JP6744023B2 - Air compressor, information display method of air compressor - Google Patents

Description

The present invention relates to an air compressor that can be used with a general AC power source such as a household power source or a temporary commercial power source, and also relates to an air compressor and an information display device (portable communication device). The present invention relates to an information display method using wireless communication.

An AC power supply type air compressor is generally known as a device for generating compressed air, and is used for nailing work at a construction site where an AC power supply is prepared.

A conventional AC power supply type air compressor includes a compression device for generating compressed air and an air tank for storing the compressed air. The compressor includes an electric motor driven by AC power, and is mounted and fixed on the air tank in a state of being covered with a cover. The air tank that supports the compressor is generally composed of two cylinders, which are arranged in parallel.

Most of this type of air compressor is configured as a portable device, and has a design in which portability is taken into consideration to some extent, such as having a hand-held handle for carrying. Due to its high functionality, such an air compressor is widely and generally used at construction sites and construction sites that require nailing work.

Such an AC power supply type air compressor generally uses an AC power supply such as a household power supply or a temporary commercial power supply, and most of the breakers installed in the AC power supply have AC100V, 15A. ing. For this reason, the AC power supply type air compressor provided conventionally has a maximum capacity set to 100 V AC, 15 A or less so that it can be used with a general AC power supply. Therefore, there is almost no difference in the performance of the conventional AC power supply type air compressor such as the air discharge amount.

On the other hand, depending on the site where the AC power supply type air compressor is used, the amount of compressed air consumed may be high. In that case, compressed air is supplied (generated by the air tool) against the momentum of compressed air consumption (consumption by the air tool). ) May not catch up. Therefore, users of air compressors are strongly requested to provide a new AC power supply type air compressor that can be used with a general AC power supply and that has performance such as air discharge amount that exceeds that of conventional devices. It is like this.

In addition, depending on the site where the AC power supply type air compressor is used, multiple electric devices including the air compressor may be used at the same time using the same AC power supply. The power may be cut off. When the power supply is cut off in this way, there is a problem in that the work using the electric device must be interrupted.

Also, in the situation where the power supply is cut off due to insufficient power capacity, etc., users who use air tools away from the air compressor continue to consume compressed air without knowing the fact that the power supply is cut off. The work may be stopped due to the pressure drop. In such a case, the user does not know whether the cause of the air compressor stop is due to a failure on the air compressor side or a malfunction on the power supply side (in some cases, There is also a problem that the work for restoring the power cannot be started promptly because it may be erroneously determined to be a failure on the air compressor side.

Even if the power supply is not cut off, the output of the motor may decrease due to the decrease in the power supply voltage. In this way, if the air tool or the like is continuously used while the motor output of the air compressor is reduced, the pressure in the air tank may not rise to the required pressure. That is, there is a problem that a large amount of compressed air cannot be continuously supplied due to a lack of power, and as a result, continuity of work using an air tool is impaired.

Therefore, in view of the above-mentioned problems, an object of the present invention is that it can be used with a general AC power source such as a household power source or a temporary commercial power source, and the performance such as the air discharge amount exceeds that of the conventional device. , To provide a new air compressor.
Another object of the present invention is to provide a new air compressor capable of avoiding work interruption due to power shortage and the like as much as possible, and allowing work with an air tool to be continued.
Further, another object of the present invention is to provide an air compressor and a method for notifying the user of the current state of the air compressor and various guidances based on the current state and appropriately supporting the user who uses the air compressor. To do.

The purpose is
An air compressor including a compression device including a motor for generating compressed air, and an air tank for storing compressed air,
A motor that drives the AC power supply as the main power supply (main power supply source),
A battery for supplying electric power to the motor,
Power supply means for controlling power supply from the AC power supply to the motor and power supply from the battery to the motor, respectively,
Is achieved by an air compressor having

In addition, the above purpose is
An air compressor including a compression device including a motor for generating compressed air, and an air tank for storing compressed air,
A battery to power the motor when needed,
A motor driven by power supplied from one or both of an AC power supply that is an external power supply and the battery,
Power supply means for controlling power supply from the AC power supply to the motor and power supply from the battery to the motor, respectively,
Is achieved by an air compressor having

In the above air compressor, the power supply control means is, for example,
(1) A first power mode in which the motor is driven by electric power from the AC power source,
(2) A second power mode in which the motor is driven by adding power from the battery to power from the AC power supply,
The motor is driven in any one of the power modes.

In the above air compressor, the power supply control means is, for example,
(1) A first power mode in which the motor is driven by electric power from the AC power source,
(2) A second power mode in which the motor is driven by electric power from the AC power supply and electric power from the battery,
(3) A third power mode in which the motor is driven by electric power from the battery,
The motor is driven in any one of the power modes.

In the above air compressor, the power supply control means is, for example,
(a) Status of air compressor,
(b) power supply status from the AC power supply,
The power mode is switched according to any of the above situations.

The air compressor may have a power mode switching means for manually switching the power mode.

In the above air compressor, the battery may be rechargeable with electric power supplied from an AC power source.

Further, in the above air compressor, the battery may be detachably provided.

