KR102190854B1 - An industrial dryer and a method for operating the same - Google Patents

Abstract

The present invention relates to an industrial drying device and an operation method thereof. The industrial drying device according to an embodiment of the present invention includes: a box-shaped body (100); a slider (200) for moving an object (M) to be dried into the body (100); a blower (300) for supplying hot air into the body (100); and a control unit (400) that controls the body (100), the slider (200), and the blower (300) to control the drying state of the object (M) to be dried. According to the present invention, it is possible to uniformly dry the entire industrial parts when drying the industrial parts after washing the industrial parts.

Description

Industrial drying device and its operation method {AN INDUSTRIAL DRYER AND A METHOD FOR OPERATING THE SAME}

The present invention relates to an industrial drying apparatus and a method of operation thereof, and more particularly, to an industrial drying apparatus capable of uniformly drying parts such as generators used in industrial sites after washing and a method of operation thereof.

In the existing industrial sites, various types of drying devices are used to dry the object to be dried. Particularly, parts such as generators used in power plants require periodic cleaning to prevent performance degradation and deterioration due to contamination. In this case, since the size of the part is very large, it is difficult to dry the entire part.

In addition, it was difficult to dry the parts uniformly due to the size of the parts, and if moisture remains in a part, there is a problem that causes failure during reuse in industrial sites.

Korean Patent Registration No. 10-1670816 (2016.10.25)

The present invention was conceived to solve the above problems, and an object of the present invention is to measure the humidity with a plurality of sensors when drying industrial site parts and then supply more hot air to an area with high humidity. It relates to a drying apparatus and a method of operation thereof.

An industrial drying apparatus according to an embodiment of the present invention includes a box-shaped body 100; A slider 200 for moving the object to be dried (M) into the body 100; A blowing device 300 for supplying hot air into the main body 100; And a control unit 400 that controls the body 100, the slider 200, and the blower 300 to control the drying state of the object to be dried (M).

The main body 100 includes: a first opening/closing door 110 for opening and closing the front surface of the main body 100; A second opening/closing door 120 formed parallel to the first opening/closing door 110 to partition the inner space of the main body 100; A plurality of flow paths 130 for introducing hot air generated from the blower 300 into the interior of the main body 100; An outlet 140 for discharging the air inside the main body 100; A plurality of first humidity sensors 150 mounted in the first space A1, which is a space between the first opening and closing door 110 and the second opening and closing door 120; And a plurality of second humidity sensors 160 mounted in the second space A2, which is a space inside the second opening/closing door 120.

The flow path 130 is located in the first space A1 and communicates from one lower end of the first space A1 through an upper portion to the other lower end, and a plurality of 1-1 communication holes 131 at one lower end thereof. -1) is formed, a first flow path 131 in which a plurality of 1-2 communication holes (132-2) are formed at the other lower end; It is located in the first space A1 and communicates so as to cross an upper portion at one end of the first space A1, and a plurality of second communication holes 132-1 toward the inside of the main body 100 at the upper portion A second flow path 132 formed therein; It is located in the second space A2 and communicates from one lower end of the second space A2 to the other lower end through the rear surface, and a plurality of 3-1 communication holes 133-1 are formed at one lower end, A third flow path 133 in which a plurality of 3-2 communication holes 133-2 are formed toward the inside of the main body 100 on the rear side, and a plurality of 3-3 communication holes 133-3 are formed at the lower end of the other side. ); A plurality of fourth communication holes 134-1 located in the second space A2 and communicated so as to cross an upper portion at one end of the second space A2, and at an upper portion thereof toward the inside of the main body 100 It characterized in that it includes; a fourth flow path 134 formed.

The flow path 130 individually opens and closes a plurality of communication holes formed in the first flow path 131, the second flow path 132, the third flow path 133, and the fourth flow path 134, respectively. It characterized in that it further comprises a; flow path opening and closing device 135.

The discharge port 140 may include a first discharge port 141 formed above the first space A1; And a second outlet 142 formed above the second space A2.

The slider 200 passes through the first opening door 110, the first space A1, and the second opening door 120 from the outside of the main body 100, and the second space A2 ) Extending to the inside of the rail 210; It characterized in that it comprises a; a transfer unit 220 which is movable along the rail 210 and transfers the object to be dried (M) into the interior of the body 100.

