CN103563802A

CN103563802A - Buoy for aquaculture and manufacturing metho

Info

Publication number: CN103563802A
Application number: CN201310327505.4A
Authority: CN
Inventors: 金学建
Original assignee: Individual
Current assignee: Guangdong Liansu Agricultural Facility Technology Co ltd
Priority date: 2012-08-01
Filing date: 2013-07-31
Publication date: 2014-02-12
Anticipated expiration: 2033-07-31
Also published as: KR101200020B1; CN103563802B

Abstract

A buoy for the cultivation of marine products and a manufacturing method thereof are provided to enhance the hardness of a buoy. A buoy for the cultivation of marine products comprises a bag extruding device(10), a bag molding device(20), a radiation cross-linking device(30), and a stretching unit(40). The bag extruding device supplies synthetic resin and extrudes a bag. The bag molding device supplies air inside a bag and molds the bag in the shape of a cylinder. The radiation cross-linking device radiates ultraviolet rays or infrared rays and improves chemical and mechanical properties. The stretching unit supplies a bag to the radiation cross-linking device and stretches the length and diameter of the bag.

Description

Buoy and manufacture method thereof for culture fishery

Technical field

The present invention relates to buoy and manufacture method thereof for culture fishery, specifically will by polystyrene, be steeped that last plastics or synthetic resin form and irradiate after crosslinked and extend culture fishery buoy and the manufacture method thereof that hot briquetting is integrated along the sack of external diameter extrusion modling.

Background technology

The useful polystyrene of kind of the buoy that culture fishery is used steeps the buoy of last plastic shaping and by the buoy of synthetic resin blow molding, wherein polystyrene steeps more that last plastic buoy uses.

It is to be shaped to columnar both sides coiling binding 63 uses that traditional polystyrene steeps last plastic buoy, and because the strength that slot part 62 is applied is large, buoy is used for a long time, easily or distortion damaged by great waves or tidewater and tsunami etc.

And polystyrene steeps the rough of last plastics, the impact of the seawater such as great waves is directly passed and easily damaged or distortion.

Buoy is damaged, and its fragment can Marine Pollution, and slot part suffers bad use of breakage a little, piles up seashore limit or open storage ground as waste disposal.

For solving described problem, general use will form the buoy of the main body 65 use synthetic resin blow moldings in space 66 on internal diameter, although it is the problems such as durability is low and the life-span is short problem or environmental pollution that this synthetic resin buoy has made up defect that polystyrene steeps last plastic buoy, but its cost of manufacture is high, when using the instruments such as hook or pliers to install in plant or receiving buoy, buoy is easily broken, and operating speed is also slow and reduce operating efficiency.

Korean utility model registration numbering No. 0309039 (2003. 03. 17. registration), Korean Utility Model is openly numbered (2000. 12. 15. is open) No. 2000-0020942, Korean Patent Registration numbering No. 0857470 (2008. 09. 02. registration), the conventional arts such as Korean utility model registration numbering No. 227202 (2001. 04. 02. registration) are also to putting cover on buoy external diameter with protection buoy except above-mentioned defect, but the part that can not entangle buoy is to fix with rope, night is indistinguishable buoy, easily cause accident to occur, or to adopt polystyrene to steep last plastics be bad adjusting buoyancy, and surface is pasted the foreign matters such as shell and is affected buoyancy, need cleaned at regular intervals, and a polystyrene part of steeping last plastics easily comes off and causes bad and lose buoyancy.

[prior art document]

[patent documentation]

(patent documentation 1) document 1. Korean utility model registration numbering No. 0309039 (2003. 03. 17. registration)

(patent documentation 2) document 2. Korea S are newly with novel openly number No. 2000-0020942 (2000. 12. 15. is open)

(patent documentation 3) document 3. Korean Patent Registration numbering No. 0857470 (2008. 09. 02. registration)

(patent documentation 4) document 4. Korean utility model registration numbering No. 227202 (2001. 04. 02. registration).

Summary of the invention

technical problem

The object of the present invention is to provide a kind of by the extrusion modling of synthetic resin sack by irradiating and crosslinkedly making its tolerance sunlight sclerosis more, and extend 20 ~ 30% and be enclosed within after producing on the external diameter of buoy and add thermosetting one-piece meter face, to solve described problem.

The problem to be solved in the present invention is exactly that buoy becomes one and is convenient to carrying and management, smooth surface and reduce the impact that is subject to great waves, when preventing the halobiontic breedings such as shell for ease of maintenaince.

technical scheme

The present invention is at polystyrene foam plastics and has the main body both sides formation slot part in space and engage the culture fishery buoy that binding is used;

By double-deck extrusion modling and irradiate the sack that extends 20 ~ 30% moulding after crosslinked and be enclosed within described polystyrene and steep last plastics and there is heating on the external diameter of main body in space and become one.

