CN106454047A - Industrial explosion-proof camera and work method thereof - Google Patents
Industrial explosion-proof camera and work method thereof Download PDFInfo
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- CN106454047A CN106454047A CN201610954375.0A CN201610954375A CN106454047A CN 106454047 A CN106454047 A CN 106454047A CN 201610954375 A CN201610954375 A CN 201610954375A CN 106454047 A CN106454047 A CN 106454047A
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- explosion
- proof
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/50—Constructional details
- H04N23/51—Housings
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/50—Constructional details
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/60—Control of cameras or camera modules
- H04N23/66—Remote control of cameras or camera parts, e.g. by remote control devices
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/18—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast
- H04N7/183—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast for receiving images from a single remote source
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- Engineering & Computer Science (AREA)
- Multimedia (AREA)
- Signal Processing (AREA)
- Studio Devices (AREA)
Abstract
The invention discloses an industrial explosion-proof camera and a work method thereof. The industrial explosion-proof camera is formed by explosion-proof glass, an explosion-proof housing, explosion-proof lines, a tail-end stopper, a support frame and an end stopper. One end of the support frame is provided with the tail-end stopper, and the other end thereof is provided with the end stopper; the explosion-proof housing is arranged on the support frame; the explosion-proof housing is hinged with the support frame; one end of the explosion-proof housing is provided with the explosion-proof glass, and the other end thereof is provided with the explosion-proof lines; and the explosion-proof glass is in threaded connection with the explosion-proof housing. The industrial explosion-proof camera is compact in structure and small in space requirement; an internal integrated module controller adopts advanced 3D digital noise reduction technology and increases noise reduction processing for an original signal, thereby greatly improving imaging effect; the device is wide in monitoring range, has a multi-angle and multi-azimuth monitoring function and provides mobile phone monitoring and computer remote monitoring; and the operation performance of the device is improved.
Description
Technical field
The invention belongs to anti-explosion safety apparatus field and in particular to a kind of industry explosion-proof camera shooting instrument.
Background technology
Explosion-proof video camera is increasingly popularized as specialities, range of application.So-called explosion-proof video camera it is simply that
A kind of special type video camera that developed to realize applicable industry TV in inflammable and explosive site environment.Although it is explosion-proof
Video camera has obtained comparing being widely applied at present, but the selection of explosion-proof video camera and installation still have considerable details
Should be noted and clarify.
Many industrial enterprises of the country such as oil, chemical industry, coal and scientific research, military affairs or research department, in experiment, produce, add
In work, transport and storing process, often may leakage and various inflammable, explosion hazard gases, liquid and the various powder of shedding that overflow
Dirt and fiber, after this kind of material is mixed with air, will become the easy dangerous mixtures that blast occurs, the place of surrounding also just becomes
Different degrees of explosion hazard area.In order to realize applicable industry TV monitoring and controlling in inflammable and explosive site environment, explosion-proof take the photograph
Camera just arises at the historic moment.Explosion-proof video camera also starts to widely use in every field therewith.It should be noted that with electronics work
The common situation of industry is different, and the explosion-proof video camera development of China is quite early in terms of time in international counterparts industry, with regard to skill
For art level, it is also to be no less than same kind of products at abroad all the time.
The structure that traditional explosion-proof head, explosion-proof camera shooting instrument and explosion-proof decoder connect for split, line is exposed at flame proof
Outside cavity, and have the shortcomings that volume is big, limited from great, by visual angle, some places cannot use.And intelligent function is few,
As multiple kinds, presetting bit such as set, follow the tracks of at a high speed at the deficient function, requirement of explosion proof particularly explosive-proof grade is extremely difficult to
IIC level.
Content of the invention
In order to solve above-mentioned technical problem, the present invention provides a kind of industry explosion-proof camera shooting instrument, including:Implosion guard 1, explosion-proof
Housing 2, explosion-proof line 3, tail end stop 4, bracing frame 5, end stop 6;Support frame as described above 5 one end is provided with tail end stop 4,
Bracing frame 5 other end is provided with end stop 6;Described explosion-proof casing 2 is located at bracing frame 5 top, and explosion-proof casing 2 is cylindrical,
Material is 304 stainless steels, explosion-proof casing 2 and bracing frame 5 chain connection;Described explosion-proof casing 2 one end is provided with implosion guard 1, separately
One end is provided with explosion-proof line 3, and wherein implosion guard 1 is threadeded with explosion-proof casing 2, explosion-proof line 3 and explosion-proof casing 2 insertion.
Further, described explosion-proof casing 2 includes:Camera lens 2-1, image processing module 2-2, fixed plate 2-3, main radiator
2-4, integration module controller 2-5, internal electric source 2-6, secondary radiator 2-7, rear cover assembly 2-8;Before described explosion-proof casing 2 inside
End is provided with camera lens 2-1, and camera lens 2-1 is fixedly connected with explosion-proof casing 2;Described image processing module 2-2 is located at camera lens 2-1 rear end,
Wherein image processing module 2-2 rear end is provided with fixed plate 2-3, and image processing module 2-2 is threadeded with fixed plate 2-3;Described
Integration module controller 2-5 is located at explosion-proof casing 2 inside center, and wherein integration module controller 2-5 front end is provided with main radiator
2-4, integration module controller 2-5 rear end is provided with internal electric source 2-6, and main radiator 2-4 is solid with integration module controller 2-5 screw thread
Fixed;Described secondary radiator 2-7 internally positioned power supply 2-6 rear end, wherein secondary radiator 2-7 rear end are provided with rear cover assembly 2-8, secondary scattered
Hot device 2-7 is threadeded with rear cover assembly 2-8;
Described camera lens 2-1, image processing module 2-2 and internal electric source 2-6 are all controlled by wire and integration module controller 2-5
It is connected.
Further, described main radiator 2-4 includes:Heat-conducting block 2-4-1, fixed lug 2-4-2, copper pipe 2-4-3, radiating
Piece 2-4-4;Described main radiator 2-4 bottom both sides are provided with fin 2-4-4, and fin 2-4-4 material is aluminium alloy;Described scattered
Backing 2-4-4 center is connected with copper pipe 2-4-3, and the wherein copper pipe 2-4-3 other end is provided with heat-conducting block 2-4-1, and heat-conducting block 2-4-1 pushes up
End is disposed with fixed lug 2-4-2, and fixed lug 2-4-2 is threadeded with integration module controller 2-5.
Further, described rear cover assembly 2-8 includes:Secondary radiator fixing bolt 2-8-1, bonnet fixing screwed hole 2-8-
2, sealing ring 2-8-3, explosion-proof wire seal hole 2-8-4;Described rear cover assembly 2-8 medial center has been evenly arranged explosion-proof wire seal hole
2-8-4 and secondary radiator fixing bolt 2-8-1, explosion-proof wire seal hole 2-8-4 quantity is 5, secondary radiator fixing bolt 2-8-1
Quantity is 3;Described rear cover assembly 2-8 end face has been evenly arranged bonnet fixing screwed hole 2-8-2, bonnet fixing screwed hole 2-8-
2 quantity are 6;Described sealing ring 2-8-3 is located between explosion-proof wire seal hole 2-8-4 and bonnet fixing screwed hole 2-8-2, sealing
Circle 2-8-3 is NBR nitrile rubber sealing ring.
