CN205461652U - Decontaminable air's air inlet structure - Google Patents

Abstract

The utility model discloses a decontaminable air's air inlet structure, from inside to outside in proper order including the hydrophobic fibrous layer of avoiding interior pipe wall ponding, macromolecule harmful substance's activated carbon adsorption layer and tubular product based bulk layer among the adsorption of air, hydrophobic fibrous layer, activated carbon adsorption layer and tubular product based bulk layer are circularly, the outward appearance shows that the layer is PVC plastic hose, activated carbon adsorption layer is network structure's non -woven fabrics layer, it has active carbon powder evenly to adhere to on the non -woven fabrics layer, hydrophobic fibrous layer and activated carbon adsorption layer all handle through antiseptic, and hydrophobic fibrous layer and activated carbon adsorption layer all can dismantle and fix the internal surface at tubular product based bulk layer. Activated carbon adsorption layer's setting, active ingredient is active carbon powder, active carbon powder has strong adsorption efficiency to can adsorb the macromolecule harmful substance in the air, thus the reduction of very big degree the work load of follow -up breathing separator, be favorable to the permanent use of aerating system.

Description

Air feeder structure capable of purifying air

Technical field

This utility model relates to the technical field of exposure suit air inlet pipe, particularly relates to a kind of air feeder structure capable of purifying air.

Background technology

Along with development and the progress of science and technology, the environment that people face also becomes increasingly complex, more and more higher in objectively requirement to Individual protection equitment.In actual life, needing the object increasingly diversification of protection: the operating personnels such as soldier, policeman, peasant, scientific worker, workman are required for protective gear and specifically work, therefore the use occasion of protective garment gets more and more.

As in the environment that dense smoke, toxic and harmful fill the air, operating personnel's whole body is worn protective garment and is carried out dusty gas in isolation environment, when operating personnel is isolated in protective garment, needs to be passed through air in protective garment by air supply system and breathes for operating personnel.

In the prior art, air inlet pipe and the common PVC pipeline of exposure suit there substantially are not too big difference, such air inlet pipe is in addition to can importing air-flow, do not have any other to act on, and the gaseous mass in the working environment of user is the most poor, so the air quality of user incoming call in the course of the work can not be guaranteed.

Utility model content

For weak point present in above-mentioned technology, this utility model provides a kind of air feeder structure capable of purifying air being prone to molding, excellent adsorption.

In order to achieve the above object, a kind of air feeder structure capable of purifying air of this utility model, include the hydrophobic fiber layer avoiding inner tubal wall hydrops the most successively, adsorb activated carbon adsorption layer and the tubing body layer of macromole harmful substance in air, described hydrophobic fiber layer, activated carbon adsorption layer and tubing body layer are circle, described tubing body layer is PVC plastic flexible pipe, described activated carbon adsorption layer is cancellated nonwoven layer, active carbon powder uniformly it is attached with in described nonwoven layer, described hydrophobic fiber layer and activated carbon adsorption layer all process through antibacterial, and described hydrophobic fiber layer and activated carbon adsorption layer are all detachably secured to tubing body layer inner surface.

Wherein, this air feeder structure also includes that appearance overcoat and appearance display layer, described appearance display layer are arranged between tubing body layer and appearance overcoat, and described appearance display layer is black and white strip overlay, and described appearance overcoat is UV coating.

Wherein, this air feeder structure also includes that compressive resistance layer, described compressive resistance layer are arranged between surface display layer and tubing body layer, and described compressive resistance layer includes the first litzendraht wire layer, buffering laminating layer and the second litzendraht wire layer being wrapped in successively outside tubing body layer.

Wherein, described buffering laminating layer is Polyurethane Thermoplastic Elastomer or thermoplasticity EVA elastomer, and the litzendraht wire of described first litzendraht wire layer and the second litzendraht wire layer is one or more in high-strength nylon fibre, high-strength polyester fiber, high strength vinylon fiber or aramid fiber.

Wherein, this air feeder structure also includes the one-way cock also including ensureing air-flow direction, and described one-way cock is arranged on the gas inlet end structure of air inlet pipe, and described one-way cock the regulation cock offering regulation throughput size.

The beneficial effects of the utility model are:

Compared with prior art, air feeder structure capable of purifying air of the present utility model, by the setting of hydrophobic fiber layer, no matter air humidity big or little in the case of, all without the situation making this air inlet pipe inner tubal wall that hydrops or blocking occur.The setting of activated carbon adsorption layer, effective ingredient is active carbon powder, and active carbon powder has strong absorbability such that it is able to by the macromole noxious substance in air, thus decrease the permanent use of the workload of follow-up breathing separator, beneficially aerating system significantly.Air feeder structure of the present utility model is easily achieved, and hydrophobic fiber layer is the most replaceable with activated carbon adsorption layer, easy to use.

Accompanying drawing explanation

Fig. 1 is the sectional view of this utility model air feeder structure capable of purifying air.

Main element symbol description is as follows:

10, hydrophobic fiber layer 11, activated carbon adsorption layer

12, tubing body layer 13, appearance overcoat

14, appearance display layer 15, compressive resistance layer.

Detailed description of the invention

In order to more clearly state this utility model, below in conjunction with the accompanying drawings this utility model is further described.

