KR0132995Y1 - Vacuum level tester of vacuum insulator - Google Patents

Abstract

The present invention relates to a vacuum inspection apparatus for inspecting the vacuum degree of the vacuum insulator, the lower case 15, the lower case 15 is mounted to be opened and closed by a hinge 56 to form a vacuum chamber 40 A piezoelectric element disposed in the upper cover 44, the vacuum pump 54 for reducing the vacuum degree in the vacuum chamber 40 to a predetermined level or less, and the lower case 15 to detect whether the vacuum insulator 30 is placed. Pressure sensor for detecting the degree of vacuum of the vacuum insulator 30, the sensor 42, the bracket 50 disposed on the upper cover 44 via the support 46, and the bracket 50 disposed on the bracket 50 to detect the degree of vacuum. The vacuum insulator detected by the sensor 48 and the vacuum degree detecting sensor 60 for detecting the degree of vacuum in the vacuum chamber 40, the piezoelectric sensor 42, the vacuum degree detecting sensor 60 and the pressure detecting sensor 48, respectively. Receives the mounting signal of the 30, the vacuum detection signal in the vacuum chamber 40 and the vacuum signal of the vacuum insulator 30 The controller 58 for determining the defective quality of the Arthur vacuum insulator 30, the presence or absence of the vacuum insulator 30 output from the controller 58, the degree of vacuum in the vacuum chamber 40 and the vacuum insulator 30 Characterized in that it comprises a display means for displaying the degree of vacuum.

The vacuum degree test apparatus of the vacuum insulator according to the present invention configured as described above can inspect the vacuum degree of the vacuum insulator in a short time and can easily remove the vacuum insulator having poor vacuum degree.

Description

Vacuum Insulation Tester of Vacuum Insulator

1 is a perspective view of a conventional vacuum inspection device.

2 is a perspective view of the vacuum insulator before the vacuum insulator is placed in the inspection apparatus of the vacuum insulator according to one embodiment of the present invention;

3 is a perspective view of the vacuum insulator after the vacuum insulator is placed in the vacuum insulator according to the embodiment of the present invention.

Figure 4 is a control block diagram for controlling the vacuum degree inspection apparatus of the present invention.

Figure 5 is a flow chart illustrating the operation of the vacuum inspection apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

15: lower case 28: vacuum degree inspection device

30: vacuum insulator 40: vacuum chamber

42: piezoelectric sensor 44: upper cover

46: support 48: pressure sensor

50: bracket 54: vacuum pump

The present invention relates to a vacuum degree checking device for checking the vacuum degree of the vacuum insulator.

In general, a vacuum insulator used as a heat insulator is composed of a filler such as a fine inorganic oxide and a barrier film for packing the filler, and one of the most important factors for determining the heat insulation performance of the vacuum insulator is vacuum. To keep.

The conventional vacuum degree inspection apparatus 2 is comprised as shown in FIG. The vacuum tester 8 of the vacuum insulator 1 stops the decompression when the predetermined pressure is reached by the chamber 9 and the pressure switch 10 disposed in the chamber 9 and the pressure switch 10. The decompression device 11 is provided. In addition, when a predetermined pressure is reached in conjunction with the operation of the pressure switch 10 and the detection device 12 for detecting the expansion change amount of the container 2 of the vacuum insulator 1 provided in the chamber 9, A display portion 13 is provided which lights up a lamp when the magnitude of the expansion change amount is 4 mm or more.

The chamber 9 is divided into upper and lower containers 14 and 15 so that the upper container 14 moves up and down to open and close. Moreover, the detection apparatus 12 has the pulley 19 and this pulley 19 which suspended the sensor side weight 16 at the both ends, and the thread 18 which connected 5-10 g weights from this sensor side weight 16. The detector 20 detects the rotational angle of and the calculator 21 which has a calculation circuit and converts the rotational angle of the pulley 19 into the amount of movement of the sensor side weight 17 is comprised. In Figure 1, 21 is a calculator.

The vacuum insulator for the vacuum insulator configured as described above has the vacuum insulator 1 placed in the chamber 9, and the inside of the vacuum insulator 1 is reduced by depressurizing the inside of the chamber 9 by the pressure reducing device 11. Since the decompression degree is maintained, the container 2 of the vacuum insulator 1 expands in a large balloon shape at the moment when the pressure inside the chamber 9 becomes lower than the internal decompression degree, and the thickness thereof changes. This expansion displacement is detected by the inspection device 12.

