KR20200076084A - Rotating plate unit and combustor having thereof - Google Patents

Abstract

A rotating plate unit according to an embodiment of the present invention includes: a ring-shaped rotating member; a driving member connected to one side of the rotating member to transmit rotational driving force to the rotating member; and a plurality of driven members connected to the other side of the rotating member, which is a semicircular region opposite to one side of the rotating member to which the driving member is connected, to support rotation of the rotating member. Therefore, the rotating plate unit and a combustor having the same can prevent thermal deformation caused by radiant heat and exhaust gas heat transfer and translational movement due to deviation of rotation center.

Description

Rotating plate unit and combustor including the same

The present invention relates to a rotary floor unit and a combustor comprising the same.

The annular combustor has a structure in which a swirling air stream descending from the upper end to the lower end of the combustor is supplied with air to the combustion surface and then discharged by turning in the form of exhaust gas after combustion.

Here, the annular combustor has no refractory material, and is a combustor using the adiabatic effect of air, and consists of several layers of walls made of steel.

The annular combustor includes a rotating bottom unit that rotates at the bottom of the combustion chamber unit to secure a gap at the bottom to discharge ash of fuel after combustion, and the rotating bottom unit has gears attached to a circular cylinder. As a short cylindrical shape, it is gear-coupled with a drive member to be given rotational force.

That is, the gear formed on the bottom of the short cylindrical rotating member and the gear of the driving member disposed under the rotating member are matched and rotated to receive rotational force.

However, the rotating member has a problem that it is difficult to secure long-term rotational reliability due to thermal deformation and translational movement due to radiant heat during combustion and heat transfer of exhaust gas.

Specifically, due to out-of-plane deformation of the rotating member, that is, crushing due to heat, a phenomenon in which the rotational function is lost due to disengagement due to misalignment of gears between the driving member or the driven member and the rotating member occurs.

In addition, since the rotating member is rotated without a fixed rotating shaft, there is also a problem in that the rotating body deviates from the rotational center and translates when the driving force of the driving member is transmitted.

There is also a problem in that noise or vibration occurs due to the loss of the rotation function of the rotating member or a position change in the horizontal direction and the vertical direction.

Therefore, in order to improve the above-mentioned problems or limitations, it is necessary to study a rotary floor unit and a combustor comprising the same.

Korean Application No. 10-2015-0110973

An object of the present invention is to provide a rotary bottom unit and a combustor comprising the same, which prevents translational movement due to heat deflection due to heat transfer during combustion and heat transfer from exhaust gas and separation of the rotation center.

The rotating floor unit according to an embodiment of the present invention is a ring-shaped rotating member, a driving member connected to one side of the rotating member to transmit rotational driving force to the rotating member, and one side of the rotating member to which the driving member is connected It may include a plurality of driven members connected to the other side of the rotating member that is the opposite semicircular region to support the rotation of the rotating member.

Here, the driven member of the rotary floor unit according to an embodiment of the present invention, the remaining second point and the third point of the three divided points of the rotating member having one side of the rotating member associated with the driving member as the first point It can be characterized by being linked to each of the three points.

In addition, the driven member of the rotating floor unit according to an embodiment of the present invention is in contact with the side wall ring portion of the rotating member to horizontally rotate the horizontal roller portion supporting the rotation of the rotating member and the horizontal roller portion to be rotated And, it may include a horizontal elastic portion for elastically pressing the horizontal roller portion in the direction of the side wall ring portion.

Specifically, the horizontal elastic portion of the rotary floor unit according to an embodiment of the present invention, a fixed block fixed to the outside, a pressure block that is coupled to rotate the horizontal roller portion, one end is coupled to the pressure block, the other end It may include an expansion spring which is penetrated through the fixing block and is disposed between the fixing block and the pressurizing block so that the elastic adjustment nut is screwed, and the horizontal connecting rod is inserted.

In addition, the driven member of the rotating floor unit according to an embodiment of the present invention may include a vertical elastic part which is in contact with the lower surface of the upper plate ring portion of the rotating member and elastically supports the upper plate ring portion.

