KR101494513B1 - Injection system to maximize air amplification - Google Patents

Abstract

The present invention relates to an injection device capable of maximizing air amplification. More particularly, the present invention relates to an injection device that protrudes from one side of an upper portion of the injection device and is coupled to an air tube (a) And a second induction furnace 210 connected to the discharge port 130. The first induction furnace 110 is connected to the first induction furnace 110 at a lower portion thereof, And a discharge port 220 connected to the second induction passage 210 for discharging air is formed on the outer side of the first induction passage 210. A first inlet 201 connected to the discharge port 220 is formed on the inner side of the discharge port 220, A protruding portion 230 protruding downward from the inside of the air tube 201 is formed to amplify the air sucked in the air tuck a and to be separated from the compressed air pipe 100 by a bag filter 300 And a compressed air blower (200) composed of an air amplifier (200) for allowing compressed air to be sucked The induction pipe 240 is fitted between the protrusion 230 and the bag filter 300 so that the inner circumference of the induction pipe 240 is larger than the outer circumference of the protrusion 230 And a third inlet 205 is formed between the induction tube 240 and the bag filter 300 so that the pressure of the compressed air injected from the air tube a is reduced, Air is flowed to the bag filter 300 and is capable of quickly sucking air in the air through the first, second and third inlets 201, 203 and 205. Therefore, The compressed air from the air amplifier 200 is supplied to the bag filter 201 through the first, second, and third inlets 201, 203, and 205, which are sequentially formed in the moving path, 300), it is possible to suck in more air in the air, which is useful for maximizing the suction effect To inventors.

Description

[0001] Injection system to maximize air amplification [

More particularly, the present invention relates to an injection device connected to a supply means for amplifying the introduced air and sucking the air into the bag filter, wherein the air in the air can be sucked more through a plurality of inflow ports sequentially formed in the moving path. The present invention relates to an injection device capable of maximizing air amplification with a structure that can be easily combined with an existing conventional air tube.

A bag filter is used for a dust collector, which is a purifier that collects dust in a place where dust is frequently generated and purifies it with clean air and discharges the air to the outside. The air is sprayed in the direction of the bag filter to remove the contaminants collected in the bag filter to prevent clogging of the bag.

Accordingly, there are various types of compressed air injectors for spraying compressed air to a conventional bag filter to desorb contaminants.

First of all,

[0002] The present invention relates to a compressed air injection device for supplying compressed air to a bag filter having air collected thereon at a high speed and at a high speed, A compressed air pipe formed of a compressed air pipe formed by piercing the upper surface of the branch pipe and ejecting the compressed air, and a jet port formed in the two branch pipes, and being coupled to the jet port, And an air amplifier composed of a compressed air inlet to be fixed and a compressed air outlet for amplifying and discharging the air introduced into the compressed air inlet.

The above-described prior art is connected to an air tube serving as a supply means, is divided into two sides, and air is introduced into the air amplifier, so that the air compressed by the bag filter constituting the lower part is moved. Such a configuration has a problem that economical efficiency is deteriorated due to a problem that a structure is changed to connect with an air tube which is usually installed.

Registration No. 10-0718708 (Special) A plurality of bag filters are installed to collect the air that has flowed into the housing. A spray tube is installed above the bag filter to jet a compressed gas supplied from the outside. And an annular preliminary chamber having a nozzle slot formed on an upper portion of the body portion and having a nozzle slot formed on the body inlet side, And an annular chamber portion including at least one compressed gas inlet formed at one side of the preliminary chamber so as to communicate with the injection pipe, wherein a spraying portion for spraying the compressed gas downwardly is provided at a lower portion of the spraying tube penetrating through the body portion, A nozzle is formed.

The above-mentioned prior art mainly focuses on the structure that the exhaustion efficiency of the bag filter is increased and the lifetime of the bag filter can be increased. However, it does not refer to a specific description for increasing the suction force but increasing the suction force as in the prior art described above. In addition, it can not be connected to an air tube, which is a conventional supply means, resulting in poor economic efficiency.

A cleaning device for cleaning a bundle of tubular filter elements having a structure with one open end, characterized in that an injector for feeding pulsed compressed air jets into the filter element is arranged opposite the opening of the filter element Wherein the compressed air supply of the injector is controlled through a valve and through a plurality of nozzle tubes extending at a right angle to the injector, wherein a plurality of injectors are connected in series to each nozzle tube, Are connected directly to the valve and those nozzle tubes connected directly to the valve extend to the deflection and at least one additional nozzle tube with the end closed is configured to extend in the opposite direction from the deflection.

The above-described prior art describes a cleaning device and a structure included in the configuration of the cleaning device. However, the cleaning device is not specifically described, and the effect caused by the configuration is not described.