Further, support frame as described above 5 includes:Spur rack 5-1, Z axis rotary drive motor 5-2, Y-axis rotary support 5-
3, Z axis rotary support 5-4, X-axis displacement drive motor 5-5, Y-axis rotary drive motor 5-6, X-axis displacement bearing 5-7;Described X-axis
Displacement bearing 5-7 is located at spur rack 5-1 upper end, and X-axis displacement bearing 5-7 is rolled with spur rack 5-1 and is connected, wherein X-axis position
Move bearing 5-7 bottom side and be provided with X-axis displacement drive motor 5-5;Described X-axis displacement bearing 5-7 upper end is provided with Z axis rotary support
5-4, wherein X-axis displacement bearing 5-7 and Z axis rotary support 5-4 chain connection;Described Z axis rotary support 5-4 inner opposite end is provided with
Z axis rotary drive motor 5-2, lateral ends are provided with Y-axis rotary drive motor 5-6;Described Y-axis rotary support 5-3 is located at Z axis and revolves
Turn bearing 5-4 upper end, Y-axis rotary support 5-3 and Z axis rotary support 5-4 chain connection;
Described Z axis rotary drive motor 5-2, X-axis displacement drive motor 5-5 and Y-axis rotary drive motor 5-6 all by wire with
Integration module controller 2-5 controls connected.
Further, described heat-conducting block 2-4-1 is molded by macromolecular material pressing mold, the constituent of heat-conducting block 2-4-1 and
Manufacture process is as follows:
First, heat-conducting block 2-4-1 constituent:
Count by weight, 2- ethyl -2- [(2- vinyl epoxide) methyl] 55~102 parts of -1,3-PD, 1,2- hexamethylene
64~132 parts of dioctyl phthalate -2- (2- acryloyl group) oxygen ethyl monoesters, (1R) -2,2- dimethyl -3- (2- methyl-1-propylene base)
Cyclopropane-carboxylic acid-(S) -2- methyl -3- (2- propargyl) -4- oxo -43~92 parts of ring amyl- 2- alkenyl esters, 1- is to (2- methoxy second
Base) 36~84 parts of phenoxy group -3- isopropylamino -2- propyl alcohol, (1R)-trans -2,2- dimethyl -3- (2- methyl-1-propylene base) -
69~136 parts of cyclopropane-carboxylic acid -3- phenoxy benzyl ester, (1R, S) is suitable, trans -2,2- dimethyl -3- (2- methyl-1-propylene
Base) 88~170 parts of cyclopropane-carboxylic acid-m- phenoxy group ester, concentration is the alpha-acetamido-β-[4- (1,2- of 48ppm~87ppm
Dihydro -2- thioquinoline)] 41~113 parts of ethyl propionate, 3- [(1- butyl -1,2- dihydro -4- hydroxyl -2- oxo -3- quinoline
Base) azo] -5- chlorine-2-hydroxyl -63~126 parts of benzene sulfonic acid, (RS) -2- [4- (6- chloro-quinoxaline -2- epoxide) phenoxy group] third
81~183 parts of acid -2- tetrahydrofuran methyl ester, 96~167 parts of crosslinking agent, 2- (2- (4- (6- chloroquinoxalin-2-yloxy) benzene oxygen
Base) propionyloxy) 39~92 parts of-butenoate, 2- [4- (2,2- dichloro cyclopropyl) phenoxy group] -2 Methylpropionic acid 71~173
Part, 2- (4- (2,4- dichlorophenoxy) phenoxy group) 36~88 parts of methyl propionate, the double ((5- of 4- (1,1- dimethyl ethyl) -2,6-
(1,1- dimethyl ethyl) -2- hydroxy phenyl) methyl) 116~196 parts of phenol;
Described crosslinking agent be 2 hydroxybenzoic acid -4- (1,1- dimethyl ethyl) phenylester, 2 Methylpropionic acid -1,1- dimethyl -
Any one in 3- phenyl propyl ester, 1,1- dimethyl -3- phenyl propanol acetic acid esters;
2nd, the manufacture process of heat-conducting block 2-4-1, comprises the steps of:
1st step:Add 1460~2680 parts of the ultra-pure water that electrical conductivity is 3.12 μ S/cm~6.45 μ S/cm in a kettle., start
Agitator in reactor, rotating speed is 94rpm~153rpm, starts heat pump, makes reactor temperature rise to 72 DEG C~106
℃;Sequentially add 2- ethyl -2- [(2- vinyl epoxide) methyl] -1,3- propane diols, 1,2- cyclohexane cyclohexanedimethanodibasic -2- (2- third
Enoyl-) oxygen ethyl monoesters, (1R) -2,2- dimethyl -3- (2- methyl-1-propylene base) cyclopropane-carboxylic acid-(S) -2- methyl -3-
(2- propargyl) -4- oxo-ring amyl- 2- alkenyl esters, stirs to being completely dissolved, and adjusting pH value is 7.8~9.2, and agitator is turned
Velocity modulation is 113 DEG C~176 DEG C to 124rpm~195rpm, temperature, esterification 16~34 hours;
2nd step:Take 1- to (2- methoxyethyl) phenoxy group -3- isopropylamino -2- propyl alcohol, (1R)-trans -2,2- dimethyl -3-
(2- methyl-1-propylene base)-cyclopropane-carboxylic acid -3- phenoxy benzyl ester is pulverized, and powder diameter is 800~1300 mesh;Plus
Enter that (1R, S) is suitable, trans -2,2- dimethyl -3- (2- methyl-1-propylene base) cyclopropane-carboxylic acid-m- phenoxy group ester mixes,
Be laid in pallet, tiling thickness be 30mm~50mm, using dosage be 7.3kGy~8.6kGy, energy be 6.0MeV~
The alpha ray irradiation of 12.0MeV 90~150 minutes, and the β x ray irradiation x of Isodose 90~150 minutes;
3rd step:It is dissolved in alpha-acetamido-β-[4- (1,2- dihydro -2- thioquinoline)] propionic acid through the mixed-powder that the 2nd step is processed
In ethyl ester, add reactor, agitator speed is 123rpm~189rpm, temperature is 120 DEG C~168 DEG C, starting vavuum pump makes
The vacuum of reactor reaches -0.15MPa~1.85MPa, keeps this state response 20~40 hours;Pressure release is simultaneously passed through radon gas,
Reacting kettle inner pressure is made to be 0.85MPa~1.40MPa, insulation standing 12~24 hours;Agitator speed be promoted to 220rpm~
290rpm, simultaneous reactions kettle pressure release to 0MPa;Sequentially add 3- [(1- butyl -1,2- dihydro -4- hydroxyl -2- oxo -3- quinoline
Base) azo] -5- chlorine-2-hydroxyl-benzene sulfonic acid, (RS) -2- [4- (6- chloro-quinoxaline -2- epoxide) phenoxy group] propionic acid -2- tetrahydrochysene furan
After furfuryl ester is completely dissolved, add crosslinking agent stirring mixing so that reactor solution hydrophilic lipophilic balance be 3.2~
6.5, insulation standing 8~16 hours;
4th step:When agitator speed is for 264rpm~358rpm, sequentially add 2- (2- (4- (6- chloroquinoxalin-2-yloxy)
Phenoxy group) propionyloxy)-butenoate, 2- [4- (2,2- dichloro cyclopropyl) phenoxy group] -2 Methylpropionic acid, 2- (4- (2,4-
Dichlorophenoxy) phenoxy group) double ((5- (1,1- the dimethyl ethyl) -2- of methyl propionate and 4- (1,1- dimethyl ethyl) -2,6-
Hydroxy phenyl) methyl) phenol, so as to reach 1.46MPa~2.18MPa, temperature is 253 DEG C~312 to lifting reactor pressure
DEG C, polymerisation 12~24 hours;After the completion of reaction, reacting kettle inner pressure is down to 0MPa, is cooled to 15 DEG C~30 DEG C, discharging,
Enter molding press and can be prepared by heat-conducting block 2-4-1.
