JP5826614B2 - Air compressor - Google Patents

Description

  The present invention relates to an air compressor for supplying compressed air to an air tool such as a compressed air driven nail driver or an air tacker.

Although it has a smaller discharge capacity than a stationary and large air compressor, it is small and light and can be easily carried. . Patent Documents 1 and 2 below disclose technologies related to a simple air compressor that uses a battery (DC power supply) as a power source.
This simple air compressor has a resin case with an electric motor and a compression part. The compression part converts the rotational output of the electric motor and reciprocates the piston in the cylinder to discharge the compressed air. The structure is provided, and weight reduction is achieved by omitting a tank for supplying and storing the discharged compressed air directly to the air tool.
According to the simple type air compressor disclosed in the above, it can be used while being carried on an operator's shoulder or on his / her shoulder, so that it is used in a construction work site where a power outlet is not prepared. Compressed air can be supplied to an air tool such as a nail driver without being restricted by the above-described restrictions, and thus light work such as repair work can be efficiently performed.
Patent Document 3 below discloses a technique for externally attaching an auxiliary tank to an AC power supply type air compressor that is relatively small but is stationary and includes a storage tank inside. By externally attaching the auxiliary tank, more compressed air can be supplied stably.

U.S. Pat. No. 7,140,845 Japanese Patent Laid-Open No. 2-108878 JP 2006-220202 A

These conventional air compressors also required various improvements. For example, in the case of the battery type air compressor, when an auxiliary tank is externally attached to supply a larger amount of compressed air, a larger amount of electric power is required and the remaining capacity of the battery is likely to be insufficient. For this reason, the battery has to be frequently removed and charged or replaced, resulting in a problem that work is interrupted and workability is significantly impaired.
An object of the present invention is to solve the shortage of electric power in the case of using an external tank and to maintain the work efficiency by the air tool while supplying a larger amount of compressed air.

The above problems are solved by the following invention.
1st invention is equipped with the compressor main-body part which supplies compressed air to an air tool, and the external tank (external tank) which can be connected to this compressor main-body part, and can store compressed air. It is the air compressor apparatus provided with the external battery which can supply electric power to a part.
According to the first invention, when an external tank is connected to the compressor main body capable of supplying compressed air independently to the air tool so that a larger amount of compressed air can be stably supplied to the air tool. In addition, power is supplied to the compressor body from an external battery mounted on the external tank. From this, it is possible to supply a large amount of compressed air without causing a power shortage as in the prior art, thereby avoiding interruption of work and maintaining workability by the air tool.
A second invention is the air compressor device according to the first invention, wherein the compressor main body is provided with a main battery as a power source.
According to the second invention, the compressor main body can be used alone as a battery-type air compressor, so that it is possible to improve the convenience of working with the air tool in places where AC power cannot be prepared. When an external tank is connected to the compressor body, a large amount of compressed air can be operated while operating the compressor body by avoiding power shortage by switching both the body battery and external battery simultaneously or alternately to function as a power source. Can be supplied.
A third invention is an air compressor device according to the first or second invention, wherein the main body battery on the compressor main body side and the external battery on the external tank side are switched to supply power to the compressor main body portion.
According to the third invention, the workability can be maintained by operating the compressor body for a longer time. While one of the main battery and the external battery is used as a power source, the other battery is charged or replaced, so that continuous operation for a long time can be realized as in the case of using an AC power source.
A fourth invention is an air compressor device according to any one of the first to third inventions, wherein the external tank has a function of charging an external battery.
According to the fourth aspect of the present invention, the external battery can be charged in the mounted state without bothering to remove it from the external tank. In this respect, the handling of the external battery and the usability of the air compressor device can be improved. .
According to a fifth invention, in any one of the first to fourth inventions, an electric device different from the compressor main body can be connected to the external tank, and air that can supply power from an external battery to the electric device. It is a compressor device.
According to the fifth aspect of the present invention, for example, a lighting fixture can be connected to the external tank as an electric device separate from the compressor body, and an external battery can be used as a power source for the lighting fixture. The added value of the air compressor device can be increased. As an electrical device separate from the compressor body, in addition to the above lighting fixtures, acoustic devices such as radios, various electrical devices such as coffee makers, water heaters, dust collectors, electric fans, and blowers are connected and external batteries are used as the power source. The configuration can be used.
6th invention is an air compressor apparatus which can remove an external battery from an external tank in any one invention of 1st-5th.
According to the sixth invention, the external battery can be replaced with another battery, and can be charged with a separately prepared charger.
7th invention is a compressor main-body part used for the air compressor apparatus which concerns on any one invention of 1st-6th, 8th invention is the air compressor apparatus which concerns on any 1st invention of 1st-6th. It is an external tank used for
By connecting the external tank according to the eighth invention to the compressor main body according to the seventh invention, the above-mentioned effects can be obtained.

