JP6480890B2 - Concrete sampling device and concrete sampling method - Google Patents

Description

  The present invention relates to a concrete collecting apparatus and a concrete collecting method for collecting concrete on a back surface portion of a concrete roof.

  Conventionally, for example, in a concrete roof in a tank such as a distribution pond or a regulating pond, the deterioration state of the back surface of the concrete roof has been visually confirmed.

  However, it was possible to confirm the state of deterioration by visual observation of the back surface of the concrete roof in a state where the deterioration progressed to some extent and the deterioration became apparent, but it was not possible to confirm in the process until it became apparent. Moreover, the visual inspection required a scaffold in the tank. For this reason, this confirmation was limited to the time when the operation of the tank was temporarily stopped at intervals of several years or more for reasons such as draining the water in the tank or repainting the inner surface.

  The present invention has been made to solve the above-described conventional drawbacks, and the object of the present invention is to sequentially collect concrete for inspection for confirming the progress of deterioration of the concrete roof. An object of the present invention is to provide a concrete collecting device and a concrete collecting method.

In order to achieve the above object, a concrete sampling apparatus and a concrete sampling method according to the present invention have the following configuration. That is,
The concrete sampling device according to the first aspect of the present invention is a concrete sampling device that samples the concrete on the back surface of the concrete roof. The concrete collecting apparatus includes a support body that is detachably disposed on the concrete roof so as to pass from the upper side to the lower side of the concrete roof through a through-hole formed in the concrete roof, and a core bit as a bit. And a driving device and a feeding device. Here, the core bit is supported by the support body on the lower side of the concrete roof, and the front end faces the back surface of the concrete roof, and the back surface is drilled. The drive device is operated from the upper side of the concrete roof to apply a rotational force to the core bit. The feeding device is operated from above the concrete roof to move the core bit forward and backward relative to the concrete roof. Therefore, the concrete core is collected by drilling the back surface of the concrete roof with the core bit.

  According to this concrete sampling device, the support is disposed so as to pass from the upper side to the lower side of the concrete roof through the through hole of the concrete roof. And under the concrete roof, the tip of the core bit supported by the support body faces the back surface of the concrete roof. Therefore, by operating the driving device and the feeding device from the upper side of the concrete roof, the core bit rotates and proceeds to the concrete roof side, and a concrete core can be collected by drilling the back surface of the concrete roof.

  Further, the concrete sampling device according to the invention of claim 2 is the concrete sampling device according to claim 1, wherein the concrete drilling powder is operated from above the concrete roof and is cut by drilling with the core bit. Equipped with a dust collector. By providing the dust collecting device in the concrete collecting device, it is possible to prevent the concrete drilling powder cut by drilling with the core bit from falling downward.

  Further, the concrete sampling device according to the invention of claim 3 is a concrete sampling device for collecting the concrete of the back surface portion of the concrete roof, and the concrete sampling device has a through hole formed through the concrete roof. A support that is detachably disposed on the concrete roof so as to cross from the upper side to the lower side of the concrete roof, a drill bit as a bit, a driving device, a feeding device, and a dust collecting device. Prepare. Here, the drill bit is supported by the support body on the lower side of the concrete roof, and has a tip facing the back surface of the concrete roof and drilling the back surface. The drive device is operated from the upper side of the concrete roof to apply a rotational force to the drill bit. The feeding device is operated from the upper side of the concrete roof to move the drill bit forward and backward relative to the concrete roof. The dust collector collects the drilling powder of the concrete which is operated from the upper side of the concrete roof and is cut by drilling with the drill bit, and the collected drilling powder is the concrete powder. Collected as

  According to this concrete sampling device, the support is disposed so as to pass from the upper side to the lower side of the concrete roof through the through hole of the concrete roof. And the drill bit supported by the support body under the concrete roof has a tip facing the back surface of the concrete roof. Therefore, by operating the driving device, feeding device, and dust collector from the upper side of the concrete roof, the drill bit rotates and proceeds to the concrete roof side, and the back surface of the concrete roof is drilled. It is possible to collect the drilling powder of concrete, and the collected drilling powder can be collected as concrete powder.

