CN205469705U - Novel deep sea floater - Google Patents
Novel deep sea floater Download PDFInfo
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- CN205469705U CN205469705U CN201620017326.XU CN201620017326U CN205469705U CN 205469705 U CN205469705 U CN 205469705U CN 201620017326 U CN201620017326 U CN 201620017326U CN 205469705 U CN205469705 U CN 205469705U
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Abstract
The utility model discloses a novel deep sea floater, it is high to aim at providing a water -resistant pressure degree, is difficult for by the novel deep sea floater of seawater corrosion, and its technical scheme main points are: this internal cavity that is equipped with of deep sea floater, deep sea floater body surface are equipped with first protective layer, second protective layer, first protective layer and second protective layer be by interior toward arranging outward in deep sea floater body surface in proper order, and first recess is including all being circular -arc first buffering face and second buffering face, and first buffering and second cushion an interconnect, the utility model is suitable for a deep sea equipment field.
Description
Technical field
This utility model relates to a kind of deep sea equipment field, more specifically, it relates to a kind of novel deep sea ball float.
Background technology
Deep-sea ball float is that under a kind of water supply, equipment provides buoyancy; place underwater instrument or electronic equipment; deep-sea ball float keeps height reliability in deep-sea extreme environment; containment vessel can also be matched store, protect deep-sea ball float; deep-sea ball float has the advantage that lightweight, low cost, anticorrosion; easy of use, pollution-free.
At present, deep-sea ball float on market it include deep-sea ball float body, although this deep-sea ball float originally can play auxiliary and place the ability of underwater installation, but in order to improve stablizing when underwater installation is placed, and the levels of precision of the putting position arrived, need to adjust for a long time position, and be in deep-sea at the working environment of deep-sea ball float, the pressure of water can increase along with the increase of the degree of depth, the pressure being caused deep-sea ball float body also can be increasing, so the intensity resistant to pressure of deep-sea ball float body, and the corrosion-resistant degree the most current deep-sea ball float body of sea water to be improved.
Utility model content
The deficiency existed for prior art, the purpose of this utility model is to provide a kind of intensity resistant to pressure high, corrosion resistant novel deep sea ball float.
nullFor achieving the above object,This utility model provides following technical scheme: described deep-sea ball float is the most internal is provided with cavity,Deep-sea ball float body surface is provided with by interior the first protective layer arranged the most successively and the second protective layer,The first groove of shape ringwise it is evenly equipped with on described first protective layer,Described first groove includes all the first buffering suface in arc-shaped and the second buffering suface,First buffering suface and the second buffering suface are connected with each other,It is protruding that described second protective layer inner surface is provided with first suitable with the first groove,Second protective layer outer surface is provided with strip boss,Second protective layer is additionally provided with the first anticorrosive coat for preventing seawater corrosion,Described first anticorrosive coat inner surface is provided with second groove suitable with boss,It is protruding that first anticorrosive coat outer surface is provided with second,Second projection includes all the first resistance to compression portions in arc-shaped、Supporting part and the second resistance to compression portion,Described supporting part is placed between the first resistance to compression portion and the second resistance to compression portion,First resistance to compression portion、Supporting part and the second resistance to compression portion one connect,First anticorrosive coat outer surface is additionally provided with tiny micropore,First anticorrosive coat outer surface is additionally provided with the 3rd protective layer for sealing tiny micropore,3rd protective layer inner surface is provided with and the second protruding the 3rd suitable groove.