Further, the invention also discloses a kind of method of work of industry explosion-proof camera shooting instrument, the method includes following several
Individual step:
1st step:After this device switches on power, you can carry out remote control;When this device receives user instruction, now explosion-proof
Integration module controller 2-5 within housing 2 produces electric signal, according to instruction, controls the Z axis rotation driving electricity on bracing frame 5
Machine 5-2, X-axis displacement drive motor 5-5 and Y-axis rotary drive motor 5-6 work, thus realize the adjustment of the position of camera lens 2-1;
2nd step:In the X-axis displacement drive motor 5-5 course of work, tail end stop 4 and end stop 6 real-time monitoring X-axis
Displacement support position;When X-axis displacement bearing row is to tail end stop 4 and definite value set by end stop 6, tail end stop 4
Produce electric signal with end stop 6, transmit to integration module controller 2-5, integration module controller 2-5 controls X-axis displacement
Motor 5-5 stops operating;
3rd step:In this device course of work, a certain amount of heat, now, main radiator 2-4 inside explosion-proof casing 2, can be produced
Radiated in real time with secondary radiator 2-7 it is ensured that explosion-proof casing 2 internal temperature is in safe range;
4th step:In camera lens 2-1 moving process, image processing module 2-2 real-time reception processes the image that camera lens 2-1 captures
Information, and produce electric signal, transmit to integration module controller 2-5, integration module controller 2-5 is to the image information capturing
Process further, finally transmit to terminal display.
A kind of industry explosion-proof camera shooting instrument disclosed by the invention, has an advantage in that:
(1) this apparatus main body material adopts high-quality 304 stainless steel, surface carry out fluorocarbon-sprayed, have efficiently dust-proof, waterproof,
Explosion-proof and rustless property;
(2) this device implosion guard reaches optical grade, and light passband is higher than 96%;
(3) using advanced 3D digital noise reduction technology inside this device integration module controller, increase the noise reduction to primary signal
Process, night even clean and bright;
(3) this device has a multi-angle, multi-faceted monitoring function, and supports monitoring mobile phone and computer remote monitoring, and operation makes
With conveniently.
A kind of industry explosion-proof camera shooting instrument of the present invention, this apparatus structure is compact, and space requirement is little, is internally integrated module
Controller adopts advanced 3D digital noise reduction technology, increases the noise reduction process to primary signal, substantially increases imaging effect;Should
Assembly monitor scope is wide, has a multi-angle, multi-faceted monitoring function, and provides monitoring mobile phone and computer remote monitoring, effectively
The operating characteristics that improve this device.
Brief description
Fig. 1 is a kind of heretofore described industry explosion-proof camera shooting instrument structural representation.
Fig. 2 is heretofore described explosion-proof casing structural representation.
Fig. 3 is heretofore described main radiator structural representation.
Fig. 4 is heretofore described rear cover assembly structural representation.
Fig. 5 is heretofore described support frame structure schematic diagram.
The heat-conducting block fatigue strength that Fig. 6 is heretofore described changes over figure.
In figure 1 above~Fig. 5, implosion guard 1, explosion-proof casing 2, camera lens 2-1, image processing module 2-2, fixed plate 2-3,
Main radiator 2-4, heat-conducting block 2-4-1, fixed lug 2-4-2, copper pipe 2-4-3, fin 2-4-4, integration module controller 2-
5, internal electric source 2-6, secondary radiator 2-7, rear cover assembly 2-8, secondary radiator fixing bolt 2-8-1, bonnet fixing screwed hole 2-
8-2, sealing ring 2-8-3, explosion-proof wire seal hole 2-8-4, explosion-proof line 3, tail end stop 4, bracing frame 5, spur rack 5-1, Z axis
Rotary drive motor 5-2, Y-axis rotary support 5-3, Z axis rotary support 5-4, X-axis displacement drive motor 5-5, Y-axis rotation driving
Motor 5-6, X-axis displacement bearing 5-7, end stop 6.
Specific embodiment
A kind of industry the explosion-proof camera shooting instrument with reference to the accompanying drawings and examples present invention being provided is further described.
As shown in figure 1, being a kind of heretofore described industry explosion-proof camera shooting instrument structural representation.It is seen in fig. 1, that bag
Include:Implosion guard 1, explosion-proof casing 2, explosion-proof line 3, tail end stop 4, bracing frame 5, end stop 6;Support frame as described above 5 one
End is provided with tail end stop 4, and bracing frame 5 other end is provided with end stop 6;Described explosion-proof casing 2 is located at bracing frame 5 top,
Explosion-proof casing 2 is cylindrical, and material is 304 stainless steels, explosion-proof casing 2 and bracing frame 5 chain connection;Described explosion-proof casing 2 one
End is provided with implosion guard 1, and the other end is provided with explosion-proof line 3, and wherein implosion guard 1 is threadeded with explosion-proof casing 2, explosion-proof line 3 and
Explosion-proof casing 2 insertion.
As shown in Fig. 2 being heretofore described explosion-proof casing structural representation.As seen from Figure 2, explosion-proof casing 2 wraps
Include:Camera lens 2-1, image processing module 2-2, fixed plate 2-3, main radiator 2-4, integration module controller 2-5, internal electric source 2-
6, secondary radiator 2-7, rear cover assembly 2-8;Described explosion-proof casing 2 interior forward end is provided with camera lens 2-1, camera lens 2-1 and explosion-proof casing 2
It is fixedly connected;Described image processing module 2-2 is located at camera lens 2-1 rear end, and wherein image processing module 2-2 rear end is provided with fixed plate
2-3, image processing module 2-2 is threadeded with fixed plate 2-3;Described integration module controller 2-5 is located inside explosion-proof casing 2
Center, wherein integration module controller 2-5 front end are provided with main radiator 2-4, and integration module controller 2-5 rear end is provided with internal electricity
Source 2-6, main radiator 2-4 is screwed with integration module controller 2-5;After the internally positioned power supply 2-6 of described secondary radiator 2-7
End, wherein secondary radiator 2-7 rear end is provided with rear cover assembly 2-8, and secondary radiator 2-7 is threadeded with rear cover assembly 2-8;
Described camera lens 2-1, image processing module 2-2 and internal electric source 2-6 are all controlled by wire and integration module controller 2-5
It is connected.
