KR101923853B1 - Impact Crusher with Function of Dust Removal - Google Patents

Abstract

An impact crusher of the present invention comprises: an impact housing part including an anvil installed in a predetermined part; an upper cover and hopper part functioning as a hopper for temporarily storing aggregate, and enabling inserted aggregate to be discharged to a predetermined centric part; a rotor part smashing the aggregate; and a lower discharge chute part discharging the aggregate smashed by the rotor part, and discharging dust to a predetermined lateral part. According to the present invention, the impact crusher including a dust removal function is capable of producing high-quality aggregate, which does not contain dust and waste cement, making a working environment better through dust removal, and preventing environmental pollution caused by the produced dust.

Description

Impact Crusher with Function of Dust Removal "

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an impactor crusher having a dust removing function, and more particularly, to a VSI (Vertical Shaft Impact) crusher having a vertical axis, a dust generated when an aggregate of 40 mm or less is crushed is floated with a floating blade The dust is firstly discharged to the dust outlet by the static pressure by the rotating force of the rotating rotor and the floating blade, and after the crushing is finished, the aggregate which is broken up by the lower discharge chute is discharged, and the residual dust is sucked into the fan, To an impact crusher having a dust removing function for separating dust from air by centrifugal force.

Natural aggregates can be crushed according to various purposes. One type of crusher used in this milling process may be a vertical axis impact crusher.

In the vertical axis impact crusher, the aggregate accelerated at high speed collides with the impact surface, so that the aggregate can be crushed. These vertical axis impact crushers can be classified into anvil type and rock on rock type.

According to the related art, the anvil-type impact crusher may comprise a crushing chamber, a feeding hopper disposed on top of the crushing chamber. Aggregate can be injected into the rotor through the feeding hopper.

A rotor that imparts centrifugal force to the aggregate may be disposed within the crushing chamber.

The conical distribution member can be disposed at the center of the bottom surface of the rotor.

The distribution member can horizontally distribute the aggregate introduced along the vertical direction into the rotor.

The distribution member may be connected to a vertical axis for rotating the rotor and rotated together with the rotor.

The anvil in which the aggregate distributed in the horizontal direction by the distribution member collides can be disposed on the inner wall of the crushing chamber.

Since the aggregate charged into the rotor is distributed toward the horizontal direction after colliding with the distribution member, the distribution member rotating at high speed together with the rotor can cause a severe friction with the aggregate.

Thus, the dispensing member is easily worn, so it may be required to replace it periodically.

The impact crusher is rotated at a high speed of about 1200 rpm, and the drawn aggregate is sprayed in the tangential direction from the center portion, and the aggregate collides with the anvil and is crushed, so that the crushing is good but dust is generated a lot. There is a problem that the commerciality is deteriorated, and when the waste concrete is crushed, dust of the cement component is generated and the merchantability is deteriorated.

In addition, there is a problem that dust is generated during the aggregate shredding operation, thereby causing environmental pollution.

1. Korean Registered Patent No. 10-1523635 (Registration date: May 21, 2015) Dry circulation fine-grain fine-particle producing device of air circulation type 2. Korean Registered Patent Publication No. 10-1107307 (Registration Date: Jan. 11, 2012) Impact type cone crusher having a multistage mantle structure 3. Korean Patent Registration No. 10-1614279 (Registration Date: April 15, 2016) Distribution members and vertical impact crusher 4. Korean Utility Model Registration Bulletin 20-0297527 (Registered Date: November 28, 2002) Vertical impact crusher dust scattering prevention device 5. Korean Patent Registration No. 10-1107297 (registered on Jan. 11, 2012) Modular impact crusher capable of obtaining circulating fine aggregate 6. Korean Utility Model Registration Bulletin No. 20-0425454 (Date of Registration: August 29, 2006) Separation device for shredded construction waste of construction waste

According to an aspect of the present invention, there is provided an apparatus for recovering dust, comprising: a rotating rotor rotatably mounted on a rotating shaft; And an air cut-off box is formed in the lower discharge chute portion to suck into the suction fan through the air-curtain outlet so as to discharge residual dust, thereby removing dust from the cyclone.

The impact crusher of the present invention has an impact crusher having a size of 40 mm or less. The aggregated material is crushed by impact, crushed by impact, and agitated by the rotating force of vertically installed crushing material. A plurality of braids disposed on the upper portion of the rotating rotor to float air and light particles, air introduced together with the aggregate, and light particles generated upon fracturing An impact type aggregate shredding device including a dust outlet for discharging the dust and dust with a pressure generated by the rotation of the rotary rotor and the blade, and a lower discharge chute for discharging the crushed aggregate to the lower side and the residual dust to the side; And a dust removing device coupled to the dust outlet and the lower discharge chute to produce aggregate having no fine particles by size, and to remove dust and dust generated when the aggregate is crushed.