Specifically, the vertical elastic portion of the rotary floor unit according to an embodiment of the present invention, through the horizontal roller portion is coupled to the upper portion of the horizontal elastic portion, the vertical connecting rod for adjusting the depth of screwing the horizontal elastic portion and It may be coupled to the upper end of the vertical connecting rod, it may include a dish spring that is in contact with the lower surface of the upper plate ring.

In addition, the rotating member of the rotary floor unit according to an embodiment of the present invention may include a top plate ring portion formed with a gear connected to the driving member and a side wall ring portion vertically coupled to a lower surface of the top plate ring portion.

Here, the upper plate ring portion of the rotary floor unit according to an embodiment of the present invention, the upper plate support ring coupled to the side wall ring portion and the gear member associated with the driving member is formed, the upper plate support ring is divided into a plurality of It may include a combined upper plate split gear.

In addition, the drive member of the rotary floor unit according to an embodiment of the present invention, a second bevel gear coupled with a first motor and a first bevel gear coupled to the rotation shaft of the drive motor portion provided adjacent to the rotation member A gear is formed in the lower portion, and the upper portion may include a converter gear portion formed with a spur gear gear-coupled with the gear formed in the rotating member.

A combustor according to another embodiment of the present invention has a combustion space formed therein, a combustion chamber unit receiving air through a side wall portion, and provided below the combustion chamber unit, a fuel supply unit for supplying fuel to the combustion space, and the combustion chamber It may be provided on the lower portion of the unit, disposed around the edge of the fuel supply unit, provided to be rotated, and may include the rotating bottom unit having a gap formed between the lower end of the side wall portion.

The rotary floor unit of the present invention and the combustor comprising the same have an advantage of preventing translational movement due to heat distortion due to radiant heat and exhaust gas heat transfer during combustion and displacement of the rotation center.

Accordingly, it has an effect of preventing a problem of noise or vibration caused by a loss of rotation function or a position change in the horizontal direction or the vertical direction.

However, various and advantageous advantages and effects of the present invention are not limited to the above, and may be more easily understood in the process of describing the specific embodiment of the present invention.

1 is a perspective view showing a rotating floor unit of the present invention.
Figure 2 is a perspective view showing a driven member in the rotary floor unit of the present invention.
3 is a front view showing a driving member in the rotary floor unit of the present invention.
Figure 4 is a perspective view showing an embodiment in which the rotating member in the rotating floor unit of the present invention includes an upper plate split gear.
5 is a perspective view showing a rotary floor unit of the present invention and a combustor comprising the same.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. In addition, embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for a more clear description.

In addition, in this specification, a singular expression includes a plural expression unless the context clearly indicates otherwise, and the same reference numerals or reference numerals assigned in a similar manner throughout the specification refer to the same or corresponding components. Let's do it.

The present invention relates to a rotary floor unit (1) and a combustor comprising the same, it is possible to prevent the translational movement due to the heat deflection during combustion and heat transfer due to the heat transfer of the exhaust gas and the departure of the rotation center, resulting in loss of rotation function It is possible to prevent a problem of noise and vibration caused by a change of position in the horizontal direction and the vertical direction.

When specifically described with reference to the drawings, Figure 1 is a perspective view showing the rotary floor unit 1 of the present invention, referring to the drawings, the rotary floor unit 1 according to an embodiment of the present invention is a ring shape The rotating member 100, the driving member 200 connected to one side of the rotating member 100 to transmit rotational driving force to the rotating member 100, and the rotating member 100 connected to the driving member 200 ) May include a plurality of driven members 300 connected to the other side of the rotating member 100 which is an opposite semi-circular region of one side to support rotation of the rotating member 100.

As described above, in the rotating floor unit 1 of the present invention, a plurality of positions of the driven member 300 are disposed in a semicircle area opposite to the driving member 200, so that the rotating member 100 is provided with the driving member ( 200).

Accordingly, even by thermal deformation due to thermal influence, the driving force transmitted from the driving member 200 can be stably transmitted to the rotating member 100.

The rotating member 100 is a ring-shaped member and may be installed at the bottom of the combustion chamber unit 2 of the combustor, which will be described later.

The rotating member 100 is rotated by receiving the rotational driving force from the driving member 200, and for this purpose, is connected to the driving member 200.

