JPWO2004110701A1 - Hand-held power tool and attachment of hand-held power tool - Google Patents

Abstract

The object is to provide a hand-held power tool with low noise and an attachment of the hand-held power tool. In a hand-held power tool including a tool main body having a drive unit that is driven by power and an action unit that is attached to the drive unit and that acts on a workpiece by driving the drive unit, the power tool is provided so as to surround the drive unit. A part of at least one of the housing and the working body is covered with a sound absorbing structure including an air layer and a moisture-permeable resin layer.

Description

  The present invention relates to a hand-held power tool and its attachment.

  Conventionally, hand-held power tools such as impact wrenches, oil pulse wrenches, chipping hammers, scaling hammers, and air sanders have been used.

  An impact wrench, which is a kind of impact-type rotary screw tightening tool as a hand-held power tool, is struck about 15 times per second by a hammer as an impact force generation mechanism per second. In practice, a hammer made of a steel material and a driven shaft collide violently to generate a large rotational force, which is screwed and loosened.

  A high-frequency impact sound is generated when tightening or loosening the screw. This impact sound vibrates the air inside the housing, and the vibration at the time of striking the impact force generation mechanism through the bearing part of the driven shaft. Noise is generated when the vibration of the housing is transmitted to the built-in housing and the surrounding air vibrates.

  In addition, there is play between the driven shaft and a socket (impact force transmission element) as an attachment fitted to the driven shaft, and between the socket and the hexagon head of the hexagon bolt or hexagon nut. Even in locations, noise is generated by the vibration of the socket that occurs when the socket is struck by the driven shaft that is generated following the impact force generation mechanism and the screw is struck by the socket, causing the surrounding air to vibrate. It has become.

On the other hand, in the case of an oil pulse wrench, vibration due to friction between the oil cylinder and the vane, which is an impact force generation mechanism, is transmitted to the housing that incorporates the impact force generation mechanism, causing the housing to also vibrate and vibrates the air around the tool As a result, noise is generated.
In the case of a chipping hammer or scaling hammer, when the tip of a piston that reciprocates in the cylinder strikes the rear end of a chisel (impact force transmission element) as an attachment with an action part provided in the forward direction during forward movement Further, when the subsequent chisel hits the workpiece, noise is generated around the housing and the chisel due to the vibration of the housing and chisel as in the case of the impact wrench.

  In the case of a double action sander that is one of the air sanders, vibration caused by rubbing between the vane and the cylinder when the air motor rotates, and vibration of the sound that agitates the air in the housing when the balance shaft rotates eccentrically, Noise is generated around the drive unit by transmitting to the housing surrounding the drive unit and vibrating the outside of the housing by the vibration of the housing.

Therefore, a hand-held power tool has already been proposed in which a sheet-like rubber is wound around the outer periphery of the housing, a sponge is wound around the outer periphery of the housing, and a rubber cover is provided outside the sponge to absorb the noise generated in the housing. (Refer to patent document 1 etc.).
However, the sound absorbing structure such as the above-mentioned hand-held tool does not exhibit a sufficient sound absorbing effect, and a large amount of noise still leaks to the outside.

JP-A-9-109044

  In view of the above circumstances, an object of the present invention is to provide a hand-held power tool and an attachment with low noise.

  In order to achieve the above object, a hand-held power tool according to the present invention has a tool main body having a drive unit that is driven by power and an action unit that is mounted on the drive unit and acts on a workpiece by driving of the drive unit. In a hand-held power tool including a body, a part of at least one of a housing and an action body provided so as to surround the drive unit is covered with a sound absorbing structure including an air layer and a moisture-permeable resin layer. It is characterized by that.

  In the hand-held power tool of the present invention, the sound absorbing structure is preferably formed of a moisture permeable sheet material comprising a moisture permeable resin layer and a fiber sheet layer having an air layer therein as in the second aspect. Furthermore, as in claim 3, it is preferable to reduce noise in a frequency band of 2 kHz to 6 kHz which is a frequency band with high human auditory sensitivity, and 3 kHz to 5 kHz (1999) which is the highest region of human auditory sensitivity. It is more preferable to reduce the noise in the frequency band of “Easy-to-Understand Silencing Technology” p42 issued by the Industrial Research Committee.

