CN205053467U - Wind energy air cushion - Google Patents

Abstract

The utility model discloses a wind energy air cushion, wherein, the 3D mesh cloth individual layer more than the one deck is drawn together to 3D mesh bale of cloth, and every layer of 3D mesh cloth individual layer includes upper and lower two -layer cloth layer and connects the monofilament layer on upper and lower two -layer cloth layer, be equipped with the gas passage on the one deck 3D mesh cloth individual layer wherein to being less than. The 3D mesh cloth individual layer that forms the gas passage includes more than one 3D mesh cloth, and 3D mesh cloth interval sets up in order to form a plurality of gas passages. It is all right, form and to be equipped with the air supply pipe on the one -course monofilament layer of 3D mesh cloth of gas passage and to plant and wear the clearance in sky wherein. Air entrainment equipment is connected the gas passage or is laid the trachea of tiny gas pocket on it. Plant the tracheal one -course monofilament layer of 3D mesh cloth and adopt the empty technology of wearing of monofilament to form the empty clearance of wearing, or form the gas passage by more than one 3D mesh cloth. This wind energy air cushion has cooling and intensification effect that the efficiency is showing, and the cooling distributes evenly with the intensification.

Description

A kind of wind energy air cushion

Technical field

the utility model relates to a kind of mat, refer in particular to a kind of can the mat of injecting gas.

Background technology

in life, the application of mat is very extensive.The mat be laid under human body needs quality softness, good springiness mostly.Mat common at present, general employing packing material is the mat of sponge or spring, these mats not only poor air permeability, not easy cleaning, yielding, as warmingly need crossed electrical heating, it is dangerous that electric heater directly contacts human body, as need be lowered the temperature let alone, conventional cushion cannot realize function cool in summer and warm in winter.

Utility model content

for the deficiencies in the prior art, the utility model provides a kind of wind energy air cushion.This environmental protection, attractive in appearance, durable air cushion have effect and lower the temperature significantly and temperature rise effect, and cooling and intensification are evenly distributed.

for achieving the above object, the utility model adopts following technical scheme:

a kind of wind energy air cushion, comprise a 3D eyelet fabric, this 3D eyelet fabric comprises the 3D eyelet fabric individual layer of more than one deck, and every layer of 3D eyelet fabric individual layer comprises upper and lower two-layer layer of cloth, with the layer of filaments being connected upper and lower two-layer layer of cloth; Be provided with gas passage to one deck 3D eyelet fabric individual layer 60 be less than wherein, this gas passage connects aerating equipment.

foregoing a kind of wind energy air cushion, the 3D eyelet fabric individual layer forming gas passage comprises multiple 3D mesh cloth, and multiple 3D eyelet fabric block gap is arranged to form more than one gas passage; Connect an aerating equipment after more than one gas passage is communicated with, or each gas passage independently connects aerating equipment.

foregoing a kind of wind energy air cushion, the layer of filaments of 3D eyelet fabric individual layer forming gas passage is provided with the sky that air supply pipe is inserted in wherein and wears gap; Described tracheae has blind end and inlet end, and inlet end connects aerating equipment; Described tracheae is laid with tiny pore.

foregoing a kind of wind energy air cushion, the layer of filaments being plugged with tracheae has been provided with every a certain distance wears gap; Tracheae is plugged on the arm that sky wears gap is formed by multiple, and one end of each arm is closed, and the other end is interconnected and forms inlet end and connect aerating equipment, or the two ends of each arm connect aerating equipment simultaneously, simultaneously from the two ends aerating of arm.

foregoing a kind of wind energy air cushion, tracheae coiling is plugged on multiple 3D eyelet fabric block gap and arranges in the gas passage of formation; One end of tracheae is closed, and the other end extends layer of filaments and forms inlet end connection aerating equipment; Or layer of filaments formation inlet end connection aerating equipment is extended at the two ends of tracheae simultaneously, two ends air inlet simultaneously.

foregoing a kind of wind energy air cushion, the upper strata layer of cloth of 3D eyelet fabric individual layer is the air-permeable layer with mesh, and lower floor's layer of cloth is the fixed bed of braiding densification.

foregoing a kind of wind energy air cushion, the upper and lower two-layer layer of cloth of 3D eyelet fabric individual layer is the air-permeable layer with mesh.

the usefulness of technique scheme is:

the utility model wind energy air cushion is provided with gas passage at least one deck 3D eyelet fabric individual layer of 3D eyelet fabric, carries gas by aeration equipment, arrives air cushion surface with the mesh appearing upper strata layer of cloth, makes human body immediate experience to the comfort of micro-cool or tepor.The utility model also can form the sky that air supply pipe is inserted in wherein and wear gap in layer of filaments, to be wrapped in by tracheae in the middle of upper and lower two-layer terylene layer of cloth, plays hiding tracheae, and protection tracheae is not by firm structure that human body flattens.Meanwhile, be plugged on the tracheae that layer of filaments sky wears gap, also support upper and lower using of layer layer of cloth, booster action played to layer of filaments, make layer of cloth surface, upper strata more smooth attractive in appearance especially.Connect the tracheae of aerating equipment, blown fast by the tiny pore that it is laid, deliver a gas to air cushion surface uniformly with smooth and easy.

