JP2860583B2 - Compressor - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a compressor in which gas is compressed and stored in a tank, and the internal pressure of the tank is maintained within a certain range.

(Prior Art) In general, the compressor stops the compression operation when the internal pressure of the tank reaches the maximum pressure, decreases the internal pressure of the tank due to consumption of the compressed gas, and starts the compression operation again when the internal pressure reaches the minimum pressure. By repeating such an operation, the internal pressure of the tank is always maintained within a predetermined range.

As such a compressor, there are a type performing a PU (pressure-unloading) operation type and an operation type using a minimum operation time timer. Among these, the type of the PU operation type is used in a compression operation. The compressor is automatically selected to operate in a pressure switch type or in an automatic unloader type in accordance with the time required for the internal pressure of the tank to rise and fall. Then, the pressure switch type operation is such that when the internal pressure of the tank reaches the maximum pressure, the motor which is the driving means is stopped, and when the internal pressure of the tank reaches the minimum pressure, the motor is started to maintain the pressure within a certain range. It was made. Also,
With the automatic unloader type operation, when the tank internal pressure reached the maximum pressure, the motor was operated without load (operation that rotates the motor without performing compression) when the internal pressure of the tank reached the maximum pressure so that the compression operation could be started quickly, and the pressure reached the minimum pressure In some cases, the compression operation is performed again so that the pressure is maintained within a certain range. Even in the automatic unloader type operation, if the pressure does not drop to the return pressure (operation return pressure, hereinafter appropriately referred to as minimum pressure) within a certain time after performing the no-load operation, it is determined that the compressed gas is not used much. The motor is stopped. In this way, in the PU operation, optimal control is performed according to the amount of the compressed gas used.

In the case of the operation method using the minimum operation time timer,
The fourth was a no-load operation after the internal pressure of the tank reaches a maximum pressure P _n, as shown in FIG. Continues for a predetermined time T _0, stops the motor after a predetermined time T ₀ has elapsed, the internal pressure of the rear tank There reaches the minimum pressure P _r performs compression operation to restart the motor, in the same manner as described above and the internal pressure of the tank reaches the maximum pressure P _n subjected to idling for a predetermined time T _0, or less, above In the same manner as described above, the motor is stopped and started to maintain the internal pressure of the tank within a certain range.

(Problems to be Solved by the Invention) By the way, in the above-mentioned compressors, in any of the compressors that perform the PU operation method or the operation method using the minimum operation time timer, the internal pressure of the tank is reduced to the minimum pressure after the driving means is stopped. When the driving means is reached, the driving means is restarted. When the driving means is stopped, the pressure of the compressed gas is low and reaches the minimum pressure within a short period of time. time T _a to restart from the stop of the drive means is short) that a result, such a start-on-off stop and switches the driving means by performing the operation will be are frequently repeated drive means And shorten the life of switches.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a compressor that can extend the life of driving means and switches.

(Means for Solving the Problems) In order to achieve the above object, the present invention provides a gas compression unit driven by a driving unit to compress gas, and a tank for storing the gas compressed by the gas compression unit. First switching means for switching the operation / stop of the driving means; second switching means for switching the driving means to load operation or non-load operation; and internal pressure of the tank. And a control means for controlling the first switching means and the second switching means based on the pressure detected by the internal pressure detecting means. When the internal pressure detected by the internal pressure detecting means reaches a maximum pressure, the second switching means is controlled to operate the driving means under no load, and a predetermined time has elapsed since the start of the no load operation. Sometimes before If the internal pressure detected by the internal pressure detecting means has decreased to the operation return pressure lower than the maximum pressure, the second pressure
And controlling the switching means to perform the load operation of the drive means, and when the internal pressure detected by the internal pressure detection means has not decreased to the operation return pressure when a predetermined time has elapsed since the start of the no-load operation. After the second switching means is controlled to perform the load operation of the driving means, the first switching means is controlled when the internal pressure detected by the internal pressure detecting means reaches the maximum pressure. The driving means is stopped.