  On the other hand, the attachment according to the present invention is an attachment for a hand-held power tool having an action part detachably attached to a drive part of the hand-held power tool, and at least a part thereof is covered with a sound absorbing structure including an air layer and a moisture-permeable resin layer. It is characterized by that.

  In the present invention, the hand-held power tool is not particularly limited. For example, impact rotary screw tightening tools such as impact wrench and oil pulse wrench, impact reciprocating tools such as chipping hammer and scaling hammer, nutrunner, ratchet wrench, etc. Non-impact rotary screw tightening tools, double action sanders, orbital sanders, grinders, disc sanders, polishers, belt sanders and other non-impact rotary polishing / polishing tools, reciprocating saws and other non-impact reciprocating cutting tools, etc. Examples of the driving method include an air driving type and an electric type (including a charging type).

The drive part is not only the hammer and driven bearing impact part, oil cylinder and vane part and motor part, but also the speed reduction means, piston sliding part, balance shaft part (for balancing, counterweight, balance weight, etc. ) Etc. are included.
In the present invention, the action part refers to a part acting on a workpiece by rotating, reciprocating, or the like by driving the drive part. For example, a socket hole into which a bolt head or a nut fits, a chisel The tip, the blade edge of the saw blade, the grinding surface of the disk, etc. can be mentioned.Sockets, chisels, saw blades, disks, etc. as working bodies equipped with such working parts are directly connected to the drive part or by screwing etc. It may be provided, or it may be an attachment that is detachable from the drive unit.

  In the present invention, the moisture permeable resin is not particularly limited as long as it allows water vapor to pass therethrough but has waterproofness. For example, fluororesin such as tetrafluoroethylene resin, polyurethane resin, polyethylene resin, poly Examples thereof include microporous materials such as amino acid urethane resins, and nonporous hygroscopic modified polyurethane resins.

Although it does not specifically limit as a hole diameter of microporous resin, About 0.1-10 micrometers is preferable and about 1-10 micrometers is more preferable.
Although it does not specifically limit as thickness of a moisture-permeable resin layer, About 10-85 micrometers is preferable.

Moisture permeability of the moisture-permeable resin layer is not particularly limited, 3000g ^/ m 2 · day or more 10000g ^/ m 2 · day or less.

The air layer is not particularly limited. For example, a columnar spacer is provided between the housing and the moisture-permeable resin layer, and a gap serving as an air layer is formed between the moisture-permeable resin layer and the housing. Examples thereof include a method and a method in which a fiber structure material including an air layer is interposed inside a woven or knitted fabric or nonwoven fabric of synthetic fibers or natural fibers between the moisture-permeable resin layer and the housing.
Note that as the sound absorbing structure, a commercially available moisture permeable sheet material in which a moisture permeable resin layer and a fiber structure material constituting an air layer are integrally formed in a sheet shape in advance may be used.

  Examples of the moisture-permeable sheet material as described above include a microporous fluororesin film such as Gore-Tex membrane manufactured by Gore-Tex (Gore-Tex is a registered trademark) and Micro-Tex manufactured by Nitto Denko (Micro-Tex is a registered trademark). Woven fabric (base fabric) using synthetic fiber or natural fiber, microporous laminate type that is bonded to non-woven fabric, felt, net, etc. with adhesive, polyamino acid urethane resin and entrant made by Toray Cortex Co., Ltd. ENTRANT is a coating type in which a microporous moisture-permeable resin layer is formed by coating a resin solution obtained by dissolving a polyurethane resin such as registered trademark) in an organic solvent on one side of a woven or knitted fabric and then removing the solvent and solidifying the coating. Hygroscopic modified polyurethane as disclosed in Japanese Patent No. 30576 Porous hydrophilic urethane resin), special polyester resin, hydrophobic polyamino acid resin film, etc. are bonded to knitted fabrics (base fabrics), nonwoven fabrics, felts, nets, etc. using synthetic fibers or natural fibers with an adhesive. Perforated moisture permeable resin laminate type, hygroscopic modified polyurethane (nonporous hydrophilic urethane resin), special polyester resin, knitted fabric (base fabric) using synthetic fiber or natural fiber of hydrophobic polyamino acid resin, non-woven fabric, Examples include coating types that are applied to felts, nets, and the like.

