JP2004243693A - Ceiling board opening device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a ceiling board opening device which can improve work efficiency and processing accuracy by being released from complicated work and secure the safety of work by making a footing for work unnecessary, preventing the scattering of chips, and facilitating the centering of an existing opening. <P>SOLUTION: The ceiling board opening device is composed of a center drill 9 for boring the ceiling board, a cutting blade holder 1 having a cutting blade 3 which can be adjusted in the size of a desired opening circle, a basket-like dust preventing tool 17 comprising an annular frame 18 with a dust preventing film extended and an elastic support frame 20, and an operation rod 11 of an optional length which can transmit the driving force of a motor 16. An operator can open the ceiling board without scattering the chips directly from a floor. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a ceiling board opening device and a ceiling board opening adapter for forming a circular opening when a lighting fixture or the like is embedded and mounted on a ceiling board.
[0002]
[Prior art]
Conventionally, when providing an opening in a ceiling board, a work scaffold is first provided, and an operator performs work on the scaffold. This work had to be carried out in an unstable posture, resulting in poor work efficiency and a risk of falling. Therefore, in order to automate such an operation, an opening device having a structure in which a vertically movable cutting portion is provided on a transportable cart has been proposed (see Patent Documents 1 and 2).
[0003]
Also, when enlarging an existing circular opening, it was necessary to write a circular shape to be opened on the ceiling board. Further, no special consideration has been given to scattering of cutting chips.
[0004]
[Patent Document 1]
JP-A-5-104412
[Patent Document 2]
JP-A-7-185924
[0005]
[Problems to be solved by the invention]
In the above-mentioned conventional technology, it is necessary to install a scaffold for performing the work, and the work efficiency is poor. In addition, work at high altitudes was unstable, accompanied by danger and had problems in processing accuracy. Further, the conventional opening device for solving such a problem (see Patent Literatures 1 and 2) has a large structure and is not suitable for work in a narrow place or a place where it is difficult to carry in the device. In addition, when the existing circular opening is enlarged, centering is difficult, and complicated work such as marking a circular shape to be opened on the ceiling board is involved. It was not good. Furthermore, since no countermeasures were taken against scattering of cutting chips, there was a problem that cleaning after opening work was required.
[0006]
SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems of the related art, and has as its object to provide a ceiling board opening device capable of improving work efficiency, improving processing accuracy, ensuring work safety, and the like. It is assumed that.
[0007]
[Means for Solving the Problems]
The present invention, in order to achieve the above object,
First, a rotating shaft having a drill at the tip, a cutting blade holder attached to the rotating shaft, a plurality of cutting blades held by the holder at positions equidistant from the rotating shaft, The cutting blade holder is provided upward from below the mounting position of the cutting blade holder on the shaft, and the upper end opening portion comprises a basket-shaped dustproofing device located outside the rotation locus of the cutting blade, and the dustproofing device is An annular frame forming an upper end opening, an elastic support frame for holding the annular frame, a support member for supporting a lower end of the elastic support frame on the rotating shaft, and a dustproof film stretched between the elastic support frames And a ceiling board opening device.
[0008]
The rotating shaft can be constituted by, for example, a drill (9), a sleeve (6), a drill shaft (10) and the like. The cutting blade holder (1) is preferably formed of, for example, a plate-shaped main body orthogonal to the rotation axis, and the cutting blades (3, 3) are preferably fixed to both ends of the holder (1) upward. It is preferable that the elastic support frame is constituted by, for example, an elastic support frame (20) for connecting the peripheral edges of the annular frames (18, 19) in the vertical direction, and the support member is a fixed plate loosely fitted to the rotating shaft. It is preferable to configure by (21). Further, it is preferable that the dustproof film is formed of, for example, a dustproof film (22) stretched between the elastic support frames (20) without a gap. With this configuration, the annular frame can be brought into close contact with the ceiling board during the cutting operation by the elastic force of the elastic support frame, and the cutting chips can be reliably received without scattering.
[0009]
Secondly, a drive shaft is inserted into the inside of the operating rod, the shaft and the rotating shaft can be connected at the tip of the operating rod, and the driving power of the shaft is applied from the lower part of the operating rod. The ceiling board opening device according to the first aspect, wherein the ceiling board opening device is provided.