It is a figure which shows the structure of the outline of the air compressor apparatus of 1st Embodiment. This figure has shown the embodiment which connected the air tool via the external tank. It is a figure which shows the structure of the outline of the air compressor apparatus of 2nd Embodiment. This figure has shown embodiment which connected the air tool to the compressor main-body part. It is a figure which shows the schematic structure of the air compressor apparatus of 3rd Embodiment. In this figure, the compressor body is omitted.

Next, an embodiment of the present invention will be described with reference to FIGS. As shown in FIG. 1, the air compressor device 1 according to the first embodiment includes a rechargeable compressor main body 10 and an external tank 30 connected to the compressor main body 10. The external tank 30 is connected to the compressor body 10 via the air hose 11. The external tank 30 is also electrically connected to the compressor body 10 via the power cord 12.
The compressor body 10 includes an air compression unit 14 that uses an electric motor 13 as a drive source. The operation of the electric motor 13 is controlled by the control circuit 15. The electric motor 13 operates using a battery (main body battery 16) as a power source. When the power switch 22 is turned on, power is supplied from the main body battery 16 to the electric motor 13. The main battery 16 can be repeatedly used by removing it and charging it with a separately prepared charger.
The compressor main body 10 is provided with a power input terminal 23. The power cord 12 is connected to the power input terminal 23. Power is supplied from the outside to the power supply circuit of the control circuit 15 via the power supply cord 12. The electric motor 13 can also be activated by this external power source. In the present embodiment, a power supply (external battery) on the external tank 30 side can be used as this external power supply.
The compressed air generated in the air compression unit 14 is stored in the storage tank 17. The air pressure of the compressed air in the storage tank 17 is detected by the pressure detector 18, and the detection signal is input to the control circuit 15. When the air pressure of the compressed air in the storage tank 17 falls below a certain value, the electric motor 13 is activated and the storage tank 17 is replenished with compressed air.
The compressed air in the storage tank 17 is adjusted to a constant pressure through the pressure adjusting unit 19 and then discharged from the air coupler 20 as a compressed air outlet. The discharge pressure of the compressed air is displayed on the pressure gauge 21. The discharged compressed air is supplied to the external tank 30 through the air hose 11 connected to the air coupler 20.

The external tank 30 has a function as an external auxiliary tank that stores compressed air generated in the air compression unit 14 of the compressor body 10 and supplies the compressed air to the air tool T. The air hose 11 is connected to the air coupler 31 of the external tank 30. An external tank 30 is connected to the compressor body 10 via the air hose 11. The compressed air supplied from the compressor body 10 via the air hose 11 is stored in the storage tank 32. The compressed air stored in the storage tank 32 is adjusted to a constant pressure by the pressure adjusting unit 33 and then supplied to the air tool T via the air hose 36 connected to the air coupler 34. The air pressure of the supplied compressed air is displayed on the pressure gauge 35. As the air tool T, various air tools such as a compressed air drive type nailing machine and an air gun can be used.
The external tank 30 is equipped with a rechargeable battery (external battery 37). The electric power of the external battery 37 is supplied to the compressor body 10 through the power output terminal 38 and the power cord 12. For this reason, the electric power of the external battery 37 can be used as a power source for the compressor body 10. The external battery 37 can be repeatedly used by being removed from the external tank 30 and charged with a separately prepared charger.
The control circuit 15 of the compressor main body 10 detects the remaining capacity of the main body battery 16 built in the main body and the external battery 37 on the external tank 30 side. When one remaining capacity falls below a certain capacity, the other battery is automatically switched to be used as a power source for the electric motor 13.
The compressor body 10 can be used alone by separating the external tank 30. In this case, only the main battery 16 is used as a power source. The power cord 12 is removed from the power input terminal 23. On the other hand, an air tool T is directly connected to the air coupler 20 via the air hose 11. The compressed air stored in the storage tank 17 is supplied to the air tool T. The external tank 30 can be connected when the amount of compressed air supplied by the compressor body 10 is insufficient.

