CN103057124A - Production method and structure of airtight diving suit - Google Patents

Abstract

The invention discloses a production method of an airtight diving suit. The production method comprises the following steps of: coating airtight resin on the surface of a polyester fabric so as to form an external-layer structure; cutting the airtight resin, namely solid butyl rubber, into thin pieces and then mixing the thin pieces with methylbenzene; coating liquid butyl rubber on the surface of a nylon fabric so as to form an internal-layer structure; combining the external-layer structure with the internal-layer structure to form a laminated structure; and conducting vulcanization reaction on the laminated structure. The invention provides the production method of a diving suit with airtight function. According to the production method, water can be prevented from permeating into the diving suit, so that and waterproof and heat retention effects are high. Furthermore, in comparison with the traditional heavy diving suit, the diving suit disclosed by the invention has light weight efficacy and characteristics of softness and toughness, and can enable a diver to feel salubrious and comfortable when a diver wears the diving suit.

Description

The manufacture method of airproof diving suit and structure thereof

Technical field

The present invention relates to a kind of manufacture method and structure thereof of diving suit, particularly a kind of manufacture method of airproof diving suit and structure thereof.

Background technology

Under economic height development, the airtight effect of diving suit is the ring that people pay attention to always, except requiring by special airtight authentication, mostly not can take into account on the person's of wearing the material weight and dry and comfortable comfortableness at special clothing product.

And the manufacturing of traditional diving suit, major part are the fabrics that uses polyester or Fypro to make, and are combined with the artificial rubber sponge through the processing of fitting, and become the material of making diving suit.But, the tradition diving suit moisture content certain because fabric texture has, produce creeping chill for people's cognition because of thermal balance, especially in doing diving than cold weather when wearing, can make human body sensory arrive cold, especially temperature is lower in the darker marine site water, so this diving suit needs and can its necessity be arranged the appropriate warming effect that provides.In view of this, develop a kind of diving suit with height waterproof and warming effect, make Divers in the lower zone diving of temperature, still can keep suitable shell temperature, become for this reason emphasis of field research and development.

Summary of the invention

The manufacture method and the structure that the purpose of this invention is to provide a kind of airproof diving suit to solve the prior art diving suit moisture content certain because fabric texture has, are known from experience the technical problem that produces creeping chill because of thermal balance for the people.

For achieving the above object, the present invention by the following technical solutions;

A kind of manufacture method of airproof diving suit may further comprise the steps:

Coating air-tightness resin is in the surface of a polyester textile, and forming at least one layer structure, this air-tightness resin is that solid-state butyl rubber cuts into behind the thin piece and to mix formation with toluene;

Be coated with liquid butyl rubber in the surface of a nylon cloth, to form at least one endothecium structure;

This layer structure is combined to form a laminated construction with this endothecium structure; And

This laminated construction is carried out vulcanization reaction.

Preferably, this polyester textile is the polyester textile of non-absorbency.

Preferably, the compound percentages of this solid-state butyl rubber in this air-tightness resin and this toluene is 40%: 60%.

Preferably, above-mentioned this solid-state butyl rubber cuts in thin piece and the manufacturing process that this toluene mixes, and incorporation time is 10 to 20 hours, and mixing temperature is 90 to 150 ℃.

Preferably, the viscosity of this air-tightness resin is 40000 to 80000cps.

Preferably, this air-tightness resin adds a bridging agent, and the percentage by weight that this bridging agent accounts for this air-tightness resin is about 3% to 8%.

Preferably, this air-tightness resin adopts multi-layer coated mode to coat the surface of this polyester textile, and forms the air-tightness resin bed of multilayer in the surface of this polyester textile.

Preferably, this nylon cloth is the nylon with wear-resisting property.

Preferably, this liquid state butyl rubber of above-mentioned coating is when this nylon cloth surperficial, and the temperature of coating is 90 to 150 ℃.

Preferably, the viscosity of this liquid state butyl rubber is 10000 to 30000cps.

Preferably, this liquid state butyl rubber adopts multi-layer coated mode to coat on the surface of this nylon cloth.

Preferably, this vulcanization reaction is with the continous way vulcanizing machine this laminated construction to be carried out once common vulcanization reaction via rubber.

Preferably, above-mentioned when this laminated construction is carried out vulcanization reaction, curing temperature is 100 to 180 ℃, and cure time is 10 to 30 minutes, and sulfide stress is 50 to 100kg/cm ²

The present invention provides a kind of structure of airproof diving suit again, comprising:

At least one layer structure, this layer structure are the lip-deep air-tightness resin bed that multilayer is arranged at a polyester textile, and this air-tightness resin bed comprises butyl rubber and toluene; And

At least one endothecium structure, this endothecium structure are the lip-deep butyl rubber layer that multilayer is arranged at a nylon cloth;

Wherein, this air-tightness resin bed of this layer structure is connected in this butyl rubber layer of this endothecium structure.