Further, in the above air compressor, the battery may be detachably attached to the air compressor, and may be configured to be capable of being externally supplied with power in a state of being detached from the air compressor.

Further, the air compressor further includes a communication unit for transmitting, by wireless communication, device information relating to the current state of the air compressor to an information display device owned by a user who is away from the air compressor. Good.

Further, the above-mentioned purpose is
A method of displaying information of an air compressor using the above-mentioned air compressor and an information display device that performs wireless communication with the air compressor,
A step in which the air compressor transmits, by wireless communication, device information related to the current state of the air compressor to an information display device owned by a user at a place distant from the air compressor;
The information display device, based on the device information received from the air compressor, a step of displaying device information regarding the current state of the air compressor in real time,
It is achieved by the information display method including.

Further, the above-mentioned purpose is
A method of displaying information of an air compressor using the above-mentioned air compressor and an information display device that performs wireless communication with the air compressor,
A step in which the air compressor transmits, by wireless communication, device information related to the current state of the air compressor to an information display device owned by a user at a place distant from the air compressor;
A step in which the information display device displays support information for supporting a user who uses the air compressor, based on device information received from the air compressor;
It is achieved by the information display method including.

The air compressor of the present invention has a motor driven by an AC power source as a main power source, and a battery power source for supplying power to the motor. The motor, which is a power source for generating compressed air, is driven by a general AC power source such as a household power source or a temporary commercial power source as a main power source, and is supplied with power supplied from a battery power source included in the air compressor. Also drives. The AC power source is a so-called “external power source”, and the battery power source is an “internal power source” included in the air compressor itself.
Therefore, according to the present invention, the electric power supplied from the battery which is the external power source can be added to the electric power supplied from the general AC power source which is the external power source, if necessary. The motor capacity can be increased, and as a result, the performance of the air compressor can be improved. That is, the air compressor of the present invention can achieve the performance superior to that of the conventional AC power supply type compressor although it is a device that can be used with a general AC power supply.
Further, by combining the electric power from the AC power supply and the electric power from the battery, it becomes possible to increase the rotation torque of the motor. As a result, it is possible to improve the performance related to the generation of compressed air as a whole (raising from the bottom), and it is also possible to improve the performance when necessary or according to the situation. That is, the rotation torque of the motor can be always increased (compared to the conventional AC power supply type compressor), and the rotation torque can be temporarily increased when necessary or according to the situation.
Generally, when the pressure of compressed air increases, the load on the motor increases, and along with that, the rotational torque of the motor decreases and the discharge rate (L/min) of compressed air tends to decrease. By increasing the rotation torque of the motor (compared to the conventional AC power supply type compressor) by adding the electric power from the battery, a high rotation speed is maintained even under high pressure, and more compressed air discharge amount can be secured. Will be possible. Therefore, according to the present invention, the output reduction of the motor is avoided as much as possible even under a high pressure, even though the compressor is an AC power supply type compressor, and a larger discharge amount can be secured as compared with the conventional device.
In addition, at a site where power shortage is likely to occur due to a decrease in power supply voltage, etc., by adding electric power from a battery, it is possible to avoid a decrease in motor output and increase the pressure in the air tank to the required pressure. That is, it is possible to maintain the continuity of the work using the air tool even at a site where power shortage is likely to occur.

Further, in the air compressor of the present invention, the power supply control means drives the motor in one of the following power supply modes, for example.
(1) The first power supply mode (normal power supply mode) in which the motor is driven only by the power from the AC power supply.
(2) Second power mode (power-up mode) in which the motor is driven by a combination of the power from the AC power supply and the power from the battery.
For example, when the conventional AC power supply type air compressor is used in a situation in which the performance is sufficient, the motor is driven in the “first power supply mode” and the conventional AC power supply type air compressor is used. When used with an output higher than, the motor is driven in the "second power supply mode".
For example, when the current value of the motor becomes a predetermined value (for example, 9 A) or less, the electric power from the AC power supply and the electric power from the battery may be combined to drive the motor (first power supply mode). .. Alternatively, the electric current from the AC power source and the electric power from the battery may be combined to drive the motor as necessary so that the current value of the motor always maintains a predetermined value (for example, 9 A) (first Switching between a power mode and a second power mode).
By thus driving the motor in a plurality of modes, it is possible to avoid wasteful consumption of the battery. Also, when the motor is driven by adding the power from the battery to the power from the AC power supply, the motor can be driven with an output higher than that of the conventional AC power supply type compressor. Work efficiency is greatly improved.