According to the air compressor device 1 of the first embodiment configured as described above, the external tank 30 can be connected to the compressor main body 10 that can be used independently by including the main body battery 16. By connecting the external tank 30, more compressed air can be supplied to the air tool T. Moreover, since the external battery 37 can be used as a power source for the electric motor 13 in addition to the built-in main body battery 16, it can be used for a long time without causing a shortage of electric power as in the prior art, and work without interruption of work. Efficiency can be maintained.
Various modifications can be made to the first embodiment described above. For example, in the first embodiment, a configuration in which the pneumatic tool T is connected to the external tank 30 and compressed air discharged via the storage tank 32 is exemplified, and the external tank 30 is used as an auxiliary tank. However, the air tool T can be connected to the compressor body 10 so that the external tank 60 can function as an additional tank. The air compressor device 50 of the second embodiment is shown in FIG.
In the case of the second embodiment, the external tank 60 is connected to the storage tank 17 of the rechargeable compressor body 10 via the air hose 51. In the case of the second embodiment, the air tool T is directly connected to the air coupler 20 as a compressed air outlet. Since the other configuration of the compressor body 10 is the same as that of the first embodiment, description thereof is omitted using the same reference numerals.
The external tank 60 in the air compressor device 50 of the second embodiment has a configuration in which the pressure adjusting unit 33, the air coupler 34, and the pressure gauge 35 in the external tank 30 of the first embodiment are omitted. The external tank 60 in the second embodiment includes an air coupler 61 to which the air hose 51 is connected and a power output terminal 62 to which the power cord 12 is connected.
One end side of the air hose 51 is connected to the storage tank 17 of the compressor body 10 via an air coupler, and the other end side is connected to the storage tank 63 of the external tank 60 via an air coupler 61. The storage tank 17 of the compressor body 10 and the storage tank 63 of the external tank 60 are connected via the air hose 51. Thereby, the compressed air generated in the air compression unit 14 of the compressor body 10 is stored in both the storage tank 17 and the storage tank 63 on the external tank 60 side.
The electric power of the battery (external battery 64) built in the external tank 60 is supplied to the compressor body 10 side via the power output terminal 62 and the power cord 12. The external battery 64 can be repeatedly used by being removed from the external tank 60 and charged with a separately prepared charger.

According to the air compressor device 50 of the second embodiment configured as described above, the external tank 60 can be connected to the compressor main body 10 that can be used independently by including the main body battery 16. By connecting the external tank 60, more compressed air can be supplied to the air tool T. Moreover, since the external battery 64 can be used as a power source for the electric motor 13 in addition to the built-in main body battery 16, it can be used for a long time without causing a shortage of electric power as in the prior art, and the work is not interrupted. Efficiency can be maintained.
In the case of the second embodiment, the air tool T is directly connected to the compressor body 10, and the external tank 60 functions as an expansion tank for increasing the storage capacity of the storage tank 17.
The two embodiments described above can be further modified. FIG. 3 shows an external tank 70 of the third embodiment. The external tank 70 is a modification of the external tank 30 of the first embodiment, and the compressor main body 10 is configured in the same manner and is not shown. About the member which does not require a change, the description is abbreviate | omitted using a same code | symbol. In the external tank 30 of the first embodiment, the configuration in which the external battery 37 is removed and charged by a separately prepared charger is illustrated, but the external tank 30 of the third embodiment has a built-in charging function (charging unit 39). ing. The charging unit 39 can be charged without removing the external battery 37 and used as a power source as it is, and the usability of the air compressor device 1 can be further enhanced. A separate AC power source is used for the charging unit 39.
Similarly, as shown in FIG. 3, the external tank 70 is provided with a power output terminal 40 for connecting a power cord of another electric device (external device K). Therefore, the external battery 37 can be used as a DC power source for the external device K, and the added value (usability) of the external tank 70 and thus the air compressor device 1 can be further increased. As the external equipment K that can be connected, for example, lighting equipment, AV equipment such as radio and television, cooking equipment such as coffee makers and water heaters, various electric equipment such as dust collectors, electric fans, and blowers can be set. it can.

