JP2020175836A - Pressure adjustment system and program for pressure adjustment system - Google Patents

Abstract

To suppress an unnecessary pressure value from being stored by automatically storing a necessary pressure value as work recording of a pressure value or the like after adjustment completion.SOLUTION: A pressure adjustment system comprises: a connection part which is detachably connected to a workpiece; a switching mechanism which switches between the in/outflow state being the state for inflowing fluid to a space communicating to the connection part or the state of outflowing the fluid from the space, and the stop state of stopping the in/outflow of the fluid with respect to the space; a pressure sensor which detects the pressure in the space in the stop state; and a display part which displays a pressure value detected by the pressure sensor. In a state where the connection part is connected to the workpiece, a user adjusts the pressure in the workpiece by operating the switching mechanism on the basis of the pressure value displayed on the display part. The pressure adjustment system further comprises a pressure value storage part which stores the pressure value that is detected immediately before the pressure value equal to or less than a predetermined threshold is detected when the pressure value equal to or less than the threshold is detected after the pressure value exceeding the threshold is detected by the pressure sensor.SELECTED DRAWING: Figure 2

Description

The present invention relates to a pressure regulation system and a program for the pressure regulation system.

As a pressure adjusting system used for pressure adjusting work in a work (for example, a tire or the like) filled with fluid, for example, Patent Document 1 describes a connection portion detachably connected to the work and the connection portion. A switching mechanism that switches between an inflow / out state in which fluid flows in and out of the space communicating with the space and a stop state in which the inflow / outflow of fluid into the space is stopped, and a pressure sensor that detects the pressure in the space in the stopped state. A display unit that displays the pressure value detected by the pressure sensor is provided, and the user operates the switching mechanism based on the pressure value displayed on the display unit in a state where the connection unit is connected to the work. The one that adjusts the pressure in the work is disclosed.

By the way, when the adjustment work is performed using the conventional pressure adjustment system, if the pressure value after the adjustment is completed is to be recorded as a work record, a writing instrument is picked up and a memo is taken every time the adjustment work is completed. It was necessary and the work efficiency was very poor.

On the other hand, in the conventional pressure adjustment system, if the pressure value detected by the pressure sensor is automatically stored in a memory or the like, it is not necessary to take notes and the work efficiency is improved. However, in the pressure adjusting system, the pressure in the work cannot be accurately detected by the pressure sensor unless it is in the stopped state. Therefore, when performing adjustment work using the pressure adjusting system, the pressure value displayed on the display unit in the stopped state is referred to while repeatedly switching between the inflow / out state and the stopped state by the switching mechanism. The pressure value will be adjusted so that it approaches the set pressure set for the work. Therefore, if all the pressure values detected by the pressure sensor in the stopped state are memorized, the pressure value detected by the pressure sensor at that time is memorized every time the switching mechanism switches to the stopped state, and the amount of data. As the number increases, it becomes troublesome to manage the pressure value required as a work record.

Registered Utility Model No. 3075397

Therefore, the present invention mainly provides a pressure adjustment system capable of automatically storing a pressure value required as a work record such as a pressure value after the adjustment is completed and suppressing the storage of an unnecessary pressure value. This is an issue.

That is, the pressure adjusting system according to the present invention is in at least one state of a connection portion detachably connected to the work and a state in which the fluid flows into the space communicating with the connection portion or a state in which the fluid flows out from the space. A switching mechanism for switching between an inflow / outflow state and a stop state for stopping the inflow / outflow of fluid into the space, a pressure sensor for detecting the pressure in the space in the stopped state, and a pressure value detected by the pressure sensor. With a display unit for displaying the above, and with the connection unit connected to the work, the user operates the switching mechanism based on the pressure value displayed on the display unit to adjust the pressure in the work. In the pressure adjusting system, each time the switching mechanism is switched from the inflow / outflow state to the stopped state, the elapsed time measuring unit that measures the elapsed time from a predetermined time point after the switching and the switching mechanism are in the stopped state. A pressure value storage unit that stores the pressure value detected by the pressure sensor in the stopped state when the elapsed time exceeds a predetermined set time before being switched to the inflow / outflow state. It is characterized by having.

