JP5578251B2 - Pneumatic tool - Google Patents

Description

  The present invention relates to a pneumatic tool with an air duster provided with an air duster for blowing compressed air to a pneumatic tool such as a nailing machine, a screw driving machine, and a screwing machine using compressed air as a driving source.

  For example, when wood nails are driven into a base material of a floor material in flooring construction, fine wood chips or the like may fall on the base material. If this is left as it is and a finishing material is stacked on the base material and a nail is driven in, the finishing material will rise due to wood chips on the base material, and the work must be repeated. In order to prevent such inconvenience, the surface of the base material is cleaned with an air duster, and then the finishing material is set and the driving work is performed. However, since the air duster was provided separately from the nail driver, it was very troublesome because the nailer and the air duster had to be frequently changed during the operation of driving a large number of finishing materials.

In order to solve such inconvenience, there is known a nailing machine provided with an air duster itself (see Patent Documents 1, 2, and 3). According to this, it is not necessary to change the nail driver and the air duster one by one, which is convenient in that respect.
Japanese Patent No. 3385875 JP 2004-1135 A JP 2004-1136 A

  However, the nailer with the air duster described above has the following drawbacks.

  First, since compressed air is directly emitted from the air chamber, the launching direction of the fastener is different from the blowing direction of the compressed air. Therefore, when using an air duster, the operator has to change the direction of the pneumatic tool, so that it is difficult to work, and it is difficult to aim when the object (such as wood chips) is small.

  In addition, when high-pressure air is used, the blown air pressure is so high that wood chips and the like may be blown out more than necessary. For this reason, some air pressure lines are connected to the nozzle with a pressure reducing valve (see Patent Document 3). However, the number of parts increases, the nail driver becomes heavy, and the cost increases.

  It is an object of the present invention to provide a pneumatic tool that solves the above-described problems in the prior art, and can particularly improve workability and operability by setting the outlet to an optimum position.

In order to solve the above-mentioned problem, the invention according to claim 1 includes a tool body, a grip projecting laterally from the upper part of the tool body, a fastener injection nose part provided at the lower part of the tool body, and a tool. Rutotomoni disposed along the body, and is connected to the outlet opening to the vicinity of the nose section, a pipe for forming the air duster that to blow air from the outlet, and an operation unit for controlling the balloon of the duster The pipe is connected to a blowout opening that opens in the vicinity of the nose part, and is formed so as to blow out air from the blowout opening, and a tip end of the pipe connected to the blowout opening is the nose part are arranged in the outlet are opened in the driving direction of the fastener, the operation unit, when holding the grip of the tool body, a thumb or human difference Characterized in that it is arranged within a range where the finger can reach.

According to a second aspect of the present invention, in the first aspect, the pipe is connected to an air chamber that stores compressed air for driving the tool via an open / close valve, and the open / close valve can be opened and closed by operating the operation unit. characterized in that there.

  The invention according to claim 3 is characterized in that, in claim 1 or 2, the pipe is piped through a cushioning material.

  According to a fourth aspect of the present invention, in any one of the first to third aspects, a filter is provided in the middle of the pipe so as to be replaceable.

According to a fifth aspect of the present invention, in any one of the first to fourth aspects, a pipe inner diameter changes in a middle portion of the pipe .

  According to the first aspect of the present invention, since the tip end of the pipe connected to the blowout port is arranged in parallel with the nose portion, and the blowout port opens in the fastener driving direction, the blowout port is positioned at the optimum position. Therefore, the workability and operability of the pneumatic tool can be significantly improved.

  Also, since the high-pressure compressed air is depressurized by the pipe resistance when passing through the air pipe, it is preferable that the air pipe is long to some extent, and is moderate enough to blow off the wood chips when blown from the outlet. Since it is a pressure, it is not necessary to provide a special pressure reducing valve, the structure of the air duster is simple, the cost can be kept low, and the flow can be easily controlled.

  Furthermore, the lubricating oil injected into the nailing machine body does not turn to the air duster along with the dirt of the striking mechanism including the air chamber, and even if the compressed air is blown onto the target material, the dirty oil will not adhere to the surface. .

  In addition, since the air pipe is piped along the tool body, it can be piped regardless of the position of various complicated mechanisms provided in the tool body, and the air pipe does not impair the appearance design of the pneumatic tool. .

  Further, since the air outlet is arranged in the vicinity of the nose portion and air is blown out from the air outlet along the direction in which the fastener is driven, the operator needs to change the direction of the pneumatic tool when using the air duster. There is no workability.

