JP2015017555A - Air compressor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air compressor which can easily check the current state of a power source, manage the power source including other tools, and prevent failure beforehand.SOLUTION: An air compressor includes pressure detection means 21 detecting the pressure inside a tank 14, display means 39 displaying the value of the pressure inside the tank 14 detected by the pressure detection means 21, and voltage detection means 23 detecting an input voltage to the air compressor 10. The display means 39 can also display the input voltage detected by the voltage detection means 23.

Description

  The present invention relates to an air compressor, and more particularly to an air compressor characterized by being able to check a power supply state.

  Portable air compressors are generally used with commercial power sources, but when they are brought into a construction site and used, a long extension cable is used or a booster is connected to the product. The voltage may change. Also, since a large current flows during the operation of the air compressor, the input voltage may drop greatly. Such a change in input voltage causes a decrease in product capability, and in the worst case, may lead to a failure factor.

  As a conventional technique for managing a change in input voltage, there is known a technique for informing a voltage abnormality by notifying with an LED or the like when used at a voltage other than a specified voltage (for example, AC 70 to 110 V) (for example, Patent Document 1). reference).

Japanese Patent Application Laid-Open No. 2012-97752

  However, the above-mentioned conventional warning is insufficient to grasp the current power supply environment, and when the compression capacity of the air compressor is reduced, the power supply environment is bad or the machine is faulty. The user was unable to determine whether For this reason, there has been a problem that a user who misunderstood that the machine is faulty requests repair even though the power supply environment is bad.

  In addition, in the conventional method described above, it is impossible to check the power supply status including other tools such as how much the input voltage changes when other tools are used. Could not be used at the same time, and could not manage the power.

  Furthermore, when the power source is an unstable power source such as a temporary power source or a generator, the power source voltage is not a clean sine wave, but distortion occurs, resulting in a shortage of power to be supplied to the motor and a large ripple. Excessive heat generation and output decrease. When an output drop occurs using such an unstable power source, the conventional method as described above may cause the user to misunderstand that the compression capacity of the air compressor is reduced.

  Further, when the distortion accelerates and the peak voltage increases in a situation where the power source is unstable, the input voltage exceeds the withstand voltage of the control board, and there is a possibility of destroying the control board components. For example, if the power supply having a very small strain is continuously used, excessive distortion or a high voltage can be a factor that abruptly occurs. Therefore, there is a possibility that the control board deteriorates or breaks down.

  Therefore, the present invention provides an air compressor that can easily check the current power supply status, can manage power when other tools are used, and can prevent malfunctions. The task is to do.

  The present invention has been made to solve the above-described problems, and is characterized by the following.

(Claim 1)
The invention described in claim 1 is characterized by the following points.
That is, the air compressor according to claim 1 is an air compressor capable of generating and storing compressed air, and storing a compression mechanism for generating compressed air and the compressed air generated by the compression mechanism. For detecting the pressure in the tank, the pressure detecting means for detecting the pressure in the tank, the display means for displaying the pressure value in the tank detected by the pressure detecting means, and the voltage for detecting the input voltage to the air compressor Detecting means, and the display means can also display the input voltage detected by the voltage detecting means.

(Claim 2)
The invention described in claim 2 has the following features in addition to the features of the invention described in claim 1 described above.
That is, the display means displays the input voltage detected by the voltage detection means until a predetermined time elapses after the power is turned on, and the pressure detection means detects the fixed voltage when the predetermined time elapses. The pressure value in the tank is displayed.

(Claim 3)
The invention described in claim 3 is characterized by the following points in addition to the characteristics of the invention described in claim 1.
That is, the air compressor is formed so that the compression mechanism operates until the pressure in the tank reaches a predetermined off-pressure when the power is turned on, and the display means is configured so that the tank is turned on after the power is turned on. The input voltage detected by the voltage detection means is displayed until the internal pressure reaches a predetermined off pressure, and the pressure value in the tank detected by the pressure detection means is displayed when a predetermined time has elapsed. It is characterized by that.

