KR101837058B1 - Flavor capsule cleaning apparatus and method for cleaning the same - Google Patents

Abstract

Provided are a fragrance capsule cleaning device and a fragrance capsule cleaning method of the fragrant capsule cleaning device which can clean the surface of the fragrance capsule without damaging the quality of the fragrance capsule. A fragrance capsule cleaning apparatus according to an embodiment of the present invention includes: a first conveying unit for conveying an inner cylinder including an incense capsule; ii) a second conveying unit located in a first direction from the first conveying unit, connected to the washing tank and the washing tank, Iii) a liquid-removing section located in a first direction from the washing section and connected to the liquid-removing tank and the liquid-removing tank and collecting the washing solution; iv) a liquid-removing section located in the first direction from the liquid- And v) a third conveying unit which moves the inner tube from the first conveying unit to the washing unit, moves the inner tube from the washing unit to the dehydrating unit, and the washing unit and the third feeding unit located above the deodorizing unit.

Description

Technical Field [0001] The present invention relates to an incense capsule cleaning apparatus and an incense capsule cleaning method,

The present invention relates to an incense capsule washing apparatus and an incense capsule washing method.

In each step of the incense capsule manufacturing apparatus, the incense capsule is moved together with the oil carrying the incense capsule. If the oil remains on the surface of the incense capsule, the incense capsule may not be dried well and the quality of the incense capsule may deteriorate.

Conventionally, the surface of the incense capsule is washed by immersion in a washing solution and stirring with an impeller. However, in the impeller system, the outer shape of the fragrance capsule may be damaged by a rotating impact. In addition, the impeller method requires manual work, which is time consuming, expensive, and low cleaning efficiency.

The present invention provides an incense capsule cleaning apparatus which can clean the surface of the incense capsule without damaging the quality of the incense capsule. It is also intended to provide a method of cleaning an incense capsule of the incense capsule washing apparatus described above.

A fragrance capsule cleaning apparatus according to an embodiment of the present invention comprises i) a first conveying part for conveying an inner cylinder including an incense capsule, ii) a first conveying part, located in a first direction from the first conveying part, Iii) a liquid-removing unit located in a first direction from the washing unit and connected to the liquid-removing tank and the liquid-removing tank, and a collecting unit for collecting the washing solution; iv) a liquid- A second conveying part for conveying the inner tube, and v) a third conveying part for moving the inner tube from the first conveying part to the washing part, moving the inner tube from the washing part to the deodorizing part, and the upper part of the washing part and the deodorizing part.

The third transfer unit includes a first frame that moves along a pair of guide rails extending in a first direction, a second frame that is connected to the first frame and drives in a second direction perpendicular to the first direction, And a gripper coupled to the second frame. The desorption section may include a rotating device positioned at the bottom and rotating the inner tube. The cleaning portion may include a bubbling device. The first conveying portion may include a first weighing device, and the second conveying portion may include a second weighing device.

The fragrance capsule cleaning method according to an embodiment of the present invention includes: i) a washing section; ii) a desorption section; and iii) a third conveying section positioned above the washing section and the desorption section. The method of cleaning an incense capsule according to an embodiment of the present invention includes the steps of: i) transferring the inner tube including the incense capsule to the washing section by the third transfer section, ii) introducing alcohol into the washing section, iii) And iv) a step of rotating the inner tube by rotating the inner tube in a second direction, which is located at a lower portion of the liquid-withdrawing portion and overlaps the center of the bottom surface of the inner tube, and which is perpendicular to the first direction, . And washing the incense capsule while bubbling and vortex are generated in the washing section. And the step of draining the oil of the incense capsule while rotating the rotating device. And measuring the weight of the inner tube.

The oil remaining on the surface of the incense capsule can be removed without damaging the quality of the incense capsule. In addition, cleaning and drying can be carried out automatically to improve cleaning efficiency.

1 is a schematic perspective view showing a fragrance capsule cleaning apparatus according to an embodiment of the present invention.
FIG. 2 is a schematic perspective view showing a transferring process of the fragrance capsule cleaning apparatus of FIG. 1;
3 is a schematic cross-sectional view showing the use state of the incense capsule washing apparatus of FIG.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the invention. The singular forms as used herein include plural forms as long as the phrases do not expressly express the opposite meaning thereto. Means that a particular feature, region, integer, step, operation, element and / or component is specified, and that other specific features, regions, integers, steps, operations, elements, components, and / And the like.

Unless otherwise defined, all terms including technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Commonly used predefined terms are further interpreted as having a meaning consistent with the relevant technical literature and the present disclosure, and are not to be construed as ideal or very formal meanings unless defined otherwise.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 schematically shows a fragrance capsule cleaning apparatus 100 according to a first embodiment of the present invention. The structure of the incense capsule washing apparatus 100 of FIG. 1 is merely for illustrating the present invention, and the present invention is not limited thereto. Therefore, the structure of the incense capsule washing apparatus 100 can be modified to other forms.

