KR101971174B1 - Push-pull type removing dust apparatus - Google Patents

Abstract

The present invention relates to a push-pull type air pollution source dust collector, which is installed in various equipment (crusher, sorter, etc.) for intermediate treatment of construction waste, and collects dust generated during operation of the equipment using a suction force and a wind- To prevent air pollution caused by air pollution.
The push-pull type air pollution source dust collecting apparatus according to the present invention comprises: a blowing engine (20) and an air intake tube (30) in which at least one blowing nozzle and a suction nozzle are installed at opposite sides of equipment where an air pollution source is generated; A grid-type safety net installed at each of the air line and the intake pipe; At least one cyclone (40) having an exhaust pipe connected to the air intake pipe and the intake pipe and communicating with the atmosphere; The air circulation path is provided through a blower case (51) connected to the upper discharge side of the cyclone and the air supply pipe and the exhaust pipe, and an air pollution source and air in the duct are guided to the cyclone through the intake pipe by a suction force, A blower 50 for selecting air and blowing air into the duct through the blowing unit; A contamination sensor 70 for detecting a pollution degree in the exhaust pipe; And a door (80) installed in the exhaust pipe and opening or closing the exhaust pipe through manual or automatic control based on the detection value of the contamination sensor.

Description

[0001] PUSH-PULL TYPE REMOVING DUST APPARATUS [0002]

The present invention relates to an air pollution source dust collector such as dust, and more particularly, to an air pollution dust collector which is installed in all equipment where dust is generated, such as intermediate treatment (crushing, grinding, sorting, etc.) Pull type air pollution source dust collector.

Generally, the method of producing aggregate from construction waste is by crushing (crushing) and sorting. In this process, many dusts are generated and scattered into the atmosphere, polluting the environment.

The Air Pollution Control Act regulates the emission of soot generated by business activities at factories and workplaces, and sets allowable limits for automobile emissions. It protects the health of the people from the pollution of the atmosphere, preserves the living environment, and, in the case of damage to the health of the person by air pollution, establishes the liability of the damage of the business. Regulation of soot emission, regulations on dust, allowance limit for automobile exhaust gas, monitoring of air pollution situation, and penalties.

Accordingly, dust collecting apparatuses using a cyclone dust collector and a bag filter have been proposed as techniques of collecting dust separated from aggregate in the recent art of manufacturing aggregate materials. However, the bag filter dust collecting system must be periodically checked or exchanged If troublesome problems and bags are damaged, fine dust and dust are discharged into the air as they are, causing environmental pollution. In addition, there is a problem that the maintenance cost of the dust collecting facility is excessively consumed. In the cyclone dust collector, When a large amount of dust generated in the process is input, dust having a large particle size is collected, but the dust of the fine particles has a problem in that the efficiency of dust collection is inferior.

The patent document (registered patent No. 10-0629438) discloses a cyclone dust collector having a conical section formed on the lower side of an outer cylinder having a cylindrical shape, a screw conveyor provided on the lower end thereof, and an inner cylinder having a predetermined size provided inside the outer cylinder, In a conventional cyclone type dust collecting apparatus in which dust and dust are introduced and subjected to dust collection processing, an intake tube through which fine dust is sucked and a suction tube through which fine dust is sucked are connected and fixed on a frame, A blower; A dust collecting tank in which fine dust is introduced from a blower through a blowing unit, a screw conveyor is installed on a bottom surface, a predetermined amount of water is accommodated, and an exhaust port and an exhaust pipe are installed on one side of the screw conveyor; A primary dust collecting chamber installed in a dust collecting tank to be connected to a blowing unit of the blower and spraying water with fine particles to collect fine dust; And a second dust collecting chamber for collecting fine dust by spraying water with particulates, the dust collecting tank being disposed on an exhaust port through which exhaust air is discharged to the exhaust pipe in the dust collecting tank. And dust collecting efficiency is low.

Patent No. 10-0629438

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a dust collecting apparatus and a dust collecting apparatus, And to provide a push-pull type air pollution source dust collecting device that prevents air pollution by dust.

