KR200411259Y1 - Wind speed control nozzle apparatus for separating particle - Google Patents

Abstract

The present invention relates to a wind speed control nozzle device for separating waste foreign matters, the purpose of which is to separate the foreign matter contained in the waste falling into a large area, such as a screen using a wind power, it is discharged by changing the structure of the nozzle used here The blowing speed is controlled uniformly over the entire nozzle length, and it is discharged together with the vaporized water at the time of discharge to prevent the scattering of foreign substances, and if necessary, the size of the wind speed can be changed by easily replacing the nozzle diameter. It is to provide a device. The configuration of the present invention is a device for separating foreign matters, the wind speed control plate located in the front portion of the wind speed control nozzle; A blow passage formed by a blow passage path curved portion bent to have a rounded angle and an inclined angle formed by a blow passage diagonal line formed to contact the wind speed control nozzle; A water spray nozzle installed to penetrate the air passage and configured to supply water therein so that the gasified water is loaded into the air stream and sprayed in the spraying direction and range of the air; It is characterized by the technical idea of the wind speed adjustment nozzle device for separating the waste foreign matter, including an air induction control plate installed in the ventilation passage to control the flow of air.

Wind speed control nozzle, blower, air distributor, two-way conveyor, wind speed control plate, air induction control plate

Description

Wind speed control nozzle apparatus for separating particles

1 is a perspective view of the present invention wind speed control nozzle

2 is a side view of FIG. 1 including some incisions,

3 is a plan view of FIG.

Figure 4 is a schematic front view showing an embodiment to which the present invention is applied,

Figure 5 is a schematic side view showing an embodiment to which the present invention is applied,

Figure 6 is a schematic plan view showing an embodiment to which the present invention is applied,

7 is a view showing a path and a wind speed regulator of the air passage by the air distributor applied to an embodiment to which the present invention is applied,

8 is a front view showing an embodiment of the present invention wind speed control plate,

9 is an embodiment showing the separation of foreign matter according to the present invention.

<Description of the symbols for the main parts of the drawings>

(1): Double vibration screen (2,2 '): Two-way Conveyor

(5): Blower (3,3 '): Wind speed control nozzle

(4): Air passage (6): Air distributor

(7): Wind speed controller (8): Wind speed control plate

(9): air induction throttle (10): air induction throttle

(11) water spray nozzle (41)

(42): curved passage section (31): wind speed control plate horizontal support

(32): Vertical support of the wind control plate (81): Hole

(91): hinge axis

The present invention relates to a wind speed control nozzle device for separating waste foreign matter, and in detail, by changing the shape and structure of the nozzle used for the foreign matter separation device to prevent backflow of the injected air and to easily control the wind speed and to scatter. The present invention relates to a wind speed nozzle device configured to spray water together with air injected to prevent dust.

The conventional method of separating foreign matter (combustible waste) is to remove this material with wind power during the dropping from the conveyer conveying the waste. In this method, the width of the conveyor is small so that the curtain phenomenon occurs when the waste falls. In the process of separating by wind, heavy wastes resulted in the prevention of the discharge of foreign matters, which caused the problem that the separation of this material was not smooth.

Another conventional technique is to install a blower at the bottom of a two-stage vibrating screen or a three-stage vibrating screen to separate the material by wind, so that the material is separated by wind from waste falling to the bottom due to the wide width of the vibration screen. Separation efficiency is excellent, but due to the installation of a conveyor for transporting the waste sorted into three or four types in the two- and three-stage vibrating screen, there was a problem that it is impossible to install a blower for separating foreign matters at the bottom of the vibrating screen.

Therefore, the vibration screen that can be classified into three or four types must be installed in the lower part of the vibration screen for the blower flow path for separating the substance, so only two kinds of screening are possible, which limits the function of the vibration screen.

In addition, two sets of blowers should be used because the length of the outlet of the blower is wide when separating the foreign matter with wind power. The method of using two sets of blowers is not good at separating efficiency when separating foreign matters because the wind or wind pressure discharged to the outlet is not constant. There is a problem that the consumption is severe and management is difficult.