The invention is characterized in, this implementation step comprises:

Vinyl bag moulding, supply synthetic resin is squeezed into double-ply bag and between bilayer, supplies air;

Irradiate crosslinked, supply described sack and from use trimethoxy vinyl silanes silane thermal decomposition process, utilize electron beam or UV illuminated line apply irradiation energy causing crosslinked irradiation cross-linking method, utilize the free radical (Radical) being formed by the additives such as organic hydroperoxide agent or crosslinking agent to implement to select a certain method to implement to irradiate crosslinked crosslinked chemical crosslink technique;

Prolong body, supply the crosslinked sack of described irradiation and make it to extend 20 ~ 30%;

Buoy coating, heats the sack of described extension sack and buoy are become one to the external diameter supply of buoy;

Both side surface processing, the sack heating sack and the buoy that in the supply of the both sides of described buoy, extend are shaped to one.

beneficial effect

Beneficial effect of the present invention is, because adopting after the extrusion modling of synthetic resin sack, through irradiating and crosslinked its tolerance sunlight and harder that makes, and be enclosed within the method heating afterwards on the external diameter of buoy after extending 20 ~ 30% productions, therefore buoy and sack form integral type surface, expose in the sun, can promote the adaptibility to response to great waves, and life-extending.

And buoy and sack are through being heated as one and being convenient to carrying and management, the impact that smooth surface and reducing is impacted by great waves, prevent the breeding of the marine organisms such as shell, and part can be entangled new sack heating while sustaining damage and become one with main body and be convenient to maintenance and can also reuse.

Accompanying drawing explanation

Fig. 1 is the front view of the manufacturing installation of the preferred embodiment of the present invention.

Fig. 2 is the enlarged drawing of the recess of extension apparatus of the present invention.

Fig. 3 is the block diagram of manufacture process of the present invention.

Fig. 4 is the profile that polystyrene of the present invention steeps last plastic buoy.

Fig. 5 is the profile of synthetic resin buoy of the present invention.

Fig. 6 is the profile of another embodiment of the present invention.

Fig. 7 is the front view of extension apparatus of the present invention.

Fig. 8 is the end view of extension apparatus of the present invention.

reference numeral

10: sack pressurizing unit; 20: sack shaped device;

30: irradiate crosslinking apparatus; 40: extension apparatus;

41: extend mould; 42,43: deflector roll;

50: sack; 60: buoy;

61: polystyrene steeps last plastics; 62: slot part;

63: binding; 65: main body;

66: space; 70: daylighting portion;

71: drive division; 72: battery pack;

73: illuminating part; 110: roller;

120: extend roller; 130: thermal medium;

150: extending cylinder.

Embodiment

Below in conjunction with accompanying drawing, the preferred embodiment of the present invention is described in detail.

Fig. 1 is the front view of the manufacturing installation of the preferred embodiment of the present invention.Fig. 2 is the enlarged drawing of the recess of extension apparatus of the present invention.

Its composition comprises: sack pressurizing unit 10, is squeezed into double-deck sack 50 after the thawings such as supply synthetic resin (PE);

Sack shaped device 20 is cylindrical shape to the inner supply air formings of sack 50 of extruding on described sack pressurizing unit 10;

Irradiate crosslinking apparatus 30, in the described sack shaped device 20 of supply in the process of the sack 50 of moulding irradiation ultraviolet radiation or infrared rays crosslinked to improve chemistry, mechanical property;

Extension apparatus 40, the sack that supply is produced from described irradiation crosslinking apparatus 30 makes length and diameter extend 20 ~ 30%.

Described irradiation crosslinking apparatus 30 is to implement crosslinked (Crosslink), preferably adopt and use silane thermal decomposition process, electron beam or the UV illuminated line of trimethoxy vinyl silanes sack 50 to be applied to irradiation energy and cause crosslinked irradiation cross-linking method, and utilize by the free radical (Radical) of the additives such as organic hydroperoxide agent or crosslinking agent formation and implement crosslinked chemical crosslink technique.

The diameter of the extension mould 41 of described extension apparatus 40 is larger 20 ~ 30% than the diameter of the sack 50 of producing, and by both

sides deflector roll

42,43 guiding sacks, is supplied, and makes sack 50 be extended 20 ~ 30% when extending mould 41.