The aggregate shredding apparatus is a space for crushing by impact, an impact housing unit in which the dust outlet is formed and the dust is discharged to the side, the crushed fine aggregate falls to the bottom, and the embalming unit is installed at a certain portion; The hopper is connected to the upper end of the impact housing part to cover the upper part of the impact housing part. The aggregate to be crushed is introduced and serves as a hopper for temporarily storing the aggregate material. An upper cover and a hopper part provided with a liner which is reduced in abrasion and replaced when the abrasion is constantly worn; A rotating rotor unit installed at an inner center of the impact housing unit to rotate the aggregate fed from the upper cover and the hopper unit at a predetermined rotational speed to be scattered to the outside to cause collision with the muffle of the impact housing unit to break the aggregate; A lower discharge chute coupled to a lower portion of the impact housing portion to discharge aggregate crushed in the rotary rotor portion, and discharging dust to a side portion; And a motor part having an axial pulley coupled with the rotary rotor part by a belt and providing a driving force for rotating the rotary rotor part.

The impact housing part is inserted into the upper cover and a certain portion of the hopper part is inserted into the upper part and is engaged in a crushing operation by the collision. The dust outlet is formed, and dust containing the dust is discharged in the tangential direction of the side surface An impact casing unit on which an upper liner is installed to be replaced when abrasion occurs due to collision of aggregate; A plurality of the anvils installed inside the impact casing unit and installed in pairs at regular intervals in a circumferential direction in which the aggregate collides with the aggregate material sprayed by the rotary rotor unit, And an emblem box including an emblem case for assembling the emblem and two emblem cases for joining the emblem mounting stand and the emblem mounting case; And a bearing box portion coupled to a lower portion of the impact casing portion, wherein the bearing of the rotary rotor portion is installed, and the aggregate crushed by the open portion formed on the bottom is discharged.

The upper cover and the hopper part are coupled to the upper end of the impact housing part to cover the upper part of the impact housing part. The lower cover part and the lower cover part reduce wear caused by collision due to collision. An inlet hopper portion formed at a central portion of the upper cover portion and serving as a cushion for temporarily staying aggregate to be crushed and having a liner for reducing abrasion occurring at the time of crushing due to collision and being replaced at a constant wear; And a discharge unit formed at a lower center of the inlet hopper unit and having a predetermined size to discharge aggregate.

The rotating rotor unit is rotatably received by the motor unit and has three rotor support plates installed at the center of the impact housing unit for rotating and spraying the aggregate fed from the upper cover and the hopper unit, A rotating rotor in which a plurality of floating blades for floating the drawn air and light particles generated in the crushing are installed on the upper part; A distribution plate installed at an inner center of the rotating rotor and uniformly distributing the drawn aggregate at 360 degrees; A vertical shaft coupled to the rotary rotor for transmitting rotational force to the rotary rotor, three support bearings for supporting both ends of the vertical shaft, and a shaft pulley coupled to one end of the vertical shaft and receiving a rotational force from the motor unit And a vertical axis portion.

The rotating rotor unit has three rotor supporting plates installed in the center of the impact housing unit to rotate and spray the aggregate fed from the upper cover and the hopper unit, and a plurality of floating blades A rotating rotor for floating air and light particles as shown in FIG. A distribution plate installed at an inner center of the rotating rotor and uniformly distributing the drawn aggregate at 360 degrees; A vertical shaft coupled to the rotary rotor for transmitting rotational force, three support bearings for supporting both ends of the vertical shaft, and a shaft pulley coupled to one end of the vertical shaft and receiving a rotational force.

The lower discharge chute portion has a quadrangular pyramid shape having four side faces in a trapezoidal shape.

An air curtain box of a predetermined size is formed in the side surface from which the dust-containing air is discharged. The air curtain box has a predetermined size to discharge residual dust not discharged to the dust outlet formed during the crushing.

And a pulley guard through-hole through which the pulley guard of the shaft pulley of the rotary rotor portion passes is formed on the opposite side of the side surface on which the air curtain box is installed.

An air curtain portion formed with a plurality of curved blades that are inclined at a predetermined angle to the upper side so as to discharge only the dust without discharging the fine aggregate is formed on the inclined surface coupled to the side surface of the lower discharge chute portion of the air curtain box.

An air-curtain outlet port is formed in the vertical surface on the opposite side of the air-curtain box with the air-curtain portion. The air-curtain outlet is coupled to the second air-conveying line of the dust-removing device.

Wherein the dust removing device separates the dust from the air by centrifugal force by giving a swirling flow of the air containing the dust, and the air containing the dust discharged from the dust outlet and the residual dust discharged from the lower discharge chute A cyclone in which the air is drawn in a tangential direction so as to raise the swirling flow to each other; And an air transfer line portion including a line for sending dust-containing air generated in the aggregate shredding device to the cyclone.

Wherein the cyclone comprises a cylindrical portion and a conical portion formed continuously to a lower portion of the cylindrical portion; A center pipe installed at a central portion of a lower portion of an upper end of the cyclone body and descending a predetermined length to a lower portion of the cylindrical portion and having a constant dust removed by a centrifugal force, An upper discharge unit coupled to an upper end of the cyclone body and discharging air from the center pipe; And a dust collecting box installed at a lower portion of the cone to collect dust, wherein the cylindrical portion has a main inlet nozzle into which dust containing dust discharged from the dust outlet is drawn; A sub inlet nozzle in which the air discharged from the center pipe and the air discharged from the lower discharge chute portion are mixed and introduced into a portion rotated 180 degrees with the main inlet nozzle; Air having a certain portion of the dust removed is discharged, and an air discharge nozzle is formed in which the center pipe and the upper discharge unit are combined.

