KR101613181B1 - Foreign material Eliminator - Google Patents

Abstract

The present invention relates to a dust collecting apparatus comprising a charging unit for charging powder containing foreign substances from outside and a first through hole for passing the powder therethrough and having a first separating unit inclined forwardly downwardly, And a horizontal vibration part, wherein the first through hole is inclined rearward and downward.

Description

[0002] Foreign material Eliminator [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dehumidifier, and more particularly, to a dehumidifier for removing foreign matter contained in a powder.

Generally, red pepper powder is made by removing moisture from red pepper to make dry red pepper and crushing dried red pepper to high intensity into roll mill.

Red pepper powder should be used for food, and hygiene and cleanliness should be prioritized, and red pepper powder should not contain foreign matter that is not suitable for edible purposes such as pepper nuts, vinyl, red pepper, nylon string, hair.

In the past, the red pepper powder was transferred to the conveyor belt to remove the foreign matter, and the red pepper powder was removed by removing red pepper powder from the net which could be picked by the person or pass the red pepper powder only.

However, the above-mentioned method has a disadvantage in that it requires a lot of manpower and cost, is inferior in productivity, and can not completely pick out foreign matters, thus causing problems in cleaning and hygiene.

In order to solve the above-mentioned problems, it is an object of the present invention to provide a foreign matter remover which can automatically remove foreign matter from powder using a non-human machine.

 It is another object of the present invention to provide a foreign matter removing device capable of removing almost all of the foreign matter contained in the flour.

It is another object of the present invention to provide a foreign matter removing device capable of removing foreign matters even in a powder suspended in moisture.

In order to solve the above-described problems, the present invention provides a method of manufacturing a dust collecting device, comprising: a first separating portion having a charging portion into which powder containing foreign matters is charged from outside, a first through hole through which the powder passes, And a horizontal vibration part for horizontally vibrating the first separator, wherein the first through hole is inclined rearward and downward.

The present invention further provides a dehumidifier for preventing the first through-hole from being clogged, the dehumidifier further comprising an up-and-down vibrator for vibrating the first separator upward and downward.

In the present invention, the up and down vibration unit vibrates by vibrating the first separator.

In the present invention, the up-and-down vibration unit is provided in a portion of the first separator provided with the first through-hole.

In the present invention, the first separator is provided as a plate.

In the present invention, a plurality of the first through holes are provided on the plate.

According to the present invention, the horizontal vibration unit vibrates the first separator in the fore-and-aft direction or in the lateral direction.

The present invention is characterized by a second separator provided at a lower portion of the first separator and inclined forwardly downward and a second through hole provided at the second separator to be inclined rearward downward, And the second separator is provided in a stepped shape.

In the present invention, the first separator includes a second separator provided at a lower portion of the first separator and inclined forwardly downward, and a second through-hole provided at the second separator to be inclined rearward downward. And the second separators are spaced apart from each other and are provided on the upper and lower lines.

The second separator may include a second separator provided at a lower portion of the first separator and inclined rearwardly downward and a second through-hole provided at the second separator so as to be inclined forwardly downward. Lt; / RTI >

In the present invention, the diameter of the second through-hole may be the same or smaller than the diameter of the first through-hole.

In the present invention, the second separator is connected to the first separator and is simultaneously vibrated by the horizontal vibration unit.

In the present invention, the second separator is further provided with the up-and-down vibrator.

The present invention has an effect of providing a foreign body remover capable of automatically removing foreign substances from powder using a non-human machine.

In addition, the present invention has an effect of providing a foreign matter remover capable of removing almost all of the foreign matter contained in the flour.

In addition, the present invention has an effect of providing a foreign body removing device capable of removing foreign matter even in a powder suspended in moisture.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a dehumidifier according to an embodiment of the present invention; FIG.
2 (a) is a sectional view of the first separator.
2 (b) is a perspective view of the first separator.
3 shows the upper and lower vibration parts provided in the present invention.
4 is a front view of a foreign body remover according to an embodiment of the present invention.
5 is a cross-sectional view of a deodorizer according to another example of the present invention.
6 is a cross-sectional view of a deodorizer according to another example of the present invention.

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

It is to be understood that the present invention is not limited to the details of the embodiments described below, .