  Since the hand-held power tool according to the present invention is configured as described above, it can be operated in a quiet work environment with less noise than conventional hand-held power tools.

  Further, if the sound absorbing structure is formed of a moisture permeable sheet material comprising a moisture permeable resin layer and a fiber sheet layer having an air layer therein, the sound absorbing structure can be easily manufactured.

  Furthermore, if noise in the frequency band of 2 kHz to 6 kHz, which is a frequency band with high human auditory sensitivity, is reduced, it is possible to most efficiently prevent the operator from feeling uncomfortable with noise.

  On the other hand, since the attachment according to the present invention is configured as described above, it is possible to suppress noise generated between the work object and the action part, to further reduce noise, and to use an existing handheld power tool. If it is attached to, the noise of the existing hand-held power tool can be reduced.

Hereinafter, the present invention will be described in detail with reference to the drawings showing embodiments thereof.
FIG. 1 shows an impact wrench as an example of a hand-held power tool according to the present invention.

As shown in FIG. 1, the impact wrench A includes a tool body 1a and a socket 2a as an attachment having an action portion.
In the tool body 1a, a drive unit 4a having a motor 41 and a driven shaft 42 is provided in an aluminum housing 3a, and a socket 2a is detachably provided at the tip of the driven shaft 42.

And the circumference | surroundings of the housing 3a are covered with the sound-absorbing structure 9 which consists of the nonwoven fabric 5 of thickness about 2-10 mm, and the moisture-permeable sheet material 6. FIG.
As shown in FIG. 2, the moisture permeable sheet material 6 is made from a microporous resin such as Gore-Tex membrane (Gore-Tex is a registered trademark) manufactured by Japan Gore-Tex, or Microtex (Micro-Tex is a registered trademark) manufactured by Nitto Denko. A commercially available product in which a moisture permeable resin layer 61 and a fiber sheet 62 made of a nonwoven fabric or the like are laminated is used, and the fiber sheet 62 is wound around the nonwoven fabric 5 with the fiber sheet 62 side facing the nonwoven fabric 5 side. Yes.

Around the moisture permeable sheet material 6, a resin protector 7 a for protecting the moisture permeable sheet material 6 and the nonwoven fabric 5 from dirt and breakage is covered.
The resin protector 7a is integrally provided with a tool main body cover portion 71 provided so as to cover the tool main body 1a and a cylindrical socket cover portion 72 provided so as to surround a portion of the socket 2a.

The socket cover 72 has a maximum diameter that is attached to the tip 42a of the driven shaft 42 in which the moisture-permeable sheet material 6 and the nonwoven fabric 5 are laminated on the inner peripheral surface and the inner diameter extends from the central portion of the housing 3a. The outer diameter of the socket 2a is larger.
In the impact wrench A, the socket 2a that fits the diameter of the bolt 8 or nut as a workpiece to be tightened or loosened is set on the tip 42a of the driven shaft 42, and then the working portion of the socket 2a. The head 81 of the bolt 8 faces the inside of the hole 20, and the motor 41 is rotated by air, and the socket 2a is rotated via the driven shaft 42 by the rotational driving force to tighten or loosen the screw. It is like that.

  As described above, since the moisture permeable sheet material 6 is wound around the drive unit 4a of the tool main body 1a, the impact wrench A has an impact generated when the hammer 43 strikes the driven shaft 42. Along with noise, noise generated in the housing 3a such as scratching noise generated when the motor rotates is reduced. Therefore, the soundproofing effect is high.

  That is, the noise generated in the housing 3a is first transmitted to the inside of the nonwoven fabric 5 which is a kind of porous sound absorbing material, and the air in the small holes inside the nonwoven fabric 5 is vibrated, whereby the sound energy is converted into thermal energy. The noise is reduced a little. The noise that has not been absorbed by the nonwoven fabric 5 is further converted into thermal energy by the air layer inside the fiber sheet 62 of the moisture permeable sheet material 6, and then the fine energy provided in the moisture permeable resin layer 61. Resonance is absorbed by the holes, and sound is absorbed over a wide frequency range.