nullBy using technique scheme,Deep-sea ball float is the most internal is provided with cavity,Deep-sea ball float body surface is provided with the first protective layer、Second protective layer,First protective layer and the second protective layer are arranged in deep-sea ball float body surface the most successively by interior,First protective layer is provided with equally distributed first groove,First groove shape ringwise,First groove includes all the first buffering suface in arc-shaped and the second buffering suface,First buffering suface and the second buffering suface are connected with each other,It is protruding that second protective layer inner surface is provided with first suitable with the first groove,Second protective layer outer surface is provided with strip boss,Because the harshness that the working environment of deep-sea ball float body is very,Sea water can be strengthened along with the reinforcement of the degree of depth for the pressure of deep-sea ball float body,While needs adjust underwater installation for a long time,The intensity of deep-sea ball float body is also required to constantly strengthen,Deep-sea ball float body surface is provided with the first protective layer and the second protective layer by this utility model,First protective layer and the second protective layer are arranged in deep-sea ball float body surface the most successively by interior,In order to alleviate quality and the density of ball float,Increase the buoyancy effects of ball float simultaneously,First protective layer is provided with equally distributed first groove,First groove shape ringwise,First groove includes all the first buffering suface in arc-shaped and the second buffering suface,First buffering suface and the second buffering suface are connected with each other,The hydraulic pressure of a part can will be buffered by arc-shaped the first buffering suface being provided with and the second buffering suface,Increase the intensity resistant to pressure of deep-sea ball float body simultaneously,Second protective layer inner surface sets by first be connected with the first groove protruding,Second protective layer outer surface is provided with strip boss,In order to further increase the intensity resistant to pressure of deep-sea ball float body,It is provided with by the first protruding the second protective layer being connected at the first protective layer,Second protective layer is additionally provided with strip boss,The first groove being simultaneously provided with by the first protective layer outer surface and the second protective layer outer surface are provided with strip boss and define the clover leaf arrangement mode of crosswise,Deep-sea ball float body is carried out the effect of cross parcel by such arrangement mode,Can further improve the intensity resistant to pressure of deep-sea ball float body,Second protective layer outer surface is additionally provided with the first anticorrosive coat for preventing seawater corrosion,First anticorrosive coat inner surface is provided with second groove suitable with boss,It is protruding that first anticorrosive coat outer surface is provided with circular second,Second projection includes all the first resistance to compression portions in arc-shaped、Supporting part and the second resistance to compression portion,Supporting part is placed between the first resistance to compression portion and the second resistance to compression portion,First resistance to compression portion、Supporting part and the second resistance to compression portion one connect,First anticorrosive coat outer surface is additionally provided with densely arranged tiny micropore,First anticorrosive coat outer surface is additionally provided with the 3rd protective layer for sealing tiny micropore,In order to increase deep-sea ball float body, there is in deep-sea certain anti-corrosion capability,Second protective layer is provided with the first anticorrosive coat for preventing seawater corrosion,Simultaneously in order to increase the intensity resistant to pressure of the first anticorrosive coat,It is protruding that first anticorrosive coat is provided with second,Second projection includes all the first resistance to compression portions in arc-shaped、Supporting part and the second resistance to compression portion,Supporting part is placed between the first resistance to compression portion and the second resistance to compression portion,First resistance to compression portion、Supporting part and the second resistance to compression portion one connect,By all the first resistance to compression portions in arc-shaped、Supporting part and the arc buffering effect in the second resistance to compression portion,Deep-sea ball float body can be made to have more the buffering effect for seawater pressure,The intensity of deep-sea ball float body can also be increased simultaneously,First anticorrosive coat outer surface is additionally provided with tiny micropore,First anticorrosive coat outer surface is additionally provided with the 3rd protective layer for sealing tiny micropore,3rd protective layer inner surface is provided with and the second protruding the 3rd suitable groove,By the 3rd protective layer is provided with densely arranged tiny micropore,First anticorrosive coat outer surface is additionally provided with the 3rd protective layer for sealing tiny micropore,By adding densely arranged tiny micropore and the 3rd protective layer being provided with on the first anticorrosive coat surface,The tiny micropore making the 3rd protective layer forms the most tiny inflating cells,Thus reduce the density of deep-sea ball float body,Add the buoyancy of deep-sea ball float,The tiny inflating cells simultaneously formed by the 3rd protective layer,Thus offset the hydraulic pressure of a part,Further increase the intensity resistant to pressure of deep-sea ball float.
