CN205066489U - Microwave high temperature video monitor system - Google Patents
Microwave high temperature video monitor system Download PDFInfo
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- CN205066489U CN205066489U CN201520799873.3U CN201520799873U CN205066489U CN 205066489 U CN205066489 U CN 205066489U CN 201520799873 U CN201520799873 U CN 201520799873U CN 205066489 U CN205066489 U CN 205066489U
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- liquid cooling
- video monitoring
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Abstract
The utility model discloses a microwave high temperature video monitor system, including the penetrating cavity liquid cooling piece in upper and lower both ends, the upper end of liquid cooling piece is fixed in the outside of the microwave heating chamber body, and the main part is located the internal portion of microwave heating chamber, and press in the clearance of liquid cooling piece upper end and heating cavity department and insert and fixed connection insulation construction spare, and insulation construction spare and liquid cooling piece outer wall fixed connection, still including the high temperature resistant observation window of setting in liquid cooling piece inner chamber bottom, place the permanent magnetism thin slice above high temperature resistant observation window, permanent magnetism thin slice top is provided with strong electromagnetic shield layer, is fixed with the video monitoring probe with the video acquisition headtotail above strong electromagnetic shield layer. The utility model discloses a set up insulation construction spare at liquid cooling piece outer wall to and set up strong electromagnetic shield layer, permanent magnetism thin slice at liquid cooling piece inner chamber, and realized the high temperature resistant and anti strong electromagnetic interference of video monitoring probe, can carry out real -time great region, high definition observation to microwave high temperature equipment inside.
Description
Technical field
The utility model relates to microwave strong electromagnetic wave aspect, and video real time monitoring field under multiple atmosphere environment, is specifically related to a kind of microwave high-temperature video monitoring system.
Background technology
Existing microwave high-temperature equipment is when observing material or internal high temperature district, and video image interference is large, Applicable temperature narrow range, and image-region is less, and image definition is not high.
Utility model content
The technical problems to be solved in the utility model is to provide a kind of highly reliable Online Video monitoring system being applied to microwave high-temperature and kinds of processes environment, realize the high temperature resistant and anti-strong electromagnetic of video monitoring element, and compared with the observation of large regions and higher resolution.
For solving the problems of the technologies described above, the utility model by the following technical solutions:
Microwave high-temperature video monitoring system, comprise the hollow liquid cooling part that upper and lower two ends are penetrating, the upper end of described liquid cooling part is fixed on the outside of heating using microwave cavity, the main body of liquid cooling part is positioned at heating using microwave cavity inside, press with the gap location of heating cavity in liquid cooling part upper end and insert and be fixedly connected with insulation construction part, and insulation construction part is fixedly connected with liquid cooling part outer wall; Also comprise the high temperature resistant observation window being arranged on liquid cooling part intracavity bottom, strong electromagnetic shielding construction part is set above high temperature resistant observation window, be fixed with the video monitoring be connected with video acquisition system above strong electromagnetic shielding construction part and pop one's head in.
Strong electromagnetic shielding construction part comprises permanent magnetism thin slice and strong electromagnetic screen layer, and permanent magnetism thin slice is parallel to be placed on above high temperature resistant observation window, and strong electromagnetic screen layer is arranged on above permanent magnetism thin slice, and video monitoring probe is fixed on above strong electromagnetic screen layer.
Liquid cooling part is 316 stainless steel hollow structural members, and described liquid cooling part connects cooling system by cooling tube.
The upper end of liquid cooling part is fixedly connected with 316 stainless steel welded flanges, and 316 stainless steel welded flanges are screwed and are connected to heating using microwave cavity.
Press with the gap location of heating cavity in liquid cooling part upper end and insert and be fixedly connected with insulation construction part by high-temperature plastic, and insulation construction part is fixedly connected with by high-temperature plastic with liquid cooling part outer wall.
High temperature resistant observation window is bonded in hollow liquid cooling part intracavity bottom reserved location by high-temperature resistant conducting glue; High temperature resistant observation window adopts the pyroceram of heatproof 1700 DEG C, outer plating ionic membrane.
Permanent magnetism thin slice is parallel is placed on 1 millimeter of place above high temperature resistant observation window.
Permanent magnetism thin slice employing thickness is the double-deck neodymium ferro-boron strong permanent magnetic thin slice of 0.1 millimeter.
