KR20050010578A - Air eject apparatus for ejecting coal collected with improved efficiency - Google Patents

Abstract

PURPOSE: A pneumatic conveyor system for improving transfer efficiency of collected coals is provided to secure a smooth dust treatment and to prevent dust from scattering again by moving forward and backward an ejector nozzle according to the amount of dust. CONSTITUTION: A pneumatic conveyor system for improving the transfer efficiency of collected coals is composed of opening and closing dampers(38,39) mounted at a delivery pipe(14) connected with the lower side of a dust discharge pipe(29) of a dust hopper to open and close horizontally; a movable ejector nozzle(48) installed in the rear side of the opening and closing damper and embedded in system cases(16,17) extended from the delivery pipe to move forward and backward; an air injection pipe(46) inserted into the movable ejector nozzle; air nozzle pipes(19,20) linked to the dust discharge pipe which penetrates the upside of the system case; and position sensors(61,62,63) for detecting the amount of dust contained in the dust hopper and moving forward and backward the movable ejector nozzle according to the amount of the dust.

Description

Air feeder with improved feed efficiency for collected calls {AIR EJECT APPARATUS FOR EJECTING COAL COLLECTED WITH IMPROVED EFFICIENCY}

The present invention relates to an air transfer apparatus with improved transfer efficiency of collected calls, and more particularly, it is possible to open the discharge pipe while operating according to the generation amount of dust-in coal generated during the raw coal transfer process and collected by the dust collector. The present invention relates to an air feeder with improved feed efficiency of collected calls.

More specifically, while operating according to the amount of call collected in a certain amount by using an eject nozzle that ejects high-pressure air, the dust is collected by the dust collector while automatically opening the clogging phenomenon of the dust discharge pipe generated during the transfer process of the call. The present invention relates to an air transfer device having improved transfer efficiency of collected calls for smoothly transferring calls.

In general, the apparatus for transporting the collected coal (Coal), as shown in Figures 1 to 2, the high pressure generated from the blower (3) driven by driving the drive motor 1 and the belt (2) in combination Air is sprayed through the silencer (4) through a fixed ejection nozzle (13) built into the pressure pipe (7) is collected and collected is collected in the hopper (6) transfer processing.

The dust hopper (6) is provided with a flow conveyor (9) for transporting the collected call to the lower, the lower dust discharge pipe 29 is provided with a rotary valve 11 for discharging the collected call in a predetermined amount. .

However, the conventional air transfer apparatus using the fixed ejection apparatus as described above has the following problems.

First, the amount of dust collected by the dust collector differs according to the coal species having different water content and particle size of the cole collected outdoors, but the amount of dust collected is large because the throughput of the air transport device, which is a post-treatment process, is fixed fixedly. There is a problem that the cumulative dust 10 is present in the hopper 6 is not processed smoothly the transfer hopper 6 clogging phenomenon occurs.

Second, the collected call is discharged from the dust hopper 6 through the rotary valve 11 through the dust discharge pipe 29 to the pressure feeding pipe 7, and the discharged call contains a large amount of water if the dust is discharged. By fixing to the inner wall of the discharge pipe 29 to block the discharge pipe itself at all, there is a problem that the poor productivity due to environmental impairment due to dust re-splash and smooth transportation of the call is impossible.

In order to solve the above problems of the prior art, the present invention is configured so that the fixed eject nozzle, which is a feed amount adjusting device of the conventional air transfer apparatus, can be moved back and forth, and the amount of air injected by measuring the amount of dust contained in the hopper. The air transfer device improves the transport efficiency of the collected call to improve productivity by transporting the collected call smoothly by providing a separate means to attach the water-containing call to the dust discharge pipe while opening by adjusting the spray The purpose is to provide.