In such a case, each time the switching mechanism is switched from the inflow / out state to the stopped state, the elapsed time from a predetermined time point after the switching is measured, and before the switching mechanism is switched from the stopped state to the inflow / out state. In addition, when the elapsed time exceeds a predetermined set time, the pressure value detected by the pressure sensor in the stopped state is stored, so that the user elapses the set time from a predetermined time point. When the pressure value is switched to the inflow / outflow state before, the pressure value detected in the stopped state is not stored, and the pressure value detected during the adjustment can be suppressed from being stored. On the other hand, the pressure value after the adjustment is completed, which is necessary as a work record, is surely stored. That is, after switching to the stopped state by the switching mechanism, if the user determines that the pressure value displayed on the display unit at the stopped state is significantly lower or higher than the set pressure, the user switches to the inflow / outflow state again. To execute. Therefore, by setting the set time longer than the time until the user confirms the pressure value displayed on the display unit and executes the operation of switching to the inflow / outflow state again, the pressure value detected during the adjustment is performed. Can be suppressed from being memorized. After switching to the stopped state by the switching mechanism, the user does not execute the operation of switching to the inflow / outflow state again when it is determined that the pressure value displayed on the display unit in the stopped state has reached the vicinity of the set pressure. .. Therefore, the pressure value detected after the adjustment is completed can be reliably stored.

In the present invention, the pressure value detected by the pressure sensor indicates a pressure value in a state where turbulence or the like is hardly generated in the space communicating with the connection portion. That is, for example, immediately after connecting the connection portion to the work or immediately after switching from the inflow / out state to the stopped state by the switching mechanism, turbulence occurs in the work and accurate internal pressure cannot be detected. Indicates the pressure value detected when the value is almost settled.

At the predetermined time point, for example, after the switching mechanism is switched from the inflow / out state to the stopped state and the pressure value is detected by the pressure sensor, or the pressure value is displayed on the display unit. The time when it is displayed is mentioned.

In addition, the pressure value before adjustment may be required as a work record. Therefore, the pressure value storage unit may store the pressure value first detected as a pressure value exceeding a threshold value predetermined by the pressure sensor.

In such a case, not only the pressure value after the adjustment is completed but also the pressure value before the adjustment can be stored as a work record.

More specifically, the connecting portion is in a state of communicating with the atmospheric space in a state of not being connected to the work. In this case, the pressure sensor detects the atmospheric pressure. When the connecting portion is connected to the work from this state, the connecting portion is in a state of communicating with the inside of the work, and the pressure value detected by the pressure sensor at this time becomes the pressure value before adjusting the work. Therefore, the pressure value that first exceeds the threshold value when the connection portion is connected to the work becomes the pressure value before adjustment. Therefore, by configuring as described above, the pressure value before adjustment can be reliably stored.

The threshold value may be set to be lower than the set pressure set for the work and higher than the atmospheric pressure.

Further, a sensor correction unit that corrects the zero point of the pressure sensor based on the atmospheric pressure when the power of the pressure adjustment system is turned on may be further provided.

In such a case, the zero point correction of the pressure sensor is always executed before the adjustment work is started, so that the pressure sensor can more accurately detect the relative pressure with the atmospheric pressure in the work. ..

Further, as a specific configuration of the pressure adjusting system, the pressure adjusting device including the connecting portion, the switching mechanism, and the pressure sensor, and the pressure adjusting device are separate from the pressure adjusting device, and the pressure value storage unit is used. A pressure value management device is provided, and the pressure adjustment device and the pressure management device are connected by wire or wirelessly, and either or both of the pressure adjustment device and the pressure value management device are connected. Examples include those provided with the display unit.

In such a case, since the pressure adjusting device and the pressure value management device can be separated from each other, the pressure adjusting device can be miniaturized and can be easily handled during the adjusting work.

Further, in the pressure adjusting system program according to the present invention, at least one of a connection portion detachably connected to the work and a state in which the fluid flows into the space communicating with the connection portion or a state in which the fluid flows out from the space. A switching mechanism that switches between an inflow / outflow state, which is a state of A display unit for displaying a pressure value is provided, and in a state where the connection unit is connected to the work, the user operates the switching mechanism based on the pressure value displayed on the display unit to reduce the pressure in the work. A program used in a pressure adjusting system for adjusting, the elapsed time measuring unit for measuring the elapsed time from a predetermined time point after the switching each time the switching mechanism is switched from the inflow / outflow state to the stopped state, and the above. A pressure that stores the pressure value detected by the pressure sensor in the stopped state when the elapsed time exceeds a predetermined set time before the switching mechanism is switched from the stopped state to the inflow / out state. It is characterized by exerting a function as a value storage unit.

