JP2003105977A - Removal method of floor embedded drain funnel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a removal method of a floor embedded drain funnel allowing the removal of the old floor embedded drain funnel without damaging reinforcements, piping, or the like. SOLUTION: A main shaft 30 is rotatably disposed on the center axis of the drain funnel 12. A cutting tool holder 40 holding a cutting tool 42 is liftably mounted to the main shaft 30, and the main shaft 30 is rotationally driven by a motor 32. The cutting tool holder 42 thereby descends gradually while rotating and repeats cutting a large diameter part 14 of the drain funnel 12 over the whole periphery until it is in a thin skin state. As for a small diameter part 18, the cutting tool holder 42 is replaced with a small-diameter cutting tool holder 60 to repeat cutting over the whole periphery in the same way until it is in a thin skin state. After cutting, the left thin skins 14a, 18a are taken off and removed with a chisel and a hammer or the like.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for removing a floor-embedded drain funnel which is buried through a reinforced concrete floor in a building of a power plant or the like,
This is to prevent damage to the reinforcing bars and electric wiring pipes buried around the floor drain drain funnel.

[0002]

2. Description of the Related Art In a building of a power plant such as a nuclear power plant, a plurality of drain ports called drain funnels are buried through the floor to discharge water spilled on the floor made of reinforced concrete. There is. Since the drain funnel is made of iron, etc., it may deteriorate considerably due to rust etc. after long-term use.In that case, it is necessary to remove the old drain funnel and replace it with a new one. . As a method for removing the old drain funnel, there is a method described in Japanese Patent Application Laid-Open No. 2000-56079, which is an application of the present applicant. This is a cylindrical bit (blade) on the reinforced concrete floor around the drain funnel.
It was made to be hollowed out in a cylindrical shape and removed.

[0003]

In some cases, reinforcing bars and pipes for electrical wiring that constitute a reinforced concrete floor are buried in the immediate vicinity of the drain funnel. In the conventional method, the reinforced concrete floor around the drain funnel is Since it is hollowed out, there is a risk of damaging these reinforcing bars and pipes. This invention intends to solve the problems in the prior art and provide a method for removing a floor buried drain funnel capable of removing an old floor buried drain funnel without damaging reinforcing bars, pipes and the like. Is.

[0004]

SUMMARY OF THE INVENTION According to the present invention, a large-diameter portion having a relatively large-diameter opening is embedded in a reinforced concrete floor and is embedded in the upper portion, and is communicated below the large-diameter portion. A method of removing a floor-embedded drain funnel that is configured with a small-diameter portion having a small-diameter opening, wherein the large-diameter portion is cut with a cutting tool from its inner peripheral surface side to be thinned and removed (for example, The entire thickness direction is cut and removed until the concrete is exposed, or the thin skin is cut to an appropriate thickness and then the thin skin is peeled off and removed.). According to this, since the large-diameter portion is cut from the inner peripheral surface side with a cutting tool to be thinned and removed, even if reinforcing bars or pipes are buried in the immediate vicinity of the large-diameter portion, these reinforcing bars and The large diameter portion can be removed without damaging the pipe or the like. In this removal method, for example, a cutting tool is used as the cutting tool, the cutting tool is rotatably arranged in the large diameter section with the central axis of the large diameter section as the rotation center, and the turning diameter at the tip position of the cutting tool is set. The large diameter portion is set larger than the inner diameter of the large diameter portion by an appropriate amount of cutting in the radial direction, and is gradually moved in the direction along the central axis while rotating the cutting tool about the central axis. Can be cut. Further, the cutting tool is moved once from a predetermined cutting start position in a direction along the central axis to a predetermined cutting end position to perform one cutting, then the cutting tool is returned to the cutting start position, and the cutting tool tip is moved. By increasing the turning diameter of the position by an appropriate cutting amount in the radial direction and performing the next cutting, the cutting from the cutting start position to the cutting end position is repeatedly performed to gradually increase the large diameter portion. It can be thinned. Also, the cutting of the large-diameter portion is finished with a thin skin of an appropriate thickness left,
After that, the thin skin can be cut and removed with a cutter such as a cutter.

