CN202703875U - Ocean buoy underwater pressure chamber - Google Patents

Abstract

The utility model relates to an ocean buoy underwater pressure chamber which comprises an underwater pressure chamber body (10), an upper sealing end cover (18) and a lower sealing end cover (6). The ocean buoy underwater pressure chamber is characterized in that the upper sealing end cover (18) and the lower sealing end cover (6) are respectively provided with sealing end rings (15,8); a mounting groove (25), inner bulge loop walls (13,4) and outer bulge loop walls (14,3) are respectively arranged on the middle portion and two sides of end portions of the inner sides of the sealing end rings (15,8) at the upper end and the lower end; mounting bosses (17,7), inner grooves (23,21) and outer grooves (22,20) are respectively mounted on upper end portions and lower end portions of a middle portion and two sides of a circumferential chamber wall of the underwater pressure chamber body (10); the mounting groove (25), the inner bulge loop walls (13,4) and the outer bulge loop walls (14,3) are combined with the mounting bosses (17,7), the inner grooves (23,21) and the outer grooves (22,20) as a whole in a mounting mode. In addition, an outer circumferential chamber wall of the underwater pressure chamber body (10) is provided with a protective layer (11). The ocean buoy underwater pressure chamber has the advantages of being simple in structure, strong in capacity for resisting seawater pressure and seawater corrosion, high in structural strength and sealing property, and the like.

Description

A kind of oceanographic buoy Underwater Pressure cabin

Technical field

The utility model relates to the ocean monitoring technologytechnologies field, particularly is widely used in a kind of oceanographic buoy Underwater Pressure cabin of underwater sensor.

Background technology

As everyone knows, oceanographic buoy is the large automatic marine instrument and equipment of a kind of round-the-clock, full automaticity, long-time running, requirement can be uninterruptedly throughout the year stable operation at sea.The sensor-based system that buoy is used for the monitoring marine information is divided into waterborne and undersea sensor systems two parts.At present, human to the obtaining of deep-sea underwater environment information, as normally to utilize various monitoring equipments under water to monitor or to collect marine environment information passes to the external world in the mode of water surface communicating buoy communication, received by ground station again, wholely obtain work with what this finished information.Previous methods is to utilize a plurality of buoyant spheres in loose mode, forms under water a certain depth of a relatively uniform fabricate block anchoring, and with this fabricate block as the body of mooring under water under the communicating buoy floating on water state.The method is specifically: the form with single communicating buoy links to each other by communication cable with the buoyant spheres fabricate block, and various monitoring instrument and equipment just directly hang on this fabricate block, consist of thus a underwater monitoring system.This mode advantage is low, the handling ease of cost, but maximum deficiency is: if the communicating buoy of floating on water is subjected to the impact of nature or the factor such as artificial, in case damage, will causes system and the external world to contact interruption, and then cause systemic breakdown.This thing happens; to remedy under abyssal environment; again lay after having to salvage recovery; this process will be brought a large amount of drains on manpower and material resources; because the service efficiency of this array mode is excessively low; for this reason; people have proposed various oceanographic buoy Underwater Pressures cabin; because this oceanographic buoy Underwater Pressure cabin is to be deep into below the dark seawater of 200-300 rice; bear larger sea pressure and marine corrosion, structural strength and the sealing property in oceanographic buoy Underwater Pressure cabin are had relatively high expectations, so; present stage is in the urgent need to solving, to satisfy the growing needs of marine environmental monitoring.

The utility model content

The purpose of this utility model is: for the problem that prior art exists, design and develop rational in infrastructurely, lightweight, it is strong to resist sea pressure and marine corrosion ability, a kind of oceanographic buoy Underwater Pressure cabin that structural strength and sealing property are higher.