That is, as the container 2 expands, the sensor side weight 16 rises on the container 2 so that the pulley 19 rotates in response to the movement amount of the sensor side weight 16, and this rotation angle is measured by the detector ( 20 is detected and converted by the calculator 21 as a placement movement amount. When the pressure in the chamber 9 reaches a predetermined pressure level, the pressure switch 10 operates to stop the pressure reducing device 11, and simultaneously displays the amount of expansion change measured by the detection device 12. 13). As a result, the lamp is turned on in case of expansion change of 4 mm or more.

Therefore, when the internal pressure of the vacuum insulator 1 is higher than the predetermined pressure, the container 2 expands more than a predetermined size, so that the lamp of the display portion 13 lights up, and conversely, if the pressure is low, the lamp of the display portion 13 Does not light up.

Therefore, by reading the lamp lighting of the display portion, it is possible to determine whether the internal pressure of the vacuum insulator 1 is higher or lower than the predetermined pressure. By doing in this way, the defective article of vacuum leakage of a package or lack of pressure reduction can be determined.

However, the vacuum inspection apparatus for detecting the vacuum in the vacuum insulator configured as described above has a problem that it takes a long time vacuum inspection time, there is a problem that it is difficult to process the defective product.

The present invention is devised to solve the above-mentioned problems of the prior art, and an object of the present invention is to provide a vacuum insulator capable of easily inspecting the vacuum degree of a vacuum insulator at a short time and at the same time easily removing defective products. The present invention provides a vacuum inspection apparatus.

In order to achieve the above object, the vacuum insulation inspection device of the vacuum insulator according to the present invention includes a lower case, an upper cover which is mounted to be opened and closed by a hinge on the lower case, and forms a vacuum chamber, and the degree of vacuum in the vacuum chamber is lower than a predetermined level. A vacuum pump to depressurize, a piezoelectric sensor disposed in the lower case to detect whether the vacuum insulator is placed, a bracket disposed through a support on the upper cover, and a vacuum degree of the vacuum insulator disposed on the bracket. A pressure detection sensor for detecting a pressure and a vacuum degree detection sensor for detecting a degree of vacuum in the vacuum chamber, a mounting signal of a vacuum insulator detected by the pressure sensor vacuum degree detection sensor and a pressure detection sensor, respectively, a vacuum degree detection signal in a vacuum chamber and A controller which receives the vacuum degree signal of the vacuum insulator and discriminates the defective products of the vacuum insulator; The presence or absence of output vacuum insulating material, and is characterized by being a display means for displaying the degree of vacuum of the vacuum chamber and the vacuum degree of the vacuum insulating material.

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

2 is a perspective view of the vacuum insulator after the vacuum insulator is placed in the vacuum inspection apparatus according to an embodiment of the present invention, and FIG. 4 is a control block diagram for controlling the vacuum pump of the present invention.

As shown in FIGS. 2 to 4, the piezoelectric sensor 42 detects whether the vacuum insulator 3 is placed on the bottom surface of the lower case 15 in the vacuum chamber 40 of the vacuum degree testing apparatus 28. Is disposed, and the inner surface of the upper cover 44 constituting the vacuum chamber 40 is provided with a bracket 50 to which the pressure sensor 48 is mounted via a support 46. The pressure sensor 48 detects the degree of vacuum in the vacuum insulator 30 that expands or contracts according to an increase or decrease in pressure in the vacuum chamber 40.

On the other hand, a vacuum pump 54 connected to the pipe 52 is disposed on one outer circumferential surface of the upper cover 44 to reduce the vacuum in the vacuum chamber 40 of the vacuum degree test apparatus 28.

In the above description, the upper cover 44 of the vacuum degree tester 28 is attached to the lower case 15 by a hinge 56 so as to be openable and closed with respect to the lower case 15.

In addition, a tray (not shown) for collecting defective items exceeding an appropriate pressure of the vacuum insulator 30 by the piezoelectric sensor 42 is provided at one side of the vacuum insulator 28 of the vacuum insulator 30. It is provided, and a conveyor line (not shown) is also provided in the lower end part of the said vacuum degree test apparatus 28. As shown in FIG.

In addition, as shown in FIG. 4, when the vacuum insulator 30 is placed, the piezoelectric sensor 42 detects the vacuum insulator 30 and inputs the symbol into the controller 58. The controller 58 outputs a drive signal to the vacuum pump 54 to drive the vacuum pump 54. At this time, the degree of vacuum of the vacuum chamber 40 is detected by the sensor 60 and input to the controller 58.

When the degree of vacuum in the vacuum chamber 40 is reduced to a predetermined level or less by the action of the vacuum pump 54, the vacuum insulator is stopped by the pressure sensor 48 while the driving of the vacuum pump 54 is stopped. The vacuum theory of 30 is detected and input to the controller 58.

