CN202661391U - Controlled test platform applied into simulated hydrostatic test device - Google Patents

Abstract

The utility model relates to a test platform, in particular to a controlled test platform applied into a simulated hydrostatic test device. The controlled test platform comprises an image pickup illumination integrated platform, a watertight electronic cabin and a computer control platform, wherein the image pickup illumination integrated platform comprises a platform main support frame, an underwater lamp and an underwater camera, the underwater lamp and the underwater camera are respectively arranged on the platform main support frame, in addition, the installation angle is adjustable, the watertight electronic cabin comprises a cabin body, a cabin cover, a temperature measuring depth sensor, a light multiplexer and a wiring terminal, the temperature measuring depth sensor, the light multiplexer and the wiring terminal are respectively arranged in the cabin body, the sealing is realized through the cabin cover, and the temperature measuring depth sensor, the light multiplexer, the underwater lamp and the underwater camera are respectively and electrically connected with the wiring terminal. The controlled test platform has the advantages that the test process becomes visual in the whole process, the temperature and pressure measurement is realized, and the test process becomes the interactive test process capable of realizing the remote control and the recording in the whole process, so the integral reliability and the integral safety of ocean engineering equipment in China are improved.

Description

Be applied to the controllable type test platform in the simulated water pressure test unit

Technical field

The utility model relates to test platform, specifically a kind of controllable type test platform that is applied in the simulated water pressure test unit.

Background technology

Along with the further consumption of land resource, countries in the world have all turned one's attention to the ocean, and this has also directly caused the further aggravation of ocean controversial issue between the various countries.The ocean area accounts for 71% of sphere area entirely, is containing therein abundant various resources; But the exploitation of ocean resources is industries of a high investment, high risk and high reward, has challenging high-end equipment field so the marine engineering equipment field is one.This field is equipped in design, produce finish after, usually to carry out pressure test by the simulated water pressure test unit.The simulated water pressure test unit is for one of main tool of seawater pressure under the different water depth condition of simulation ocean, the outer most simulated water pressure test unit of Present Domestic can not realize that all real-time controllable type is observed the also function of storage data in the process of the test, this has brought fully unknown, the different process of the test of whole experimentation fully isolated for simulated water pressure test, and process of the test such as can not record at the inconvenience.So, function for further Optimized Simulated water test unit, strengthen the simulation water test unit in the support applications in engineering equipment for deep ocean exploitation field, improve reliability and the security etc. on the whole of China's marine engineering equipment, the controllable type test platform of Application and Development in the simulated water pressure proving installation has very important significance.

The utility model content

Reach the deficiencies such as process of the test can not record for the complete the unknown of the whole simulated water pressure process of the test of improving existing simulated water pressure test unit, different tests process isolate fully, the purpose of this utility model is to provide a kind of controllable type test platform that is applied in the simulated water pressure test unit.

The purpose of this utility model is achieved through the following technical solutions:

The utility model comprises shooting illumination integrated platform, watertight electronic compartment and computer control platform, wherein shooting illumination integrated platform comprises platform main support, underwater lamp and Underwater Camera, underwater lamp and Underwater Camera are installed in respectively on the platform main support, and setting angle is adjustable; Described watertight electronic compartment comprises the cabin body, hatchcover, the thermometric depth sensor, optical multiplexer and connection terminal, thermometric depth sensor wherein, optical multiplexer and connection terminal are installed in respectively in the body of cabin, seal by hatchcover, the thermometric depth sensor, optical multiplexer and described underwater lamp, described Underwater Camera is electrically connected with connection terminal respectively, pass to the computer control platform by the video image that Underwater Camera is taken by optical multiplexer, the temperature that is measured by the thermometric depth sensor, pressure data is passed to the computer control platform by connection terminal.

Wherein: the cabin body of described watertight electronic compartment is provided with a plurality of underwater electrical connectors, and underwater lamp and Underwater Camera are connected with connection terminal by underwater electrical connector respectively; Described underwater lamp and Underwater Camera are connected with underwater electrical connector, link to each other with connection terminal by watertight cable respectively, the computer control platform links to each other with the watertight electronic compartment by the watertight optoelectronic composite cable, and the cable in the watertight optoelectronic composite cable is connected with connection terminal, optical cable is connected with optical multiplexer; Also link to each other with described optical multiplexer by the underwater electrical connector that watertight cable is connected with Underwater Camera;