1, the incense capsule washing apparatus 100 includes a washing unit 20, a liquid-removing unit 30, a first transfer unit 40, a second transfer unit 50, and a third transfer unit 60 do. In addition, the incense capsule cleaning apparatus 100 may further include other components as needed.

The first transfer section (40) transfers the inner cylinder (10). The first conveying unit 40 can use a conveyor belt. The inner tube 10 can receive the fragrance capsule manufactured in the incense capsule manufacturing apparatus (not shown). The first transfer unit (40) includes a first weighing device (401). The first weighing device 401 can measure the weight of the inner tube 10 conveyed through the first conveying part 40 and thereby measure the amount of the fragrance capsule accommodated in the inner tube 10, The amount of the washing solution used in the washing process can be adjusted, and the washing process can be efficiently performed. The inner tube 10 can be moved from the first transferring part 40 to the washing part 20 through the third transfer part 60 and can be moved from the washing part 20 to the liquid removing part 30. The first transfer part 40, the cleaning part 20, the liquid removing part 30, and the second transfer part 50 are connected to each other in the x-axis direction.

In the cleaning section 20, a cleaning solution capable of cleaning the incense capsule is received to clean the surface of the incense capsule. The inner tube 10 may be formed of a material having a plurality of holes. For example, the inner tube 10 is formed of a mesh net so that the cleaning solution can pass between the incense capsules. The liquid-removing unit 30 removes the washing solution remaining on the surface of the incense capsule. Hereinafter, the process and the structure of the inner cylinder 10 of the incense capsule washing apparatus 100 of FIG. 1 will be described in detail with reference to FIG.

As shown in FIG. 2, the third conveying unit 60 extends in the x-axis direction at an upper portion of the washing unit 20 and the liquid-removing unit 30. The third transfer unit 60 includes a pair of guide rails 601, a first frame 603, a second frame 605, and a gripper 607.

The third transfer unit 60 can be manually or automatically set. When the third transfer section 60 is automatically set, a traction motor or a hydraulic device may be used. Accordingly, the third transfer unit 60 may further include a pressure control valve or the like of a motor or a hydraulic device. In addition, the third transfer unit 60 may further include other components as needed. Also, the third transfer unit 60 may use different weights measured by the first weighing apparatus 401, and may vary driving time or driving conditions according to the weights thereof.

The pair of guide rails 601 are elongated in the x-axis direction at the upper end of the support. The first frame 603 is installed on the guide rail 601 and can horizontally reciprocate along the guide rail 601 in the x-axis arrow direction. The second frame 605 is connected to the first frame 603. The second frame 605 may be inserted into the first frame 603 or connected to the first frame 603 using a coupling device such as a bolt and a nut. The second frame 605 can be separated from the first frame 603. The second frame 605 extends in the z-axis direction perpendicular to the x-axis direction in which the first frame 603 moves. The second frame 605 can reciprocate vertically in the z-axis arrow direction. The first frame 603 is horizontally reciprocated in the x-axis direction and the second frame 605 is vertically reciprocated in the z-axis direction.

The gripper 607 is connected to the second frame 605. The gripper 607 may be installed at both ends of the second frame 605. The gripper 607 can hold both sides of the inner tube 10 and securely fix the gripper 607 between the grippers. The inner tube 10 is fixed to the gripper 607 and can be moved in the x-axis direction in which the first frame 603 moves in the arrow direction and in the z-axis direction in which the second frame 605 moves. The gripper 607 may further include, for example, a rubber packing (not shown) or the like so as to increase the fixing force. Hereinafter, the transfer process of the fourth transfer unit 70 will be described in detail.

The first frame 603 moves along the guide rail 601 to the upper portion of the inner cylinder 10 when the inner cylinder 10 is moved to the side of the cleaning portion 20 through the first transfer portion 40. [ Then, the second frame 605 is vertically lowered toward the inner cylinder 10. When the second frame 605 comes into contact with the upper portion of the inner tube 10, the gripper 607 catches both ends of the inner tube 10 and fixes the inner tube 10 to the gripper 607. Then, the second frame 605 rises again vertically, and the first frame 603 moves to the upper part of the cleaning part 20. [ When the first frame 603 moves to the upper portion of the cleaning portion 20, the second frame 605 vertically descends again. The gripper 607 releases the fixing force to both ends of the inner tube 10 when the inner tube 10 is seated in the washing tub 201 inside the washing section 20 through the vertical descent of the second frame 605. [ Then, the cleaning portion 20 cleans the surface of the fragrance capsule accommodated in the inner tube 10 in which it is seated.

When the washing process of the washing unit 20 is completed, the operation of the third transfer unit 60 is progressed as described above, so that the inner tube 10 moves to the liquid-removing unit 30, . Hereinafter, each process of the incense capsule washing apparatus will be described in detail with reference to FIG.

As shown in FIG. 3, the inner tube 10 includes an inner capsule and moves to the side of the cleaning portion 20 through the first transfer portion 40. At this time, the first weight measuring apparatus 401 measures the weight of the inner tube 10. The first weight measuring apparatus 401 can measure the total weight of the perfume capsules accommodated in the inner tube 10 through the weight of the inner tube 10.