Moreover, the socket 2a attached to the tip 42a of the driven shaft 42 is surrounded by the socket cover portion 72, and the moisture permeable sheet material 6 and the nonwoven fabric 5 are formed on the inner peripheral surface of the socket cover portion 72. Since they are stacked, the non-woven fabric 5 and the moisture-permeable sheet material 6 absorb sound that is generated by hitting the socket 2 a by the driven shaft 42 and hitting the bolt head 81 by the socket 2 a.
Therefore, the noise reduction effect is increased and a quiet working environment can be obtained.

Moreover, since the sound absorbing structure 9 is formed by the moisture permeable sheet material 6 in which the moisture permeable resin layer 61 and the fiber sheet 62 made of a nonwoven fabric or the like are laminated, the impact wrench A of the present invention is easily manufactured. be able to.
In the case of the impact wrench A, the tool main body cover portion 71 and the socket cover portion 72 of the resin protector 7a are integrated, but the socket cover portion 72 is detachable from the tool main body cover portion 71. Whenever it replaces | exchanges for the socket 2a of diameter, you may make it replace | exchange for the socket cover part 72 suitable for the outer diameter of the socket 2a. In this way, noise generated at the socket 2a can be further reduced.

FIG. 3 shows another impact wrench as an example of a hand-held power tool according to the present invention and a socket as an example of an attachment according to the present invention.
As shown in FIG. 3, the impact wrench B has a structure in which the resin protector 7 b is not provided with a socket cover part, and the socket 2 b has a structure in which the nonwoven fabric 5 and the moisture-permeable sheet material 6 are laminated around the socket body 21. The impact wrench A is the same as the above except that it is.

As described above, in the impact wrench B, the resin protector 7b does not include the socket cover portion, and the socket 2b which is the attachment of the present invention in which the nonwoven fabric 5 and the moisture-permeable sheet material 6 are laminated around the socket body 21. Since there is no limitation on the diameter of the socket 2b, that is, a socket 2b having a large diameter can be mounted. Therefore, if the socket 2b is replaced, bolts and nuts of various diameters can be tightened or loosened with only one type of impact wrench B as compared with the impact wrench A described above.
In addition, since the non-woven fabric 5 and the moisture permeable sheet material 6 are laminated around the socket body 21, the socket 2b reduces noise generation of the existing impact wrench if it is attached to the existing impact wrench. can do. In FIG. 3, reference numeral 1a denotes a tool body.

FIG. 4 shows an oil pulse wrench as an example of a hand-held power tool according to the present invention.
As shown in FIG. 4, the oil pulse wrench C is the same as the impact wrench described above except that the nonwoven fabric 5 layer is not provided between the housing 3 c that covers the drive unit 4 c of the tool body 1 c and the moisture permeable sheet material 6. The same sound absorbing structure as B is provided.

Since the oil pulse wrench C is not provided with the layer of the nonwoven fabric 5 as described above, the oil pulse wrench C can be reduced in size as compared with the one provided with the layer of the nonwoven fabric 5.
In FIG. 4, 7c is a resin protector.

FIG. 5 shows a chipping hammer as an example of a hand-held power tool according to the present invention.
As shown in FIG. 5, the chipping hammer D includes a housing 3d of the tool body 1d, a cylinder part 45 of the drive part 4d, and a part surrounding the cylinder insertion part side 23 of the chisel 2d as an attachment having an action part. However, the inner surface is covered with a resin protector 7d having a moisture permeable sheet material 6 that is a sound absorbing structure by itself. As shown in FIGS. 5 and 6, the chisel 2 d is covered with a moisture permeable sheet material 6 that serves as a sound absorbing structure, except for the tip portion that serves as the action portion of the chisel body 25 and the cylinder insertion portion side.

Therefore, the noise generated in the housing 3d and the noise generated by the vibration of the chisel 2d when the chisel 2d cuts the surface of the workpiece (not shown) are also well absorbed by the moisture permeable sheet material 6 as the sound absorbing structure. Noise can be reduced.
Further, since the chisel 2d is covered with the moisture permeable sheet material 6 except for the tip portion and the cylinder insertion portion side which are the working portions of the chisel body 25, if the chisel 2d is attached to an existing chipping hammer, Generation of noise can be reduced.