1 is a cross-sectional view of a foreign material remover 1000 according to an embodiment of the present invention.

Prior to describing the deodorizer 1000 of the present invention, terms used throughout the specification will be described.

Referring to the orthogonal coordinate system shown in Fig. 1, the positive direction of the X-axis is defined as forward, frontward, and forward, and the negative direction of the X-axis is defined as rearward, rearward, and backward. The positive direction of the Y axis is defined as upward, upward, and upward, and the negative direction of the Y axis is defined as downward, downward, and downward. The positive direction of the Z axis is defined as left, left, and left, and the negative direction of the Z axis is defined as right, left, and right.

1, a description will be given of a deodorizer 1000 according to the present invention.

The foreign material removing apparatus 1000 according to an embodiment of the present invention includes a loading unit 100 into which powder containing foreign matter is introduced from the outside and a first through hole 320 through which the powder passes, 1 separating unit 300 and a horizontal vibration unit 500 for horizontally vibrating the first separating unit 300.

The input unit 100 refers to a place where powder is injected from the outside. Any structure may be used as long as it can supply powder to the upper surface of the first separator 300. Therefore, the charging unit 100 may be provided as a hopper provided on the upper portion of the first separator 300, or the charging unit 100 may be provided on the upper surface of the first separator 300, You can also say part.

2 (a) is a sectional view of the first separator 300. FIG. 2 (b) is a perspective view of the first separator 300.

The first separator 300 and the first through hole 320 will be described with reference to FIGS. 2 (a) and 2 (b).

The first separator 300 serves to sort foreign matter contained in the flour. The first separator 300 is sloped downward forward. Therefore, the powder slips on the surface of the first separator 300 due to the self weight of the powder itself.

However, if the inclination of the first separator 300 is large, the powder can not pass through the first through hole 320 and can slide on the surface of the first separator 300, The angle? 1 of the inclination of the inclined surface is preferably within 10 degrees.

The first separator 300 may be a plate having a predetermined thickness. In this case, it is preferable that the first separator 300 has a thickness of about 5 mm so that the first separator 300 vibrates the horizontal vibration unit 500 and / or the upper and lower vibration unit 700, It has enough strength to withstand.

 The first separator 300 preferably has a metal such as steel or stainless steel. This is because it can have strength enough to withstand the vibrations of the horizontal vibration unit 500 and / or the upward / downward vibration unit 700 to be described later. In addition, the first separator 300 may include a corrosion-resistant coating (not shown) on its surface to prevent corrosion by moisture.

The first separator 300 includes the first through hole 320. That is, the first through hole 320 is a hole punctured through the first separator 300.

The inclination angle &thetas; 2 of the first through hole 320 is larger than the angle &thetas; 1 and smaller than 90 DEG, so that the powder passes smoothly through the first pipe hole 320 and falls downward.

The first through holes 320 are provided on the first separator 300 at predetermined intervals.

The first through holes 320 serve to sort the powder so that the powder passes through the powder mixed with the foreign matter and the foreign matter does not pass through.

The first through holes 320 may be provided in the same direction as the inclination direction of the first separator 300. However, if the first separator 300 is tilted downward in the same direction as the first separator 300, there is a problem that not only powder but also nylon strap or foreign matter such as hair passes through the first through hole 320. Also, although the first through hole 320 may be provided in the first separator 300 in a vertically perforated manner, the foreign matter may fall through the first through hole 320 as described above.

Therefore, it is preferable that the first through-hole 320 of the present invention is inclined downwardly from the rear. In other words, the first through hole 320 is inclined downwardly rearward with respect to the surface of the first separating portion 300, relative to the first separating portion 300 being inclined downward forward. In other words, the first through hole 320 is provided in an oblique direction opposite to the oblique direction of the first separator 300.

When the cross section of the first through hole 320 of the present invention is composed of the first inclined portion 322 on the front side and the second inclined portion 324 on the rear side as shown in Fig. The powder that slides on the surface of the first separator 300 falls directly down through the first through hole 320 or falls down on the first inclined portion 322 while the foreign matter is discharged through the first inclined portion 322, Since the first inclined portion 322 is repelled before falling down on the first portion 322, it does not pass through the first through hole 320 and slides down continuously along the surface of the first separating portion 300 Loses.