  A concrete sampling device according to a fourth aspect of the present invention is the concrete sampling device according to any one of the first to third aspects, wherein the drive device is an electric drill provided on the upper side of the concrete roof. And a transmission device for transmitting the rotation of the electric drill to the bit. Thus, by providing the electric drill for rotating the bit on the upper side of the concrete roof, it is possible to simplify the configuration for arranging the electric drill on the lower side of the concrete roof.

  Moreover, the concrete sampling device according to the invention described in claim 5 is the concrete sampling device according to any one of claims 1 to 3, wherein the support is a column that stands above the concrete roof; The support body is attached to the support column and extends to the lower side of the concrete roof through the through hole, and the bit is supported by the support body. And the said feeder is provided with the said support | pillar, the said support body main body, and the moving means which moves the support body main body along the said support | pillar, and the said support body main body moves along the said support | pillar. The bit supported by the support body moves forward and backward.

  The concrete sampling device according to the invention described in claim 6 is the concrete sampling device according to claim 5, wherein the driving device is configured to rotate an electric drill provided on an upper side of the concrete roof and the electric drill. And a transmission device for transmitting to the bit. The support body is formed in a cylindrical shape, and the transmission device is accommodated in the support body. Thus, by providing the electric drill for rotating the bit on the upper side of the concrete roof, it is possible to simplify the configuration for arranging the electric drill on the lower side of the concrete roof. And it can prevent that a transmission apparatus interferes with a peripheral member by accommodating a transmission apparatus in the inside of a support body.

  Moreover, the concrete sampling device according to the invention described in claim 7 is the concrete sampling device according to claim 5 or 6, wherein the support is provided on the concrete roof so as to rise from a peripheral edge of the through hole. A fixed body that sandwiches the standing wall is provided, and the support column is fixed to the fixed body. Thus, the support can be easily installed by holding the standing wall provided at the peripheral edge of the through hole.

  The concrete sampling device according to the invention described in claim 8 is the concrete sampling device according to any one of claims 1 to 7, wherein the concrete roof is a roof in a container structure, and The hole is an inspection hole, a human hole, or a material carry-in hole of the container structure.

  The concrete sampling method according to the invention described in claim 9 is a concrete sampling method for sampling the concrete on the back surface portion of the concrete roof in the container structure. In this concrete collecting method, the support is arranged so as to cross from the upper side to the lower side of the concrete roof through an inspection hole, a manhole or a material carry-in hole formed through the concrete roof. Then, by operating from the upper side of the concrete roof, a rotational force is applied to the core bit supported by the support body on the lower side of the concrete roof, and the core bit is advanced to the concrete roof side, and the concrete roof A concrete core is collected by drilling the back of the core.

  The concrete sampling method according to the invention described in claim 10 is the concrete sampling method according to claim 9, wherein, in addition to the sampling of the concrete core, the concrete sampling method is operated from the upper side of the concrete roof, When the back surface of the concrete roof is drilled, the collected drilling powder is collected as concrete powder by collecting the concrete drilling powder cut by the drilling.

  The concrete sampling method according to the invention described in claim 11 is a concrete sampling method for sampling the concrete on the back surface portion of the concrete roof in the container structure. In this concrete collecting method, the support is arranged so as to cross from the upper side to the lower side of the concrete roof through an inspection hole, a manhole or a material carry-in hole formed through the concrete roof. And by operating from the upper side of the concrete roof, while applying a rotational force to the drill bit supported by the support body on the lower side of the concrete roof, the drill bit is advanced to the concrete roof side, The back surface of the concrete roof is drilled, and the concrete drilling powder cut by the drilling is collected to collect the collected drilling powder as concrete powder.

  According to the concrete sampling apparatus and the concrete sampling method according to the present invention, the concrete for inspection for confirming the progress of deterioration of the concrete roof, that is, the concrete core or the concrete powder is collected by work on the concrete roof. Therefore, the concrete core or concrete powder can be collected sequentially.

It is a fragmentary sectional view of the concrete roof before drilling which has arranged the concrete extraction device of one embodiment of this invention. Similarly, it is a fragmentary sectional view of the concrete roof after drilling. Similarly, it is a principal part expanded sectional view in FIG.

  EMBODIMENT OF THE INVENTION Hereinafter, the form for implementing the concrete extraction apparatus and concrete extraction method which concern on this invention is demonstrated based on drawing.