[0010]
Third, a rotating shaft having a drill at the tip, a cutting blade holder attached to the rotating shaft, a plurality of cutting blades held by the holder at positions equidistant from the rotating shaft, The cutting blade holder is provided from the lower side to the upper side of the mounting position on the shaft, and the upper end opening portion is formed of a tub-shaped or bowl-shaped dust proofing device located outside the rotation locus of the cutting blade, and includes an operating rod. A drive shaft is inserted inside, and the shaft and the rotating shaft are configured to be connectable at a tip of the operation rod, and a driving power of the shaft is applied from a lower portion of the operation rod. And a ceiling board opening device.
[0011]
Therefore, by lifting the operation rod vertically with the operation rod (11), the ceiling board can be opened without using a work scaffold such as a stepladder.
[0012]
Fourth, an opening is formed in a part of the dust proofing device, one end of a hose is connected to the opening, and a suction device is connected to the other end of the hose. The ceiling board opening device according to any one of the above-mentioned items.
[0013]
Therefore, by operating the suction device, the cutting chips trapped in the dust proof tool are sucked through the hose, and the cutting chips in the dust proof tool can be removed.
[0014]
Fifth, an adapter is formed from a base having a center hole and a base support that is engaged with an existing ceiling opening circle and holds the base in the opening circle so that the center hole is located at the center of the opening circle. In the state where the adapter is engaged with the existing ceiling opening circle with the base support, the drill can be inserted into the center hole of the adapter. A ceiling board opening device according to any one of the first to fourth aspects described above.
[0015]
The base support can be constituted by, for example, an engagement piece support holder (26), an engagement piece (30) and the like radially arranged on the base (28, 28 '). With this configuration, by inserting a drill through the center hole, the center of the existing opening circle at the time of the enlarged opening can be centered.
[0016]
Sixth, a rotating shaft having a drill at the tip, a cutting blade holder attached to the rotating shaft, a plurality of cutting blades held by the holder at positions equidistant from the rotating shaft, and the drill What is claimed is: 1. A ceiling board opening device comprising an adapter attachable to a tip portion, wherein said adapter is engaged with a base having a center hole and an existing ceiling opening circle, and said center hole is located at the center of said opening circle. A base support that holds the base in the opening circle so as to be positioned, and in a state where the adapter is engaged with the existing ceiling opening circle with the base support, the drill is mounted on the base. The ceiling board opening device is characterized in that it can be inserted into the center hole of the adapter.
[0017]
Seventh, engaging piece support holders are provided radially about the center hole on a base having a center hole, and engaging pieces that can be engaged with the peripheral edge of the existing ceiling opening circle are provided at one end of these support holders. Provided, and the support holder is configured to be slidable in the radial direction, and in a state fixed at a predetermined position, the engaging piece is engaged with the periphery of the existing opening circle, and the center hole is It is constituted by an adapter for opening a ceiling board, which is configured to be located at the center of an existing ceiling opening circle.
[0018]
When the drill (9) of the ceiling board opening device is inserted into the center hole in a state where the adapter (25) is engaged with the existing ceiling opening circle, centering of the existing opening circle at the time of enlarged opening is easily performed. be able to.
[0019]
In this section, the reference numerals in the embodiment are shown in parentheses corresponding to the constituent members of the present invention, but this is added for convenience in order to clarify the correspondence relationship, and thereby the configuration of the present invention is limited. It is not done.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0021]
FIG. 1 shows a ceiling board opening device according to a first embodiment of the present invention. Reference numeral 1 denotes a cutting blade holder formed of a plate-shaped main body, and a pair of upward L-shaped cutting blades 3, 3 at equal intervals from a rotation center axis a of a center hole 5 provided at the center thereof. Is provided. Upward guide ribs 1a and 1b are formed on both side edges in the longitudinal direction of the holder 1 (see FIG. 4), and guide holes 2 and 2 are formed at both ends of the plate surface along the longitudinal direction. The blades 3, 3 are slidably mounted along the guide ribs 1a, 1b, respectively, and are fastened to the fasteners 4, 4 (for example, bolts and bolts) through the guide holes 2, 2 at a desired radial position of the opening circle. A nut (nut) can be fixed to the holder 1.