Accompanying drawing explanation

accompanying drawing described herein is used to provide further understanding of the present utility model, forms a part of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

fig. 1 is the sectional structure schematic diagram one of the utility model 3D eyelet fabric;

fig. 2 is the sectional structure schematic diagram two of the utility model 3D eyelet fabric;

fig. 3 is the main TV structure schematic diagram (in figure, arrow is air-flow direction) that the utility model is provided with the embodiment one of tracheae;

fig. 4 is the sectional structure schematic diagram (the A-A sectional structure schematic diagram of Fig. 3) that the utility model is provided with the embodiment one of tracheae;

fig. 5 is the main TV structure schematic diagram (in figure, arrow is air-flow direction) that the utility model is provided with the embodiment two of tracheae.

Detailed description of the invention

in order to make technical problem to be solved in the utility model, technical scheme and beneficial effect clearly, understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

3D eyelet fabric as shown in Figure 1, 2, comprise more than one deck 3D eyelet fabric individual layer 60, multilayer 3D eyelet fabric individual layer 60 every layer be bonded as one.Every layer of 3D eyelet fabric individual layer comprises upper and lower two-layer layer of cloth 10,30 and the layer of filaments 20 being connected upper and lower two-layer layer of cloth 10,30.Gas passage is provided with, this gas passage of aerating equipment connection to one deck 3D eyelet fabric individual layer 60 be less than wherein.

gas passage of the present utility model can be as shown in Figure 1, is arranged by multiple 3D mesh cloth 61 interval to form more than one gas passage.Connect an aerating equipment after more than one gas passage is communicated with, or each gas passage independently connects aerating equipment.Also can be as shown in Figure 2, the layer of filaments 20 of 3D eyelet fabric individual layer 60 is provided with the gas passage that air supply pipe 40 sky be inserted in wherein wears gap 21 formation.

in the wind energy air cushion structure shown in Fig. 1,5, the 3D eyelet fabric individual layer 60 forming gas passage comprises multiple 3D mesh cloth 61, and multiple 3D mesh cloth 61 interval is arranged to form more than one gas passage, this gas passage of aerating equipment connection.

a kind of wind energy air cushion as shown in Figure 4, comprises 3D eyelet fabric and is plugged on the tracheae 40 in 3D eyelet fabric.Be provided with air supply pipe 40 sky be inserted in wherein to one deck layer of filaments 20 be less than wherein and wear gap 21.

upper and lower two-layer layer of cloth 10,30 is made up of filament, upper and lower two-layer layer of cloth 10,30 can be the air-permeable layer with mesh 11,31 as shown in Figure 4, there is the air-permeable layer of mesh 11, to have formed the network flower shape of airing function on air cushion surface, also promote the attractive in appearance and excellent handle on air cushion surface.Upper and lower two-layer layer of cloth 10,30 also can structure as shown in Figure 2, and upper strata terylene layer of cloth 10 is for having the air-permeable layer of mesh 11, and lower floor's layer of cloth 30 is the fine and close fixed bed of braiding, prevents the flexible of direction of warp and weft, plays the effect bottom sizing air cushion.

the layer of filaments 20 being placed in intermediate layer is made up of monofilament, the pliability of monofilament material and compressive property good, good support force and rebound performance can be had.The production technology of common 3D eyelet fabric is all take the layer of filaments 20 in intermediate layer to be the full up technique of wearing of monofilament, and the monofilament of the utility model layer of filaments 20 be as shown in Figure 3 be provided with the structure of wearing gap 21 every a certain distance.

above-mentioned sky is worn the thickness of neglecting greatly tracheae 40 in gap 21 and determines, so that tracheae 40 is inserted in sky and wears gap 21, to be wrapped in by tracheae 40 in the middle of upper and lower two-layer layer of cloth 10,30, plays hiding tracheae 40, and protection tracheae 40 is not by firm structure that human body flattens.Meanwhile, be plugged on the tracheae 40 that layer of filaments 20 sky wears gap 21, also support upper and lower using of layer terylene layer of cloth 10,30, booster action played to layer of filaments 20, make terylene layer of cloth 10 surface, upper strata more smooth attractive in appearance especially.