Further, the pressure adjusting system according to the present invention is in at least one state of a connection portion detachably connected to the work and a state in which the fluid flows into the space communicating with the connection portion or a state in which the fluid flows out from the space. A switching mechanism for switching between an inflow / outflow state and a stop state for stopping the inflow / outflow of fluid into the space, a pressure sensor for detecting the pressure in the space in the stopped state, and a pressure value detected by the pressure sensor. With a display unit for displaying the above, and with the connection unit connected to the work, the user operates the switching mechanism based on the pressure value displayed on the display unit to adjust the pressure in the work. In a pressure adjusting system, after a pressure value exceeding a predetermined threshold value is detected by the pressure sensor, when a pressure value below the threshold value is detected, immediately before the pressure value below the threshold value is detected. It is characterized in that it further includes a pressure value storage unit that stores the pressure value detected in the above.

Even in such a case, when a pressure value exceeding a predetermined threshold value is detected by the pressure sensor and then a pressure value below the threshold value is detected, a pressure value below the threshold value is detected. Since the pressure value detected immediately before is stored, the pressure value after the adjustment completed, which is necessary as a work record, is stored in the pressure value storage unit.

More specifically, when the user performs the adjustment work, the step 1 of turning on the power of the pressure adjustment system, the step 2 of connecting the connection part to the work, and then the inside of the work displayed on the display part in the stopped state. Step 3 of repeating the switching operation of the switching mechanism while referring to the pressure value to adjust the pressure value displayed on the display unit to approach the set pressure set on the work, and step 4 of removing the connection part from the work. Will be executed sequentially. Therefore, by setting the threshold value to a value smaller than the set pressure and larger than the atmospheric pressure, when steps 2 and 3 are performed, the pressure sensor detects a pressure value exceeding the threshold value, and then step 4 is performed. When this is done, the pressure sensor detects a pressure value below the threshold. That is, in step 3, the user determines that the adjustment work has been completed when the pressure value displayed on the display unit is close to the set value, and proceeds to step 4. Therefore, the user executes the series of adjustment work. In this case, the pressure sensor detects a pressure value below the threshold value, which signals the completion of the adjustment work. Therefore, when a pressure value below the threshold value is detected by the pressure sensor, if the pressure value detected immediately before the pressure value below the threshold value is detected is stored, only the pressure value after the adjustment is completed can be stored. It can be memorized automatically.

According to the pressure adjusting system configured in this way, the pressure value after the adjustment completed and the pressure value before the adjustment required as the work record are automatically stored, and it is possible to suppress the storage of unnecessary pressure values.

It is a schematic diagram which shows the whole structure of the pressure adjustment system which concerns on Embodiment 1. FIG. It is a block diagram which shows the function of the pressure adjustment system which concerns on Embodiment 1. It is a flowchart which shows the operation of the pressure adjustment system which concerns on Embodiment 1. It is a block diagram which shows the function of the pressure adjustment system which concerns on Embodiment 2. It is a flowchart which shows the operation of the pressure adjustment system which concerns on Embodiment 2.

The pressure adjusting system according to the present invention will be described below with reference to the drawings.

The pressure adjusting system according to the present invention is used to adjust the pressure (internal pressure) in the work filled with the fluid. Specifically, it is used to adjust the pressure in the work so as to approach a predetermined set pressure. Examples of the work include tires and the like.

<Embodiment 1> As shown in FIG. 1, the pressure adjusting system 100 according to the present embodiment is a separate body from the pressure adjusting device 10 for adjusting the pressure in the work W and the pressure adjusting device 10, and adjusts the pressure. A pressure value management device 20 connected to the device 10 by wire or wirelessly is provided.

The pressure regulator 10 is a so-called inflator. Specifically, the pressure adjusting device 10 sets the switching mechanism 11 for operating the inflow and outflow of the fluid into the work W, the pressure sensor 12 for detecting the pressure in the work W, and the pressure value detected by the pressure sensor 12. A display unit 13 for displaying and a communication means 14 for communicating with the pressure value management device 20 are provided. The pressure adjusting device 10 further includes a hose-shaped connecting portion 15 connected to the work W so as to communicate with the inside of the work W. Further, a fluid supply tank (not shown) is connected to the pressure adjusting device 10. The fluid supply tank supplies the fluid to the pressure adjusting device 10 at a pressure higher than the pressure in the work W.