Further, in the air compressor of the present invention, the power supply control means drives the motor in one of the following power supply modes, for example.
(1) The first power supply mode (normal power supply mode) in which the motor is driven only by the power from the AC power supply.
(2) Second power mode (power-up mode) in which the motor is driven by a combination of the power from the AC power supply and the power from the battery.
(3) A third power mode (battery mode) in which the motor is driven only by the power from the battery.
For example, when the conventional AC power supply type air compressor is used in a situation in which the performance is sufficient, the motor is driven in the “first power supply mode” and the conventional AC power supply type air compressor is used. When used with an output higher than, the motor is driven in the "second power supply mode". In addition, the motor is driven in the "third mode" when the power cannot be supplied due to various reasons or when the power supply is temporarily cut off.
By thus driving the motor in a plurality of modes, it is possible to avoid wasteful consumption of the battery. In addition, even if the power supply is cut off due to breaker cutoff due to insufficient power supply capacity at the site where power cannot be supplied or when other electric appliances are used at the same time, it is possible to drive the motor using the power from the built-in battery. , It is possible to continue the work using the air tool for a certain period even in the field where the power supply equipment is scarce. In addition, even when the power supply is cut off due to breaker interruption due to insufficient power capacity, interruption of work using the air tool can be avoided.

Further, in the air compressor of the present invention, the power supply control means,
(a) Status of the air compressor (internal factors of the air compressor),
(b) Power supply status from AC power supply (external factor of air compressor),
The power supply mode is automatically switched according to any of the above.
"Status of the air compressor" means, for example, the pressure in the air tank (pressure of compressed air), the output of the motor, the load on the motor, the current value of the output power of the power supply circuit, the consumption of the compressed air stored in the air tank. The situation is included.
The "power supply status from the AC power supply" means, for example, a situation in which the power supply is cut off due to breaker cutoff due to insufficient power capacity that occurs when other electric appliances are used at the same time, or the power supply voltage drops. The situation is included.
In this way, by automatically switching the power supply mode according to various situations, it is possible to drive the motor in the optimal power supply mode according to the situation without the trouble of switching.

Further, the air compressor of the present invention is provided with a power mode switching means for manually switching the power mode. As a result, the power mode can be switched at any timing according to the judgment of the user of the air compressor. As a result, for example, when it is necessary to operate at an output higher than that of the conventional AC power supply type compressor, it becomes possible to manually switch the power supply mode at the user's discretion.

Moreover, in the air compressor of the present invention, the battery is configured to be rechargeable by the electric power supplied from the AC power supply. This makes it possible, for example, to charge the battery when the motor is being driven without power supply from the battery (that is, with a normal AC power supply). This can save the trouble of charging the battery.

Further, in the air compressor of the present invention, the battery is detachably provided.
This makes it possible to remove the battery from the air compressor and replace it with a new charged battery when the battery level becomes low or runs out.

Further, in the air compressor of the present invention, the battery is configured to be attachable/detachable to/from the air compressor, and can be charged in a state where the battery is detached from the air compressor.
As a result, the battery can be removed from the air compressor, and the removed battery can be externally charged by using an adapter, a dedicated charger or the like, which simplifies the battery charging operation.
Further, even when the air compressor is energized, the battery can be charged by using an external charger (a device different from the air compressor), if necessary. Further, by using such an external charger, it is possible to precharge a plurality of batteries and prepare for battery driving when the power is cut off.

Further, in the information display method of the present invention,
1) The air compressor wirelessly transmits device information relating to the current state of the air compressor to an information display device (portable communication device/portable terminal) owned by a user who is away from the air compressor,
2) The information display device displays the device information regarding the current state of the air compressor in real time based on the device information received from the air compressor.
As a specific example of the device information displayed on the information display device in real time, for example, the current remaining battery level of the compressor (the remaining amount of the internal power supply) can be cited.
By displaying such device information on the information display device in real time, the user who is away from the air compressor can accurately grasp the current device status of the air compressor in real time.
For example, by displaying the remaining battery level on the information display device in real time, it is possible to prevent unexpected battery exhaustion and always be prepared for an unexpected situation such as interruption of power supply. That is, when the battery is needed, the battery can be made to function reliably. If it is known that the battery is almost dead, the battery can be replaced with a charged one at an appropriate timing.

Further, in the information display method of the present invention, the information display device displays the support information for supporting the user of the air compressor based on the device information received from the air compressor.
Specific examples of the “support information for supporting the user of the air compressor” displayed on the information display device include an estimated time to reach the set pressure value, a warning for urging the battery to be charged, and the like.
By displaying such support information on the information display device of the user who is away from the air compressor, it becomes possible to properly support the user who operates and manages the air compressor.

It is a block diagram which shows roughly the functional structure of the air compressor which concerns on this invention. It is a block diagram which shows roughly the state when a motor drives in a normal power supply mode (1st power supply mode). It is a block diagram which shows roughly the state when a motor drives in a power up mode (2nd power supply mode). It is a block diagram which shows roughly the state when a motor drives in a battery mode (3rd power supply mode). It is a block diagram which shows roughly the functional structure of the information display apparatus (portable communication apparatus) which performs wireless communication with the air compressor which concerns on this invention. It is a figure which shows the outline|summary of the wireless communication performed between the air compressor and the information display device which concern on this invention, and the outline|summary of the information displayed on an information display device.

(Structure of air compressor)
An outline of the air compressor according to the present invention will be described with reference to FIG.
FIG. 1 is a block diagram schematically showing a functional configuration of an air compressor according to the present invention. Hereinafter, the air compressor will be abbreviated as “compressor” as necessary.