  1 to 3 show an embodiment of the present invention. Reference numeral 1 in the figure denotes a concrete roof. 1 a is a through hole formed through the concrete roof 1. Reference numeral 2 denotes a concrete collecting device for collecting the concrete on the back surface 1b portion of the concrete roof 1.

  The concrete sampling device 2 includes a support 3 that is detachably disposed on the concrete roof 1 so as to pass from the upper side 101 to the lower side 102 of the concrete roof 1 through the through hole 1a of the concrete roof 1. The concrete sampling device 2 includes a core bit 4 a as a bit 4, a driving device 5, and a feeding device 6. Here, the core bit 4a as the bit 4 is supported by the support 3 on the lower side 102 of the concrete roof 1, and the front end faces the back surface 1b of the concrete roof 1, and the back surface 1b is drilled. . The driving device 5 is operated from the upper side 101 of the concrete roof 1 and applies a rotational force to the core bit 4a. The feeding device 6 is operated from the upper side 101 of the concrete roof 1 to move the core bit 4a forward and backward relative to the concrete roof 1 (specifically, the back surface 1b of the concrete roof 1). Therefore, the concrete core 1x is collected by drilling the back surface 1b of the concrete roof 1 with the core bit 4a.

  Moreover, the concrete sampling device 2 includes a dust collecting device 7. This dust collector 7 is operated from the upper side 101 of the concrete roof 1 and collects the concrete drilling powder cut by the drilling by the core bit 4a (bit 4) (that is, the drilling of the back surface 1b of the concrete roof 1). It is dusty. Then, the collected drilling powder is collected as concrete powder.

  Specifically, the support 3 is a support 3 a that stands on the upper side 101 of the concrete roof 1, and a support that is attached to the support 3 a and passes through the through hole 1 a of the concrete roof 1 and extends to the lower side 102 of the concrete roof 1. The body bit 3a is supported by the support body 3b. The feeding device 6 includes the support column 3a, the support body 3b, and moving means (not shown) for moving the support body 3b along the support 3a. , The core bit 4a (bit 4) supported by the support body 3b moves forward and backward.

  The drive device 5 includes an electric drill 5a provided on the upper side 101 of the concrete roof 1, and a transmission device 5b that transmits the rotation of the electric drill 5a to the core bit 4a (bit 4). The support body 3b is formed in a cylindrical shape, and the transmission device 5b is accommodated in the support body 3b.

  The concrete roof 1 is provided with a standing wall 1c so as to rise from the periphery of the through hole 1a. Therefore, the support body 3 includes a fixed body 3c that sandwiches the upright wall 1c, and the column 3a is fixed to the fixed body 3c.

  Specifically, the concrete roof 1 includes a distribution reservoir, a raw water adjustment pond, a pressure adjustment pond, a tank such as a farm pond or a sewage treatment layer (for example, a prestressed concrete tank), a silo such as a coal silo or a grain silo, and other containers. It is the roof in the structure. And the said through-hole 1a consists of an inspection hole, a human hole, or a material carrying-in hole of a container structure.

  In the support body 3, the support body 3 b is formed in a cylindrical shape with a square cross section by joining two U-shaped frames, for example, so that both ends of the U-shaped cross section are abutted. The In the illustrated embodiment, the support body 3b includes an upper support member 3d extending laterally above the upper portion 101 of the concrete roof 1, a lower support member 3e extending laterally below the lower portion 102 of the concrete roof 1, and the upper support members 3d. An intermediate support member 3f that connects one end of the support member 3e and the lower support member 3e and passes through the through hole 1a is formed, and the extending shape is formed in a substantially U-shape.

  Moreover, this support body 3b is attached to the support | pillar 3a through the to-be-guided member 3g. The guided member 3g is formed in a cylindrical shape and is slidably fitted to the column 3a. Then, the support body 3b is connected and fixed to the side surface of the guided member 3g, so that the support body 3b can move along the column 3a. In addition, the fixed body 3c in the support body 3 includes a fixed body main body 3h that sandwiches the distal end portion of the upright wall 1c in the thickness direction, a pedestal 3i into which the support 3a is inserted and fixed, and a fixed body main body 3h and the pedestal 3i. And an arm 3j connecting the two.