According to the present invention, a large diameter portion having a relatively large diameter opening is embedded in a reinforced concrete floor and is embedded in the upper portion, and has a relatively small diameter opening communicating with it. A method for removing a floor-embedded drain funnel in which a small-diameter portion is configured, in which the small-diameter portion is cut with a cutting tool from its inner peripheral surface side to be thinned and removed (for example,
The entire thickness direction is cut and removed until the concrete is exposed, or the thin skin is cut to an appropriate thickness and then the thin skin is peeled and removed. ). According to this, since the small-diameter portion is cut from the inner peripheral surface side with a cutting tool to be thinned and removed, even if reinforcing bars and pipes are buried in the immediate vicinity of the small-diameter portion, these reinforcing bars and pipes, etc. The small diameter portion can be removed without damaging the. In this removal method, for example, a cutting tool is used as the cutting tool, the cutting tool is rotatably arranged in the small diameter section with the central axis of the small diameter section as a rotation center, and the turning diameter at the tip position of the cutting tool is the small diameter. The larger diameter is set to be larger than the inner diameter of the portion by an appropriate cutting amount, and the small diameter portion is cut by gradually moving the cutting tool in the direction along the central axis while rotating the cutting tool around the central axis. be able to. Further, the cutting tool is moved once from a predetermined cutting start position in a direction along the central axis to a predetermined cutting end position to perform one cutting, then the cutting tool is returned to the cutting start position, and the cutting tool tip is moved. By increasing the turning diameter of the position by an appropriate cutting amount in the radial direction and performing the next cutting, and repeatedly performing the cutting from the cutting start position to the cutting end position, the small diameter portion is gradually increased. It can be thinned. Further, the cutting of the small-diameter portion can be terminated while leaving a thin skin having an appropriate thickness, and then the thin skin can be cut and removed with a cutter such as a cutter.

According to the present invention, a large-diameter portion having a relatively large-diameter opening is embedded in a reinforced concrete floor so as to be embedded in the upper portion thereof, and has a relatively small-diameter opening communicating therewith. A method for removing a floor-embedded drain funnel having a small-diameter portion, in which the large-diameter portion and the small-diameter portion are each cut from the inner peripheral surface side with a cutting tool to reduce the wall thickness (for example, concrete is exposed). The entire thickness direction is cut and removed, or the thin skin is cut to an appropriate thickness and then the thin skin is peeled off and removed. According to this, since the large diameter portion and the small diameter portion are respectively cut from the inner peripheral surface side with a cutting tool to be thinned and removed, reinforcing bars and pipes are buried in the immediate vicinity of the large diameter portion and the small diameter portion. However, the large-diameter portion and the small-diameter portion can be removed without damaging the reinforcing bars and pipes. In this removal method, for example, a cutting tool is used as the cutting tool, and a spindle is disposed on the central axis common to the large diameter portion and the small diameter portion in the large diameter portion and the small diameter portion, and the tool holder is attached to the spindle. And holding the bite in the bite holder, and moving the bite holder in a linear direction along the axial direction of the main shaft and in a rotation direction about the main shaft to perform the cutting, the large diameter portion. Can be performed by using a relatively large-diameter bite holder and by cutting a small-diameter portion with a relatively small-diameter bite holder. Further, after removing the large diameter portion and the small diameter portion, the connecting portion between the large diameter portion and the small diameter portion can be cut and removed.

[0007]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below. FIG. 1 shows the arrangement of a cutting machine when cutting a large diameter part of a drain funnel. The reinforced concrete floor 10 is, for example, a floor in a building of a power plant. The drain funnel 12 is made of iron, for example, and has a cylindrical large-diameter portion 14 formed on the upper portion thereof.
A lower end portion of the large diameter portion 14 is connected to an outer peripheral edge portion of a flat plate annular connecting portion 16, and a cylindrical small diameter portion 18 is connected to an inner peripheral edge portion of the connecting portion 16. The large-diameter portion 14 and the small-diameter portion 18 are arranged coaxially, and their internal spaces communicate with each other. The large diameter portion 14 has, for example, an outer diameter 210 to 2
The diameter of the small-diameter portion 18 is, for example, 70 to 100 mm, and the wall thickness is 5 to 8 m.
It is configured to about m. The drain funnel 12 is embedded in the floor 10 so as to penetrate between the upper surface 10a and the lower surface 10b of the floor 10. The upper opening 20 of the large-diameter portion 14 opens in the upper surface 10 a of the floor 10 in the upper floor space 21. Small diameter part 1
8 is led from the lower surface 10b of the floor 10 to an appropriate drainage facility through the lower floor space 22.