In addition, the conveyor installed in the second and third stage vibrating screen is installed at the lower end of only one conveyor operated only in one direction, it is difficult to produce different sizes of circulating aggregates without replacement of the vibrating screen sorting network, and only in the prescribed position when separating foreign substances. There is a problem that the number of vibrating screens and foreign matter storage used in the intermediate treatment facility to process the construction waste to produce recycled aggregates can be collected.

In order to solve the above problems, there is a foreign matter separation device having a bidirectional multi-conveyor, a wind speed control nozzle formed in a longitudinal direction and a blow passage connected to supply wind to the wind speed control nozzle, although all the problems of the prior art have been solved. It is difficult to provide uniform blowing power over the entire length of the spray nozzle, the problem that the wind speed control plate is installed inside the nozzle, making it difficult to replace with various nozzles, the difficulty of controlling the blowing speed, and the scattering dust In order to prevent the water is sprayed in a different direction than the blowing direction when spraying water has a disadvantage of using a lot of water.

An object of the present invention for solving the above problems is to separate the foreign matter contained in the waste falling into a large area, such as a screen using the wind, the blowing speed is discharged by changing the structure of the nozzle used here Provides a device that can be controlled uniformly throughout the discharge, and also to be discharged with the gasified water at the time of discharge to prevent the scattering of foreign matter, and also to change the size of the wind speed by changing the diameter of the nozzle easily if necessary There is.

The present invention to achieve the object as described above and to perform the problem for removing the conventional defects is installed in a vibrating screen for sorting the waste and the like to separate the foreign matter from the falling waste, wind speed control nozzle for discharging the air to the foreign matter; In the apparatus for separating foreign matters including a blow passage connected to supply wind to the wind speed control nozzle, a blower for supplying wind through the air distributor in the blow passage, and a wind speed regulator installed in the blow passage to control the wind speed,

A wind speed control plate positioned at the front of the wind speed control nozzle and configured to be replaced by a fastening means;

The air flow path for supplying air to the wind speed control nozzle is formed by the air flow passage curved surface portion is bent rounded, the inner portion is formed by the inclined angle to gradually narrow the width formed by the air flow passage diagonal line formed in contact with the wind speed control nozzle A passageway;

A water spray nozzle installed to penetrate the air passage and configured to supply water therein so that the gasified water is loaded into the air stream and sprayed in the spraying direction and range of the air;

It is installed at any point between the air flow passage curved portion of the air flow passage and the wind speed control nozzle is configured to include an air induction control plate for controlling the flow of air by opening and closing the air flow path having an angle according to the axis rotation do.

The air induction control plate is configured to adjust the angle by the air induction control plate control lever outside the ventilation passage.

The wind speed control plate was formed to be in close contact with the wind speed control nozzle by bending the letter 'b'.

A portion of the end of the wind speed control nozzle is formed of a horizontal wind speed control plate and a bent wind speed control plate vertical support to support the 'b' shaped wind speed control plate, and the holes are respectively provided in the horizontal wind speed control plate and the vertical wind speed control plate vertical support. It was formed to be fastened by fastening means.

The wind speed control plate is configured to replace the selected one selected from a plurality of wind speed control plates of different sizes or arrangement of holes.

The water spray nozzle was installed at the inner side of the blowing passage curved surface portion of the blowing passage.

The hole formed in the wind speed control plate is configured to control the wind speed by the area ratio by the arrangement of the circular holes drilled in the area of the wind speed control plate or to control the wind speed by the ratio of the area of the single rectangular perforated hole formed in the area.

