KR101125704B1 - The dust auto elimination system for improving filter performance - Google Patents

Abstract

PURPOSE: A system for automatically removing dust to enhance the performance of a filter is provided to maximize the efficiency of air purging by jetting air onto the inner surface of a back filter with a dusting air hose and hitting the inner surface of the back filter. CONSTITUTION: A system for automatically removing dust to enhance the performance of a filter comprises a differential pressure sensor(120), a controller(130), a clog sensor(90), an alarming unit(140), a vibration separator(100), and a dusting air hose. The differential pressure sensor senses pressure corresponding to air purging timing of a back filter. The controller drives a pushing cylinder(50), moves an air jetting pipe to makes tight contact with the exhaust port of the back filter, and opens an air supply valve to jet air to the dusting air hose to automatically perform an air purging operation firstly.

Description

The dust auto elimination system for improving filter performance

The present invention is a technology that prevents the bag filter from clogging and the dedusting efficiency is lowered, dusting while dusting air hoses automatically introduced into the bag filter before the dedusting efficiency is deteriorated, while performing the air purging more efficiently The primary removal, and the technology that completely removes the dust not removed even in the air purging operation through the second vibration.

In general, local governments or road management agencies are working to keep roads clean by periodically removing foreign matters accumulated on road surfaces for roads that have already been built and used.

As the road cleaning work as described above has a large cleaning area, the work efficiency is very low when the work depends on manpower, and the work is performed in the situation where the vehicle is running around, so the risk of an accident is large, so it is suitable to clean the road. The cleaning work is performed using a road cleaning vehicle made to have.

The road cleaning car is equipped with a spray nozzle for spraying water, a brush and a vacuum suction device for collecting various garbage on the road, and sprays water from the front of the vehicle, and then collects garbage using a brush and a vacuum suction machine. This series of work is performed in the process of driving a vehicle, which has the advantage of safe road cleaning while minimizing traffic congestion, but in winter, water sprayed on the road freezes on the road and freezes. Due to the problem of increasing the risk of traffic accidents, it is virtually impossible to use, and the water sprayed on the road is scattered to the surroundings in the course of driving, causing secondary pollution, Since a large amount of water is required, a huge budget is required for road cleaning.

Accordingly, in recent years, a road dust cleaning vehicle has been introduced that uses a vacuum suction mouse to clean fine dust using a vacuum suction method without spraying water like the road cleaning car.

As a prior art related to the road dust cleaning vehicle, "Patent Registration 1055791, Name / Dust vacuum suction cleaning vehicle having an air purging function of a bag filter" has been proposed.

The prior art can improve the effect of the air purging by making the air injector close to the bag filter during the air purging operation, but only performs a simple function to smoothly supply the inside of the bag filter so that air is not leaked However, as dust is removed only by air pressure, there is a high possibility that the dust may not be properly removed and remain.

In addition, when the road is cleaned in wet or wet weather, the wet dust adheres to the bag filter, and the particles stuck to the air purging operation are not properly removed because the dust adheres to the bag filter. The efficiency of the bag filter is remarkably lowered. In particular, even if the bag filter is clogged due to the stuck dust due to the nature of being stored inside, the operator cannot know whether the bag is clogged. It is true.

The present invention is to actively solve all the problems in the air purging system of the road dust intake cleaning vehicle according to the prior art, if the set pressure corresponding to the air purge time of the bag filter using the differential pressure sensor, After inputting the detection signal to the controller, the controller is able to perform the air purging operation primarily through a control command that closes the air injection pipe to the exhaust port of the bag filter and injects air from the dusting air hose. It is a problem to be solved.

In addition, the present invention is that the dust stuck to the air purging operation is not removed, if the pressure of the filtering unit rises, the detection pressure is detected by the clogging detection sensor to detect this rising pressure, and then the notification device to generate a warning sound, When the warning sound occurs, the operator operates the vibration desorber to vibrate the bag filter secondarily to completely remove the stuck dust.

According to the present invention, when the differential pressure sensor detects a blockage of the bag filter, the air injection pipe moves automatically to block the exhaust port of the bag filter after the differential pressure sensor detects a blockage of the bag filter. In accordance with the pressure detection signal of the clogging sensor, a vibration desorption device installed in the center panel is operated to give a vibration to the bag filter while devising a new concept of desorbing and removing the stuck dust.