as shown in Figure 4, the layer of filaments 20 that the utility model is plugged with tracheae 40 has been provided with every a certain distance wears gap 21; Tracheae 40 is plugged on the arm 41,42 that sky wears gap 21 is formed by multiple, and one end of each arm 41,42 is closed, and the other end is interconnected and forms inlet end 43 and connect aerating equipment.Or the two ends of each arm connect aerating equipment simultaneously, simultaneously from the two ends aerating of arm, this frame mode is not shown.

in another kind of embodiment of the present utility model, as shown in Figure 5, tracheae 40 coiling is plugged in the gas passage of multiple 3D mesh cloth 61 gap-forming, and one end of tracheae 40 is closed, and the other end extends layer of filaments 20 and forms inlet end 43 and connect aerating equipment.Or the two ends of tracheae 40 are not all closed, and extend layer of filaments 20 simultaneously and form inlet end 43 and connect aerating equipment, the air inlet simultaneously of tracheae 40 two ends, this frame mode is not shown.

the utility model aerating equipment 50 is a centrifugal blower.Each tracheae 40 is as in Figure 3-5 laid with tiny pore 45, air cushion surface is arrived by centrifugal blower conveying wind energy to make the utility model wind energy air cushion, make direct body contact arrive micro-cool or wind energy that tepor is comfortable, reach effect of fast cooling or insulation.

above-mentioned explanation illustrate and describes preferred embodiment of the present utility model, as previously mentioned, be to be understood that the utility model is not limited to the form disclosed by this paper, should not regard the eliminating to other embodiments as, and can be used for other combinations various, amendment and environment, and can in utility model contemplated scope described herein, changed by the technology of above-mentioned instruction or association area or knowledge.And the change that those skilled in the art carry out and change do not depart from spirit and scope of the present utility model, then all should in the protection domain of the utility model claims.

Claims (7)

1. a wind energy air cushion, it is characterized in that: comprise a 3D eyelet fabric, this 3D eyelet fabric comprises the 3D eyelet fabric individual layer (60) of more than one deck, every layer of 3D eyelet fabric individual layer (60) comprises upper and lower two-layer layer of cloth (10), (30), with the layer of filaments (20) being connected upper and lower two-layer layer of cloth (10), (30); Be provided with gas passage to one deck 3D eyelet fabric individual layer (60) be less than wherein, this gas passage connects aerating equipment.

2. a kind of wind energy air cushion as claimed in claim 1, is characterized in that: the 3D eyelet fabric individual layer (60) forming gas passage comprises multiple 3D mesh cloth (61), and multiple 3D mesh cloth (61) interval is arranged to form more than one gas passage; Connect an aerating equipment after more than one gas passage is communicated with, or each gas passage independently connects aerating equipment.

3. a kind of wind energy air cushion as claimed in claim 1, is characterized in that: the layer of filaments (20) forming the 3D eyelet fabric individual layer (60) of gas passage is provided with air supply pipe (40) sky be inserted in wherein and wears gap (21); Described tracheae (40) has blind end and inlet end, and inlet end connects aerating equipment; Described tracheae (40) is laid with tiny pore (41).

4. a kind of wind energy air cushion as claimed in claim 3, is characterized in that: the layer of filaments (20) being plugged with tracheae (40) has been provided with every a certain distance wears gap (21); Tracheae is plugged on the arm that sky wears gap (21) is formed by multiple, and one end of each arm is closed, and the other end is interconnected and forms inlet end and connect aerating equipment, or the two ends of each arm connect aerating equipment simultaneously, simultaneously from the two ends aerating of arm.

5. a kind of wind energy air cushion as claimed in claim 2, is characterized in that: tracheae (40) coiling is plugged on multiple 3D mesh cloth (61) interval and arranges in the gas passage of formation; One end of tracheae (40) is closed, and the other end extends layer of filaments (20) and forms inlet end connection aerating equipment; Or layer of filaments formation inlet end connection aerating equipment is extended at the two ends of tracheae simultaneously, two ends air inlet simultaneously.

6. a kind of wind energy air cushion as described in any one of claim 1 to 5, is characterized in that: the upper strata layer of cloth (10) of 3D eyelet fabric individual layer (60) is for having the air-permeable layer of mesh (11), and lower floor's layer of cloth (30) is the fixed bed of braiding densification.

7. a kind of wind energy air cushion as described in any one of claim 1 to 5, is characterized in that: the upper and lower two-layer layer of cloth (10,30) of 3D eyelet fabric individual layer (60) is for having the air-permeable layer of mesh (11,31).