The wind speed control method of the present invention configured as described above is as follows,

Wind speed control nozzle is installed in the vibration screen to sort the waste to separate the foreign matter from the falling waste, a blower passage connected to supply air to the wind speed control nozzle, and the air distributor through the air distributor In the method for separating foreign matters, including a blower for supplying air and a wind speed regulator installed in the blower passage to control wind speed, the outer portion of the flow passage of the blower passage for supplying wind to the wind speed control nozzle is formed to be rounded. By blowing afterwards, the flow velocity of the outer part is accelerated, and the inner part is formed at an angle of inclination gradually narrowing from one point, so that the wind is guided uniformly to all parts of the wind speed control nozzle, and then sprayed to separate the falling foreign matter uniformly. Adjust the wind speed.

The air passage control plate is provided in the air passage to control the air velocity and direction of the air flowing in the air passage in accordance with the air velocity measured at the front end of the wind speed control nozzle at a uniform angle to prevent air backflow from the wind speed control nozzle Adjust

After the water spray nozzle is installed in the flow path where the flow velocity is rapidly bent in the air passage, the sprayed water is sprayed by the high flow rate, and sprayed in the spraying direction and range of the air even with a small amount of water, thereby scattering foreign matters. Adjust the wind speed to block.

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

1 is a perspective view of the present invention wind speed control nozzle, Figure 2 is a side view of Figure 1 including a partial incision surface, Figure 3 is a plan view of Figure 1,

As shown, the overall shape of the present invention can be seen that the structure formed in a symmetrical shape. In addition, the left-right symmetrical structure may be configured as a single structure, or may be installed by connecting a conventional fastening means such as welding or bolts as one separate wind speed control nozzle having a separate flow path.

Hereinafter, the description will be mainly based on one side shape. The other side which is not described is the same configuration.

As enlarged in the upper left of Figure 1, the wind speed control plate 8 configured to be replaced by the bolt nut coupling (not shown) and the fastening means is installed on the front portion of the present invention wind speed control nozzle (3). The advantage of the installation structure of the wind speed control plate 8 is that the fastening means is protruded to the outside during replacement, so that the fastening release work is easy, so that the wind speed control plate can be replaced with one suitable for the situation of waste disposal, and the repair is also easy. It has the advantage of one structure.

That is, as shown in Figure 2, the wind speed control plate 8 is formed to be in close contact with the wind speed control nozzle by bending the letter 'b'. A portion of the end portion of the wind speed control nozzle is formed of the wind speed control plate horizontal support part 31 and the bent wind speed control plate vertical support part 32 so as to support the 'b' shaped wind speed control plate 8, and this wind speed control plate horizontal support part And forming a hole in each of the vertical support portion of the wind speed control plate and is configured to pass through the bolt in one direction to the corresponding hole 81 formed in the wind speed control plate 8 to fasten the nut in the other direction.

The wind speed control nozzle (3) is connected to a blow passage (4) for supplying air to receive air, the shape of the blow passage (4) is one of the most important part in the present invention.

To explain a specific shape, it can be seen that the outer shape of the bent portion is made of a ventilation passage curved surface portion 42 processed to be round during bending,

It can be seen that the inner portion is formed by the inclined angle so as to gradually narrow the width formed by the air passage passage 41 formed in contact with the wind speed control nozzle (3).

As shown in FIG. 3, a water spray nozzle 11 configured to spray water in an air flow direction and a range of air is provided in the air flow by supplying water into the air blow passage through the air blow passage 4. By being installed at such a position, the water injected into the curved portion having the high flow rate is gasified by the spray action, and is sprayed in the same range and direction as the flow of air.

In addition, it is installed at any point between the air flow passage curved portion 42 and the wind speed control nozzle 3 of the air flow passage (4) to open and close the flow path of air having an angle in accordance with the axis rotation of the hinge shaft (91) An air induction throttle 9 is installed to control the flow of air.

The hinge shaft 91 of the air induction control plate 9 is manually adjusted at an arbitrary angle by an air induction control plate control lever 10 provided outside the air passage passage 4.

This control lever is configured to be rotated by fastening both sides of the hinge shaft made of bolts with a nut.