According to the present invention, when the dust removal efficiency is reduced while the bag filter is clogged, the dusting air hose installed in the air injector automatically oscillates deeply into the bag filter, thereby bringing air closer to the inner surface of the bag filter. Simultaneously blows and strikes the inner surface to maximize the efficiency of air purging.

In addition, the bag filter is secondly vibrated to adhere to wet conditions, which are not removed even in the air purging operation, so that even the stuck dust is effectively detached and removed, thereby suppressing clogging of the bag filter, thereby exhibiting a smooth suction power while providing cleaning efficiency. It also provides the effect of drastically reducing the time and manpower required for road cleaning.

1 is a block diagram showing the overall configuration of the automatic bag filter dust removal system of the present invention
2 is a front view of the filtering tower to which the present invention is applied.
3 is a perspective view of a state in which a bag filter of the present invention is inserted into a filtering unit;
Figure 4 is a perspective view of the installation state of the bag filter, filter fixing plate, exhaust door, pushing arm and air injection pipe of the present invention
Figure 5 is a perspective view of the installation state of the bag filter, filter fixing plate, pushing cylinder, pushing arm and air spray pipe of the present invention
6 is a cross-sectional view of the installation state of the bag filter, filter fixing plate, exhaust door, pushing cylinder, pushing arm, air injection pipe and dusting air hose of the present invention.
7 is a sectional front view of the installation state of the bag filter, filter fixing plate, exhaust door, receiver tank, air supply control valve and dusting air hose of the present invention.
Figure 8 is a plan sectional view of a moving state of the air supply pipe according to the operation of the pushing cylinder of the present invention
9 is a plan sectional view of an operating state of the dusting air hose of the present invention.
Figure 10 is an enlarged cross-sectional view of the installation state of the present invention clogging sensor
11 is a cross-sectional view of the installation state of the present invention vibration eliminator

Preferred embodiments of the present invention will now be described in more detail with reference to the accompanying drawings.

The overall technical configuration according to the preferred embodiment of the air purging and vibration device (V) applied to the automatic bag filter dust removal system (R) of the present invention based on the accompanying drawings, it is included in the air discharged into the atmosphere In the road dust suction car equipped with a plurality of bag filters 20 for filtering fine dust,

Both front and rear sides are opened, and the front panel 11, the center panel 12, and the rear panel 13, each having an air inlet 11a formed therein, are spaced apart from each other so that the front panel 11 and the center panel 12 are separated from each other. A filtering tower 10 provided with a filtering unit 14 therebetween; A plurality of bag filters 20 installed through the center panel 12 and inserted into the filtering unit 14; A filter fixing plate 30 integrally assembled with the center panel 12 so as to pressurize and fix the fixing flange 22 of the bag filter 20; An exhaust door 40 installed to be opened and closed at a plurality of openings 13a formed in the rear panel 13; Pushing cylinders (50) respectively provided on both sides of the cylinder support (51) attached to the front of the exhaust door (40); A pushing arm 60 moving back and forth according to the operation of the pushing cylinder 50; A plurality of air injection pipes (70) installed at equal intervals on the pushing arm (60) and selectively blocking the exhaust port (21) of the bag filter (20); It is understood that the air spray pipe 70 is connected to a plurality of injection nozzles 71 formed up and down, and is made of an organic coupling configuration of the dusting air hose 80 which is introduced into the bag filter 20. Can be.

Hereinafter, the present invention having the above-described schematic configuration will be described in more detail for facilitating the implementation.

The filtering tower 10 of the present invention is mounted to the rear of the loading box of the vehicle, and serves to remove fine dust contained in the air passing through the normal cyclone.

As shown in FIG. 2, the front and rear sides of the filtering tower 10 are opened, and the front panel 11 and the center panel 12 and the rear panel 13 in which the air inlet 11a is formed are spaced apart from each other. As a result, a filtering unit 14 is provided between the front panel 11 and the center panel 12 to filter the air introduced through the air inlet 11a and discharge the air into the atmosphere.

