JP2019060764A - Pressure control device - Google Patents

Abstract

To provide a pressure control device capable of controlling an air pressure among multiple rooms partitioned by a door (7) while suppressing variation of the air pressure in the rooms communicating with each other even when the door (7) is opened for a long period of time.SOLUTION: A pressure control device is configured so as to, when a door (7) is in a closed state and a first room (2) and a second room (3) are partitioned, perform an ordinary control to control an air pressure of the first room (2) and the second room (3) independently, and when the door (7) is in an open state and the first room (2) and the second room (3) are communicating with each other, to perform a communicating state control to control the air pressure in the first room (2) and the second room (3) which communicate with each other by adjusting an open degree of one control valve while holding an open degree of the other control valves at a constant level.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a pressure control device that controls the air pressure in a plurality of rooms separated by a door.

  Conventionally, in order to test the performance and the like of industrial products such as automobiles under various pressure environments, an air pressure adjustment test room which can arbitrarily set the air pressure in the room is used. Patent Document 1 below proposes, for example, a pressure control device for a low pressure test room that creates a low pressure environment such as high ground.

JP-A-11-132535

  By the way, there is a test room which is divided into two rooms by a door and controlled to an arbitrary pressure in each room. In such a test room, it is possible to move the test object being tested in one room to the other room while controlling the air pressure in both rooms to be the same. At this time, the door is opened for a long time (for example, about 7 minutes), and the test object is moved in a state where the respective rooms are in communication.

  However, even if the air pressure in each room is controlled to be the same, in fact, the air pressure in each room fluctuates individually within a certain allowable range. For this reason, the chambers whose pressure is slightly different communicate with each other. Then, the air pressure controlled in each room is disturbed. And in the room which communicated, since the pressure control device of each room which was originally divided controls air pressure, respectively, the air pressure of the test room in the connected state will not be controlled correctly. For this reason, there is a possibility that the pressure in the test room can not be kept within a predetermined allowable range. Therefore, it is conceivable to stop the control of all the atmospheric pressure when the respective rooms are in communication. However, in this case, if the control is not performed for a long time, the atmospheric pressure deviates from the set value with the passage of time, and as a result, the atmospheric pressure may deviate from the allowable range.

  This invention is made in view of this point, The objective is to control appropriately the barometric pressure of the connected room, even when the door is opened for a long time.

  A first aspect of the present invention is directed to a pressure control device that controls the air pressure in the first chamber (2) and the second chamber (3) partitioned by the door (7). Then, a first supply air passage (21) for supplying external air to the first chamber (2), and a first exhaust air passage (31) for discharging air of the first chamber (2) to the outside; A first air supply control valve (23) provided in the first air supply air path (21), a first exhaust control valve (33) provided in the first exhaust air path (31), and external air A second air supply passage (51) for supplying the second chamber (3), a second exhaust air passage (61) for discharging the air of the second chamber (3) to the outside, and the second air supply passage A second air supply control valve (53) provided in the passage (51) and a second exhaust control valve (63) provided in the second exhaust air passage (61); When the first chamber (2) and the second chamber (3) are partitioned in the closed state, the first air supply control valve (23), the first exhaust control valve (33), the second Adjust the opening of the charge control valve (53) and the second exhaust control valve (63) Normal control is performed to individually control the air pressure of the first chamber (2) and the second chamber (3), and the first chamber (2) and the second chamber (3) are operated with the door (7) open. Are communicated with each other, the first air supply control valve (23), the first exhaust control valve (33), the second air supply control valve (53), and the second exhaust control valve (63). Of the first chamber (2) and the second chamber (3) in communication, by adjusting the opening degree of only one control valve and keeping the opening degree of the remaining control valves constant. It is characterized in that communication control is performed to control the air pressure.