In addition, the rotation member 100 may be configured to include a top plate ring portion 120 and a side wall ring portion 110 including a deformation preventing support structure to prevent thermal deformation due to radiant heat during combustion and heat transfer of exhaust gas. However, a detailed description thereof will be described later with reference to FIG. 4.

The driving member 200 serves to provide rotational driving force to the rotating member 100. To this end, the driving member 200 may be provided to be connected to one side of the rotating member 100.

Specifically, the driving member 200 may include a driving motor unit 210 and a converter control unit 220, thereby transmitting rotational driving force to the rotating member 100, which is described in detail. It will be described later with reference to 3.

The driven member 300 serves to support the rotating member 100 so that the driving member 200 stably transmits rotational driving force to the rotating member 100.

In other words, a plurality of driven members 300 are disposed in an opposite region of one side of the rotating member 100 to which the driving member 200 is connected, so that even if thermal deformation of the rotating member 100 occurs, the rotating member By supporting the 100 to be connected to the driving member 200, the rotational driving force of the driving member 200 can be stably transmitted to the rotating member 100.

To this end, the driven member 300 may include a horizontal roller portion 310, a horizontal elastic portion 320, a vertical elastic portion 330, etc., a detailed description thereof will be described later with reference to FIG. 2.

In addition, as an example of the placement position of the driven member 300, the placement position in which the driven member 300 is connected to the rotating member 100 is the rotating member 100 in relation to the driving member 200 It can be linked to support two of the three points.

That is, the driven member 300 of the rotary floor unit 1 according to an embodiment of the present invention, the rotation with one side of the rotating member 100 to which the driving member 200 is connected as a first point It may be characterized in that it is associated with each of the remaining second and third points of the three division points of the member 100.

Thus, when the driven member 300 supports two points among the three divided points, it is possible to stably form a balance of forces pushing the rotating member 100 to the driving member 200.

In other words, since the direction of the force that the two driven members 300 push the rotating member 100 is configured to be disposed on the same line as the rotating member 100 is connected to the rotating member 100 , Stable support for the rotating member 100 is possible.

Figure 2 is a perspective view showing a driven member 300 in the rotary floor unit 1 of the present invention, referring to the drawings, the driven member 300 of the rotary floor unit 1 according to an embodiment of the present invention ), the horizontal roller portion 310 and the horizontal roller portion 310 that are in contact with the side wall ring portion 110 of the rotating member 100 to support the rotation of the rotating member 100 in the horizontal direction are coupled to rotate And, it may include a horizontal elastic portion 320 to elastically press the horizontal roller portion 310 in the direction of the side wall ring portion (110).

As described above, the driven member 300 includes the horizontal roller part 310, the horizontal elastic part 320, and the vertical elastic part 330, so that the driving member 200 is connected to the rotating member 100. A plurality of disposed on the opposite area of one side of the rotation member 100 is elastically supported so as to be connected to the driving member 200 even if the thermal deformation of the rotating member 100 occurs, the driving member 200 ), the rotational driving force can be stably transmitted to the rotating member 100.

Here, the horizontal roller part 310 serves to support the rotating member 100 by making direct contact with the rotating member 100. Then, in order to support the rotating member 100 to be rotated, it is coupled to be rotated to the horizontal elastic portion 320. That is, the horizontal roller part 310 is configured to be freely rotated around a rotation axis coupled to the horizontal elastic part 320.

The horizontal elastic part 320 serves to elastically press the horizontal roller part 310 in direct contact with the rotating member 100 in the direction of the rotating member 100. Accordingly, even if the rotation member 100 is subjected to thermal deformation or the like, the rotation member 100 is pushed in the direction of the driving member 200, thereby enabling stable rotational driving force transmission.

Specifically, the horizontal elastic portion 320 of the rotary floor unit 1 according to an embodiment of the present invention, the fixed block 321 fixed to the outside, the horizontal roller portion 310 is coupled to rotate to be pressed Block 322, one end is coupled to the pressure block 322, the other end is penetrated through the fixing block 321, the elastic adjustment nut 323a is screwed horizontal connecting rod 323 and the fixing block 321 ) And the expansion block 322 to be disposed between the pressure block 322, the horizontal connecting rod 323 is inserted.

