JP2012013425A - Environmental test device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an improved cold thermal shock test device allowing a plurality of researchers to perform cold thermal shock tests of a plurality of kinds of objects for testing mixed in a testing chamber without causing confusion.SOLUTION: A testing chamber 2 has a plurality of partitioned sections. A display device displays a graphic illustrating a layout of the sections. The display device can display an interruption control image to determine a repetition number. After completion of the determined number of tests on an object for testing in the section, notification is made by a buzzer.

Description

  The present invention relates to an environmental test apparatus capable of exposing a device under test to a predetermined environment.

One method for evaluating product performance is environmental testing. The environmental test is to place a product in a specific environment and observe changes in performance and the like.
Environmental test equipment includes one that creates a high temperature environment, one that creates a low temperature environment, and one that creates a high or low humidity environment. In addition, an environmental test apparatus called a thermal shock test apparatus can apply a thermal shock to a product by repeating a high temperature environment and a low temperature environment in a predetermined cycle.

JP-A-5-203555 JP 2000-249643 A JP 2006-329701 A

Since the environmental test apparatus is equipped with a refrigerator and a heater and is covered with a thick heat insulating material, the outer shape is large and a wide installation place is required. The environmental test apparatus is a special apparatus and is generally expensive. For this reason, it is rare for a single laboratory or business office to have many environmental test equipment.
On the other hand, the environmental test is often an endurance test, and a considerable time is required from the start to the end of the test. Therefore, researchers in laboratories and business establishments wait in turn for the environment test equipment to be available in order to test their products.

On the other hand, the DUT is not necessarily large but may be small.
For this reason, in the environmental test in which the test conditions for the DUT do not change significantly, such as the thermal shock test, there are many cases where a plurality of types of DUTs are mixed in one test room.

However, since several researchers have placed test objects in the test room at different times, and the number of required thermal shock cycles differs depending on the test objects, each test is completed at the end of the test. It breaks apart. Furthermore, it is often the case that similar shapes are mixed in the DUT. For this reason, it becomes impossible to determine which DUT is the DUT that is in charge of it. In addition, it becomes impossible to know whether or not the test of the device under test has been completed.
That is, when a single researcher conducts a thermal shock test, the end time of the test can be determined by the time when the test object is put in, the thermal cycle interval, and the number of repetitions.
However, when multiple researchers jointly use the thermal shock test equipment, the test is interrupted each time someone puts in or discharges the DUT, so the number of repeated cycles executed and the end time cannot be known. End up.

  Therefore, the present invention aims to eliminate confusion when testing with a plurality of types of test objects mixed in the test room, and there is no error in the end time of the test and the location of the test objects. The challenge is to develop an environmental testing device that can be known.

  The invention described in claim 1 for solving the above-mentioned problem is an environmental test having a test room for creating an environment of test conditions, and placing the test object in the test room and exposing the test object to the test environment. In the apparatus, the test room is physically or virtually divided into a plurality of sections, and has an informing means for informing the progress of the test, and the informing means may notify the progress of the test for each of the sections. It is an environmental test apparatus characterized by being possible.

Here, “physically divided into a plurality of compartments” means substantially, for example, by shelves, partitions, walls, strings, ropes, chains, chains, wires, poles, obstacles, protrusions, drawers, boxes, etc. The section is divided so that the DUT does not easily move to the adjacent section.
Further, “virtually divided into a plurality of sections” includes a configuration in which a region is easily discriminated by a mark, warmth, light, or the like. Although there is no mark indicating the area, when the DUT is placed at that position, such as the right end position, left end position, center position, and far left corner position, it is clearly distinguished from other positions. This includes the case where the image is divided on the assumption that the position can be performed.
In the environmental test apparatus of the present invention, the test chamber is physically or virtually divided into a plurality of sections as described above. Each researcher puts the test object he / she is responsible for in one section and conducts the test. As described above, since there are a plurality of sections, a plurality of types of test objects can be mixed in the test room. However, since the test room is divided into a plurality of sections, the test objects are not mistaken.
Further, in the environmental test apparatus of the present invention, since the progress of the test can be notified for each section by the notification means, the progress of the test can be known, and the end of the test or the end of the test can be known.

  In the invention according to claim 2, the notification means notifies at least one of the end of the test, the suspension of the test, the close of the test, or the close of the test. The environmental test apparatus according to claim 1, wherein the environmental test apparatus according to claim 1.

Here, the difference between “end of test” and “interruption of test” is not necessarily clear, and both are common in that they are the beginning of putting in and out the DUT. In general, “end of test” means that at least a part of tests that have been executed in parallel is ended, and “interruption of test” is a part of the test that has been executed in parallel. This includes the case of once removing the DUT.
According to the environmental test apparatus of the present invention, since the fact that the test for each DUT is finished or the fact that the test is approaching is known, there is little confusion.

  The invention according to claim 3 has a display device that performs a predetermined display, and the display device can display corresponding to the section. is there.

  According to the present invention, even if the user forgets the position of the section, the object to be tested can be taken out without error.

  According to a fourth aspect of the present invention, in the environmental test apparatus according to the third aspect, the display device displays a graphic representing the layout of the section.

  According to the present invention, since the position of the section can be known at a glance, it is easy to use.

  A fifth aspect of the present invention is the environmental test apparatus according to the third or fourth aspect, wherein the display device displays a section subjected to notification when the notification means is operated.

  In the present invention, for example, a section where the test has been completed is displayed together with the notification of the completion of the test, etc., so that it is convenient.

  The invention described in claim 6 can change the compartment in the test chamber, and the display on the display device can be changed in accordance with the change in the compartment of the test chamber. It is an environmental test apparatus as described in above.

  In the environmental test apparatus of the present invention, the compartment of the test chamber can be changed according to the size and number of the test objects. Further, the display on the display device can be changed accordingly.

  A seventh aspect of the present invention is the environmental test apparatus according to any one of the first to sixth aspects, wherein a predetermined standby operation is executed after the test is completed.

The standby operation is a preparation operation for taking out a test object, for example. The standby operation includes the following operations, for example.
(1) Stop ventilation to the test room.
(2) Cooling the DUT when stopping the high temperature test.
(3) Temperature rise in the test chamber when stopping the low temperature test.
(4) Dehumidification in the test chamber when stopping the low temperature test.

  The invention according to claim 8 is the environmental test apparatus according to any one of claims 1 to 7, wherein the notification means notifies a specific information terminal of the progress of the test.

  Examples of the information terminal include a personal computer, a mobile phone, and a portable personal computer.

  In the environmental test apparatus of the present invention, a plurality of types of test objects can be mixed and tested in the test room, and the end time of the test and the location of the test object can be known without error. Therefore, in the environmental test apparatus of the present invention, even if a plurality of types of test objects are mixed in the test room, no great confusion occurs.

1 is an external perspective view of an environmental test apparatus according to an embodiment of the present invention. It is a block diagram which shows the internal structure of the environmental test apparatus of FIG. It is a front view of the state which opened the front door of the environmental test apparatus of FIG. It is a perspective view of the test chamber of the environmental test apparatus of FIG. (A) (b) (c) is explanatory drawing explaining the pattern of the division of a test chamber. It is one of the display screens of a display apparatus, and is a front view of a basic setting screen. It is one of the display screens of a display device, and is a front view of a screen (compartment setting screen) when changing the compartment display. It is one of the display screens of a display device, and is a front view of a screen (interruption management screen) when confirming a section display. It is one of the display screens of a display apparatus, and is a front view of a test condition setting screen. It is one of the display screens of a display apparatus, and is a front view of a test condition setting screen and a front view showing a state at the time of input. It is one of the display screens of a display apparatus, and is a front view of a basic management screen. It is one of the display screens of a display device, and is a monitor screen under test (a front view of the test monitor screen. It is one of the display screens of the display device, and is a front view of the basic management screen, showing a state in which the test is interrupted. It is one of the display screens of a display apparatus, and is a front view which shows the modification of the monitor screen under test. It is a perspective view of the test chamber which shows the modification of a test chamber. It is a perspective view explaining the pattern of the division of the test chamber of FIG. It is a perspective view of the test chamber which shows the other modification of a test chamber.

Embodiments of the present invention will be further described below.
The environmental test apparatus 1 according to the present embodiment is a thermal shock test apparatus, and sends hot air and cold air alternately to the test chamber 2 where the object to be tested is arranged to rapidly change the temperature environment of the test chamber 2 to be tested. The apparatus repeatedly exposes an object to a high temperature environment and a low temperature environment, and can apply thermal stress to the object to be tested.

That is, as shown in FIG. 2, the thermal shock test apparatus 1 includes a test chamber 2 in which electronic parts, resin materials, and other test objects are placed, a high temperature chamber 3 adjacent to the upper portion of the test chamber 2, A low temperature chamber 5 adjacent to the lower portion of the test chamber 2 is provided.
The high greenhouse 3 incorporates a heater 6, and the inside of the high temperature chamber 3 is maintained at a predetermined high temperature state. That is, the high temperature chamber 3 is a chamber for storing high-temperature air.
On the other hand, the cooler 7 is built in the low temperature chamber 5. The cooler 7 is a part of the refrigerator 8 and is an evaporator.
The low greenhouse 5 is maintained at a predetermined low temperature by the cooler 7. That is, the low temperature chamber 5 is a room for storing low temperature air.

  The test chamber 2 and the high temperature chamber 3 communicate with each other via a hot air inlet 10 and a hot air outlet 11. The test chamber 2 and the low temperature chamber 5 are configured to communicate with each other via a cold air inlet 15 and a cold air outlet 16. The hot-air inlet 10 and the hot-air outlet 11 are provided with high-temperature tank-side dampers 17 and 18, and the cold-air inlet 15 and the cold-air outlet 16 are provided with low-temperature tank-side dampers 20 and 21 and adjacent to each other. Air circulation between tanks is restricted. The high temperature tank side dampers 17 and 18 and the low temperature tank side dampers 20 and 21 employ a known butterfly type or gate type.

  The environmental test apparatus 1 is an apparatus for performing a thermal shock test. An object to be tested is installed in the test chamber 2, and low temperature air and high temperature air are alternately sent from the low temperature chamber 5 or the high temperature chamber 3 to the test chamber 2, The specimen is rapidly cooled or heated to give thermal stress (cooling shock test). Specifically, in the thermal shock test, the test chamber 2 and the low temperature chamber 5 are in communication with each other and the test chamber 2 is rapidly cooled, and the test chamber 2 and the high temperature chamber 3 are in communication with each other. A high temperature exposure test for rapidly heating the chamber 2 is alternately executed in a cycle based on a preset time and a target temperature. Then, the test object is evaluated based on the thermal stress generated in the test object by the low temperature exposure test or the high temperature exposure test.

In the environmental test apparatus 1 of this embodiment, there is a front door 23 that opens and closes the test chamber 2 as shown in FIG. A control device 25 is attached to the front door 23. The control device 25 is a touch panel display device 30. A small speaker 28 is attached to the control device 25. The speaker 28 is one of notification means, and emits a buzzer sound that notifies the end of the test.
The display screen of the display device 30 will be described later.

In the environmental test apparatus 1 of this embodiment, the inside of the test chamber 2 is partitioned into a plurality of sections 27abcdef as shown in FIG. The structure of the test chamber 2 is as shown in FIG. 4, and six guides 31abcdef are provided on the inner wall. Each of the guides 31 abcdef extends from the opening side of the test chamber 2 toward the back side.
Among these, the four guides 31abde are provided on the side wall of the test chamber 2. That is, the guide 31ab is provided on the left side wall of the drawing, and the guide 31de is provided on the right side wall of the drawing.
The left and right guides 31a and 31e, and the guide 31b and the guide 31d are at opposite heights.
On the other hand, the remaining two guides 31cf are provided on the ceiling surface and the bottom surface. The two guides 31cf on the ceiling surface and the bottom surface are also in opposing positions.

Then, by arranging the shelf plate 32ab and the partition plate 33abc on the guide 31abcdef of the environmental test apparatus 1 of the present embodiment, the test chamber is divided into 6 sections 27abcdef. The shelf plate 32ab and the partition plate 33abc have a wire mesh attached to a frame in order to ensure ventilation. The side wall 29 is also made of a wire mesh. Note that an opening may be provided in place of the wire mesh to ensure ventilation.
Note that guides 31ghij are also provided at the center of both sides of the shelf 32ab.
In the environmental test apparatus 1 of the present embodiment, the layout of the section 27abcdef can be arbitrarily changed by replacing the shelf board 32ab and the partition board 33abc or using a shelf board or a partition board having a different shape.
That is, FIG. 5A is an example in which three medium-sized sections 35abc are provided in the upper and lower sides. FIG. 5B shows an example in which the middle section 36ab is provided in the upper stage and the middle stage, and two small sections 36cd are provided in the lower stage.
In FIG. 5C, a small section 37ab is arranged vertically at the lower left, a vertically long medium section 37c is disposed beside it, and a medium section 37d is disposed above the section.

  In short, in the present embodiment, the small section 27abcdef having a size obtained by dividing the test chamber 2 into six is the minimum unit of the section, and the medium section and the large section are formed by arbitrarily combining the minimum unit sections 27abcdef. Can do.

Next, the function of the control device 25 will be described. The control device 25 is a touch panel display device 30 and can perform various settings and inputs.
FIG. 6 shows one of the display screens of the display device 30 and shows a basic setting screen 53.
The basic setting screen 53 is roughly divided into three stages up and down.
The upper part of the basic setting screen 53 is a constant display unit 55. In the constant display section 55, a state display section 38, a shortcut icon section 41, and a time display section 42 are arranged.
Here, the state display unit 38 displays the current operation state of the environmental test apparatus 1 and is displayed as “stopped”, “testing”, “test suspended”.
Here, “Stopped” is the state before the test is started, “Testing” is an indication that the test is being executed, and “Test suspended” is for some reason. This is the display when the test is interrupted.

The shortcut icon part 41 is a part to be touched when the display is changed. When the part is touched, the display screen is changed to a specific screen.
If the rightmost icon 43 is touched here, a display will change to the basic management screen 60 like FIG.
The time display unit 42 is a clock that displays the current date and time.
In the present embodiment, the constant display unit 55 is always displayed on almost all screens. That is, the status display unit 38, the shortcut icon unit 41, and the time display unit 42 are always displayed on all screens.

A setting selection display section 56 is provided at the center stage of the basic setting screen 53. The setting selection display unit 56 is divided into four sections, and characters and image figures of “monitor information”, “pattern selection”, “pattern editing”, and “management setting” are displayed.
Touching these sections will change the display on each setting screen.

When the “management setting” section at the lower right is touched here, the display is switched to a section setting screen 57 as shown in FIG.
The section setting screen 57 is a screen for changing the management section in accordance with the section of the test chamber 2 described above.
The section setting screen 57 shows a state where the section setting screen 57 is divided into six minimum unit sections as shown in FIG. In each section, “used” and “unused” are displayed. When using a section, touch the “used” character, and when not using the section, touch the “unused” character. Touching the word “USED” makes the section subject to management. On the partition setting screen 57, either display is lit in order to clarify whether it is used or not used.

In addition, a square frame is displayed on each of the shelf line 50abcd (horizontal line) and the partition line 51abc (vertical line) that partitions the sections, and a circle is displayed in the square frame.
When you touch this circle, the circled line disappears. Touch the circle again to restore the line. Note that when the line is erased, the circle becomes a black circle, and when the line is left, it becomes a white circle.
In this way, it is possible to create a display layout that matches the actual layout of the test room 2 by erasing the line or restoring the line.
As shown in the section setting screen 57 of FIG. 7, two circles are touched to make a black circle, and the layout is determined by a predetermined operation. Further, the layout determined as shown in FIG. 8 can be displayed by a predetermined operation. FIG. 8 shows a layout made in accordance with FIG. 5c. FIG. 8 is called an interruption management screen 70 and can be displayed by a predetermined operation.
In the displayed layout, a serial number is displayed in each section. The displayed number corresponds to the number of the management display unit 61 of the basic management screen 60 of FIGS.

Further, by performing a predetermined operation, a test condition setting screen 62 as shown in FIG. 9 can be displayed.
On the test condition setting screen 62, a preheating temperature, a high temperature exposure condition, a low temperature exposure condition, a precooling temperature, and the number of cycles can be set.
That is, when a screen to be set is touched, a numeric keypad screen 63 is displayed as shown in FIG. 10, and necessary conditions can be input.
Here, the preheating temperature is the temperature of the high temperature chamber 3, and the precooling temperature is the temperature of the low temperature chamber 5.
In the high temperature exposure condition and the low temperature exposure condition, the temperature at the time of exposure and the exposure time can be set.
As the number of cycles, the number of repetitions is set with one cycle of high temperature exposure and low temperature exposure. When the high temperature exposure and the low temperature exposure are repeated for the number of repetitions, the thermal shock test apparatus 1 stops.

Further, by performing a predetermined operation, a basic management screen 60 as shown in FIG. 11 can be displayed.
The basic management screen 60 is roughly divided into four stages up and down. In the upper part, a constant display unit 55 is displayed.
The second level from the top of the basic management screen 60 is an interruption operation unit 65. The interruption operation unit 65 displays “interrupt reservation / counter monitor” as the name of the display screen. In the lower part of the screen, “Test abort” is displayed, and “After completion of current exposure” and “After completion of current cycle” are displayed beside it. The display in this column is a part to be operated when the currently executed test is manually stopped (interrupted).
That is, when “after current exposure is completed” is touched, the test is interrupted after completion of the high-temperature exposure test or low-temperature exposure test currently being performed. Touching “After the completion of the current cycle” interrupts the test after waiting for the end of the current cycle. For example, when one cycle is completed by performing a high-temperature exposure test first and subsequently performing a low-temperature exposure test, touching “after completion of current cycle” while the high-temperature exposure test is being performed. Then, the test is interrupted after completion of the low temperature exposure test.

In the central part of the basic management screen 60, there is a management display unit 61 for managing each section. The management display part 61 is divided into a title part 66 and a partition part 67. The partition section 67 is divided into six sections. 1 to NO. Serial numbers up to 6 are assigned. As described above, this number corresponds to the section displayed on the interruption management screen 70 in FIG. Accordingly, the numbers on the basic management screen 60 correspond to the sections in the actual test room 2.
The title portion 66 of the management display portion 61 includes “name”, “interrupt”, and “counter” according to the area of each section.
The serial numbers are displayed in the “name” column. In the name column area, the user ID can be written and displayed. To write the ID, touch the name column area. As a result, a dial is displayed (not shown), and a character can be input by touching the character on the dial. For example, NO. In the section 1, “Fujita Takashi” is displayed, and NO. In the second section, “Hayata Shin” is displayed. The display name is arbitrary, and a number or the like may be mixed.

In the “suspended” column, there are an area for inputting a numerical value and a portion displayed as “reserved”. The area for entering a numerical value is a part for making a reservation setting for suspending the test (the same applies to the end of the test). That is, the number of repetition cycles that need to be executed for the DUT input by the user is input.
The input method is as described above. Since the numeric keypad screen 63 is displayed by touching the part, a numeric value is input using the numeric keypad screen 63.
Touching the word “reservation” completes the setting.

In the “Counter” column, there are a field where a numerical value is displayed and a part where a character “Reset” is displayed. In the column in which numerical values are displayed, the number of test cycles actually performed in the target section (the section of the test chamber 2) is integrated and displayed.
When the reset part is touched, the integrated numerical value returns to zero.

  At the bottom of the basic management screen 60, there is a part labeled “Buzzer stop”. Touching the area will stop the buzzer indicating that the test has been interrupted.

When the start of the test is instructed on a screen (not shown), the high temperature exposure test and the low temperature exposure test are repeated according to the set conditions.
FIG. 12 is a display screen (test monitor screen 71) at that time, which displays the temperature of the test chamber 2, the current number of cycles, the remaining time of the current exposure test, and the scheduled test end time. In addition, a graph is displayed that indicates whether the temperature is currently decreasing or increasing.

In this way, the high temperature exposure test and the low temperature exposure test are repeated, and when any number of cycles reserved on the basic management screen 60 is reached, a buzzer sounds from the speaker 28 serving as the notification means. FIG. 13 shows the basic management screen 60 in a state where the test of the ID “Moroboss Dan” which is a partition of NO3 is completed.
That is, in the basic management screen 60 as shown in FIG. For this reason, when the number of cycles reaches 200 and the counter reaches 200, “Test suspended” is displayed on the status display section 55 as shown in FIG. The NO3 section that is the subject of interruption is displayed as being interrupted. The display color is different from the other colors.

Since the other compartments have not been tested, the display in the compartment remains “in use” or “unused” and remains unchanged.
Even if the exposure test is completed a predetermined number of times and the buzzer sounds thundering from the speaker 28, the test itself is continued. However, the “counter” on the basic management screen 60 stops the integration for the section that has reached the “reserved” number of times. For sections that have not reached the number of reservations, integration is continued.

The researcher (user) manually interrupts the test when he hears a thundering buzzer. That is, as described above, either “after completion of current exposure” or “after completion of current cycle” of the interruption operation unit 65 of the basic management screen 60 is touched to manually stop (suspend) the test.
When the test is interrupted, the high temperature tank side dampers 17 and 18 and the low temperature tank side dampers 20 and 21 are closed. A researcher (user) opens the front door 23 of the environmental test apparatus 1 and takes out his / her test object.
At this time, the researcher (user) can display the interruption management screen 70 of FIG. 8 by a predetermined operation, and can confirm the position of the section in which his / her DUT is arranged.
When the test is interrupted, the “counters” in all sections stop accumulating. However, the accumulated value so far is stored, and when the test is resumed, the accumulation continues.

In addition, as a mode in which the test is finished and the test object is taken out, there are a case where the test is restarted without putting anything in the section after taking out and a case where another test object is put.
Further, the test object may be taken out after a certain repeated test to test the electrical characteristics and other characteristics, and then the test may be resumed by placing the test object in the same compartment or another compartment again.

In the embodiment described above, the speaker 28 is shown as an example of the notification means. However, notification by light such as turning on special illumination is also possible.
In addition, information indicating that the test has been completed may be transmitted to an information terminal such as a personal computer or a mobile phone of each researcher.

  In the above-described embodiment, only the test of the number of repetitions reserved by the buzzer is notified, and the test itself is continued. However, when the test for one section is completed, the test is automatically performed. It is also possible to adopt a configuration that interrupts.

When the test is automatically interrupted, it is recommended that the standby operation be automatically performed in preparation for taking out the DUT. The standby operation includes the following operations, for example.
(1) Stop ventilation to the test chamber (2) Cooling the DUT when stopping the high temperature test (3) Temperature rise in the test chamber when stopping the low temperature test (4) Test when stopping the low temperature test Indoor dehumidification

  It is also recommended that the notification means not only notify the end or interruption of the test in charge, but also notify that the end of the test is near. For example, an e-mail is automatically sent to the researcher's mobile phone informing that the test is about to end.

  When the test is completed, an interruption management screen 70 as shown in FIG. 8 is automatically displayed, or a figure similar to this is displayed on a small window-like screen, and a graphic representing the layout of the section is displayed on the display device 30. It is also recommended to use a configuration with

  In the above-described embodiment, the partition is formed by the shelf plate 32ab and the partition plate 33abc. However, the partition may be formed by a drawer 80 as shown in FIG. In this case, the size of the compartment is changed by changing the size of the drawer to a large drawer 81 as shown in FIG. In the configuration shown in FIG. 15, a net or the like is stretched on the drawer to ensure air permeability.

Further, a rack-shaped partition member 73 as shown in FIG. 17 may be installed inside the test chamber 2. In the test chamber employed in the present embodiment, the partition member 73 is inserted into the test chamber 2. As shown in FIG. 17, the partition member 73 has only an outer frame 75 and shelf plates 76 a and 76 b, and there is no partition plate.
The shelf boards 76a and 76b have a netting structure in order to ensure ventilation. A mark 80 is provided at the center part of the shelf plates 76 a and 76 b and the front side center part of the framework 75. The mark 80 represents a boundary between sections, and the shelf plates 76a and 76b are virtually divided into two sections with the mark 80 as a boundary.
The shelf numbers 76 a and 76 b and the lowermost crosspiece 81 of the framework 75 are assigned division numbers. That is, in the present embodiment, there is no physical partition on the shelf plates 76a and 76b, but it is virtually divided into two by the mark 80, and a virtual partition is formed.

  In conjunction with the opening of the front door 23, it is also recommended that the dampers and the like leading to the test chambers 2, 72 are closed to prevent hot air or cold air from flowing into the test chambers 2, 72.

  The layout of each display screen can be changed as appropriate. For example, the test monitor screen may be modified like the test monitor screen 72 in FIG.

  In the embodiment described above, the present invention has been described by taking the thermal shock test apparatus as an example. However, the present invention is not limited to the thermal shock test apparatus, and is simply specified to be exposed to a high temperature environment or a low temperature environment. The present invention can also be applied to an environmental test apparatus that is exposed to a light atmosphere or a gas atmosphere.

1 Environmental test device 2, 72 Test chamber 23 Front door 25 Control device 27 abcdef compartment 28 Speaker (notification means)
30 display device 35abc section 36abcd section 37abcd section 53 basic setting screen 55 constant display section 56 setting selection display section 57 section setting screen 60 basic management screen 62 test condition setting screen 63 numeric keypad screen 65 interrupt operation section 66 title section 67 partition section 70 interrupt Management screen 71, 72 Test monitor screen 73 Partition member 75 Frame 76a, 76b Shelf board

Claims (8)

  In an environmental testing device that has a test room that creates an environment of test conditions, places the test object in the test room, and exposes the test object to the test environment, the test room is physically or virtually divided into multiple sections. An environmental test apparatus characterized in that it has a notifying means for notifying the progress of the test, and the notifying means can notify the progress of the test for each section.   The notifying means notifies at least one of the end of the test, the stop of the test, the end of the test approaching, and the approach of the end of the test approaching. Environmental testing equipment.   The environmental test apparatus according to claim 1, further comprising a display device that performs predetermined display, wherein the display device is capable of displaying corresponding to the section.   The environmental test apparatus according to claim 3, wherein the display device displays a graphic representing a layout of a section.   The environmental test apparatus according to claim 3 or 4, wherein the display device displays a section which is a target of notification when the notification means is operated.   6. The environmental test apparatus according to claim 3, wherein the compartment in the test chamber can be changed, and the display on the display device can be changed in accordance with the change in the compartment of the test chamber.   7. The environmental test apparatus according to claim 1, wherein a predetermined standby operation is executed after the test is completed.   The environmental test apparatus according to claim 1, wherein the notification means notifies a specific information terminal of the progress of the test.

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