The technical scheme that its technical matters that solves the utility model adopts is: a kind of oceanographic buoy Underwater Pressure cabin, comprise Underwater Pressure cabin body 10, and upper end cover 18, lower seal end cap 6 is characterized in that:

Sealing end ring 15 and sealing end ring 8 are set respectively on A, upper end cover 18 and the lower seal end cap 6, wherein, in the middle of sealing end ring 15 medial ends of upper end and both sides arrange respectively installs groove 25 and convex ring wall 13 and evagination ring wall 14, with both sides the identical installation groove 25 of size and convex ring wall 4 and evagination ring wall 3 are set respectively also in the middle of sealing end ring 8 medial ends of corresponding lower end, and with the inner groovy 23 of the upper and lower end of Underwater Pressure cabin body 10 circumference bulkheads and 21 and outer groove 22 and 20 cooperate and be installed as one;

In the middle of the upper and lower end of B, Underwater Pressure cabin body 10 circumference bulkheads and both sides are respectively equipped with installation base 17 and 7 and inner groovy 23 and 21 and outer groove 22 and 20, and with installation groove 25 and convex ring wall 13 and 4 on the sealing end ring 15 and 8, and evagination ring wall 14 and 3 cooperates and to be installed as one, shown in Fig. 1-6, Underwater Pressure cabin body 10 can adopt carbon fiber or metallic material manufacturing here.

Body 10 excircle cabin body walls in said Underwater Pressure cabin are provided with protective cover 11, as shown in Figure 1.

Said upper end cover 18 is provided with the captive joint bolt 1 of captiveing joint with Underwater Pressure cabin body 12 with lower seal end cap 6, shown in Fig. 1-6.

Said protective cover 11 adopts the elastomeric material manufacturing, and also can adopt other anti-material marine corrosion here and have sealing property, and the crash-resistant material etc.

The principle of work of present technique and working process :At first be that sealing end ring 15 and sealing end ring 8 are set respectively on upper end cover 18 and the lower seal end cap 6, this novel structure is unique, adopt interference fit, and be installed as one by captive joint bolt 1 heavy keying fit, favorable sealing property, can satisfy oceanographic buoy Underwater Pressure cabin to structural strength and the higher requirement of sealing property, and, because oceanographic buoy Underwater Pressure cabin is to be deep into below the dark seawater of 200-300 rice, this structure design along with deep sea pressure more and more ambassador it is inwardly stressed, sealing property is just better like this.Simultaneously, body 10 excircle cabin body walls in Underwater Pressure cabin are provided with protective cover 11(as shown in Figure 1), adopt the elastomeric material manufacturing, both anti-collisions can be born marine corrosion again here, improve again the effect of sealing, reach the effect of double seal.In addition, be provided with respectively the seal operation hole 26(of various installations and work usefulness on the upper and lower end cover 18 of Underwater Pressure cabin body 10 and the end cover 6 or be called the seal operation hole of lower seal end cap 6), seal operation hole 27, seal operation hole 28, working hole 29 and 30 etc., the convenient use.

The beneficial effect of present technique is: rational in infrastructure, lightweight, easy to carry, simple in structure, not fragile, it is strong to resist sea pressure and marine corrosion ability, and structural strength and sealing property are higher, actual test and easy and simple to handle etc.

Description of drawings

Fig. 1 is the front view of overall structure of the present utility model.

Fig. 2 is the front view of Underwater Pressure of the present utility model cabin body 10.

Fig. 3 is that the sealing end ring 15(sealing end ring 15 of upper and lower end of the present utility model is opposite with sealing end ring 8 the two size equidirectional) front view.

Fig. 4 is that end cover 6(end cover 6 of the present utility model is opposite with end cover 18 the two size equidirectional) front view.

Fig. 5 is the right elevation (also being the right elevation of Fig. 4) of Fig. 1.

Fig. 6 is the left view of Fig. 1.

1 captive joint bolt; 2 grooves; 3 evagination ring walls (or being called sealing end ring 8 evagination ring walls); 4 convex ring walls (or being called sealing end ring 8 convex ring walls); the 5 huge linkage hole connecting bore of lower seal end cap 6 (or be called); 6 lower seal end caps; 7 installation bases (or being called installation base under the body of Underwater Pressure cabin); 8 sealing end ring (or being called the lower seal end ring); the 9 connecting bores connecting bore of lower seal end cap 6 (or be called); 10 Underwater Pressure cabin bodies; 11 protective coveres (or being called rubber cover); the 12 connecting bores connecting bore of end cover 18 (or be called); 13 convex ring walls (or being called sealing end ring 15 convex ring walls); 14 evagination ring walls (or being called sealing end ring 15 evagination ring walls); 15 sealing end ring (or being called the sealing end ring); 16 grooves; 17 installation bases (or being called Underwater Pressure cabin body upper mounting boss); end cover on 18; the 19 huge linkage hole huge linkage hole of end cover 18 (or be called); the 20 outer grooves outer groove of body lower end, Underwater Pressure cabin (or be called); the 21 inner groovies inner groovy of body lower end, Underwater Pressure cabin (or be called); the 22 outer grooves outer groove of Underwater Pressure cabin body upper end (or be called); the 23 inner groovies inner groovy of Underwater Pressure cabin body upper end (or be called); 24 captive joint bolts hole (or are called; lower seal end ring groove 15 and 8 the captive joint bolt hole 24 of captiveing joint bolt 1); 25 install groove (or is called; lower seal end ring 15 and 8 installation groove); the 26 seal operation holes seal operation hole of lower seal end cap 6 (or be called); 27 seal operation holes; 28 seal operation holes; 29 working holes, 30 working holes.