Here, the fixed block 321 serves as a support point for transmitting the elastic force of the expansion spring 324 to the pressure block 322. To this end, the fixing block 321 should be provided to be fixed, for example, it can be fixedly coupled to the bottom of the combustion chamber unit 2 of the combustor, which will be described later.

The pressing block 322 is configured to be elastically pressed in the direction of the rotating member 100, the horizontal roller portion 310 is coupled to rotate. Accordingly, the horizontal roller part 310 is elastically pressed in the direction of the rotating member 100, whereby the rotating member 100 is horizontally moved by heat deformation or the like, and is separated from the driving member 200. This will prevent the problem.

The horizontal connecting rod 323 and the expansion spring 324 connect the pressurizing block 322 to the fixing block 321 to provide elasticity. To this end, one end of the horizontal connecting rod 323 is coupled to the pressurizing block 322, and the other end is penetrated through the fixing block 321, and an elastic adjustment nut 323a is coupled. In addition, the expansion spring 324 is coupled with the horizontal connecting rod 323 inserted, and is disposed between the pressurizing block 322 and the fixing block 321.

Here, the horizontal connecting rod 323 is penetrated freely in the fixed block 321 so that the elastic force of the expansion spring 324 is transmitted to the pressure block 322. Then, in order to adjust the degree of addition of the elastic force by the expansion spring 324, the degree of engagement with the elastic adjustment nut 323a is adjusted.

In addition, the driven member 300 of the rotary floor unit 1 according to an embodiment of the present invention is in contact with the lower surface of the top plate ring portion 120 of the rotating member 100 to elastically the top plate ring portion 120 It may include a vertical elastic portion 330 to support.

The vertical elastic part 330 serves to elastically support the rotational member 100 that the vertical position is changed by thermal deformation. In other words, if torsional deformation or the like occurs due to a difference in the thermal effect of each part of the rotating member 100, the rotating member 100 may also have a problem of position change in the vertical direction. In order to elastically support the member 100, the vertical elastic portion 330 is provided.

Specifically, the vertical elastic portion 330 of the rotary floor unit 1 according to an embodiment of the present invention, through the horizontal roller portion 310 is coupled to the upper portion of the horizontal elastic portion 320, It is coupled to the upper end of the vertical connecting rod 331 and the vertical connecting rod 331 to adjust the depth that is screwed to the horizontal elastic portion 320, the plate spring 332 which is in contact with the lower surface of the top plate ring 120 It can contain.

Here, the vertical connecting rod 331 may be screwed to the upper surface of the pressure block 322 of the horizontal elastic portion 320. In addition, the dish spring 332 is coupled to the upper end of the vertical connecting rod 331.

And, the horizontal connecting rod 331 may be coupled to rotate the horizontal roller portion 310, whereby the horizontal roller portion 310 is in contact with the rotating member 100 is rotated, such as problems such as friction Will prevent it.

The dish spring 332 has a disk shape slightly inclined toward the center, and when the vertical position of the rotating member 100 changes, the rotating member 100 is elastically supported in the vertical direction. The dish spring 332 may refer to the configuration of a general dish spring 332.

3 is a front view showing the driving member 200 in the rotary floor unit 1 of the present invention, referring to the drawings, the driving member 200 of the rotary floor unit 1 according to an embodiment of the present invention ), a second bevel gear 221 which is gear-coupled with a drive motor part 210 provided adjacent to the rotating member 100 and a first bevel gear 211 coupled to a rotation shaft of the drive motor part 210. ) Is formed on the lower portion, and the upper portion may include a converter gear portion 220 formed with a spur gear 222 that is gear-coupled with a gear formed on the rotating member 100.

As described above, the driving member 200 includes a driving motor unit 210 and a converter control unit 220 to provide rotational driving force to the rotating member 100.

Here, the driving motor unit 210 serves to provide a rotational driving force, and is driven to rotate the rotating shaft by receiving electric energy.

In addition, the converter control unit 220 serves to convert the rotation direction of the drive motor unit 210 and transmit it to the rotating member 100.

Specifically, the rotating member 100 is formed with gear teeth on the outer surface in the circumferential direction, and these gear teeth are connected to the driving motor unit 210 to receive the rotation driving force. That is, as before, the gear teeth are not formed on the lower surface of the upper plate ring portion 120 of the rotating member 100, but are formed on the outer surface of the upper plate ring portion 120, and on the outer surface of the upper plate ring portion 120. The formed gear teeth are connected to the drive motor unit 210 via the converter gear unit 220.