This utility model is further arranged to: described deep-sea ball float body, the first protective layer, the second protective layer, the 3rd protective layer and the first anticorrosive coat all use wollastonite in powder material.
By using technique scheme; deep-sea ball float body, the first protective layer, the second protective layer, the 3rd protective layer and the first anticorrosive coat all use wollastonite in powder material; the deep-sea ball float body using wollastonite in powder material more can increase the intensity of deep-sea ball float body; increase the intensity resistant to pressure of deep-sea ball float body; simultaneously according to the characteristic of wollastonite material itself, moreover it is possible to increase the corrosion-resistant intensity of deep-sea ball float body.
This utility model is further arranged to: described deep-sea ball float body, the first protective layer, the second protective layer, the first anticorrosive coat and the 3rd protective layer are one-body molded.
By using technique scheme; deep-sea ball float body, the first protective layer, the second protective layer and the 3rd protective layer are one-body molded; by by one-body molded to deep-sea ball float body, the first protective layer, the second protective layer and the 3rd protective layer; further increase the intensity of deep-sea ball float, add the intensity resistant to pressure of deep-sea ball float body.
Accompanying drawing explanation
Fig. 1 is the three-dimensional cutaway view of this utility model embodiment.
Fig. 2 is the first protective layer sectional view of this utility model embodiment.
Fig. 3 is the second protective layer sectional view of this utility model embodiment.
Fig. 4 is the first anticorrosive coat sectional view of this utility model embodiment.
Fig. 5 is the 3rd protective layer sectional view of this utility model embodiment.
Reference in figure, 1-deep-sea ball float body, 11-the first protective layer; 111-the first groove, 1111-the first buffering suface, 1112-the second buffering suface; 12-the second protective layer, 121-first is protruding, 122-boss; 13-the first anticorrosive coat, 131-the second groove, the tiny micropore of 132-; 133-second is protruding, 1331-the first resistance to compression portion, 1332-supporting part; 1333-the second resistance to compression portion, 14-the 3rd protective layer, 141-the 3rd groove.
Detailed description of the invention
Referring to figs. 1 through Fig. 5, this utility model embodiment is described further.
nullA kind of novel deep sea ball float,It is provided with cavity in deep-sea ball float body 1,Ball float body 1 surface, deep-sea is provided with the first protective layer 11、Second protective layer 12,First protective layer 11 and the second protective layer 12 are arranged in ball float body 1 surface, deep-sea the most successively by interior,First protective layer 11 surface is provided with equally distributed first groove 111,First groove 111 shape ringwise,First groove 111 includes all the first buffering suface 1111 and the second buffering sufaces 1112 in arc-shaped,First buffering suface 1111 and the second buffering suface 1112 are connected with each other,Second protective layer 12 inner surface is provided with the first projection 121 being connected with the first groove 111,Second protective layer 12 outer surface is provided with strip boss 122,Because the harshness that the working environment of deep-sea ball float body 1 is very,Sea water can be strengthened along with the reinforcement of the degree of depth for the pressure of deep-sea ball float body 1,While needs adjust underwater installation for a long time,The intensity of deep-sea ball float body 1 is also required to constantly strengthen,Ball float body 1 surface, deep-sea is provided with the first protective layer 11 and the second protective layer 12 by this utility model,First protective layer 11 and the second protective layer 12 are arranged in ball float body 1 surface, deep-sea the most successively by interior,In order to alleviate quality and the density of ball float,Increase the buoyancy effects of ball float simultaneously,First protective layer 11 surface is provided with equally distributed first groove 111,First groove 111 shape ringwise,First groove 111 includes all the first buffering suface 1111 and the second buffering sufaces 1112 in arc-shaped,First buffering suface 1111 and the second buffering suface 1112 are connected with each other,In