Wherein the air transfer line unit comprises: a first air transfer line that is a passage for sending dust-containing air discharged from the dust outlet to the cyclone; A return line which is a passage for transferring the dust-removed air from the upper discharge port of the cyclone; A second air transfer line for transferring the air discharged from the lower discharge chute portion; an air chamber serving as a chamber for collecting the air returned from the return line and the air transferred from the second air transfer line; A suction fan for supplying a static pressure to the air discharged from the lower discharge chute unit to deliver the air to the second air transfer line and delivering a positive pressure to the air in the air chamber to the cyclone; And a third air transfer line as a passage for sending air from the suction fan to the cyclone.

The problem to be solved by the present invention can be solved by the crusher described above.

According to the impact crusher having the dust removing function of the present invention, the rotary rotor is provided with a floating blade for discharging the dust by discharging the dust, an air curtain box is installed in the lower discharging chute, the dust is sucked into the suction fan, It can produce high quality aggregate from which dust and waste cement are removed, eliminates dust and improve working environment, and prevents environmental contamination by dust.

1 is a front view of an impact crusher according to the present invention,
Fig. 2 is an overall plan view of an impact crusher according to the present invention,
Fig. 3 is an overall side view according to the impact crusher having the dust removing function of the present invention
4 is a front view of an aggregate crushing apparatus according to an impact crusher having a powder removing function of the present invention
5 is a side view of an aggregate crushing apparatus according to an impact crusher having a powder removing function of the present invention
6 is a schematic view of an impact housing according to an aggregate shredding apparatus of an impact crusher having a dust removing function according to the present invention.
7 is a schematic view of an impact casing according to an impact housing portion of an aggregate shredding apparatus of an impact crusher having a powder removing function according to the present invention.
8 is a schematic view of an anvil portion according to an impact housing portion of an aggregate shredding apparatus of an impact crusher having a powder removing function according to the present invention.
9 is a schematic view of a bearing box portion according to an impact housing portion of an aggregate shredding apparatus of an impact crusher having a powder removing function according to the present invention.
Fig. 10 is a schematic view of a rotating rotor according to an aggregate crushing apparatus of an impact crusher having a powder removing function of the present invention
11 is a schematic view of a rotating rotor according to a rotating rotor unit of an aggregate shredding apparatus of an impact crusher having a powder removing function according to the present invention
12 is a schematic view of a floating blade of a rotating rotor according to a rotating rotor unit of an aggregate shredding apparatus of an impact crusher having a powder removing function according to the present invention
13 is a schematic view of an upper cover and a hopper according to an aggregate crushing apparatus of an impact crusher having a powder removing function according to the present invention.
14 is a schematic view of a lower discharge chute according to an aggregate crushing device of an impact crusher having a powder removing function of the present invention
15 is a front view of a dust removing apparatus according to an impact crusher having a dust removing function of the present invention
16 is a top view of a dust removing apparatus according to an impact crusher having a dust removing function according to the present invention.
17 is a cyclone schematic diagram according to the dust removing apparatus of the impact crusher having the dust removing function of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First, a 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.

Further, the terms described below are defined in consideration of the functions of the present invention, and this may vary depending on the intention or custom of the user, the operator, and the like, so that the definition of "impact crusher equipped with minute eliminating function" Based on the contents of this specification.

Hereinafter, a preferred embodiment of the "impact crusher with dust removing function" according to the present invention will be described in detail.

The following examples are merely illustrative of the present invention and are not intended to limit the scope of the present invention.

FIG. 1 is an overall front view of an impact crusher according to the present invention, FIG. 2 is an overall plan view of an impact crusher having a dust removing function of the present invention, FIG. FIG. 4 is a front view of an aggregate shredding apparatus according to an embodiment of the present invention. FIG. 5 is a side view of an aggregate shredding apparatus according to an impact crusher having a dust removing function of the present invention And Fig. 6 is a schematic view of an impact housing according to an aggregate shredding apparatus of an impact crusher having a dust removing function according to the present invention. Fig. 7 is a view showing an impact crusher according to an impact housing unit of an impact crusher of the present invention, 8 is a schematic view of the impact crusher of the impact crusher according to the present invention, And FIG. 9 is a schematic view of a bearing box portion according to an impact housing portion of an aggregate shredding apparatus of an impact crusher having a powder removing function according to the present invention. FIG. 10 is a schematic view of an impact crusher of an impact crusher Fig. 11 is a schematic view of a rotating rotor according to a rotating rotor unit of an aggregate shredding apparatus of an impact crusher having a powder removing function according to the present invention. Fig. 12 is a schematic view of a rotating rotor of an impact crusher FIG. 13 is a schematic view of an upper cover and a hopper according to an aggregate shredding apparatus of an impact crusher having a dust removing function of the present invention, FIG. 14 is a schematic view of an inventive FIG. 15 is a schematic view of the lower discharge chute according to the aggregate crushing device of the impact crusher having the function of removing minute particles. 16 is a plan view of a dust removing apparatus according to an impact crusher having a dust removing function according to the present invention and FIG. 17 is a top view of a dust removing apparatus according to an embodiment of the present invention. Fig.