  In the feeding device 6, the moving means is not shown in the figure, but includes, for example, a rack and pinion mechanism (that is, a rack on the column 3 a side and a pinion on the guided member 3 g side), and rotates the pinion. Thus, the support body 3b can be moved along the column 3a (that is, up and down). Specifically, a handle is connected to the pinion directly or via a gear, and the support body 3b can be moved along the support 3a by rotating the handle. However, even if the pinion is not rotated by rotating the handle, the pinion may be rotated using power.

  In the drive device 5, the transmission device 5b includes a shaft 5c that rotates around an axis in accordance with the rotation of the electric drill 5a (specifically, the rotation shaft of the electric drill 5a). For the transmission device 5b, an angle conversion joint 5d for changing the transmission direction and a straight joint 5e for connecting members such as the shaft 5c in a straight line are used as appropriate. At the final position of transmission by the transmission device 5b, the core bit 4a (bit 4) is connected to the angle conversion joint 5d via the straight joint 5e. The angle conversion joint 5d has a case for accommodating the internal structure, and the case is connected to the support body 3b (specifically, the lower support member 3e). That is, the core bit 4a (bit 4) is supported by the support body 3b (support body 3) via the angle conversion joint 5d (specifically, the case of the angle conversion joint 5d).

  The dust collector 7 contains, for example, a cover 7a that covers the core bit 4a (specifically, the bit 4), a dust collector 7b that collects concrete drilling powder, and drilling powder collected by the dust collector 7b. A dust collecting container 7c, a connecting pipe 7d connecting the cover 7a and the dust collector 7b, an exhaust pipe 7e for sending the air discharged from the dust collector 7b to the upper side 101 of the concrete roof 1, and a tip of the exhaust pipe 7e. A suction machine (not shown) for sucking and exhausting the air. Here, the cover 7a has a cylindrical shape, and its peripheral surface is formed in a bellows shape, and can be expanded and contracted in the axial direction. The upper end of the cover 7 a is opened, and the upper end of the cover 7 a abuts against the back surface 1 b of the concrete roof 1. Moreover, the dust collector 7b is attached to the upper surface of the dust container 7c, and the dust container 7c is suspended by the lower support material 3e (support body 3b) via the suspension material 7f.

  Next, a concrete sampling method will be described. This concrete collecting method is a concrete collecting method for collecting concrete on the back surface 1b portion of the concrete roof 1 (specifically, the concrete roof in the container structure). In this concrete collecting method, the support 3 is passed from the upper side 101 to the lower side 102 of the concrete roof 1 through a through hole 1a (specifically, an inspection hole, a human hole, or a material carrying hole) formed through the concrete roof 1. Arrange to cross. Then, by operating from the upper side 101 of the concrete roof 1, a rotational force is applied to the core bit 4 a as the bit 4 supported by the support 3 on the lower side 102 of the concrete roof 1, and the core bit 4 a is attached to the concrete roof 1 side. The concrete core 1x is sampled by drilling the back surface 1b of the concrete roof 1 in advance.

  Further, in this concrete sampling method, in addition to sampling the concrete core 1x, when the rear surface 1b of the concrete roof 1 is drilled by the core bit 4a by operating from the upper side 101 of the concrete roof 1, the drilling is performed by the drilling. The collected drilling powder is collected as concrete powder by collecting the collected drilling powder.

  In the illustrated embodiment, the concrete sampling apparatus 2 described above is used for sampling concrete by this concrete sampling method. That is, a rotational force is applied to the core bit 4a (bit 4) by the driving device 5, and the core bit 4a (bit 4) is advanced to the concrete roof 1 side by the feeding device 6. The dust collector 7 collects the drilled concrete drilling powder. Specifically, after drilling the back surface 1b of the concrete roof 1 using the core bit 4a, the support body 3b is shaken, or the core bit 4a side is provided with a protruding portion that pushes into the drilled hole, etc. The concrete core 1x in the core bit 4a is separated from the concrete roof 1. And the support body 3b is pulled up from the through hole 1a together with the core bit 4a and the dust collector 7. Thus, the concrete core 1x and concrete powder are collected.