Described shooting illumination integrated platform is positioned at the simulated water pressure test unit, one end of platform main support is provided with slide block, this slide block is installed on the interior guide rail of simulated water pressure test unit, moves back and forth along guide rail, and by the first Bolt to position on the slide block, the other end of described platform main support is provided with plectane, at plectane link under the The Cloud Terrace is installed, on the The Cloud Terrace under link and the described The Cloud Terrace angle between the link adjustable, and by the 3rd Bolt to position; Described underwater lamp and Underwater Camera are installed in respectively on the The Cloud Terrace on the link; Be evenly equipped with a plurality of arcuate sockets at circumferencial direction on the described plectane, link is installed in arbitrary arcuate socket by the second bolt under the The Cloud Terrace; The central angle of described each arcuate socket is 60 °; Described underwater lamp and Underwater Camera are installed on the The Cloud Terrace on the link by underwater lamp fixed mount and camera fixing frame respectively, are installed in the adjustment of shooting angle in the different arcuate sockets by link under the angular adjustment between the upper and lower link of The Cloud Terrace and the The Cloud Terrace;

Described watertight electronic compartment is positioned at the simulated water pressure test unit, and an end of watertight optoelectronic composite cable and an end of cabin body are tightly connected, and the other end of the watertight optoelectronic composite cable computer control platform outer with being positioned at the simulated water pressure test unit links to each other; The other end sealing thread of described cabin body is connected with wears the wall joint, and described thermometric depth sensor threads is connected to this and wears on the wall joint; One end of described cabin body is sealedly connected with bump joint, be provided with transparent cover at this bump joint, one end of described watertight optoelectronic composite cable is integrally connected by sulfuration and reinforcement end, and by the through hole insertion of offering in the middle of transparent cover and the bump joint, described reinforcement end is affixed by circlip for shaft and transparent cover; On described reinforcement end outside surface and the bump joint between the through-hole wall, between the end of bump joint and cabin body, between cabin body and the hatchcover and wear between the other end of wall joint and cabin body and be tightly connected by O-ring seal respectively.

Advantage of the present utility model and good effect are:

1. the utility model has carried out function upgrading to it in the intact situation of simulated water pressure test unit basic function, make it obtain following functions: the sightless process of the test before will transforming becomes visualized, in the simulated water pressure test unit, realize the measurement of temperature and pressure, make the process of the test that isolates before transforming become omnidistance remote-controlled, recordable interactive process of the test, thereby improve reliability and the security on the whole of China's marine engineering equipment.

2. the utlity model has and be convenient to mobile characteristic, shooting illumination integrated platform, watertight electronic compartment and computer control platform all removable and be convenient to install, dismounting.

3. angle adjustability in the utlity model has on a large scale, shooting illumination integrated platform can carry out large-scale angular setting by manual to it before the simulated water pressure test, be convenient to change observation position, platform structure convenient operation, good reliability.

4. the utility model can be realized the data real-time online adjustment such as brightness and focal length in process of the test, carries out in real time the characteristics such as data storing.

5. the utlity model has extensibility, the watertight electronic compartment has been reserved a plurality of underwater electrical connector interfaces, can support a plurality of device extension, and this provides convenience for continuing later on upgrading simulated water pressure test unit.

Description of drawings

Fig. 1 is one-piece construction synoptic diagram of the present utility model;

Fig. 2 is the structural representation of shooting illumination integrated platform among Fig. 1;

Fig. 3 is the side view of Fig. 2;

Fig. 4 is the vertical view of plectane among Fig. 2;

Fig. 5 is the inner structure synoptic diagram of watertight electronic compartment among Fig. 1;

Wherein: 1 is shooting illumination integrated platform, and 2 is watertight cable, and 3 is underwater electrical connector, 4 is the watertight electronic compartment, and 5 is the watertight optoelectronic composite cable, and 6 are the computer control platform, 7 is the platform main support, and 8 is link under the The Cloud Terrace, and 9 is link on the The Cloud Terrace, 10 is the underwater lamp fixed mount, and 11 is underwater lamp, and 12 is camera fixing frame, 13 is Underwater Camera, 14 for strengthening end, and 15 is transparent cover, and 16 is bump joint, 17 is the cabin body, 18 is hatchcover, and 19 for wearing the wall joint, and 20 is the thermometric depth sensor, 21 is optical multiplexer, 22 is connection terminal, and 23 is plectane, and 24 is arcuate socket.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

The utility model is a kind ofly can carry out angle, position adjustment before and after simulated water pressure test, in the simulated water pressure process of the test, realize multi-angle video monitoring, pressure and the real-time demonstration of temperature and the test platform of writing function, as shown in Figure 1, the utility model comprises shooting illumination integrated platform 1, the underwater electrical connector 3 that is positioned at the simulated water pressure test unit, and is positioned at the outer computer control platform 6 of simulated water pressure test unit.