  In the first aspect of the invention, when the first chamber (2) and the second chamber (3) are in communication, the pressure control device (10) comprises the four control valves (23, 33, 53, 63). Communication control is performed to adjust the opening degree of only one of the control valves. Therefore, although the first chamber (2) and the second chamber (3) communicate with each other, the air pressure control of the first chamber (2) and the air pressure control of the second chamber (3) are separately performed in parallel. It is never done.

  According to a second invention, in the first invention, before the door (7) is opened, the normal control is switched to the communication time control, and after the door (7) is closed, the communication time control is started. Switching to the above-mentioned normal control is characterized.

  In the second invention, when the door (7) is opened, the pressure control device (10) has already started the communication control. Further, the communication control continues until the door (7) is closed.

  In a third aspect based on the first or second aspect, in the communication control, an opening degree of only the first air supply control valve (23) is set to an air supply flow rate of the first air supply air path (21). Is adjusted to become constant.

  In the third aspect of the invention, the pressure control device (10) controls the air pressure by adjusting the control valve based on the air supply flow rate of the first air supply passage (21). The air supply flow rate fluctuates less than the pressure in the first chamber (2). For this reason, adjusting the control valve based on the air supply flow rate reduces the amount of change of the opening degree of the control valve compared to adjusting the control valve directly based on the air pressure, and the frequency of opening change is low. Become.

  In a fourth aspect based on the first or second aspect, in the control at the time of communication, the first chamber (2) and the second chamber in which the opening degree of only the first exhaust control valve (33) is communicated. The air pressure of the chamber (3) is adjusted to be in the target range.

  In the fourth invention, since the air pressure is directly controlled, the control can be performed accurately.

  In the present invention, when the door (7) separating the first chamber (2) and the second chamber (3) is opened, the pressure control device (10) comprises a first air supply control valve (23), The first chamber (2) by adjusting the opening degree of one of the first exhaust control valve (33), the second air supply control valve (53), and the second exhaust control valve (63) Control the pressure in the second room (3). For this reason, it is possible to suppress interference between controls for controlling the air pressure in each room. Further, since the control of the atmospheric pressure is continuously performed, the fluctuation of the atmospheric pressure can be suppressed even if the door (7) is opened for a long time.

  In the second aspect of the invention, since the communication control is always performed while the door (7) is open, the air pressure is disturbed immediately before the door (7) starts opening or immediately before the door (7) is closed. You can suppress that.

  In the third aspect of the invention, the pressure control device (10) can perform stable air pressure control in the communication control.

  In the fourth aspect of the invention, the pressure control device (10) can perform control along the target air pressure in the communication control.

FIG. 1 is a schematic configuration diagram of a pressure control device according to the embodiment.

  Embodiments of the present invention will be described in detail based on the drawings. Note that the embodiments and modifications described below are essentially preferred examples, and are not intended to limit the scope of the present invention, its applications, or its applications.

<< Embodiment >>
Embodiments will be described.

  FIG. 1 shows a pressure control device (10) of an atmospheric pressure adjustment test chamber according to an embodiment of the present invention. In the present embodiment, the pressure control device (10) is provided in a test room (1) for testing the durability, performance, and the like of an automobile engine. Then, the pressure control device (10) adjusts the environment in the test room (1) to, for example, a low pressure environment corresponding to an altitude of 2000 m or a reverse high pressure environment.

-Configuration of test room-
As shown in FIG. 1, the test chamber (1) has a first chamber (2) and a second chamber (3). A wall (6) having an opening (5) is provided between the first chamber (2) and the second chamber (3). A door (7) for closing the opening (5) is provided on the wall (6) so as to be freely opened and closed. That is, when the door (7) is closed, the first chamber (2) and the second chamber (3) are separated by the door (7), and when the door (7) is opened The first chamber (2) and the second chamber (3) communicate with each other.