The transfer unit 220 includes a top plate 221 on which the object to be dried (M) is seated; A plurality of wheels 222 mounted under the upper plate 221 and moving along the rail 210; A driving unit 223 driving the wheel 222; And a plurality of third humidity sensors 224 mounted on the upper plate 221.

The blower 300 includes: a first blower 310 for supplying hot air to the first flow path 131; A second blower 320 for supplying hot air to the second flow path 132; A third blower 330 supplying hot air to the third flow path 133; And a fourth blower 340 for supplying hot air to the fourth flow path 134.

An operating method of an industrial drying apparatus according to another embodiment of the present invention includes the steps of seating a drying object (M) on an upper plate 221 (S100); Step of moving the transfer unit 220 into the main body 100 (S200); Determining whether the size of the object to be dried (M) is larger than the second space (A2) (S300); Opening or closing the second opening/closing door 120 according to the size of the object to be dried (M) (S400); Operating the blower 300 (S500); Detecting the humidity in the humidity sensor (S600); Determining whether the detected average humidity (H _average ) has reached a preset target humidity (H _target ) (S700); Determining whether the humidity (H _xyz ) detected by any one humidity sensor (S _xyz ) exceeds the average humidity (H _average ) (S800); When the sensed humidity (H _xyz ) exceeds the average humidity (H _average ), the communication hole outside the preset distance from the humidity sensor (S _xyz ) is closed, and a preset from the humidity sensor (S _xyz ) It includes; controlling the flow path opening and closing device 135 to open the communication hole within the distance (S900).

The operating method of the industrial drying apparatus is, when the size of the object to be dried (M) is larger than the second space (A2) in the determining step (S300), the second opening and closing door 120 is opened and the Closing the first opening door 110 (S410); Operating the first to fourth blowers 310, 320, 330, and 340 (S510); And detecting humidity in the plurality of first humidity sensors 150, the plurality of second humidity sensors 160, and the plurality of third humidity sensors 224, respectively (S61O).

The operating method of the industrial drying apparatus is when the size of the object to be dried (M) is not larger than the second space (A2) in the determining step (S300), the second opening and closing door 120 and the first Closing the opening and closing door 110 (S420); Operating the third to fourth blowers 330 and 340 (S520); And detecting the humidity in each of the plurality of second humidity sensors 160 and the plurality of third humidity sensors 224 (S62O).

As described above, according to the present invention, it is possible to uniformly dry the entire industrial part after washing and drying it.

In addition, according to the size of the component, energy efficiency can be improved by restrictively using a blower and a flow path supplying hot air.

1 is a side cross-sectional view of an industrial drying apparatus according to an embodiment of the present invention.
2 is a cross-sectional plan view of the industrial drying apparatus.
3 to 14 are views for explaining the arrangement of flow paths of the industrial drying apparatus.
15 is a flow chart of a method of operating an industrial drying apparatus according to another embodiment of the present invention.

The terms or words used in the specification and claims are not limited to their usual or dictionary meanings, and the principle that the inventor can appropriately define the concept of terms in order to explain his or her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention. Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and do not represent all the technical spirit of the present invention, and thus various equivalents that can replace them at the time of application It should be understood that there may be water and variations. In addition, detailed descriptions of known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a side cross-sectional view of an industrial drying apparatus according to an embodiment of the present invention, FIG. 2 is a plan sectional view of the industrial drying apparatus, and FIGS. 3 to 14 are views for explaining the arrangement of a flow path of the industrial drying apparatus. . 1 to 14, an industrial drying apparatus according to an embodiment of the present invention includes a main body 100, a slider 200, a blower 300, and a control unit 400. The body 100 has a box shape, and the slider 200 serves to move the drying object M into the body 100. In addition, the blowing device 300 serves to supply hot air into the body 100, and the control unit 400 controls the body 100, the slider 200, and the blowing device 300. Thus, it serves to control the drying state of the drying object (M).