FIG. 7 shows a nutrunner as an example of a hand-held power tool according to the present invention.
As shown in FIG. 7, this nut runner E is the same as the impact wrench B except that a layer of nonwoven fabric 5 is not provided between the housing 3 e that covers the drive unit 4 e of the tool body 1 e and the moisture permeable sheet material 6. It has the same sound absorbing structure. In FIG. 7, 2e is a socket as an attachment, and 7e is a resin protector.

FIG. 8 shows a ratchet wrench as an example of a hand-held power tool according to the present invention.
As shown in FIG. 8, this ratchet wrench F has the above-described impact wrench B except that a layer of non-woven fabric 5 is not provided between the housing 3f covering the drive part 4f of the tool body 1f and the moisture-permeable sheet material 6. It has the same sound absorption structure.
In FIG. 8, 7f is a resin protector.

FIG. 9 shows a double action sander as an example of a hand-held power tool according to the present invention.
As shown in FIG. 9, this double action sander G is the same as the above impact wrench except that the nonwoven fabric 5 layer is not provided between the housing 3g and the moisture permeable sheet material 6 that cover the drive part 4g of the tool body 1g. The same sound absorbing structure as B is provided. In FIG. 9, 2g is a disk as an attachment, and 7g is a resin protector.

FIG. 10 shows a reciprocating saw as an example of a hand-held power tool according to the present invention.
As shown in FIG. 10, the reciprocating saw H is the same as the impact wrench B except that a layer of nonwoven fabric 5 is not provided between the housing 3 h that covers the drive unit 4 h of the tool body 1 h and the moisture permeable sheet material 6. It has the same sound absorbing structure. In FIG. 10, 2h is a saw blade as an attachment, and 7h is a resin protector.

FIG. 11 shows another example of a socket and a connecting rod as an example of the attachment according to the present invention.
As shown in FIG. 11, the socket 2i and the connecting rod 2j are covered with a moisture permeable sheet material 6 except for the socket fitting portion 27 of the connecting rod main body 26, and an impact wrench as shown in FIG. It can be attached to B or existing impact wrench. In FIG. 11, reference numeral 28 denotes a socket body.

Cover the housing of an existing air impact wrench (with air impact wrench KW-1600Spro exhaust hose (30 cm) manufactured by Kuken Co., Ltd.) with a 10 mm thick non-woven fabric (Sinsalate (registered trademark) NL200L manufactured by Sumitomo 3M Co.) that forms an air layer. , moisture vapor permeable sheet material of 1.7mm on the outside (Anbikku Ltd. trade name FT0503F (thickness nonwoven 15 [mu] m, moisture permeability 8000g ^{/ m} 2 · 24 hours tetrafluoroethylene resin porous membrane (manufactured by Nitto Denko Corporation micro A sample air impact wrench was produced as an example of the hand-held tool of the present invention, in which a tex (Microtex is a registered trademark)) was wound, and a tool body cover part was attached to the outermost side.

  Further, the sample air impact wrench of the present invention described above is used except that the housing is covered with a 20 mm thick polyether resin sound absorbing foam (Bridgestone sound absorbing foam VD) instead of the nonwoven fabric and the moisture permeable sheet material. In the same manner, a sample air impact wrench of a comparative example was produced.

  And it generate | occur | produces when a fixed striking board is struck in each of the sample air impact wrench of the Example and comparative example which were obtained as mentioned above. The noise was collected three times for 5 seconds using frequency correction circuit A characteristics (JIS C 1505: 1988), analyzed by 1/3 octave, and the average value of the noise level at each center frequency was obtained. Is shown in the graph of FIG. The microphone position was a point at an elevation angle of 45 ° at a distance of 1 m from the geometric center point of the impact wrench, and the exhaust direction was a horizontal direction that was 90 ° with respect to the microphone position.