  The pressure control device (10) includes a first air supply unit (20) for supplying external air into the first chamber (2), and a first exhaust unit for exhausting air in the first chamber (2) to the outside (30), a second air supply unit (50) for supplying external air into the second chamber (3), and a second exhaust unit (60) for exhausting air in the second chamber (3) to the outside , And a first control unit (40) that controls the operation of the first air supply unit (20) and the first exhaust unit (30), and an operation of the second air supply unit (50) and the second exhaust unit (60) And a second control unit (70) for controlling

<Configuration of First Air Supply Unit>
The first air supply unit (20) includes a first air supply air passage (21), a first air supply fan (22), a first air supply control valve (23), and a first orifice (24). There is.

  The first air supply path (21) connects the inside and the outside of the first chamber (2). Further, the first air supply path (21) is constituted by a tubular member through which air flows. One end of the first air supply path (21) opens to the outside of the first chamber (2), and the other end opens in the inside of the first chamber (2).

  The first air supply fan (22) is provided in the middle of the first air supply path (21). The first air supply fan (22) has an inverter (22a) for supplying electric power to a fan motor (not shown), and its rotational speed is configured to be changeable.

  The first air supply control valve (23) is provided on the other end side of the first air supply fan (22) in the middle of the first air supply passage (21). The first air supply control valve (23) is a motor-operated valve or an air-operated valve whose opening degree is variable, and is constituted by a valve having a flow rate adjustment range necessary for pressure adjustment of several tens of kPa.

  The first orifice (24) is provided between the first air supply fan (22) and the first air supply control valve (23). Then, based on the differential pressure before and after the first orifice (24) measured by the differential pressure gauge (24a), the flow rate of air supplied from the first supply air path (21) to the first chamber (2) is measured Be done.

<Configuration of First Exhaust Unit>
The first exhaust unit (30) includes a first exhaust air passage (31), a first exhaust fan (32), and a first exhaust control valve (33).

  The first exhaust air path (31) connects the inside and the outside of the first chamber (2). The first exhaust air passage (31) is formed of a tubular member through which air flows. One end of the first exhaust air passage (31) is open inside the first chamber (2), and the other end is open outside the test chamber (1).

  The first exhaust fan (32) is provided in the middle of the first exhaust air path (31). The first exhaust fan (32) has an inverter (32a) for supplying electric power to a fan motor (not shown), and its rotational speed is configured to be changeable.

  The first exhaust control valve (33) is provided on one end side of the first exhaust fan (32) in the middle of the first air supply passage (21). The first exhaust control valve (33) is a motor-operated valve or an air-operated valve whose opening degree is variable, and is constituted by a valve having a flow rate adjustment range necessary for pressure adjustment of several tens of kPa.

<Configuration of Second Air Supply Unit>
The second air supply unit (50) includes a second air supply passage (51), a second air supply fan (52), a second air supply control valve (53), and a second orifice (54). There is.

  The second air supply path (51) connects the inside and the outside of the second chamber (3). Further, the second air supply air passage (51) is constituted by a tubular member through which air flows. One end of the second air supply path (51) opens to the outside of the second chamber (3), and the other end opens at the inside of the second chamber (3).

  The second air supply fan (52) is provided in the middle of the second air supply path (51). The second air supply fan (52) has an inverter (52a) for supplying electric power to a fan motor (not shown), and its rotational speed is configured to be changeable.

  The second air supply control valve (53) is provided on the other end side of the second air supply fan (52) in the middle of the second air supply passage (51). The second air supply control valve (53) is a motor-operated valve or an air-operated valve whose opening degree is variable, and is constituted by a valve having a flow rate adjustment range necessary for pressure adjustment of several tens of kPa.

  The second orifice (54) is provided between the second air supply fan (52) and the second air supply control valve (53). Then, based on the differential pressure before and after the second orifice (54) measured by the differential pressure gauge (54a), the flow rate of air supplied from the second air supply path (51) to the second chamber (3) is measured. Be done.

<Configuration of second exhaust unit>
The second exhaust unit (60) includes a second exhaust air passage (61), a second exhaust fan (62), and a second exhaust control valve (63).