Shown in Fig. 2～4, shooting illumination integrated platform 1 comprises platform main support 7, plectane 23, link 8 under the The Cloud Terrace, link 9 on the The Cloud Terrace, underwater lamp fixed mount 10, underwater lamp 11, camera fixing frame 12 and Underwater Camera 13, one end (lower end) of platform main support 7 is provided with slide block 25, this slide block 25 is installed on the interior guide rail of simulated water pressure test unit, move back and forth along guide rail, on slide block 25 with the first bolt 26, platform main support 7 moves at guide rail by slide block 25 and adjusts the position, after adjusting to the right place in the position, the mode that holds out against with the first bolt 26 is fixed.The other end of platform main support 7 (upper end) is provided with plectane 23, be evenly equipped with a plurality of arcuate sockets 24 (present embodiment is four) at circumferencial direction on this plectane 23, the central angle of each arcuate socket 24 is 60 °, link 8 is fixed in arbitrary arcuate socket 24 by the second bolt 27 under the The Cloud Terrace, before fixing, adjust angle, guarantee that link 8 respectively has 60 ° revolution space under the The Cloud Terrace at four direction.The shape and structure of link 9 is identical with link 8 under the The Cloud Terrace on the The Cloud Terrace, be the structure that a flat board and dull and stereotyped both sides are provided with side plate, on the The Cloud Terrace under link 9 and the The Cloud Terrace angle between the link 8 adjustable, be fixing by the 3rd bolt 28 between the link 8 both sides side plate separately under link 9 and the The Cloud Terrace on the The Cloud Terrace, adjust in advance angle before fixing, the angular setting scope is each 120 ° of front and back.Underwater lamp 11 and Underwater Camera 13 are prior art, and underwater lamp fixed mount 10 is affixed by bolt with camera fixing frame 12, and are fixed on the The Cloud Terrace on the link 9; Be connected by bolt between underwater lamp 11 and the underwater lamp fixed mount 10, carry out axis tile by the larynx hoop between Underwater Camera 13 and the Underwater Camera fixed mount 12 and be connected; Be installed in the shooting angle that to adjust Underwater Camera 13 in the different arcuate sockets 24 by link 8 under the angular adjustment between the upper and lower link 8 of The Cloud Terrace, 9 and the The Cloud Terrace.

As shown in Figure 5, the position of watertight electronic compartment 4 in the simulated water pressure test unit can be determined according to actual needs, watertight electronic compartment 4 comprises reinforcement end 14, transparent cover 15, bump joint 16, cabin body 17, hatchcover 18, wears wall joint 19, thermometric depth sensor 20, optical multiplexer 21 and connection terminal 22, one end of its middle deck body 17 is affixed by an end of bolt and bump joint 16, the other end of bump joint 16 is affixed by bolt and transparent cover 15, and the other end sealing thread of cabin body 17 is connected with wears wall joint 19; Thermometric depth sensor 20, optical multiplexer 21 and connection terminal 22 all are positioned at cabin body 17, and by hatchcover 18 sealings affixed with cabin body 17; Optical multiplexer 21 and connection terminal 22 are fixed in the base plate of cabin body 17 by bolt, and thermometric depth sensor 20 screw threads are installed in to be worn on the wall joint 19, is provided with a plurality of underwater electrical connectors 3 on the surface of cabin body 17.Computer control platform 6 links to each other with watertight electronic compartment 4 by watertight optoelectronic composite cable 5, one end of watertight optoelectronic composite cable 5 is integrally connected by sulfuration and reinforcement end 14, and by the through hole insertion of offering in the middle of transparent cover 15 and the bump joint 16, it is affixed by circlip for shaft and transparent cover 15 to strengthen end 14; The other end of watertight optoelectronic composite cable 5 is connected to computer control platform 6.Cable in the watertight optoelectronic composite cable 5 is connected with connection terminal 22, optical cable is connected with optical multiplexer 21, and connection terminal 22 reaches two underwater electrical connectors 3 that link to each other with Underwater Camera 13 with underwater lamp 11 with thermometric depth sensor 20, optical multiplexer 21 respectively and links to each other; Underwater lamp 11 is connected with Underwater Camera and is connected with two underwater electrical connectors 3 on the cabin body 17 by underwater cable 2, wherein also links to each other with optical multiplexer 21 by the underwater electrical connector 3 that watertight cable 2 is connected with Underwater Camera 13.Strengthen on end 14 outside surfaces and the bump joint 16 between the through-hole wall, between the end of bump joint 16 and cabin body 17, between cabin body 17 and the hatchcover 18 and wear between the other end of wall joint 19 and cabin body 17 and be tightly connected by O-ring seal respectively.