(Claim 4)
The invention according to claim 4 is characterized by the following points in addition to the features of the invention according to any one of claims 1 to 3.
That is, a display switching means for switching the display contents of the display means is provided.

(Claim 5)
The invention according to claim 5 is characterized by the following points in addition to the features of the invention according to any one of claims 1 to 4.
That is, the display means displays the input voltage detected by the voltage detection means and the pressure value in the tank detected by the pressure detection means by different display methods.

(Claim 6)
The invention described in claim 6 is characterized by the following points in addition to the features of the invention described in any one of claims 1-5.
That is, it comprises current detection means for detecting current consumption of the air compressor, and the display means displays the current consumption detected by the current detection means together with the input voltage detected by the voltage detection means. And

  The invention described in claim 1 is as described above, and the display means for displaying the pressure value in the tank detected by the pressure detection means can also display the input voltage detected by the voltage detection means. The input voltage can be displayed without providing a display method. And since a user can grasp | ascertain the present power supply environment correctly, when the compression capability of an air compressor falls, it can be easily judged whether a power supply environment is bad or it is a failure of a machine.

  In addition, since it is possible to easily grasp how much the input voltage changes when other tools are used, it is possible to easily manage the power supply when other tools are used.

Furthermore, even when the power source at the work site where the user brought in an air compressor or other tools is an unstable power source environment such as a temporary power source or a generator, the power source is used when the compression capacity of the air compressor is reduced. It can be easily judged whether the environment is bad or the machine is faulty.
In addition, by accurately grasping the state of the unstable power supply, it is possible to prevent deterioration or failure of the control board before excessive distortion or high voltage occurs.

  The invention according to claim 2 is as described above, and the display means displays the input voltage detected by the voltage detection means until a predetermined time elapses after the power is turned on. When the time elapses, the pressure value in the tank detected by the pressure detecting means is displayed. With this configuration, the input voltage and the pressure value in the tank can be automatically switched and displayed. At the timing when the user is likely to be near the air compressor (immediately after the power is turned on), the input voltage is displayed and the user is working (usually the user is working away from the air compressor). The pressure value in the tank is displayed so that the user can properly check the power supply status.

  That is, when the user starts the work by turning on the power of the air compressor, the power environment of the work site can be known by the display means of the input voltage of the air compressor. Furthermore, since the power supply environment when using other tools and the like can be grasped, it is possible to determine in advance whether or not the other tools can be used, so that workability is improved.

Further, the invention according to claim 3 is as described above, and the display means detects the voltage detection means from when the power is turned on until the pressure in the tank reaches a predetermined off-pressure. An input voltage is displayed, and a pressure value in the tank detected by the pressure detecting means when a predetermined time has elapsed is displayed. With this configuration, the input voltage and the pressure value in the tank can be automatically switched and displayed. At the timing when the user is likely to be near the air compressor (immediately after the power is turned on), the input voltage is displayed and the user is working (usually the user is working away from the air compressor). The pressure value in the tank is displayed so that the user can properly check the power supply status. Furthermore, since the power supply environment when using other tools and the like can be grasped, it is possible to determine in advance whether or not the other tools can be used, so that workability is improved.

  The invention as set forth in claim 4 is as described above, and further comprises display switching means for switching display contents of the display means. That is, since the user can switch and display the input voltage and the pressure value in the tank at an arbitrary timing, the input voltage or the pressure value in the tank can be confirmed at the user's favorite timing.

  The invention according to claim 5 is as described above, and the display means displays differently the input voltage detected by the voltage detection means and the pressure value in the tank detected by the pressure detection means. Display by way. If comprised in this way, since a user can easily visually recognize whether the input voltage is displayed by the display means or the pressure value in the tank, it is possible to prevent misreading of the value. Can do. In addition, a display method in which the input voltage and the pressure value in the tank are displayed alternately is possible.