As shown in figure 3, being heretofore described main radiator structural representation.Find out from Fig. 3 or Fig. 2, main radiating
Device 2-4 includes:Heat-conducting block 2-4-1, fixed lug 2-4-2, copper pipe 2-4-3, fin 2-4-4;Described main radiator 2-4 bottom
Both sides are provided with fin 2-4-4, and fin 2-4-4 material is aluminium alloy;Described fin 2-4-4 center is connected with copper pipe 2-4-
3, the wherein copper pipe 2-4-3 other end is provided with heat-conducting block 2-4-1, and heat-conducting block 2-4-1 top is disposed with fixed lug 2-4-2, fixing
Earrings 2-4-2 is threadeded with integration module controller 2-5.
As shown in figure 4, being heretofore described rear cover assembly structural representation.As seen from Figure 4, rear cover assembly 2-8
Including:Secondary radiator fixing bolt 2-8-1, bonnet fixing screwed hole 2-8-2, sealing ring 2-8-3, explosion-proof wire seal hole 2-8-4;
Described rear cover assembly 2-8 medial center has been evenly arranged explosion-proof wire seal hole 2-8-4 and secondary radiator fixing bolt 2-8-1, prevents
Quick-fried wire seal hole 2-8-4 quantity is 5, and secondary radiator fixing bolt 2-8-1 quantity is 3;Described rear cover assembly 2-8 end face is equal
Even be disposed with bonnet fixing screwed hole 2-8-2, bonnet fixing screwed hole 2-8-2 quantity be 6;Described sealing ring 2-8-3 is located at
Between explosion-proof wire seal hole 2-8-4 and bonnet fixing screwed hole 2-8-2, sealing ring 2-8-3 is NBR nitrile rubber sealing ring.
As shown in figure 5, being heretofore described support frame structure schematic diagram.Find out from Fig. 5 or Fig. 2, bracing frame 5 wraps
Include:Spur rack 5-1, Z axis rotary drive motor 5-2, Y-axis rotary support 5-3, Z axis rotary support 5-4, X-axis displacement drive electricity
Machine 5-5, Y-axis rotary drive motor 5-6, X-axis displacement bearing 5-7;Described X-axis displacement bearing 5-7 is located on spur rack 5-1
End, X-axis displacement bearing 5-7 is rolled with spur rack 5-1 and is connected, and wherein X-axis displacement bearing 5-7 bottom side is provided with X-axis displacement
Motor 5-5;Described X-axis displacement bearing 5-7 upper end is provided with Z axis rotary support 5-4, wherein X-axis displacement bearing 5-7 and Z axis
Rotary support 5-4 chain connection;Described Z axis rotary support 5-4 inner opposite end is provided with Z axis rotary drive motor 5-2, lateral ends
It is provided with Y-axis rotary drive motor 5-6;Described Y-axis rotary support 5-3 is located at Z axis rotary support 5-4 upper end, Y-axis rotary support 5-
3 with Z axis rotary support 5-4 chain connection;
Described Z axis rotary drive motor 5-2, X-axis displacement drive motor 5-5 and Y-axis rotary drive motor 5-6 all by wire with
Integration module controller 2-5 controls connected.
Of the present invention a kind of industry explosion-proof camera shooting instrument the course of work be:
1st step:After this device switches on power, you can carry out remote control;When this device receives user instruction, now explosion-proof
Integration module controller 2-5 within housing 2 produces electric signal, according to instruction, controls the Z axis rotation driving electricity on bracing frame 5
Machine 5-2, X-axis displacement drive motor 5-5 and Y-axis rotary drive motor 5-6 work, thus realize the adjustment of the position of camera lens 2-1;
2nd step:In the X-axis displacement drive motor 5-5 course of work, tail end stop 4 and end stop 6 real-time monitoring X-axis
Displacement support position;When X-axis displacement bearing row is to tail end stop 4 and definite value set by end stop 6, tail end stop 4
Produce electric signal with end stop 6, transmit to integration module controller 2-5, integration module controller 2-5 controls X-axis displacement
Motor 5-5 stops operating;
3rd step:In this device course of work, a certain amount of heat, now, main radiator 2-4 inside explosion-proof casing 2, can be produced
Radiated in real time with secondary radiator 2-7 it is ensured that explosion-proof casing 2 internal temperature is in safe range;
4th step:In camera lens 2-1 moving process, image processing module 2-2 real-time reception processes the image that camera lens 2-1 captures
Information, and produce electric signal, transmit to integration module controller 2-5, integration module controller 2-5 is to the image information capturing
Process further, finally transmit to terminal display.
A kind of industry explosion-proof camera shooting instrument of the present invention, this apparatus structure is compact, and space requirement is little, is internally integrated module
Controller adopts advanced 3D digital noise reduction technology, increases the noise reduction process to primary signal, substantially increases imaging effect;Should
Assembly monitor scope is wide, has a multi-angle, multi-faceted monitoring function, and provides monitoring mobile phone and computer remote monitoring, effectively
The operating characteristics that improve this device.
The following is the embodiment of the manufacture process of heat-conducting block 2-4-1 of the present invention, embodiment is to further illustrate
Present disclosure, but should not be construed as limitation of the present invention.Without departing from the spirit and substance of the case in the present invention, to this
Modification and replacement that inventive method, step or condition are made, belong to the scope of the present invention.
If not specializing, the conventional meanses that in embodiment, technological means used is well known to those skilled in the art.