The main body 100 includes a first opening door 110, a second opening door 120, a flow path 130, an outlet 140, a first humidity sensor 150, and a second humidity sensor 160. . The first opening door 110 is a door for opening and closing the front of the main body 100, and the second opening door 120 is the first opening door 110 so as to partition the inner space of the main body 100. It is a door formed parallel to the. Accordingly, a space between the first opening door 110 and the second opening door 120 is formed, referred to as a first space (A1), and a space inside the second opening door 120 is formed. This is referred to as the second space A2.

That is, when the size of the object to be dried (M) is somewhat small, the object to be dried (M) may be located inside the second space (A2) by closing the second opening and closing door (120). In this case, the upper plate 221 to be described later, the inner wall of the main body 100, and the second opening/closing door 120 seal the second space A2. In addition, when the size of the object to be dried (M) is somewhat larger, the second opening and closing door 120 is opened, and the first space A1 and the second space A2 are integrated into the body 100 The object to be dried (M) is located in. In this case, the upper plate 221 and the inner wall of the main body 100 and the first opening door 110 are inside the main body 100 in which the first space A1 and the second space A2 are integrated. Will be sealed. That is, by sealing the inner space, drying efficiency can be maximized.

The flow path 130 serves to introduce hot air generated by the blowing device 300 into the interior of the main body 100, and may be configured in plural. The passage 130 includes a first passage 131, a second passage 132, a third passage 133, a fourth passage 134, and a passage opening and closing device 135. The first flow path 131 is located in the first space A1 and communicates from one lower end of the first space A1 through an upper portion to the other lower end. In addition, a plurality of 1-1 communication holes 131-1 are formed at one lower end of the first flow path 131, and a plurality of 1-2 communication holes 132-2 are formed at the other lower end. That is, the first flow path 131 serves to supply hot air to the lower end of the first space A1.

The second flow path 132 is located in the first space A1 and communicates with the first space A1 so as to cross the upper portion at one end of the first space A1. In addition, a plurality of second communication holes 132-1 are formed in the upper part toward the inside of the main body 100. That is, the second flow path 132 serves to supply hot air to the upper portion of the first space A1.

The third flow path 133 is located in the second space A2 and communicates from one lower end of the second space A2 to the other lower end through the rear surface. In addition, a plurality of 3-1 communication holes 133-1 are formed at one lower end, a plurality of 3-2 communication holes 133-2 toward the inside are formed at the rear side, and a plurality of third communication holes 133-2 are formed at the bottom of the other 3-3 communication hole (133-3) is formed. That is, the third flow path 133 serves to supply hot air to the lower end of the second space A2.

The fourth flow path 134 is located in the second space A2 and communicates with the second space A2 so as to cross the upper portion at one end of the second space A2. In addition, a plurality of fourth communication holes 134-1 are formed in the upper part toward the inside of the main body 100. That is, the fourth flow path 134 serves to supply hot air to the upper portion of the second space A2.

In addition, the flow path opening/closing device 135 individually opens a plurality of communication holes formed in the first flow path 131, the second flow path 132, the third flow path 133, and the fourth flow path 134. Open and close. That is, the 1-1 communication hole (131-1), the 1-2 communication hole (132-2), the second communication hole (132-1), the 3-1 communication hole (133-1) ), the 3-2 communication hole 133-2, the 3-3 communication hole 133-3, and the fourth communication hole 134-1 can be opened and closed individually. In addition, one of the plurality of 1-1 communication holes 131-1 may be opened but the other may be closed. Similarly, a plurality of the 1-2 communication hole (132-2), the second communication hole (132-1), the 3-1 communication hole (133-1), the 3-2 communication hole ( 133-2), the 3-3 communication hole 133-3, and the fourth communication hole 134-1 may also have one open but the other closed. That is, by closing the communication hole at a position where hot air supply is not necessary, it is possible to control the hot air to be further supplied to other communication holes requiring a large number of hot air supply.

The discharge port 140 includes a first discharge port 141 formed above the first space A1 and a second discharge port 142 formed above the second space A2. This is because the hot air supplied from the flow path 130 needs to be discharged after drying the object to be dried (M). In particular, when the object to be dried (M) is located in the second space (A2), it may be discharged through the second outlet (142), and the object to be dried (M) is the first space (A1) and the first When the two spaces A2 are located inside the integrated body 100, they are discharged through the first outlet 141 and the second outlet 142.

