CN102062666B - Vacuum degree detecting method and device for vacuum heat insulating plate - Google Patents

Abstract

The invention relates to a vacuum degree detecting method and device for a vacuum heat insulating plate. The vacuum degree detecting method comprises the following steps of: positioning the local part of a vacuum seal plate between an upper seal cavity and a lower seal cavity; selecting a part of a surface film layer of the vacuum seal plate positioned between the upper seal cavity and the lower seal cavity as a detecting point of a vacuum pressure sensor; simultaneously evacuating the upper seal cavity and the lower seal cavity; inputting displacement generated by the deformation of the detecting point through a laser displacement detector and pressure change in the seal cavities, which is detected by the vacuum pressure sensor, into an X-Y function recorder; and observing curve mutation in the X-Y function recorder, wherein a vacuum degree corresponding to a mutation point can be considered to be the vacuum degree in a vacuum seal plate. By building an environment which is balanced with the internal pressure of the vacuum heat insulating plate outside the vacuum heat insulating plate and obtaining a pressure value in the vacuum heat insulating plate by testing the pressure of the external environment, the vacuum heat insulating plate is not damaged, the detecting process is realized rapidly and conveniently, and figures are visually read by an instrument.

Description

The vacuum insulation panel vacuum-ness detecting device

Technical field

The present invention relates to the vacuum insulation panel vacuum-ness detecting device.

Background technology

Vacuum insulation panel is to be made up of Aluminum-plastic composite bag and the cotton plate of ultra-fine fibre glass and the getter that are in the Aluminum-plastic composite bag, owing to can avoid cross-ventilation to conduct heat effectively, so coefficient of heat conductivity is very low, is a kind of thermal insulation material.The performance of vacuum heat-insulating plate and the length in serviceable life; The height that depends on the vacuum heat-insulating plate internal vacuum to a great extent; So the vacuum tightness of vacuum heat-insulation intralamellar part is very important index of one of vacuum insulation panel quality; In case but behind the present vacuum heat-insulation disc seal, can't test its internal vacuum again.Though can on-line testing in the process that vacuumizes, when sealing, very difficult assurance does not have little air and gets into, so between the practical vacuum degree of online vacuum tightness that records and the vacuum insulation panel that dispatches from the factory error may be arranged.Because between the vacuum tightness of vacuum insulation panel and the coefficient of heat conductivity of vacuum insulation panel is corresponding; The high more then coefficient of heat conductivity of vacuum tightness is low more; Be to check the quality of vacuum insulation panel to the vacuum insulation panel that dispatches from the factory at present through testing its coefficient of heat conductivity; But the time of the coefficient of heat conductivity testization expense of a vacuum insulation panel will reach 2～3 hours, and process is more loaded down with trivial details.

Summary of the invention

The objective of the invention is to propose a kind of fast, convenient, vacuum insulation panel vacuum-ness detecting device intuitively.

For reaching the purpose of vacuum insulation panel vacuum-ness detecting device proposed by the invention, the technical scheme that the present invention takes is following: the present invention has monitor station, laser displacement detector, vacuum pressure sensor, X-Y function recording instrument, vacuum pump, and said monitor station is fixed on the base; Also be fixed with the swing arm frame on the base, the upper surface of said monitor station is provided with groove, forms the lower seal chamber; A hinged swing arm on the swing arm frame; Be fixed with seal head in the swing arm, the bottom surface of seal head is provided with groove, annular seal space in the formation; Upper and lower annular seal space is connected with said vacuum pump through upper and lower flexible pipe respectively; The upper surface of said monitor station and be fixed with lower seal around lower seal chamber opening is fixed with O-ring seal on the bottom surface of described seal head and around last annular seal space opening, and last O-ring seal and lower seal are relative; Said laser displacement detector is fixed on the medicephalic top of sealing by support, and a vacuum pressure sensor is connected with last annular seal space through top hose, and each is connected above-mentioned laser displacement detector and vacuum pressure sensor with the X-Y function recording instrument by lead.

The present invention has following good effect: the present invention is through building an environment with vacuum insulation panel internal pressure balance in that vacuum insulation panel is outside; Pressure through the test for external environment obtains vacuum insulation panel pressure inside value; So do not destroy vacuum insulation panel; Testing process fast, convenient, through instrument reading number intuitively.The apparatus structure that the present invention proposes is simple, easy to operate.

Description of drawings

For content of the present invention is more clearly understood,, the utility model is done further detailed explanation below according to specific embodiment and combine accompanying drawing.

Fig. 1 is the configuration diagram of vacuum-ness detecting device.

Fig. 2 is that the X-Y function recording instrument shows curve map.