The compressor of the present embodiment mainly
A compressor 1 having a motor for generating compressed air,
-It has an air tank 3 for storing the generated compressed air.

The air tank 3 is provided with a pressure sensor 5 that measures the pressure of the stored compressed air. The pressure sensor 5 included in the air tank 3 is electrically connected to the control circuit 29 of the compression device described later. The measurement result (measurement value) by the pressure sensor 5 is transmitted to the control circuit 29 and is used for automatic switching of the power supply mode and various controls of the motor 13 described later.

The compression device 1 is placed and fixed on the air tank 3 in a state of being covered with a cover. The air tank 3 supporting the compression device 1 is generally composed of two cylinders and arranged in parallel.

The compression device 1 for generating compressed air is mainly
A motor 13 that drives an external AC power supply 12 (external power supply) as a main power supply,
An air compressor 15 that drives the motor 13 as a power source,
A battery 17 (internal power supply) for supplying electric power to the motor 13,
A drive circuit 19 for driving the motor 13 under the control of the control circuit 29,
A detection circuit 21 for detecting the output and load of the motor 13,
A power supply circuit 23 for generating required output power from input power,
An operation unit 25 used for power ON/OFF operation and switching of various modes,
A display unit 27 for displaying the ON/OFF state of the power source and the state of various modes,
A communication unit 28 for executing wireless communication with the information display device owned by the user,
-It has a control circuit 29 which is responsible for electronic control of each part of the compression device.

The motor 13 is configured to be driven by a general AC power source (that is, an external power source) such as a household power source or a temporary commercial power source as a main power source. The piston of the air compression unit 15 reciprocates by driving the motor 13 and rotating the motor shaft. The type of motor is not particularly limited, and for example, a DC brushless motor or the like can be used.

The air compression unit 15 mainly has a cylinder and a piston that reciprocates with respect to the cylinder. When the piston of the air compression unit 15 reciprocates during the pressurizing operation, the air is compressed in the cylinder and compressed air is generated. The generated compressed air is sent to and stored in the air tank 3 via the flow path.

The battery 17 is an internal power supply equipped in the compressor itself, and is electrically connected to the power supply circuit 23. The battery 17 mainly serves to supply electric power to the motor 13. Further, the battery 17 is configured to be rechargeable by the electric power supplied from the AC power source 12, and is detachably attached to the compressor. Further, the battery 17 is configured such that it can be externally charged by using an adapter, a dedicated charger or the like in a state where the battery 17 is removed from the compressor.

The drive circuit 19 is electrically connected to each of the control circuit 29, the power supply circuit 23, and the motor 13. The drive circuit 19 drives the motor 13 based on the control signal from the control circuit 29. Electric power for driving the motor is supplied from the AC power supply 12 and/or the battery 17 via the power supply circuit 23 and the drive circuit 19.

The detection circuit 21 is electrically connected to the control circuit 29 and the motor 13, and has a role of detecting the output of the motor, the load on the motor, the current value of the motor, and the like. The detection result (detection value) by the detection circuit 21 is transmitted to the control circuit 29, and is used for automatic switching of the power supply mode described later and various controls of the motor 13.

The power supply circuit 23 is electrically connected to the battery 17 and the control circuit 29, and is also electrically connected to the motor 13 via the drive circuit 19. Further, a power cord (not shown) is connected to the power supply circuit 23, and the AC power supply is electrically connected to the power supply circuit 23 by connecting the power plug at the tip thereof to the external AC power supply 12.
The power supply circuit 23 generates output power required to drive the motor 13 from input power from either one or both of the AC power supply 12 and the battery 17.
Specifically, in a normal power supply mode (first power supply mode) described later, the power supply circuit 23 converts the power input from the AC power supply 12 via the power cord into power suitable for driving the motor 13. Output.
In a power-up mode (second power supply mode) described later, the power supply circuit 23 converts electric power input from both the AC power supply 12 and the battery 17 into electric power suitable for driving the motor 13, and outputs the electric power. ..
In a battery mode (third power supply mode) described later, the power supply circuit 23 converts the electric power input from the battery 17 into electric power suitable for driving the motor 13 and outputs the electric power.
The electric power output from the power supply circuit 23 is supplied to the motor 13 via the drive circuit 19.

The operation unit 25 is electrically connected to the control circuit 29. The operation unit 25 is used for turning on/off the power supply, switching various modes, and the like. In addition to the power ON/OFF switch, the operation unit 25 is provided with a changeover switch (power supply mode switching means) for manually changing the power supply mode described later.

The display unit 27 is electrically connected to the control circuit 29. The display unit 27 is provided with an information display means such as an LED, and the information display means displays the ON/OFF state of the power supply, the setting state of various modes, and the like.

As shown in FIG. 1, the control circuit 29 is electrically connected directly or indirectly to the power supply circuit 23, the drive circuit 19, and other parts.

In the present embodiment, the combination of the control circuit 29, the power supply circuit 23, and the drive circuit 19 constitutes “power supply control means 7”. The power supply control unit 7 controls power supply from the AC power supply 12 to the motor 13 and power supply from the battery 17 to the motor 13.