When removing the drain funnel 12, as shown in FIG.
Cut at an appropriate place exposed on the. Then, a plurality of (for example, four) base plates 23 are fixed on the floor 10 so as to surround the upper opening 20 of the drain funnel 12. An adjusting bolt 24 and a guide shaft 25 are erected on the base plate 23, and a base member 26 is supported by the adjusting bolt 24 and the guide shaft 25. An upper part of a main shaft 30 is rotatably supported by the base member 26. The main shaft 30 is rotationally driven by a motor 32 attached to the base member 26. The motor 32 is drive-controlled by a control board 34. Spindle 3
0 is inserted into the drain funnel 12 and arranged coaxially with the drain funnel 12. A lower fixing device 36 (clamper) is rotatably attached to the lower end of the main shaft 30. In the lower fixing device 36, a plurality of (for example, 3 to 4) projecting tools 38 are arranged at equal intervals in the circumferential direction so as to project from the outer peripheral surface thereof. Each protrusion 38
The amount of protrusion is adjusted evenly by operating a cam member housed in the lower fixing device 36, and is pressed against and brought into contact with the inner peripheral surface near the lower end of the small-diameter portion 18, and the main shaft 3
The lower end of 0 is rotatably supported on the central axis of the drain funnel 12. A tool holder 40 (a large-diameter tool holder for cutting a large-diameter portion) is supported on the main shaft 30 so as to be vertically movable with respect to the main shaft 30 and to be rotatable integrally with the main shaft 30. Tool holder 40 has two tool bits 4
2 are held in symmetrical positions with the main shaft 30 in between. The height of the tip portion (processed portion) of the cutting tool 42 and the outward projection length (that is, the turning diameter) can be individually adjusted for each cutting tool 42. When the motor 32 is driven, the main shaft 30 rotates. At this time, the bite holder 40 rotates with the main shaft 30 and descends by a predetermined feed amount per rotation. At this time, the turning diameter of the tip of the cutting tool 42 is set to be larger than the inner diameter of the large diameter portion 14 by an appropriate cutting amount in the radial direction, so that the large diameter portion 14 is cut with a thickness corresponding to the cutting amount in the radial direction. can do. Also, two bytes 4
By making the heights of 2 equal, the amount of cutting by the individual cutting tools 42 in the axial direction can be reduced to 1/2 of the feed amount per one rotation of the cutting tool holder 40.

An example of a mechanism for lowering the bite holder 40 while rotating it is shown in FIG. A gear 45 that transmits the driving force of the motor 32 is coaxially fixed to the upper portion of the main shaft 30. An internal gear 44, which is coaxial with the main shaft 30, is rotatably supported on the lower surface of the base member 26 separately from the main shaft 30. The internal gear 44 is made non-rotatable by an appropriate lock mechanism (not shown) during cutting with a cutting tool. The support portions 46, 48 are provided on the upper and lower portions of the main shaft 30.
Is formed, and a feed screw 50 is provided between the support portions 46 and 48.
Is rotatably supported in parallel with the main shaft 30. An external gear 52 is coaxially fixed to the upper portion of the feed screw 50. The external gear 52 meshes with the internal gear 44 as shown in FIG. 3 which shows a cross section taken along the line AA of FIG.
A through hole 54 is formed on the central axis of the bite holder 40 as shown in FIG. 4 showing a cross section taken along the line BB of FIG. 2, and the spindle 30 is slidable in the axial direction in the through hole 54. Has been inserted into. In the bite holder 40, on the side of the through hole 54,
A female screw 56 is formed so as to penetrate vertically in parallel with the through hole 54, and the feed screw 50 is screwed into the female screw 56. Two cutting tools 42 are provided on the outer peripheral surface of the cutting tool holder 40.
Are arranged symmetrically with respect to the main shaft 30, and the bite 42
Adjustable cap screw 5 for adjusting the height and turning diameter of the tip of the
It is pressed and held at 8. The heights of the two cutting tools 42 are set to be equal, and the turning diameter of the tip of each cutting tool 42 is larger than the inner diameter of the large diameter section 14 by an appropriate cutting amount (for example, 2).
It is set larger by about 4 mm). With the above configuration, when the rotation of the internal gear 44 is locked and the motor 32 is driven in the predetermined direction, the main shaft 30 rotates together with the bite holder 40, whereby the external gear 52 meshes with the internal gear 44. As the feed screw 50 connected to the external gear 52 rotates, the feed screw 50 rotates, the tool holder 40 rotates and descends along the main shaft 30, and the two tools 42 cause the inner peripheral surface of the large-diameter portion 14 to move. To be cut. Tool holder 1 of 40
The feed amount per rotation can be set to, for example, about 0.1 mm / rotation. A procedure for removing the entire drain funnel 12 using the cutting machine of FIG. 1 will be described.