The switching mechanism 11 has an inflow / out state, which is at least one of a state in which the fluid flows into the work W via the connecting portion 15 and a state in which the fluid flows out from the work W, and a state in which the fluid flows into the work W. It switches between a state in which the fluid is not allowed to flow and a stopped state in which the fluid is not allowed to flow out from the work W. The switching mechanism 11 of the present embodiment is of a trigger type, and is configured to be in an inflow / out state when the trigger is gripped, and to be automatically stopped when the trigger is released. The switching mechanism 11 is not limited to the trigger type, and may be, for example, a button type. It is preferable that the switching mechanism 11 automatically switches from the inflow / out state to the stopped state in a state where no external force is applied as in the present embodiment.

The pressure sensor 12 detects the pressure in the space communicating with the connecting portion 15, specifically, the atmospheric space and the space in the work W in the state of being switched to the stopped state by the switching mechanism 11.

The display unit 13 displays the pressure detected by the pressure sensor 12 so that the user can visually recognize it. The display unit 13 of this embodiment is a digital type. The display unit 10 is not limited to the digital type, and may be an analog type.

The communication means 14 is for transmitting pressure value data indicating a pressure value detected by the pressure sensor 12 to the pressure value management device 20.

Further, the pressure adjusting device 10 includes a pressure sensor 12, a display unit 13, and a control unit C1 connected to the communication means 14. The control unit C1 is, for example, a computer including a CPU, a memory, an input / output means, an A / D / D / A converter, and the like, and is a pressure value temporary storage unit C1a based on a control program stored in the memory. , Display control unit C1b, zero point correction unit C1c, elapsed time measurement unit C1d, recording determination unit C1e, threshold storage unit C1f, set time storage unit C1g, and data transmission unit C1h. ..

The pressure value temporary storage unit C1a temporarily stores the pressure value detected by the pressure sensor 12. Specifically, the pressure value temporary storage unit C1a stores the pressure value detected by the pressure sensor 12 at any time when the switching mechanism 11 is in the stopped state. That is, the pressure value temporary storage unit C1a stores the new pressure value every time the pressure sensor 12 detects a new pressure value.

The display control unit C1b outputs the latest pressure value stored in the pressure value temporary storage unit C1a to the display unit 13.

When the zero point correction unit C1c receives a start signal indicating that the power is turned on, the zero point correction unit C1c acquires the pressure value (atmospheric pressure) described in the pressure value temporary storage unit C1a at that time, and the pressure sensor 12 zeros. It corrects the points.

The elapsed time measuring unit C1d measures the elapsed time from a predetermined time point after the switching every time the switching mechanism 11 switches from the inflow / outflow state to the stopped state. The elapsed time measuring unit C1d of the present embodiment is the elapsed time from the time when the pressure value is detected by the pressure sensor 12 after each switching from the inflow / outflow state to the stopped state by the switching mechanism 11. Is to measure. Each time the elapsed time measuring unit C1d is switched from the inflow / out state to the stopped state by the switching mechanism 11, the elapsed time from the time when the pressure value detected by the pressure sensor 12 is displayed on the display unit 13 after the switching. It may measure time. Further, the elapsed time measuring unit C1d may measure the elapsed time immediately after the switching every time the switching mechanism 11 switches from the inflow / out state to the stopped state.

The recording determination unit C1e acquires the latest pressure value stored in the pressure value temporary storage unit C1a, acquires the elapsed time from the elapsed time measuring unit C1d, and detects that the pressure value is detected from the pressure sensor 12. Receive a signal. Then, the threshold value stored in the threshold value storage unit C1f and the set time stored in the set time storage unit C1g are referred to, and it is determined whether or not to record the latest pressure value. Specifically, the recording determination unit C1e has a first determination for determining whether or not the acquired pressure value exceeds the threshold value, and when it is determined in the first determination that the acquired pressure value exceeds the threshold value, the acquired pressure. The second judgment that determines whether or not the value first exceeds the threshold value, and the elapsed time until the detection signal is received when the second judgment determines that the value does not exceed the threshold value first. A third determination for determining whether or not the set time has been exceeded is performed.