According to the structure of the described airproof diving suit of preferred embodiment of the present invention, this air-tightness resin bed comprises a bridging agent.

The present invention possesses following advantage and good effect:

The invention provides a kind of manufacture method with diving suit of tight function, can prevent that sealing penetrates into diving suit, have height waterproof and warming effect.And compared to the heavy diving suit of tradition, diving suit of the present invention has the effect of light weight, with the speciality of softness and toughness, can allow Divers feel the refreshing comfortable effect of body when wearing.

Description of drawings

Fig. 1 shows the manufacturing flow chart of airproof diving suit of the present invention;

Fig. 2 shows the schematic diagram of airproof diving suit of the present invention.

The specific embodiment

Please refer to Fig. 1 and Fig. 2, the present invention proposes a kind of manufacture method of airproof diving suit, it may further comprise the steps: at first, as described in step S100, on the surface of polyester textile 12, adopt multi-layer coated mode, the air-tightness resin multi-layer is coated the surface of the polyester textile 12 of a Gao Danni, form a layer structure 1, the solid-state butyl rubber that is prepared as of air-tightness resin cuts into behind the thin piece and to mix formation with toluene.Next as described in the step S102, get a low red Buddhist nun nylon cloth 22, the liquid butyl rubber of coating multiple forms an endothecium structure 2 on low red Buddhist nun's nylon cloth 22.As described in step S104, layer structure 1 and endothecium structure 2 are mutually combined, form a laminated construction, afterwards as described in the step S106, laminated construction is utilized vulcanizing equipment, and (for example: special rubber continous way vulcanizing machine) carry out vulcanization reaction, technique finishes namely to obtain airproof diving suit of the present invention.

In more detail, the present invention adds the butyl rubber with airtight character and coats on the material of diving suit, carry out afterwards vulcanization reaction and namely obtain airproof diving suit of the present invention, so the airproof diving suit that the present invention manufactures has highly airtight character.Details are as follows for the manufacture method of airproof diving suit of the present invention: at first, provide a polyester textile 12, this polyester textile 12 is the polyester textiles 12 for the Gao Danni that does not absorb water.As described in step S100, on the surface of polyester textile 12, adopt multi-layer coated mode, the resin-coated multilayer of air-tightness in the surface of polyester textile 12, is therefore formed the air-tightness resin bed 11 with sandwich construction in the surface of polyester textile 12.Therefore, this air-tightness resin bed 11 mutually combines with polyester textile 12 and forms a layer structure 1, and 1 of this layer structure has airtight character.

The preparation method of this air-tightness resin wherein, that solid-state butyl rubber is cut into thin piece, and use toluene to be solution, take the percentage by weight of solid-state butyl rubber and the toluene ratio as 40%: 60%, the solid-state butyl rubber that cuts into thin piece is inserted dissolving mixing in the toluene, solid-state butyl rubber and the toluene stirring that will cut into thin piece are approximately 10 to 20 hours again, its operating temperature is approximately 90 to 150 ℃, and adjustment viscosity is approximately 40000 to 80000cps, can add suitable bridging agent afterwards, for example: the weight ratio that sulfide or peroxide, this bridging agent account for the air-tightness resin is approximately 3% to 8%, namely finishes the preparation of air-tightness resin.The air-tightness resin that preparation is finished, adopt multi-layer coated mode, therefore coat the surface of polyester textile 12, form the air-tightness resin bed 11 with sandwich construction in the surface of polyester textile 12, this air-tightness resin bed 11 and with polyester textile 12 in conjunction with forming a layer structure 1.

Next as described in the step S102, get a nylon cloth 22 and be the nylon cloth 22 of low red Buddhist nun with wear-resisting property.Liquid butyl rubber is adopted multi-layer coated mode, coat on the surface of this nylon cloth 22, this liquid state butyl rubber viscosity is approximately 10000 to 30000cps, the operating temperature of its coating is approximately 90 to 150 ℃, form butyl rubber layer 21 on the surface of nylon cloth 22 afterwards, butyl rubber layer 21 and nylon cloth 22 be in conjunction with forming an endothecium structure 2, this endothecium structure 2 have with water resistance every character.

Afterwards as described in the step S104, after layer structure 1 and endothecium structure 2 be superimposed with each other, form a laminated construction.As described in step S106, (for example: special rubber continous way vulcanizing machine) laminated construction is carried out once common vulcanization reaction re-use vulcanizing equipment, the curing temperature of this reaction is approximately 100 to 180 ℃, and cure time is approximately 10 to 30 minutes, and sulfide stress is approximately 50 to 100kg/cm ², technique finishes namely to finish the manufacturing of airproof diving suit.