As shown in Figs. 1 to 3, the crusher A of the present invention is a crusher of the present invention, in which aggregates having a size of 40 mm or less are introduced, the drawn aggregate is rotated to crush by impact, A distribution plate 132 for horizontally distributing the aggregate falling from the upper portion by being collided with the anvil 1121 and being sprayed by the rotating force to the rotating rotor 131, A plurality of floating blades 1312 disposed above the rotating rotor 131 to float air and light particles, air drawn together with the aggregate, and light dust particles generated during the crushing operation, A dust outlet 1111 for discharging the crushed aggregate by the pressure generated by the rotation of the floating blade 1312 and the lower blade for discharging the residual dust to the side, Aggregate crushing device (1) of the impact type comprising a chute portion (14) and; A dust removing device 2 for removing dust generated when the aggregate is crushed, such as air taken in when the aggregate is introduced, connected to the dust outlet 1111 and the lower discharge chute 14 to produce aggregates of different sizes, ).

According to the impact crusher (A) having the dust removing function of the present invention, the rotating rotor 131 is provided with a floating blade 1312 for lifting and discharging dust, and the lower discharge chute 15 is provided with an air curtain box 141 is installed and sucked into the suction fan 225 to remove dust from the cyclone 21 to produce high quality aggregate from which dust and waste cement are removed and dust is removed to improve working environment, Prevent environmental pollution.

As shown in FIGS. 4 and 5, the aggregate shredding apparatus 1 is an apparatus for pulling aggregate materials having a size of 40 mm or less and crushing collided aggregate materials by collision, A distribution plate 132 for distributing the aggregate falling from the upper portion horizontally by colliding with the anvil 1121 by being crushed by the rotating force of the rotating rotor 131 rotated by the rotation of the aggregate, A plurality of floating blades 1312 for floating air and light particles, air drawn together with the drawn aggregate, and dust, which are light particles generated during the fracturing, are generated by rotation of the rotating rotor 131 and the floating blade 1312 A VSI (Vertical Shaft Impact) including a lower discharge chute portion 14 for discharging the crushed aggregate to the lower side and discharging the residual dust to the side, Type crushing device.

The aggregate crushing apparatus 1 is a space for crushing work by collision. The dust outlet 1111 is formed and dust is discharged to the side, the broken fine aggregate falls downward, and the anvil 1121 An impact housing portion 11 installed at a portion of the impact housing portion 11; The upper end of the impact housing part 11 is covered with the upper part of the impact housing part 11, the aggregate to be crushed is introduced, the hopper serves as a hopper for temporarily storing the aggregate, An upper cover and a hopper part 12 provided with liner parts 1211 and 1221 to be replaced at predetermined intervals to reduce wear caused by crushing due to collision; The upper cover and the aggregate drawn in from the hopper part 12 are rotated at a predetermined rotation speed to be supplied to the outside and installed in the anvil 1121 of the impact housing part 11, And a plurality of floating blades (1312) for floating air and light particles are installed on the rotating rotor (131); A lower discharge chute (14) coupled to a lower portion of the impact housing part (11) and discharging aggregate crushed by the rotary rotor part (13) and discharging dust to a side surface part; A motor unit 15 having a shaft pulley 151 coupled to the rotary rotor unit 13 by a belt and providing a driving force for rotating the rotary rotor unit 13; A crushing device frame part (12) having an impact housing part (11), a rotary rotor part (13), a lower discharge chute part (14) and a motor part (15) 16).

The core matter of the aggregate shredding apparatus 1 of the present invention is that a plurality of the floatation blades 1312 installed at the upper portion of the rotating rotor 131 to float air and light particles; And an air curtain box 141 installed on a side surface of the lower discharge chute 14 and having a curtain blade 14111 through which residual dust is discharged.

The aggregate crushed in the aggregate crushing apparatus 1 of the present invention is conveyed to a conveying conveyor and is conveyed in a screen so as to have a particle size of 25 to 30 mm, a particle size of 13 to 25 mm, a particle size of 8 to 13 mm, a particle size of 5 to 8 mm, .

As shown in FIG. 6, the impact housing part 11 becomes a space for crushing work by collision. The dust outlet 1111 is formed to discharge dust to the side, and the broken fine aggregate falls downward , And the anvil 1121 is installed at a certain position.