Specifically, the power supply control means 7 has a role of driving the motor 13 in one of the following power supply modes (1), (2), and (3) as one of its functions.
(1) Normal power supply mode (first power supply mode) in which the motor 13 is driven only by the power from the AC power supply 12.
(2) A power-up mode in which the motor 13 is driven by the electric power from the AC power supply 12 and the electric power from the battery 17 (second power supply mode).
(3) Battery mode in which the motor 13 is driven only by the electric power from the battery 17 (third power supply mode).

Further, the power supply control means 7 is
(a) Compressor status (compressor internal factors),
(b) Power supply status from AC power supply (external factor of compressor),
It has a role of automatically switching the power supply mode according to any of the above.

In this embodiment, as described above, the operation unit 25 includes the changeover switch (power supply mode switching means), and the user of the compressor can manually change the power supply mode at any timing by using this changeover switch. It is also possible to switch.

Under the control of the control circuit 29, the communication unit 28 transmits/receives various signals to/from the information display devices in the communication area. The communication unit 28 is composed of, for example, a wireless communication module. The compressor and the information display device are wirelessly connected to each other via the communication unit 28.

(Configuration of information display device)
In this embodiment, a portable communication device is illustrated as a specific example of the information display device.

FIG. 5 shows an outline of the functional configuration of the information display device used in this embodiment. This information display device is a portable communication device (portable terminal) and has a size and shape that can be carried. A typical example of a person who possesses an information display device is a user of an air tool (an operator who uses an air tool connected to a compressor via an air hose).

As shown in FIG. 5, the information display device is
A display unit 51 including a liquid crystal display and LEDs,
A communication unit 53 that performs wireless communication with the security device of the compressor,
A speaker 55 capable of outputting sound information such as a warning sound and voice guidance,
A control unit 57 including a circuit that controls each of the above units is included.

The display unit 51 including a liquid crystal display, LEDs, and the like plays a role of displaying information regarding the current state of the compressor, information that assists the user of the compressor, and the like.

The communication unit 53 transmits and receives various signals to and from the communication unit 28 of the compressor under the control of the control unit 57. The communication unit 53 is composed of, for example, a wireless communication module. The information display device and the compressor are wirelessly connected to each other via the communication unit 53. Further, by providing the information display device with such a communication unit 53, the information display device can be made to function as a “remote controller” for remote operation.

The method of wireless communication performed between the compressor and the information display device is not particularly limited, and specific examples thereof include short-range wireless communication standards such as Bluetooth (registered trademark) and Wi-Fi (registered trademark). Such as wireless LAN.

The control unit 57 has a role of controlling each unit included in the information display device.

Specific examples of the information display device include a portable remote controller type communication device (wireless communication device/remote control), a portable information terminal owned by a user of the compressor, and the like. Specific examples of the latter portable information terminal include wireless communication devices such as smartphones, mobile phones, tablet terminals, smart watches, and wearable computers.

By registering (ie, pairing) its own ID information in the memory or the like included in the compressor in advance, the information display device with the above configuration can receive the device information described later from the compressor by wireless communication. Is.

Next, details of each power supply mode in the compressor will be described.

(Drive in normal power mode/first power mode)
FIG. 2 schematically shows a state in which the motor 13 is driven in the normal power supply mode (first power supply mode).

In the normal power supply mode, the motor 13 is driven only by the electric power from the AC power supply 12.
Therefore, in the case of the present embodiment, the performance of the compressor in the normal power supply mode is not different from that of the conventional AC power supply type compressor.

Further, in the normal power supply mode, when the battery 17 needs to be charged (in a chargeable state), the battery is charged by the power from the AC power supply 12 via the power supply circuit 23.

As will be described later, when the compressor starts operating in the normal power supply mode (first power supply mode), the compressor sends information indicating the fact to the information display device, and the information display device displays “The compressor is in the normal power supply mode”. It is possible to display the information that "the drive is performed in the mode (first power supply mode)". That is, the user of the compressor (the user who possesses the information display device) can accurately grasp the current power supply mode of the compressor in real time even if the user is away from the compressor.

Also, when switching from another power supply mode to the normal power supply mode (first power supply mode), the compressor sends information about the fact to the information display device, and the information display device gives an alarm sound to inform the fact. It is also possible to output from a speaker.

(Drive in power-up mode/second power supply mode)
FIG. 3 schematically shows a state in which the motor 13 is driven in the power-up mode (second power supply mode).

In the power-up mode, the power from the AC power supply 12 and the power from the battery 17 are combined in the power supply circuit 23 (that is, the power from the battery 17 is added to the power from the AC power supply 12), and the combined power is used to drive the motor. 13 is driven.

Generally, when the pressure of the compressed air increases, the load on the motor increases, and along with that, the rotational torque of the motor decreases and the discharge rate (L/min) of the compressed air tends to decrease. By increasing the rotation torque of the motor 13 (compared to the conventional AC power supply type compressor) in consideration of the electric power from the battery 17, a high rotation speed is maintained even under high pressure, and a larger compressed air discharge amount is secured. It will be possible.
Therefore, by driving the motor 13 in the power-up mode as in the present embodiment, even under a high pressure, the output reduction of the motor can be avoided as much as possible, and a larger discharge amount can be secured as compared with the conventional device.