An exhaust port 21 is formed at one end of the center panel 12, and a plurality of bag filters 20 having a fixed flange 22 formed around the exhaust port 21 penetrate and are inserted into the filtering unit 14. It is installed, the fixing flange 22 is fixed to the back of the center panel 12 in close contact.

At this time, the bag filter 20 is a plurality of horizontally installed in parallel constitute a set, such a bag filter 20 is composed of a plurality of sets in the present invention five bag filter 20 is composed of four sets For example.

The bag filter 20 maintains a rigid fixed state by the filter fixing plate 30. The fixing protrusion 12a integrally protruding from the center panel 12 penetrates through the filter fixing plate 30 to allow the nut 32 to pass through. ) Is coupled to the filter fixing plate 30 while pressing and fixing the fixing flange 22 to be in close contact with the center panel 12 while maintaining a state in which the center panel 12 is integrally assembled and installed, and the filter fixing plate 30 is attached to the filter fixing plate 30. By forming the vent 33 communicating with the exhaust port 21 of the bag filter 20, the air passing through the bag filter 20 may be discharged into the atmosphere through the exhaust door 40 via the vent 33. Will be.

 The rear panel 13 is provided with a plurality of openings 13a for replacing the bag filter 20, and the opening 13a has an exhaust door 40 having a plurality of exhaust holes 41 formed therein. It is installed to open and close.

A cylinder support 51 is integrally attached to the front surface of the exhaust door 40, and a pair of pushing cylinders 50 are installed at both sides of the front surface of the cylinder support 51, and the piston of the pushing cylinder 50 is provided. A pushing arm 60 is connected to the tip of the rod 52, and a plurality of air injection pipes 70 are installed at equal intervals in front of the pushing arm 60.

Accordingly, as the pushing cylinder 50 is operated, the pushing arm 60 moves linearly as shown in FIG. 8, and at the same time, the air injection pipe 70 moves forward and backward to bring the vent 33 into close contact. By blocking the air injected from the air injection pipe 70 can be smoothly supplied to the inside of the bag filter 20 without being leaked to the outside.

In this case, the pushing arm 60 is slid downward by the load of the air injection pipe 70 when moving in the front-rear direction, and sliding bars 61 are provided at both ends of the pushing arm 60 in consideration of the fact that the linear motion is not smooth. Is bent, the sliding bar 61 is provided with a plurality of guide rollers 62, the guide roller 62 is formed on the guide bar 63 integrally attached to both sides of the cylinder support 51, respectively The guide long hole 64 is provided to provide an effect of smoothly guiding movement along the guide long hole 64.

On the other hand, the air injection pipe 70 of the present invention is formed with a plurality of injection nozzles 71 up and down on the front, the injection nozzle 71 is an air injection pipe 70, the vent 33 and the bag filter 20 By preventing the occurrence of leakage by blocking the exhaust port 21 of the ()) it is possible to improve the performance of the air purging by supplying air into the bag filter 20, the air close to the entire inner surface area of the bag filter 20 The new configuration of the dusting air hose 80 is improved to take into consideration the fact that it cannot be sprayed and is limited to the function of performing purging only depending on the air pressure.

The dusting air hose 80 for this purpose is made of a flexible material, is integrally connected to the front end of the injection nozzle 71, a plurality of injection holes 81 are formed in the outer circumference along the longitudinal direction, in particular It is injected to reach deep inside the bag filter 20.

Therefore, the dusting air hose 80 is swung in all directions from the inside of the bag filter 20 as shown in FIG. 9 by the air pressure injected from the injection nozzle 71, and hits the inner surface of the bag filter 20. By improving the efficiency of the air purging by hitting, the plurality of injection holes 81 can be further improved by the performance of the air purging by injecting the air in close proximity to the entire inner surface area of the bag filter 20.

Tank brackets 111 are attached to both sides of the front lower portion of the exhaust door 40, and between the tank brackets 111, a receiver tank 112 for compressing and storing air for supplying to the air injection pipe 70 is provided. The air supply control valve 110 is installed in the plurality of branch pipes 113 connected to and installed in the receiver tank 112, and the air supply control valve 110 and each of the air injection pipes 70 are mutually connected. It is connected to the connection hose 114 of the flexible material.