[0022]
Reference numeral 6 denotes a sleeve for holding the cutting blade holder 1, and a male screw portion 6 'is formed at the upper end thereof. The cutting blade holder 1 is orthogonally placed on the spacer 7 fixed to the upper end of the sleeve 6 by inserting the upper male screw portion 6 ′ of the sleeve 6 into the center hole 5 thereof, A fastener 8 (for example, a nut) is screwed onto the male screw portion 6 ′ from the upper surface of the cutting blade holder 1 to be fixed to the upper end of the sleeve 6.
[0023]
The sleeve 6 is provided with through holes 6a and 6b in the axial direction from the upper and lower end surfaces. A center drill 9 is provided in the through hole 6a on the upper surface, and a drill shaft 10 having a square cross section is provided in the through hole 6b on the lower surface. Each is fitted and fixed. Then, by applying a rotational driving force to the drill shaft 10, the driving force is transmitted to the sleeve 6, and the cutting blade holder 1 and the center drill 9 are configured to be rotatable around the rotation center axis a. .
[0024]
Reference numeral 11 denotes an operating rod, into which a drive shaft 12 is inserted and supported. The drive shaft 12 is supported rotatably about a rotation center axis a by bearings 13 provided at upper and lower ends of the operation rod 11, respectively. An upper end of the drive shaft 12 protrudes from an upper end of the operation rod 11, and a joint 14 having an insertion hole 14 a having a square cross section that can be fitted to the drill shaft 10 is mounted on the upper end of the drive shaft 12. ing. Then, the drill shaft 10 is inserted into the insertion hole 14 a of the joint 14, and the drill shaft 10 and the drive shaft 12 are detachably connected to each other. It is configured to be able to transmit to the drill shaft 10.
[0025]
The lower end of the drive shaft 12 also protrudes from the lower end of the operation rod 11, and a joint 15 having an insertion hole 15a is attached to the lower end of the drive shaft 12. The insertion hole 15a is formed in a shape that can be fitted to the drive shaft 16a of the drive motor 16, and the drive shaft 16a of the drive motor 16 is inserted into the insertion hole 15a, so that the drive shaft 16a of the drive motor 16 and the drive shaft 16a By connecting the shaft 12 detachably, the rotational driving force of the drive motor 16 can be transmitted to the drive shaft 12 via the joint 15.
[0026]
The operating rod 11 is used by appropriately adjusting its length in accordance with working conditions and the like, but the center drill 9 and the cutting blade 3 are held in a state where the operator supports the operating rod 11 by hand. Is formed to a length (for example, 1.5 m) that easily reaches the ceiling board.
[0027]
Reference numeral 17 denotes a dust proofing tool (see FIGS. 1 and 2), which surrounds the outer periphery of each of the annular frame 18 located outside the virtual imaginary circle of the cutting blade 3 and the auxiliary annular frame 19 provided thereunder by four. It is formed by connecting in the vertical direction with a rod-shaped elastic support frame 20. The lower portion of each elastic support frame 20 is curved in the direction of the fixed plate 21 located on the center axis of the annular frame 18, and the ends thereof are welded to the fixed plate 21, respectively, so that the entire cage-shaped frame is formed. (Cage-like). The material of the elastic support frame 20 is not particularly limited in the present invention, but is preferably a piano wire having an appropriate thickness (for example, a diameter of 1.5 mm) in consideration of strength and availability.
[0028]
Further, a dust-proof film 22 is stretched between the elastic supporting frames 20, and a lower end edge of the film 22 is adhered to an outer peripheral portion of the fixing plate 21 and an upper end edge is adhered to an outer peripheral portion of the annular frame 18. Thus, between the elastic support frames 20, the outer periphery of the fixed plate 21 and the outer periphery of the annular frame 18 are closed without any gap by the film 22, and the cutting chips are received without any omission. The material of the film 22 is not particularly limited as long as it can capture the cutting chips of the ceiling board, but in consideration of the cutting condition and the amount of the cutting chips, the transparent film having a light transmitting property is considered. It is desirable that
[0029]
A center hole 23 is provided at the center of the fixing plate 21. The sleeve 6 is inserted into the center hole 23 from the upper surface side from the lower end thereof, and then the sleeve 6 is inserted from the lower end side of the sleeve 6. By mounting the stopper 24 on the fixing plate 21, the fixing plate 21 is loosely fitted between the spacer 7 and the stopper 24. In this state, the dustproof film 22 is positioned upward from below so as to surround the lower side of the cutting blade holder 1 and the entire outside of the virtual rotation circle of the cutting blade 3, and the annular frame 18 is provided with a center drill. 9 and the cutting blade 3.