  The invention according to claim 6 is as described above, and the display unit displays the current consumption detected by the current detection unit together with the input voltage detected by the voltage detection unit. According to such a configuration, when the voltage value fluctuates, it is possible to easily confirm that the cause is the fluctuation of the current value, so that the cause of the voltage fluctuation can be identified. Furthermore, since the current consumption environment when using other tools or the like can also be grasped, it is possible to determine in advance whether or not the other tools can be used, thereby improving workability.

It is (a) top view and (b) side view of an air compressor. It is a block diagram which shows the internal structure of an air compressor. It is an image figure of an operation panel. It is a flowchart of an input voltage display and a tank internal pressure display. It is a flowchart of the input voltage display and tank internal pressure display which concern on a modification. (A) The graph which shows the voltage waveform of a commercial power source, (b) The graph which shows the voltage waveform of a generator.

  The portable air compressor 10 according to the present embodiment is formed so as to be able to generate and store compressed air, and as shown in FIG. 1, a compression mechanism 11 having a cylinder for generating compressed air. And a twin cylinder tank 14 for storing compressed air generated by the compression mechanism 11. And the handle is provided in the both sides of the air compressor 10 so that a user may carry easily by hand.

  The compression mechanism 11 is driven by a motor 12 built in the air compressor 10 and compresses air introduced into the cylinder by reciprocating the compression piston in the cylinder. The compressed air thus compressed in the cylinder is sent to the tank 14 and stored. The stored compressed air is supplied to an external device (for example, a compressed air driving tool) connected to the air extraction unit 13 and used.

  As shown in FIGS. 1A and 3, an operation panel 15 is provided on the upper surface of the air compressor 10. The operation panel 15 includes various buttons for operating the air compressor 10, LEDs for displaying the state of the air compressor 10, and the like.

  The operation of the air compressor 10 is controlled by a control device 100 (see FIG. 2) built in the air compressor 10. Although not particularly illustrated, the control device 100 is configured around a CPU and includes a ROM, a RAM, an I / O, and the like. Then, the CPU is configured to control various input devices and output devices by reading a program stored in the ROM.

(Input device)
As shown in FIG. 2, the input device of the control device 100 includes temperature detection means 20, pressure detection means 21, current detection means 22, voltage detection means 23, motor rotation speed detection means 24, power switch 30, and filling mode switching. A switch 31 and an operation mode changeover switch 32 are provided. In addition, as an input device, it is not limited to the input device shown in this FIG. 1, You may provide another input device.

(Temperature detection means 20)
The temperature detection means 20 is a temperature sensor that measures the ambient temperature of the inverter board that constitutes the control device 100. The temperature measured by the temperature detection means 20 is output as a signal to the control device 100 and used to check the state of the air compressor 10.

(Pressure detection means 21)
The pressure detection means 21 is for detecting the pressure in the tank 14, and is specifically a pressure sensor provided in the tank 14. The pressure value measured by the pressure detection means 21 is output as a signal to the control device 100 and processed.

(Current detection means 22)
The current detection means 22 is for measuring the current value supplied to the motor 12. The current value measured by the current detection means 22 is output as a signal to the control device 100 and processed.

(Voltage detection means 23)
The voltage detection means 23 is for detecting the input voltage to the air compressor 10. The voltage value measured by the voltage detector 23 is output as a signal to the control device 100 and processed.

(Motor rotational speed detection means 24)
The motor rotation speed detecting means 24 detects the rotation speed of the motor 12, and is constituted by, for example, an angular position sensor. The rotational speed measured by the motor rotational speed detection means 24 is output as a signal to the control device 100 for processing.

(Power switch 30)
The power switch 30 is a switch for starting the air compressor 10 and is disposed on the operation panel 15 described above. When the power switch 30 is pressed and the air compressor 10 is activated, the compression mechanism 11 is activated and the compressed air is stored in the tank 14 so that the air compressor 10 can be used.