(1) Cutting of large-diameter portion By the method described above, the rotation of the internal gear 44 is locked, and the turning tool 40 is driven by the motor 32 to be lowered while being swung to lower the large-diameter portion 14. From the upper opening end to the lower end (the boundary with the connecting part 16 or the vicinity thereof)
Up to the entire circumference. After cutting to the lower end,
The motor 32 is stopped, the lock of the internal gear 44 is released, and the internal gear 44 is rotationally driven by an appropriate drive mechanism (for example, a mechanism that transmits the driving force of the manual handle to the internal gear 44). As a result, the external gear 52 rotates on the spot while the main shaft 30 stops rotating, and the bite holder 40 rises. When the bite holder 40 returns to the initial position (position above the upper opening end of the large diameter portion 14), the turning diameter of the tip end of the bite 42 is increased by a predetermined amount to lock the rotation of the internal gear 44, The motor 32 is driven to repeat the cutting. In this case, the large diameter portion 14 can be removed by cutting over the entire thickness direction until the concrete is exposed, but in that case, the cutting tool 42 may hit the concrete of the reinforced concrete floor 10 and damage the cutting edge of the cutting tool 42. Therefore, it is desirable to finish the cutting of the large-diameter portion 14 with the large-diameter portion 14 left in a thin skin shape having a thickness that can be peeled off.

(2) Cutting of large-diameter portion skin When the cutting of the large-diameter portion 14 is completed, the cutting tool 42 is removed from the cutting tool holder 40 and a cutter (for example, a roller cutter) is attached to one of the cutting tool holding portions. The amount of protrusion of the cutter is set to such an amount that the thin skin 14a (FIG. 5) of the large-diameter portion 14 can be just cut. In this state, the internal gear 44 is unlocked, and the internal gear 44 is rotationally driven by the drive mechanism while the motor 32 is stopped. As a result, the external gear 52 rotates on the spot, the tool holder 40 descends,
The cutter vertically cuts the thin skin 14a from its upper end to its lower end or near the lower end.

(3) Cutting of small diameter part Next, the bite holder 40 is removed from the spindle 30, and instead, as shown in FIG. 5, a small diameter bite holder 60 for cutting the small diameter part is attached to the spindle 30. Tool holder 60
The structure of is the same as that of the cutting tool holder 40 for cutting the large diameter part except that the diameter thereof is small.
It is held in a symmetrical position with the pinch in between. The heights of the tips of the two cutting tools 62 are set to be equal, and the turning diameter is set to an appropriate cutting amount (for example, 2 to 4) in the radial direction with respect to the inner diameter of the small diameter portion 18.
mm) to increase. In this state, the internal gear 4
4 rotation is locked, and the bite holder 60 is set to the motor 32.
The small diameter portion 18
Is cut over the entire circumference from its upper opening end (boundary with the connecting portion 16) to the lowermost part where the bite holder 60 is movable. After cutting to the lower end, the motor 32 is stopped, the lock of the internal gear 44 is released, and the internal gear 44 is rotationally driven by the drive mechanism. As a result, the external gear 52 rotates on the spot while the main shaft 30 stops rotating, and the bite holder 60 rises. When the bite holder 60 returns to the initial position (the position above the upper opening end of the small diameter portion 18), the turning diameter of the tip end of the bite 62 is increased by a predetermined amount to lock the rotation of the internal gear 44, and the motor is rotated. 32 is driven and cutting is repeated. In this case, the small diameter portion 18 can be removed by cutting over the entire thickness direction until the concrete is exposed.
Since 2 may hit the concrete of the reinforced concrete floor 10 and damage the cutting edge of the cutting tool 62, it is desirable to finish the cutting of the small-diameter portion 18 with the small-diameter portion 18 left in the form of a thin skin that can be peeled off. FIG. 6 shows a state when the cutting of the small diameter portion 18 is completed. The small diameter portion 18 is
The thin skin 18a and the unfixed portion 18b due to the lower fixing device 36 are left. Further, the connecting portion 16 is left as it is.