[0030]
The center hole 23 is formed slightly larger than the sleeve so that the sleeve 6 can be loosely inserted so that the dustproof member 17 does not rotate in conjunction with the rotation of the sleeve 6 during the cutting operation.
[0031]
Next, a second embodiment of the ceiling board opening device will be described with reference to FIG. Here, the opening device includes the cutting blade holder 1 having the center drill 9, a dustproof member 47 supported by the support cylinder 41 (support member), and the operation rod 44. The dustproof member 47 is formed from an annular frame 40 at the upper end and eight vertical rod-shaped elastic support frames 39 each having one end welded to the outer periphery of the annular frame 40. By bending in an L-shape in the direction, it is formed in a tub shape (tub shape) or a basket shape (cage shape) as a whole. A downwardly bent portion of the other end of the elastic support frame 39 is fastened to the outer periphery of the upper end of the support cylinder 41 by a fastening band 42. A film 45 similar to the dustproof film 22 is stretched between the elastic support frames 39, and a lower edge of the film 45 is adhered to an outer peripheral portion of the support cylinder 41, and an upper edge of the film 45 is fixed to the annular frame 40. The film 45 covers the elastic support frames 39, the outer circumference of the support cylinder 41 and the outer circumference of the annular frame 40 without gaps, and receives cutting chips without leakage.
[0032]
Further, the rotating shaft is constituted by a center drill 9 having a female screw formed in an intermediate portion. The drill 9 is inserted into the center hole 5 of the cutting blade holder 1, and the fastener 8 is inserted from the upper and lower surfaces of the cutting blade holder 1. , 8 ′ (for example, nuts) are screwed into the female screw portion to be fixed to the holder 1. A drive shaft 12 supported by the same bearing 13 as in the first embodiment is provided in the operation rod 44, and the center drill 9 is detachably connected to the inside of the distal end of the operation rod 44. A joint 46 similar to that of the first embodiment is provided.
[0033]
In the ceiling board opening device configured as described above, the support cylinder 41 of the dust proofing tool 47 is inserted into the upper end of the operation rod 44, and the fastening tool 43 (for example, a bolt) is attached to the operation rod 44 from the side of the support cylinder 41. By screwing the dustproof member 44, the dustproof member 47 is fixed to the upper end of the operation rod 44. The lower end of the drill 9 having the holder 1 is inserted into the insertion hole 46a of the joint 46.
[0034]
A lower end of the drive shaft 12 protrudes from a lower end of the operation rod 44, and a joint 15 having an insertion hole 15a is attached to a lower end of the drive shaft 12. The insertion hole 15a is formed in a shape that can be fitted to the drive shaft 16a of the drive motor 16, and the drive shaft 16a of the drive motor 16 is inserted into the insertion hole 15a, so that the drive shaft 16a of the drive motor 16 and the drive shaft 16a By connecting the shaft 12 detachably, the rotational driving force of the drive motor 16 can be transmitted to the drive shaft 12 via the joint 15 as in the first embodiment. .
[0035]
Next, FIG. 8 shows a third embodiment of the ceiling board opening device of the present invention. The opening device according to the third embodiment is different from the first and second embodiments in that the dustproof member 35 is formed of a hard member such as an acrylic plate, and an elastic member including a spring 37 is provided below the dustproof member 35. It is different from the form. The configuration other than the dustproof member 35 and the spring 37, that is, the configuration of the center drill 9, the cutting blade holder 1, the sleeve 6, the operation rod 11, and the like is the same as that of the first embodiment, and thus is the same as that of the first embodiment. Reference numerals are used, and detailed descriptions of these members are omitted for convenience.
[0036]
In the figure, reference numeral 35 denotes a dust proofing tool, which is composed of a circular bottom plate 35b having a diameter larger than the radius of rotation of the cutting blade holder 1 and a cylindrical wall plate 35c standing upright from the peripheral edge of the bottom plate. It is formed in a tub shape (tub shape) or a basket shape (cage shape) having a portion. The material of the dustproof member 35 is not particularly limited in the present invention as long as it has rigidity. However, in consideration of the work performed while checking the cutting conditions and the amount of cutting chips, a transparent acrylic plate having a light-transmitting property is used. Is desirable. The shape of the dust proofing device is not limited to the barrel shape (barrel shape), but may be a bowl shape (bowl shape).