The impact housing part 11 is inserted into the upper part of the upper cover and the hopper part 12 and inserted into the upper part of the impact housing part 11 and becomes a space for crushing work by the collision and the dust outlet 1111 is formed, An impact casing part (111) for discharging air containing dust in a tangential direction and provided with a liner (1211) which can be replaced when worn due to the collision of aggregates; A plurality of anvils 1121 installed inside the impact casing part 111 and provided in pairs at regular intervals in a circumferential direction in which aggregate collides with the aggregate material sprayed by the rotary rotor part 13, And an anvil box 1122 including an anvil mount 11221 in which the anvil 1121 is installed and an anvil case 11222 in which two anvil mounts 11222 are installed, 112); And a bearing box part 113 coupled to a lower portion of the impact casing part 111 and provided with a bearing of the rotary rotor part 13 and discharging aggregated material broken by an open part 1131 formed on the bottom .

As shown in FIG. 7, the impact casing part 111 is inserted into the upper part of the upper cover and the hopper part 12, The lid 1211 is installed in the upper cover and the hopper part 12 installed at the upper part to be replaced when the abrasion due to the collision of the aggregate occurs. do.

The impact casing part 111 is formed with a plurality of upper cover coupling parts 1112 to be coupled with the upper cover and the hopper part 12.

8, the anvil portion 112 is installed inside the impact casing portion 111 and is disposed in the circumferential direction in which the aggregate material is collided with the aggregate material sprayed by the rotary rotor portion 13 A plurality of anvils 1121 installed in two sets at regular intervals and an anvil mount 11221 which is a space in which the anvil 1121 is installed and to which the anvil 1121 is installed, 11222. < / RTI >

9, the bearing box part 113 is coupled to the lower part of the impact casing part 111, and the bearings of the rotary rotor part 13 are installed, and three open parts The aggregate crushed by the crusher 1131 is discharged.

A casing coupling flange 1132 coupled to the impact casing portion 111 by a bolt is formed on the upper portion of the bearing box portion 113. The casing coupling flange 1132 is provided with a plurality of bolt fastening holes 11321 are formed.

A bearing mounting hole 1133 is formed at the center of the bearing box part 113, to which a support bearing 1332 is mounted.

10, the rotary rotor unit 13 is installed at an inner center of the impact housing unit 11 to rotate the aggregate introduced from the upper cover and the hopper unit 12 at a predetermined number of revolutions, A plurality of the floating blades 1312 for floating the air and the light particles are installed on the upper portion of the rotating rotor 131 so as to collide with the anvil 1121 of the impact housing part 11, do.

The rotating rotor unit 13 is rotatably received by the motor unit 15 and is installed at an inner center of the impact housing unit 11 to rotate the aggregate introduced from the upper cover and the hopper unit 12 A rotating rotor 131 having three rotor supporting plates 1311 for spraying the granular material and having a plurality of floating blades 1312 to float light particles generated during crushing and air introduced at the time of entering the aggregate; A distribution plate (132) installed at the center of the inside of the rotating rotor (131) and distributing the aggregate material uniformly distributed at 360 degrees; Three support bearings 1332 for supporting both ends of the vertical shaft 1331 and a vertical support shaft 1331 for supporting the rotary shaft 131 And a vertical shaft portion 133 formed of a shaft pulley 1333 coupled to one end of the motor portion 15 and receiving a rotational force from the motor portion 15.

The rotating rotor 131 is rotated at a high speed of about 1200 rpm.

The support bearing 1332 is installed at the upper end of the ball bearing 13321 and the upper end of the vertical shaft 1331 so as to be rotatable about the rotation shaft 1331, 131 for supporting the roller bearing 13322.

11, the rotating rotor 131 is rotated by receiving a rotational force from the motor unit 15 and is installed at the center of the inside of the impact housing unit 11 to rotate the upper cover and the hopper unit 12 And a plurality of floating blades 1312 for floating light particles generated in the crushing operation are installed on the upper portion of the rotor supporting plate 1311. [

The aggregate drawn through the inlet hopper portion 122 of the upper cover and the hopper portion is uniformly distributed in 360 degree directions by the aggregate that falls into the distribution plate 132 through the discharge portion 123, 131 are rotated by the rotor supporting plate 1311 and are discharged in a direction of a red arrow in a tangential direction to be collided with the anvil 1121 and crushed.

As shown in FIG. 12, the number of the float blades 1312 is preferably four, and a plurality of at least six float blades 1312 are provided depending on the size of the rotating rotor 131, It acts to float light particles.

The floating blade 1312 includes a blade plate 13121 serving as an impeller and an angle adjusting plate 13122 installed at a lower portion of the blade plate 13121 to cause the blade plate 13121 to wind at a predetermined angle .

13, the upper cover and the hopper part 12 are coupled to the upper end of the impact housing part 11 to cover the upper part of the impact housing part 11. The aggregate to be crushed is drawn in, The liner 1211 or 1221 is installed at a certain position in order to reduce wear caused by crushing due to collision and to replace the liner 1211 or 1221 at a certain wear.

The upper cover and the hopper part 12 are coupled to the upper end of the impact housing part 11 to cover the upper part of the impact housing part 11. The upper cover and the hopper part 12 reduce wear caused by collision due to impact, An upper cover portion 121 on which a liner 1211 is formed; The liner 1221, which is formed at a central portion of the upper cover part 121 to reduce wear caused by crushing due to collision at the lower part, serves as a cushion for temporarily staying aggregate, An installed inlet hopper 122; And a discharge unit 123 formed at a lower center of the inlet hopper unit 122 and having a predetermined size to discharge aggregate.

