge port 140 formed at one side of a casing 110. The single suction blower 100a includes an impeller 120 .

"형상으로 가이드깃이 형성되어 임펠러에서 발생한 동압을 상기 고정식가이드깃을 통하여 기류의 안정으로 정압 변환이 되도록 한다.The present invention also relates to an air conditioner including a fixed guiding blade 115 installed in the casing 110 for stabilizing high-speed airflow from the impeller 120 and changing the dynamic pressure to a constant pressure, .
At this time, the stationary guide vanes 115 are arranged in such a manner as to prevent turbulence from being generated at the places where the airflows are joined,

Quot; shape so that the dynamic pressure generated in the impeller is converted to the stable pressure of the airflow through the fixed guide vanes.

The length of the vanes 121 and 122 protruding from the outer circumferential surface of the impeller 120 applied to the present invention is preferably formed to have an impeller diameter of at least 1.1 to induce an air flow.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

It is to be understood that the invention is not to be limited to the specific forms thereof which are to be described in the foregoing description, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

The operation and effect of the blower module having the airflow stabilization and efficiency maximized according to the present invention will now be described.

First, the present invention minimizes collision of airflow generated at a rotating impeller end having a casing of an airfoil backward and a Sirocco (Forward curved) to stabilize the airflow to maximize efficiency.

The double suction blower 100 and the single suction blower 100a according to the present invention have the following effects.

That is, in the present invention, an airflow guiding guide vane is provided at the end of the impeller 120 to increase the efficiency of the fan having the casing.

The present invention can prevent the turbulence from occurring by preventing collision of high-speed discharged air entering from the left suction inlet (130) of the double suction blower or one suction inlet of the single suction blower.

The side plate collar is located near the discharge port 140 of the casing 110 so that the flow of air from the impeller 120 is not directly recirculated into the casing 120 but is directly delivered to the discharge port 140 to increase the efficiency .

Further, the present invention helps the dynamic pressure generated by the impeller 120 to be converted to the stable pressure of the airflow through the guide pulley.

Particularly, the present invention solves the problem that recirculated air does not collide.

In addition, the present invention minimizes the structural collision phenomenon at the exit.

In addition, the present invention is advantageous in that the air volume, the static pressure, the efficiency are improved, and the noise is reduced.

As a result of the experiment of the blower module which maximizes the stabilization and efficiency of the air stream of the present invention,

Air volume: 21% higher than conventional pressure

Static pressure: 11% increase in the same air volume compared to the existing performance

Efficiency: Up to 10% higher than conventional fan operating point

The performance curves were steep, minimizing changes in system airflow versus static pressure.

Tables 1 and 2 below show graphs of experimental results.

The technical idea of the blower module that maximizes the airflow stabilization and efficiency of the present invention is that the same result can be repeatedly practiced. Particularly, by implementing the present invention as described above, it is possible to contribute to industrial development by promoting technological development, .

Description of the Related Art
100: double suction blower
100a: single suction blower
110: casing
115: Fixed guide collar
120: Im Palmer
121: abacus guide vest
122: side plate stable feather

Claims (10)

delete delete delete delete 1. A blower module having a suction port and a discharge port formed at one side of a casing,
An impeller assembled inside the casing and rotating at high speed; And
And a fixed guide collar assembled on both sides of the casing to stabilize high-speed airflow from the impeller and change the dynamic pressure to a constant pressure,
The stationary guide collar is provided with a "

Shaped guide collar is formed so that the dynamic pressure generated in the impeller is converted to the stable pressure of the airflow through the fixed guide collar so as to stabilize the air flow and maximize the efficiency of the blower module.
delete delete delete 1. A blower module having a suction port and a discharge port formed at one side of a casing,
An impeller assembled inside the casing and rotating at high speed; And
A fixed guide collar assembled to the casing to stabilize high-speed airflow from the impeller and change the dynamic pressure to a constant pressure,
The stationary guide collar is provided with a "

Shaped guide collar is formed so that the dynamic pressure generated in the impeller is converted to the stable pressure of the airflow through the fixed guide collar so as to stabilize the air flow and maximize the efficiency of the blower module. delete

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