[0037]
A center hole 35a is provided in the bottom plate 35b of the dustproof device 35, and the above-described sleeve 6 on which the cutting blade holder 1 and the drill 9 are mounted is inserted. Also, the center hole 35a is formed slightly larger than the sleeve diameter so that the sleeve 6 can be loosely inserted so that the dustproof member 35 does not rotate in conjunction with the rotation of the sleeve 6 during the cutting operation.
[0038]
A lower stopper 38 having a spring receiver 36 is mounted and fixed to the lower end of the sleeve 6. The dustproof member 35 is always attached upward between the spring receiver 36 and the bottom plate 35 b of the dustproof member 35. A spring 37 is provided to urge the upper surface of the bottom plate 35b into contact with the spacer 7. The dust protector 35 is configured such that the upper end of the wall plate 35c is located between the tip of the drill 9 and the tip of the cutting blade 3 in the state of being biased by the spring 37. With this configuration, the dustproof member 35 can slide vertically along the sleeve 6 by the elasticity of the spring 37.
[0039]
It is also possible to add a dust collecting and removing device to the ceiling board opening device. An opening 48 is provided in the bottom plate 35b of the dustproof device 35, and one end of a hose 49 is connected to the opening 48. By connecting the other end of 49 to the suction device 50, it is possible to collect and remove the cuttings trapped in the dustproof member 35 by the hose 49.
[0040]
Further, a similar dust collecting and removing device can be added to the dustproofing device 17 described in the first embodiment or the dustproofing device 47 described in the second embodiment. In this case, for example, as shown in FIG. 7A, a hose connection fitting 51 is fixed between adjacent elastic support frames 39, 39, and one end of the hose 49 is connected to the fitting. it can.
[0041]
In addition, if the suction device 50 is small and lightweight, it can be directly mounted on the operation rod 11 or the operation rod 44. If the suction device 50 is heavy, the extension of the hose 49 is appropriately adjusted. The work can be performed while the suction device 50 is placed on the floor or the like.
[0042]
Next, a ceiling board opening adapter that can be commonly used in the ceiling board opening apparatuses of the first to third embodiments will be described with reference to FIG. Reference numeral 25 denotes a ceiling board opening adapter (see FIG. 3), which includes three plate-like engagement piece support holders 26, 26, 26, and two circular support bases that sandwich these engagement piece support holders 26. 28, 28 '. Upward engaging pieces 30, 30, 30 are fixed upright at one end of each of the engaging piece support holders 26, and each of the engaging pieces 30 is attached to the center hole 27 of the support base 28, 28 '. At a position at an angle of 120 degrees with respect to 27 'and the respective engaging pieces 30 are at the same distance from the central holes 27 and 27', the respective engaging piece support holders 26 support the supporting bases 28 and 28 '. It is sandwiched radially between them. In addition, at the upper end of each engagement piece 30, a bent portion 30a having a "-" shape, which can be engaged with the peripheral edge of the existing opening circle 52 (Fig. 6), is bent.
[0043]
A guide hole 29 is formed in the plate surface of each of the engagement piece support holders 26 along the longitudinal direction, while six fastening through holes 28a, 28a are formed in the support bases 28, 28 '. Are provided at equal intervals in the circumferential direction. Then, with the engagement piece support holders 26 being sandwiched by the support bases 28 and 28 ′, the through holes 28 a and 28 a ′ are inserted into the guide holes 29 of the respective holders from one of the support bases 28. Then, by inserting the bolt 31a and tightening with the thumb screw 31b from the other support base 28 'side, each engagement piece support holder 26 is held between the support bases 28 and 28' while maintaining the angle of 120 degrees. It is used for positioning and fixing.
[0044]
The ceiling board opening adapter 25 having such a configuration loosens the fastener 31 constituted by the bolt 31a and the thumb screw 31b, and holds the engagement piece support holders 26 at an angle of 120 degrees. The slide is adjusted in the radial direction (radial direction) of the support bases 28 and 28 ', and the tightening is performed at a position where the diameter of the circle formed by the three engagement pieces 30 matches the diameter of the existing ceiling opening circle. The engaging piece support holder 26 is fastened and fixed to the sliding position by the tool 31, and can be engaged with the existing ceiling opening circle with the engaging piece 30 in this state.