The first separator 300 includes a first portion S1 having a plurality of first through holes 320 and a second portion S2 having no through hole. It is preferable that the first portion S1 is provided at the center of the first separator 300 and the second portion S2 is provided at the edge of the first separator 300 Do.

As will be described later, since the first separator 300 vibrates horizontally by the horizontal vibration unit and vibrates up and down by the upper and lower diaphragm, the first through hole 320 is punctured to the second portion S2 If the first through hole 320 is provided on the entire surface of the first separator 300, the strength of the first separator 300 may be reduced, which may cause a problem in durability.

 In addition, since the portion for filtering the foreign matter from the powder is limited to the central portion of the first separator 300, it is not necessary to provide the first through hole 320 wide to the edge of the first separator 300.

Meanwhile, the horizontal vibration unit 500 functions to vibrate the first separator 300 horizontally on the ground surface. Therefore, the powder easily slides down on the surface of the first separator 300 easily.

The horizontal vibration unit 500 may vibrate the first separation unit 300 in the left and right directions. However, in the present invention, the horizontal vibration unit 500 may oscillate the first separation unit 300 in the front- . Therefore, since the inclination direction and the vibration direction of the first separator are the same, the powder can smoothly slide on the inclined surface of the first separator.

The horizontal vibration unit 500 of the present invention includes a mounting unit 520 for mounting the first separator 300, a support unit 540 for supporting the mounting unit 520 so as to move away from the ground, And a horizontal driving unit 560 capable of moving the driving unit 520.

The mounting base 520 may be a frame on which the first separating unit 300 is installed, or a cabinet in which the first separating unit 300 can be installed. In other words, any structure that can fix the first separator 300 at the bottom can be used.

The support base 540 is provided between the lower surface of the mount base 520 and the ground surface and supports the mount base 520 at a distance from the ground surface. However, it is shown that the support table 540 is provided on the fixed table 900 instead of the ground surface.

The support base 540 may include an elastic device for restoring the base 520 to its original position when the base 520 is removed from a predetermined position. In this case, it is possible to provide four elastic devices on the lower surface of the mounting table 520 and four-point support or three-point support.

The elastic device may be provided with a coarse coil spring (not shown), and may include a connecting rod 542 connecting between the mounting table 520 and the stationary table 900, 520 may be provided as a torsion spring 544 which acts as a restoring force to the original position when moving in the forward and backward directions.

The horizontal driving unit 560 includes a horizontal motor 562 provided on the fixed table 900 or the surface of the ground, a crank shaft 564 connected to the rotary shaft of the horizontal motor 562 to convert rotational motion into rectilinear motion, A connection rod 566 connected to the crankshaft 564 and linearly reciprocating and a connecting portion 568 rotatably connected to the connecting rod 566 and fixed to the lower portion of the mounting base 520, have.

The horizontal driving unit 560 may be provided to vibrate the mounting table 520 in the longitudinal direction, that is, the connecting rod 566 may linearly move in the front-rear direction. Alternatively, the horizontal driving unit 560 may be provided to vibrate the mounting table 520 in the left-right direction, that is, the connecting rod 566 may linearly move in the left-right direction.

Accordingly, when the horizontal motor 562 rotates, the crankshaft changes the rotational motion to linear motion, and moves the mounting table to the front and rear or / or the left and right through the connecting rod, and the first separating part 300 also moves forward and backward And / or to the left and right sides, thereby enabling vibration.

In addition, although not shown in the drawings, in another embodiment of the horizontal vibration unit (not shown) of the present invention, a mounting unit (not shown) for mounting the first separating unit (not shown) A guide groove (not shown) for guiding the roller (not shown), and a horizontal driving unit (not shown) for moving the mounting table (not shown) . Therefore, the horizontal driving unit (not shown) can move the mounting unit (not shown) to the left, right, and / or back and forth to move the first separating unit.

In addition, the horizontal vibration unit 500 capable of vibrating the first separator 300 according to the present invention to the left, right, and / or front and rear is not limited to the above-described embodiment and may be provided in any shape.