 The present invention as described above improves the shape and structure of the nozzle to separate the material from the waste falling into a large area such as a screen to maintain the wind speed of the discharged air uniformly and efficiently to separate the material efficiently When air is introduced into the sides of the butterfly, the air that hits the surface part is hit by the air passage formed at the inclined angle and is discharged evenly through the air outlet. The nozzle of this structure has the same speed as the air outlet. It is a structure that can maintain a constant pressure wind speed in the wind speed control plate.

In addition, the air induction control plate in the middle of the nozzle passage guides the air to be constantly discharged out of the wind speed control plate while the air is maintained at the inclination angle and prevents the air flow back to the wind speed control plate.

In addition, by installing a water nozzle in the curved sphere with the highest wind speed, the water vaporizes into the air by spraying, and is discharged together with the air through the nozzle outlet to prevent generation of scattering dust even with a small amount of water.

Hereinafter, the operation of the present invention will be described by taking a foreign material separation device using the bidirectional multi-conveyor equipped with the configuration of the present invention as described above.

4 is a schematic front view showing an embodiment to which the present invention is applied, FIG. 5 is a schematic side view showing an embodiment to which the present invention is applied, and FIG. 6 is a schematic plan view showing an embodiment to which the present invention is applied. As shown, one set of blowers 5 is installed at one side of the lower end of the double vibrating screen 1, and an air distributor 6 connected thereto is installed to provide a predetermined amount of air supplied from the blowers in two directions. It is installed to be supplied to the ventilation passage (4).

The one side blow passage 4 distributed from the air distributor 6 is installed to be connected to one side of the vibrating screen near the blower, and the other side blow passage is the width direction of the vibrating screen so as to be connected to the other side of the vibrating screen far from the blower. After rising across and installed.

The elevated blow passages are horizontally provided with branch blow passages so as to be connected to both sides of the wind speed control nozzles 3 and 3 'installed at the end of each end of the double vibration screen.

In addition, the air flow passage configured to control the wind speed supplied from the blower by configuring a total of six wind speed regulators 7 when the double vibration screen.

The double vibrating screen is composed of an upper and a lower end, and a two-way conveyor (2, 2 ') is installed horizontally at the dropping point, and the wind speed control nozzle is installed at the upper end of the two-way conveyor. The double vibrating screen is disposed at the top of the upper two-way conveyor installed on the end after the large waste is vibrated at the top, and at the bottom of the bottom is installed in the end after the vibration having a smaller size than the waste of the top separated from the top It falls on the conveyor. Therefore, the size of the waste discharged through the upper and lower vibrating screen is different, the scattering distance is changed according to the same blowing power is required to control the blowing power.

In order to control the air blowing, wind speed controllers installed at each stage of the air flow passage control the air blowing power.

FIG. 7 is a view illustrating a path and a position of a wind speed controller by an air distributor according to an embodiment to which the present invention is applied, and a blow passage of the present invention is connected to both sides of a wind speed control nozzle installed at each end of a double vibration screen. Branch blow passages are installed horizontally, and the wind speed regulator is composed of two branches, two horizontal blow passages at the top and bottom, and six at each branch branch from the air distributor.

Therefore, the wind speed controllers installed on both sides of the lowest air distributor adjust different wind speeds to balance the supply of different wind speeds at different lengths, and the upper and lower wind speed controllers supplied with balanced wind speeds operate the double vibration screen. Depending on the scattering according to the weight of the waste having different sizes and weights to adjust the blowing speed between the upper and lower ends differently to facilitate the transfer of the two-way conveyor. In other words, it is adjusted so that the lower blowing speed than the upper blowing speed.

8 is a front view showing an embodiment of the present invention wind speed control plate, the wind speed control plate 8 used in the present invention is formed by blocking the nozzle hole in the longitudinal direction as shown, a plurality of holes in the plate It may be configured to adjust the wind speed by drilling, or may be configured to adjust the wind speed by drilling in a rectangular shape (not shown) in the longitudinal direction.

In addition, if you want other wind speed, you can replace it by installing wind speed control plate.