In addition, a plurality of first humidity sensors 150 are mounted in the first space A1, and a plurality of second humidity sensors 160 are mounted in the second space A2. In this case, a plurality of the first humidity sensor 150 and the second humidity sensor 160 may be arranged at predetermined intervals so as to be uniformly distributed. This is to determine a location where more drying is required (ie, a location where humidity is relatively high) by measuring the humidity by the first humidity sensor 150 and the second humidity sensor 160.

The slider 200 serves to move the object to be dried M into the body 100 and includes a rail 210 and a transfer unit 220. The rail 210 passes through the first opening door 110, the first space A1, and the second opening door 120 from the outside of the main body 100, and the second space A2 It is formed extending to the inside of.

In addition, the transfer unit 220 is movable along the rail 210 and serves to transfer the object M to be dried into the body 100. The transfer unit 220 includes a top plate 221, a wheel 222, a driving unit 223, and a third humidity sensor 224. A drying object (M) is mounted on the upper plate 221. At this time, the drying object (M) is preferably seated in close contact with the front end of the upper plate 221, that is, in a direction toward the inside of the main body 100. This is to maximize drying efficiency by placing the object to be dried (M) inside the second space (A2) when it can be located inside the second space (A2).

The wheels 222 are mounted under the upper plate 221 and move along the rail 210, and since the weight of the object to be built M is large, it is preferable that a plurality of wheels 222 are provided to distribute the load. . In particular, even if the object to be dried (M) is located at the front end of the top plate 221, in order to prevent the load burden of the wheel 222 located at the front end of the top plate 221, the front end of the top plate 221 It would also be desirable to place a number of wheels 222 on it.

The driving unit 223 serves to drive the wheel 222 and may transmit the driving force generated by the driving unit 223 to the wheel 222 through a power transmission device (not shown) such as a chain or gear.

The third humidity sensor 224 is mounted on the upper plate 221, and a plurality of the third humidity sensors 224 may be arranged at predetermined intervals to be uniformly distributed. The third humidity sensor 224 is a sensor disposed closest to the drying object M, and is a sensor that plays the greatest role in determining a position where drying is required (ie, a position where humidity is relatively high). At this time, in order to prevent the third humidity sensor 224 from being damaged by the drying object M having a large load, the third humidity sensor 224 may be mounted to be recessed into the upper plate 221. .

The blower 300 serves to supply hot air into the main body 100, and the first blower 310 supplies hot air to the first flow path 131, and hot air to the second flow path 132. And a second blower 320 for supplying air, a third blower 330 for supplying hot air to the third flow path 133, and a fourth blower 340 for supplying hot air to the fourth flow path 134. .

In this case, the first blower 310 and the second blower 320 supplying hot air to the first space A1 may be an integrated blower. Also, the third blower 330 and the fourth blower 340 supplying hot air to the second space A2 may be an integrated blower.

15 is a flowchart of a method of operating an industrial drying apparatus according to another embodiment of the present invention. Referring to Figure 15, the operating method of the industrial drying apparatus is the step of seating (S100), the step of moving (S200), the step of determining (S300), the step of opening or closing (S400), the step of operating (S500) ), detecting humidity (S600), determining (S700), determining (S800), and controlling (S900).

In the seating step (S100), the drying object M is seated on the upper plate 221. At this time, the drying object (M) is preferably seated in close contact with the front end of the upper plate 221, that is, in a direction toward the inside of the main body 100. This is to maximize drying efficiency by placing the object to be dried (M) inside the second space (A2) when it can be located inside the second space (A2).

In the moving step (S200), the transfer unit 220 moves into the main body 100. That is, the wheel 222 moves along the rail 221 by the driving force generated by the driving unit 223.

In the determining step (S300), it is determined whether the size of the drying object M is larger than the second space A2. That is, when the size of the object to be dried (M) is somewhat small, the object to be dried (M) may be located inside the second space (A2) by closing the second opening and closing door (120). In this case, the upper plate 221 and the inner wall of the main body 100 and the second opening/closing door 120 seal the second space A2. In addition, when the size of the object to be dried (M) is somewhat larger, the second opening and closing door 120 is opened, and the first space A1 and the second space A2 are integrated into the body 100 The object to be dried (M) is located in. In this case, the upper plate 221 and the inner wall of the main body 100 and the first opening door 110 are inside the main body 100 in which the first space A1 and the second space A2 are integrated. Will be sealed. That is, by sealing the inner space, drying efficiency can be maximized. For this purpose, it is firstly determined whether the size of the object to be dried M is larger than the second space A2.