FIG. 3 shows an up-down and down-shift unit 700 according to the present invention.

Referring to Fig. 3, a description will be given of the upper and lower oscillating portion 700 of the present invention.

In the case of using the deodorizer 1000 of the present invention, in the case of powder having moisture such as red pepper powder, there is a problem that the redder powder is clumped due to the agglomeration among the red pepper powder or adhered to the inner circumferential surface of the first through hole 320. If the first through-hole 320 is clogged by the powder having moisture, the efficiency of separating the foreign matter and the powder becomes low, which is a problem.

In order to solve such a problem, the present invention may further include an up / down moving unit 700 for vertically vibrating the first separating unit 300.

Accordingly, the upward / downward movement part 700 prevents the first through hole 320 of the first separator 300 from being clogged by the powder, The powder on the surface is vertically vibrated so as to be able to slide on the surface of the first separator 300 and loosens the agglomerated flour.

The upper and lower oscillating part 700 may move the entire first separating part 300 up and down and vibrate the vibrating part. Alternatively, one side of the first separating part 300 may be fixed, It is possible.

However, it is preferable that the upward / downward moving part 700 of the present invention is provided to vibrate the first separating part 300 by hitting the first separating part 300. Accordingly, the vertical displacement of the first separator 300 is instantaneously changed to remove powder blocking the first through-hole 320 by inertial force, loosening the loose powder, Make sure you get off smoothly.

In addition, the up-and-down moving part 700 is provided to strike the first separating part 300 in the first part S1, which is a part where the first through-hole 320 is provided. This is because the powder blocking the first through hole 320 can be easily removed.

In addition, the up-and-down moving part 700 is provided to strike the upper surface of the first separating part 300. This is because direct blowing of the upper surface of the first separator 300 by the upward and downward movement portion 700 is effective in reducing powder adhered to the upper surface of the first separator 300 by moisture or the like to be.

The upper and lower swing arms 700 are provided with a swinging rod 720 directly hitting the first separating part 300 and a vibrating device 740 transmitting vibrations to the swinging rod 720, A noise preventing member 760 may be provided at the end of the first separator 720 to prevent noise generated when the first separator 300 hits the first separator 300.

In this case, the noise preventing member 760 is preferably made of a rubber material or a plastic material.

The upper and lower oscillating unit 700 repeatedly hits the first separating unit several times per minute.

The upper and lower vibration dampers 700 may continuously strike the first separator 300. Preferably, the upper and lower vibration dampers 700 are disposed between the first separator 300 and the first separator 300, It is preferable to provide a section in which the vibration plate 300 vibrates only horizontally. This is because the powder can be slid down to the lower side of the first separator 300.

When the first separating part 300 is struck by the upper and lower vibrating part 700, the surface of the first separating part 300 is vibrated so that the powder blocking the first through hole 320 is removed, 1, the foreign matter easily slides on the surface of the separator, and the foreign matter having a heavier weight than the powder slides on the surface of the first separator more easily, thereby improving the removal performance of the foreign matter and loosening the loose powder.

4 is a front view of a foreign body remover 1000 according to an embodiment of the present invention.

The deodorizer 1000 of the present invention will be described in more detail with reference to FIG.

The first separator 300 includes a first baffle 800 that collects foreign matter at the end of the first separator 300.

Accordingly, the powder falls downward through the first through-hole 320, and the undistorted foreign object descends on the surface of the first separator 300, and the first foreign object is collected in the water receiver 800.

The present invention may further include a second separating part 3001 provided below the first separating part 300 and having a second through hole 3201 inclined rearward downward and inclined forwardly downward, have.

Furthermore, the present invention may include a first dust receptacle 326 at a lower portion of the first separating portion 300 to collect dust falling from the first through hole 320. That is, the first dust receptacle 326 is provided below the first through hole 320. In this case, it is preferable that the second separator 3001 is provided on the same line as the end of the first powder receptacle 326 or below the end of the first powder receptacle 326.

The first dust collector 326 is integrally connected to the first separator 300 and is inclined forwardly downward. That is, the first dust receptacle 326 may be installed in the mounting table 520. Therefore, the dust collected in the first dust receptacle 326 is provided to the first dust receptacle 326 in a downward direction, As shown in FIG. Then, the powder from which the foreign matter has been removed is sent to the second separator 3001, and the foreign matter and the powder are further screened again.