(Filling mode selector switch 31)
The filling mode changeover switch 31 is a switch for setting the filling mode of the air compressor 10. In other words, the air compressor 10 according to the present embodiment can change the control range of the rotation speed of the motor 12 according to the use environment, and the rotation speed of the motor 12 can be changed by pressing the filling mode changeover switch 31. The control range can be set. The air compressor 10 according to the present embodiment increases, as a filling mode, a normal mode, a silent mode in which the rotation speed of the motor 12 is suppressed as compared with the normal mode, and a rotation speed of the motor 12 higher than that in the normal mode. A quick filling mode. When pressing of the filling mode changeover switch 31 is detected, the pressing signal is output to the control device 100 (filling mode setting means 140 described later) and processed.

(Operation mode switch 32)
The operation mode changeover switch 32 is a switch for setting the operation mode of the air compressor 10. That is, the air compressor 10 according to the present embodiment can change the pressure control range in accordance with the purpose of use, and the pressure control range can be set to an arbitrary range by pressing the operation mode switch 32. It is like that. For example, the pressure in the tank 14 is 1.1 to 1.5 MPa, 2.5 to 3.0 MPa, 3.2 to 4.0 MPa, or 3.9 to 4.4 MPa. Or you can select and set. When the pressing of the operation mode changeover switch 32 is detected, the pressing signal is output to the control device 100 (operation mode setting means 150 described later) and processed.

(Output device)
As shown in FIG. 2, the output device of the control device 100 includes a motor 12, a power display LED 35, a filling mode display LED 36, an operation mode display LED 37, a discharge level LED 38, a display unit 39, and a notification unit 40. And are provided. In addition, as an output device, it is not limited to the output device shown in this FIG. 2, You may provide another output device.

(Motor 12)
As described above, the motor 12 drives the compression mechanism 11 to reciprocate the compression piston within the cylinder. The motor 12 is configured to start and stop the compression operation by being driven and controlled by the control device 100 (drive control means 110 described later).

(Power indicator LED35)
The power display LED 35 is lit when the above-described power switch 30 is pressed and the air compressor 10 is activated. Further, when the power switch 30 is pressed and the air compressor 10 is shut down, the light is turned off.

(Filling mode display LED 36)
The filling mode display LED 36 is for displaying a filling mode selected by pressing the filling mode changeover switch 31 described above.

(Operation mode display LED37)
The operation mode display LED 37 is for displaying the operation mode selected by pressing the operation mode changeover switch 32 described above.

(Discharge level LED38)
As a result of checking the state of the air compressor 10, the discharge level LED 38 blinks when it is determined that the discharge level is reduced.

(Display means 39)
The display means 39 is for displaying the pressure value in the tank 14 detected by the pressure detection means 21. In the present embodiment, a 2-digit 7-segment display is used, and numerical values can be digitally displayed.
The display means 39 may be a 7-segment display having three or more digits, or may be a display (including a touch panel) having a high pixel number without being limited to the 7-segment display.

(Notification means 40)
The notifying means 40 is means for notifying an error of the air compressor 10 or the like. For example, a device that performs auditory display such as a buzzer or a device that performs visual display such as an LED.

(Control device 100)
Next, the control device 100 will be described in detail.
The control device 100 controls the various devices described above, and functions as each unit such as a drive control unit 110, a time measurement unit 120, a storage unit 130, a filling mode setting unit 140, and an operation mode setting unit 150.
Control device 100 is not limited to the above-described means, and may include other means.

(Drive control means 110)
The drive control means 110 is a program for controlling the compression operation by the compression mechanism 11 by controlling the motor 12. This drive control means 110 refers to the air pressure in the tank 14 detected by the pressure detection means 21, and turns on / off the operation of the motor 12 so that the air pressure in the tank 14 becomes an appropriate pressure.