Embodiment 1
Manufacture heat-conducting block 2-4-1 of the present invention according to following steps, and count by weight:
1st step:Add 1460 parts of the ultra-pure water that electrical conductivity is 3.12 μ S/cm in a kettle., start agitator in reactor, turn
Speed is 94rpm, starts heat pump, makes reactor temperature rise to 72 DEG C;Sequentially add 2- ethyl -2- [(2- vinyl oxygen
Base) methyl] 55 parts of -1,3- propane diols, 64 parts of 1,2- cyclohexane cyclohexanedimethanodibasic -2- (2- acryloyl group) oxygen ethyl monoesters, (1R) -2,
2- dimethyl -3- (2- methyl-1-propylene base) cyclopropane-carboxylic acid-(S) -2- methyl -3- (2- propargyl) -4- oxo-amyl- 2- of ring
43 parts of alkenyl esters, stir to being completely dissolved, and adjusting pH value is 7.8, and agitator speed is adjusted to 124rpm, and temperature is 113 DEG C, ester
Change reaction 16 hours;
2nd step:Take 1- to 36 parts of (2- methoxyethyl) phenoxy group -3- isopropylamino -2- propyl alcohol, (1R)-trans -2,2- diformazan
Base -3- (2- methyl-1-propylene base) -69 parts of cyclopropane-carboxylic acid -3- phenoxy benzyl ester is pulverized, and powder diameter is 800 mesh;
Add (1R, S) suitable, 88 parts of trans -2,2- dimethyl -3- (2- methyl-1-propylene base) cyclopropane-carboxylic acid-m- phenoxy group ester mixes
Close uniformly, be laid in pallet, tiling thickness is 30mm, using dosage be 7.3kGy, the alpha ray irradiation 90 for 6.0MeV for the energy
Minute, and the β x ray irradiation x of Isodose 90 minutes;
3rd step:It is dissolved in alpha-acetamido-β-[4- (1,2- dihydro -2- that concentration is 48ppm through the mixed-powder that the 2nd step is processed
Thioquinoline)] in 41 parts of ethyl propionate, add reactor, agitator speed is 123rpm, and temperature is 120 DEG C, starts vavuum pump
Make the vacuum of reactor reach -0.15MPa, keep this state response 20 hours;Pressure release is simultaneously passed through radon gas, makes reactor internal pressure
Power is 0.85MPa, insulation standing 12 hours;Agitator speed is promoted to 220rpm, simultaneous reactions kettle pressure release to 0MPa;Successively plus
Enter 3- [(1- butyl -1,2- dihydro -4- hydroxyl -2- oxo -3- quinolyl) azo] -5- chlorine-2-hydroxyl -63 parts of benzene sulfonic acid,
(RS), after -2- [4- (6- chloro-quinoxaline -2- epoxide) phenoxy group] 81 parts of propionic acid -2- tetrahydrofuran methyl ester is completely dissolved, add
So that the hydrophilic lipophilic balance of reactor solution is 3.2, insulation stands 8 hours to 96 parts of stirring mixing of crosslinking agent;
4th step:When agitator speed is for 264rpm, sequentially add 2- (2- (4- (6- chloroquinoxalin-2-yloxy) phenoxy group) third
Acyloxy) 39 parts of-butenoate, 2- [4- (2,2- dichloro cyclopropyl) phenoxy group] 71 parts of -2 Methylpropionic acid, 2- (4- (2,4- bis-
Chlorophenoxy) phenoxy group) methyl propionate 36 parts and 4- (1,1- dimethyl ethyl) -2,6- pairs ((5- (1,1- dimethyl ethyl) -
2- hydroxy phenyl) methyl) 116 parts of phenol, so as to reach 1.46MPa, temperature is 253 DEG C to lifting reactor pressure, polymerisation
12 hours;After the completion of reaction, reacting kettle inner pressure is down to 0MPa, is cooled to 15 DEG C, discharging, enter molding press and can be prepared by heat conduction
Block 2-4-1.
Described crosslinking agent is 2 hydroxybenzoic acid -4- (1,1- dimethyl ethyl) phenylester.
Embodiment 2
Manufacture heat-conducting block 2-4-1 of the present invention according to following steps, and count by weight:
1st step:Add 2680 parts of the ultra-pure water that electrical conductivity is 6.45 μ S/cm in a kettle., start agitator in reactor, turn
Speed is 153rpm, starts heat pump, makes reactor temperature rise to 106 DEG C;Sequentially add 2- ethyl -2- [(2- vinyl oxygen
Base) methyl] 102 parts of -1,3- propane diols, 132 parts of 1,2- cyclohexane cyclohexanedimethanodibasic -2- (2- acryloyl group) oxygen ethyl monoesters, (1R) -
2,2- dimethyl -3- (2- methyl-1-propylene base) cyclopropane-carboxylic acid-(S) -2- methyl -3- (2- propargyl) -4- oxo-ring is amyl-
92 parts of 2- alkenyl esters, stir to being completely dissolved, and adjusting pH value is 9.2, and agitator speed is adjusted to 195rpm, and temperature is 176 DEG C,
Esterification 34 hours;
2nd step:Take 1- to 84 parts of (2- methoxyethyl) phenoxy group -3- isopropylamino -2- propyl alcohol, (1R)-trans -2,2- diformazan
Base -3- (2- methyl-1-propylene base) -136 parts of cyclopropane-carboxylic acid -3- phenoxy benzyl ester is pulverized, and powder diameter is 1300
Mesh;Add (1R, S) suitable, trans -2,2- dimethyl -3- (2- methyl-1-propylene base) cyclopropane-carboxylic acid-m- phenoxy group ester 170
Part mix, be laid in pallet, tiling thickness is 50mm, using dosage be 8.6kGy, the alpha ray for 12.0MeV for the energy
Irradiation 150 minutes, and the β x ray irradiation x of Isodose 150 minutes;
3rd step:It is dissolved in alpha-acetamido-β-[4- (1,2- dihydro -2- that concentration is 87ppm through the mixed-powder that the 2nd step is processed
Thioquinoline)] in 113 parts of ethyl propionate, add reactor, agitator speed is 189rpm, and temperature is 168 DEG C, starts vacuum
Pump makes the vacuum of reactor reach 1.85MPa, keeps this state response 40 hours;Pressure release is simultaneously passed through radon gas, makes in reactor
Pressure is 1.40MPa, insulation standing 24 hours;Agitator speed is promoted to 290rpm, simultaneous reactions kettle pressure release to 0MPa;Successively
Addition 3- [(1- butyl -1,2- dihydro -4- hydroxyl -2- oxo -3- quinolyl) azo] -5- chlorine-2-hydroxyl -126 parts of benzene sulfonic acid,
(RS), after -2- [4- (6- chloro-quinoxaline -2- epoxide) phenoxy group] 183 parts of propionic acid -2- tetrahydrofuran methyl ester is completely dissolved, add
So that the hydrophilic lipophilic balance of reactor solution is 6.5, insulation stands 16 hours for crosslinking agent stirring mixing;
4th step:When agitator speed is for 358rpm, sequentially add 2- (2- (4- (6- chloroquinoxalin-2-yloxy) phenoxy group) third
Acyloxy) 92 parts of-butenoate, 2- [4- (2,2- dichloro cyclopropyl) phenoxy group] 173 parts of -2 Methylpropionic acid, 2- (4- (2,4-
Dichlorophenoxy) phenoxy group) double ((5- (the 1,1- dimethyl second of 88 parts and 4- (1,1- dimethyl ethyl) -2,6- of methyl propionate
Base) -2- hydroxy phenyl) methyl) 196 parts of phenol, so as to reach 2.18MPa, temperature is 312 DEG C to lifting reactor pressure, polymerization
Reaction 24 hours;After the completion of reaction, reacting kettle inner pressure is down to 0MPa, is cooled to 30 DEG C, discharging, enter molding press and can be prepared by
Heat-conducting block 2-4-1.
Described crosslinking agent is 2 Methylpropionic acid -1,1- dimethyl -3- phenyl propyl ester.