(Operation) With the configuration described above, the control unit controls the second switching unit when the internal pressure detected by the internal pressure detection unit reaches the maximum pressure, and causes the driving unit to perform a no-load operation. When the internal pressure detected by the internal pressure detection means has decreased to an operation return pressure lower than the maximum pressure when a predetermined time has elapsed after the start of the no-load operation, the second switching means is controlled. When the internal pressure detected by the internal pressure detection means has not decreased to the operation return pressure when a predetermined time has elapsed after the start of the no-load operation, the second operation is performed. After the switching means is controlled to perform the load operation of the driving means, when the internal pressure detected by the internal pressure detecting means reaches the maximum pressure, the first switching means is controlled to stop the driving means. .

(Embodiment) Hereinafter, a reciprocating air compressor according to an embodiment of the present invention will be described with reference to FIGS.

A package 2 is mounted on a gantry 1, a frame 3 is provided in the package 2, and a motor 4 serving as a driving means and an air compressor body (gas compression) driven by the motor 4 to perform air compression are mounted on the frame 3. Part) 5 and an air tank (tank) 6 for storing gas compressed by the air compressor body 5
And are installed.

A three-way solenoid valve (second switching means) 7 is connected to the air tank 6. The three-way solenoid valve 7 is connected to the intake side of the air compressor main body 5 via an unloader pipe 8 and is energized to operate an intake valve of the air compressor main body 5 (not shown). The compressed gas in the air tank 6 is supplied to the compressor, the intake valve is forcibly opened by an unloader device, and the compressor is operated in a no-load operation. Load operation).

In the figure, reference numeral 9 denotes a start switch connected to a power supply. On the power supply side of the motor 4, an electromagnetic switch (not shown) as first switching means is provided.

Pressure sensor (not shown) for detecting the internal pressure of the three-way solenoid valve 7, the electromagnetic switch and the air tank 6
And a control circuit 11 as a control means is provided. The control circuit 11 is configured by a microcomputer and executes a program stored in advance based on detection data of the pressure sensor and measurement data of a built-in timer (not shown) to execute the three-way solenoid valve 7 and the electromagnetic switch. The air compressor is controlled by the PU operation method by performing on / off operation (in this embodiment, the lower limit value (minimum pressure) of the control pressure,
The upper limit (maximum pressure) is set to be _Pr and _Pn , respectively. ). This control will be described below.

When the start switch 9 is turned on, the electromagnetic switch is closed and the motor 4 is started to start the compression operation. The pressure switch type or the automatic unloader type is automatically selected according to the use state of the compressed air in the air tank 6, and the operation is performed.

When the automatic unloader type is selected, no-load operation is performed (see the air pressure column when the motor column is on and the compressor column is not compressed in FIG. 3) at the same time as the timer. the conducted was to determine whether the internal pressure of a predetermined time (predetermined time from the start of the no-load operation) T air tank 6 in ₁ is not in the lowest pressure (operation restoration pressure) P _r, minimum pressure P _r , The compression operation (load operation of the motor 4) is performed with the power supply to the three-way solenoid valve 7 cut off.

Also, when not at the lowest pressure P _r when a predetermined time T ₁ is passed, to perform the compression operation (load operation) turned down power supply to the three-way electromagnetic valve 7, to reach the maximum pressure P _n . When the maximum pressure _Pn is reached, the electromagnetic switch is opened to stop the motor 4. Thereafter, when the compressed air is used and the air pressure reaches the minimum pressure _Pr , the electromagnetic switch is closed and the motor 4 is restarted.

The operation of the air compressor configured as described above will be described.

When the start switch 9 is turned on to start the compression operation and the internal pressure of the air tank 6 reaches the maximum pressure _Pn , the pressure switch type or the automatic unloader type is automatically selected and the operation control is started.

Control of the pressure switch type is selected if the consumption of compressed air in the air tank 6 is small, the internal pressure of the air tank 6 is the highest pressure P _n motor 4 is stopped, when the minimum pressure P _r motor 4 is restarted.