Principle of work of the present utility model is:

The utility model can carry out simulated water pressure controlled observation simulated water pressure device inner case of when test at the simulated water pressure test unit, multi-angle is carried out in 1 pair of testing ground of shooting illumination integrated platform, the observation of brightness and different focal, by watertight cable 2, underwater electrical connector 3 is transferred to watertight electronic compartment 4 with observation signal, watertight electronic compartment 4 is with the different focal that obtains, the image of different brightness and the temperature that self records, pressure data is issued computer control platform 6 by watertight optoelectronic composite cable 5 together, computer control platform 6 is responsible for receiving and storage data, passes through simultaneously the watertight electronic compartment to shooting, the brightness of illumination platform, focal lengths etc. are regulated.Be specially:

Before the simulated water pressure test is carried out, shooting illumination integrated platform 1 is carried out the adjustment of position, angle, in order to obtain optimum observation position, angle; Shooting illumination integrated platform 1 can carry out large-scale luffing angle and the circumferential angular setting of level, relative rotation by 7 of link under the The Cloud Terrace 8 and platform main supports (under the The Cloud Terrace link 8 be installed in the different arcuate sockets and can slide in arcuate socket) can be adjusted horizontal observation angle, can adjust the pitching observation angle by the axial-rotation between the link 9 on link under the The Cloud Terrace 8 and the The Cloud Terrace.Underwater Camera 13 adopts integrated fixed form with underwater lamp 11, remains in rotary course synchronously, can better guarantee image effect like this.

When the simulated water pressure test is carried out, computer control platform 6 is underwater lamp 11 by watertight optoelectronic composite cable 5 through connection terminal 22, Underwater Camera 13, thermometric depth sensor 20 and optical multiplexer 21 power supplies, send the adjustment instruction of control underwater lamp 11 brightness and Underwater Camera 13 focal lengths by computer control platform 6, instruction is transferred to watertight electronic compartment 4 through watertight optoelectronic composite cable 5, by connection terminal 22 instruction is transferred to underwater lamp 11 and Underwater Camera 13 through watertight cable 2 in the watertight electronic compartment 4, thereby realizes the function of control underwater lamp 11 brightness and Underwater Camera 13 focal lengths.Simultaneously, thermometric depth sensor 20 is transferred to computer control platform 6 through connection terminal 22 by watertight optoelectronic composite cable 5 with pressure, the temperature data that obtains, the image transmitting of being taken by Underwater Camera 13 is to optical multiplexer 21, optical multiplexer 21 transfers data to computer control platform 6 by connection terminal 22, watertight optoelectronic composite cable 5, is play in real time and is stored by 6 pairs of data of computer control platform at last.

Thermometric depth sensor 20 of the present utility model is commercial product, purchases the GEMS company in Britain, and model is GEMS3100; Optical multiplexer 21 is commercial product, purchases the company in Canadian FOCAL, and model is FOCAL907; Connection terminal 22 is commercial product, purchases the company in German WAGO, and model is WAGO264.

Claims (10)

1. one kind is applied to the interior controllable type test platform of simulated water pressure test unit, it is characterized in that: comprise shooting illumination integrated platform (1), watertight electronic compartment (4) and computer control platform (6), wherein shooting illumination integrated platform (1) comprises platform main support (7), underwater lamp (11) and Underwater Camera (13), underwater lamp (11) and Underwater Camera (13) are installed in respectively on the platform main support (7), and setting angle is adjustable; Described watertight electronic compartment (4) comprises cabin body (17), hatchcover (18), thermometric depth sensor (20), optical multiplexer (21) and connection terminal (22), thermometric depth sensor (20) wherein, optical multiplexer (21) and connection terminal (22) are installed in respectively in the cabin body (17), seal by hatchcover (18), thermometric depth sensor (20), optical multiplexer (21) and described underwater lamp (11), described Underwater Camera (13) is electrically connected with connection terminal (22) respectively, pass to computer control platform (6) by the video image that Underwater Camera (13) is taken by optical multiplexer (21), the temperature that is measured by thermometric depth sensor (20), pressure data is passed to computer control platform (6) by connection terminal (22).