14, the lower discharge chute portion 14 is coupled to the lower portion of the impact housing portion 11 to discharge the aggregate material that has been crushed in the rotary rotor portion 13, .

The lower discharge chute portion 14 has a quadrangular pyramid shape having four side surfaces 143 of a trapezoidal shape.

An air curtain box 141 having a predetermined size for discharging residual dust not discharged to the dust outlet 1111 generated during the crushing is formed on the side surface 143 on which the dust-containing air is discharged.

A pulley guard opening 142 through which the pulley guard 13331 of the shaft pulley 1333 of the rotary rotor portion 13 passes is formed on the side opposite to the side surface on which the air curtain box 141 is installed.

A plurality of curtain blades 14111 are formed on the inclined surface of the air curtain box 141 to be coupled to the side surfaces of the lower discharge chute portion 14, A turn portion 1411 is formed.

An air-curtain outlet 1412 is formed in the vertical surface of the air-curtain box 141 on the opposite side to the air-curtain 1411 so as to communicate with the second air-conveying line 223 of the dust- .

As shown in FIGS. 15 and 16, the dust removing device 2 is coupled to the dust outlet 1111 and the lower discharge chute 14 to produce aggregate free of fine particles, It plays a role of removing dust generated when the aggregate is crushed like air.

The dust removing device 2 separates the dust from the air by centrifugal force by giving a swirling flow of the air containing the dust, and the air containing dust discharged from the dust outlet 1111 and the air containing the dust discharged from the lower discharge chute 14 A cyclone (21) which is discharged in a tangential direction so that air containing residual dust can be introduced into the tangential direction so as to raise the swirling flow to each other; And an air transfer line unit 22 including a line for sending dust containing dust generated in the aggregate shredding apparatus 1 to the cyclone 21.

The air transfer line unit 22 includes a first air transfer line 221 serving as a passage through which dust is discharged from the dust outlet 1111 to the cyclone 21; A return line 222 serving as a path for transferring dust-removed air from the upper discharge portion 213 of the cyclone 21; A second air transfer line (223) for transferring the air discharged from the lower discharge chute (14); An air chamber 224 serving as a chamber for collecting the air returned to the return line 222 and the air conveyed from the second air conveyance line 223; A suction fan for supplying a positive pressure to deliver the air discharged from the lower discharge chute unit 14 to the second air transfer line 223 and delivering a positive pressure to the air in the air chamber 224 to the cyclone 21, (225); And a third air transfer line 226 serving as a passage for sending air from the suction fan 225 to the cyclone 21.

An air vent 2221 for discharging the air discharged from the center pipe 212 of the cyclone 21 may be installed at the top of the return line 222 in order to adjust the air balance in the cyclone 21 have.

A return damper 2222 may be provided before the return line 222 is drawn into the air chamber 224 to adjust the amount of air sucked in the return line 222 to prevent excessive suction by the suction fan 225 .

Preferably, the motor for rotating the suction fan 225 adjusts the number of rotations by the inverter to adjust the suction amount and the suction static pressure.

17, the cyclone 21 separates the dust from the air by the centrifugal force by giving a swirling flow of the dust-containing air, and the air containing dust, which is discharged from the dust outlet 1111, The air discharged from the lower discharge chute portion 14 and containing residual dust is drawn in a tangential direction to raise the swirling flow to each other.

The cyclone 21 includes a cyclone body 211 having a cylindrical portion 2111 and a conical portion 2112 formed continuously to a lower portion of the cylindrical portion 2111; A center pipe 212 installed at a central portion of the lower portion of the upper end of the cyclone body 211 and descending a predetermined length to the lower portion of the cylindrical portion 2111 and having a constant dust removed by centrifugal force, An upper discharge unit 213 coupled to an upper end of the cyclone body 211 to discharge air from the center pipe 212; And a dust box 214 installed at a lower portion of the conical portion 2112 and collecting dust.

A main inlet nozzle 21111 through which dust containing the dust discharged from the dust outlet 1111 is drawn into the cylindrical portion 2111; A sub inlet nozzle 21112 through which the air discharged from the center pipe 212 and the air discharged from the lower discharge chute 14 are mixed with the main inlet nozzle 21111 and rotated 180 degrees; The air exhaust nozzle 21113 to which the center pipe 212 and the upper discharge unit 213 are coupled is formed.

The cyclone (21) of the present invention is configured such that the air containing dust discharged from the dust outlet (1111) and the air discharged from the lower discharge chute (14) and containing residual dust can raise the swirling flow The main draw-in nozzle 21111 and the sub draw-in nozzle 21112 are formed symmetrically so that the direction of rotation of the air should be the same.

According to the impact crusher (A) having the dust removing function of the present invention, the rotating rotor 131 is provided with a floating blade 1312 for lifting and discharging dust, and the lower discharge chute 15 is provided with an air curtain box 141 is installed and sucked into the suction fan 225 to remove dust from the cyclone 21 to produce high quality aggregate from which dust and waste cement are removed and dust is removed to improve working environment, Prevent environmental pollution.