  The second exhaust air path (61) connects the inside and the outside of the second chamber (3). Further, the second exhaust air passage (61) is constituted by a tubular member through which air flows. One end of the second exhaust air path (61) opens in the second chamber (3), and the other end opens to the outside of the second chamber (3).

  The second exhaust fan (62) is provided in the middle of the second exhaust air path (61). The second exhaust fan (62) has an inverter (62a) for supplying electric power to a fan motor (not shown), and its rotational speed is configured to be changeable.

  The second exhaust control valve (63) is provided on one end side of the second exhaust fan (62) in the middle of the second exhaust air passage (61). The second exhaust control valve (63) is a motor-operated valve or an air-operated valve whose opening degree is variable, and is constituted by a valve having a flow rate adjustment range necessary for pressure adjustment of several tens of kPa.

<Configuration of First Control Unit>
The first control unit (40) includes a first air supply fan control unit (41), a first exhaust fan control unit (42), a first air volume control unit (43), and a first pressure control unit (44). And. The first control unit (40) controls the operation of the first air supply fan (22), the first exhaust fan (32), the first air supply control valve (23), and the first exhaust control valve (33). Thus, the pressure in the first chamber (2) is controlled to a desired pressure.

  The first air supply fan control unit (41) controls the frequency of the alternating current supplied to the fan motor of the first air supply fan (22) by the inverter (22a) to obtain the first air supply fan (22). It is configured to control the rotational speed. Specifically, in the first air supply fan control unit (41), the rotation frequency of the first air supply fan (22) becomes a predetermined rotation speed determined according to the required ventilation amount of the first chamber (2) Thus, the frequency of the alternating current supplied to the fan motor of the first air supply fan (22) is controlled by the inverter (22a).

  The first exhaust fan control unit (42) controls the frequency of the alternating current supplied to the fan motor of the first exhaust fan (32) by the inverter (32a) to obtain the rotational speed of the first exhaust fan (32). It is configured to control. Specifically, the first exhaust fan control unit (42) causes the rotational frequency of the first exhaust fan (32) to be a predetermined rotational speed determined according to the target pressure of the first chamber (2), The frequency of the alternating current supplied to the fan motor of the first exhaust fan (32) is controlled by the inverter (32a).

  The first air flow control unit (43) sets the flow rate (air supply flow rate) of air supplied to the first chamber (2) through the first air supply air passage (21) to the required ventilation amount of the first chamber (2). In response, the opening degree of the first air supply control valve (23) is controlled so as to obtain a predetermined constant flow rate. The differential pressure gauge (24a) of the first orifice (24) is connected to the first control unit (40) in a wired or wireless manner so as to be capable of electrical communication, and the measured value (first air supply path (21) to the first chamber The air supply flow rate supplied to (2) is configured to be transmitted to the first control unit (40). Then, the first air volume control unit (43) controls the opening degree of the first air supply control valve (23) based on the measured value.

  In the normal control, the first pressure control unit (44) controls the opening degree of the first exhaust control valve (33) such that the pressure P1 of the first chamber (2) becomes a predetermined target pressure SP1. On the other hand, the first pressure control unit (44) fixes the opening degree of the first exhaust control valve (33) in the communication control.

  Here, in the first chamber (2), a first pressure measurement sensor (80) for measuring the pressure P1 of the first chamber (2) is provided. The first atmospheric pressure measurement sensor (80) is connected to the first control unit (40) in a wired or wireless manner so as to be capable of electrical communication, and the measured value (the atmospheric pressure P1 of the first chamber (2)) is transmitted to the first control unit (40) It is configured to send to.

<Configuration of Second Control Unit>
The second control unit (70) includes a second air supply fan control unit (71), a second exhaust fan control unit (72), a second air volume control unit (73), and a second pressure control unit (74). And. The second control unit (70) controls the operation of the second air supply fan (52), the second exhaust fan (62), the second air supply control valve (53), and the second exhaust control valve (63). Thus, the pressure in the second chamber (3) is controlled to a desired pressure.

  The second air supply fan control unit (71) controls the frequency of the alternating current supplied to the fan motor of the second air supply fan (52) by the inverter (52a) to obtain the second air supply fan (52). It is configured to control the rotational speed. Specifically, the second air supply fan control unit (71) sets the rotation frequency of the second air supply fan (52) to a predetermined rotation speed that is determined according to the required ventilation amount of the second chamber (3). Thus, the frequency of the alternating current supplied to the fan motor of the second air supply fan (52) is controlled by the inverter (52a).

  The second exhaust fan control unit (72) controls the frequency of the alternating current supplied to the fan motor of the second exhaust fan (62) by the inverter (62a) to obtain the rotational speed of the second exhaust fan (62). It is configured to control. Specifically, the second exhaust fan control unit (72) causes the rotational frequency of the second exhaust fan (62) to be a predetermined rotational speed determined according to the target pressure of the second chamber (3), The inverter (62a) controls the power supplied to the fan motor of the second exhaust fan (62).

  The second air volume control unit (73) controls the flow rate (air supply flow rate) of air supplied to the second chamber (3) through the second air supply air passage (51) in the normal control in the second chamber (3). The opening degree of the second air supply control valve (53) is controlled so as to obtain a constant flow rate determined in advance according to the required ventilation amount. On the other hand, in the communication control, the opening degree of the second air supply control valve (53) is fixed. The differential pressure gauge (54a) of the second orifice (54) is connected to the second control unit (70) in a wired or wireless manner so as to be capable of electrical communication, and the measured value (from the second supply air path (51) to the second chamber The air supply flow rate supplied to (3) is configured to be transmitted to the second control unit (70). Then, the second air flow control unit (73) controls the opening degree of the second air supply control valve (53) based on the measured value.

  In the normal control, the second pressure control unit (74) controls the opening degree of the second exhaust control valve (63) such that the pressure P2 of the second chamber (3) becomes a predetermined target pressure SP2. On the other hand, the second pressure control unit (74) fixes the opening degree of the second exhaust control valve (63) in the communication control.

  Here, in the second chamber (3), a second pressure measurement sensor (90) for measuring the pressure P2 of the second chamber (3) is provided. The second atmospheric pressure measurement sensor (90) is connected to the second control unit (70) in a wired or wireless manner so as to be capable of electrical communication, and the measured value (the atmospheric pressure P2 of the second chamber (3)) is transmitted to the second control unit (70) It is configured to send to.

  Further, in the present embodiment, the first control unit (40) and the second control unit (70) control the elements of the pressure control device (10) as disclosed in the present application, and control that can be performed. And a memory in which the program is stored. The first control unit (40) and the second control unit (70) are an example of the control unit of the pressure control device (10), and the details of the first control unit (40) and the second control unit (70) The structure or algorithm may be any combination of hardware and software that performs the functions of the present invention.

-Driving operation-
In the following, the air pressures P1 and P2 of the first chamber (2) and the second chamber (3) are set as target pressures SP1 and SP2. Then, an operation of adjusting the pressure P1, P2 of the first chamber (2) and the second chamber (3) within the range of ± ΔSP1 of SP1 and ± ΔSP2 of SP2 will be described. Note that SP1 and SP2 are set to the same value, and similarly, ΔSP1 and ΔSP2 are set to the same value. That is, the pressure control device (10) controls so that the air pressure P1 of the first chamber (2) and the air pressure P2 of the second chamber (3) become the same.

  First, in the state where the first chamber (2) and the second chamber (3) are partitioned with the door (7) closed, the pressure control device (10) performs normal control. In normal control, the pressure control device (10) individually controls the air pressure of the first chamber (2) and the second chamber (3). In the first control unit (40), the first rotation speed of the first air supply fan (22) is determined by the first air supply fan control unit (41) according to the required ventilation amount of the first chamber (2). The inverter (22a) controls the frequency of the alternating current supplied to the fan motor so that the speed is reached. Further, the inverter (32a) is controlled such that the first exhaust fan control unit (42) sets the rotational speed of the first exhaust fan (32) to a predetermined rotational speed that is determined according to the target pressure of the first chamber (2). Controls the frequency of alternating current supplied to the fan motor.

  In addition, the first air volume control unit (43) is configured such that the flow rate (air supply flow rate) of air supplied to the first chamber (2) through the first air supply air passage (21) is the necessary ventilation of the first chamber (2) The opening degree of the first air supply control valve (23) is adjusted so as to obtain a constant flow rate predetermined according to the amount. At this time, when the value of the air supply flow rate measured by the first orifice (24) is smaller than the target value, the first air volume control unit (43) sets the opening degree of the first air supply control valve (23) to To expand. The first air flow rate control unit (43) reduces the opening degree of the first air supply control valve (23) when the value of the air supply flow rate measured by the first orifice (24) is larger than the target value. Let

  Furthermore, the first pressure control unit (44) is controlled by the first exhaust control valve (33) such that the measured value of the first atmospheric pressure measuring sensor (80) (the atmospheric pressure P1 of the first chamber (2)) becomes SP1. Adjust the opening degree. At this time, the first pressure control unit (44) enlarges the opening degree of the first exhaust control valve (33) when the measurement value of the first atmospheric pressure measurement sensor (80) is larger than SP1. The first pressure control unit (44) reduces the opening degree of the first exhaust control valve (33) when the measured value of the first atmospheric pressure measurement sensor (80) is smaller than SP1.

  Similarly, in the second control unit (70), the rotation speed of the second air supply fan (52) is determined by the second air supply fan control unit (71) according to the required ventilation amount of the second chamber (3). The frequency of the alternating current supplied to the fan motor is controlled by the inverter (52a) so as to achieve the rotational speed of Further, the inverter (62a) is controlled so that the rotation speed of the second exhaust fan (62) becomes a predetermined rotation speed determined according to the target pressure of the second chamber (3) by the second exhaust fan control unit (72). Controls the frequency of the alternating current supplied to the fan motor.

  In addition, the second air volume control unit (73) is configured such that the flow rate (air supply flow rate) of air supplied to the second chamber (3) through the second air supply air path (51) is the necessary ventilation of the second chamber (3) The opening degree of the second air supply control valve (53) is adjusted so as to obtain a constant flow rate predetermined according to the amount. At this time, when the value of the air supply flow rate measured by the second orifice (54) is smaller than the target value, the second air volume control unit (73) sets the opening degree of the second air supply control valve (53) to To expand. The second air flow rate control unit (73) reduces the opening degree of the second air supply control valve (53) when the value of the air supply flow rate measured by the second orifice (54) is larger than the target value. Let

  Further, the second pressure control unit (74) is configured to control the second exhaust control valve (63) so that the measured value of the second pressure measurement sensor (90) (the pressure P2 of the second chamber (3)) becomes SP2. Adjust the opening degree. At this time, the second pressure control unit (74) enlarges the opening degree of the second exhaust control valve (53) when the measurement value of the second atmospheric pressure measurement sensor (90) is larger than SP2. The second pressure control unit (74) reduces the opening degree of the second exhaust control valve (53) when the measured value of the second atmospheric pressure measurement sensor (90) is smaller than SP2.

  Then, when the predetermined test is completed in the second chamber (3) where the air pressure is SP2 ± ΔSP2, the door (7) is temporarily opened to move the test object from the second chamber (3) to the first chamber (2). Move it. Also in this movement, it is necessary to set the pressure of the first chamber (2) within the range of ± ΔSP1 of SP1 and the pressure of the second chamber (3) within the range of ± ΔSP2 of SP2. For this reason, the pressure control device (10) changes the control performed by the first control unit (40) and the second control unit (70) from the normal control to the communication control. Then, after the control is switched to the communication control, the door (7) that divides the first chamber (2) and the second chamber (3) is opened to open the first chamber (2) and the second chamber (3). Put in communication.

  In the communication control, the pressure control device (10) includes a first air supply control valve (23), a first exhaust control valve (33), a second air supply control valve (53), and a second exhaust control valve (63). Of the above two), the opening degree of only one control valve is adjusted to keep the opening degree of the remaining control valves constant. The pressure control device (10) of the present embodiment adjusts the opening degree of the first air supply control valve (23) in the communication control, and the first exhaust control valve (33), the second air supply control valve (53). And the second exhaust control valve (63) is fixed.

  The first air volume control unit (43) performs the same control as the normal control in the communication control. That is, the flow rate (air supply flow rate) of the air supplied to the first chamber (2) and the second chamber (3) through the first air supply path (21) corresponds to the required ventilation amount of the first chamber (2) The first air volume control unit (43) adjusts the opening degree of the first air supply control valve (23) so that the flow rate becomes constant and predetermined.

  When the first pressure control unit (44) switches to the communication control, the first pressure control unit (44) fixes the opening degree of the first exhaust control valve (33). Since the rotational speed of the first exhaust fan (32) is also constant, the flow rate of air discharged from the first exhaust air passage (31) is not controlled.

  Further, the second air flow rate control unit (73) fixes the opening degree of the second air supply control valve (53) in the same manner as the first pressure control unit (44). Since the rotational speed of the second air supply fan (52) is also constant, the flow rate of the air supplied from the second air supply path (51) is not controlled.

  Furthermore, similarly to the first pressure control unit (44), the second pressure control unit (74) also fixes the opening degree of the second exhaust control valve (63) when it is switched to the communication control time. Since the rotational speed of the second exhaust fan (62) is also constant, the flow rate of air discharged from the second exhaust air passage (61) is not controlled.

  As described above, in the communication control, the pressure control device (10) controls only the flow rate of the air supplied from the first supply air passage (21), thereby the first chamber (2) and the second chamber The air pressure of (3) is controlled.

  Then, when the test object is moved from the second chamber (3) to the first chamber (2), the door (7) is closed. After the door (7) is closed, the control of the first control unit (40) and the second control unit (70) is switched from the communication control to the normal control. Then, a predetermined test is performed while the pressure in the first chamber (2) is kept in the range of SP1 ± ΔSP1. Since the movement of the test object takes about seven minutes, the communication control is performed for about seven minutes.

-Effect of the embodiment-
According to the present embodiment, when the first chamber (2) and the second chamber (3) are in communication, the pressure control device (10) controls the first air supply control valve (23), the first exhaust control. Communication control is performed to adjust the opening degree of only one of the valve (33), the second air supply control valve (53), and the second exhaust control valve (63). Therefore, although the first chamber (2) and the second chamber (3) communicate with each other, the air pressure control of the first chamber (2) and the air pressure control of the second chamber (3) are separately performed in parallel. It is never done. For this reason, it is possible to suppress interference between controls for controlling the air pressure in each room. Further, since the control of the atmospheric pressure is continuously performed, the fluctuation of the atmospheric pressure can be suppressed even if the door (7) is opened for a long time.

  Further, when the door (7) is opened, the pressure control device (10) has already started the communication control. Further, the communication control continues until the door (7) is closed. For this reason, it is possible to prevent the atmospheric pressure in the test chamber (1) from being disturbed at the beginning of the opening of the door (7) or immediately before the door (7) is closed.

  Furthermore, in the communication time control of the above embodiment, the opening degree of only the first air supply control valve (23) is adjusted so that the air supply flow rate of the first air supply air passage becomes constant. The air supply flow rate of the first air supply air passage (21) has less fluctuation as compared with the air pressure of the first chamber (2). Therefore, when the control valve is adjusted based on the air supply flow rate, the change amount of the control valve is smaller than when the control valve is directly adjusted based on the atmospheric pressure, and the frequency of opening change is lower. Further, immediately before switching to the communication time control, the air pressure P1 of the first chamber (2) and the air pressure P2 of the second chamber (3) are already kept at substantially the same value. For this reason, only by adjusting the opening degree of the first air supply control valve (23) so that the air supply flow rate of the first air supply air passage (21) becomes constant, the first chamber (2) and the second chamber The atmospheric pressure (P1, P2) of (3) can be made into the target range (SP1 ± ΔSP1, SP2 ± ΔSP2).

<< Other Embodiments >>
The above embodiment may be configured as follows.

  In the passage control of the above embodiment, the opening degree of only the first air supply control valve (23) is adjusted so that the air supply flow rate of the first air supply passage (21) becomes constant. The invention is not limited to this. In the communication control, the opening degree of only the first exhaust control valve (33) may be adjusted so that the air pressure in the first chamber (2) and the second chamber (3) in communication is within the target range. . At this time, since the pressure in the first chamber (2) and the second chamber (3) is directly controlled based on the pressure measured by the first pressure measurement sensor (80), the control can be performed accurately. Therefore, in the communication control, control can be performed along the target air pressure.

  Although the above embodiment is directed to a test room (1) having two rooms separated by a door (7), the present invention is not limited to this. The test room (1) may have three or more rooms divided by a door (7). Even in this case, in a state in which a plurality of chambers are in communication, the opening degree of only one control valve of the plurality of control valves is adjusted, and the opening degree of the remaining control valves is kept constant. Control the air pressure in the communicating room.

  In the said embodiment, when the door (7) was opened, the to-be-tested object was moved to a 1st chamber (2) from a 2nd chamber (3), but this invention is not limited to this. The test body may be moved from the first chamber (2) to the second chamber (3).

  As described above, the present invention is useful for a pressure control device that controls the air pressure in a plurality of rooms partitioned by a door.

2 first chamber 3 second chamber 7 door 21 first air supply passage 23 first air supply control valve 31 first exhaust air passage 33 first air supply control valve 51 second air supply passage 53 second air supply control valve 61 Second exhaust air passage 63 Second exhaust control valve

Claims (4)

A pressure control device for controlling the air pressure in a first chamber (2) and a second chamber (3) partitioned by a door (7),
A first air supply air passage (21) for supplying external air to the first chamber (2), a first exhaust air passage (31) for discharging air of the first chamber (2) to the outside, and 1) The first air supply control valve (23) provided in the air supply air path (21), the first exhaust control valve (33) provided in the first exhaust air path (31), and the external air A second air supply passage (51) for supplying the second chamber (3), a second exhaust air passage (61) for discharging the air of the second chamber (3) to the outside, and 51), and a second exhaust control valve (63) provided in the second exhaust air path (61);
When the door (7) is closed and the first chamber (2) and the second chamber (3) are partitioned, the first air supply control valve (23), the first exhaust control valve ( 33), adjusting the opening degree of the second air supply control valve (53) and the second exhaust control valve (63) to separate the air pressure of the first chamber (2) and the second chamber (3) Perform normal control to
When the door (7) is open and the first chamber (2) and the second chamber (3) communicate with each other, the first air supply control valve (23), the first exhaust control valve ( 33) Of the second air supply control valve (53) and the second exhaust control valve (63), the opening degree of only one control valve is adjusted to keep the opening degree of the remaining control valves constant. A pressure control device characterized by performing control at the time of communication which controls air pressure of the 1st room (2) and the 2nd room (3) which are communicating by holding. In claim 1,
Before the door (7) is opened, the normal control is switched to the communication control,
A pressure control apparatus characterized by switching from the communication control to the normal control after the door (7) is closed. In claim 1 or 2,
In the communication control, the pressure control is characterized in that the opening degree of only the first air supply control valve (23) is adjusted so that the air supply flow rate of the first air supply air passage (21) becomes constant. apparatus. In claim 1 or 2,
In the communication control, the opening degree of only the first exhaust control valve (33) is adjusted so that the air pressure of the first chamber (2) and the second chamber (3) in communication is within the target range. A pressure control device characterized by

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