Here, the rotation shaft of the driving motor unit 210 is horizontally arranged with the rotation plane of the rotation member 100. Therefore, in order to connect the driving transmission of the driving motor unit 210 and the rotating member 100, the converter gear unit 220 includes a second bevel gear 221 and a spur gear 222.

The second bevel gear 221 is vertically coupled to the first bevel gear 211 coupled to the rotation shaft of the drive motor unit 210. In addition, the spur gear 222 is gear-engaged with a gear formed on the outer surface of the top plate ring part 120. In addition, the spur gear 222 and the second bevel gear 221 are provided to be coupled to rotate on the same axis.

By the converter control unit 220, the rotational driving force transmitted to the rotating member 100 transmits the rotational driving force in a direction horizontal to the rotational plane of the rotating member 100.

Figure 4 is a perspective view showing an embodiment in which the rotating member 100 in the rotating floor unit 1 of the present invention includes the upper plate split gear 122, referring to the drawings, according to an embodiment of the present invention The rotating member 100 of the rotating floor unit 1, the upper plate ring portion 120 is formed gears associated with the drive member 200 and the side wall ring portion 110 vertically coupled to the lower surface of the top plate ring portion 120 ).

As described above, the rotating member 100 is configured to include the top plate ring portion 120 and the side wall ring portion 110, thereby preventing thermal deformation due to radiant heat during combustion and heat transfer of exhaust gas.

In other words, since the direction in which the top plate ring portion 120 is formed and the direction in which the side wall ring portion 110 is formed are vertical, a supporting structure supporting thermal deformation of each other is included. For example, the top plate ring portion 120 and the side wall ring portion 110 may be combined in the form of a letter “a”.

Here, the driven member 300 is supported in contact with the outer surface of the side wall ring portion 110. Specifically, the horizontal roller portion 310 of the driven member 300 is provided in contact.

In addition, a gear is formed on the outer surface of the upper plate ring part 120 to be geared with the driving member 200 to receive rotational driving force.

In addition, the upper plate ring part 120 is provided so that the portion where the gear teeth are formed is divided in the circumferential direction, so that even in the case of twisting due to thermal deformation, the gear teeth can maintain gear engagement with the driving member 200.

In other words, the upper plate ring portion 120 of the rotary floor unit 1 according to an embodiment of the present invention, the upper plate support ring 121 and the driving member 200 to which the side wall ring portion 110 is coupled to the lower surface The gear teeth are formed in connection with the top plate, and may include a top plate splitting gear 122 that is divided and coupled to the top plate support ring 121.

If the top plate split gear 122 is not provided, if twisting due to thermal deformation of the top plate ring portion 120 occurs, the angle connected to the drive member 200 may change depending on the drive member ( 200) and the connection is broken.

However, since the top plate ring portion 120 of the present invention includes the top plate split gear 122 divided in the circumferential direction, even if the top plate support ring 121 or the like is twisted by thermal deformation, the top plate split gear ( 122) the connection angle with the driving member 200 is not deformed, thereby preventing a problem that the connection with the driving member 200 is disassembled.

5 is a perspective view showing a rotary floor unit 1 of the present invention and a combustor including the same. Referring to the drawing, a combustor according to another embodiment of the present invention has a combustion space 2b formed therein and a side wall A combustion chamber unit (2) that receives air through a portion (2a), is provided below the combustion chamber unit (2), and provides a fuel supply unit (3) and the combustion chamber unit (4) to supply fuel to the combustion space (2b). 2) is provided on the lower portion, is arranged to surround the edge of the fuel supply unit (3) is provided to be rotated, and includes the rotating bottom unit (1) with a gap formed between the lower end of the side wall portion (2a) can do.

As described above, the combustor of the present invention supplies air to the combustion space 2b through the side wall portion 2a of the combustion chamber unit 2 to form the combustion space 2b, and the fuel supply unit 3 In addition to performing combustion by supplying fuel to the combustion space 2b, a gap between the lower end of the side wall portion 2a and the fuel supply unit 3, including the rotary bottom unit 1, The discharged ash (Ash) prevents the problem of closing the gap between the lower end of the side wall portion (2a) and the fuel supply unit (3).