1 is a problem occurrence diagram showing a perspective view and a problem showing the overall configuration of the conventional collection call air transfer device;

Figure 2 is an exploded perspective view of the air transfer device is improved transfer efficiency of the collected call according to the present invention;

Figure 3 is a perspective view showing a coupling relationship of the air transfer device improved transfer efficiency of the collected call according to the present invention;

Figure 4 is a perspective view showing the configuration of the opening and closing damper constituting the air transfer device is improved transfer efficiency of the collected call according to the present invention;

Figure 5 is a perspective view showing the overall combined state of the air transfer device improved transfer efficiency of the collected call according to the present invention;

Figure 6 is a cross-sectional view showing the overall configuration of the air transfer device is improved transfer efficiency of the collected call according to the present invention;

7 is a cross-sectional view showing an operating state of the air transfer device is improved transfer efficiency of the collected call according to the present invention;

8 is a conceptual diagram showing the concept of the operating state of the air transfer device is improved transfer efficiency of the collected call according to the present invention.

♣ Explanation of symbols for main part of drawing ♣

6: Dust hopper 29: Dust discharge pipe 14: Pressure piping

38, 39: opening and closing damper 16, 17: device case 48: movable ejector nozzle

46: Air spray pipe 19, 20: Air nozzle pipe 61, 62, 63: Position sensor

49: screw shaft 54: drive motor 36, 37: bevel gear 34: damper moving shaft

In order to achieve the above object, the present invention includes an opening and closing damper is installed in the left and right opening and closing on the pressure feed pipe connected to the dust discharge pipe lower portion of the dust hopper; A movable ejector nozzle installed at a rear portion of the opening / closing damper so as to be moved forwards and backwards in a device case installed extending to the pressure feeding pipe; An air spray pipe inserted into the movable ejector nozzle; An air nozzle pipe penetrating the upper portion of the device case and installed to be connected to the dust discharge pipe; It is provided to detect the amount of dust contained in the dust hopper is provided with a position sensor for advancing the movable ejector nozzle according to the amount of dust provides an air transfer apparatus with improved transfer efficiency of the collected call.

In addition, the present invention is the trapped call, characterized in that the open and close the damper is built in the damper cover integrally formed in the pressure feed pipe, the movable ejector nozzle is installed in the interlocking manner is opened when the moving forward, closed backward. It provides an air transfer device with improved transfer efficiency,

In addition, the present invention is a screw shaft formed with a screw screwed to the ejector moving piece is fixed to the movable ejector nozzle, and the transfer efficiency of the collected call is characterized in that it is advanced back and forth by the drive motor coupled to the shaft Provides an improved air transfer device.

In addition, the present invention is characterized in that the on-off damper is coupled to the gear shaft coupled to the bevel gear coupled to the front end of the screw shaft, and coupled to the damper movement shaft coupled to the gear is installed, characterized in that the left and right movement is installed Provides an air transfer device with improved call transfer efficiency.

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

Figure 2 is a separate perspective view of the air transfer device is improved transfer efficiency of the collected call according to the present invention, Figure 3 is a combined perspective view showing a coupling relationship of the improved air transfer device of the collected call according to the present invention Figure 4 is a perspective view showing the configuration of the opening and closing damper constituting the air transfer device with improved transfer efficiency of the collected call according to the present invention, Figure 5 is an air transfer with improved transfer efficiency of the collected call according to the present invention FIG. 6 is a cross-sectional view showing the overall configuration of the air transfer apparatus with improved transfer efficiency of the collected call according to the present invention.

As shown in FIG. 2 and FIG. 3, the air transfer device having improved transfer efficiency of the collected call according to the present invention is provided with a position sensor 61.62.63 for detecting the amount of dust to be collected in the dust hopper 6. In addition, the power cable 60 and the control box 64 are connected to the drive motor 54 for advancing forward and backward the movable eject nozzle 48.

In the present invention, first, a damper cover 30 is formed to penetrate the pressure feed pipe 14 piped to the dust discharge pipe 29 under the dust hopper 6,

The damper cover 30 has a pair of opening and closing dampers (38, 39) that is opened and closed by the left and right movement open and close to open and close the pressure feed pipe (14).

In the rear part of the opening / closing dampers 38 and 39, the device cases 16 and 17 are connected to the connection flange 43, and the movable eject nozzle 47, which is a main component of the present invention, is installed in the inner space thereof. do.