Refering to Fig. 1, a kind of air feeder structure capable of purifying air of this utility model, include the hydrophobic fiber layer 10 avoiding inner tubal wall hydrops the most successively, adsorb activated carbon adsorption layer 11 and the tubing body layer 12 of macromole harmful substance in air, hydrophobic fiber layer 10, activated carbon adsorption layer 11 and tubing body layer 12 are circle, tubing body layer 12 is PVC plastic flexible pipe, activated carbon adsorption layer 11 is cancellated nonwoven layer, active carbon powder uniformly it is attached with in nonwoven layer, hydrophobic fiber layer 10 and activated carbon adsorption layer 11 all process through antibacterial, and hydrophobic fiber layer 10 and activated carbon adsorption layer 11 are all detachably secured to tubing body layer 12 inner surface.

Compared to prior art, air feeder structure capable of purifying air of the present utility model, by the setting of hydrophobic fiber layer 10, no matter air humidity big or little in the case of, all without the situation making this air inlet pipe inner tubal wall that hydrops or blocking occur.The setting of activated carbon adsorption layer 11, main effective ingredient is active carbon powder, and active carbon powder has strong absorbability such that it is able to by the macromole noxious substance in air, thus decrease the permanent use of the workload of follow-up breathing separator, beneficially aerating system significantly.Air feeder structure of the present utility model is easily achieved, and hydrophobic fiber layer 10 is the most replaceable with activated carbon adsorption layer 11, easy to use.

In the present embodiment, this air feeder structure also includes appearance overcoat 13 and appearance display layer 14, and appearance display layer 14 is arranged between tubing body layer 12 and appearance overcoat 13, and appearance display layer 14 is black and white strip overlay, and appearance overcoat 13 is UV coating.Aging resistance effect is mainly played in the setting of UV coating, increases the service life of this air inlet pipe, and the setting of black and white strip overlay mainly makes this air feeder structure more obvious, it is to avoid be held down blocking pipeline.

In the present embodiment, this air feeder structure also includes compressive resistance layer 15, compressive resistance layer 15 is arranged between surface display layer and tubing body layer 12, and compressive resistance layer 15 includes the first litzendraht wire layer, buffering laminating layer and the second litzendraht wire layer being wrapped in successively outside tubing body layer 12.Buffering laminating layer is Polyurethane Thermoplastic Elastomer or thermoplasticity EVA elastomer, and the litzendraht wire of the first litzendraht wire layer and the second litzendraht wire layer is one or more in high-strength nylon fibre, high-strength polyester fiber, high strength vinylon fiber or aramid fiber.

In the present embodiment, this air feeder structure also includes the one-way cock also including ensureing air-flow direction, and one-way cock is arranged on the gas inlet end structure of air inlet pipe, and offers the regulation cock of regulation throughput size on one-way cock.Certainly, this utility model is not limited to the setting of one-way cock at above-mentioned, as long as air can conveniently be regulated play the valve setting of flow, belongs to simple deformation and the conversion of this programme, it should fall into protection domain of the present utility model.

Only several specific embodiments of the present utility model disclosed above, but this utility model is not limited to this, and the changes that any person skilled in the art can think of all should fall into protection domain of the present utility model.

Claims (5)

1. an air feeder structure capable of purifying air, it is characterized in that, include the hydrophobic fiber layer avoiding inner tubal wall hydrops the most successively, adsorb activated carbon adsorption layer and the tubing body layer of macromole harmful substance in air, described hydrophobic fiber layer, activated carbon adsorption layer and tubing body layer are circle, described tubing body layer is PVC plastic flexible pipe, described activated carbon adsorption layer is cancellated nonwoven layer, active carbon powder uniformly it is attached with in described nonwoven layer, described hydrophobic fiber layer and activated carbon adsorption layer all process through antibacterial, and described hydrophobic fiber layer and activated carbon adsorption layer are all detachably secured to tubing body layer inner surface.

Air feeder structure capable of purifying air the most according to claim 1, it is characterized in that, this air feeder structure also includes appearance overcoat and appearance display layer, described appearance display layer is arranged between tubing body layer and appearance overcoat, described appearance display layer is black and white strip overlay, and described appearance overcoat is UV coating.

Air feeder structure capable of purifying air the most according to claim 2, it is characterized in that, this air feeder structure also includes compressive resistance layer, described compressive resistance layer is arranged between surface display layer and tubing body layer, and described compressive resistance layer includes the first litzendraht wire layer, buffering laminating layer and the second litzendraht wire layer being wrapped in successively outside tubing body layer.

Air feeder structure capable of purifying air the most according to claim 3, it is characterized in that, described buffering laminating layer is Polyurethane Thermoplastic Elastomer or thermoplasticity EVA elastomer, and the litzendraht wire of described first litzendraht wire layer and the second litzendraht wire layer is one or more in high-strength nylon fibre, high-strength polyester fiber, high strength vinylon fiber or aramid fiber.

Air feeder structure capable of purifying air the most according to claim 1, it is characterized in that, this air feeder structure also includes the one-way cock also including ensureing air-flow direction, described one-way cock is arranged on the gas inlet end structure of air inlet pipe, and described one-way cock the regulation cock offering regulation throughput size.