In addition, since the rotating floor unit 1 can prevent the translational movement due to the displacement of the center of rotation and the thermal deformation due to radiant heat during combustion and heat transfer from the exhaust gas, while rotating stably, between the side wall portion 2a This prevents the problem of clogging between the side wall portions 2a by foreign materials such as ash.

Although the embodiments of the present invention have been described above, the scope of rights of the present invention is not limited thereto, and it is possible in the art to make various modifications and variations without departing from the technical spirit of the present invention as set forth in the claims. It will be obvious to those with ordinary knowledge.

1: rotating floor unit 2: combustion chamber unit
3: Fuel supply unit 100: rotating member
110: side wall ring portion 120: top plate ring portion
121: upper plate support ring 122: upper plate split gear
200: drive member 210: drive motor unit
211: first bevel gear 220: converter fisherman
221: second bevel gear 222: spur gear
300: driven member 310: horizontal roller unit
320: horizontal elastic part 321: fixed block
322: pressure block 323: horizontal connecting rod
324: expansion spring 330: vertical elastic part
331: vertical connecting rod 332: plate spring

Claims (10)

Ring-shaped rotating member;
A driving member connected to one side of the rotating member to transmit rotational driving force to the rotating member; And
A plurality of driven members connected to the other side of the rotating member which is a semicircular area opposite to one side of the rotating member to which the driving member is connected to support rotation of the rotating member;
Rotary floor unit comprising a. According to claim 1,
The driven member is a rotating floor unit, characterized in that connected to the remaining second point and the third point of each of the three divided points of the rotating member having one side of the rotating member as the first point associated with the driving member. According to claim 1,
The driven member,
A horizontal roller part in contact with the side wall ring portion of the rotating member and supporting rotation of the rotating member in a horizontal direction; And
A horizontal elastic part which is coupled to rotate the horizontal roller part and elastically presses the horizontal roller part toward the side wall ring part;
Rotary floor unit comprising a. According to claim 3,
The horizontal elastic portion,
A fixed block fixed to the outside;
A pressure block to which the horizontal roller part is rotated;
One end portion is coupled to the pressure block, the other end is penetrated through the fixing block, but a horizontal connecting rod through which an elastic adjustment nut is screwed; And
An expansion spring connected to the horizontal connecting rod to be inserted between the fixed block and the pressure block;
Rotary floor unit comprising a. According to claim 3,
The driven member,
A vertical elastic part in contact with a lower surface of the upper plate ring part of the rotating member to elastically support the upper plate ring part;
Rotary floor unit comprising a. The method of claim 5,
The vertical elastic portion,
A vertical connecting rod penetrating through the horizontal roller portion and being coupled to an upper portion of the horizontal elastic portion, adjusting a depth screwed to the horizontal elastic portion; And
A dish spring coupled to an upper end of the vertical connecting rod and contacting a lower surface of the upper plate ring part;
Rotary floor unit comprising a. According to claim 1,
The rotating member,
An upper plate ring portion formed with a gear connected to the driving member; And
A side wall ring portion vertically coupled to a lower surface of the top plate ring portion;
Rotary floor unit comprising a. The method of claim 7,
The top ring portion,
An upper plate support ring to which the side wall ring portion is coupled to a lower surface; And
A gear plate connected to the driving member is formed, and an upper plate split gear coupled to the upper plate support ring in a plurality of ways;
Rotary floor unit comprising a. According to claim 1,
The drive member,
A drive motor unit provided adjacent to the rotating member; And
A converter gear part having a first bevel gear coupled with a first bevel gear coupled to a rotating shaft of the drive motor part formed at a lower end, and a spur gear being gear coupled with a gear formed on the rotating member at an upper end;
Rotary floor unit comprising a. A combustion chamber unit having a combustion space formed therein and receiving air through a side wall portion;
A fuel supply unit provided under the combustion chamber unit and supplying fuel to the combustion space; And
It is provided on the lower portion of the combustion chamber unit, is arranged to surround the edge of the fuel supply unit is provided to be rotated, the rotating bottom unit of any one of claims 1 to 9 formed with a gap between the lower end of the side wall portion;
Combustor comprising a.

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