Embodiment 3
Manufacture heat-conducting block 2-4-1 of the present invention according to following steps, and count by weight:
1st step:Add 2060 parts of the ultra-pure water that electrical conductivity is 4.25 μ S/cm in a kettle., start agitator in reactor, turn
Speed is 124rpm, starts heat pump, makes reactor temperature rise to 87 DEG C;Sequentially add 2- ethyl -2- [(2- vinyl oxygen
Base) methyl] 76 parts of -1,3- propane diols, 94 parts of 1,2- cyclohexane cyclohexanedimethanodibasic -2- (2- acryloyl group) oxygen ethyl monoesters, (1R) -2,
2- dimethyl -3- (2- methyl-1-propylene base) cyclopropane-carboxylic acid-(S) -2- methyl -3- (2- propargyl) -4- oxo-amyl- 2- of ring
66 parts of alkenyl esters, stir to being completely dissolved, and adjusting pH value is 8.5, and agitator speed is adjusted to 160rpm, and temperature is 143 DEG C, ester
Change reaction 24 hours;
2nd step:Take 1- to 61 parts of (2- methoxyethyl) phenoxy group -3- isopropylamino -2- propyl alcohol, (1R)-trans -2,2- diformazan
Base -3- (2- methyl-1-propylene base) -95 parts of cyclopropane-carboxylic acid -3- phenoxy benzyl ester is pulverized, and powder diameter is 1000
Mesh;Add (1R, S) suitable, trans -2,2- dimethyl -3- (2- methyl-1-propylene base) cyclopropane-carboxylic acid-m- phenoxy group ester 128
Part mix, be laid in pallet, tiling thickness is 40mm, using dosage be 7.9kGy, the alpha ray spoke for 9.0MeV for the energy
According to 120 minutes, and the β x ray irradiation x of Isodose 120 minutes;
3rd step:Through the mixed-powder that the 2nd step is processed be dissolved in that concentration is 68 alpha-acetamido-β-[(1,2- dihydro -2- is thio for 4-
Quinoline)] in 72 parts of ethyl propionate, add reactor, agitator speed is 153rpm, and temperature is 144 DEG C, and starting vavuum pump makes instead
The vacuum answering kettle reaches 0.85MPa, keeps this state response 30 hours;Pressure release is simultaneously passed through radon gas, makes the reacting kettle inner pressure be
1.15MPa, insulation standing 18 hours;Agitator speed is promoted to 255rpm, simultaneous reactions kettle pressure release to 0MPa;Sequentially add 3-
[(1- butyl -1,2- dihydro -4- hydroxyl -2- oxo -3- quinolyl) azo] -5- chlorine-2-hydroxyl -93 parts of benzene sulfonic acid, (RS) -2-
After [4- (6- chloro-quinoxaline -2- epoxide) phenoxy group] 131 parts of propionic acid -2- tetrahydrofuran methyl ester is completely dissolved, add crosslinking agent
So that the hydrophilic lipophilic balance of reactor solution is 4.8, insulation stands 12 hours for stirring mixing;
4th step:When agitator speed is for 305rpm, sequentially add 2- (2- (4- (6- chloroquinoxalin-2-yloxy) phenoxy group) third
Acyloxy) 64 parts of-butenoate, 2- [4- (2,2- dichloro cyclopropyl) phenoxy group] 121 parts of -2 Methylpropionic acid, 2- (4- (2,4-
Dichlorophenoxy) phenoxy group) double ((5- (the 1,1- dimethyl second of 56 parts and 4- (1,1- dimethyl ethyl) -2,6- of methyl propionate
Base) -2- hydroxy phenyl) methyl) 156 parts of phenol, so as to reach 1.76MPa, temperature is 283 DEG C to lifting reactor pressure, polymerization
Reaction 18 hours;After the completion of reaction, reacting kettle inner pressure is down to 0MPa, is cooled to 28 DEG C, discharging, enter molding press and can be prepared by
Heat-conducting block 2-4-1.
Described crosslinking agent is 1,1- dimethyl -3- phenyl propanol acetic acid esters.
Reference examples
Reference examples are the heat-conducting block of certain brand commercially available.
Embodiment 4
Heat-conducting block described in the heat-conducting block 2-4-1 that prepare embodiment 1~3 and reference examples carries out using effect contrast.Right
The two unit matter weight, thermal conductivity, specific heat, heat distortion temperature is counted, and result is as shown in table 1.
As seen from Table 1, heat-conducting block 2-4-1 of the present invention, its Unit Weight, thermal conductivity, specific heat, heat distortion temperature etc.
Index is superior to the product of prior art production.
Additionally, as shown in fig. 6, being that heat-conducting block 2-4-1 fatigue of materials intensity of the present invention changes with use time
Statistics.In figure is found out, heat-conducting block 2-4-1 used by embodiment 1~3, and its fatigue of materials intensity is with use time intensity of variation significantly
Better than existing product.
Claims (7)
1. a kind of industry explosion-proof camera shooting instrument, including:Implosion guard (1), explosion-proof casing (2), explosion-proof line (3), tail end stop
(4), bracing frame (5), end stop (6);It is characterized in that, support frame as described above (5) one end is provided with tail end stop (4),
Support (5) other end is provided with end stop (6);Described explosion-proof casing (2) is located at bracing frame (5) top, and explosion-proof casing (2) is in
Cylindric, material is 304 stainless steels, explosion-proof casing (2) and bracing frame (5) chain connection;Described explosion-proof casing (2) one end is provided with
Implosion guard (1), the other end is provided with explosion-proof line (3), and wherein implosion guard (1) is threadeded with explosion-proof casing (2), explosion-proof line
(3) with explosion-proof casing (2) insertion.
2. a kind of industry explosion-proof camera shooting instrument according to claim 1 is it is characterised in that described explosion-proof casing (2) includes:Mirror
Head (2-1), image processing module (2-2), fixed plate (2-3), main radiator (2-4), integration module controller (2-5), internal
Power supply (2-6), secondary radiator (2-7), rear cover assembly (2-8);Described explosion-proof casing (2) interior forward end is provided with camera lens (2-1), mirror
Head (2-1) is fixedly connected with explosion-proof casing (2);Described image processing module (2-2) is located at camera lens (2-1) rear end, wherein image
Processing module (2-2) rear end is provided with fixed plate (2-3), and image processing module (2-2) is threadeded with fixed plate (2-3);Described
Integration module controller (2-5) is located at explosion-proof casing (2) inside center, and wherein integration module controller (2-5) front end is provided with master
Radiator (2-4), integration module controller (2-5) rear end is provided with internal electric source (2-6), main radiator (2-4) and integration module
Controller (2-5) is screwed;Described secondary radiator (2-7) internally positioned power supply (2-6) rear end, wherein secondary radiator (2-7)
Rear end is provided with rear cover assembly (2-8), and secondary radiator (2-7) is threadeded with rear cover assembly (2-8);
Described camera lens (2-1), image processing module (2-2) and internal electric source (2-6) are all by wire and integration module controller
(2-5) control and be connected.
3. a kind of industry explosion-proof camera shooting instrument according to claim 2 is it is characterised in that described main radiator (2-4) includes:
Heat-conducting block (2-4-1), fixed lug (2-4-2), copper pipe (2-4-3), fin (2-4-4);Described main radiator (2-4) bottom
Both sides are provided with fin (2-4-4), and fin (2-4-4) material is aluminium alloy;Described fin (2-4-4) center is connected with copper
Pipe (2-4-3), wherein copper pipe (2-4-3) other end is provided with heat-conducting block (2-4-1), and heat-conducting block (2-4-1) top is disposed with fixation
Earrings (2-4-2), fixed lug (2-4-2) is threadeded with integration module controller (2-5).