As will be described later, when the compressor starts to drive in the power-up mode (second power supply mode), the compressor sends information about the device to the information display device, and the information display device displays "Power up the compressor. It is possible to display information indicating that "the drive is performed in the mode (second power supply mode)". That is, the user of the compressor (the user who possesses the information display device) can accurately grasp the current power supply mode of the compressor in real time even if the user is away from the compressor.

Also, when switching from another power supply mode to the power-up mode (second power supply mode), the compressor sends information about the fact to the information display device, and the information display device gives an alarm sound to inform the fact. It is also possible to output from a speaker.

(Driving in battery mode/third power mode)
FIG. 4 schematically shows a state in which the motor 13 is driven in the battery mode (third power supply mode).

In the battery mode, the motor 13 is driven using the electric power from the battery 17, which is an internal power source, regardless of whether or not the AC power source 12 is electrically connected.

By driving the motor 13 in the battery mode, it becomes possible to continue the work using the air tool for a certain period even in the field where the power supply equipment is scarce. In addition, even when the power supply is cut off due to breaker interruption due to insufficient power capacity, interruption of work using the air tool can be avoided.

As will be described later, when the compressor starts operating in the battery mode (third power mode), the compressor sends information indicating the fact to the information display device, and the information display device displays “the compressor is in the battery mode ( It is possible to display the information that "drives in the third power supply mode)". That is, the user of the compressor (the user who possesses the information display device) can accurately grasp the current power supply mode of the compressor in real time even if the user is away from the compressor.

Also, when switching from another power supply mode to the battery mode (third power supply mode), the compressor sends information about the fact to the information display device, and the information display device gives an alarm sound or the like to inform the fact. It is also possible to output from.

(Switching the power mode)
Next, a method for automatically switching the above-described power supply modes (normal power supply mode, power-up mode, battery mode) will be described.

The switching of the power supply mode is automatically performed by the power supply control means 7 on the basis of a certain criterion (a predetermined reference value or the like). Specifically, the control circuit 29 monitors the state of the compressor (internal factor) and the state of power supply from the AC power source (external factor), and the power source control means 7 changes the power source mode in accordance with changes in the state. Is automatically switched.

The "compressor status" includes, for example, the pressure in the air tank (compressed air pressure), the output of the motor 13, the load on the motor, the motor current value, the compressed air consumption status, and the like.

The "power supply status from the AC power supply" means, for example, a situation in which the power supply is cut off due to breaker interruption due to insufficient power capacity caused by simultaneous use of other electric appliances, or the power supply voltage drops. The situation is included.

For example, an embodiment in which the power mode is automatically switched according to the pressure in the air tank 3 (pressure of compressed air) will be described.
In this embodiment, when the control circuit 29 determines that the predetermined pressure is exceeded based on the signal (pressure value) received from the pressure sensor 5 while driving in the normal power supply mode, the power supply control means 7 automatically switches the power mode of the compressor from the "normal power mode" to the "power-up mode".
On the other hand, when the control circuit 29 determines that the pressure has dropped below the predetermined pressure while driving in the power-up mode, the power supply control means 7 changes the power supply mode of the compressor from the “power-up mode” to the “normal power supply mode”. Switch to.

Next, an example in which the power supply mode is automatically switched according to the output of the motor 13 and the pressure in the air tank 3 (pressure of compressed air) will be described.
In this embodiment, when the control circuit 29 determines that the output has dropped below the predetermined motor output based on the signal (motor output) received from the detection circuit 21 while driving in the normal power supply mode, the power supply control is performed. The means 7 automatically switches the power mode of the compressor from the "normal power mode" to the "power-up mode".
On the other hand, when the control circuit 29 determines that the pressure in the air tank 3 has exceeded the predetermined pressure based on the signal (pressure value) received from the pressure sensor 5 while driving in the power-up mode. The power supply control means 7 switches the power supply mode of the compressor from the “power-up mode” to the “normal power supply mode”.

Next, for example, an embodiment in which the power mode is automatically switched according to the current value of the motor will be described.
In this embodiment, the control circuit 29 constantly monitors the detection value (current value) from the detection circuit 21, and the power supply control means 7 controls the current value of the motor 13 to always keep a predetermined value (for example, 9 A). The power mode is automatically switched between the "normal power mode" and the "power-up mode".

Next, for example, an embodiment in which the power supply mode is automatically switched according to the power supply status from the AC power supply 12 will be described.
In this embodiment, the control circuit 29 determines that the external power supply is shut off or falls below a predetermined voltage value based on the signal received from the power supply circuit 23 while driving in the normal power supply mode or the power-up mode. In this case, the power supply control means 7 automatically switches the power supply mode of the compressor from the "normal power supply mode" or the "power-up mode" to the "battery mode".
On the other hand, when the control circuit 29 determines that the external power supply is restored or exceeds the predetermined voltage value while driving in the battery mode, the power supply control unit 7 sets the compressor power supply mode to the “battery mode”. To "normal power mode" or "power-up mode".