The second separator 3001 and the second through hole 3201 may have the same structure as the first separator 300 and the first through hole 320. However, the diameter of the second through hole 3201 may be equal to or smaller than the diameter of the first through hole 320. Therefore, it is provided so as to select and remove foreign matters smaller.

In addition, the present invention may include an up-down / down-shift unit 700 for vertically vibrating the second separator 3001. In addition, the description of the up / down unit 700 described above may be applied equally A detailed description will be omitted.

In addition, the second separator 3001 may be horizontally oscillated simultaneously with the first separator 300 by the horizontal vibration unit 500, that is, in the left / right direction and / or the back / forth direction, The separating unit 3001 may be horizontally vibrated by the horizontal vibration unit 500 separately from the first separating unit 300. [ In the former case, the second separator 3001 may be installed on the mounting table 520 to move integrally with the first separator.

The second separating unit 3001 may be provided at the end thereof with a second bather receiver 8001 for collecting foreign matter.

Furthermore, the foreign matter remover 1000 of the present invention includes a third through hole 3202 provided at a lower portion of the second separator 3001 and inclined downwardly in the backward direction, And the third through hole 3202 may have a diameter equal to or smaller than the diameter of the second through hole 3201 so that the powder having a small particle size can be selected have.

Furthermore, the present invention may include a second dust receptacle 3261 at the lower portion of the second separating portion 3001 to collect dust falling from the second through hole 3201. That is, a second dust receptacle 3261 is provided below the second through hole 3201. In this case, it is preferable that the third separator 3002 is provided on the same line as the end of the second powder receptacle 3261 or below the end of the second powder receptacle 3261.

In addition, the second dust collector 3261 is integrally connected to the second separator 3001 and is inclined forwardly downward. In this case, the second dustbin can be installed on the mounting table 520 and can be moved simultaneously with the second separator. Therefore, the second dust collector is provided so as to vibrate back and forth and / or right and left by the horizontal vibration unit 500 like the first separation unit 300, and the collected dust is directed downward to the surface of the second dust receiver 3261 . Then, the powder from which the foreign matter has been removed is sent to the third separator 3002, and the foreign matter and the powder are further screened again.

The third separator 3002 vibrates horizontally, that is, in the left-right direction and / or the front-rear direction simultaneously with the first separator 300 and the second separator 3001 by the horizontal vibration unit 500 Or the second separator 3001 may be horizontally vibrated by the horizontal vibration unit 500 separately from the first separator 300 and the second separator 3001. [ The third separator 3002 may include a third bubble receiver 8002 that collects foreign matter.

In addition, the present invention may include a third dust collector 3262 at a lower portion of the third separator 3002 to collect dust falling from the third through hole 3202. That is, the third through-hole 3202 is provided under the third through-hole 3202. In this case, the dust receptacle 920 is provided at the lower end of the third dust receptacle 3262 to collect dust from which foreign matter has been completely removed.

That is, the foreign substance remover 1000, which is an example of the present invention, may include the first separator 300, the second separator 3001, and the third separator 3002 in the form of a step, The number of the separation units may be one to five, and the sizes of the through holes provided in the separation units may be adjusted so that the size of the foreign objects may be selected. As the number of separating portions increases, the efficiency of removing and sorting foreign matters increases, but the amount of powder falling through the through holes can be reduced, so that the number of separating portions can be adjusted as needed.

5 is a cross-sectional view of a foreign body remover 1001 according to another example of the present invention.

A foreign matters removing device 1001 according to another example of the present invention will be described with reference to FIG.

The foreign substance remover 1001 according to another embodiment of the present invention includes a second separator 3001 below the first separator 300 and a third separator 3002 below the second separator 3001. [ 3002 < / RTI >

In other words, the first to third separators 300 to 3002 may be provided on the same line. Or a part of the first to third separators 300 to 3002 may be provided so as to be superimposed on the upper and lower sides in the same line.

In this case, the first separator 300 to the third separator 3002 are all inclined downward and are spaced apart from each other. The first through holes 320 to the second through holes 3202 are not provided on the same line so that the powder passes through the first to third separators 300 to 3002 at a time prevent.