  Specifically, an on-pressure for starting the driving of the compression mechanism 11 and an off-pressure for stopping the driving of the compression mechanism 11 are determined in advance. It is determined whether or not the detected air pressure in the tank 14 has reached this on-pressure or off-pressure, and when it reaches, the operation of the motor 12 is turned on / off.

  At this time, the on pressure and the off pressure are determined by the operation mode set by the operation mode setting means 150 described later. For example, in the operation mode in which the pressure control range is 3.2 to 4.0 MPa, 3.2 MPa is an on pressure and 4.0 MPa is an off pressure. In this case, when the compressed air in the tank 14 is used and the pressure in the tank 14 is reduced to 3.2 MPa (on pressure), the motor 12 is operated until the pressure in the tank 14 becomes 4.0 MPa (off pressure). Let the air compress. By repeating this operation, the air pressure in the tank 14 is controlled to be an appropriate pressure.

  Note that the rotation speed of the motor 12 when performing the compression operation is determined by a filling mode set by a filling mode setting unit 140 described later. For example, the rotation speed of the motor 12 is limited to a maximum of 2900 min ^ -1 in the normal mode, limited to a maximum of 1800 min ^ -1 in the silent mode, and limited to a maximum of 3400 min ^ -1 in the rapid filling mode. To be controlled. With such control, for example, when working in the night or in a residential area, noise can be suppressed by using the silent mode, and if you want to use compressed air quickly, use the quick filling mode to save time. Can be shortened.

(Time measuring means 120)
The time measuring means 120 is a means for measuring time from a predetermined timing. For example, a CPU timer is used.

(Storage unit 130)
The storage unit 130 includes a nonvolatile memory, and stores programs and data.

(Filling mode setting means 140)
The filling mode setting means 140 is for setting the filling mode of the air compressor 10. Specifically, when pressing of the filling mode changeover switch 31 is detected, the pressing signal is received and processing for switching the filling mode is executed. The filling mode set by the filling mode setting unit 140 is stored in the storage unit 130 or the like and used for drive control of the motor 12 by the drive control unit 110.

(Operation mode setting means 150)
The operation mode setting means 150 is for setting the operation mode of the air compressor 10. Specifically, when pressing of the operation mode switching switch 32 is detected, the pressing signal is received, and processing for switching the operation mode is executed. The operation mode set by the operation mode setting means 150 is stored in the storage means 130 or the like and used for drive control of the motor 12 by the drive control means 110.

(Execution flow of input voltage display and tank internal pressure display)
Next, the input voltage display and the tank 14 internal pressure display according to the present embodiment will be specifically described.
The display means 39 of the air compressor 10 according to the present embodiment can display the input voltage value detected by the voltage detection means 23 in addition to the pressure value in the tank 14 detected by the pressure detection means 21. . These two values are automatically switched and displayed. That is, the display means 39 displays the input voltage detected by the voltage detection means 23 until a certain time elapses after the power is turned on, and the tank detected by the pressure detection means 21 when the certain time elapses. 14 is displayed. The processing related to the input voltage display and the tank 14 internal pressure display will be described with reference to the flow of FIG.

  First, in step S100 shown in FIG. 4, it is detected that the power switch 30 is turned on, and the air compressor 10 is activated. Initial setting is executed at the time of startup, and for example, a pressure display flag is set to OFF. This pressure display flag is information for switching whether to display the input voltage or the pressure value in the tank 14 on the display means 39. Then, the process proceeds to step S101.

  In step S101, it is checked whether the pressure in the tank 14 has reached a predetermined off pressure. Since the pressure in the tank 14 does not reach the off pressure in the normal initial state, the process proceeds to step S102. On the other hand, if the off pressure has been reached, the process proceeds to step S108.

  When the process proceeds to step S102, the motor 12 starts to rotate and the compression process is started. If the motor 12 is already rotating, the rotation is continued. Then, the process proceeds to step S103.