2. by the described controllable type test platform that is applied in the simulated water pressure test unit of claim 1, it is characterized in that: the cabin body (17) of described watertight electronic compartment (4) is provided with a plurality of underwater electrical connectors (3), and underwater lamp (11) and Underwater Camera (13) are connected with connection terminal (22) by underwater electrical connector (3) respectively.

3. by the described controllable type test platform that is applied in the simulated water pressure test unit of claim 2, it is characterized in that: described underwater lamp (11) and Underwater Camera (13) are connected with underwater electrical connector (3), link to each other with connection terminal (22) by watertight cable (2) respectively, computer control platform (6) links to each other with watertight electronic compartment (4) by watertight optoelectronic composite cable (5), and the cable in the watertight optoelectronic composite cable (5) is connected with connection terminal (22), optical cable is connected with optical multiplexer (21); Also link to each other with described optical multiplexer (21) by the underwater electrical connector (3) that watertight cable (2) is connected with Underwater Camera (13).

4. by the described controllable type test platform that is applied in the simulated water pressure test unit of claim 1, it is characterized in that: described shooting illumination integrated platform (1) is positioned at the simulated water pressure test unit, one end of platform main support (7) is provided with slide block (25), this slide block (25) is installed on the interior guide rail of simulated water pressure test unit, move back and forth along guide rail, and by the location of the first bolt (26) on the slide block (25), the other end of described platform main support (7) is provided with plectane (23), at plectane (23) link under the The Cloud Terrace (8) is installed, the angle under link on the The Cloud Terrace (9) and the described The Cloud Terrace between the link (8) is adjustable, and by the 3rd bolt (28) location; Described underwater lamp (11) and Underwater Camera (13) are installed in respectively on the link on the The Cloud Terrace (9).

5. by the described controllable type test platform that is applied in the simulated water pressure test unit of claim 4, it is characterized in that: described plectane (23) is upper to be evenly equipped with a plurality of arcuate sockets (24) at circumferencial direction, and link under the The Cloud Terrace (8) is installed in arbitrary arcuate socket (24) by the second bolt (27).

6. by claim 4 or the 5 described controllable type test platforms that are applied in the simulated water pressure test unit, it is characterized in that: the central angle of described each arcuate socket (24) is 60 °.

7. by the described controllable type test platform that is applied in the simulated water pressure test unit of claim 4, it is characterized in that: described underwater lamp (11) and Underwater Camera (13) are installed on the link on the The Cloud Terrace (9) by underwater lamp fixed mount (10) and camera fixing frame (12) respectively, are installed in the adjustment of shooting angle in the different arcuate sockets (24) by link (8) under the angular adjustment between the upper and lower link of The Cloud Terrace (8,9) and the The Cloud Terrace.

8. by the described controllable type test platform that is applied in the simulated water pressure test unit of claim 1, it is characterized in that: described watertight electronic compartment (4) is positioned at the simulated water pressure test unit, one end of one end of watertight optoelectronic composite cable (5) and cabin body (17) is tightly connected, and the other end of watertight optoelectronic composite cable (5) the computer control platform (6) outer with being positioned at the simulated water pressure test unit links to each other; The other end sealing thread of described cabin body (17) is connected with wears wall joint (19), and described thermometric depth sensor (20) is threaded in this and wears on the wall joint (19).

9. by the described controllable type test platform that is applied in the simulated water pressure test unit of claim 8, it is characterized in that: an end of described cabin body (17) is sealedly connected with bump joint (16), be provided with transparent cover (15) at this bump joint (16), one end of described watertight optoelectronic composite cable (5) is integrally connected by sulfuration and reinforcement end (14), and by the through hole insertion of offering in the middle of transparent cover (15) and the bump joint (16), described reinforcement end (14) is affixed by circlip for shaft and transparent cover (15).

10. by the described controllable type test platform that is applied in the simulated water pressure test unit of claim 9, it is characterized in that: between the upper through-hole wall of described reinforcement end (14) outside surface and bump joint (16), between the end of bump joint (16) and cabin body (17), between cabin body (17) and the hatchcover (18) and wear between the other end of wall joint (19) and cabin body (17) and be tightly connected by O-ring seal respectively.

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