Fig. 3 means the block diagram of manufacture process of the present invention, and the forming step of this buoy 60 comprises: vinyl bag forming step S1, the cylindrical circular sack 50 of extrusion modling when bag pressurizing unit 10 launches with bilayer; Irradiate cross-linking step S2, supply moulding in described vinyl bag forming step S1 sack 50 and from use trimethoxy vinyl silanes silane thermal decomposition process, utilize electron beam or UV illuminated line to sack 50 apply irradiation energy causing crosslinked irradiation cross-linking method, utilize the free radical (Radical) being formed by the additives such as organic hydroperoxide agent or crosslinking agent to implement to select a certain method to implement to irradiate crosslinked to sack 50 crosslinked chemical crosslink technique; Extend step S3, the crosslinked sack 50 of described irradiation is to select a certain method to make it to extend 20 ~ 30% from the method by extension mould 41 or supply air; Buoy coating step S4, is enclosed within the sack of described extension 50 heating on the external diameter of buoy 60 or puts into stove heating and the moulding that is retracted of extending is integrated; Both side surface procedure of processing S5, entangles sack 50 heating after described sack 50 is shaped to one on the external diameter of buoy 60 or puts into stove heating and the moulding that is retracted of extending is integrated from the both sides of buoy 60.

Described buoy coating step S4 and both side surface procedure of processing S5 entangle before sack 50 heating smear adhesive on polystyrene steeps the external diameter of last plastics 61 surfaces and main body 65 after to carry out operation.

Fig. 4 is the profile that polystyrene of the present invention steeps last plastic buoy.The buoy 60 that adopts polystyrene to steep last plastics 61 moulding is that both sides form slot part 62 and connect binding 63, and the whole face that polystyrene steeps last plastics 61 is all entangled being retracted of sack 50 heating extensions 20 ~ 30% and is combined into one.

Fig. 5 is the profile of synthetic resin buoy of the present invention.By supply synthetic resin, with blow molding method moulding and forms at internal diameter the buoy 60 that the main body 65 in space 66 forms and form slot part 62 in its both sides and connection binding 63, the whole face that polystyrene steeps last plastics 61 is all entangled sack 50 and heats and extend 20 ~ 30% be retracted and be combined into one.

Fig. 6 is the profile of another embodiment of the present invention.With polystyrene, steeping last plastics 61 is formed on external diameter and makes sack 50 connecting shapings be integrated inner battery 72 and the drive division 71 installed afterwards with the main body 65 with space 66, a part for external diameter forms the daylighting portion 70 that takes sunlight, in the constant interval of external diameter, form the illuminating parts such as LED 73, take daytime sunlight to battery 72 chargings, to night, supply power supply by illuminating part 73 identification buoys 60.

Fig. 7 is the front view of extension apparatus of the present invention, and Fig. 8 is the end view of extension apparatus of the present invention.

Extension apparatus 40 is be arranged on the roller 110 arranging at regular intervals and extend between roller 120 adopting vinyl moulding to irradiate crosslinked sack 50, during installation, make described roller 110 and extend roller 120 all rotation or wherein some rotations, in internal diameter, fill thermal medium 130 and make it keep set temperature.

On described extension roller 120, connecting extension roller 150 makes sack 50 slowly extend 20 ~ 30%.

The culture fishery of the present invention forming by described structure is through melting, to squeeze out two-layered, formed sack 50 to sack pressurizing unit 10 supply synthetic resin by buoy and manufacture method thereof, and the sack 50 of extruding is sack shaped device 20 supplies of heaving as balloon boat by enter air between bilayer in handover process.

On described bag forming device 20, the sack 50 of moulding enters the silane thermal decomposition process of irradiating in the process that crosslinking apparatus 30 passes through from using trimethoxy vinyl silanes method, utilizes electron beam or UV illuminated line to apply irradiation energy to sack 50 to cause crosslinked irradiation cross-linking method, and utilizes the free radical (Radical) being formed by the additives such as organic hydroperoxide agent or crosslinking agent to implement a certain method in crosslinked chemical crosslink technique to irradiate and be cross-linked.

Described illuminated crosslinked sack 50 tolerance sunlight, harder, be exposed to outside not perishable, service life is longer.

Through irradiating after crosslinked sack 50 enters extension apparatus 40, by deflector roll 42, guided, along the external diameter that extends mould 41, move after being extended 20 ~ 30% simultaneously and be supplied by deflector roll 43.

Extension apparatus 40 is to make it to extend 20 ~ 30% through the process of the powerful supply in the inside to sack 50 air.

As mentioned above, irradiate on crosslinking apparatus 30, irradiate crosslinked after extension apparatus 40 be extended the sack 50 being supplied after 20 ~ 30% be after no matter the main body 65 that polystyrene steeps last plastics 61 and has a space 66 is enclosed within on external diameter in the external diameter heating of sack 50 or send into heating furnace and again retract after heating extends 20 ~ 30% and encase polystyrene in previous status and steep the external diameter of last plastics 61 or main body 65 and become one and be fixed.