A: Impact Crusher
1: Aggregate crushing device 11: Impact housing part
111: Impact casing part 1111: Dust outlet
1112: upper cover coupling part 112: anvil part
1121: Anvil 1122: Anvil Box
11221: Anvil mount 11222: Anvil case
113: bearing box part 1131: open part
1132: Casing coupling flange 11321: Bolt tightening hole
1133: Bearing mounting hole
12: upper cover and hopper part 121: upper cover part
1211: Liner 1212: Impact housing part
1213: check port 122: incoming hopper portion
1221: liner 123:
13: Rotary Rotor 131: Rotary Rotor
1311: rotor supporting plate 1312: floating blade
13121: wing plate 13122: angular adjustment plate
1313: Vertical axis joint hole 132: Distribution plate
133: vertical axis portion 1331: vertical axis
1332: Supporting bearing 13321: Ball bearing
13322: Roller Bearings 1333: Shaft Pulleys
13331: pulley guard 14: lower discharge chute part
141: Air curtain box 1411: Air curtain part
14111: Curtain blade 1412: Air curtain outlet
1413: Support plate 142: Pulley guard penetration hole
143: side face 15: motor part
151: axial pulley 16: crusher frame part
2: Dust removing device 21: Cyclone
211: Cyclone body 2111: Cylinder body
21111: main draw nozzle 21112: sub draw nozzle
21113: Air discharge nozzle 2112: Conical part
212: center pipe 213: upper discharge portion
2131: return line connection nozzle 214: dust box
22: air transfer line section 221: first air transfer line
222: return line 2221: air vent
2222: return damper 223: second air transfer line
224: Air chamber 225: Suction fan
226: Third air transfer line 23: Dust removal device frame

Claims (7)