  Next, the effects of the concrete sampling device 2 and the concrete sampling method configured as described above will be described. The support 3 in the concrete collecting device 2 is arranged so as to pass from the upper side 101 to the lower side 102 of the concrete roof 1 through the through hole 1a (specifically, the inspection hole, the human hole or the material carry-in hole) of the concrete roof 1. Is done. And, on the lower side 102 of the concrete roof 1, the core bit 4 a (bit 4) supported by the support body 3 faces the back surface 1 b of the concrete roof 1. Therefore, by operating the driving device 5 and the feeding device 6 from the upper side 101 of the concrete roof 1, the core bit 4a rotates and proceeds to the concrete roof 1 side, and the back surface 1b of the concrete roof 1 is drilled to make the concrete core 1x. Can be collected.

  Further, since the concrete collecting device 2 includes the dust collecting device 7, the concrete drilling powder cut by the drilling by the core bit 4a (bit 4) is collected by the dust collecting device 7, and the drilling powder is converted into the drilling powder. It is possible to prevent falling down, and further, by collecting the concrete drilling powder, the drilling powder can be collected as concrete powder.

  As described above, according to the concrete sampling device 2 and the concrete sampling method, the concrete for inspection for confirming the progress of deterioration of the concrete roof 1, that is, the concrete core 1 x or the concrete powder is applied to the concrete roof 1. Since it can be sampled by work, the concrete core 1x or concrete powder can be sampled sequentially.

  The driving device 5 for applying a rotational force to the core bit 4a (bit 4) includes an electric drill 5a provided on the upper side 101 of the concrete roof 1, and a transmission device 5b for transmitting the rotation of the electric drill 5a to the core bit 4a. Prepare. Thus, by providing the electric drill 5 a for rotating the core bit 4 a on the upper side 101 of the concrete roof 1, it is possible to simplify the configuration of arranging the electric drill 5 a on the lower side 102 of the concrete roof 1. And by accommodating the transmission apparatus 5b in the inside of the support body 3b, it is possible to prevent the transmission apparatus 5b from interfering with surrounding members.

  In addition, the support 3 includes a fixed body 3c that sandwiches an upright wall 1c provided at the periphery of a through hole 1a (specifically, an inspection hole, a human hole, or a material carry-in hole). Fixed. In this way, the fixed body 3c sandwiches the standing wall 1c, so that the column 3a can be easily installed.

  In addition, this invention is not necessarily limited to embodiment mentioned above, A various other change is possible. For example, the concrete roof 1 may not be a roof in a container structure, but may be a roof in another structure such as a building.

  Further, in the driving device 5, the rotational force of the electric drill 5a provided on the upper side 101 of the concrete roof 1 is transmitted to the core bit 4a (bit 4) by the transmission device 5b. It may be provided on the side 102 to transmit the rotational force of the electric drill 5a directly to the core bit 4a. At this time, the electric drill 5 a is supported by the support 3. And the core bit 4a will be supported by the support body 3 via the electric drill 5a.

  Further, in the dust collector 7, the dust collector 7 b and the dust container 7 c are provided on the lower side 102 of the concrete roof 1, but the dust collector 7 b and the dust container 7 c are provided on the upper side 101 of the concrete roof 1. At the same time, the connecting pipe 7 d may be extended to the upper side 101 of the concrete roof 1.

  The bit 4 for drilling the back surface 1b of the concrete roof 1 may be a drill bit instead of the core bit 4a. That is, the drill bit as the bit 4 is supported by the support 3 on the lower side 102 of the concrete roof 1, and the front end faces the back surface 1 b of the concrete roof 1 to drill the back surface 1 b. However, when a drill bit is used as the bit 4, the concrete core 1x cannot be collected, and only concrete powder is collected. That is, the concrete drilling powder cut by drilling with a drill bit is collected by the dust collector 7, and the collected drilling powder is collected as concrete powder. In the concrete sampling method, the support 3 is arranged as described above, and then operated from the upper side 101 of the concrete roof 1, so that the bit 4 supported by the support 3 on the lower side 102 of the concrete roof 1. As the drill bit is rotated, the drill bit is advanced to the concrete roof 1 side, the back surface 1b of the concrete roof 1 is drilled, and the drilling powder of the concrete cut by the drilling hole is collected. As a result, the collected drilling powder is collected as concrete powder.