In step S103, it is checked whether the pressure display flag is off. If the pressure display flag is off (initial state), the process proceeds to step S104. On the other hand, when the pressure display flag is ON (after passing through step S107 described later), the process proceeds to step S105.
When the process proceeds to step S104, the input voltage detected by the voltage detection means 23 is displayed on the display means 39. Then, the process proceeds to step S106.
When the process proceeds to step S105, the pressure value in the tank 14 detected by the pressure detection means 21 is displayed on the display means 39. Then, the process proceeds to step S106.

In step S106, it is checked whether a predetermined time set in advance has elapsed. If the predetermined time has elapsed, the process proceeds to step S107. On the other hand, if the predetermined time has not elapsed, the process returns to step S101.
When the process proceeds to step S107, the pressure display flag is set to ON, and the process returns to step S101.

  If it is determined in step S101 that the off pressure has been reached and the process proceeds to step S108, the motor 12 is stopped and the compression operation is stopped. Although not specifically described in this flow, the same control as in the conventional air compressor 10 may be performed after step S108.

  If such control is performed, the input voltage and the pressure value in the tank 14 can be automatically switched and displayed. In the user's work, the input voltage is displayed at the timing when the user is likely to be near the air compressor 10 (immediately after the power is turned on), and during the user's work (usually the user is away from the air compressor 10 By displaying the pressure value in the tank 14 during operation, it is possible to appropriately confirm the power status by the user.

(Execution flow of input voltage display and tank internal pressure display according to another embodiment)
Next, an input voltage display and a tank 14 internal pressure display according to another example of the present embodiment will be specifically described.

  The difference between this modification and the above-described embodiment is the timing for switching the display of the pressure value in the tank 14 and the input voltage value. That is, in the above-described embodiment, the display unit 39 displays the input voltage detected by the voltage detection unit 23 until a predetermined time elapses after the power is turned on, and detects the pressure when the predetermined time elapses. The pressure value in the tank 14 detected by the means 21 is displayed. Instead, in this modification, the display means 39 displays the pressure in the tank 14 after the power is turned on at a predetermined off pressure. The input voltage detected by the voltage detecting means 23 is displayed until the pressure reaches, and the pressure value in the tank 14 detected by the pressure detecting means 21 when a predetermined time elapses is displayed. Processing related to this input voltage display and tank 14 internal pressure display will be described with reference to the flow of FIG.

  First, in step S200 shown in FIG. 5, it is detected that the power switch 30 is turned on, and the air compressor 10 is activated. Then, the process proceeds to step S201.

  In step S201, it is checked whether the pressure in the tank 14 has reached a predetermined off pressure. Since the pressure in the tank 14 does not reach the off pressure in the normal initial state, the process proceeds to step S202. On the other hand, if the off pressure has been reached, the process proceeds to step S204.

When the process proceeds to step S202, the motor 12 starts rotating and the compression process is started. If the motor 12 is already rotating, the rotation is continued. Then, the process proceeds to step S203.
In step S203, the input voltage detected by the voltage detection means 23 is displayed on the display means 39. Then, the process returns to step S201.

  On the other hand, if it is determined in step S201 that the off pressure has been reached and the process proceeds to step S204, the motor 12 is stopped and the compression operation is stopped. Then, the process proceeds to step S205.

  When the process proceeds to step S205, the pressure value in the tank 14 detected by the pressure detection means 21 is displayed on the display means 39. Although not specifically described in this flow, the same control as in the conventional air compressor 10 may be performed after step S205.

  If such control is performed, the input voltage and the pressure value in the tank 14 can be automatically switched and displayed. In the user's work, the input voltage is displayed at the timing when the user is likely to be near the air compressor 10 (immediately after the power is turned on), and during the user's work (usually the user is away from the air compressor 10 By displaying the pressure value in the tank 14 during operation, it is possible to appropriately confirm the power status by the user.