  As shown in FIG. 12, the noise level in the entire frequency band (AP: all pass) was almost the same, but in the 1/3 octave analysis, around 3 to 5 kHz, which is the most sensitive region for human hearing. Among them, a big difference was observed at 5 kHz. That is, in the comparative example, the noise level was 81.6 dB at the maximum in all frequency bands at 5 kHz, whereas in the example, the noise level was 74.8 dB at 5 kHz. Compared to the above, the noise level is reduced by 6.8 dB. Further, according to the result of evaluating the sound obtained by superimposing various frequency-modulated sounds (FM sounds) on the simulated air-conditioning sound by the SD method (Semantic Differential Method), the higher the frequency, the more the sound evaluation becomes “uncomfortable. "Soundy" (Fuji Techno System Co., Ltd. 2000 "Sound Environment and Control Technology" Vol. 1, Basic Technology P128-130).

  Therefore, as described above, the noise level of 5 kHz that gives the impression of “uncomfortable” and “stiff” in the frequency range of 3 to 5 kHz, which is the most sensitive frequency range for human hearing, is greatly reduced. It can be said that it is possible to remarkably improve noise discomfort for an operator who operates a hand-held power tool.

FIG. 1 is a cross-sectional view of an impact wrench as an example of a hand-held power tool according to the present invention.
FIG. 2 is a diagram schematically showing a cross section of a moisture-permeable sheet material used in the hand-held power tool of the present invention.
FIG. 3 is a cross-sectional view of another impact wrench as an example of a hand-held power tool according to the present invention.
FIG. 4 is a cross-sectional view of an oil pulse wrench as an example of a hand-held power tool according to the present invention.
FIG. 5 is a cross-sectional view of a chipping hammer as an example of a hand-held power tool according to the present invention.
[FIG. 6] A chisel as an example of an attachment according to the present invention, wherein FIG. 6 (a) is a partially cutaway plan view, and FIG. 6 (b) is a partially cutaway side view thereof.
FIG. 7 is a sectional view of a nutrunner as an example of a hand-held power tool according to the present invention.
FIG. 8 is a cross-sectional view of a ratchet wrench as an example of a hand-held power tool according to the present invention.
FIG. 9 is a cross-sectional view of a double action sander as an example of a hand-held power tool according to the present invention.
FIG. 10 is a cross-sectional view of a reciprocating saw as an example of a hand-held power tool according to the present invention.
FIG. 11 is a cross-sectional view showing a socket and a connecting rod as an example of the attachment according to the present invention.
FIG. 12 is a graph showing a comparison of noise levels by frequency band between the air impact wrench of the example and the air impact wrench of the comparative example.

Explanation of symbols

A, B Impact wrench (hand-held power tool)
C Oil pulse wrench (hand-held power tool)
D Chipping hammer (hand-held power tool)
E Nutrunner (hand-held power tool)
F ratchet wrench (hand-held power tool)
G double action sander (hand-held power tool)
H Reciprocating saw (hand-held power tool)
1a, 1c-1h Tool body 2a, 2b, 2e, 2i Socket (attachment)
2d chisel (attachment)
2j Connecting rod (attachment)
3a, 3c-3h Housing 4a, 4c-4h Drive part 5 Non-woven fabric 6 Moisture permeable sheet material 7a-7h Resin protector 8 Bolt (work object)
9 Sound absorption structure 20 Hole (action part)