Further modifications can be made to the above-described embodiments. For example, the compressor body 10 may be configured to use an AC power supply in addition to using a rechargeable battery as a power source as illustrated.
Moreover, in each illustrated embodiment, you may abbreviate | omit the storage tank 17 from the compressor main-body part 10, respectively. When the storage tank 17 is omitted from the compressor body 10 of the first and third embodiments, all the compressed air generated in the air compression unit 14 is stored in the storage tank 32 of the external tank 30 via the air hose 11. When the storage tank 17 is omitted from the compressor body 10 of the second embodiment, the compressed air generated in the air compressor 14 is temporarily stored in the storage tank 63 of the external tank 60, and this is compressed as required. 10 and supplied to the air tool T.
Further, the configuration in which the power source is automatically switched to the external battery 37 on the external tank 30 side when the remaining capacity of the main body battery 16 on the compressor main body 10 side becomes equal to or less than a predetermined value is illustrated. In some cases, the main battery 16 and the external battery 37 may be used simultaneously as a power source for the compressor main body 10.
About the compressor main-body part 10, the structure which uses AC power supply (AC power supply) as a power supply other than the structure which uses the main body battery 16 as power supply (DC power supply) may be sufficient. Even in the AC power source compressor main body, the external battery 37 on the external tank 30 (60, 70) side can function as an auxiliary power source when the AC power source is cut off due to a power failure or the like.
Furthermore, even if the compressor body 10 does not include the storage tank 17 as described above, the external tank 30 can be separated and used alone. When the compressor body 10 is used alone, the compressed air generated in the air compressor 14 can be supplied as it is to the air tool T through the air hose 11, and even in this case, the air tool can be used for relatively light work. If T is used, sufficient compressed air can be supplied.

T ... Air tool 1 ... Air compressor device (first embodiment)
DESCRIPTION OF SYMBOLS 10 ... Compressor main body part 11 ... Air hose 12 ... Power supply cord 13 ... Electric motor 14 ... Air compression part 15 ... Control circuit 16 ... Main body battery 17 ... Storage tank 18 ... Pressure detection part 19 ... Pressure adjustment part 20 ... Air coupler 21 ... Pressure gauge 22 ... Power switch 23 ... Power input terminal 30 ... External tank 31 ... Air coupler 32 ... Storage tank 33 ... Pressure adjusting unit 34 ... Air coupler 35 ... Pressure gauge 36 ... Air hose 37 ... External battery 38 ... Power output terminal 39 ... Charging unit 40 ... Power output terminal K ... External device 50 ... Air compressor device (second embodiment)
51 ... Air hose 60 ... External tank 61 ... Air coupler 62 ... Power output terminal 63 ... Storage tank 64 ... External battery

Claims (6)

A compressor main body for supplying compressed air to an air tool, and an external tank that can be connected to the compressor main body and can store compressed air. The compressor main body can be used alone by separating the external tank. An air compressor device,
The compressor main body includes a main battery as a power source, and the external tank includes an external battery capable of supplying power to the compressor main body .
An air compressor device capable of supplying power to the compressor main body by switching between the main battery and the external battery . The air compressor apparatus according to claim 1 , wherein the external tank has a function of charging the external battery. 3. The air compressor device according to claim 1, wherein an electric device different from the compressor main body can be connected to the external tank, and electric power can be supplied from the external battery to the electric device. apparatus. The air compressor device according to any one of claims 1 to 3 , wherein the external battery is removable from the external tank. The compressor main-body part used for the air compressor apparatus described in any one of Claims 1-4 . The external tank used for the air compressor apparatus described in any one of Claims 1-5 .

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