[0045]
A drill guide 32 having a through hole 32a for inserting the center drill 9 is inserted into the center holes 27 and 27 ', and when the adapter 25 is engaged with an existing ceiling opening circle, The through hole 32a of the drill guide 32 located at the center thereof is located at the center of the existing ceiling opening circle, thereby centering the existing opening circle.
[0046]
Since the present invention is configured as described above, when opening the ceiling board 34, first, the cutting blades 3 are slid along the guide ribs 1a and 1b to a radius position of a desired opening circle. Then, it is fixed by the fasteners 4 and 4 through the guide holes 2 and 2. Further, the drill shaft 10 (or drill 9) is inserted into the joint 14 (46) of the operation rod 11 (or operation rod 44), and the drive shaft of the drive motor 16 is inserted into the joint 15.
[0047]
Next, the drive motor 16 is operated, the center position of the planned opening circle of the ceiling board 34 is pierced by the center drill 9, and the operation rod 11 is lifted in the vertical direction to rotate about the rotation center axis a. The pair of cutting blades 3 and 3 cut the ceiling board 34 into a circle of a desired size (see FIG. 5). At this time, since the annular frame 18 (annular frame 40) is mounted above the cutting edges of the cutting blades 3, 3, the annular cutting edge of the cutting blades 3, 3 comes into contact with the ceiling board 34 before the cutting edge contacts the ceiling board 34. The frame 18 (annular frame 40) comes into contact with the ceiling board 34, and the elastic support frame 20 (horizontal portion of the elastic support frame 39) is bent in accordance with the lifting of the operation rod 11, and the elastic support frame 20 is bent. Due to the elastic force of the (elastic support frame 39), the annular frame 18 (annular frame 40) can always be kept in close contact with the ceiling surface. As a result, all of the cutting debris is captured by the dust proof member 17 (dust proof member 47) without being scattered, and the ceiling board cut in a circular shape is also captured by the dust proof member 17 or the dust proof member 47. Can be prevented. Further, since the dust proof member is formed in a cage shape by the elastic support frame 20 (39), the adhesion between the annular frame 18 (40) and the ceiling surface is higher than that of the dust proof member made of a hard member, and cutting dust is reduced. It can be received reliably. In addition, by configuring the dustproofing device with the frame and the dustproofing film (film) in this manner, the opening device can be significantly reduced in weight as compared with the opening device having the dustproofing device made of a hard member (for example, acrylic). it can.
[0048]
Further, in the opening device of the third embodiment, since the upper end of the wall plate 35c of the dustproof device 35 is located above the cutting edge of the cutting blade 3, 3, the cutting blade 3, The upper end of the wall plate 35c comes into contact with the ceiling board 34 before the cutting edge 3 comes into contact with the ceiling board 34, and the spring 37 contracts in response to the lifting of the operation rod 44, and the spring 37 Due to the elastic force, the state in which the peripheral edge of the upper end of the wall plate 35c is always in close contact with the ceiling surface can be maintained. As a result, all of the cutting chips are captured by the dustproof member 35 without being scattered, and the ceiling board cut in a circular shape is also captured by the dustproof member 35, so that an accident due to the falling of the ceiling board can be prevented.
[0049]
On the other hand, when the existing opening circle 52 of the ceiling board 34 is enlarged and opened, the diameter of the circle formed by the engaging pieces 30, 30, 30 of the ceiling board opening adapter 25 matches the diameter of the existing opening circle 52. The engaging piece support holders 26, 26, 26 are slidably adjusted as described above, and a cylindrical spacer 33 having a diameter larger than the center hole 27 of the adapter 25 is inserted into the center drill 9 (FIG. 1 (b)). )), The tip of the center drill 9 is inserted into the drill guide 32 of the adapter 25, and the adapter 25 is placed on the cylindrical spacer 33 in a state of being perpendicular to the center drill 9. In this state, the tip of the center drill 9 projects upward from the drill guide 32 (see FIG. 1B). Next, the adapter 25 is engaged with the existing ceiling opening circle 52 by the lifting operation of the operation rod 11 (see FIG. 6). In other words, the bent portion 30a of each engagement piece 30 of the adapter 25 enters the existing ceiling opening circle, and the bent portion 30a is engaged with the peripheral edge of the opening. Is engaged. At this time, the insertion hole 32a of the drill guide 32 is located at the center of the existing opening circle. In the opening devices of the second and third embodiments, the adapter 25 can be attached to the existing opening circle by the same operation.