An impact crusher (A) in which an aggregate having a size of 40 mm or less is introduced, and the drawn aggregate is rotated and crushed by impact,
The impact crusher A is installed vertically and is crushed by the anvil 1121 and crushed by the rotating force of the rotating rotor 131, A plurality of float blades 1312 installed on the rotating rotor 131 to float air and light particles, air drawn together with the aggregate, A dust outlet 1111 for discharging the dust with the pressure generated by rotation of the rotating rotor 131 and the floating blade 1312 and a lower discharge chute 14 for discharging the crushed aggregate to the lower side and discharging the residual dust to the side An aggregate crushing apparatus 1 of an impact type,
A dust removing device 2 for removing dust generated when the aggregate is crushed, such as air taken in when the aggregate is introduced, connected to the dust outlet 1111 and the lower discharge chute 14 to produce aggregates of different sizes, , ≪ / RTI >
The aggregate crushing apparatus 1 is a space for crushing work by collision. The dust outlet 1111 is formed and dust is discharged to the side, the broken fine aggregate falls downward, and the anvil 1121 An impact housing portion 11 installed at a portion of the impact housing portion 11;
The upper end of the impact housing part 11 is covered with the upper part of the impact housing part 11, the aggregate to be crushed is introduced, the hopper serves as a hopper for temporarily storing the aggregate, An upper cover and a hopper part 12 provided with liner parts 1211 and 1221 to be replaced at predetermined intervals to reduce wear caused by crushing due to collision;
The upper cover and the aggregate drawn in from the hopper part 12 are rotated at a predetermined rotation speed to be supplied to the outside and installed in the anvil 1121 of the impact housing part 11, And a plurality of floating blades (1312) for floating air and light particles are installed on the rotating rotor (131);
A lower discharge chute (14) coupled to a lower portion of the impact housing part (11) and discharging aggregate crushed by the rotary rotor part (13) and discharging dust to a side surface part;
And a motor unit 15 having a shaft pulley 151 coupled to the rotary rotor unit 13 by a belt and providing a driving force for rotating the rotary rotor unit 13,
The upper cover and the hopper part 12 are coupled to the upper end of the impact housing part 11 to cover the upper part of the impact housing part 11. The upper cover and the hopper part 12 reduce wear caused by collision due to impact, An upper cover portion 121 on which a liner 1211 is formed;
The liner 1221, which is formed at a central portion of the upper cover part 121 to reduce wear caused by crushing due to collision at the lower part, serves as a cushion for temporarily staying aggregate, An installed inlet hopper 122;
And a discharge unit 123 formed at a lower center of the inlet hopper unit 122 and having a predetermined size to discharge aggregate,
The lower discharge chute portion 14 has a quadrangular pyramid shape having four side surfaces 143 of a trapezoidal shape,
An air curtain box 141 having a predetermined size for discharging residual dust not discharged to the dust outlet 1111 generated at the time of crushing is formed on the side surface 143 on which the dust-containing air is discharged,
A pulley guard opening 142 through which the pulley guard 13331 of the shaft pulley 1333 of the rotary rotor portion 13 passes is formed on the side opposite to the side surface on which the air curtain box 141 is installed,
A plurality of curtain blades 14111 are formed on the inclined surface of the air curtain box 141 to be coupled to the side surfaces of the lower discharge chute portion 14, A turn part 1411 is formed,
An air-curtain outlet 1412 is formed in the vertical surface of the air-curtain box 141 on the opposite side to the air-curtain 1411 so as to communicate with the second air-conveying line 223 of the dust- The impact crusher having a dust removing function
delete The method according to claim 1,
The dust removing device 2 separates the dust from the air by centrifugal force by giving a swirling flow of the air containing the dust, and the air containing dust discharged from the dust outlet 1111 and the air containing the dust discharged from the lower discharge chute 14 A cyclone (21) which is discharged in a tangential direction so that air containing residual dust can be introduced into the tangential direction so as to raise the swirling flow to each other;
And an air transfer line section (22) including a line for sending dust containing dust generated in the aggregate shredding apparatus (1) to the cyclone (21). The impact crusher
The method according to claim 1,
The impact housing part 11 is inserted into the upper part of the upper cover and the hopper part 12 and inserted into the upper part of the impact housing part 11 and becomes a space for crushing work by the collision and the dust outlet 1111 is formed, An impact casing part (111) for discharging air containing dust in a tangential direction and provided with a liner (1211) which can be replaced when worn due to the collision of aggregates;
A plurality of anvils 1121 installed inside the impact casing part 111 and provided in pairs at regular intervals in a circumferential direction in which aggregate collides with the aggregate material sprayed by the rotary rotor part 13, And an anvil box 1122 including an anvil mount 11221 in which the anvil 1121 is installed and an anvil case 11222 in which two anvil mounts 11222 are installed, 112);
And a bearing box part 113 coupled to a lower portion of the impact casing part 111 and provided with a bearing of the rotary rotor part 13 and discharging aggregated material broken by an open part 1131 formed on the bottom Respectively,
The rotating rotor unit 13 is rotatably received by the motor unit 15 and is installed at an inner center of the impact housing unit 11 to rotate the aggregate introduced from the upper cover and the hopper unit 12 A rotating rotor 131 having three rotor supporting plates 1311 for spraying the granular material and having a plurality of floating blades 1312 to float light particles generated during crushing and air introduced at the time of entering the aggregate;
A distribution plate (132) installed at the center of the inside of the rotating rotor (131) and distributing the aggregate material uniformly distributed at 360 degrees;
Three support bearings 1332 for supporting both ends of the vertical shaft 1331 and a vertical support shaft 1331 for supporting the rotary shaft 131 And a vertical shaft portion 133 formed of a shaft pulley 1333 coupled to one end of the impact crusher 13 and receiving a rotational force from the motor portion 15. [
delete The method of claim 3,
The cyclone 21 includes a cyclone body 211 composed of a cylindrical portion 2111 and a conical portion 2112 connected to the lower portion of the cylindrical portion 2111;
A center pipe 212 installed at a central portion of the lower portion of the upper end of the cyclone body 211 and descending a predetermined length to the lower portion of the cylindrical portion 2111 and having a constant dust removed by centrifugal force,
An upper discharge unit 213 coupled to an upper end of the cyclone body 211 to discharge air from the center pipe 212;
And a dust box 214 installed at a lower portion of the conical portion 2112 and collecting dust,
A main inlet nozzle 21111 through which dust containing the dust discharged from the dust outlet 1111 is drawn into the cylindrical portion 2111;
A sub inlet nozzle 21112 through which the air discharged from the center pipe 212 and the air discharged from the lower discharge chute 14 are mixed with the main inlet nozzle 21111 and rotated 180 degrees;
The air having a certain portion of the dust removed therefrom is discharged and an air discharge nozzle 21113 is formed to connect the center pipe 212 and the upper discharge portion 213
The air transfer line unit 22 includes a first air transfer line 221 serving as a passage through which dust is discharged from the dust outlet 1111 to the cyclone 21;
A return line 222 serving as a path for transferring dust-removed air from the upper discharge portion 213 of the cyclone 21;
A second air transfer line (223) for transferring the air discharged from the lower discharge chute (14);
An air chamber 224 serving as a chamber for collecting the air returned to the return line 222 and the air conveyed from the second air conveyance line 223;
A suction fan for supplying a positive pressure to deliver the air discharged from the lower discharge chute unit 14 to the second air transfer line 223 and delivering a positive pressure to the air in the air chamber 224 to the cyclone 21, (225);
And a third air transfer line (226) serving as a passage for sending air from the suction fan (225) to the cyclone (21). The impact crusher
The method according to claim 6,
An air vent 2221 capable of discharging air discharged from the center pipe 212 of the cyclone 21 is installed at the uppermost portion of the return line 222 in order to align the air balance in the cyclone 21,
A return damper 2222 is provided to adjust the amount of air sucked in the return line 222 to prevent excessive suction by the suction fan 225 before the return line 222 is drawn in the air chamber 224,
The motor for rotating the suction fan (225) adjusts the rotation speed by an inverter to adjust the suction amount and the suction static pressure. An impact crusher

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