arc-shaped, the hydraulic pressure of a part can will be buffered by the first buffering suface 1111 and the second buffering suface 1112,Increase the intensity resistant to pressure of deep-sea ball float body 1 simultaneously,Second protective layer 12 inner surface sets by the first projection 121 being connected with the first groove 111,Second protective layer 12 outer surface is provided with strip boss 122,In order to further increase the intensity resistant to pressure of deep-sea ball float body 1,It is provided with on the first protective layer 11 surface by the first protruding 121 the second protective layer 12 being connected,Second protective layer 12 surface is additionally provided with strip boss 122,The first groove 111 being simultaneously provided with by the first protective layer 11 outer surface and the second protective layer 12 outer surface are provided with strip boss 122 and define the clover leaf arrangement mode of crosswise,Deep-sea ball float body 1 is carried out the effect of cross parcel by such arrangement mode,Can further improve the intensity resistant to pressure of deep-sea ball float body 1,Second protective layer 12 outer surface is additionally provided with the first anticorrosive coat 13 for preventing seawater corrosion,First anticorrosive coat 13 inner surface is provided with second groove 131 suitable with boss 122,First anticorrosive coat 13 outer surface is provided with circular second projection 133,Second projection 133 includes all the first resistance to compression portions 1331 in arc-shaped、Supporting part 1332 and the second resistance to compression portion 1333,Supporting part 1332 is placed between the first resistance to compression portion 1331 and the second resistance to compression portion 1333,First resistance to compression portion 1331、Supporting part 1332 and the second resistance to compression portion 1333 one connect,First anticorrosive coat 13 outer surface is additionally provided with densely arranged tiny micropore 132,First anticorrosive coat 13 outer surface is additionally provided with the 3rd protective layer 14 for sealing tiny micropore 132,In order to increase deep-sea ball float body 1, there is in deep-sea certain anti-corrosion capability,Second protective layer 12 surface is provided with the first anticorrosive coat 13 for preventing seawater corrosion,Simultaneously in order to increase the intensity resistant to pressure of the first anticorrosive coat 13,First anticorrosive coat 13 is provided with the second projection 133,Second projection 133 includes all the first resistance to compression portions 1331 in arc-shaped、Supporting part 1332 and the second resistance to compression portion 1333,Supporting part 1332 is placed between the first resistance to compression portion 1331 and the second resistance to compression portion 1333,First resistance to compression portion 1331、Supporting part 1332 and the second resistance to compression portion 1333 one connect,By all the first resistance to compression portions 1331 in arc-shaped、Supporting part 1332 and the arc buffering effect in the second resistance to compression portion 1333,Deep-sea ball float body 1 can be made to have more the buffering effect for seawater pressure,The intensity of deep-sea ball float body 1 can also be increased simultaneously,The intensity of deep-sea ball float body 1 can also be increased simultaneously,First anticorrosive coat 13 outer surface is additionally provided with densely arranged tiny micropore 132,First anticorrosive coat 13 outer surface is additionally provided with the 3rd protective layer 14 for sealing tiny micropore 132,3rd protective layer 14 inner surface is provided with the 3rd groove 141 matched with the second projection 133,By the 3rd protective layer 14 surface is provided with densely arranged tiny micropore 132,First anticorrosive coat 13 outer surface is additionally provided with the 3rd protective layer 14 for sealing tiny micropore 132,By adding densely arranged tiny micropore 132 and the 3rd protective layer 14 being provided with on the first anticorrosive coat 13 surface,The tiny micropore 132 making the 3rd protective layer 14 surface forms the most tiny inflating cells,Thus reduce the density of deep-sea ball float body 1,Add the buoyancy of deep-sea ball float,The tiny inflating cells simultaneously formed by the 3rd protective layer 14,Thus offset the hydraulic pressure of a part,Further increase the intensity resistant to pressure of deep-sea ball float.