The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide an air tube which has a simple structure and can be connected to an existing installed air tube to improve economic efficiency, The air inlets can be further sucked in three times before the air is sucked into the bag filter, thereby providing a structure of the jetting device capable of maximizing the suction force.

The first guide path 110 is formed in the inside of the air tube a and the first guide path 110 is formed on both lower sides of the first guide path 110, And a second induction furnace 210 connected to the discharge port 130. The second induction furnace 210 is connected to one side of the second induction furnace 210, And a protrusion 230 protruding downward from the first inlet 201. The protrusion 230 protrudes downward from the first inlet 201. The protrusion 230 protrudes downward from the first inlet 201. The first inlet 201 is connected to the outlet 220, And an air amplifier 200 for amplifying the air sucked in the air tube a and allowing the compressed air to be sucked into the bag filter 300 that is spaced apart from the compressed air pipe 100 by a predetermined distance In the jetting device, between the protrusion 230 and the bag filter 300, And the inner circumference is formed to be larger than the outer circumference of the protrusion 230 so that a second inlet 203 is formed therebetween and the induction pipe 240 and the bag filter 300 The compressed air introduced from the air tube a flows into the bag filter 300 and flows through the first, second and third inlets 201, 203 and 205 And is structured such that air in the air can be sucked in more quickly.

According to the present invention, it is possible to maximize the air amplification by maximizing the air amplification. However, the present invention is not limited to a separate apparatus, but may be constructed in a simple structure, and compressed air is finally sucked into the bag filter, 3 inlets can be configured to suck more air in the air, so that more air can be sucked in the air, thereby increasing the economic efficiency and maximizing the suction effect. In addition, It is a useful invention that can be easily combined with an ordinary air tube.

1 is a view showing a conventional injection device
2 is a perspective view showing a preferred embodiment of the present invention.
3 is a perspective view showing a preferred embodiment of the present invention.
4 is a cross-sectional view showing a preferred embodiment of the present invention,
Figure 5 is an operating state diagram illustrating a preferred embodiment of the present invention.
Fig. 6 is a diagram showing the state of use showing the preferred embodiment of the present invention

Typically, the injector is configured to be capable of being sucked into the air filter (a), and finally, the air amplifier and the compressed air, which are installed inside the dust collector and are connected to the air tube (a) Conventionally, the spraying apparatuses are structured so that most of them are not suitable for coupling with the conventional air tube (a), and are structured such that a large amount of air can not be sucked into the air.

In the present invention, the air is connected to the air tube (a), which is a supply means, and the introduced air is amplified to be sucked into the bag filter 300, and more air can be sucked through the plurality of inlets The present invention provides an injection device capable of maximizing the air amplification as well as maximizing the suction force and having a structure that can be easily combined with a conventional air tube (a) installed in the past.

Hereinafter, preferred embodiments of the present invention will be described with reference to FIGS. 1 to 6 with reference to the accompanying drawings.

Prior to describing the present invention,

As shown in FIGS. 2 to 4, a coupling part 120 protruding from one side of the upper part is formed to be coupled with the air tube (a), a first induction passage 110 is formed therein, And a second induction furnace 210 connected to the discharge port 130. The second induction furnace 210 is connected to the first induction furnace 110 at one side thereof, And a first inlet 201 connected to the discharge port 220 is formed inside and connected to the first inlet 210 and protrudes downward from the first inlet 201, And an air amplifier (not shown) configured to amplify the air sucked in the air tube (a) so that the compressed air can be sucked into the bag filter 300 configured to be spaced apart from the compressed air pipe 100 (200), wherein between the protrusion (230) and the bag filter (300) The induction pipe 240 is fitted in the outer circumference of the protrusion 230 and the inner circumference is formed to be larger than the outer circumference of the protrusion 230 so that the second inlet 203 is formed therebetween. The compressed air introduced from the air tube a flows into the bag filter 300 and flows into the first, second and third inlets 201, 203, and 205 to quickly suck air in the atmosphere.

As shown in FIG. 2, the compressed air pipe 100 is formed with a coupling part 120 which is coupled to the air tube 'a' at an upper side thereof. The compressed air pipe 100 is extended to the coupling part 120, As shown in FIG. A first induction passage 110 is formed in the compressed air pipe 100. The first induction passage 110 is coupled to the air tube a so that air sucked by the engaging portion 120 is moved Path.

As shown in FIG. 1, since the compression air pipe is formed on both sides of the coupling portion, the structure of the compressed air pipe is not suitable for joining with the conventional air tube. Therefore, However, since the coupling portion 120 of the compressed air pipe 100 of the present invention is configured to be protruded and coupled to the upper portion, it can be coupled with the existing installed air tube a without any restriction, thereby improving the economic efficiency It is.