Then, when the recording determination unit C1e determines in the second determination that the acquired pressure value first exceeds the threshold value, the pre-adjustment pressure value indicating the acquired pressure value is the pressure value before adjustment. It is designed to be output as data to the data transmission unit C1h. Further, when the recording determination unit C1e determines in the third determination that the elapsed time until the detection signal is received exceeds the set time, the pressure value acquired before receiving the detection signal is adjusted after the adjustment is completed. It is designed to be output to the data transmission unit C1e as adjusted pressure value data indicating the pressure value of.

The threshold value is stored in the threshold value storage unit C1f. Here, the threshold value is set to a pressure value higher than the set pressure set in the work W and lower than the atmospheric pressure. In the present embodiment, the same numerical threshold value is used in the first determination and the third determination, but different numerical threshold values may be used.

Further, the set time is stored in the set time storage unit C1g. Here, the set time is the set time, after the user switches from the inflow / out state to the stopped state by the switching mechanism 11, the pressure value displayed on the display unit 13 is confirmed, and the pressure value reaches the vicinity of the set pressure. When it is determined not to be performed, the time required for the switching mechanism 11 to switch from the stopped state to the inflow / out state is taken into consideration. Specifically, the set time is preferably set to 0.5 seconds or more and 3 seconds or less, and more preferably 1 second or more and 2 seconds or less. The set time storage unit C1g may be configured so that the set time can be input by an input means or the like.

The data transmission unit C1h transmits the pre-adjustment pressure value data and the adjusted pressure value data received from the recording determination unit C1e to the pressure value management device 20.

The pressure value management device 20 includes a display (screen) D, input means, and the like, and also includes a control unit C2. The pressure value management device 20 of the present embodiment is a mobile terminal having a touch panel display portable to the user, such as a smartphone or a tablet terminal, which can wirelessly communicate with the pressure adjusting device 10. The control unit C2 is, for example, a computer equipped with a CPU, a memory, an A / D / D / A converter, etc., and the data receiving unit C2a and the pressure value storage are based on the control program stored in the memory. It is configured to exert a function as a unit C2b and a display control unit C2c.

The data receiving unit C2a receives the pre-adjustment pressure value data and the adjusted pressure value data transmitted from the data transmission unit C1f and outputs them to the pressure value storage unit C1b and the display control unit C2c.

The pressure value storage unit C2b stores the pre-adjustment pressure value data and the post-adjustment pressure value data output from the data reception unit C2a.

The display control unit C2c displays the pressure value indicated by the pre-adjustment pressure value data and the post-adjustment pressure value data output from the data reception unit C2a on the display D.

Next, the operation of the pressure adjusting system 100 of this embodiment will be described.

When the user turns on the power of the pressure adjusting device 10 while the connecting portion 15 is not connected to the work W, the pressure sensor 12 detects the pressure in the atmosphere communicating with the connecting portion 15, in other words, the atmospheric pressure. To do. Then, the zero point correction unit C1c corrects the zero point of the pressure sensor 12 based on the atmospheric pressure detected by the pressure sensor 12 (step S1). Incidentally, when the user turns on the power of the pressure adjusting device 10 with the connecting unit 15 connected to the work W, an error is displayed on the display unit 13.

Next, when the user connects the connecting portion 15 to the work W, the pressure sensor 12 detects the pressure in the space in the work W communicating with the connecting portion 15, in other words, the internal pressure. After that, each time the user operates the switching mechanism 11 to switch from the inflow / outflow state to the stopped state with the connecting portion 15 connected to the work W, the pressure sensor 12 detects the internal pressure (step S3). .. The pressure value temporary storage unit C1a stores the pressure value (internal pressure) detected by the pressure sensor 12 at any time (step S2). Then, the display control unit C1b acquires the latest pressure value from the pressure value temporary storage unit C1a every time a new pressure value is stored in the pressure value temporary storage unit C1a, and displays the acquired pressure value. Displayed at 13.

Further, each time the user switches from the inflow / outflow state to the stopped state by the switching mechanism 11, the elapsed time measuring unit C1d measures the elapsed time from the time when the pressure value is detected by the pressure sensor 12 after the switching. (Step S2).