DESCRIPTION OF SYMBOLS 1 Concrete roof 1a Through-hole 1b Back surface 1c Standing wall 1x Concrete core 101 Upper side 102 Lower side 2 Concrete sampling device 3 Support body 3a Support | pillar 3b Support body 3c Fixed body 4 Bit 4a Core bit 5 Drive device 5a Electric drill 5b Transmission device 6 Feed Device 7 Dust collector

Claims (11)

A concrete collecting device for collecting concrete on the back surface of a concrete roof,
A support body that is detachably disposed on the concrete roof so as to pass from the upper side to the lower side of the concrete roof through a through-hole formed in the concrete roof.
A core bit as a bit that is supported by the support on the lower side of the concrete roof and has a tip facing the back surface of the concrete roof and drilling the back surface,
A driving device that is operated from the upper side of the concrete roof to apply a rotational force to the core bit;
A feeding device that is operated from above the concrete roof to move the core bit forward and backward with respect to the concrete roof;
A concrete sampling apparatus in which a concrete core is sampled by drilling a back surface of the concrete roof by the core bit.   The concrete collecting device according to claim 1, further comprising a dust collecting device that collects the drilling powder of the concrete that is operated from above the concrete roof and is cut by drilling with the core bit. A concrete collecting device for collecting concrete on the back surface of a concrete roof,
A support body that is detachably disposed on the concrete roof so as to pass from the upper side to the lower side of the concrete roof through a through-hole formed in the concrete roof.
A drill bit as a bit that is supported by the support on the lower side of the concrete roof and has a tip facing the back surface of the concrete roof and drilling the back surface,
A driving device that is operated from the upper side of the concrete roof and applies a rotational force to the drill bit;
A feeder that is operated from above the concrete roof to move the drill bit forward and backward with respect to the concrete roof;
A dust collector that collects the drilling powder of the concrete that is operated from the upper side of the concrete roof and is cut by drilling with the drill bit;
Concrete collecting equipment that collects the collected drilling powder as concrete powder.   The concrete drive device according to any one of claims 1 to 3, wherein the driving device includes an electric drill provided on an upper side of the concrete roof, and a transmission device that transmits rotation of the electric drill to the bit. . The support includes a support column that stands on the upper side of the concrete roof, and a support body that is attached to the support column and extends to the lower side of the concrete roof through the through hole. Bit supported,
The feeding device includes the support, the support body, and a moving unit that moves the support body along the support, and the support body moves along the support. The concrete sampling apparatus according to any one of claims 1 to 3, wherein the bit supported by the support body moves forward and backward. The drive device includes an electric drill provided on the upper side of the concrete roof, and a transmission device that transmits rotation of the electric drill to the bit.
The concrete collecting device according to claim 5, wherein the support body is formed in a cylindrical shape, and the transmission device is accommodated in the support body.   The said support body is equipped with the fixing body which clamps the standing wall provided in the said concrete roof so that it may stand up from the periphery of the said through-hole, and the said support | pillar is fixed to the fixing body. Concrete sampling equipment. The concrete roof is a roof in a container structure,
The concrete sampling device according to any one of claims 1 to 7, wherein the through hole is an inspection hole, a human hole, or a material carry-in hole of the container structure. A concrete collecting method for collecting concrete on a back surface portion of a concrete roof in a container structure,
The support is disposed so as to cross from the upper side to the lower side of the concrete roof through an inspection hole, a human hole or a material carry-in hole formed through the concrete roof.
By operating from the upper side of the concrete roof, a rotational force is applied to the core bit supported by the support body on the lower side of the concrete roof, and the core bit is advanced to the concrete roof side, and the back surface of the concrete roof A concrete sampling method in which a concrete core is sampled by drilling a hole.   In addition to collecting the concrete core, by operating from the upper side of the concrete roof, when the back surface of the concrete roof is drilled by the core bit, the drilling powder of the concrete cut by the drilling hole is collected. The concrete sampling method according to claim 9, wherein the collected drilling powder is collected as concrete powder. A concrete collecting method for collecting concrete on a back surface portion of a concrete roof in a container structure,
The support is disposed so as to cross from the upper side to the lower side of the concrete roof through an inspection hole, a human hole or a material carry-in hole formed through the concrete roof.
By operating from the upper side of the concrete roof, a rotational force is applied to the drill bit supported by the support body on the lower side of the concrete roof, and the drill bit is advanced to the concrete roof side, whereby the concrete roof A concrete collecting method in which the back surface of the material is drilled, and the drilled powder of the concrete cut by the drilled hole is collected to collect the collected drilled powder as concrete powder.

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