(About unstable power supply)
When the air compressor 10 is connected to an unstable power source such as a temporary power source or a generator, distortion occurs instead of a sine wave having a clean power source voltage as shown in FIG. In such a situation, the power supplied to the motor 12 is insufficient and a large ripple occurs, resulting in excessive heat generation of the components and a decrease in output. Further, when the distortion accelerates and the peak voltage increases in a situation where the power source is unstable, the input voltage exceeds the withstand voltage of the control board, and there is a possibility of destroying the control board components. For example, if the power supply having a very small strain is continuously used, excessive distortion or a high voltage can be a factor that abruptly occurs. Therefore, there is a possibility that the control board deteriorates or breaks down.

  As described above, according to the air compressor 10 according to the present embodiment, since the input voltage detected by the voltage detection unit 23 can be displayed, the user can accurately grasp the current power supply environment. When the compression capacity of the air compressor 10 decreases, it can be easily determined whether the power supply environment is bad or the machine is faulty. In addition, by accurately grasping the state of the unstable power supply, it is possible to prevent deterioration or failure of the control board before excessive distortion or high voltage occurs.

  If this point is further promoted, abnormalities in the frequency of the input voltage and distortion of the voltage waveform may be read, and if there is a large difference compared to the commercial power supply, it may be determined that the power supply is unstable. In addition, when it is determined that the power supply is unstable, the display means 39 and the notification means 40 are used to alert the user and to disconnect the connection, thereby protecting the control board from deterioration and failure. You may make it do. In addition, the fact that it is connected to an unstable power source may be recorded in the storage means 130 of the control board and used as a repair judgment at the time of failure.

  As a method for reading the abnormality of the frequency of the input voltage or the distortion of the voltage waveform, for example, a method of measuring one cycle of the input voltage in a short time can be considered. That is, one cycle (10 ms in FIG. 6) of the input voltage of the commercial power supply is subdivided at equal intervals (divided every 0.5 ms in FIG. 6), and the voltage value is sampled at the subdivided intervals. Then, based on the sampled voltage value, the time interval of the valley of the voltage waveform (a point indicating a voltage value lower than any of the preceding and following voltage values) is measured. In the example of FIG. 6B, the time interval between the valleys of the voltage waveform is 3 ms and 8.5 ms. This time interval is converted into a frequency (for example, 10 ms = 50 Hz, 3 ms = 166 Hz, 8.5 ms = 59 Hz), and when this frequency is out of a predetermined range (for example, 40 to 70 Hz), it is determined as an unstable power source. You may make it do.

(Summary)
As described above, according to the present embodiment, the display unit 39 that displays the pressure value in the tank 14 detected by the pressure detection unit 21 can also display the input voltage detected by the voltage detection unit 23. The input voltage can be displayed without providing a new display method. And since a user can grasp | ascertain the present power supply environment correctly, when the compression capability of the air compressor 10 falls, it can be easily judged whether a power supply environment is bad or it is a failure of a machine.

  In addition, it is easy to know how much the input voltage changes when using other tools, etc., so power tools such as electric circular saws and electric drills, dust collectors, other tools such as lights, etc. It is also possible to easily manage the power supply when it is used.

Furthermore, even when the power of the work site where the user brings the air compressor 10 or other tools is an unstable power supply environment such as a temporary power supply or a generator, the compression capacity of the air compressor 10 is reduced. Therefore, it is possible to easily determine whether the power supply environment is bad or the machine is faulty.
In addition, by accurately grasping the state of the unstable power supply, it is possible to prevent deterioration or failure of the control board before excessive distortion or high voltage occurs.