That is, the hole formed in the wind speed control plate is configured to control the wind speed by the area ratio by the arrangement of the circular holes drilled in the area of the wind speed control plate or to control the wind speed by the ratio of the area of the single rectangular perforated hole formed in the area.

Figure 9 is an embodiment showing the separation of foreign matter according to the present invention, on the outlet side of the two or three-stage vibration screen that can sort the waste in three or four kinds, less than the height of the vibration screen sorting stage, bidirectional By installing wind speed control nozzles between the installed two-way conveyors, the two-way conveyor that can be driven by multiple stages is separated by size from the vibrating screen by wind to separate foreign matters from the falling waste and the water is sprayed and scattered. It can be seen that it prevents scattering and discharges in the desired direction.

In addition, as shown, a blocking film is installed to prevent the air from scattering in the upper direction to prevent air pollution.

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

The present invention is to improve the shape and structure of the nozzle in order to separate the material from the waste falling into a large area, such as a screen, by separating the material efficiently by maintaining a constant and even wind speed of the discharged air With advantages,

In addition, the air induction control plate in the middle of the nozzle passage guides the air to be constantly discharged out of the wind speed control plate while hitting the passage maintained at the inclination angle, and also prevents the backflow of air that was not discharged to the wind speed control plate,

In addition, by installing a water nozzle on the curved surface with the highest wind speed, water is vaporized into the air by spraying, and it is discharged together with air through the nozzle outlet to prevent the generation of scattering dust even with a small amount of water. The use is expected to be greatly expected.

Claims (7)

Wind speed control nozzle is installed in the vibration screen to sort the waste to separate the foreign matter from the falling waste, a blower passage connected to supply air to the wind speed control nozzle, and the air distributor through the air distributor In the apparatus for separating foreign matters including a blower for supplying the air supply, and a wind speed control unit is installed in the ventilation passage to control the wind speed, A wind speed control plate positioned at the front of the wind speed control nozzle and configured to be replaced by a fastening means; The air flow path for supplying air to the wind speed control nozzle is formed by the air flow passage curved surface portion is bent rounded, the inner portion is formed by the inclined angle to gradually narrow the width formed by the air flow passage diagonal line formed in contact with the wind speed control nozzle A passageway; A water spray nozzle installed through the air passage to supply water therein and configured to spray the gasified water into an air stream to be sprayed in a spray direction and range of air; It is installed at any point between the air flow passage curved portion of the air flow passage and the wind speed control nozzle is configured to include an air induction control plate for controlling the flow of air by opening and closing the air flow path having an angle according to the axis rotation Wind speed control nozzle unit for separating foreign matter. The method of claim 1, The air induction control plate is a wind speed control nozzle device for separating foreign matters, characterized in that configured to adjust the angle by the air induction control plate control lever outside the air passage. The method of claim 1, The wind speed control plate is a 'b' to be bent by the wind speed control nozzle device, characterized in that formed to be in close contact with the wind speed control nozzle. The method of claim 3, wherein A portion of the end portion of the wind speed control nozzle is formed by a horizontal wind speed control plate and a bent wind speed control plate vertical support to support the 'b' shaped wind speed control plate, and the holes are respectively provided on the horizontal wind speed control plate and the vertical wind speed control plate vertical support. Wind speed control nozzle device for separating foreign matters, characterized in that formed by fastening means formed by fastening means. The method of claim 1, The wind speed control plate is a wind speed control nozzle device for separating foreign matters, characterized in that configured to replace the selected one selected from a plurality of wind speed control plates of different sizes or arrangement of holes. The method of claim 1, The water spray nozzle is a wind speed control nozzle device for separating foreign matters, characterized in that installed in the rounded corners of the air passage passage surface portion of the air passage. The method of claim 5, The hole formed in the wind speed control plate is characterized in that the wind speed is controlled by the ratio of the area by the arrangement of the circular hole perforated in the area of the wind speed control plate or by the ratio of the area of the single rectangular perforated hole formed in the area Wind speed control nozzle unit for separating foreign matter.

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