[0050]
Thereafter, the center drill 9 is once pulled out from the drill guide 32, and the spacer 33 is pulled out. After adjusting the cutting blades 3 and 3 to have a desired opening circle diameter larger than the existing opening circle 52, the adapter 25 in the state where the center drill 9 is engaged with the existing opening circle 52 again. And the operating rod 11 is lifted in the vertical direction, whereby the pair of cutting blades 3, 3 rotating about the rotation center axis a cut the ceiling board (see FIG. 6). At this time, since the drill guide 32 is located at the center of the existing opening circle 52 as described above, the centering of the existing opening circle is performed when the center drill 9 is inserted into the drill guide 32. Therefore, it is possible to easily cut the concentric opening with respect to the existing opening circle, that is, enlarge the diameter of the existing opening circle.
[0051]
As described above, according to the present invention, scattering of cutting chips generated when the ceiling board is opened can be prevented by the dust-proofing device 17 (47, 35), so that there is no need to perform cleaning after the cutting operation, thereby saving labor. As a result, it is possible to prevent accidents such as cutting chips entering the eyes of the operator, so that the operator can perform the work safely and accurately while visually confirming the cutting condition of the cutting blade 3.
[0052]
Further, since the upper end portion of the dustproof member 17 (47, 35) can be maintained in a state of being elastically adhered to the ceiling board when the ceiling board is opened, the dustproof member can reliably receive cutting chips.
[0053]
Further, since the cut ceiling board is also supplemented by the dustproof member 17 (47, 35), it is possible to prevent an accident such as a falling ceiling board hitting an operator, and to secure the safety of work.
[0054]
Further, since the drill shaft 10 (drill 9) of the ceiling board opening device and the drive motor 16 are configured to be detachably connected via the drive shaft 12, the distal end portion (cutting portion) of the opening device is lightweight. And accurate center positioning operation and cutting operation can be performed.
[0055]
In addition, by using the operation rod 11, it is not necessary to use a work scaffold such as a stepladder at the time of work, so that workability can be improved, and the opening work can be performed in a stable state. There is no danger that has been a concern, such as falling.
[0056]
In the case where the existing ceiling opening circle is enlarged, the center of the existing ceiling opening circle can be easily centered by engaging the adapter 25 with the existing ceiling opening circle. No complicated work such as blacking out the cutting position is required.
[0057]
Further, since the adapter 25 is configured to be detachable from the tip of the ceiling board opening device, the adapter 25 can be easily engaged with the existing ceiling opening circle by the operation rod 11.
[0058]
Further, since the structure is simple and the opening device is lightweight, it is possible to work in a place where working conditions are poor such as a narrow place.
[0059]
In addition, by adding the suction device 50 for dust collection to the dust-proofing device 17 (47, 35), cleaning of cutting chips becomes extremely easy, and deterioration of the field of view due to accumulation of cutting chips can be prevented. Accurate cutting work can be performed.
[0060]
【The invention's effect】
Since the present invention is configured as described above, scattering of cutting chips is prevented by the dust proofing tool, and cleaning after the cutting operation is not required, so that labor can be saved.
[0061]
Further, when the ceiling board is opened, the upper end opening of the dust proofing tool is in elastic contact with the ceiling board, so that the dust proofing tool can reliably receive cutting chips.
[0062]
In addition, since the drive power can be applied from the lower part of the operation rod, it is possible to reduce the weight of the distal end portion, thereby enabling the operation rod extended from the floor surface without using a stepladder or the like. The ceiling board can be opened, thereby improving workability.
[0063]
In addition, by attaching the adapter to the existing ceiling opening circle, accurate centering can be easily performed, high-precision cutting can be performed easily and quickly, and workability can be improved.
[0064]
Further, by removing the cutting debris by suction, it is possible to secure a visibility and perform an accurate cutting operation.
[Brief description of the drawings]
FIG. 1 (a) is a plan view showing a first embodiment of a ceiling board opening device according to the present invention, and FIG. 1 (b) is a front sectional view of the same device.
FIG. 2 is an external perspective view showing an embodiment of a dust proofing device of the above device.