(4) Cutting of small-diameter portion thin skin After the cutting of the small-diameter portion 18, the cutting tool 62 is removed from the cutting tool holder 60, and a cutter (for example, a roller cutter) is attached to one of the cutting tool holding portions. The amount of protrusion of the cutter is set to such an amount that the thin skin 18a of the small-diameter portion 18 can be just cut. In this state, the internal gear 44 is unlocked, and the internal gear 44 is rotationally driven by the drive mechanism while the motor 32 is stopped. As a result, the external gear 52 rotates on the spot, the bite holder 60 descends, and the cutter vertically cuts the thin skin 18a from its upper end to its lower end or near its lower end.

(5) Removal of thin skin Next, the cutting machine is removed, and the boundary portion 64 (FIG. 6) between the large-diameter portion thin skin 14a and the connecting portion 16 is cut all around by using a gas cutting machine or the like. The boundary portion 66 between the small-diameter portion thin skin 18a and the connecting portion 16 is cut over the entire circumference. Then, using a suitable tool (for example, a chisel and a hammer), the large-diameter portion thin skin 14a and the small-diameter portion thin skin 18a are sequentially peeled off and removed.

(6) Removal of joining portion After removing the large-diameter portion thin skin 14a and the small-diameter portion thin skin 17a, the connecting portion 16 is cut with a gas cutting machine to a size such that it can be removed (for example, a plane cross shape). Cut and divide into four pieces.), And remove the connecting portion 16. Alternatively, the connecting portion 16 may be left as it is without being removed, and a new drain funnel may be placed on the drain funnel.

(7) Installation of new drain funnel This completes the removal of the old drain funnel 12, and subsequently, as shown in FIG. 7, installs a new drain funnel 70 in the remaining communication hole 68. . At this time, concrete is filled in the gap between the communication hole 68 and the new drain funnel 70 to fill the gap and fix the new drain funnel 70 to the reinforced concrete floor 10.

In the embodiment described above, the cutting of the large-diameter portion 14 and the small-diameter portion 18 is terminated when they become a thin skin having an appropriate thickness, but the concrete is exposed. It is also possible to remove by cutting with a bite over the entire thickness direction. Further, in the above-described embodiment, the case where the present invention is applied to the floor of the building of the power generation plant has been described, but the present invention is also applied to the removal of the floor buried drain funnel buried in the reinforced concrete floor other than the power generation plant. can do.

[Brief description of drawings]

FIG. 1 is a view showing an embodiment of the present invention, showing an arrangement of cutting machines when cutting a large diameter portion of a drain funnel.

FIG. 2 is a diagram showing an example of a mechanism for lowering the bite holder while rotating it in the embodiment of FIG.

3 is a cross-sectional view taken along the line AA of FIG.

FIG. 4 is a sectional view taken along the line BB of FIG.

FIG. 5 is a view showing a step after FIG. 1, showing an arrangement of a cutting machine when cutting a small diameter portion of the drain funnel.

FIG. 6 is a view showing a step after FIG. 5, showing a state when the cutting of the small diameter portion 18 is completed.

7 is a diagram showing a step after FIG. 6, showing a state in which an old drain funnel is removed and a new drain funnel 70 is installed.

[Explanation of symbols]

10 ... Reinforced concrete floor, 14 ... Large diameter part, 16 ... Connection part, 18 ... Small diameter part, 12 ... Old floor buried drain funnel, 70 ... New floor buried drain funnel, 42, 62
... Cutting tool (bite), 14a ... Large-diameter thin skin, 18a
... Thin skin of small diameter part, 30 ... Spindle, 40 ... Bit holder for large diameter part, 60 ... Bit holder for small diameter part.