In the opening or closing step (S400), the second opening or closing door 120 is opened or closed according to the size of the object to be dried (M). In addition, the step of operating the blower 300 (S500), the step of detecting the humidity in the humidity sensor (S600) is sequentially performed. In more detail, when the size of the object to be dried (M) is larger than the second space (A2) in the determining step (S300), the second opening door 120 is opened and the first Closing the opening and closing door 110 (S410), operating the first to fourth blowers 310, 320, 330, 340 (S510), a plurality of first humidity sensors 150, a plurality of second humidity sensors The humidity is sensed by each of 160 and the plurality of third humidity sensors 224 (S61O).

In addition, when the size of the object to be dried (M) is not larger than the second space (A2) in the determining step (S300), the second opening door 120 and the first opening door 110 Closing (S420), operating the third to fourth blowers (330, 340) (S520), the plurality of second humidity sensors 160 and the plurality of third humidity sensors 224 to detect the humidity, respectively. (S62O).

In the determining step (S700), it is determined whether the sensed average humidity (H _average ) reaches a preset target humidity ( _target H). In this case, the preset target humidity (H _target ) may be 0%. In other words, if moisture remains after cleaning, parts such as generators and motors used in power plants may cause failures during reuse in industrial sites, so the preset target humidity (H _target ) is set to 0% for complete drying. May be. However, it is not necessarily limited thereto, and may be set differently according to the intention of the designer or user.

In step (S800) that determines whether the determination exceeds any one of the humidity sensor (S _xyz) the humidity (H _xyz) is the average humidity (H _average) detected. That is, when the sensed humidity (H _xyz ) exceeds the average humidity (H _average ), it is determined that it is a location where drying is further required (ie, a location where hot air supply is further required). At this time, since a plurality of the first humidity sensor 150, the second humidity sensor 160, and the third humidity sensor 224 are mounted, a position where drying is further required in consideration of their three-dimensional position (XYZ). Is able to grasp precisely.

In the controlling step (S900), when the sensed humidity (H _xyz ) exceeds the average humidity (H _average ), the communication hole outside a preset distance from the humidity sensor (S _xyz ) is closed, and the humidity The flow path opening/closing device 135 is controlled to open the communication hole within a predetermined distance from the sensor S _xyz . The flow path opening and closing device 135 individually opens and closes a plurality of communication holes formed in the first flow path 131, the second flow path 132, the third flow path 133, and the fourth flow path 134, respectively. do. That is, the 1-1 communication hole (131-1), the 1-2 communication hole (132-2), the second communication hole (132-1), the 3-1 communication hole (133-1) ), the 3-2 communication hole 133-2, the 3-3 communication hole 133-3, and the fourth communication hole 134-1 can be opened and closed individually.

In addition, one of the plurality of 1-1 communication holes 131-1 may be opened but the other may be closed. Similarly, a plurality of the 1-2 communication hole (132-2), the second communication hole (132-1), the 3-1 communication hole (133-1), the 3-2 communication hole ( 133-2), the 3-3 communication hole 133-3, and the fourth communication hole 134-1 may also have one open but the other closed. That is, by closing the communication hole at a position where hot air supply is not necessary, it is possible to control the hot air to be further supplied to other communication holes requiring a large number of hot air supply.

After the controlling step (S900), by performing the step of detecting the humidity (S600), the step of determining (S700), and the step of determining (S800) again, the humidity is continuously maintained during the operating time of the industrial drying apparatus. It is possible to concentrate the supply of hot air to a location where drying is insufficient by sensing. Accordingly, drying efficiency can be maximized.

The above-described embodiment is only a preferred embodiment that enables a person with ordinary knowledge in the technical field to which the present invention pertains (hereinafter referred to as a person skilled in the art) to easily implement the present invention, and the above-described embodiment and accompanying drawings The scope of the present invention is not limited thereto because it is not limited to. Therefore, it will be apparent to those skilled in the art that various substitutions, modifications and changes are possible within the scope of the technical spirit of the present invention, and it is obvious that parts that can be easily changed by those skilled in the art are included in the scope of the present invention. .

