KR20110059273A - Environmental test chamber - Google Patents

Abstract

PURPOSE: A chamber for an environmental test is provided to form a space for a test variable according to the size of the object of a test. CONSTITUTION: A chamber(90) for an environmental test contains a movable body(91) forming a portion of a chamber body and sliding to surround a fixed body tightly to decrease or increase the volume of a space(15) for a test, a fixed body(92), a movable panel(30) installed to move along an internal wall of the movable body to decrease or increase the volume of the space for a test, and an air conditioning unit(20) heating/cooling or humidifying/dehumidifying the space for a test to control the temperature and humidity of the space for a test.

Description

Environmental test chamber {Environmental test chamber}

The present invention relates to an environmental test chamber, and more particularly to an environmental test chamber that can adjust the size of the interior of the chamber.

Generally, environmental test chambers are used in devices such as thermohygrostats, thermostats, hot-low temperature testers and the like. The environmental test chamber maintains and controls the temperature or humidity of the internal space, thereby creating an appropriate test environment for the test object.

1 is a front sectional view of a chamber body showing a schematic configuration of a conventional chamber for environmental testing. Referring to FIG. 1, a conventional chamber 100 for environmental testing includes a chamber body 101, an air conditioning unit 102, a temperature sensor 103, a humidity sensor 104, and the like.

The chamber body 101 forms an exterior of the apparatus, and a test space 105 is formed in which a test object is disposed. The air conditioning unit 102 includes a heater, an evaporator, a condenser, a compressor, an expansion valve, a heating coil, a blowing fan, and the like. The air conditioning unit 102 controls temperature and humidity by heating and cooling the test space 105 or by humidifying and dampening the test space 105. The temperature sensor 103 and the humidity sensor 104 function to sense the temperature and humidity of the test space 105.

The efficiency of controlling the temperature and humidity of the test space 105 is influenced by the volume of the test space. That is, it is efficient for small test objects such as optical parts to be tested in a relatively small space, and test objects such as large parts for efficient testing in a relatively large space.

However, the conventionally used environmental test chamber as shown in FIG. 1 has a limited volume of test space. Therefore, when the size of the test object is different, there is an inconvenience that the environmental test chamber has to be manufactured with different specifications.

Therefore, there is an urgent need for an environmental test chamber in which the internal volume of the test space can be reduced and expanded.

Accordingly, it is an object of the present invention to provide an environmental test chamber which enables to form a test space that is variable according to the size of a test object.

Other objects to be provided by the present invention can be understood by the following description and embodiments of the present invention.

To this end, the environmental test chamber according to an embodiment of the present invention includes a chamber body in which a test space portion in which a test object is disposed and an air conditioning unit for controlling air conditioning conditions of the test space portion, wherein the chamber body, Stationary body; And a movable body which is slidable in a form in which the fixed body is in close contact with the fixed body so as to vary the volume of the test space.

According to the present invention as described above, since the size of the test space can be reduced or expanded, there is no need to manufacture a separate chamber according to the size of the test object, there is an advantage that the cost of adding the device is not consumed.

In the following description of the present invention, when it is determined that a detailed description of a known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users and operators. Therefore, the definition should be made based on the contents throughout the specification.

As described above, the environmental test chamber used in the related art has a limited internal space, and therefore, there is an inconvenience in that the chamber must be manufactured to different specifications according to the test object.

Therefore, this invention solves this problem and provides the environmental test chamber in which the volume of a test space part is variable.

To this end, the chamber body is manufactured in a form separated into a movable body and a fixed body to provide an environmental test chamber to reduce or expand the volume of the test space.

In addition, the movable panel is also installed inside the movable body to provide an environmental test chamber that can additionally reduce or expand the volume of the test space more precisely.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a front sectional view showing a schematic configuration of an environmental test chamber according to an embodiment of the present invention.

2, the environmental test chamber 90 according to an embodiment of the present invention includes a movable body 91, a fixed body 92, a movable panel 30, and an air conditioning unit 20.

The environmental test chamber 90 creates an appropriate test environment for the test object by controlling the temperature and humidity of the internal space, and can be used for a thermohygrostat, a thermostat, a high-temperature tester, and the like. It can be used to test large objects such as parts or mechanical parts.

The movable body 91 and the stationary body 92 form an exterior of the apparatus and the test space 15 is formed therein. The test object 15 is disposed in the test object, and is formed by the inner walls of the movable body 91 and the fixed body 92.

The movable body 91 forms a part of the chamber body and slides in a form in which the stationary body 92 is in close contact and serves to reduce or expand the volume of the test space 15. When the structure as shown in FIG. 2 is seen from the right side, the inner cross-sectional area of the movable body 91 is preferably formed to have the same or slightly larger area as the outer cross-sectional area of the fixed body 92.

When the inner cross-sectional area of the movable body 91 is formed to have the same area slightly larger than the outer cross-sectional area of the stationary body 92, the test space (inside the movable body 91 and / or outside of the stationary body 92) For the purpose of sealing 15), it is preferable to further form a sealing part (not shown) using an elastic material such as rubber.

In the structure as described above, when the movable body 91 moves in the direction of the fixed body 92 by the guide portion to be described below, the movable body 91 is slid in a form in which the fixed body 92 is tightly enclosed. As a result, the volume of the test space 15 is reduced. On the contrary, when the movable body 91 moves in the opposite direction of the fixed body 92, the volume of the test space 15 increases.

In order to move the movable body 91 as described above, a motor 400 for generating power is formed at one side of the movable body 91, and a guide part for guiding the movable body 91 is formed below the movable body 91. .

The guide part formed below the movable body 91 includes a guide rail 440, a guide gear 420, a drive gear 410, and a bearing 430.

As the motor 400 installed in the movable body 91 rotates, the driving gear 410 connected to the motor 400 rotates in engagement with the guide gear 420, thereby moving the movable body 91 to the stationary body 92. ) Close to the sliding form. 3 illustrates an example in which the movable body 91 is slid into the fixed body 92 so that the volume of the test space 15 is reduced.

As described above, if the body of the environmental test chamber 91 is formed by separating the movable body 91 and the fixed body 92, the volume of the test space 15 can be varied, so that the test space is There is an advantage that can improve the test performance such as the temperature and humidity of (15).

4 is an enlarged view of a guide unit according to an exemplary embodiment.

In the structure as shown in FIG. 4, the rotation shaft 405 connected to the motor 400 rotates in one direction according to the driving direction of the motor 400 when power is applied to the motor 400.

The rotation force switching unit 407 is connected to the rotation shaft 405 serves to convert the rotational force in the vertical direction transmitted from the motor 400 in the horizontal direction. Rotation force switching unit 407 may be made of a bevel gear or the like.

The drive shaft 409 is connected to the rotational force switching unit 407 to transmit the rotational force generated from the motor 400. Gears 410 are connected to both ends of the drive shaft 409.

Gear 410 moves the movable body 91 by engaging and rotating with the guide gear 420 on the guide gear 420.

Meanwhile, the bearing 430 formed between the guide rail 440 and the movable body 91 distributes the load of the movable body 91 while supporting the movable body 91, and the movable body 91 and the guide rail 440. Reducing friction between the) serves to facilitate the movement of the movable body (91).

On the other hand, in the above described and illustrated using the gear 410 and the guide gear 420 for the movement of the movable body 91, the present invention is not limited to this, and the power transmitted from the motor 400 Any structure can be applied as long as it converts into friction to enable movement of the movable body 91. Therefore, instead of using a gear, a roller, a conveyor belt, or the like may be used.

Referring again to FIG. 2, the movable panel 30 is formed inside the movable body 91 to serve to reduce or expand the volume of the test space 15. That is, the present invention separates and forms the chamber body into the movable body 91 and the fixed body 92, and additionally reduces or expands the volume of the test space 15 more precisely by installing the movable panel 30. can do.

The movable panel 30 partitions an inner space of the movable body 91 and serves as one inner wall of the test space 15. As the movable panel 30 moves inside the movable body 91, the volume of the test space 15 is reduced or expanded.

Thus, since the volume of the test space 15 is variable when the movable panel 30 is formed, the test performance of the test space 15, such as temperature and humidity, can be improved. Applying such a mobile panel 30 can increase the utilization of equipment such as the air conditioning unit 20 in a chamber body of a limited size. Therefore, there is no need for a separate chamber according to the size of the test object, there is no need to replace the equipment such as the air conditioning unit 20 to a higher specification there is an advantage that the cost and time is reduced.

On the other hand, the movable panel 30 is preferably installed to move along the inner wall of the movable body (91). At this time, it may further include any one of a roller, a guide rail and a guide groove for smooth movement of the movable panel 30.

Meanwhile, the panel driver 40 may be further formed to smoothly move the movable panel 30. This will be described with reference to FIG. 5.

5 is a front sectional view showing a schematic configuration of a panel driver according to an embodiment of the present invention.

Referring to FIG. 5, the panel driver 40 according to an embodiment of the present invention is coupled to one side of the movable panel 30, and the first support part 41, the second support part 42, and the cross bar 50, 60).

The first support part 41 is supported on one side of the inner wall of the movable body 91, and the second support part 42 is supported on one side of the movable panel 30 so as to face the first support part 41.

Both sides of the pair of cross bars 50 and 60 are connected to the first support part 41 and the second support part 42, respectively. That is, one side 51 of the first cross bar 50 is connected to the first support part 41, and the other side 52 is connected to the second support part 42. Meanwhile, one side 61 of the second cross bar 60 is connected to the second support part 42, and the other side 62 is connected to the first support part 41.

The central portions of the first cross bar 50 are rotatably connected to each other at the central portion of the second cross bar 60. Thus, while the first cross bar 50 and the second cross bar 60 are rotated with each other, the distance between the first support part 41 and the second support part 42 is varied.

The first support part 41 and the second support part 42 have guide rods 43 and 44, respectively, and the power unit 48 is coupled to any one of the first support part 41 and the second support part 42. do. The power unit 48 may be a motor.

On the other hand, the power unit 48 is provided with a screw 49, the slide member 47 is connected to the screw 49, the screw 49 is rotated as the power unit 48 rotates, the slide member 47 ) Is a linear motion.

The slide member 47 is fitted into the guide rod 44 provided in the second support portion 42 and is slidably guided. The other side 52 of the first cross bar 50 is rotatably connected to the slide member 47.

In addition, another slide member 46 is fitted to the guide rod 43 provided in the first support portion 41 and is slidably guided. The other side 62 of the second cross bar 60 is rotatably connected to the slide member 46.

Meanwhile, one side 51 of the first cross bar 50 and one side 61 of the second cross bar 60 are rotatably connected to the first support part 41 and the second support part 42, respectively.

When power is applied to the power unit 48 at the same position as in FIG. 5A, and the screw 49 is rotated, the slide member 47 is guided to the guide rod 43 to linearly slide downward.

The first cross bar 50 connected to the slide member 47 receives a force to rotate clockwise, and the second cross bar 60 pivotally connected to the center portion of the first cross bar 50 rotates counterclockwise. Get the power to do it. Therefore, as the slide members 46 and 47 slide downwards, the distance between the first support part 41 and the second support part 42 is as shown in FIG.

Since the first support part 41 is supported on the inner wall of the movable body 91 and the second support part 42 is supported on the movable panel 30, the movable panel 30 moves to the right in the structure as shown in FIG. As a result, the volume of the test space 15 is reduced. On the other hand, the process of expanding the volume of the test space 15 occurs in the opposite direction of the above-mentioned reduction exaggeration.

Such a driving mechanism is stable to drive a large load of objects, and enables precise control of the movement of the movable panel 30.

6 is a view showing a schematic configuration of the airtight driving unit according to an embodiment of the present invention.

Fig. 6A is a side sectional view of the airtight driving unit. As shown in FIG. 6A, the movable panel 30 may include a sealing part 70. The sealing part 70 functions to maintain the airtightness of the test space part 15. The sealing part 70 may be made of a rubber material having reliability.

The environmental test chamber 90 preferably further includes an airtight drive unit 80. The airtight driving unit 80 drives the sealing unit 70 to be in close contact with or released from the inner wall of the movable body 91.

6 (b) and 6 (c) are front sectional views for explaining an operation example of the hermetic drive unit. Referring to FIGS. 6B and 6C, the airtight driving part 80 includes a fitting rod 85, a rod part 86, and an operation part 87.

The fitting rod 85 is coupled to the sealing portion 70. In addition, the rod portion 86 is connected to the fitting rod 85, the operation portion 87 is connected to the rod portion 86.

When operating the operation portion 87 in one direction, the rod portion 86 is in close contact with the inner wall of the movable body 91. In addition, when operating the operation portion 87 in the other direction, the rod portion 86 releases the sealing portion 70 in close contact with the inner wall of the movable body 91.

At this time, the sealing portion 70 and the fitting rod 85 is preferably disposed on each of the inner wall of the movable body (91).

That is, as shown in FIG. 6, when the chamber body is viewed from the side, the sealing portions 71, 72, 73, 74 are disposed on the upper, lower, left, and right sides, respectively, and the respective sealing portions 71, 72, Fasten the fitting rods (81, 82, 83, 84) to 73, 74).

The rods 86 are connected to the fitting rods 81, 82, 83, and 84 by brackets, etc., and the rods 86 are assembled to the inner central portion and rotatably connected to the operation unit 87. Accordingly, the rods 86 press or release the fitting rods 81, 82, 83, and 84 by the rotation of the operation unit 87.

The rods 86 are preferably connected to the operation unit 87 with a step so as not to interfere with each other.

As a result, the airtight driving unit 80 allows the sealing unit 70 to be finely spaced apart from the inner wall of the movable body 91 so that the movable panel 30 moves smoothly along the inner wall of the movable body 91.

In addition, the airtight driving unit 80 presses the sealing unit 70 in close contact with the inner wall of the mobile body 91 after the movement of the movable panel 30 is completed, thereby maintaining the airtightness of the test space 15.

Referring back to FIG. 2, the air conditioning unit 20 controls the temperature and humidity of the test space 15 by heating / cooling or humidifying / humidifying the test space 15.

The air conditioning unit 20 includes a heater, an evaporator, a condenser, an expansion valve, a heating coil, a blowing fan, and the like.

Air from the air conditioning unit 20 is convection in the test space 15 by the blowing fan. Meanwhile, a temperature sensor 21 and a humidity sensor 22 may be further formed in the test space 15, and the temperature sensor 21 senses the temperature of the test space 15 and coordinates the data with the air conditioning unit. Feedback to 20, the humidity sensor 22 senses the humidity of the test space 15, and feeds back the data to the air conditioning unit (20).

While the above has been shown and described with respect to preferred embodiments of the present invention, the present invention is not limited to the above-described specific embodiments, it is usually in the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or prospect of the present invention.

1 is a front sectional view of a chamber body showing a schematic configuration of a conventional chamber for environmental testing;

2 and 3 is a front sectional view showing a schematic configuration of an environmental test chamber according to an embodiment of the present invention,

4 is an enlarged view of a guide unit according to an embodiment of the present disclosure;

5 is a front sectional view showing a schematic configuration of a panel driver according to an embodiment of the present invention;

6 is a view showing a schematic configuration of the airtight driving unit according to an embodiment of the present invention.

Claims (1)

And a chamber body having a test space formed therein for a test object disposed therein and an air conditioning unit for controlling air conditioning conditions of the test space, wherein the chamber body includes: Stationary body; And It includes a movable body which is slidable in close contact with the stationary body so as to vary the volume of the test space portion. Environmental test chamber.

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