When implementing once sack 50 and shrink, steep with polystyrene the operation that the external diameter of last plastics 61 or main body 65 becomes one, or from both sides, entangle respectively sack 50 after the disposable enforcement of the operation becoming one and heat and encase the operation becoming one and implement respectively encasing at middle body.

As mentioned above; the polystyrene of buoy 60 steeps and on the external diameter of last plastics 61 or main body 65, entangles sack 50 and at slot part 62, connect bindings 63 after making it to become one and use; by the sack 50 being crosslinked, under the state exposing, tolerate sunlight; harder, use also not perishable or damaged even long-term.

The state lower surface that sack 50 becomes one on external diameter is very smooth, and shell-fish be difficult for to be pasted and prevention shell-fish perches, and is also easy to separately, and is lightly easy to management even if paste.

Smooth surface, therefore the collision of great waves can not have much impact to buoy 60 and prevent breakage, can reuse after the sack of extension 50 being entangled to simplified overhaulings such as reheating contraction again when some damage or sack 50 are separated.

As shown in Figure 6, on the external diameter of sack 50, form daylighting portion 70, utilize sunlight to charge to battery or accumulator 72, after darkness, by drive division 71, detect the power supply that receives charging on batteries or accumulator 72 position by illuminating part 73 control points 60 and prevent to collide, illuminating part 73 is that the external diameter that a Luminous belt part is fixed on to buoy 60 makes its reverberation.

As shown in Figure 7 and Figure 8, to on internal diameter, fill the roller 110 of thermal medium 130 and extend roller 120 and install at regular intervals, sack 50 and roller 110 and extend roller 120 and by extending cylinder 150, make to extend roller 120 when to some direction rotations and extend to the upper side direction on accompanying drawing, be connected in roller 110 and extend roller 120 sack 50 rotation time thermal medium 130 temperature transmission make extending cylinder 150 extension roller 120 upwards be pushed away and sack 50 is slowly extended, extension 20 ~ 30% rear separation are heated when percentage elongation is shunk again after being combined with the external diameter of buoy 60 and buoy 60 is shaped to one.

The present invention adopts on the external diameter of buoy that is steeped last plastics and molding synthetic resin by polystyrene, to entangle with synthetic resin extruding to irradiate the method heating after the crosslinked rear sack extending, buoy and sack are become one, for aquaculture operation, be easy to recognize the position of buoy, and be not subject to the impact of great waves and service life longer.

Claims

1. a culture fishery buoy, is characterized in that,

As forming slot part (62) and engage the culture fishery buoy that binding (63) is used at polystyrene foam plastics (61) and main body (65) both sides with space (66);

By double-deck extrusion modling and irradiate the sack (50) that extends 20 ~ 30% moulding after crosslinked and be enclosed within described polystyrene and steep last plastics (61) and have and heat on the external diameter of main body (65) of space (66) and become one.

2. culture fishery buoy according to claim 1, is characterized in that,

It is that synthetic resin is squeezed into the double-deck silane thermal decomposition process from use trimethoxy vinyl silanes, utilizes electron beam or UV illuminated line to apply irradiation energy to cause crosslinked irradiation cross-linking method, to utilize the chemical crosslink technique being formed by organic hydroperoxide agent and select a certain method enforcement irradiation crosslinked that the irradiation of sack (50) is cross-linked.

3. a manufacture method for buoy for culture fishery, is characterized in that, this implementation step comprises:

Vinyl bag moulding (S1), supply synthetic resin is squeezed into double-ply bag (50) and between bilayer, supplies air;

Irradiate crosslinked (S2), supply described sack (50) and from use trimethoxy vinyl silanes silane thermal decomposition process, utilize electron beam or UV illuminated line apply irradiation energy causing crosslinked irradiation cross-linking method, utilize the free radical being formed by the additives such as organic hydroperoxide agent or crosslinking agent to implement to select a certain method to implement to irradiate crosslinked crosslinked chemical crosslink technique;

Prolong body (S3), supply the crosslinked sack of described irradiation (50) and make it to extend 20 ~ 30%;

Buoy coating (S4), heats the sack of described extension (50) sack (50) and buoy (60) are become one to the external diameter supply of buoy (60);

Both side surface processing (S5), sack (50) the heating sack (50) extending in the supply of the both sides of described buoy (60) is shaped to one with buoy (60).

4. the manufacture method of buoy for culture fishery according to claim 3, is characterized in that,

Described extension step (S3) is between bilayer, to supply air or make to extend mould (41) to pass through, and makes length and diameter extend 20 ~ 30%.

5. the manufacture method of buoy for culture fishery according to claim 3, is characterized in that,

The coating step (S4) of described buoy and both side surface procedure of processing (S5) are to send into heating furnace or directly apply heat to the external diameter of sack (50) extend 20 ~ 30% after-contraction and become one with buoy (60).