Therefore, the powder falling through the first through hole 320 of the first separator 300 is collected on the surface of the second separator 3001, and the second through hole 3201 of the second separator 3001 The powder falling through the third through hole 3202 of the third separator 3002 is collected through the third powder receiver 3262 through the third through hole 3202, And collected in the receiving box 920.

Therefore, it is possible to reduce the volume of the foreign material removing unit 1000 or the area occupied by the foreign material removing unit 1000 while improving the removal efficiency of the foreign material by providing a plurality of separating units.

In addition, the description of the configuration is the same as that of the foreign body remover 1000 according to an example of the present invention, and a description thereof will be omitted.

6 is a cross-sectional view of a foreign body remover 1002 according to another example of the present invention.

6, a dehumidifier according to another embodiment of the present invention will be described.

Here, the second embodiment is different from the foreign body remover shown in FIG. 5 in that the direction of the second separator 3001 is reversed. That is, the second separator 3001 is inclined downward to the rear, so that the second through hole 3201 is inclined downward forward.

Accordingly, it is possible to improve the removal efficiency of foreign matter by providing a plurality of separating portions, and to reduce the volume of the foreign body remover 1000 or the area where the foreign body remover 1000 differs.

The description of the configuration is the same as the description of the foreign body remover 1000 according to one example of the present invention or the foreign body remover 1000 according to another example of the present invention, and the description thereof will be omitted.

The present invention may be embodied in various forms without departing from the scope of the invention. Accordingly, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

The first penetration hole (320) of the first separator (300)
The first inclined portion 322, the second inclined portion 324, the first powder receiving portion 326,
Horizontal vibration part 500 mounting part 520 support part 540,
The torsion spring 544, the horizontal driving unit 560,
Horizontal motor 562 crankshaft 564 connecting rod 566,
The connecting portion 568, the lower diaphragm 700, the striking rod 720,
Vibration device 740 Noise preventing member 760 The first biscuit 800,
The second biscuit 8001, the third biscuit 8002 fixing table 900,
The dust receiving container 920, the second separating portion 3001, the second through hole 3201,
The second dust receptacle 3261, the third separator 3002, the third through hole 3202,
The third burr 3262,

Claims (13)

A supporting table provided between the mounting table and the fixing table to support the mounting table; and a horizontal vibration unit installed on the fixing table and vibrating the mounting table horizontally, ≪ / RTI &
The mounting table includes a charging unit into which powder containing foreign substances is introduced from the outside, a first separator provided below the charging unit and inclined downward by a flat plate of metal having a predetermined thickness, A first penetrating hole provided on the separating part so as to be inclined rearward and downward, a first penetrating hole for passing the powder through the powder containing the foreign matter, and a second penetrating hole for guiding the powder passing through the first penetrating hole, 1 dust receptacle and a first baffle for collecting foreign matter at an end of the first separator,
The mounting base includes a second separator provided at an end of the first dust collector and inclined downward by a flat plate of metal having a predetermined thickness and a second separator which is inclined rearwardly downwardly to the second separator, A second through-hole penetrating the powder in the powder containing the first through-hole and a second through-hole provided at a lower portion of the second separating portion to collect powder falling from the second through-hole; And a second water baffle for collecting foreign matter is provided in the second water baffle,
And two upper and lower vibrating parts fixed to the upper side of the first separating part and the second separating part, respectively,
Wherein the upper and lower vibration parts are provided on the first or second A vibrating device for transmitting vibrations to the striking bar, a vibrating device for transmitting vibrations to the striking bar, and a vibrating device provided at an end of the striking rod for preventing noise from being generated, The noise preventing member And wherein the debris removing device comprises: delete delete The method according to claim 1,
Wherein the upper and lower vibrating portions are provided to strike a portion of the first separating portion provided with the first through hole. delete The method according to claim 1,
And the first separator includes a plurality of the first through holes. The method according to claim 1,
Wherein the horizontal vibration unit vibrates the mounting base in a front-back direction or a left-right direction. delete delete delete The method according to claim 1,
And the diameter of the second through-hole is smaller than the diameter of the first through-hole. delete delete

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