The controller 58 detects the presence or absence of a vacuum insulator 30 detected by the piezoelectric sensor 11 and the vacuum and pressure sensors 12 in the vacuum chamber 40 detected by the vacuum degree detection sensor 60. The degree of vacuum in the detected vacuum chamber 40 and the measured pressure signal of the vacuum insulator 30 detected by the pressure sensor 12 are received, and the signal is output to the display means 62 for display.

The operation of the vacuum inspection apparatus 28 of the vacuum insulator 30 configured as described above will be described with reference to FIG. Figure 4 is a flow chart illustrating the operation of the vacuum tester according to the present invention.

First, when the vacuum insulator 30 is placed (detected) on the piezoelectric sensor 42 in the vacuum chamber 40 in step S1, and the vacuum insulator 30 is placed between the piezoelectric sensors 42. (YES), the detection signal of the vacuum insulator 30 detected by the piezoelectric sensor 42 is output to the controller 58, and the process proceeds to step S2, where the upper cover 44 of the vacuum degree test apparatus 28 is detected. ). On the other hand, when the vacuum insulator 30 is not placed on the piezoelectric sensor 42, the process returns to step S1 and the operation of step S1 or less is repeated.

Next, the flow proceeds to step S3 to output the drive signal from the controller 58 to the vacuum pump 54, and drives the vacuum pump 54 to depressurize the inside of the vacuum chamber 40, and proceeds to step S4 to the vacuum chamber 40. The degree of vacuum inside is detected by the vacuum degree detecting sensor 60 and output to the controller 58. The controller 58 receives the vacuum degree signal in the vacuum chamber 40 detected by the vacuum degree detecting sensor 60 and determines whether the vacuum degree in the vacuum chamber 40 is decompressed to a predetermined level or less, thereby determining the vacuum degree in the vacuum chamber 40. If the pressure is reduced below a predetermined level (YES), the flow proceeds to step S5 to output the pressure of the vacuum insulator 30 detected by the pressure sensor 42 to the controller 58, whereby the controller 58 detects it. It is discriminated whether or not the pressure of the vacuum insulator 30 thus obtained is smaller than the reference pressure previously stored in the controller 58.

If the measured pressure detected by the pressure detecting sensor 48 is less than the reference pressure (YES) as a result of the determination in step S5, the vacuum insulator 30 is good, and the flow proceeds to step S6 to determine the vacuum degree test apparatus 28. Open the top cover 44 of the), and drop the vacuum insulator 30 to the conveyor line. Thereafter, the process proceeds to step S7, whereby the vacuum insulator 30 is moved to the next step along the conveyor line, thereby terminating the inspection of the vacuum insulator 30.

On the other hand, in step S4, when the vacuum degree in the vacuum chamber 40 is not reduced to a predetermined level or less, the flow returns to step S3, and the operation of step S3 or less is repeated.

When the measured pressure detected by the pressure sensor 48 in step S5 is higher than the reference pressure previously stored in the controller 58 (NO), the vacuum insulator 30 is defective and the flow goes to step S8. Furthermore, it collects in the tray which is not shown in figure, and the test | inspection of the vacuum heat insulating body 30 is complete | finished.

As described above, according to the vacuum degree test apparatus of the vacuum insulator according to the present invention, since the vacuum degree test is detected by the pressure sensor, it is a very practical design that can be detected in a short time.

Claims (1)

A lower cover 15, an upper cover 44 mounted on the lower case 15 to be opened and closed by a hinge 56 to form a vacuum chamber 40, and a degree of vacuum in the vacuum chamber 40 below a predetermined level. A vacuum pump 54 for reducing the pressure, a piezoelectric sensor 42 disposed on the lower case 15 to detect whether the vacuum insulator 30 is mounted, and a support 46 through the upper cover 44. And a vacuum sensor for detecting the degree of vacuum in the vacuum chamber 40 and a pressure sensor 48 for detecting the degree of vacuum of the vacuum insulator 30, which is disposed in the bracket 50 and the bracket 50. 60), the placing signal of the vacuum insulator 30 detected by the piezoelectric sensor 42, the vacuum degree detecting sensor 60 and the pressure detecting sensor 48, the vacuum degree detecting signal in the vacuum chamber 40, and the vacuum insulator A controller 58 which receives the degree of vacuum signal of 30 and discriminates the defective products of the vacuum insulator 30; and the controller 58 And a display means for displaying the presence or absence of the vacuum insulator (30), the vacuum degree in the vacuum chamber (40) and the vacuum degree of the vacuum insulator (30).