Embodiment

Embodiment

The vacuum detecting method of the vacuum insulation panel that the present invention proposes is to be in the part of vacuum insulation panel between the upper and lower annular seal space; Selection is in the sensing point of surperficial book rete one position of the vacuum insulation panel between the upper and lower annular seal space as vacuum pressure sensor; Upper and lower annular seal space is vacuumized simultaneously; The deformation that the surperficial book rete of vacuum insulation panel can take place outwards to heave; By the laser displacement detector record displacement that sensing point produces because of deformation and the annular seal space that records by vacuum pressure sensor in pressure change and all import in the X-Y function recording instrument, the X-Y function recording instrument shows pressure decline change curve; When vacuum tightness in the upper and lower annular seal space and the vacuum tightness balance in the vacuum insulation panel, displacement no longer increases, and in the X-Y function recording instrument, can observe pressure decline change curve and undergo mutation.The corresponding vacuum tightness of sudden change place can be thought the vacuum tightness in the vacuum insulation panel, but concrete corresponding point are not easy to confirm.Close vacuum pump, annular seal space is slowly inflated, at this moment in the X-Y function recording instrument, observing the second curve is pressure rise change curve, and the corresponding vacuum tightness value in the intersection point of two curves or point of contact promptly is the vacuum tightness in the vacuum insulation panel.

See Fig. 1, the vacuum-ness detecting device of the vacuum insulation panel that the present invention proposes has monitor station 2, laser displacement detector 6, vacuum pressure sensor 7, X-Y function recording instrument, vacuum pump; Said monitor station 2 is fixed on the base 1; Also be fixed with swing arm frame 3 on the base 1, the upper surface of said monitor station 2 is provided with groove, forms lower seal chamber 2-1; Pass through bearing pin 11 hinged swing arms 4 on the swing arm frame 3; Be fixed with seal head 5 in the swing arm 4, the bottom surface of seal head 5 is provided with groove, annular seal space 5-1 in the formation; Upper and lower annular seal space 5-1,2-1 are connected with said vacuum pump through upper and lower flexible pipe 8-2,8-1 respectively; The upper surface of said monitor station 2 and be fixed with lower seal 9-1 around lower seal chamber 2-1 opening is fixed with O-ring seal 9-2 on the bottom surface of described seal head 5 and around last annular seal space 5-1 opening, and last O-ring seal 9-2 is relative with lower seal 9-1; Said laser displacement detector 6 is fixed on the top of seal head 5 centers by support 10; One vacuum pressure sensor 7 is connected with last annular seal space 5-1 through top hose 8-2, and above-mentioned laser displacement detector 6 respectively is connected with the X-Y function recording instrument by lead with vacuum pressure sensor 7.

The operation that utilizes the vacuum tightness of carrying out vacuum insulation panel of above-mentioned vacuum-ness detecting device to detect is following: be placed on vacuum insulation panel A on the monitor station 2; Seal head 5 closes; The middle part of vacuum insulation panel A is between the upper and lower annular seal space; Owing to the setting of last O-ring seal 9-2 and lower seal 9-1, guarantee the sealing property of upper and lower annular seal space.Open laser displacement detector 6 and vacuum pressure sensor 7, start vacuum pump, open evacuating valve, upper and lower annular seal space is vacuumized, the X-Y function recording instrument shows pressure decline change curve; After the pressure decline change curve of observing the X-Y function recording instrument is undergone mutation; Close evacuating valve; The slow tonifying Qi of annular seal space; The X-Y function recording instrument shows pressure rise change curve, and the corresponding vacuum tightness value in the intersection point of pressure decline change curve and pressure rise change curve or point of contact promptly is the vacuum tightness in the vacuum insulation panel.Fig. 2 is that the X-Y function recording instrument shows curve map, and the curve on the left side is a pressure rise change curve, and the curve on the right is a pressure rise change curve.

Claims (1)

1. vacuum insulation panel vacuum-ness detecting device; It is characterized in that: have monitor station (2), laser displacement detector (6), vacuum pressure sensor (7), X-Y function recording instrument, vacuum pump, said monitor station (2) is fixed on the base (1), also is fixed with swing arm frame (3) on the base (1); The upper surface of said monitor station (2) is provided with groove; Form lower seal chamber (2-1), swing arm frame (3) is gone up a hinged swing arm (4), is fixed with seal head (5) in the swing arm (4); The bottom surface of seal head (5) is provided with groove; Annular seal space in the formation (5-1), upper and lower annular seal space (5-1,2-1) are connected with said vacuum pump through upper and lower flexible pipe (8-2,8-1) respectively, the upper surface of said monitor station (2) and center on lower seal chamber (2-1) opening and be fixed with lower seal (9-1); Be fixed with O-ring seal (9-2) on the bottom surface of described seal head (5) and around last annular seal space (5-1) opening, last O-ring seal (9-2) is relative with lower seal (9-1); Said laser displacement detector (6) is fixed on the top of seal head (5) center by support (10); One vacuum pressure sensor (7) is connected with last annular seal space (9-2) through top hose (8-2), and each is connected above-mentioned laser displacement detector (6) and vacuum pressure sensor (7) with the X-Y function recording instrument by lead.

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