Continued front page    (72) Inventor Kazuyuki Hirata             551 Chuodai, Ozawa, Okuma Town, Futaba-gun, Fukushima Prefecture             Address No.6 in Able Co., Ltd. F-term (reference) 2E176 AA17 DD26

Claims (11)

[Claims] 1. A reinforced concrete floor is penetrated and buried,
A method for removing a floor buried drain funnel in which a large-diameter portion having a relatively large-diameter opening is formed in the upper portion, and a small-diameter portion having a relatively small-diameter opening is formed in communication therewith is removed. A method for removing a floor-embedded drain funnel, wherein the large-diameter portion is cut from the inner peripheral surface side thereof with a cutting tool to reduce the thickness and then removed. 2. A cutting tool is used as the cutting tool, and the cutting tool is rotatably arranged in the large diameter part with a central axis of the large diameter part as a rotation center, and a turning diameter at a tip end position of the large diameter part is set to be large. The large diameter portion is cut by setting a larger amount of cutting in the radial direction than the inner diameter of the diameter portion and gradually moving in a direction along the central axis while rotating the cutting tool about the central axis. The method for removing a floor-embedded drain funnel according to claim 1. 3. The cutting tool is moved from a predetermined cutting start position in a direction along the central axis to a predetermined cutting end position to perform one cutting, and then the cutting tool is returned to the cutting start position, By increasing the turning diameter of the cutting tool tip position by an appropriate cutting amount in the radial direction and performing the next cutting,
The method for removing a floor-embedded drain funnel according to claim 2, wherein the large-diameter portion is gradually thinned by repeatedly performing cutting from the cutting start position to the cutting end position. 4. The method for removing a floor-embedded drain funnel according to claim 2 or 3, wherein the cutting of the large diameter portion is finished with a thin skin having an appropriate thickness left, and then the thin skin is cut and removed. . 5. A reinforced concrete floor is penetrated and buried,
A method for removing a floor buried drain funnel in which a large-diameter portion having a relatively large-diameter opening is formed in the upper portion, and a small-diameter portion having a relatively small-diameter opening is formed in communication therewith is removed. There is a method for removing a floor-embedded drain funnel, in which the small diameter portion is cut from the inner peripheral surface side with a cutting tool to reduce the thickness and remove the thin portion. 6. A cutting tool is used as the cutting tool, the cutting tool is rotatably arranged in the small diameter portion with a central axis of the small diameter portion as a rotation center, and a turning diameter at a tip end position of the cutting tool is set to the turning diameter of the small diameter portion. The cutting of the small diameter portion is performed by setting a larger cutting amount in the radial direction than the inner diameter and gradually moving in a direction along the central axis while rotating the cutting tool about the central axis. The removal method of the floor buried drain funnel described in 5. 7. The cutting tool is moved from a predetermined cutting start position in a direction along the central axis to a predetermined cutting end position to perform one cutting, and then the cutting tool is returned to the cutting start position, By increasing the turning diameter of the cutting tool tip position by an appropriate cutting amount in the radial direction and performing the next cutting,
7. The floor buried drain funnel removal method according to claim 6, wherein the small-diameter portion is gradually thinned by repeatedly performing cutting from the cutting start position to the cutting end position. 8. The method for removing a floor-embedded drain funnel according to claim 6 or 7, wherein the cutting of the small-diameter portion is finished with a thin skin having an appropriate thickness left, and then the thin skin is cut and removed. 9. A reinforced concrete floor is penetrated and buried,
A method for removing a floor buried drain funnel in which a large-diameter portion having a relatively large-diameter opening is formed in the upper portion, and a small-diameter portion having a relatively small-diameter opening is formed in communication therewith is removed. A method for removing a floor-embedded drain funnel, in which the large-diameter portion and the small-diameter portion are each cut from the inner peripheral surface side thereof with a cutting tool to be thinned and removed. 10. A cutting tool is used as the cutting tool, and a spindle is disposed on the central axis common to the large diameter portion and the small diameter portion in the large diameter portion and the small diameter portion, and a tool holder is supported on the spindle. Then, the bite is held in the bite holder, the bite holder is moved in a linear direction along the axial direction of the main spindle and in a rotation direction around the main spindle to perform the cutting, and the large diameter portion is cut. 10. The method for removing a floor-embedded drain funnel according to claim 9, wherein a relatively large-diameter bite holder is used when performing, and a relatively small-diameter bite holder is used when cutting the small-diameter portion. 11. After removing the large diameter portion and the small diameter portion,
10. The connection between the large diameter portion and the small diameter portion is cut and removed.
Alternatively, the method for removing the floor-embedded drain funnel according to item 10.