The present invention proposes a kind of structure of airproof diving suit in addition, it comprises: layer structure 1, this layer structure 1 is arranged at the lip-deep air-tightness resin bed 11 of a polyester textile 12 for multilayer, this air-tightness resin bed 11 comprises butyl rubber and toluene, also can comprise bridging agent, endothecium structure 2 is arranged at the lip-deep butyl rubber layer 21 of a nylon cloth 22 for multilayer.Wherein, the air-tightness resin bed 11 of layer structure 1 is fitted and connected the butyl rubber layer 21 in endothecium structure 2.

In sum, the present invention has following all advantage:

1. utilize the made diving suit of manufacture method of airproof diving suit of the present invention, because interpolation and coating butyl rubber are on the material of diving suit, therefore have highly airtight function, therefore can prevent that sealing penetrates into diving suit, allow Divers when diving, wear this diving suit, have height waterproof and warming effect.

2. diving suit of the present invention, because it is made to be that polyester textile and nylon cloth add butyl rubber, therefore have the effect of light weight, compared to the heavy diving suit of tradition, diving suit of the present invention is more suitable for the Divers dress.And this material is polyester textile and nylon cloth, and therefore diving suit of the present invention has the speciality of softness and toughness, can allow Divers can feel the refreshing comfortable effect of body when wearing.

The above only is preferred embodiment of the present invention, non-ly is intended to limit to scope of patent protection of the present invention, therefore the equivalence of such as using specification of the present invention and graphic content to do changes, all in like manner is contained in the scope of the present invention, closes and gives Chen Ming.

Claims (15)

1. the manufacture method of an airproof diving suit is characterized in that, may further comprise the steps:

Coating air-tightness resin is in the surface of a polyester textile, and forming at least one layer structure, this air-tightness resin is that solid-state butyl rubber cuts into behind the thin piece and to mix formation with toluene;

Be coated with liquid butyl rubber in the surface of a nylon cloth, to form at least one endothecium structure;

This layer structure is combined to form a laminated construction with this endothecium structure; And

This laminated construction is carried out vulcanization reaction.

2. the manufacture method of airproof diving suit as claimed in claim 1 is characterized in that, this polyester textile is the polyester textile of non-absorbency.

3. the manufacture method of airproof diving suit as claimed in claim 1 is characterized in that, this solid-state butyl rubber in this air-tightness resin and the compound percentages of this toluene are 40%: 60%.

4. the manufacture method of airproof diving suit as claimed in claim 3 is characterized in that, above-mentioned this solid-state butyl rubber cuts in thin piece and the manufacturing process that this toluene mixes, and incorporation time is 10 to 20 hours, and mixing temperature is 90 to 150 ℃.

5. the manufacture method of airproof diving suit as claimed in claim 4 is characterized in that, the viscosity of this air-tightness resin is 40000 to 80000cps.

6. the manufacture method of airproof diving suit as claimed in claim 1 is characterized in that, this air-tightness resin adds a bridging agent, and the percentage by weight that this bridging agent accounts for this air-tightness resin is about 3% to 8%.

7. the manufacture method of airproof diving suit as claimed in claim 1 is characterized in that, this air-tightness resin adopts multi-layer coated mode to coat the surface of this polyester textile, and forms the air-tightness resin bed of multilayer in the surface of this polyester textile.

8. the manufacture method of airproof diving suit as claimed in claim 1 is characterized in that, this nylon cloth is the nylon with wear-resisting property.

9. the manufacture method of airproof diving suit as claimed in claim 8 is characterized in that, this liquid state butyl rubber of above-mentioned coating is when this nylon cloth surperficial, and the temperature of coating is 90 to 150 ℃.

10. the manufacture method of airproof diving suit as claimed in claim 9 is characterized in that, the viscosity of this liquid state butyl rubber is 10000 to 30000cps.

11. the manufacture method of airproof diving suit as claimed in claim 1 is characterized in that, this liquid state butyl rubber adopts multi-layer coated mode to coat on the surface of this nylon cloth.

12. the manufacture method of airproof diving suit as claimed in claim 1 is characterized in that, this vulcanization reaction is with the continous way vulcanizing machine this laminated construction to be carried out once common vulcanization reaction via rubber.

13. the manufacture method of airproof diving suit as claimed in claim 12 is characterized in that, above-mentioned when this laminated construction is carried out vulcanization reaction, curing temperature is 100 to 180 ℃, and cure time is 10 to 30 minutes, and sulfide stress is 50 to 100kg/cm ²

14. the structure of an airproof diving suit is characterized in that, comprising:

At least one layer structure, this layer structure are the lip-deep air-tightness resin bed that multilayer is arranged at a polyester textile, and this air-tightness resin bed comprises butyl rubber and toluene; And

At least one endothecium structure, this endothecium structure are the lip-deep butyl rubber layer that multilayer is arranged at a nylon cloth;

Wherein, this air-tightness resin bed of this layer structure is connected in this butyl rubber layer of this endothecium structure.

15. the structure of airproof diving suit as claimed in claim 14 is characterized in that, this air-tightness resin bed comprises a bridging agent.

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