Strong electromagnetic screen layer is threaded by the internal thread of outer silk with liquid cooling part inner chamber, and spiral is fixed to 1 millimeter of place above permanent magnetism thin slice downwards.
Video monitoring probe is fixed on 1 millimeter of place above strong electromagnetic screen layer by being socketed 316 stainless steel sealing retainer rings in the middle part of it.
The utility model is by arranging insulation construction part at liquid cooling part outer wall, and strong electromagnetic shielding construction part (comprising strong electromagnetic screen layer, permanent magnetism thin slice) is set at liquid cooling part inner chamber, achieve the high temperature resistant and anti-strong electromagnetic of video monitoring probe, comparatively large regions, high-resolution observation can be carried out in real time to microwave high-temperature device interior.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model.
In figure: 1-heating using microwave cavity; The stainless steel welded flange of 2-; 3-stainless steel sealing retainer ring; 4-video monitoring is popped one's head in; 5-strong electromagnetic screen layer; 6-liquid cooling part; 7-is high temperature resistant observation window; 8-insulation construction part; 9-permanent magnetism thin slice.
Detailed description of the invention
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.
A kind of microwave high-temperature video monitoring system of the present embodiment, comprise the hollow liquid cooling part 6 that upper and lower two ends are penetrating, the upper end of liquid cooling part 6 is fixed on the outside of heating using microwave cavity 1, and the main body of liquid cooling part 6 is positioned at heating using microwave cavity 1 inside; Press at the gap location of liquid cooling part 6 upper end and heating cavity 1 and insert insulation construction part 8(slightly elasticity), make insulation construction part 8 be fixedly connected on the gap location of liquid cooling part 6 upper end and heating cavity 1 by filling high-temperature plastic, and insulation construction part 8 is fixedly connected on liquid cooling part 6 outer wall by high-temperature plastic; Also comprise the high temperature resistant observation window 7 being arranged on liquid cooling part 6 intracavity bottom, strong electromagnetic shielding construction part is set above high temperature resistant observation window 7, strong electromagnetic shielding construction part comprises permanent magnetism thin slice 9 and strong electromagnetic screen layer 5, permanent magnetism thin slice 9 is parallel to be placed on above high temperature resistant observation window 7, strong electromagnetic screen layer 5 is arranged on above permanent magnetism thin slice 9, and video monitoring probe 4 is fixed on above strong electromagnetic screen layer 5.Video monitoring probe 4 is exported the video masking signal photographed by high temperature resistant observation window 7 to video acquisition system and processes.Wherein:
Liquid cooling part 6 adopts 316 stainless steel double layer hollow structural members, and bilayer refers to that between this structural member inner and outer wall be empty, walks heat for allowing recirculated cooling water by absorption band; Liquid cooling part 6 connects cooling system by cooling tube.Cold water inputs between liquid cooling part bilayer (inner and outer wall) by cooling tube water inlet by cooling system, and the intensification of cold water absorption heat enters cooling system cooling and becomes cold water after the discharge of cooling tube delivery port, again enters the circulation of liquid cooling part.
The upper end of liquid cooling part 6 is fixedly connected with 316 stainless steel welded flanges 2, and heating using microwave cavity 1 is reserved with screw screw, and 316 stainless steel welded flanges 2 are screwed and are connected on the reserved screw hole position of heating using microwave cavity 1.
Insulation construction part 8 is the insulation construction part adopting the aluminium oxide of content 99.9%, the mullite fiber of refractory temperature 1800 DEG C.
High temperature resistant observation window 7 is bonded in hollow liquid cooling part 6 intracavity bottom reserved location by high-temperature resistant conducting glue; High temperature resistant observation window 7 adopts the pyroceram of heatproof 1700 DEG C, outer plating ionic membrane.
Permanent magnetism thin slice 9 adopts the double-deck neodymium ferro-boron strong permanent magnetic thin slice of 0.1 mm of thickness.Permanent magnetism thin slice 9 is parallel is placed on 1 millimeter of place above high temperature resistant observation window.
Strong electromagnetic screen layer 5 adopts the many idle loops of 99.6% high purity silicon Base Metal electromagnetic shielding.Strong electromagnetic screen layer 5 is threaded by the internal thread of outer silk with liquid cooling part 6 inner chamber, and spiral is fixed to 1 millimeter of place above permanent magnetism thin slice downwards.
Video monitoring probe 4 is fixed on 1 millimeter of place above strong electromagnetic screen layer 5 by being socketed 316 stainless steel sealing retainer rings 3 in the middle part of it.