In addition , an operation unit that controls the blow-out of the air duster is provided. It can be operated as it is without changing.

  According to the invention of claim 3, since the pipe is piped through a cushioning material, it is effective that the air pipe vibrates and generates chatter noise when compressed air passes when the air duster is used. Can be prevented and used comfortably.

  According to the fourth aspect of the invention, since the filter is provided in the middle of the air conduit so as to be replaceable, the contaminant is removed when oil or the like is mixed in the compressed air in the air conduit. Dry air can be blown out and can be replaced when the filter becomes dirty.

  Hereinafter, an embodiment of a pneumatic tool according to the present invention will be described with a nailing machine based on the drawings. The pneumatic tool is not limited to a nailing machine. Any device may be used as long as it is driven using compressed air. For example, a screw driver for driving a driving screw, an impact driver for driving a screw or a bolt, or the like may be used.

  The tool body 1 of the nailing machine is provided with a striking mechanism. Although the striking mechanism is not shown, the striking piston slidably accommodated in the striking cylinder provided in the tool body 1 is driven using the compressed air stored in the air chamber so as to be integrated with the striking piston. A nail (headless nail, finish nail, etc.) supplied from the magazine 2 into the nose portion 3 for nailing is struck out by a combined driver. The striking mechanism is activated by operating the trigger lever 9.

  The air chamber is an internal air chamber for storing compressed air mainly formed around the impact cylinder, and is continuous with the air chamber 5 formed inside the grip 4 provided at the rear part of the tool body 1. . The basic structure of the tool body 1 such as the striking mechanism is well known.

  Next, the compressed air is configured to be taken into the air chamber from the opening at the rear end of the grip 4 through an air supply pipe 6 connected to an air supply source (not shown) such as an air compressor. The supply pipe 6 is branched from an air pipe 8 leading to the air duster 7.

  The tip of the air pipe 8 is connected to a blowout port 7a of an air duster 7, which will be described later, and the compressed air in the air supply pipe 6 passes through the air pipe 8 via the switching operation means and is blown out from the blowout port 7a. It is comprised so that.

  The outlet 7a can be provided at an optimum position for blowing off wood chips and the like. Since the nail is driven into a position where wood chips and the like have been blown away, it is preferable that the compressed air be blown out in the vicinity of the position where the nail is driven out along the nail driving direction. The blowout port 7a is preferably disposed along the nose portion 3 as shown in the drawing and is directed downward so as to be blown out in parallel with the nail launch direction or on the extension of the nail launch direction.

  Next, the air pipe 8 branches from the air supply pipe 6 and hangs down from the rear end of the grip 4 to the rear end of the magazine 2, and further extends along the longitudinal direction of the magazine 2. It is comprised so that it may connect with the blowing outlet 7a.

  The air pipe 8 is preferably made of metal. Further, the front part 8a and the rear part 8b of the air pipe line 8 are connected by a connecting member 10, and the connecting member 10 is composed of an outer cylinder body 10a and an inner cylinder body 10b screwed to the outer cylinder body 10a. The flow rate of the compressed air is adjusted by screwing so that the inner diameter of the body 10a becomes larger than the screw-side end of the inner cylinder 10b and the flow rate decreases as the screwing amount of the inner cylinder 10b increases. A flow rate adjusting mechanism may be provided.

  The air duct 8 is attached to the magazine 2 via a buffer material (elastic material 11, O-ring 15). That is, as shown in FIG. 2A, the rear air duct 8 b is disposed on the upper part of the magazine 2, but is supported by the magazine 2 via the elastic material 11. The front air duct 8a is arranged inside a support member 13 fixed to the front side surface of the magazine 2 with a bolt 12 as shown in FIG. A concave groove 14 is formed inside the support member 13, and several O-rings 15 are wound around the air duct 8 a, and the air duct 8 a is connected to the inner surface of the concave groove 14 via the O-ring 15. And a side surface of the cover 27.