Then, each time a new pressure value is stored in the pressure value temporary storage unit C1a, the recording determination unit C1e acquires the latest pressure value from the pressure value temporary storage unit C1a and elapses from the elapsed time measurement unit C1d. The time is acquired, and the threshold stored in the threshold storage unit C1f and the set time stored in the set time storage unit C1g are referred to, and the first determination (step S3), the second determination (step S4), and the third Judgment (steps S6 and S8) is sequentially performed to determine whether or not to record the acquired pressure value.

Specifically, when the recording determination unit C1e determines in the first determination that the acquired pressure value exceeds the threshold value, the recording determination unit C1e subsequently performs the second determination. On the other hand, when it is determined in the first determination that the acquired pressure value does not exceed the threshold value, the newly stored pressure value is acquired from the pressure value temporary storage unit C1a.

Next, when the recording determination unit C1e determines in the second determination that the acquired pressure value is the pressure value that first exceeds the threshold value, the recording determination unit C1e transmits data using the acquired pressure value as the pressure value before adjustment. It is transmitted to the unit C1h and stored in the pressure value storage unit C2b of the pressure value management device 20 (step S5). After that, the newly stored pressure value is acquired from the pressure value temporary storage unit C1a. On the other hand, in the second determination, when it is determined that the acquired pressure value is not the pressure value exceeding the threshold value first, the third determination is subsequently performed.

Next, in the third determination, the recording determination unit C1e determines whether or not the elapsed time until receiving a new detection signal exceeds the set time (steps S6 and S8). Specifically, the recording determination unit C1e determines in the third determination whether or not the elapsed time exceeds the set time, and if it determines that the elapsed time exceeds the set time, the acquisition is obtained. The pressure value is transmitted to the data transmission unit C1h as the pressure value after the adjustment is completed, and is stored in the pressure value storage unit C2b of the pressure value management device 20 (step S7). After that, the adjustment work is completed.

On the other hand, when the recording determination unit C1e determines in the third determination that the elapsed time does not exceed the set time, it subsequently determines whether or not a new detection signal has been received. Then, in the determination, when it is determined that the detection signal has been received, the newly stored pressure value is acquired from the pressure value temporary storage unit C1a. If it is determined in the determination that the detection signal has not been received, it is determined again whether or not the elapsed time has exceeded the set time. That is, the memory determination unit C1e repeats the third determination until the elapsed time exceeds the set time or the detection signal is received.

When the recording determination unit C1e acquires the pressure value newly stored in the pressure value temporary storage unit C1a, the first determination to the third determination are executed for the newly acquired pressure value.

Since it has such a configuration, unless an irregular state such as a user making a work error occurs, when the adjustment work is completed, the pressure value storage unit C1b of the pressure value management device 20 records the work. Only the necessary pre-adjustment pressure value data indicating the pressure value before adjustment and the adjusted pressure value data indicating the pressure value after the adjustment is completed are stored.

<Embodiment 2> This embodiment is a modification of the pressure adjusting system 100 according to the first embodiment. Specifically, in the pressure adjustment system 100 according to the present embodiment, as compared with the pressure adjustment system 100 according to the first embodiment, the control unit C1 of the pressure adjustment device 10 has a pressure value temporary storage unit C1a and a display control unit. It is configured to exert functions as C1b, a zero point correction unit C1c, a recording determination unit C1e, a threshold storage unit C1f, and a data transmission unit C1h. In the following, the recording determination unit C1h that exerts a function different from that of the control unit C1 according to the first embodiment will be described in detail.

The recording determination unit C1e acquires the latest pressure value stored in the pressure value temporary storage unit C1a, refers to the threshold value stored in the threshold value storage unit C1f, and determines whether or not to record the acquired pressure value. Is what you do. Specifically, the recording determination unit C1e has a first determination for determining whether or not the acquired pressure value exceeds the threshold value, and when it is determined in the first determination that the acquired pressure value exceeds the threshold value, the acquired pressure. Whether or not the pressure value acquired last time exceeded the threshold value in the second judgment for determining whether or not the value first exceeded the threshold value and when it was determined in the first judgment that the value did not exceed the threshold value. The third determination for determining the above and the third determination are performed.

Then, when the recording determination unit C1e determines in the second determination that the acquired pressure value first exceeds the threshold value, the acquired pressure value is displayed as the pressure value before adjustment before adjustment. It is designed to be output to the data transmission unit C1h as pressure value data. Further, when the recording determination unit C1e determines in the third determination that the previously acquired pressure value exceeds the threshold value, the adjusted pressure value data indicating the pressure value after the adjustment of the previously acquired pressure value is completed. Is output to the data transmission unit C1f.