Therefore, by sequentially operating the air supply control valve 110 at a time difference, the air supply amount is sequentially supplied by supplying air to the plurality of bag filters 20 sequentially without supplying air to the plurality of bag filters 20 at once. Since it does not weaken, a smooth purging operation can be performed.

In addition, the present invention gives a strong and continuous vibration to the bag filter 20 in consideration of the fact that even in the air purging operation by the dusting air hose (80) is not properly removed the dust stuck to the wet hard In addition, the technology allows the sedimented dust to be removed and removed neatly.

To this end, the air supply duct 1 connected to the air inlet 11a measures a pressure of air to be introduced into the filtering unit 14 to detect whether the bag filter 20 is blocked or not, and thus the clogging sensor 90 Is installed.

In addition, a vibration desorption device 100 generating vibration while being selectively or automatically operated according to the signal of the clogging sensor 90 is attached to the rear center of the center panel 12.

Next, the bag filter automatic dust removal system R of the present invention to which the air purging and vibration device V having the above-described configuration is applied will be described.

In the present invention, when the bag filter 20 is blocked and the vibration damping efficiency is lowered, the conventional differential pressure sensor 120 detects a pressure corresponding to an air purging time point, and inputs the detection signal to the controller 130.

Accordingly, the controller 130 moves the air injection pipe 70 by operating the pushing cylinder 50 to closely contact the exhaust port 21 of the bag filter 20 to block the exhaust port 21 and sequentially the air. By opening the supply control valve 110, the dusting air hose 80 can perform the air purging operation primarily while injecting air.

On the other hand, even in the air purging operation, if the dust adhered to the bag filter 20 is not properly removed, and the bag filter 20 is blocked, the pressure of the filtering unit 14 is increased.

At this time, the clogging detection sensor 90 detects a rising pressure and then sends a detection signal to operate a notification device 140 such as a warning light or a buzzer to generate a warning sound. By operating the vibration desorption unit 100 by vibrating continuously to the center panel 12 and the bag filter 20 fixed to the center panel 12, the stuck dust can be removed and removed neatly. .

1: air supply duct 10: filtering tower
11a: air inlet 11: front panel
12: Center panel 13: Rear panel
14: filtering unit 20: back filter
21: exhaust port 22: fixed flange
30: filter fixing plate 40: exhaust door
50: pushing cylinder 51: cylinder support
60: pushing arm 61: sliding bar
62: guide roller 63: guide bar
64: guide hole 70: air spray pipe
71: injection nozzle 80: dusting air hose
90: clogging sensor 100: vibration desorber
110: air supply control valve 112: receiver tank
113: branch pipe 120: differential pressure sensor
130: controller 140: notification device

Claims (2)

When the differential pressure sensor 120 senses a set pressure corresponding to the air purge time of the bag filter 20, the controller 130 inputs a sensing signal to the controller 130, and the controller 130 operates the pushing cylinder 50 while operating the air. The injection pipe 70 is moved to bring it into close contact with the exhaust port 21 of the bag filter 20, and then the air supply control valve 110 is opened. The dusting air hose 80 injects air and primarily purges the air. Control to perform automatically;
In the above air purging operation, if the pressure of the filtering unit 14 rises, the clogging sensor 90 detects the rising pressure, and then sends a detection signal to the notification device 140 to generate a warning sound, and according to the warning sound, While vibrating the bag filter 20 by manually operating the vibration desorption machine 100, the sequestered dust is detached and removed;
The dusting air hose 80 is connected to the plurality of injection nozzles 71 formed up and down in the air injection pipe 70, and is deeply introduced into the bag filter 20 and swings up and down, and thus the bag filter 20. Automatic dust removal system for improving the filter performance, characterized in that the inner surface of the air) and at the same time spraying the air close.
The method of claim 1,
The clogging sensor 90 is installed in the air supply duct 1 connected to the air inlet 11a to detect a blockage of the bag filter 20 and transmit a signal to the signal of the blockage detection sensor 90. Vibration desorption unit 100 to selectively remove the dust attached by vibrating the bag filter 20 while selectively operating according to the filter performance, characterized in that installed on the back of the center panel 12 of the filtering tower 10 Dust removal system for improvement.

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