As described above, according to the compressor of the present embodiment, the power supply mode can be automatically switched according to various situations of the compressor (internal factors) and the power supply state from the AC power source (external factors). ..

The switching of the power supply mode of the compressor is not necessarily limited to the automatic control, and it is possible to manually switch the power supply mode of the compressor at an arbitrary timing by using the changeover switch (power supply mode switching means) included in the operation unit 25. ..

(Information display method)
Next, an information display method using wireless communication between the compressor and the information display device will be described.

An outline of information transmitted from the compressor to the information display device and an outline of information displayed on the information display device are as shown in FIG. Hereinafter, a specific description will be given based on FIGS. 1, 5 and 6.

In the present embodiment, the communication unit 28 of the compressor transmits, by wireless communication, the device information regarding the current state of the compressor to the information display device owned by the user who is away from the compressor.

The information display device is owned by a user of the air tool (a worker who uses the air tool connected to the compressor via an air hose) and the like. In this application, the user of the air tool is also the user of the compressor.

The transmission of information from the compressor to the information display device is executed, for example, every time the current state of the compressor (for example, power mode, remaining battery level, pressure value, etc.) changes. That is, the information display device receives the device information from the compressor every time the device information regarding the current state of the compressor is updated.

The information display device located at a place distant from the compressor receives device information from the compressor via the communication unit 28, and then, on the basis of the received information, device information regarding the current state of the compressor is displayed on the display unit 51 in real time. indicate. That is, the information displayed on the information display device is information about the current status of the compressor.

Specific examples of the device information displayed on the display unit 51 of the information display device in real time include the following.
1) Current remaining battery level of the compressor (remaining amount of internal power supply).
2) The current pressure value measured by the pressure sensor of the compressor (the pressure value in the air tank that has reached to the present since the compressor started). That is, the pressure value of the compressed air that can be output at present.
3) Information indicating whether the current compressor is driven by the power supply from the external power supply or the battery.
4) Information that informs the fact that the external power supply is cut off.
5) Information notifying that the external power supply is cut off and the battery is operating.
6) Information indicating the current power mode of the compressor.

It should be noted that the "remaining battery power", "the fact that the external power supply is cut off", "the fact that the external power supply is cut off and the battery is driving", etc. are detected by the control circuit 29 based on the signal from the power supply circuit 23. can do. The detected fact is transmitted from the compressor to the information display device as current device information.

By displaying such device information in real time on the information display device side, a user who is away from the compressor can accurately grasp the details of the current device condition of the compressor in real time.

For example, by displaying the remaining battery level of the compressor on the information display device in real time, it is possible to prevent unexpected battery exhaustion and always be prepared for an unforeseen situation such as interruption of the power supply from the AC power supply 12. .. That is, it is possible to prevent the battery from running out and to make the battery 17 function reliably when the battery 17 is needed. If the user sees the device information displayed on the information display device in real time and finds that the battery is almost dead, the battery 17 can be replaced with a charged one at an appropriate timing.
Further, for example, by displaying the current pressure value measured by the pressure sensor 5 (the pressure value of the compressed air that has reached after the start up to the present), the increase in the pressure value on the compressor side can be visually observed in real time. It is possible to prepare for work using an air tool.
Further, for example, information such as "whether the current compressor is driven by the power supply from the AC power supply 12 or the battery 17", or information such as "the AC power supply 12 is cut off and driven by the battery 17" By displaying in real time, it will be possible to quickly grasp the fact that the external power supply has been cut off, and if necessary, it will be possible to quickly proceed with the work for power restoration. In addition, it is possible to avoid in advance the situation where the battery continues to run down without knowing the fact that the external power supply has been cut off (that is, without knowing that the battery has been switched to battery drive), and the battery runs out without notice. ..

In the normal power supply mode (first power supply mode) described above, the power for performing wireless communication from the compressor to the information display device is supplied from the AC power supply 12. In the battery mode (third power supply mode) described above, power for wireless communication from the compressor to the information display device is supplied from the battery 17.

In addition to the battery 17, the compressor may be equipped with a wireless communication battery such as a button battery. By providing such a wireless communication battery, even if the remaining battery level becomes zero in the battery mode (third power supply mode), the fact that the battery has run out can be detected using the wireless communication battery. The information display device side can be notified. Then, the user who grasps the fact via the information display device can quickly replace the battery with a charged one, or can promptly proceed with the recovery work of the external power supply which is cut off.

The information display method of the present invention is not limited to the above-described embodiment, and for example, the information display device can also display support information for supporting the user of the compressor based on the device information received from the compressor. is there.

Specific examples of the "support information for supporting the user of the compressor" displayed on the information display device include the following.