When the consumption of the compressed air in the air tank 6 is large, the automatic unloader type control is selected. In this control, when the internal pressure of the air tank 6 reaches the maximum pressure _Pn , the three-way solenoid valve 7
By energizing the to perform the no-load operation, the air pressure within a predetermined time T ₁ the air pressure in the air tank 6 with the consumption of compressed air is reduced to reach the minimum pressure P _r, the energization of the three-way electromagnetic valve 7 Refuse and start the compression operation again. Further, even if the air pressure does not reach the minimum pressure P _r in a predetermined time T _1, when the predetermined time T ₁ is passed, in the air tank 6 to start the compression operation again turned down energization of the three-way electromagnetic valve 7 Increase pressure to maximum pressure _Pn . When the pressure in the air tank 6 reaches the maximum pressure _Pn , the motor 4 is stopped. Thereafter, when the air pressure reaches a minimum pressure P _r decreased motor 4 is started by the consumption of compressed air. Thus by performing the compression operation when the predetermined time T ₁ is passed from the no-load operation start, the internal pressure of the tank maximum pressure P _n, and reaches the maximum pressure P _n to stop the motor 4, the compressed air even when the pressure decreases with consumption, it requires a lot of time until the motor 4 is minimum pressure P _r which is to be activated (ie stop-restart time T _a becomes longer.) will be. By performing such operation, compared with the conventional one described above, the less on and off times of the start and stop frequency and the electromagnetic switch minute motor 4 stops, the restart time T _a is prolonged, The life of the motor 4 and the electromagnetic switch can be extended.

In the present embodiment, the case of an air compressor controlled by the PU operation method is described as an example, but a compressor controlled by an operation method using a minimum operation time timer may be used.

Further, in this embodiment, the case of the reciprocating air compressor has been described. However, the present invention may be a scroll compressor or a compressor for compressing another gas.

Further, in this embodiment, the case where the driving means is a motor is described as an example, but the present invention is not limited to this, and may be an engine or the like.

(Effects of the Invention) As described above, the present invention performs no-load operation when the internal pressure (tank internal pressure) detected by the internal pressure detecting means reaches the maximum pressure, and performs a predetermined time after starting the non-load operation. If the tank internal pressure has not decreased to the operation return pressure at the elapse of time, the driving means is operated under load, and when the tank internal pressure reaches the maximum pressure, the first switching means is controlled to stop the driving means. The driving means is stopped after the load operation (compression operation) is once performed to bring the tank internal pressure to the maximum pressure, so that the operation return pressure at which the driving means starts after the driving means is stopped. It takes a lot of time to complete the process, and it is possible to extend the time from stop to start of the driving means. By performing such an operation, the frequency of starting / stopping the driving means and the number of ON / OFF operations of the switches such as the first switching means are reduced, and the life of the driving means and the switches can be extended.

[Brief description of the drawings]

FIG. 1 is a circuit diagram schematically showing a compressor according to an embodiment of the present invention, FIG. 2 is a cross-sectional view showing the compressor, FIG. 3 is a characteristic diagram showing an operation example of the compressor, FIG. FIG. 4 is a characteristic diagram showing an operation example of a conventional compressor. 4 ... motor, 6 ... air tank, 11 ... control circuit.

Claims (1)

(57) [Claims] 1. A gas compression unit driven by a driving unit to compress a gas, a tank for storing the gas compressed by the gas compression unit, and a first switching unit for switching operation / stop of the driving unit. A second switching unit that switches between operation of the driving unit to a load operation and a non-load operation, an internal pressure detection unit that detects an internal pressure of the tank, and an internal pressure detection unit that detects the internal pressure. Control means for controlling the first switching means and the second switching means based on the pressure, wherein the control means: the internal pressure detected by the internal pressure detection means reaches a maximum pressure In this case, the second switching means is controlled to cause the driving means to perform no-load operation, and the internal pressure detected by the internal pressure detecting means when a predetermined time has elapsed since the start of the no-load operation is higher than the maximum pressure. When the pressure has decreased to a low operation return pressure, the second switching means is controlled to perform the load operation, and the internal pressure detection means performs a predetermined time after the start of the no-load operation. If the detected internal pressure has not decreased to the operation return pressure, the second switching means is controlled to perform the load operation, and then the internal pressure detected by the internal pressure detecting means is changed to the maximum pressure. A compressor that controls the first switching means to stop the driving means when the pressure reaches the first switching means.