In addition, the upper portion of the device case (16, 17) is formed in the air passage pipe (18, 19) formed with the air passage 20 formed therein and the inner space of the air formed on the rear surface of the dust discharge pipe (29) It is fixed to the injection holes 25, 26, 27, 28.

Looking at the configuration of the movable eject nozzle 47 installed in the interior space of the device case (16, 17), the ejection moving piece (52) formed with a nut processing part while being projected and fixed from the lower portion of the movable eject nozzle (47) It is

The nut shaft of the ejection moving piece 52 is screwed into a screw shaft 49, a part of which is formed by a screw 51, which is a pair of shafts fixed to the lower surfaces of the device cases 16 and 17. Guides are inserted into the bases 50 and 53.

The rear part of the screw shaft 49 is axially coupled to the position sensors 61, 62, and 63 of the hopper 6 and electrically driven, and the bevel gear 37 is fixed to the front part. It is installed.

Next, a look at the configuration of the opening and closing dampers (38, 39) constituting the present invention.

As shown in FIG. 4, the opening / closing dampers 38 and 39 constituting the present invention have a pair of bevel gears 36 geared with the bevel gears 37 fixed to the front of the screw shaft 49. Drive force is given by.

That is, spur gears 32 and 42 are coupled to the gear shafts 35 and 40 that couple the pair of bevel gears 36, and open / close dampers 38 and 39 to the spur gears 32 and 42. The spur gears 31 and 41 coupled to the damper moving shaft 34 for operating the gears are engaged with each other.

A screw is processed at the end of the damper moving shaft 34, and the screw is screwed into the nut member 33 fixed to the opening / closing dampers 38 and 39, and thus the opening and closing dampers 38 and 39 are configured. Is built in the damper cover 30 formed to penetrate the pressure feed pipe (14).

Therefore, when the driving ejector nozzle 48 which drives the movable ejector nozzle 48 is operated and the movable ejector nozzle 48 is advanced, the opening / closing dampers 38 and 39 are opened, and the driving motor 54 is reversed. When the movable ejector nozzle 48 is reversed, it is configured to be closed.

Next, the structure of the air nozzle pipe 18 and 19 which comprise this invention is demonstrated.

As shown in Figure 5, the air nozzle pipe (18, 19) constituting the present invention is formed to penetrate the upper portion of the device case 44 is configured to extend to the rear surface of the dust discharge pipe (29).

A plurality of air nozzles (21, 22, 23, 24) are formed on the front of the air nozzle pipe (18, 19), which is a plurality of air injection holes (25, 26) formed on the rear surface of the dust discharge pipe (29) , 27, 28) to match exactly.

Therefore, the movable eject nozzle 48 is moved forward and backward so that the air passage 20 of the air nozzle pipes 18 and 19 and the air injection port 47 of the eject nozzle 48 coincide with each other. When the air injection port 45 of the yarn pipe 46 coincides, the air is injected into the dust discharge pipe 29 through the passage 20.

Next, the air injection pipe 46 which comprises this invention is demonstrated.

The air spray pipe 46 of the present invention is inserted into the movable ejector nozzle 48 described above, which is associated with a blower 3 for generating high pressure air, and the air nozzle at the top thereof. An air injection port 45 is formed to coincide with the air passage 20 of the pipes 18 and 19.

Hereinafter, the operation of the present invention will be described in detail.

6 is a cross-sectional view showing the overall configuration of the air transfer device is improved transfer efficiency of the collected call according to the present invention, Figure 7 is a view showing the operating state of the air transfer device is improved transfer efficiency of the collected call according to the present invention 8 is a cross-sectional view illustrating a concept of an operating state of an air transfer apparatus having improved transfer efficiency of collected calls according to the present invention.