1) When the "current pressure value measured by the pressure sensor 5" (the pressure value of the compressed air that has reached after the start up to the present) is received from the compressor, the estimated time to reach the set pressure value is set. indicate.
2) When the "current pressure value measured by the pressure sensor 5" (the pressure value of the compressed air that has reached after the startup until the present) is received from the compressor, and the pressure value reaches the set value. In this case, information indicating that the set pressure has been reached is displayed on the information display device.
3) When the device information regarding the "remaining battery level" is received from the compressor, and when the remaining level is below a predetermined value (predetermined reference value), a warning message prompting the charging of the battery 17 is displayed. Display on the device.
4) When the compressor is driven by the AC power supply 12 and the device information indicating that the battery is dead is received from the compressor, a warning indicating that the battery is dead is displayed on the information display device.

By displaying such support information on the information display device of the user who is away from the compressor, it is possible to properly support the user who is away from the compressor. That is, the user who is away from the compressor can understand the current situation by seeing such support information, and responds to the current situation before a fatal situation occurs (or before the situation worsens). It becomes possible to take appropriate measures or actions.

In addition to displaying the information as described above, it is possible to output sound information such as an alarm sound, a warning sound, and a voice guidance to the user from the speaker 55 of the information display device.

Specific examples of the sound information output from the speaker 55 of the information display device are as follows.
1) A warning sound or voice guidance to notify when the battery is dead.
2) A warning sound or voice guidance prompting the user to charge the battery.
3) A warning sound or voice guidance for notifying that the AC power supply 12 is cut off.
4) A warning sound or voice guidance for informing that the vehicle has started to be driven by the electric power from the battery 17 (that is, in the battery mode).
5) Alarm sound or voice guidance to notify that the set pressure is reached.
6) Alarm sound or voice guidance to notify you that the power mode has been switched.

(Other embodiments and modifications)
The embodiments described above are examples of the embodiments of the present invention, and the present invention is not limited thereto. That is, various embodiments and modifications can be adopted within the scope of the claims.

1 Compressor 3 Air tank 5 Pressure sensor 7 Power supply control means 12 AC power supply (AC power supply/external power supply)
13 Motor 15 Air Compressor 17 Battery (Internal Power Supply)
19 drive circuit 21 detection circuit 23 power supply circuit 25 operation unit 27 display unit 28 communication unit 29 control circuit 31 flow path 51 display unit 53 communication unit 55 speaker 57 control unit

Claims (8)

An air compressor used at construction sites and construction sites,
An air compressor including a compressor having a motor for generating compressed air consumed by an air tool, and an air tank for storing compressed air,
A motor that is driven by AC power as the main power source, and that is driven by power from both the AC power source and the built-in battery ,
A built-in battery for supplying electric power to the motor,
Power supply from the AC power supply to the motor, and power supply from the built-in battery to the motor, respectively, has a power supply control means for controlling ,
The power supply control means,
(1) A first power mode in which the motor is driven by electric power from the AC power source,
(2) A second power mode in which the motor is driven by electric power from the AC power supply and electric power from the built-in battery,
An air compressor , characterized in that the motor is driven in any one of the power modes . An air compressor used at construction sites and construction sites,
An air compressor including a compressor having a motor for generating compressed air consumed by an air tool, and an air tank for storing compressed air,
A motor that is driven by AC power as the main power source, and that is driven by power from both the AC power source and the built-in battery ,
A built-in battery for supplying electric power to the motor,
Power supply from the AC power supply to the motor, and power supply from the built-in battery to the motor, respectively, has a power supply control means for controlling ,
The power supply control means,
(1) A first power mode in which the motor is driven by electric power from the AC power source,
(2) A second power mode in which the motor is driven by electric power from the AC power supply and electric power from the built-in battery,
(3) A third power mode in which the motor is driven by electric power from the built-in battery,
An air compressor , characterized in that the motor is driven in any one of the power modes . The air compressor according to claim 1 , further comprising a power mode switching unit for manually switching the power mode. The air compressor according to claim 1 , wherein the built-in battery is configured to be rechargeable by electric power supplied from the AC power supply. The air compressor according to claim 1 , wherein the built-in battery is detachably provided. The internal battery is detachable from the air compressor, according to any one of claims 1 to 5 wherein is configured to be externally powered by being removed from the air compressor, it is characterized by Air compressor. The device information on the current state of the air compressor toward the information display device carried by the user at a location remote from said air compressor, a communication unit for transmitting by wireless communication, and further perforated,
The air compressor according to any one of claims 1 to 6 , wherein the device information regarding the current state of the air compressor includes any of the following information items (1) to (6) .
(1) The remaining battery level of the internal battery of the air compressor.
(2) Pressure value in the air tank.
(3) Information indicating whether the current air compressor is driven by the AC power supply or the internal battery.
(4) Information that informs the fact that the AC power supply is cut off.
(5) Information notifying that the AC power supply is cut off and the battery is being driven by the built-in battery.
(6) Information indicating the current power mode of the air compressor. An information display method for an air compressor using the air compressor according to claim 7 and an information display device for performing wireless communication with the air compressor,
A step in which the air compressor transmits, by wireless communication, device information related to the current state of the air compressor to an information display device owned by a user at a place distant from the air compressor;
The information display device, based on the device information received from the air compressor, a step of displaying device information regarding the current state of the air compressor in real time,
A method for displaying information of an air compressor, comprising: