KR20160060961A - sensor inspection device with a cover for isolation from the outside environment - Google Patents

Abstract

The present invention relates to a sensor inspection device including a cover for isolation from an external environment and, more specifically, relates to a sensor inspection device including a cover for isolation from external environment, wherein the sensor inspection device measures an abnormality of a sensor measuring temperature and humidity by comparing the sensor with a reference sensor, and minimizes air flow by laying the cover to remove noise caused by the external environment. According to the present invention, the sensor inspection device comprises: an inspection plate on which an inspection sensor sensing the temperature and the humidity in a predetermined space is placed; the reference sensor located on an upper surface of the inspection plate, sensing the temperature and humidity of the space (atmosphere) located on an upper part of the inspection plate; the cover enclosing the upper space of the inspection plate to isolate the inspection plate from the external environment to reduce an error of a value measured by the inspection sensor and the reference sensor; and a control unit comparing and calculating the values detected by the inspection sensor and the reference sensor when the atmosphere (an air current) is stabilized by the cover. The control unit compares and calculates a reference value detected by the reference sensor with an inspection value detected by the inspection sensor in order to determine that the inspection sensor is a failure when the inspection sensor exceeds a preset error range.

Description

TECHNICAL FIELD [0001] The present invention relates to a sensor inspection apparatus having a cover for isolating an external environment,

The present invention relates to a sensor inspecting apparatus having a cover for isolating the sensor from an external environment, and more particularly, to a sensor inspecting apparatus for inspecting a sensor for measuring temperature and humidity with a reference sensor, And a cover for covering the cover to isolate the air from the external environment minimizing the flow of the air.

In general, temperature and humidity sensors are used to measure the temperature and humidity of a place to be measured. Depending on the temperature or humidity, the sensor of the measuring device has a different resistance value and the temperature or humidity .

Such temperature and humidity sensors may fail to measure the accurate temperature and humidity due to defects in the manufacturing process, and the defective products (sensors) are sorted through the inspection such as visual inspection, electrical test, and burn-in.

The operator manually compares and measures the values measured by the temperature and humidity sensor installed in the sorting chamber and the temperature and humidity sensor (inspection sensor) to be inspected. By the external environment including the movement of the operator and air convection, And the temperature and the humidity in the atmosphere are influenced by the flow of the air.

Especially, when the temperature and humidity sensors are more precise than the general temperature and humidity sensors, the error rate is large. The more the distance between the reference sensor and the inspection sensor is, the larger the error rate is.

This is because the farther the distance between the reference sensor and the inspection sensor is, the larger the influence of the external environment such as air movement or convection is.

Accordingly, in order to minimize the influence due to the surrounding environment, it is preferable to immerse the sensor in a water tank such as a Korean public utility model 97-45036 "sensor inspection apparatus having a cover for isolating from a temperature outside environment" However, there is a problem in that it is impossible to inspect the humidity and must be immersed in a water tank.

Further, there is a problem in that it is necessary to wait until the values measured by the inspection sensor and the reference sensor are stabilized before making a comparison.

Korean Utility Model Application No. 97-45036 "Sensor Inspection Device"

The object of the present invention is to solve the above-mentioned problems, and it is an object of the present invention to isolate the temperature and humidity sensor and the reference sensor to be inspected for precise comparative measurement with minimum noise from the external environment, And a sensor inspecting apparatus provided with a cover for detecting a sensor.

Another object of the present invention is to provide a cover for comparison measurement before stabilization, after waiting until the value measured by the temperature and humidity sensor and the reference sensor to be inspected are stabilized, And to provide a sensor inspection apparatus equipped therewith.

In order to achieve the above object, a sensor inspection apparatus having a cover for isolating an external environment according to the present invention includes an inspection plate on which an inspection sensor for sensing temperature and humidity in a predetermined space is mounted, A reference sensor for sensing the temperature and humidity of the space (atmosphere) located at the upper portion of the inspection plate, a cover for isolating the upper space of the inspection plate from the external environment to reduce the error between the values measured through the inspection sensor and the reference sensor And a control unit for comparing a value detected by the inspection sensor with a value detected by the reference sensor in a state where the air is stabilized by the cover, wherein the control unit detects the inspection value detected by the inspection sensor, When the comparison value is compared with the reference value and exceeds the predetermined error range, It characterized in that it is determined as defective.

Further, the cover may further include an adapter having a probe for connection (energization) with an inspection sensor formed on the inner surface thereof, wherein the inspection sensor contacts the probe of the adapter when the cover is closed, and is connected to the controller.

The adapter may include a second adapter having a plurality of resilient probes formed therein and a first adapter elastically supported on the lower surface of the second adapter through an elastic body and having a plurality of holes corresponding to the probes, And the probe is protruded outward through the hole formed in the first adapter when the first adapter is pressed.

The inspection plate may have a sensor groove formed on an upper surface thereof to which the inspection sensor is mounted, and an edge of the sensor groove may have a predetermined inclination angle so that the inspection sensor can be seated at a predetermined position.

The cover may further include a seating portion for pushing the inner surface of the cover so that the inspection sensor can be seated in the sensor groove, wherein the seating portion presses the inspection sensor located at the lower portion in a process of closing the cover so as to be seated at a predetermined position .

The control unit may calculate an expected value when the measured value is stabilized through a change in the value measured by the inspection sensor and the reference sensor, and compare the calculated expected value to determine whether the inspection sensor is defective or not. do.

The controller may further include a communication module for transmitting the inspection value detected by the inspection sensor and the reference value detected by the reference sensor to another terminal.

The control unit may further include an opening / closing unit for controlling the opening and closing of the cover, wherein the opening / closing unit isolates the reference sensor and the inspection sensor from the external environment by opening or closing the cover under the control of the control unit.

As described above, according to the sensor inspecting apparatus having a cover for isolating it from the external environment according to the present invention, the temperature and humidity sensor and the reference sensor to be inspected using the cover are isolated from the external environment, So that a precise comparison measurement can be performed.

In addition, according to the sensor inspecting apparatus having a cover for isolating it from the external environment according to the present invention, the value when the measured value is stabilized through the change of the value measured by the temperature and humidity sensor and the reference sensor is calculated It is possible to greatly reduce the inspection time according to the measurement.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows a sensor inspection apparatus with a cover for isolating it from the external environment according to the present invention. FIG.
2 is a view showing a reference sensor and an inspection sensor of a sensor inspection apparatus having a cover for isolating it from the external environment according to the present invention.
3 is a view showing an inspection plate of a sensor inspection apparatus having a cover for isolating it from the external environment according to the present invention.
FIG. 4 or 5 is a view showing an inspection plate and a seating guide of a sensor inspection apparatus having a cover for isolating it from the external environment according to the present invention. FIG.
6 is a view of an adapter of a sensor inspection apparatus having a cover for isolating it from the external environment according to the present invention.
7 is a diagram illustrating a calculation method of a sensor inspection apparatus having a cover for isolating it from an external environment according to the present invention.

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

FIG. 1 is a view showing a sensor inspecting apparatus having a cover for isolating it from the external environment according to the present invention. FIG. 2 is a perspective view of a sensor inspecting apparatus having a cover for isolating it from the external environment according to the present invention. FIG. 3 is a view showing an inspection plate of a sensor inspection apparatus having a cover for isolating it from an external environment according to the present invention, and FIG. 4 or FIG. 5 is a view FIG. 6 is a view showing an adapter of a sensor inspection apparatus having a cover for isolating the sensor from an external environment according to the present invention, and FIG. 7 is a diagram illustrating a calculation method of a sensor inspection apparatus having a cover for isolating an external environment according to the present invention It is cotton.

1, a sensor inspection apparatus having a cover for isolating an external environment according to the present invention includes an inspection plate 11 on which an inspection sensor 12 for sensing the temperature and humidity to be inspected is mounted, A reference sensor 13 for sensing temperature and humidity on the upper surface of the inspection plate 11 and an upper portion of the inspection plate 11 for reducing a measurement error between the inspection sensor 12 and the reference sensor 13, (Not shown) for comparing the values detected by the inspection sensor 12 and the reference sensor 13 in a state in which the airflow is stabilized by the cover 21 The controller compares the inspection value detected by the inspection sensor 12 with the reference value detected by the reference sensor 13 and determines that the inspection sensor 12 is defective when the comparison value exceeds a predetermined error range do.

The cover 21 is provided with an adapter 22 having a probe 23 for connection with the inspection sensor 12 on the inner surface thereof and the inspection sensor 12 is mounted on the adapter 21 when the cover 21 is closed 22 and is connected to the control unit.

The opening and closing part 31 may open or close the cover 21 according to the control of the control part so that the reference sensor 13 and / Thereby isolating the inspection sensor 12 from the external environment.

The opening and closing part 31 for opening and closing the cover 21 can use a server motor in addition to the cylinder, and the cover 21 is opened or closed under the control of a control part (not shown).

The probe 23 and the reference sensor 13 are connected to the control unit at all times irrespective of the opening and closing of the cover 21. Only the inspection sensor 12 to be inspected is replaced according to opening and closing of the cover 21, .

The cover 21 is formed to be larger than the inspection plate 11 to cover the inspection plate 11 and isolate the inspection sensor 12 and the reference sensor 13 from the external environment.

The atmosphere measured through the inspection sensor 12 and the reference sensor 13 is isolated from the external environment and is easily stabilized and the outside of the vortex, Accurate comparative measurement with minimal environmental noise is possible.

The control unit receives the measurement values measured through the inspection sensor 12 and the reference sensor 13 while the noise is minimized by being isolated from the external environment by the cover 21, If it is below the error range, it is determined to be a normal product, and the predetermined error range may be the unit of temperature (° C) or percentage (%).

For example, when the value measured by the reference sensor is 100 deg. C and the predetermined error range is set at 5 deg. C, the error range deviation is -5 deg. C to +5 deg. C of the reference sensor 13, If the measurement value measured by the sensor 12 is 95 ° C to 105 ° C, it is determined to be a normal product.

For example, when the value measured by the reference sensor is 90 ° C and the preset error range is set to 5%, the error range deviation is -5% to + 5% of the temperature of the reference sensor 13, When the measurement value measured by the inspection sensor 12 is 85.5 DEG C to 94.5 DEG C, it is determined to be a normal product.

On the other hand, when the percentage (%) is used, it is preferable to use a unit of temperature (캜) within a predetermined error range as the error range at low temperature differs from the error range at high temperature.

The control unit may further include a communication module for transmitting the inspection value detected by the inspection sensor 12 and the reference value detected by the reference sensor 13 to another terminal, It is possible to wirelessly transmit the data including the operation state and the defect rate to another terminal, thereby enabling connection with the automation facility.

For example, it is possible to supply, mount, collect, discharge, etc. the inspection sensor without the operator by using the transfer through the communication for the supply and recovery of the inspection sensor 12 and the current operation state.

The sensor inspecting apparatus having a cover for isolating the external environment according to the present invention may further include a display 43 on the front surface or a first notification unit 41 and a second notification unit 42 And it is possible to express the temperature and humidity measurement values, which are measured through the display 43 and the inspection sensor 12 and the reference sensor 13, respectively.

In addition, the first notification unit 41 and the second notification unit 42 may be used to indicate failure and normal.

For example, when the product is calculated (measured) by a normal product, it is expressed (sound or light) through the first notification unit 41 and is calculated (measured) by a defective product through the second notification unit 42 (Sound or light).

FIG. 2 shows a reference sensor and an inspection sensor of a sensor inspection apparatus having a cover for isolating it from the external environment according to the present invention. The reference sensor 13 is fixed on the upper surface of the inspection plate (11 in FIG. 1) And the test plate further includes a slot 14 so that the reference sensor 13 is fixed to the test plate in such a manner that the reference sensor 13 is inserted and fixed in the slot 14 so that only the reference sensor 13 can be replaced when the reference sensor 13 fails. Is most preferable.

The inspection sensor 12 is connected to the control unit when the probe 23 is in contact with the plurality of probes 23 and the damage of the inspection sensor 12 is detected when the probe 23 and the inspection sensor 12 are in contact with each other. It is most preferable that the probe 23 has a predetermined elasticity or a probe capable of being raised and lowered is used.

For example, a configuration in which an elastic body is inserted into the probe 23 and the tip portion of the probe 23 is moved up and down can be used.

FIG. 3 shows an inspection plate 11 of a sensor inspection apparatus having a cover for isolating it from the external environment according to the present invention. After the inspection sensor is mounted on the upper surface of the inspection plate 11, It is preferable that the inspection plate 11 includes a sensor groove 15 corresponding to the inspection sensor.

That is, the inspection sensor (12 in FIG. 1) is drawn into the sensor groove 15 at a predetermined depth and fixed.

In addition, the sensor groove 15 may further include a grip groove 15 on a side surface thereof. The grip groove 15 may form a space for an operator to easily grip an inspection sensor, The sensor groove 15 or the grip groove 15 may be formed such that the side surface is inclined at a predetermined angle, such as 15B along the edge of the groove.

Further, when the side surface is formed with a tapered shape, the inclined surface facilitates the inserting and discharging of the inspection sensor.

FIG. 4 or FIG. 5 shows an inspection plate and a seating guide of a sensor inspection apparatus having a cover for isolating it from the external environment according to the present invention, in which an inspection sensor 12 is mounted on a sensor groove And may further include a seating guide 16 that assists seating.

The inspection sensor 12 may not always be positioned in the sensor groove when the operator places the inspection sensor 12 on the upper surface of the inspection plate and the mounting guide 16 may be positioned so that the inspection sensor is positioned right in the sensor groove .

More specifically, the seating guide 16 having the inclined surfaces formed on both sides toward the sensor groove has a structure in which the inspection sensor 12, which is mounted on the upper part, slides along the inclined surface by its own weight, Role and will be performed.

When the adapter 22 is lowered (the cover is closed) so as to come into contact with the inspection sensor 12 even when the inclined surface and the self weight do not get in the way described above, The inspection sensor 12 is slid along the inclined surface of the seating guide 16 and is seated in the sensor groove by the pressure of the adapter 22. [

That is, the inspection sensor 12 is seated in the sensor groove along the inclined surface of the seating guide 16 by its own load or by the pressure of the adapter 22. [

On the other hand, there may be a problem that the inspection sensor 16 is caught between the adapter 22 and the seating guide 16 despite having the mounting guide 16, As distance increases, it often happens.

In order to prevent this, as shown in Fig.

More specifically, as shown in FIG. 5, the seating portion 24 having a width 24H that is wider than the width of the adapter 22 is disposed at any position among the inclined surfaces of the seating guide 16, The inspection sensor 12 can be pressed so as to be able to slide along the inclined surface.

To this end, it is preferable that the seating portion 24 has a width 24H that is wider than the width of the slope of the seating guide 16, and when the seating portion 24 is further provided, It is preferable that the seating portion 24 passes through a plurality of spaced-apart seating guides 16 and the inspection sensor 12 is seated in the correct position.

This is because when one seating guide 16 and one seating portion 24 press the inspection sensor 12, the inspection sensor 12 may be detached or lifted by the lever principle, It is preferable that the seat portion 24 passes through the seat portion 16.

The mounting portion 24 may be formed on one side of the adapter 22 in a plate shape wider than the width of the adapter 22 or may be integrally formed with the adapter 22 as shown in FIG. And has a shape protruding from the side surface of the adapter 22 by a predetermined length.

In addition, only the first adapter (22A in Fig. 6) to be described below with respect to the adapter 22 may have the seating portion 24 protruding from both sides.

Further, as shown in Fig. 6, the adapter 22 may be constituted by the first adapter 22A and the second adapter 22B.

More specifically, when the adapter 22 presses the inspection sensor 12 at a predetermined pressure or more, a plurality of probes 23 corresponding to the probes 23 are provided so that the probes 23 protrude to be energized with the inspection sensor 12 The first adapter 22A in which the holes are formed is elastically supported on the lower surface of the second adapter 22B in which a plurality of probes 23 protrude through the elastic body 22C.

Since the first adapter 22A is elastically supported by the second adapter 22B by the elastic body 22C, the first adapter 22A is lifted and lowered when the lower surface of the first adapter 22A is pressed, When the first adapter 22A is raised and lowered over a predetermined height, the plurality of probes 23 protrude out through a plurality of holes formed in the first adapter 22A.

As a result, the probe 23 having a very small thickness can be prevented from being exposed to the outside to be damaged, and can be protruded outward (in contact with the inspection sensor) only in communication with the inspection sensor 12.

The maximum lift height of the first adapter 22A is limited by the height at which the upper surface of the first adapter 22A contacts the second adapter 22B or the maximum shrink length of the elastic body 22C, The probe 23 is pulled into the second adapter 22B as the probe 23 has a predetermined elasticity as described above so that the inspection sensor 12 And is not protruded beyond the height at which it is energized.

That is, even if the first adapter 22A is elevated to the maximum lift height, the probe 23 can be prevented from being excessively projected, thereby preventing the probes 23 or the inspection sensor 12 from being damaged.

FIG. 7 is a diagram illustrating a calculation method of a sensor inspecting apparatus having a cover for isolating an external environment according to an embodiment of the present invention. Referring to FIG. 7, The method of calculation is as follows.

1. Method using preset time and preset error range

When the deviation between the inspection value 12T detected by the inspection sensor and the reference value 13T detected by the reference sensor exceeds the predetermined error range after the predetermined time as in S1, .

For example, if the predetermined time is 5 seconds, the predetermined error range is 5%, and the inspection value 12T detected by the inspection sensor is 5 seconds after closing the cover is 96 deg. C, When the reference value 13T is 100 ° C, the inspection sensor 12N is judged to be normal as the inspection value 12T is positioned within -5% ~ + 5% of the reference value 13T.

In addition, a unit of temperature may be used in addition to the percentage (%) of the error range.

For example, a range of-5 ° C to + 5 ° C is used.

2. Using the preset time and deviation values

The control unit compares the minimum value or the maximum value of the reference value 13T detected by the reference sensor with the inspection value 12T detected by the inspection sensor within a predetermined time and outputs a predetermined deviation range , It is judged to be defective.

For example, if the predetermined time is 5 seconds, the predetermined deviation value is 5 占 폚, and the maximum value of the inspection value 12T detected by the inspection sensor within 5 seconds after closing the cover is 97 占 폚, When the minimum value of the reference value 13T detected by the sensor 13T is 100 deg. C, the inspection sensor 12 is determined to be normal as the inspection value 12T is located within the deviation value of the reference value 13T from 95 deg. C to 105 deg.

In addition, the selection criterion of the minimum value and the maximum value is selected by selecting the minimum value among the inspection value 12T and the reference value 13T having a high temperature, and compares the selected value with the maximum value of the low temperature value.

Therefore, since the failure can be detected only by the sensor value measured within a predetermined time, it is not necessary to wait until the value measured by the sensor is stabilized.

3. Using the change of the measured value within the preset time

Based on the inspection value 12T detected by the inspection sensor and the reference value 13T detected by the reference sensor within a predetermined period of time, the control unit calculates the temperature The estimated test value, which is the temperature at which it stabilizes (the slope of the temperature change graph over time is zero), is compared with the expected baseline value, so that the deviation of the two predicted values (expected test value and expected baseline value) It is a method to judge that it is bad when it is done.

For example, when the predetermined time is 5 seconds, the predetermined deviation value is 5 占 폚, and the temperature change rate (time-dependent temperature with time) of the inspection value 12T detected by the inspection sensor within 5 seconds after closing the cover (Inclination of the change graph) is calculated, the temperature is stabilized after 10 seconds (the slope of the graph of the temperature change over time is 0), the expected inspecting value of stable temperature is 97 占 폚 and the inspecting value (The slope of the graph of the temperature change over time) is calculated, the temperature is stabilized (the slope of the graph of the temperature change over time is 0) after 6 seconds from closing the cover, When the reference value is 99 ° C, the inspection sensor is judged to be normal as the expected inspection value 12T is located within the deviation value of the expected reference value 13T from 94 ° C to 104 ° C.