[0002]
As with the impact wrench, when the rear end of the lure (impact force transmission element) is hit, and when the subsequent chisel hits the workpiece, the surrounding noise is generated by the vibration of the housing and chisel. It has become.
In the case of a double action sander, which is one of the air sanders, the vibration caused by rubbing between the vane and the cylinder during the rotation of the air motor and the sound of stirring the air in the housing when the balance shaft rotates eccentrically. The vibration is transmitted to the housing surrounding the drive unit, and the air outside the housing is vibrated by the vibration of the housing, thereby generating noise around the drive unit.
Therefore, there is a hand-held power tool in which a sheet-like rubber is wound around the outer periphery of the housing, a sponge is wound around the outer periphery of the housing, and a rubber cover is provided outside the sponge so as to absorb noise generated in the housing. It has already been proposed (see Patent Document 1).
However, the sound absorbing structure such as the above-mentioned hand-held tool does not exhibit a sufficient sound absorbing effect, and a large amount of noise still leaks to the outside.
[Patent Document 1] JP-A-9-109044 [Disclosure of the Invention]
[Problems to be solved by the invention]
In view of the above circumstances, an object of the present invention is to provide a hand-held power tool and an attachment with low noise.
[Means for Solving the Problems]
In order to achieve the above object, a hand-held power tool according to the present invention includes a tool main body having a drive unit that is driven by power, and an action unit that is attached to the drive unit and acts on a workpiece by driving the drive unit. In a hand-held power tool comprising an action body having a function, a part of at least one of a housing and an action body provided so as to surround the drive unit is permeable to an air layer and water vapor, but is waterproof. It is characterized by being covered with a sound absorbing structure provided with a wet resin layer.
In the hand-held power tool of the present invention, the sound absorbing structure is formed of a moisture permeable sheet material comprising a moisture permeable resin layer and a fiber sheet layer having an air layer therein as in claim 2.

[0003]
It is preferable. Further, as in claim 3, it is preferable to reduce noise in a frequency band of 2 kHz to 6 kHz which is a frequency band with high human auditory sensitivity, and 3 kHz to 5 kHz (1999) which is the highest human auditory sensitivity region. It is more preferable to reduce the noise in the frequency band of “Easy-to-understand noise reduction technology” p.
On the other hand, the attachment according to the present invention has an action part, and in the attachment for a hand-held power tool that is detachable from the drive part of the hand-held power tool, at least a part of the air layer and water vapor permeate, It is characterized by being covered with a sound-absorbing structure including a moisture-permeable resin layer having waterproofness.
In the present invention, the hand-held power tool is not particularly limited. For example, impact rotary screw tightening tools such as impact wrench and oil pulse wrench, impact reciprocating tools such as chipping hammer and scaling hammer, nutrunner, Non-impact rotary screw tightening tools such as ratchet wrench, non-impact rotary polishing and polishing tools such as double action sanders, orbital sanders, grinders, disc sanders, polishers, belt sanders, and non-impact reciprocating cutting tools such as reciprocating saws, etc. Examples of the driving method include an air driving type and an electric type (including a charging type).
The drive part is not only a hammer and driven bearing strike part, oil cylinder and vane part and motor part, but also a speed reduction means, a piston sliding part, a balance shaft part (for balancing, a counterweight, Such as a balance weight).
In the present invention, the action part refers to a part acting on a workpiece by rotating, reciprocating, or the like by driving the drive part. For example, a socket hole into which a bolt head or a nut fits, a chisel The tip, the blade edge of the saw blade, the grinding surface of the disk, etc. can be mentioned.Sockets, chisels, saw blades, disks, etc. as working bodies equipped with such working parts are directly connected to the drive part or by screwing etc. It may be provided, or it may be an attachment that is detachable from the drive unit.
In the present invention, the moisture-permeable resin is not particularly limited as long as it allows water vapor to pass therethrough but has waterproofness. For example, fluorine resin such as tetrafluoroethylene resin, polyurethane resin, polyethylene Examples thereof include microporous materials such as resins and polyamino acid urethane resins, and nonporous hygroscopic modified polyurethane resins.

Claims (4)

In a hand-held power tool comprising a tool body having a drive unit that is driven by power, and an action body that is mounted on the drive unit and has an action unit that acts on a workpiece by driving the drive unit,
A hand-held power tool, wherein a part of at least one of a housing and an action body provided so as to surround a drive unit is covered with a sound absorbing structure including an air layer and a moisture-permeable resin layer. The hand-held power tool according to claim 1, wherein the sound absorbing structure is formed of a moisture permeable sheet material comprising a moisture permeable resin layer and a fiber sheet layer having an air layer therein. The hand-held power tool according to claim 1 or claim 2, which reduces noise in a frequency band of 2 kHz to 6 kHz. An attachment for a hand-held power tool that has an action part and is detachable from a drive part of the hand-held power tool, wherein at least a part of the attachment is covered with a sound absorbing structure including an air layer and a moisture-permeable resin layer. Attachment to do.

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