  Although not particularly described in the above-described embodiment, a display switching unit that switches display contents of the display unit 39 may be provided. For example, a switch for switching the display content is provided, and when this switch is turned down, the display content of the display means 39 is switched (the input voltage is displayed if the switch is held down while the pressure value in the tank 14 is displayed, Conversely, the pressure value in the tank 14 may be displayed if the switch is held down while the input voltage is being displayed. Further, instead of providing a separate switch for switching the display contents, the display switching means may be configured using an existing switch. For example, the display content of the display means 39 may be switched by long-pressing a predetermined switch (such as the filling mode switching switch 31 or the operation mode switching switch 32). In addition, the display content of the display means 39 may be switched by simultaneously pressing a plurality of switches. If the display switching means is provided in this way, the user can switch and display the input voltage and the pressure value in the tank 14 at an arbitrary timing. Therefore, the input voltage or the tank 14 can be displayed at any timing desired by the user. The pressure value inside can be confirmed.

  The display unit 39 may display the input voltage detected by the voltage detection unit 23 and the pressure value in the tank 14 detected by the pressure detection unit 21 by different display methods. For example, the display color may be changed, or the display method may be changed depending on whether it is blinking or lighting. Moreover, you may provide the discrimination | determination display means (for example, LED etc.) for discriminating which value is displayed. In this way, if the input voltage and the pressure value in the tank 14 are displayed by different display methods, the user can easily visually recognize which is being displayed, thus preventing erroneous reading of the value. be able to. Further, a display method in which the input voltage and the pressure value in the tank 14 are alternately displayed is possible.

  The display unit 39 may display the current consumption detected by the current detection unit 22 together with the input voltage detected by the voltage detection unit 23. According to such a configuration, when the voltage value fluctuates, it is possible to easily confirm that the cause is the fluctuation of the current value, so that the cause of the voltage fluctuation can be identified. Furthermore, since the current consumption environment when using other tools or the like can also be grasped, it is possible to determine in advance whether or not the other tools can be used, thereby improving workability.

DESCRIPTION OF SYMBOLS 10 Air compressor 11 Compression mechanism 12 Motor 13 Air extraction part 14 Tank 15 Operation panel 20 Temperature detection means 21 Pressure detection means 22 Current detection means 23 Voltage detection means 24 Motor rotation speed detection means 30 Power switch 31 Filling mode changeover switch 32 Operation Mode switch 35 Power indicator LED
36 Filling mode indicator LED
37 Operation mode indicator LED
38 Discharge level LED
39 Display means 40 Notification means 100 Control device 110 Drive control means 120 Time measurement means 130 Storage means 140 Filling mode setting means 150 Operation mode setting means

Claims (6)

An air compressor capable of generating and storing compressed air,
A compression mechanism for generating compressed air;
A tank for storing compressed air generated by the compression mechanism;
Pressure detecting means for detecting the pressure in the tank;
Display means for displaying the pressure value in the tank detected by the pressure detection means;
Voltage detecting means for detecting an input voltage to the air compressor;
With
The air compressor characterized in that the display means can also display the input voltage detected by the voltage detection means.   The display means displays the input voltage detected by the voltage detection means until a predetermined time elapses after the power is turned on, and the inside of the tank detected by the pressure detection means when the predetermined time elapses. The air compressor according to claim 1, wherein the pressure value is displayed. The air compressor is formed so that the compression mechanism operates until the pressure in the tank reaches a predetermined off pressure when the power is turned on,
The display means displays the input voltage detected by the voltage detection means from when the power is turned on until the pressure in the tank reaches a predetermined off pressure, and the pressure detection is performed when a certain time has elapsed. 2. The air compressor according to claim 1, wherein the pressure value in the tank detected by the means is displayed.   The air compressor according to any one of claims 1 to 3, further comprising display switching means for switching display contents of the display means.   5. The display unit according to claim 1, wherein the display unit displays the input voltage detected by the voltage detection unit and the pressure value in the tank detected by the pressure detection unit using different display methods. The air compressor in any one. Provided with current detection means for detecting the current consumption of the air compressor,
The air compressor according to any one of claims 1 to 5, wherein the display means displays the consumption current detected by the current detection means together with the input voltage detected by the voltage detection means. .

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