This method using the temperature change rate (slope of the temperature change graph) can be applied because the change rate of the temperature (slope of the temperature change graph) constantly decreases with time and reaches 0, The controller calculates the temperature when the rate of temperature change reaches 0 through the control unit, and compares the calculated value with the calculated value to determine whether the temperature is normal or defective.

When the temperature of the reference value 13T detected by the reference sensor and the inspection value 12T detected by the inspection sensor within a predetermined period of time is not constant, The expected value is calculated through the average of the temperature changes.

In addition, when the comparison between the predicted inspection value and the predicted reference value is used as described above, the comparative measurement can be performed without waiting until the values measured by the temperature sensor and the reference sensor to be inspected are stabilized The inspection time can be greatly shortened.

The sensor inspection apparatus having the cover for isolating the external environment according to the present invention compares both the temperature and the humidity and compares the temperature and the humidity measured through the inspection sensor 12 with the reference When the control unit compares the temperature and humidity measured through the sensor 13, it is determined that the comparison product is a normal product when both the temperature and the humidity are within a predetermined error range.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art without departing from the scope of the present invention. The scope of the invention should therefore be construed in light of the claims set forth to cover many of such variations.

11: Inspection plate
12: Inspection sensor
13: Reference sensor
14: Slot
15: Sensor home
16: Seat guide
21: cover
22: Adapter
23: Probe
24:
31:
41: First notification unit
42: second notification unit
43: Display

Claims (8)

An inspection plate on which an inspection sensor for sensing temperature and humidity in a predetermined space is mounted;
A reference sensor which is positioned on the upper surface of the inspection plate and senses the temperature and humidity of the space (atmosphere) located on the upper portion of the inspection plate;
A cover for covering the upper space of the test plate from the external environment to reduce an error of a value measured through the test sensor and the reference sensor;
And a controller for comparing a value detected by the inspection sensor with a value detected by the reference sensor in a state where the air (air flow) is stabilized by the cover,
Wherein the controller compares the inspection value detected by the inspection sensor with the reference value detected by the reference sensor and determines that the inspection sensor is defective when the comparison value exceeds a predetermined error range.
A sensor inspection device comprising a cover for isolating it from an external environment.
The method according to claim 1,
The cover further includes an adapter having an inner surface formed with a probe for connection (energization) with an inspection sensor,
Wherein the inspection sensor contacts the probe of the adapter when the cover is closed and is connected to the control unit
A sensor inspection device comprising a cover for isolating it from an external environment.
3. The method of claim 2,
The adapter includes a second adapter having a plurality of resilient probes formed therein;
And a first adapter elastically supported on the lower surface of the second adapter through an elastic body and having a plurality of holes corresponding to the probes,
And a probe is protruded out through a hole formed in the first adapter when the first adapter is pressed.
A sensor inspection device comprising a cover for isolating it from an external environment.
The method according to claim 1,
The inspection plate has a sensor groove formed on an upper surface thereof,
And an edge of the sensor groove is formed with a predetermined inclination angle so that the inspection sensor can be seated at a predetermined position
A sensor inspection device comprising a cover for isolating it from an external environment.
5. The method of claim 4,
The cover further includes a seating portion for pushing the inner surface of the cover so that the inspection sensor can be seated in the sensor groove,
And the seating part is pressed so that an inspection sensor positioned at a lower part can be seated at a predetermined position in a process of closing the cover
A sensor inspection device comprising a cover for isolating it from an external environment.
The method according to claim 1,
Wherein the control unit calculates an expected value when the measured value is stabilized through a change in the value measured by the inspection sensor and the reference sensor and compares the calculated expected value to determine whether the inspection sensor is defective or not
A sensor inspection device comprising a cover for isolating it from an external environment.
The method according to claim 1,
The control unit may further include a communication module for transmitting the inspection value detected by the inspection sensor and the reference value detected by the reference sensor to another terminal
A sensor inspection device comprising a cover for isolating it from an external environment.
The method according to claim 1,
And an opening / closing portion for controlling the opening and closing of the cover,
Wherein the opening / closing unit isolates the reference sensor and the inspection sensor from the external environment by opening or closing the cover under the control of the control unit
A sensor inspection device comprising a cover for isolating it from an external environment.

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