The push-pull type air pollution source dust collecting apparatus according to the present invention comprises: an air inlet and an air inlet, in which at least one blowing nozzle and a suction nozzle are installed on opposite sides of equipment where an air pollution source is generated; A grid-type safety net installed at each of the air line and the intake pipe; At least one cyclone having an exhaust pipe connected to the air intake pipe and the intake pipe and communicating with the atmosphere; An air pollutant source and air in the duct are introduced into the cyclone through the intake pipe by a suction force to remove an air pollution source from the cyclone, A blower for blowing air into the duct through the blowing unit; A pollution sensor for detecting a pollution degree in the exhaust pipe; And a door installed in the exhaust pipe and opening or closing the exhaust pipe through manual or automatic control based on the detection value of the contamination sensor.

According to the push-pull type air pollution source dust collector of the present invention, the dust generated when the equipment is driven is installed in various equipment (crusher, sorter, etc.) for treating construction waste, To reduce the facility investment cost and the required site by minimizing the capacity of the facility due to the reduction of air volume due to the air pollution caused by air pollution. There is an effect of improving the reliability of the apparatus.

1 is a perspective view of a push-pull type air pollution source dust collector according to the present invention.
2 is a plan view of a push-pull type air pollution source dust collector according to the present invention.
3 is a front view of a push-pull type air pollution source dust collector according to the present invention.
4 is a side view of a push-pull type air pollution source dust collector according to the present invention.
FIG. 5 is an exemplary diagram showing a duct applied to a push-pull type air pollution source dust collector according to the present invention. FIG.
FIG. 6 is another example of a duct applied to a push-pull type air pollution source dust collector according to the present invention. FIG.
7 is a view showing an example in which a push-pull type air pollution source dust collector according to the present invention is used as both suction (both pools).

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. The following terms are defined in consideration of the functions of the present invention, and these may be changed according to the intention of the user, the operator, or the like. Therefore, the definition should be based on the contents throughout this specification.

As shown in FIGS. 1 to 5 (in which the duct is not provided and FIGS. 1 to 4 are examples in which the duct is applied), the push-pull type air pollution source dust collector according to the present invention, A duct 10 which is detachably assembled to the inlet of the duct 10 and provides a space for collecting dust (the dust is collectively referred to as a particulate matter which is an air pollution source in the present invention), air for removing dust A cyclone 40 for separating the dust and air sucked by the intake pipe 30, an air intake pipe 30 for circulating the air through the air intake pipe 30, And the suction force (pull) is generated through the intake pipe 30 and the dust inside the duct 10 (shown in FIG. 5) is circulated through the cyclone (not shown) 40, a blower 50 for collecting the air in the cyclone 40, It is composed of an exhaust pipe 60 for discharging.

The present invention is installed in all equipment where dust is generated and operated. The equipment includes a cone / jaw crusher and a screen for processing construction waste, and a crusher (1) For example.

The duct 10 has a structure in which the upper portion thereof is opened to allow the waste to be introduced into the crusher 1 and the lower portion thereof is opened for installation in the crusher 1. For example, no. Further, the duct 10 may not be applied as in FIGS. 1 to 4, and may be applied as shown in FIG.

The duct (10) is formed with a tuyet and a suction port, which are holes through which the air supply duct (20) and the air intake duct (30) are respectively connected.

In order to prevent the aggregate from being broken due to the aggregate, it is preferable that the air inlet and the air inlet (for example, the air inlet nozzle 21 of the air inlet 20 and the air inlet nozzle 21 of the air inlet 30) (31) is preferably applied with a grid-type safety net (22, 32). The grid-like safety nets 22 and 33 have a plurality of holes sized to pass dust but not aggregate.

The duct 10 is variously fixed to the crusher 1, and the fixing bracket is attached to the duct 10 and the hopper, respectively, and then the bolts are fastened to each other.

The duct 10 can be fixed in various fixing methods, and thus is not limited to the fixing method described above.

The duct 10 can be manufactured in the factory and installed in the crusher 1 in the field or can be directly assembled in the hopper of the crusher 1 at the site where the crusher 1 is installed.

A lining 11 may be attached to the inner circumferential surface of the duct 10. The lining 11 is fixed by fastening members made of high-strength manganese, pressed rubber, iron or the like.

The blowing nozzle 20 is connected to the blowing case 51 on one side of which the blower 50 is installed and the other side is directly connected to the hopper on the crusher 1 directly as one or more blowing nozzles 21, Is applied, it is connected to the air outlet of the duct 10.

The blowing nozzle 21 preferably has a ventilation area narrower than other sections for high-pressure injection, and is not limited thereto.

One end of the intake pipe 30 is connected to the suction port of the cyclone 40 and the other end thereof is directly connected to the hopper on the crusher 1 as one or more suction nozzles 31. In the case where the duct 10 is applied, (10). The intake tract 30 is tangentially connected to the periphery of the cyclone 40 for efficient separation of dust.

The blowing nozzle 21 and the suctioning nozzle 31 are in the form of a hood and the blowing nozzle 21 and the suctioning nozzle 31 are provided at the same height so that the dust pushed by the blowing of the blowing nozzle 21 is guided to the suction nozzle Or the air blowing nozzle 21 is disposed at a higher position than the suction nozzle 31 and blows through the blowing nozzle 21 to form an air curtain, . ≪ / RTI >

In addition, grilles 23 and 33 for controlling the blowing direction may be applied to the blowing nozzle 21 and the suction nozzle 31. The grills 23 and 33 are pivotally or slidably mounted on the end portions of the air intake tube 20 and the air intake tube 30 to control the direction of air blowing or sucking through the air intake tube 20 and the intake tube 30, There is an advantage that the air volume can also be adjusted.

In addition, the wind direction and the suction direction can be controlled by configuring the air supply pipe 20 and the air intake pipe 30 as flexible pipes.

The material of the air intake pipe 20, the intake pipe 30 and the exhaust pipe 60 can be made of various materials such as pvc, sus, aluminum, iron, etc., And can be detachably fixed to the duct 10 or the like for easy maintenance.

The air duct 20 and the intake duct 30 are configured to generate a suction force and a suction force from every place inside the duct 10. For example, two or more air ducts and an air inlet are formed in the duct 10, The air intake pipe 20 and the intake pipe 30 are used.

A valve may be applied to regulate the flow rate of air in both the air intake pipe 20 and the intake pipe 30.

One end of the exhaust pipe (60) is connected to the discharge end of the blower case (51), and the other end is an open discharge port for discharging air.

The cyclone 40 has a cylindrical portion and a conical portion. The cyclone 40 has an inlet portion connected to the intake pipe 30 at an upper circumferential portion thereof, a dust outlet portion through which dust is discharged at a lower end portion thereof, An air outlet for discharging is formed.

The dust discharge unit is connected to a dust collection box (collection bag) that can be opened and closed by a valve and collect dust.

At least one cyclone 40 is used, and in the case of two or more, the intake pipe 30 connected to the duct 10 is connected to two or more cyclones 40 through a branch pipe. The branch pipe is opened and closed through a damper, so that two or more cyclones 40 can be used at the same time, or only one of the cyclones 40 can be used.

The blower 50 is connected to the air outlet of the cyclone 40 through a blower case 51 and is connected to the cyclone 40 through a pipe provided on the lower surface of the exhaust pipe 60, have.

The blower case 51 is of a tee type having three openings, for example, a structure in which a blowing tube 20 and an exhaust tube 60 are connected to each other and communicates with the inside of the cyclone 40, (60) are independently connected to each other or are connected to a discharge port connected to the discharge port and connected to the cyclone (40).

The blower 50 sucks air in the cyclone 40 through the suction port and blows the sucked air to the air supply pipe 20 and the exhaust pipe 60 through the discharge port.

The air supply pipe 20 and the exhaust pipe 60 are connected in various ways under the premise that the air is blown by the air blower 50 to the air blowing pipe 20 and air can be blown to the air blowing pipe 60.

The air separated from the dust in the cyclone 40 is supplied to the duct 10 through the air supply pipe 20 or discharged to the atmosphere through the exhaust pipe 60. The air discharged through the exhaust pipe 60 is polluted The pollution sensor 70 for detecting the degree of pollution and the door 80 for opening and closing the exhaust pipe 60 are provided.

The contamination sensor 70 senses, for example, the concentration specified by the air pollution control law, that is, the concentration of pollution of air exhausted through the exhaust pipe 60 provided in the exhaust pipe 60. Of course, the contamination sensor 70 is not limited to being installed in the exhaust pipe 60 but may be installed in the blower case 51 to detect the concentration of pollution before being exhausted.

The door 80 opens and closes the exhaust pipe 60 based on the contamination concentration. When the current concentration of pollution is lower than the reference concentration, the exhaust pipe 60 is opened. If the current concentration of pollution is higher than the reference concentration, do.

Opening and closing of the door 80 can be performed manually by a manual operation of the manager or automatically by controlling the controller.

The door 80 may be a butterfly valve or the like.

In the former case, the manager confirms the current contamination level displayed on the monitor, and turns on / off the driving means (motor, etc.) of the door 80. In the latter case, the controller compares the current concentration of pollution with the reference concentration If the current concentration of pollutants is lower than the reference concentration, the exhaust pipe 60 is controlled to be open. Conversely, if the current concentration of pollutants is higher than the reference concentration, the exhaust pipe 60 is closed.

The door 80 is provided at a portion where the air supply pipe 20 and the air discharge pipe 60 are connected to open or close the air supply pipe 20 and the air discharge pipe 60 in reverse, It is possible to close (open) the opening 60.

Although the door 80 is shown in the exhaust pipe 60 in the drawing, the door 80 may be provided in the air supply pipe 20 and the exhaust pipe 60, respectively.

The dust collecting method using the push-pull type air pollution source dust collector according to the present invention is as follows.

1. Installation.

The air blowing nozzle 21 and the suction nozzle 31 (or the duct 10) are fixed to the hopper of the crusher 1 and the cyclone 40, the blower 50 and the exhaust pipe 60 are provided around the crusher 1, (These are integrally used), and connects the air line 20 and the air intake line 30 to the duct 10 and the cyclone 40.

2. Remove dust.

The crusher 1 and the blower 50 are operated, and the input is put into the crusher 1.

A blowing force (push) and a suction force (pull) are generated at the upper portion of the crusher 1 by the operation of the blower 50.

More specifically, the suction port of the intake pipe 30, the cyclone 40, and the blower 50 constitutes a suction path, and the discharge port-blower 20 of the blower 50 of the blower 50 blows air And the discharge port-exhaust pipe 60 on the exhaust pipe side of the blower 50 when the exhaust pipe 60 is opened by the door 80 constitutes an exhaust path.

When the blower 50 is operated, a suction force is generated in the suction path, while a blowing force is generated in the blowing path. Therefore, the blowing power blown from the blowing unit 20 and the suction pipe 30 And the dust is sucked by the suction force to be guided to the cyclone 40. The dust is suctioned by the suction force. For example, in the case where only the wind power is provided, the dust removal efficiency is low due to the weak suction power at a distance from the suction port when the suction force is weak and the suction force is weak while moving away from the tuyeres. However, And a suction force is generated at a distance from the tuyeres, so that there is no blind spot having no wind power (blowing power, suction force) for removing dust inside the duct 10, and dust removal efficiency is very excellent.

The dust in the duct 10 flows into the cyclone 40 through the intake pipe 30 and the dust and air in the cyclone 40 by the air flow and suction force.

The dust is dropped and collected in the dust collection box under the cyclone 40, and the air ascends to the upper blower 50.

3. Atmospheric exhaust.

On the other hand, when the air separated from the dust in the cyclone 40 passes through the blower case 51, the contamination sensor 70 senses the pollution degree.

The pollution level sensed by the pollution sensor 70 can be output to the monitor as a numerical value or the like. At this time, the reference concentration is displayed on the screen together so that the administrator can judge the current pollution level at a glance.

If the current pollution level is lower than the reference concentration, the exhaust pipe 60 is opened through the door 80 to exhaust the separated air into the atmosphere. This air is clean air that does not pollute the atmosphere as a result of pollution measurement. Opening of the door 80 is possible both for the manual control of the manager, and for the automatic control of the controller based on a comparison of the pre-stored reference concentration and the current contamination level.

At this time, it is possible to simultaneously open the exhaust pipe 60 and the air supply pipe 20 by opening only the exhaust pipe 60 and closing the air supply pipe 20. In case of the former, it is preferable to stop the crusher 1, but dust can be generated by the suction force even when the air supply pipe 20 is closed, so that the crusher 1 can be operated. In the latter case, it is possible to generate a blowing force together with the exhaust and remove the dust by the blowing force and the suction force.

6 shows another example of the duct 10. When the upper part of the duct 10 is opened, some dust can be discharged to the outside of the duct 10, that is, to the atmosphere. To solve this problem, The hopper part 12 may be configured to inject the input material into the peripheral part while the upper opening part of the hopper part is closed.

The upper opening of the duct 10 may be opened or closed by the cover 14. [

It is also possible that the present invention is applicable only to the upper opening of the duct 10 without the hopper 12.

The present invention also includes the following constitution so as to enable both the push-pull and both suction.

As shown in FIG. 7, there are provided a double suction induction pipe 90 for connecting the air supply pipe 20 and the intake pipe 30, and first and second valves 91 and 92 for opening and closing the double suction induction pipe 90 .

Both suction induction pipes 90 are connected to the air supply pipe 20 and the air intake pipe 30 and the first and second valves 91 and 92 are connected to the air supply pipe 20 so as to be sucked through the air supply pipe 20 The first valve 91 is provided at a connection portion between the intake tube 30 and the suction induction pipe 90 so that one of them is opened (the other one is closed), and the second valve 92 is closed Between the suction induction pipe 90 and the blower 50 so that a sucking force is generated in the air supply pipe 20 by being installed at a position close to a portion where the suction induction pipe 90 and the air supply pipe 20 are connected.

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, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, 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. .

10: duct, 20:
30: intake tube, 40: cyclone
50: blower, 60: exhaust pipe
70: contamination sensor, 80: door
90: Suction induction pipe, 91, 92: 1st and 2nd valves

Claims (5)

A duct (10) detachably assembled to equipment generating an air pollution source and provided with at least one tuyere and a suction port facing each other to provide a space for collecting dust to the equipment;
A grid-type safety net installed at the air inlet and the air inlet of the duct;
(20) and an intake pipe (30) connected to a blowing port and a suction port of the duct, respectively;
At least one cyclone (40) having an exhaust pipe connected to the air intake pipe and the intake pipe and communicating with the atmosphere;
The air circulation path is provided through a blower case (51) connected to the upper discharge side of the cyclone and the air supply pipe and the exhaust pipe, and an air pollution source and air in the duct are guided to the cyclone through the intake pipe by a suction force, A blower 50 for selecting air and blowing air into the duct through the blowing unit;
A contamination sensor 70 for detecting a pollution degree in the exhaust pipe;
A door (80) installed in the exhaust pipe and opening / closing the exhaust pipe through manual or automatic control based on the detection value of the contamination sensor;
A sucking induction pipe (90) connected to the air supply pipe and the intake pipe, and a valve means for connecting the air supply pipe to the double suction induction pipe so that a suction force is generated in the air supply pipe and the intake pipe, / RTI >
Wherein the duct is fixed to the equipment as a frame structure having upper and lower openings for supplying waste and installing a space for collection of dust to be installed in the equipment and allowing waste to be introduced into the equipment, And a suction force acting through the suction port coexist to remove the dust, and the suction force of the air blown through the suction port coexist,
Wherein both suction induction pipes are connected to the air supply pipe and the air intake pipe,
Wherein the valve means includes a first valve installed at a connection portion between the intake pipe and the two suction induction pipes to open one of the first and second suction pipes and to close the other, And a second valve for causing a suction force to be generated in the engine. delete delete The push-pull type air pollution source dust collector according to claim 1, further comprising: a grill mounted on the air intake pipe and the intake pipe for controlling a wind direction, a wind direction and an air flow rate. The push-pull type air pollution source dust collector according to claim 1, wherein the duct has a structure in which the upper portion is closed, and a hopper portion for introducing the input to the periphery.

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