4. a kind of industry explosion-proof camera shooting instrument according to claim 2 is it is characterised in that described rear cover assembly (2-8) includes:
Secondary radiator fixing bolt (2-8-1), bonnet fixing screwed hole (2-8-2), sealing ring (2-8-3), explosion-proof wire seal hole (2-8-
4);Described rear cover assembly (2-8) medial center has been evenly arranged explosion-proof wire seal hole (2-8-4) and secondary radiator fixing bolt
(2-8-1), explosion-proof wire seal hole (2-8-4) quantity is 5, and secondary radiator fixing bolt (2-8-1) quantity is 3;After described
Cap assembly (2-8) end face has been evenly arranged bonnet fixing screwed hole (2-8-2), and bonnet fixing screwed hole (2-8-2) quantity is 6
Individual;Described sealing ring (2-8-3) is located between explosion-proof wire seal hole (2-8-4) and bonnet fixing screwed hole (2-8-2), sealing ring
(2-8-3) it is NBR nitrile rubber sealing ring.
5. a kind of industry explosion-proof camera shooting instrument according to claim 1 is it is characterised in that support frame as described above (5) includes:Straight-tooth
Tooth bar (5-1), Z axis rotary drive motor (5-2), Y-axis rotary support (5-3), Z axis rotary support (5-4), X-axis displacement drive
Motor (5-5), Y-axis rotary drive motor (5-6), X-axis displacement bearing (5-7);Described X-axis displacement bearing (5-7) is located at straight-tooth
Tooth bar (5-1) upper end, X-axis displacement bearing (5-7) is rolled with spur rack (5-1) and is connected, wherein X-axis displacement bearing (5-7) bottom
End side is provided with X-axis displacement drive motor (5-5);Described X-axis displacement bearing (5-7) upper end is provided with Z axis rotary support (5-4),
Wherein X-axis displacement bearing (5-7) and Z axis rotary support (5-4) chain connection;Described Z axis rotary support (5-4) inner opposite end sets
There is Z axis rotary drive motor (5-2), lateral ends are provided with Y-axis rotary drive motor (5-6);Described Y-axis rotary support (5-3)
Positioned at Z axis rotary support (5-4) upper end, Y-axis rotary support (5-3) and Z axis rotary support (5-4) chain connection;
Described Z axis rotary drive motor (5-2), X-axis displacement drive motor (5-5) and Y-axis rotary drive motor (5-6) all pass through
Wire is connected with integration module controller (2-5) control.
6. a kind of industry explosion-proof camera shooting instrument according to claim 4 is it is characterised in that described heat-conducting block (2-4-1) is by height
Molecular material pressing mold is molded, and the constituent of heat-conducting block (2-4-1) and manufacture process are as follows:
First, heat-conducting block (2-4-1) constituent:
Count by weight, 2- ethyl -2- [(2- vinyl epoxide) methyl] 55~102 parts of -1,3-PD, 1,2- hexamethylene
64~132 parts of dioctyl phthalate -2- (2- acryloyl group) oxygen ethyl monoesters, (1R) -2,2- dimethyl -3- (2- methyl-1-propylene base)
Cyclopropane-carboxylic acid-(S) -2- methyl -3- (2- propargyl) -4- oxo -43~92 parts of ring amyl- 2- alkenyl esters, 1- is to (2- methoxy second
Base) 36~84 parts of phenoxy group -3- isopropylamino -2- propyl alcohol, (1R)-trans -2,2- dimethyl -3- (2- methyl-1-propylene base) -
69~136 parts of cyclopropane-carboxylic acid -3- phenoxy benzyl ester, (1R, S) is suitable, trans -2,2- dimethyl -3- (2- methyl-1-propylene
Base) 88~170 parts of cyclopropane-carboxylic acid-m- phenoxy group ester, concentration is the alpha-acetamido-β-[4- (1,2- of 48ppm~87ppm
Dihydro -2- thioquinoline)] 41~113 parts of ethyl propionate, 3- [(1- butyl -1,2- dihydro -4- hydroxyl -2- oxo -3- quinoline
Base) azo] -5- chlorine-2-hydroxyl -63~126 parts of benzene sulfonic acid, (RS) -2- [4- (6- chloro-quinoxaline -2- epoxide) phenoxy group] third
81~183 parts of acid -2- tetrahydrofuran methyl ester, 96~167 parts of crosslinking agent, 2- (2- (4- (6- chloroquinoxalin-2-yloxy) benzene oxygen
Base) propionyloxy) 39~92 parts of-butenoate, 2- [4- (2,2- dichloro cyclopropyl) phenoxy group] -2 Methylpropionic acid 71~173
Part, 2- (4- (2,4- dichlorophenoxy) phenoxy group) 36~88 parts of methyl propionate, the double ((5- of 4- (1,1- dimethyl ethyl) -2,6-
(1,1- dimethyl ethyl) -2- hydroxy phenyl) methyl) 116~196 parts of phenol;
Described crosslinking agent be 2 hydroxybenzoic acid -4- (1,1- dimethyl ethyl) phenylester, 2 Methylpropionic acid -1,1- dimethyl -
Any one in 3- phenyl propyl ester, 1,1- dimethyl -3- phenyl propanol acetic acid esters;
2nd, the manufacture process of heat-conducting block (2-4-1), comprises the steps of:
1st step:Add 1460~2680 parts of the ultra-pure water that electrical conductivity is 3.12 μ S/cm~6.45 μ S/cm in a kettle., start
Agitator in reactor, rotating speed is 94rpm~153rpm, starts heat pump, makes reactor temperature rise to 72 DEG C~106
℃;Sequentially add 2- ethyl -2- [(2- vinyl epoxide) methyl] -1,3- propane diols, 1,2- cyclohexane cyclohexanedimethanodibasic -2- (2- third
Enoyl-) oxygen ethyl monoesters, (1R) -2,2- dimethyl -3- (2- methyl-1-propylene base) cyclopropane-carboxylic acid-(S) -2- methyl -3-
(2- propargyl) -4- oxo-ring amyl- 2- alkenyl esters, stirs to being completely dissolved, and adjusting pH value is 7.8~9.2, and agitator is turned
Velocity modulation is 113 DEG C~176 DEG C to 124rpm~195rpm, temperature, esterification 16~34 hours;
2nd step:Take 1- to (2- methoxyethyl) phenoxy group -3- isopropylamino -2- propyl alcohol, (1R)-trans -2,2- dimethyl -3-
(2- methyl-1-propylene base)-cyclopropane-carboxylic acid -3- phenoxy benzyl ester is pulverized, and powder diameter is 800~1300 mesh;Plus
Enter that (1R, S) is suitable, trans -2,2- dimethyl -3- (2- methyl-1-propylene base) cyclopropane-carboxylic acid-m- phenoxy group ester mixes,
Be laid in pallet, tiling thickness be 30mm~50mm, using dosage be 7.3kGy~8.6kGy, energy be 6.0MeV~
The alpha ray irradiation of 12.0MeV 90~150 minutes, and the β x ray irradiation x of Isodose 90~150 minutes;
3rd step:It is dissolved in alpha-acetamido-β-[4- (1,2- dihydro -2- thioquinoline)] propionic acid through the mixed-powder that the 2nd step is processed
In ethyl ester, add reactor, agitator speed is 123rpm~189rpm, temperature is 120 DEG C~168 DEG C, starting vavuum pump makes