Next, the operation of the pressure adjusting system 100 of this embodiment will be described.

The description of steps S1 to S2 will be omitted because they are the same as the operation of the pressure adjustment system 100 according to the first embodiment except that the elapsed time is not measured in step S2.

Each time a new pressure value is stored in the pressure value temporary storage unit C1a, the recording determination unit C1d acquires the latest pressure value from the pressure value temporary storage unit C1a and stores the threshold value stored in the threshold storage unit C1f. With reference to this, it is determined whether or not to record the acquired pressure value by sequentially performing the first determination (step S3), the second determination (step S4), and the third determination (step S6).

Specifically, when the recording determination unit C1e determines in the first determination that the acquired pressure value exceeds the threshold value, the recording determination unit C1e subsequently performs the second determination. On the other hand, if it is determined in the first determination that the acquired pressure value does not exceed the threshold value, the third determination is subsequently performed.

Next, when the recording determination unit C1e determines in the second determination that the acquired pressure value is the pressure value that first exceeds the threshold value, the recording determination unit C1e transmits data using the acquired pressure value as the pressure value before adjustment. It is transmitted to the unit C1h and stored in the pressure value storage unit C2b of the pressure value management device 20 (step S5). After that, the newly stored pressure value is acquired from the pressure value temporary storage unit C1a.

On the other hand, in the second determination, when it is determined that the acquired pressure value is not the pressure value exceeding the threshold value first, the newly stored pressure value is acquired from the pressure value temporary storage unit C1a.

Next, when the recording determination unit C1e determines in the third determination that the previously acquired pressure value exceeds the threshold value, the data transmission unit C1h uses the previously acquired pressure value as the pressure value after the adjustment is completed. It is transmitted and stored in the pressure value storage unit C2b of the pressure value management device 20 (step S7). After that, the adjustment work is completed.

On the other hand, when the recording determination unit C1e determines in the third determination that the previously acquired pressure value does not exceed the threshold value, the recording determination unit C1e stores it in the pressure value storage unit C2b of the pressure value management device 20.

When the recording determination unit C1e acquires the pressure value newly stored in the pressure value temporary storage unit C1a, the first determination to the third determination are executed for the newly acquired pressure value.

With such a configuration, when the adjustment work is completed, the pressure value storage unit C1b of the pressure value management device 20 contains the pre-adjustment pressure value data indicating the pre-adjustment pressure value necessary for the work record, and the pre-adjustment pressure value data. , Only the adjusted pressure value data indicating the pressure value after the adjustment is completed is stored.

<Other Embodiments> The switching mechanism 11 of the first embodiment switches to either an inflow state in which a fluid flows into the work W or an outflow state in which a fluid flows out from the work W via a stopped state. It may be something that can be done. Further, the pressure adjusting device 10 has a switching mechanism 11 for switching between an inflow state in which the fluid flows into the work W and a stopped state, and a switching mechanism 11 for switching between an outflow state in which the fluid flows out from the work W and a stopped state. It may be configured to prepare for each separately.

Further, in the first embodiment, the pressure adjusting device 10 is connected to the pressure value managing device 20 which is separate from the pressure adjusting device 10, and the pressure value managing device 20 is provided with the pressure value storage unit C2b to store the pressure value. Although the pressure value storage unit C2b is configured to store each pressure value data, the pressure adjustment device 10 itself is provided with the pressure value storage unit C2b, and the pressure value storage unit C2b is configured to store each pressure value data. You may.

Further, in the first embodiment, the pressure adjusting device 10 is provided with an elapsed time measuring unit C1c, an elapsed time determining unit C1d, and a set time storage unit C1e. These are the pressure value management device 20 and the pressure adjusting device 10. Or another information processing device connected to the pressure value management device 20 may be provided.

Further, in the first embodiment, the display means (display D, display unit 13) is provided in both the pressure adjusting device 10 and the pressure value management device 20, but may be provided in either one.

In addition, the present invention is not limited to each of the above-described embodiments, and it goes without saying that various modifications can be made without departing from the spirit of the present invention.