  Next, a switching operation means, a switching valve 16 (switching means) and an operation operation means 17 thereof are provided, and the switching valve 16 is provided at a branch portion between the air supply pipe 6 and the air pipe line 8. . Although not shown, the switching valve 16 is configured to selectively supply the compressed air supplied from the air supply pipe 6 to one of the air chamber and the air duct 8 for the air duster 7. The operating operation means 17 opens and closes a switching valve 16 provided between the air chamber and the air supply pipe 6 by an operation button 19 to send compressed air inside the air chamber to the switching valve 16 for switching. It controls the operation. This is because, when the operation button 19 is pressed, the opening / closing valve normally urged in the closing direction is opened and the compressed air in the air chamber is sent to the switching valve 16 via the control pipe 18 to send the air line. 8 is opened (closed to the air chamber) to cause the compressed air to blow out from the outlet 7a of the air duster 7, and the operation button 19 is released to close the control pipe 18 and close the air line 8 ( What is necessary is just to comprise so that the blowing from the blowing outlet 7a of the air duster 7 may be stopped by operating in the direction which opens to an air chamber.

  In the above configuration, when the air duster 7 is used, the switching valve 16 may be operated so that the air conduit 8 is opened by pressing the operation button 19 of the switching operation means with the blowing port 7a directed to the target position. Thereby, compressed air blows out from the blower outlet 7a, and wood dust etc. can be blown away. After use, the finger may be released from the operation button 19 and the switching valve 16 may be operated so as to close the air line 8 again.

  As described above, according to the pneumatic tool having the above-described configuration, the switching operation means for switching between the air supply pipe 6 and the branched air pipe 8 and the air outlet 7a are provided as the tool body 1 and the nose part 3 respectively. Alternatively, the grip 4 can be provided at an optimum position. Therefore, the workability and operability of the nailer can be significantly improved.

  In addition, the length of the air pipe 8 must be from the portion branched from the air supply pipe 6 to the outlet 7a, but the high-pressure compressed air is reduced in pressure by the pipe resistance when passing through the air pipe 8. Therefore, it is preferable that the air pipe 8 be somewhat long. When the air pipe 8 is blown out from the blowout port 7a, the pressure is moderate enough to blow off the wood chips. Therefore, it is not necessary to provide a special pressure reducing valve. The structure is simple and the cost can be kept low.

  Furthermore, the lubricating oil injected into the tool body 1 does not turn to the air duster 7 together with the dirt of the striking mechanism including the air chamber, and the dirty oil does not adhere to the surface even when compressed air is blown onto the target material. .

  Since the air pipe 8 is piped along the magazine 2, the air pipe 8 can be piped regardless of the positions of various complicated mechanisms provided in the tool body 1, and the air pipe piped along the magazine 2. Since 8 is inconspicuous, the air line 8 does not impair the appearance design of the pneumatic tool.

  Further, the operation operating means 17 of the air pipe 8 branched from the air supply pipe 6 and the air outlet 7a are respectively the optimum positions of the tool body 1, the nose part 3 or the grip 4, for example, the operation buttons 19 are used for the tool body 1. It can arrange | position in the range which the grasped worker's thumb or index finger reaches. In this position, when the right-handed operator grips the grip 4, the operation button 19 can be pushed in with the thumb without changing the grip. When the operator is left-handed, when the grip 4 is gripped, the operation button 19 can be pushed and operated with the index finger without changing the grip, so that the workability and operability of the pneumatic tool can be improved. Can be significantly improved.

  In this connection, since the blowing nozzle is arranged in the vicinity of the nose portion 3 and air is blown out from the blowing port 7a along the direction in which the fastener is driven, when the air duster 7 is used, the operator Workability is good because there is no need to change the direction of the tool.

  Furthermore, since the air duct 8 is made of metal, sufficient strength is ensured. Further, the air pipe 8 is provided with a flow rate adjusting mechanism, and the amount of blowout from the blowout port 7a can be adjusted, so that wood chips do not fly too much and are not scattered or poorly blown out.

  Moreover, since the air pipe 8 is piped through the cushioning materials 11 and 15, it is effective that the air pipe 8 vibrates and generates chatter noise when compressed air passes when the air duster 7 is used. In addition to being able to prevent, it can be used comfortably, and even if the air duct 8 is bent halfway, it can be firmly fixed. When the cushioning material is constituted by the O-ring 15, it can be easily procured from the market, and it is not necessary to start a new mold.

  The configuration of the air duster 7 is not limited to the above-described embodiment.

  For example, the air conduit 8 may be continuously piped along the tool body 1 from the grip 4 as shown in FIG. In this case, since the air conduit 8 can be piped inside the grip 4 and the tool body 1, the air conduit 8 is hardly exposed to the outside, and the air conduit 8 impairs the external design of the pneumatic tool. There is nothing. A part 8c of the air duct 8 may be formed with a small diameter as shown in FIG.