As shown in FIGS. 6 to 7, when the dust blowout occurs and the clogging phenomenon occurs in the dust discharge port 29 during normal dust feeding by the root blower 3, the dust hopper 6 is dusted. (10) begins to accumulate and the amount is sequentially detected in the order of the lower position sensor (63) → the intermediate position sensor (62) → the upper position sensor (61), the detection signal is the drive motor in the control box (64) Maneuver (54),

The operation of the drive motor 54 rotates the screw shaft 49, whereby the movable ejection nozzle 48 fixed thereto is moved backward when the ejection moving piece 52 moves backward.

When the dust accumulated in the dust hopper 6 is detected by the upper position sensor 61, the air injection pipe 47 formed in the upper portion of the movable eject nozzle 48 is inserted into the nozzle 48. The air injection holes 45 of 46 coincide with each other, and at the same time, the positions of the air passages 20 of the air nozzle pipes 18 and 19 coincide with each other so that the high pressure air is blown into the air nozzle pipe 18.

The high pressure air blown into the air nozzle pipes 18 and 19 is injected to the injection nozzles 21.22.23.24 through the air passage 20, and thus the injection nozzles 25 and the rear portion of the dust discharge pipe 29 are formed. High pressure air is injected through the 26 and 27 to remove the stuck dust.

Then, the drive motor 54 is returned to the original dust transfer state in the reverse order described above so as to be able to normally feed by the timer of the control box 64.

FIG. 9 is a step-by-step view of the open or closed state of the air shutoff dampers 38 and 39 during the movement of the air spray pipe 45 and the movable eject nozzle 47 of the present invention.

That is, as described above, the bevel gear 37 fixedly coupled to the screw shaft 19 installed in one axis with the driving motor 54 at the same time as the fixed dust removal operation, the spur gear shaft 35, Power 40),

The opening and closing dampers 38.39 are closed by the rotation of the spur gears 31, 32, 41, and 42 coupled to the spur gear shafts 35 and 40 to block the pressure of the movable eject nozzle 48 of the present invention. .

As described above, the present invention is installed in the rear end of the dust collector which collects the dust generated during the transportation of the raw coal collected in the outdoors, the dust is smoothly transported while the eject nozzle is moved forward and backward according to the amount of dust to be transported. Raw coal transport due to environmental pollution due to scattering and accidents of aftertreatment facilities can prevent the interruption accident, thereby greatly improving the productivity of work.

Claims (4)

Opening and closing dampers 38 and 39 which are installed left and right in a pressure feed pipe 14 connected to a lower portion of the dust discharge pipe 29 of the dust hopper 6; A movable ejector nozzle (48) installed at a rear portion of the opening / closing dampers (38, 39) and installed in the apparatus cases (16, 17) extending from the pressure feeding pipe (14) and installed forward and backward; An air injection pipe 46 inserted into the movable ejector nozzle 48; Air nozzle pipes (19,20) installed to penetrate the upper portion of the device case (16,17) and connected to the dust discharge pipe (29); It is installed to detect the amount of dust contained in the dust hopper (6) of the collected call characterized in that it consists of position sensors (61, 62, 63) for advancing and moving the movable ejector nozzle 48 in accordance with the amount of dust. Air feeder with improved feed efficiency. The method according to claim 1, The opening / closing dampers 38 and 39 are installed in the damper cover 30 formed integrally with the pressure feeding pipe 14, and the movable ejector nozzles 48 are opened when the movable ejector nozzle 48 is moved forward and are closed when the backward is closed. Air transfer device, the transfer efficiency of the collected call is improved. The method according to claim 1, The movable ejector nozzle 48 is moved forward and backward by a screw shaft 49 having a screw 51 screwed to an ejecting moving piece 52 fixed to a lower portion thereof, and a driving motor 54 axially coupled thereto. Air transfer device, characterized in that the transfer efficiency of the collected call. The method according to claim 1 or 2, The opening and closing dampers 38 and 39 are screwed to the gear shafts 35 and 40 geared to the bevel gear 37 coupled to the front end of the screw shaft 49 and the damper moving shaft 34 geared thereto. Air transfer device with improved transfer efficiency of the collected call, characterized in that the left and right movable opening and closing by combining.