This utility model is further arranged to; deep-sea ball float body the 1, first protective layer the 11, second protective layer the 12, the 3rd protective layer 14 and the first anticorrosive coat 13 all use wollastonite in powder material; the deep-sea ball float body 1 using wollastonite in powder material more can increase the intensity of deep-sea ball float body 1; increase the intensity resistant to pressure of deep-sea ball float body 1; simultaneously according to the corrosion resistant characteristic of wollastonite material itself, moreover it is possible to increase the deep-sea ball float body 1 corrosion-resistant intensity to sea water.
This utility model is further arranged to; deep-sea ball float body the 1, first protective layer the 11, second protective layer 12 and the 3rd protective layer 14 are one-body molded; by by one-body molded to deep-sea ball float body the 1, first protective layer the 11, second protective layer 12 and the 3rd protective layer 14; further increase the intensity of deep-sea ball float, add the intensity resistant to pressure of deep-sea ball float body 1.
The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, those skilled in the art carries out common variations and alternatives in the range of technical solutions of the utility model and should be included in protection domain of the present utility model.
Claims (3)
- null1. a novel deep sea ball float,Including deep-sea ball float body,It is characterized in that: described deep-sea ball float is the most internal is provided with cavity,Deep-sea ball float body surface is provided with by interior the first protective layer arranged the most successively and the second protective layer,The first groove of shape ringwise it is evenly equipped with on described first protective layer,Described first groove includes all the first buffering suface in arc-shaped and the second buffering suface,First buffering suface and the second buffering suface are connected with each other,It is protruding that described second protective layer inner surface is provided with first suitable with the first groove,Second protective layer outer surface is provided with strip boss,Second protective layer is additionally provided with the first anticorrosive coat for preventing seawater corrosion,Described first anticorrosive coat inner surface is provided with second groove suitable with boss,It is protruding that first anticorrosive coat outer surface is provided with second,Second projection includes all the first resistance to compression portions in arc-shaped、Supporting part and the second resistance to compression portion,Described supporting part is placed between the first resistance to compression portion and the second resistance to compression portion,First resistance to compression portion、Supporting part and the second resistance to compression portion one connect,First anticorrosive coat outer surface is additionally provided with tiny micropore,First anticorrosive coat outer surface is additionally provided with the 3rd protective layer for sealing tiny micropore,3rd protective layer inner surface is provided with and the second protruding the 3rd suitable groove.
- A kind of novel deep sea ball float the most according to claim 1, is characterized in that: described first protective layer, the second protective layer, the 3rd protective layer, the first anticorrosive coat all use wollastonite in powder material to form.
- A kind of novel deep sea ball float the most according to claim 2, is characterized in that: described deep-sea ball float body, the first protective layer, the second protective layer, the first anticorrosive coat and the 3rd protective layer are one-body molded.
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CN201620017326.XU CN205469705U (en) | 2016-01-07 | 2016-01-07 | Novel deep sea floater |
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CN201620017326.XU CN205469705U (en) | 2016-01-07 | 2016-01-07 | Novel deep sea floater |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107759206A (en) * | 2017-11-16 | 2018-03-06 | 深圳市大擎科技有限公司 | High-pressure resistant ceramic spherical shell, preparation method and deep-sea buoyant device |
CN107867380A (en) * | 2016-09-23 | 2018-04-03 | 上海材料研究所 | A kind of ceramic hollow buoyant spheres surface protective structure and preparation method thereof |
-
2016
- 2016-01-07 CN CN201620017326.XU patent/CN205469705U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107867380A (en) * | 2016-09-23 | 2018-04-03 | 上海材料研究所 | A kind of ceramic hollow buoyant spheres surface protective structure and preparation method thereof |
CN107759206A (en) * | 2017-11-16 | 2018-03-06 | 深圳市大擎科技有限公司 | High-pressure resistant ceramic spherical shell, preparation method and deep-sea buoyant device |
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