The inner cylinder 10 is moved from the first transfer part 40 to the cleaning part 20 through the third transfer part 60. The cleaning unit 20 includes a cleaning bath 201, a bubbling device 203, and a supply unit 205. When the inner tube 10 is placed on the washing tub 201, the washing solution is supplied to the washing tub 201 through the supplying portion 205. The cleaning solution may be alcohol. The washing solution may be supplied through the supply unit 205 by calculating the amount of about 0.5 to 2 times the weight of the incense capsule measured by the first weighing apparatus 401. The bubbling device 203 can bubble the cleaning solution to clean the incense capsule. In this case, a vortex is generated in the cleaning solution, and the surface of the perfume capsule can be efficiently cleaned.

The inner tube 10 moves from the washing section 20 to the liquid-removing section 30 through the third transfer section 60. The liquid-removing unit 30 includes a liquid-removing tank 301, a rotating device 303, and a collecting unit 305. When the inner tube 10 is seated in the deodorization tank 301, the deodorization tank 301 is rotated at a medium speed in the direction of the arrow by the rotating device 303. As a result, the cleaning solution on the surface of the incense capsule is removed by centrifugal force. The washing solution removed from the incense capsule is discharged to the outside of the deodorization tank 301 through the lower recovery unit 305 of the removal tank 301.

The inner cylinder 10 moves from the liquid-removing unit 30 to the second conveying unit 50 through the third conveying unit 60. The second transfer part (50) includes a second weight measuring device (501). The second weighing apparatus 501 measures the weight of the inner tube 10. The second weight measuring apparatus 501 can measure the total weight of the capsules accommodated in the inner tube 10 through the weight of the inner tube 10 and monitor the yield thereof.

It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the following claims.

10. My heart
20. Washing unit
30. The liquid-
40. First transfer section
50. Second transfer section
60. Third transfer section
201. Washing tank
203. Bubbling device
205. Supply
301. De-
303. Rotating device
305. The recovery unit
401. The first weighing device
501. Second weighing device
601. Guide rail
603. The first frame
605. Second frame
607. Gripper

Claims (9)

A first conveying section for conveying the inner tube including the incense capsule,
A cleaning unit located in the first direction from the first transfer unit and connected to the cleaning tank and the cleaning tank and supplying the cleaning solution,
A desolvation unit located in the first direction from the washing unit and connected to the desalting tank and the desalting tank and collecting the washing solution,
A second conveying section located in the first direction from the liquid-removing section and conveying the inner cylinder, and
The cleaning unit moves the inner cylinder from the first transfer unit to the cleaning unit, moves the inner cylinder from the cleaning unit to the liquid remover, and the third transfer unit,
Lt; / RTI >
The third conveying portion includes a pair of guide rails extending in the first direction and a first frame moving along the pair of guide rails. The third conveying portion is connected to the first frame and is driven in a second direction perpendicular to the first direction. And a gripper connected to the second frame, wherein the gripper abuts both sides of the upper portion of the inner tube,
And the rotary device is positioned to overlap the center of the bottom surface of the inner tube and rotates the inner tube with the rotation axis in the second direction,
The first weighing device measures the weight of the inner cylinder including the fragrance capsule transferred through the first transfer part and calculates the amount of the fragrance capsule contained in the inner case, And supplying the washing solution in an amount of 0.5 to 2 times the weight of the fragrance capsule to the washing tank through the supplying portion. delete delete The method of claim 1,
Wherein the cleaning section comprises a bubbling device. The method of claim 1,
Wherein the second conveying portion includes a second weighing device. A first transfer unit including a first weighing device, a cleaning unit connected to the cleaning tank and including a supply unit for supplying the cleaning solution, a cleaning unit including a desolvation unit located in the first direction from the cleaning unit, And a third conveying unit positioned above the washing unit and the desalination unit,
The third conveying portion includes a pair of guide rails extending in the first direction and a first frame moving along the pair of guide rails. The third conveying portion is connected to the first frame and is driven in a second direction perpendicular to the first direction. And a gripper connected to the second frame, wherein the gripper is in contact with both sides of an upper portion of the inner cylinder,
Transferring the inner tube including the fragrance capsule to the washing section by the third transfer section,
The first weighing device measures the weight of the inner cylinder including the fragrance capsule, measures the amount of the fragrance capsule contained in the inner cylinder, and determines the weight of the fragrance capsule to be 0.5 to 2 times A step in which a positive alcohol is drawn into the washing tub through the supply portion,
Transferring the inner cylinder to the dehydrating section by the third transfer section, and
And a second direction perpendicular to the first direction, the second direction being perpendicular to the center of the bottom surface of the inner tube, The rotating device rotating the inner cylinder,
Wherein the fragrance capsule cleaning method comprises the steps of: The method of claim 6,
And washing the fragrance capsule while bubbling and vortex are generated in the cleaning part. The method of claim 6,
Further comprising the step of dewatering the alcohol in the fragrance capsule while rotating the rotating device. delete

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