In addition, when the air is sucked into the air amplifier 200 to be inflowed from the upper part to the lower part, the suction force can be maximized naturally by a physical law.

2 to 3, the air amplifier 200 includes a second induction furnace 210, which is connected to the outlet 130 and is connected to the second induction furnace at one side thereof A plurality of discharge ports 220 are formed. The air amplifier 200 is formed in a round donut shape and has a first inlet 201 which is open to the upper and lower portions at a central portion and is connected to the outlet 220 and extends to a lower portion of the first inlet 201 A protrusion 230 protruding downward is formed and an induction pipe 240 is connected to the protrusion 230 to transmit the sucked air to the bag filter 300. The first inlet 201 flows through the first induction passage 110 and is discharged to the outlet 130 so that the air in the air can be sucked further by the pressure of the air .

4, the outer circumference of the protrusion 230 and the induction pipe 240 are connected to each other. Since the outer circumference of the protrusion 230 is formed to be smaller than the inner circumference of the induction pipe, 2 inlets 203 are formed. In the present invention, the first inlet 201 is formed and the second inlet 203 is additionally formed, so that the introduced air flows through the air amplifier The air in the air is sucked into the second inlet 203 by the pressure when it is amplified by the first inlet 200 and the second inlet 203 in addition to the first inlet 201, So that it can be maximized.

The air amplifier 200 configured as described above is installed inside the dust collector 400 and a bag filter 300 is formed at a lower portion of the air amplifier 200 to be separated from the air amplifier 200 Air is sucked into the bag filter (300). 5, since the air amplifier 200 and the bag filter 300 are spaced apart from each other by a predetermined distance, a third inflow port 205 is naturally formed, and the pressure is sucked into the bag filter 300 So that atmospheric air is once more sucked through the third inlet 205 again.

5, the air injected from the first air tube (a) flows through the first induction pipe 110 and is discharged to the discharge port 130, and the first air pipe Air in the atmosphere is sucked through the inlet 201 and then again through the induction pipe 240 while secondarily sucking atmospheric air through the second inlet 203 and finally through the induction pipe 240 The air introduced from the first air tube (a) is compressed through the air amplifier (200), and the compressed air is sucked through the third air inlet (205) The compressed air is sucked into the bag filter 300 to continuously suck air in three times, thereby maximizing the air suction force. It can increase economic efficiency. Will.

As described above, when the injection device 10 having such a structure is connected to the air tube (s) installed on the upper part of the dust collector 400, a plurality of the air tubes s are constructed as shown in FIG. The air injected from the air tube s by the first, second and third inlets 201, 203 and 205 into one injector 10 passes through the first and second induction furnaces 110 and 210, When the air is sucked into the bag filter 300, a large amount of air can be sucked in the air.

According to the structure of the jetting device capable of maximizing the air amplification of the present invention, a separate device is not additionally provided, but the compressed air is sucked into the bag filter 300 with a simple structure, 1, 2, and 3 inlets 201, 203, and 205 are formed to suck more air in the air, so that more air can be sucked in the air, thereby improving the economic efficiency and maximizing the suction effect In addition, the present invention is a useful invention in which the coupling portion 120 of the compressed air pipe 100 is formed as an upper portion and can be easily coupled to a conventional air tube a.

10: Injection device
100: Compressed air pipe 110: First induction furnace 120: Coupling part
130: Outlet
200: air amplifier 201: first inlet 203: second inlet
205: third inlet port 210: second induction passage 220: outlet port
230: protrusion 240: guide tube 300: bag filter
400: dust collector a: air tube

Claims (3)

A first guide path 110 is formed in the inside of the air tube a and a discharge port 110 connected to the first guide path 110 on both lower sides of the air tube a, And a second induction furnace 210 connected to the discharge port 130. The first induction furnace 210 is connected to the second induction furnace 210 at one side thereof to discharge air And a protrusion 230 protruding downward from the first inlet 201 and extending from the inside of the first inlet 201 is formed on the inner side of the first inlet 201, And an air amplifier (200) for amplifying air sucked from the air tube (a) and allowing the compressed air to be sucked into the bag filter (300) configured to be spaced apart from the compressed air pipe (100) ,
Between the protrusion 230 and the bag filter 300,
The induction pipe 240 is fitted on the outer circumference of the protrusion 230 and the inner circumference is formed larger than the outer circumference of the protrusion 230 so that a second inlet 203 is formed therebetween,
A third inlet 205 is formed between the induction pipe 240 and the bag filter 300,
The compressed air injected from the air tube a flows to the bag filter 300 and is structured so as to quickly suck air in the air through the first, second and third inlets 201, 203 and 205 Wherein the air is supplied to the air intake port.


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