The specific embodiment

The specific embodiment of the present utility model, shown in Fig. 1-6, a kind of oceanographic buoy Underwater Pressure cabin comprises Underwater Pressure cabin body 10, upper end cover 18, lower seal end cap 6 is characterized in that:

Sealing end ring 15 and sealing end ring 8 are set respectively on A, upper end cover 18 and the lower seal end cap 6, wherein, in the middle of sealing end ring 15 medial ends of upper end and both sides arrange respectively installs groove 25 and convex ring wall 13 and evagination ring wall 14, with both sides the identical installation groove 25 of size and convex ring wall 4 and evagination ring wall 3 are set respectively also in the middle of sealing end ring 8 medial ends of corresponding lower end, and with the inner groovy 23 of the upper and lower end of Underwater Pressure cabin body 10 circumference bulkheads and 21 and outer groove 22 and 20 cooperate and be installed as one;

In the middle of the upper and lower end of B, Underwater Pressure cabin body 10 circumference bulkheads and both sides are respectively equipped with installation base 17 and 7 and inner groovy 23 and 21 and outer groove 22 and 20, and with installation groove 25 and convex ring wall 13 and 4 on the sealing end ring 15 and 8, and evagination ring wall 14 and 3 cooperates and to be installed as one, shown in Fig. 1-6, Underwater Pressure cabin body 10 can adopt carbon fiber or metallic material manufacturing here.

Body 10 excircle cabin body walls in said Underwater Pressure cabin are provided with protective cover 11, as shown in Figure 1.

Said upper end cover 18 is provided with the captive joint bolt 1 of captiveing joint with Underwater Pressure cabin body 12 with lower seal end cap 6, shown in Fig. 1-6.

Said protective cover 11 adopts the elastomeric material manufacturing, and also can adopt other anti-material marine corrosion here and have sealing property, and the crash-resistant material etc.

Claims (4)

1. an oceanographic buoy Underwater Pressure cabin comprises Underwater Pressure cabin body (10), upper end cover (18), and lower seal end cap (6) is characterized in that:

A, sealing end ring (15) and sealing end ring (8) are set respectively on upper end cover (18) and the lower seal end cap (6), wherein, in the middle of sealing end ring (15) medial end of upper end and both sides arrange respectively installs groove (25) and convex ring wall (13) and evagination ring wall (14), with both sides the identical installation groove (25) of size and convex ring wall (4) and evagination ring wall (3) are set respectively also in the middle of sealing end ring (8) medial end of corresponding lower end, and upper with Underwater Pressure cabin body (10) circumference bulkhead, the inner groovy (23 of bottom, 21) and outer groove (22,20) cooperate and to be installed as one;

In the middle of the upper and lower end of B, Underwater Pressure cabin body (10) circumference bulkhead and both sides are respectively equipped with installation base (17,7) and inner groovy (23,21) and outer groove (22,20), and with installation groove (25) and the convex ring wall (13,4) on the sealing end ring (15,8), and evagination ring wall (14,3) cooperation is installed as one.

2. a kind of oceanographic buoy Underwater Pressure as claimed in claim 1 cabin, it is characterized in that: said Underwater Pressure cabin body (10) excircle cabin body wall is provided with protective cover (11).

3. a kind of oceanographic buoy Underwater Pressure as claimed in claim 1 or 2 cabin, it is characterized in that: said upper end cover (18) is provided with the captive joint bolt (1) of captiveing joint with Underwater Pressure cabin body (12) with lower seal end cap (6).

4. such as claim or 2 described a kind of oceanographic buoy Underwater Pressure cabins, it is characterized in that: said protective cover (11) adopts the elastomeric material manufacturing. ?

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