  Further, the position of the blowout port 7a may be arranged in the vicinity of the nose portion 3, and may be slightly separated from the nose portion 3 as shown in FIG. 4, and in front of the nose portion 3 as shown in FIG. You may form so that it may be bent and droop.

  Further, as shown in FIGS. 6 (a) and 6 (b), an expandable / contractible blowing nozzle 20 is provided in the blowing port 7a so that it can be retracted and retracted when the air duster 7 is not used. You may make it blow out to the exact position.

  Next, the connection of the front and rear air ducts 8 is not limited to the above-described form. For example, as shown in FIG. 7, the filter 21 may be arranged inside the connecting member 10. Further, as shown in FIGS. 8 and 9A and 9B, the side portion of the connecting member 10 can be opened and closed by the revolving door 22, and the revolving door 22 is closed and the revolving door 22 is opened during normal work. The filter 21 may be taken out of the connecting portion and replaced. Reference numeral 23 denotes a sealing material.

  In this way, by allowing the filter 21 to be exchanged in the middle of the air conduit 8, when the oil or the like is mixed into the compressed air in the air conduit 8, the contaminants are removed and the dry air is blown out. In addition, the filter 21 can be replaced when it becomes dirty.

  Furthermore, the air pipe 8 is not branched from the air supply pipe 6, but one end 8c thereof is connected to the air chamber (reference numeral 23 is shown in FIGS. A part of the air chamber may be opened, piped in parallel along the tool body 1, and connected to a blowing port 7 a disposed in the vicinity of the nose portion 3.

  In this case, the open / close valve 25 that directly opens and closes the air conduit 8 connecting the air chamber and the air outlet 7a of the air duster 7 is operated by operating the operation button 19, and the compressed air in the air chamber is supplied to the air duster as needed. What is necessary is just to comprise so that it may make it blow out from 7 blower outlets 7a. That is, in the state of FIG. 11 (a), the O-ring 26 of the opening / closing valve is in a state of closing the air conduit 8, but when the operation button 19 is pressed as shown in FIG. Since the air pipe 8 is moved to a position where the air pipe 8 is opened, the compressed air in the air chamber is supplied to the air pipe 8 and blown out from the blowout port 7a.

The side view which showed a part of nailing machine which concerns on this invention in the cross section (A) (b) is an expanded sectional view on the AA line and BB line of FIG. Side view of a nail driver showing another embodiment of an air pipeline in partial cross section Side view of a nailer showing another embodiment of a blowout outlet in partial cross section Side view of a nailing machine showing another embodiment of the outlet in partial cross section (A) (b) is sectional drawing which shows the front and back of the form of blowing which provided the blowing nozzle in the blowing outlet Sectional drawing of the principal part of embodiment which provided the filter in the air line Sectional drawing of the principal part of other embodiment which provided the filter in the air line (A) and (b) are enlarged end views on line CC in FIG. Side view of a nailing machine showing an aspect in which an air line is connected to an air chamber (A) and (b) are enlarged end views on line DD in FIG.

DESCRIPTION OF SYMBOLS 1 Tool main body 2 Magazine 3 Nose part 6 Air supply pipe 7 Air duster 7a Outlet 8 Air pipe line 17 Operation means

Claims (5)

A tool body;
A grip projecting sideways from the top of the tool body;
A nose part for fastener injection provided at the bottom of the tool body;
Rutotomoni disposed along the tool body, is connected to the outlet opening to the vicinity of the nose section, a pipe for forming the air duster that to blow air from the outlet,
An operation unit for controlling the blowing of the air duster;
With
The tip of the pipe connected to the blowout port is arranged in parallel with the nose part, and the blowout port opens in the driving direction of the fastener ,
The pneumatic tool according to claim 1, wherein the operation unit is disposed within a range in which a thumb or an index finger can reach when a grip of the tool body is gripped . The said piping is connected to the air chamber which stores the compressed air for a tool drive via an opening / closing valve, The said opening / closing valve can be opened and closed by operation of the said operation part, It is characterized by the above-mentioned. Pneumatic tool.   The pneumatic tool according to claim 1, wherein the pipe is piped through a cushioning material.   The pneumatic tool according to any one of claims 1 to 3, wherein a filter is provided in the middle of the pipe so as to be replaceable. The pneumatic tool according to any one of claims 1 to 4, wherein a pipe inner diameter changes in a middle portion of the pipe .

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