100 Pressure adjustment system 10 Pressure adjustment device 11 Switching mechanism 12 Pressure sensor 13 Display unit 14 Communication means 15 Connection unit C1 Control unit C1a Pressure value temporary storage unit C1b Display control unit C1c Zero point correction unit C1d Elapsed time measurement unit C1e Recording judgment unit C1f Set time storage unit C1g Threshold storage unit C1h Data transmission unit 20 Pressure value management device D Display C2 Control unit C2a Data reception unit C2b Pressure value storage unit C2c Display control unit

Claims (8)

A connection part that is detachably connected to the work
Switching between an inflow / out state, which is at least one of a state in which the fluid flows into the space communicating with the connection portion and a state in which the fluid flows out from the space, and a stop state in which the inflow / outflow of the fluid into the space is stopped. Mechanism and
A pressure sensor that detects the pressure in the space in the stopped state,
It is provided with a display unit that displays the pressure value detected by the pressure sensor.
A pressure adjustment system in which a user operates the switching mechanism based on a pressure value displayed on the display unit to adjust the pressure in the work while the connection unit is connected to the work.
An elapsed time measuring unit that measures the elapsed time from a predetermined time point after the switching each time the switching mechanism is switched from the inflow / outflow state to the stopped state.
If the elapsed time exceeds a predetermined set time before the switching mechanism is switched from the stopped state to the inflow / outflow state, the pressure value detected by the pressure sensor in the stopped state is stored. A pressure adjustment system characterized by further including a pressure value storage unit. The predetermined time point is the time when the pressure value is detected by the pressure sensor after the switching mechanism is switched from the inflow / out state to the stopped state, or the pressure value is displayed on the display unit. The pressure adjustment system according to claim 1, which is a time point. The pressure adjustment system according to claim 1 or 2, wherein the pressure value storage unit stores a pressure value first detected as a pressure value exceeding a threshold value predetermined by the pressure sensor. The pressure adjustment system according to claim 3, wherein the threshold value is set to a value lower than the set pressure set on the work and higher than the atmospheric pressure. The pressure adjustment system according to any one of claims 1 to 4, further comprising a sensor correction unit that corrects the zero point of the pressure sensor based on the atmospheric pressure when the power of the pressure adjustment system is turned on. .. A pressure adjusting device including the connecting portion, the switching mechanism, and the pressure sensor,
In addition to the pressure adjusting device, a pressure value management device including the pressure value storage unit is provided.
The pressure adjusting device and the pressure management device are connected by wire or wirelessly.
The pressure adjusting system according to any one of claims 1 to 5, wherein either one or both of the pressure adjusting device and the pressure value management device includes the display unit. A connection part that is detachably connected to the work
A switching mechanism that switches between an inflow / out state in which the fluid flows into the space communicating with the connection portion or a state in which the fluid flows out from the space, and a stop state in which the inflow / outflow of the fluid into the space is stopped.
A pressure sensor that detects the pressure in the space in the stopped state,
It is provided with a display unit that displays the pressure value detected by the pressure sensor.
A program used in a pressure adjustment system in which a user operates the switching mechanism based on a pressure value displayed on the display unit to adjust the pressure in the work while the connection unit is connected to the work. ,
An elapsed time measuring unit that measures the elapsed time from a predetermined time point after the switching each time the switching mechanism is switched from the inflow / outflow state to the stopped state.
If the elapsed time exceeds a predetermined set time before the switching mechanism is switched from the stopped state to the inflow / outflow state, the pressure value detected by the pressure sensor in the stopped state is stored. A program for a pressure adjustment system characterized by exerting a function as a pressure value storage unit. A connection part that is detachably connected to the work
Switching between an inflow / out state, which is at least one of a state in which the fluid flows into the space communicating with the connection portion and a state in which the fluid flows out from the space, and a stop state in which the inflow / outflow of the fluid into the space is stopped. Mechanism and
A pressure sensor that detects the pressure in the space in the stopped state,
It is provided with a display unit that displays the pressure value detected by the pressure sensor.
A pressure adjustment system in which a user operates the switching mechanism based on a pressure value displayed on the display unit to adjust the pressure in the work while the connection unit is connected to the work.
When a pressure value exceeding a predetermined threshold value is detected by the pressure sensor and then a pressure value below the threshold value is detected, the pressure value detected immediately before the pressure value below the threshold value is detected is used. A pressure adjustment system characterized by further comprising a pressure value storage unit for storing.