100 body
110 First opening door
120 2nd opening door
130 euros
131 first euro
131-1 1-1 communication hole
131-2 No. 1-2 communication hole
132 second euro
132-1 2nd communication hole
133 third euro
133-1 3-1 communication hole
133-2 3-2 communication hole
133-3 3-3 communication hole
134 fourth euro
134-1 4th communication hole
135 Euro switch
140 outlet
141 first outlet
142 2nd outlet
150 1st humidity sensor
160 second humidity sensor
200 slider
210 rail
220 Transfer
221 top plate
222 wheels
223 drive
224 3rd humidity sensor
300 blower
310 first blower
320 second blower
330 third blower
340 fourth blower
400 control unit
A1 first space
A2 second space

Claims (5)

A box-shaped body 100;
A slider 200 for moving the object to be dried (M) into the body 100;
A blowing device 300 for supplying hot air into the main body 100; And
A control unit 400 controlling the body 100, the slider 200, and the blowing device 300 to control a drying state of the object to be dried (M);
In the industrial drying apparatus comprising a,
The main body 100,
A first opening/closing door 110 for opening and closing the front surface of the main body 100;
A second opening/closing door 120 formed parallel to the first opening/closing door 110 to partition the inner space of the main body 100;
A plurality of flow paths 130 for introducing hot air generated from the blower 300 into the interior of the main body 100;
An outlet 140 for discharging the air inside the main body 100;
A plurality of first humidity sensors 150 mounted in the first space A1, which is a space between the first opening and closing door 110 and the second opening and closing door 120; And
A plurality of second humidity sensors 160 mounted in a second space A2, which is a space inside the second opening/closing door 120;
Including,
The outlet 140,
A first outlet 141 formed above the first space A1; And
A second outlet 142 formed on the second space A2;
In the industrial drying apparatus comprising a,
The flow path 130,
It is located in the first space A1 and communicates from one lower end of the first space A1 through an upper portion to the other lower end, and a plurality of 1-1 communication holes 131-1 are formed at one lower end, A first flow path 131 having a plurality of 1-2 communication holes 132-2 formed at the lower end of the other side;
It is located in the first space A1 and communicates so as to cross an upper portion at one end of the first space A1, and a plurality of second communication holes 132-1 toward the inside of the main body 100 at the upper portion A second flow path 132 formed therein;
It is located in the second space A2 and communicates from one lower end of the second space A2 to the other lower end through the rear surface, and a plurality of 3-1 communication holes 133-1 are formed at one lower end, A third flow path 133 in which a plurality of 3-2 communication holes 133-2 are formed toward the inside of the main body 100 on the rear side, and a plurality of 3-3 communication holes 133-3 are formed at the lower end of the other side. );
It is located in the second space A2 and communicates across an upper portion at one end of the second space A2, and a plurality of fourth communication holes 134-1 at the upper portion toward the inside of the main body 100 A fourth flow path 134 formed therein; And
A flow path opening/closing device 135 for individually opening and closing a plurality of communication holes formed in the first flow path 131, the second flow path 132, the third flow path 133, and the fourth flow path 134;
Industrial drying apparatus, characterized in that it further comprises. delete delete The method of claim 1,
The slider 200,
A rail extending from the outside of the main body 100 to the inside of the second space A2 by passing through the first opening door 110, the first space A1, and the second opening door 120 (210); And
A transfer unit 220 that is movable along the rail 210 and transfers the object to be dried (M) into the body 100;
Including,
The transfer unit 220,
A top plate 221 on which the object to be dried (M) is seated on the top;
A plurality of wheels 222 mounted under the upper plate 221 and moving along the rail 210;
A driving unit 223 driving the wheel 222; And
A plurality of third humidity sensors 224 mounted on the upper plate 221;
Industrial drying apparatus comprising a. The method of claim 1,
The blowing device 300,
A first blower 310 supplying hot air to the first flow path 131;
A second blower 320 for supplying hot air to the second flow path 132;
A third blower 330 supplying hot air to the third flow path 133; And
A fourth blower 340 supplying hot air to the fourth flow path 134;
Industrial drying apparatus comprising a.

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