3A is a plan view showing an embodiment of a ceiling board opening adapter according to the present invention, FIG. 3B is a front view of the adapter, and FIG. 3C is an exploded perspective view of the adapter.
FIG. 4A is a plan view showing an embodiment of a cutting blade holder according to the present invention, and FIG. 4B is a front view of the holder.
FIG. 5 is a front view showing a state in which the ceiling board is cut by the above device.
FIG. 6 is a front view showing a state in which an existing ceiling board opening circle is enlarged and opened by the same device.
FIG. 7A is a plan view showing a second embodiment of the ceiling board opening device according to the present invention, and FIG. 7B is a front sectional view of the same device.
FIG. 8A is a plan view showing a third embodiment of the ceiling board opening device according to the present invention, and FIG. 8B is a front sectional view of the same device.
[Explanation of symbols]
1 Cutting blade holder
3 Cutting blade
9 Center drill
11, 44 Operation stick
17, 35, 47 Dustproof equipment
18, 40 annular frame
20, 39 elastic support frame
25 Ceiling board opening adapter
26 Engagement piece support holder
28, 28 'support base
30 Engagement piece
34 ceiling board
48 opening
49 hose
50 suction device
52 Existing opening circle

Claims (7)

A rotating shaft having a drill at the tip,
A cutting blade holder attached to the rotating shaft,
A plurality of cutting blades held by the holder at positions equidistant from the rotation axis,
It is provided upward from the lower part of the attachment position of the cutting blade holder on the rotating shaft, the upper end opening is a basket-shaped dustproof tool located outside the rotation locus of the cutting blade,
The dustproof device is
An annular frame forming the upper end opening,
An elastic support frame that holds the annular frame;
A support member for supporting the lower end of the elastic support frame on the rotating shaft,
A ceiling board opening device comprising: a dustproof film stretched between the elastic support frames. A drive shaft is inserted into the inside of the operation rod, the shaft and the rotation shaft are connectable at the tip of the operation rod, and the driving power of the shaft is applied from the lower part of the operation rod. The ceiling board opening device according to claim 1, wherein: A rotating shaft having a drill at the tip,
A cutting blade holder attached to the rotating shaft,
A plurality of cutting blades held by the holder at positions equidistant from the rotation axis,
The rotating shaft is provided upward from below the mounting position of the cutting blade holder, the upper end opening portion comprises a tub-shaped or bowl-shaped dustproof tool located outside the rotation locus of the cutting blade,
A drive shaft is inserted into the inside of the operation rod, the shaft and the rotary shaft are connectable at the tip of the operation rod, and the driving power of the shaft is applied from the lower part of the operation rod. A ceiling board opening device characterized by the above-mentioned. An opening is formed in a part of the dustproof device, one end of a hose is connected to the opening, and a suction device is connected to the other end of the hose. A ceiling board opening device as described in Crab. A base having a central hole,
An adapter is formed from a base support that is engaged with an existing ceiling opening circle and holds the base in the opening circle so that the center hole is located at the center of the opening circle.
In a state in which the adapter is engaged with the existing ceiling opening circle with the base support, the drill can be inserted into a center hole of the adapter. Item 5. The ceiling board opening device according to any one of Items 1 to 4. A rotating shaft having a drill at the tip, a cutting blade holder attached to the rotating shaft, a plurality of cutting blades held by the holder at positions equidistant from the rotating shaft, and attached to the drill tip. A ceiling board opening device constituted by a possible adapter,
The adapter comprises: a base having a center hole; and a base support which is engaged with an existing ceiling opening circle and holds the base in the opening circle so that the center hole is located at the center of the opening circle. And
The ceiling is characterized in that the drill can be inserted into the center hole of the adapter in a state where the adapter is engaged with the existing ceiling opening circle with the base support tool. Board opening device. On a base having a center hole, engaging piece support holders are provided radially with the center hole as a center, and at one end of these support holders, engaging pieces that can be engaged with the periphery of the existing ceiling opening circle are provided, respectively. The support holder is configured to be slidable in the radial direction, and the fixing piece is fixed at a predetermined position to engage the engaging piece with the periphery of the existing opening circle, so that the center hole is formed in the existing ceiling opening. An adapter for opening a ceiling board, wherein the adapter is configured to be located at the center of a circle.

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