The utility model provides the Online Video supervising device for microwave high-temperature environment and the process conditions such as vacuum, atmosphere.This device, by carrying out electromagnetism interference and high temperature resistant process to traditional video monitoring system, realizes temperature less than 1800 degree, applies the Real-time high-definition observation of microwave high-temperature device interior.
Claims (10)
1. microwave high-temperature video monitoring system, it is characterized in that: comprise the hollow liquid cooling part that upper and lower two ends are penetrating, the upper end of described liquid cooling part is fixed on the outside of heating using microwave cavity, the main body of liquid cooling part is positioned at heating using microwave cavity inside, press with the gap location of heating cavity in liquid cooling part upper end and insert and be fixedly connected with insulation construction part, and insulation construction part is fixedly connected with liquid cooling part outer wall; Also comprise the high temperature resistant observation window being arranged on liquid cooling part intracavity bottom, strong electromagnetic shielding construction part is set above high temperature resistant observation window, be fixed with the video monitoring be connected with video acquisition system above strong electromagnetic shielding construction part and pop one's head in.
2. microwave high-temperature video monitoring system according to claim 1, it is characterized in that: strong electromagnetic shielding construction part comprises permanent magnetism thin slice and strong electromagnetic screen layer, permanent magnetism thin slice is parallel to be placed on above high temperature resistant observation window, strong electromagnetic screen layer is arranged on above permanent magnetism thin slice, and video monitoring probe is fixed on above strong electromagnetic screen layer.
3. microwave high-temperature video monitoring system according to claim 1, is characterized in that: liquid cooling part is 316 stainless steel hollow structural members, and described liquid cooling part connects cooling system by cooling tube.
4. microwave high-temperature video monitoring system according to claim 1, is characterized in that: the upper end of liquid cooling part is fixedly connected with 316 stainless steel welded flanges, and 316 stainless steel welded flanges are screwed and are connected to heating using microwave cavity.
5. microwave high-temperature video monitoring system according to claim 1, it is characterized in that: press with the gap location of heating cavity in liquid cooling part upper end and insert and be fixedly connected with insulation construction part by high-temperature plastic, and insulation construction part is fixedly connected with by high-temperature plastic with liquid cooling part outer wall.
6. microwave high-temperature video monitoring system according to claim 1, is characterized in that: high temperature resistant observation window is bonded in hollow liquid cooling part intracavity bottom reserved location by high-temperature resistant conducting glue; High temperature resistant observation window adopts the pyroceram of heatproof 1700 DEG C, outer plating ionic membrane.
7. microwave high-temperature video monitoring system according to claim 2, is characterized in that: permanent magnetism thin slice is parallel is placed on 1 millimeter of place above high temperature resistant observation window.
8. the microwave high-temperature video monitoring system according to claim 2 or 7, is characterized in that: permanent magnetism thin slice employing thickness is the double-deck neodymium ferro-boron strong permanent magnetic thin slice of 0.1 millimeter.
9. microwave high-temperature video monitoring system according to claim 2, is characterized in that: strong electromagnetic screen layer is threaded by the internal thread of outer silk with liquid cooling part inner chamber, and spiral is fixed to 1 millimeter of place above permanent magnetism thin slice downwards.
10. microwave high-temperature video monitoring system according to claim 2, is characterized in that: video monitoring probe is fixed on 1 millimeter of place above strong electromagnetic screen layer by being socketed 316 stainless steel sealing retainer rings in the middle part of it.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520799873.3U CN205066489U (en) | 2015-10-16 | 2015-10-16 | Microwave high temperature video monitor system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520799873.3U CN205066489U (en) | 2015-10-16 | 2015-10-16 | Microwave high temperature video monitor system |
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| Publication Number | Publication Date |
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| CN205066489U true CN205066489U (en) | 2016-03-02 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN201520799873.3U Active CN205066489U (en) | 2015-10-16 | 2015-10-16 | Microwave high temperature video monitor system |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2023173786A1 (en) * | 2022-03-14 | 2023-09-21 | 银川隆基光伏科技有限公司 | Connecting assembly, image collection apparatus and high-temperature furnace |
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2015
- 2015-10-16 CN CN201520799873.3U patent/CN205066489U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO2023173786A1 (en) * | 2022-03-14 | 2023-09-21 | 银川隆基光伏科技有限公司 | Connecting assembly, image collection apparatus and high-temperature furnace |
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