The vacuum of reactor reaches -0.15MPa~1.85MPa, keeps this state response 20~40 hours;Pressure release is simultaneously passed through radon gas,
Reacting kettle inner pressure is made to be 0.85MPa~1.40MPa, insulation standing 12~24 hours;Agitator speed be promoted to 220rpm~
290rpm, simultaneous reactions kettle pressure release to 0MPa;Sequentially add 3- [(1- butyl -1,2- dihydro -4- hydroxyl -2- oxo -3- quinoline
Base) azo] -5- chlorine-2-hydroxyl-benzene sulfonic acid, (RS) -2- [4- (6- chloro-quinoxaline -2- epoxide) phenoxy group] propionic acid -2- tetrahydrochysene furan
After furfuryl ester is completely dissolved, add crosslinking agent stirring mixing so that reactor solution hydrophilic lipophilic balance be 3.2~
6.5, insulation standing 8~16 hours;
4th step:When agitator speed is for 264rpm~358rpm, sequentially add 2- (2- (4- (6- chloroquinoxalin-2-yloxy)
Phenoxy group) propionyloxy)-butenoate, 2- [4- (2,2- dichloro cyclopropyl) phenoxy group] -2 Methylpropionic acid, 2- (4- (2,4-
Dichlorophenoxy) phenoxy group) double ((5- (1,1- the dimethyl ethyl) -2- of methyl propionate and 4- (1,1- dimethyl ethyl) -2,6-
Hydroxy phenyl) methyl) phenol, so as to reach 1.46MPa~2.18MPa, temperature is 253 DEG C~312 to lifting reactor pressure
DEG C, polymerisation 12~24 hours;After the completion of reaction, reacting kettle inner pressure is down to 0MPa, is cooled to 15 DEG C~30 DEG C, discharging,
Enter molding press and can be prepared by heat-conducting block (2-4-1).
7. a kind of method of work of industry explosion-proof camera shooting instrument is it is characterised in that the method includes following step:
1st step:After this device switches on power, you can carry out remote control;When this device receives user instruction, now explosion-proof
The internal integration module controller (2-5) of housing (2) produces electric signal, according to instruction, controls the Z axis rotation on bracing frame (5)
Motor (5-2), X-axis displacement drive motor (5-5) and Y-axis rotary drive motor (5-6) work, thus realize camera lens (2-
1) adjustment of position;
2nd step:In X-axis displacement drive motor (5-5) course of work, tail end stop (4) and end stop (6) are supervised in real time
Survey X-axis displacement support position;When X-axis displacement bearing row is to tail end stop (4) and definite value set by end stop (6), tail
End stop (4) and end stop (6) produce electric signal, transmit to integration module controller (2-5), integration module controller
(2-5) X-axis displacement drive motor (5-5) is controlled to stop operating;
3rd step:In this device course of work, inside explosion-proof casing (2), a certain amount of heat, now, main radiator can be produced
(2-4) radiated in real time it is ensured that explosion-proof casing (2) internal temperature is in safe range with secondary radiator (2-7);
4th step:In camera lens (2-1) moving process, image processing module (2-2) real-time reception processes camera lens (2-1) and captures
Image information, and produce electric signal, transmit to integration module controller (2-5), integration module controller (2-5) is to capturing
Image information process further, finally transmit to terminal display.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107315424A (en) * | 2017-05-31 | 2017-11-03 | 徐州工程学院 | For sewage disposal solar energy tracking displacement platform, manufacture method and its application |
CN110139017A (en) * | 2019-06-22 | 2019-08-16 | 苏州有单互联网科技有限公司 | A kind of explosion-proof anti-riot security protection safety supervision photographic device of technical grade |
CN111878684A (en) * | 2020-07-20 | 2020-11-03 | 厦门理工学院 | Portable safe sensing device of thing networking security equipment |
Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN203858035U (en) * | 2014-05-19 | 2014-10-01 | 陈建伟 | Explosion-proof thermal imager |
CN204069122U (en) * | 2014-07-17 | 2014-12-31 | 天通精电新科技有限公司 | Infrared induction protective device in a kind of security protection web camera |
CN104448817A (en) * | 2014-12-22 | 2015-03-25 | 林志丹 | Nanocarbon material-based high-performance heat conducting material and preparation method thereof |
CN204465685U (en) * | 2014-12-24 | 2015-07-08 | 陕西斯达煤矿安全装备有限公司 | A kind of mine wireless camera device |
CN204948185U (en) * | 2015-06-10 | 2016-01-06 | 重庆必安必恒科技有限公司 | A kind of mine explosion-proof type camera |
CN205017416U (en) * | 2015-09-15 | 2016-02-03 | 章建国 | High -speed dome video camera |
CN205232314U (en) * | 2015-11-18 | 2016-05-11 | 南阳市中通防爆电机电器有限公司 | Explosion -proof camera |
CN106051400A (en) * | 2016-07-08 | 2016-10-26 | 极翼机器人(上海)有限公司 | Tripod head |
-
2016
- 2016-10-27 CN CN201610954375.0A patent/CN106454047A/en active Pending
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN203858035U (en) * | 2014-05-19 | 2014-10-01 | 陈建伟 | Explosion-proof thermal imager |
CN204069122U (en) * | 2014-07-17 | 2014-12-31 | 天通精电新科技有限公司 | Infrared induction protective device in a kind of security protection web camera |
CN104448817A (en) * | 2014-12-22 | 2015-03-25 | 林志丹 | Nanocarbon material-based high-performance heat conducting material and preparation method thereof |
CN204465685U (en) * | 2014-12-24 | 2015-07-08 | 陕西斯达煤矿安全装备有限公司 | A kind of mine wireless camera device |
CN204948185U (en) * | 2015-06-10 | 2016-01-06 | 重庆必安必恒科技有限公司 | A kind of mine explosion-proof type camera |
CN205017416U (en) * | 2015-09-15 | 2016-02-03 | 章建国 | High -speed dome video camera |
CN205232314U (en) * | 2015-11-18 | 2016-05-11 | 南阳市中通防爆电机电器有限公司 | Explosion -proof camera |
CN106051400A (en) * | 2016-07-08 | 2016-10-26 | 极翼机器人(上海)有限公司 | Tripod head |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107315424A (en) * | 2017-05-31 | 2017-11-03 | 徐州工程学院 | For sewage disposal solar energy tracking displacement platform, manufacture method and its application |
CN110139017A (en) * | 2019-06-22 | 2019-08-16 | 苏州有单互联网科技有限公司 | A kind of explosion-proof anti-riot security protection safety supervision photographic device of technical grade |
CN111878684A (en) * | 2020-07-20 | 2020-11-03 | 厦门理工学院 | Portable safe sensing device of thing networking security equipment |
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Application publication date: 20170222 |