CN208069884U - In conjunction with the bicycle saddle cushion of biogel structure - Google Patents

Abstract

A kind of bicycle saddle cushion of combination biogel structure is in a seat cushion include a foamed material layer and be covered in foamed material layer surface a surface layer.Multiple perforations being spaced, are formed in foamed material layer.One gel layer formation is in the bottom surface of foamed material layer.Multiple gel modules are filled in multiple perforations of foamed material layer one by one, and the tip contact of each gel module is in the bottom surface on surface layer, and bottom end is then integrally linked to gel layer.Gel layer offer cyclist has when riding the seat seat cushion comfortably rides seat sense and antibacterial effect.

Description

In conjunction with the bicycle saddle cushion of biogel structure

Technical field

The utility model is about a kind of cushion structure, especially a kind of bicycle saddle cushion of combination biogel structure.

Background technology

In traditional bicycle or electric bicycle saddle seat structure design, in order to which user to be made is in cycling or electric vehicle It will not bear too big vibration and increase comfort when it is ridden, therefore most rebasing portion of being present combines one layer of expanded material Layer, bubble are continuous, remember foamed cotton layer or other cushion materials, to absorb the vibration of part.In another product design, there is dealer to exist Whole piece formula gel layer is arranged in seat cushion interior, as vibration-absorbing material.

However, traditional seat cushion is being made moist mouldy, bacteria breed, stink hyperplasia using after long, often having cushion material The problem of.Current seating product for this problem without providing the scheme solved.Furthermore using full slice system gel layer When seat cushion is as vibration-absorbing material, the weight of entire seat cushion can be made to increase, and the full slice system gel layer is often unfavorable for human body Nice and cool, the ventilation of contact surface.

Utility model content

Edge this, the purpose of this utility model i.e. be to provide a kind of bicycle saddle cushion of combination biogel structure, to carry For bicycle or electric bicycle saddle seat preferable comfort when in use and there is antibacterial effect.

In order to achieve the above objectives, the utility model proposes a kind of bicycle saddle cushions of combination biogel structure, in seat cushion In include a foamed material layer and be covered in the foamed material layer surface a surface layer.Multiple perforations being spaced are formed In foamed material layer.One gel layer formation is in the bottom surface of foamed material layer.Multiple gel modules are filled in expanded material one by one Multiple perforations of layer, the tip contact of each gel module is in the bottom surface on surface layer, and bottom end is then integrally linked to gel layer.

Wherein, the bottom surface of the foamed material layer is herein in connection with a ground.

Wherein, between the foamed material layer and the surface layer further include a vibration-absorbing material layer.

Wherein, which is a column perforation or triangle cone perforation.

Wherein, multiple gel module is laid in the whole region of the foamed material layer.

Wherein, the regional area which corresponds at two ischium positions of a rider is defined as ischium confined area, Multiple gel module is laid in the foamed material layer and corresponds at the position of ischium confined area.

Wherein, which is defined as leg contact zone corresponding to the regional area of two femoribus internus of a rider, should Multiple gel modules are laid in the foamed material layer and correspond at the position of leg contact zone.

Wherein, the center line regional area of the leading edge of the seat cushion to rear is defined as center line connected region, multiple gel module The foamed material layer is laid in correspond at the position of center line connected region.

In terms of effect, when rider rides on seat cushion, the gel layer in the utility model provides cyclist and is riding Have when sitting the seat cushion and comfortably ride seat sense and antibacterial effect, and can increase by the integrated structure of the gel layer and foamed material layer Into the local blood circulation effect of cyclist.

Compared to the design of traditional full slice system gel layer, the structure design of the utility model can reduce product weight simultaneously Make to ride a person when riding on seat cushion, there is good ventilation effect.

The structure design of the utility model possesses the flexible nature, respiratory and the key property of damping of gel layer.Also that is, The seat cushion of the utility model, which has, can inhibit bacteria breed, provides the good local blood circulation effect of cyclist, appropriateness Pliability, nice and cool, ventilation effect.

Due to the optional position of the gel module distribution pattern of the utility model in the whole region of seat cushion, corresponding to cyclist Ischium confined area, two leg contact zones or center line connected region, therefore the utility model effectively provides office of the cyclist when cycling Portion position release of pressure effect.

Description of the drawings

Fig. 1 shows the schematic side view of the bicycle saddle cushion of the utility model first embodiment combination biogel structure.

Fig. 2 shows the sectional view of A-A sections in Fig. 1.

Fig. 3 shows that the gel module in the utility model is distributed in the distribution schematic diagram one of seat cushion.

Fig. 4 shows that the gel module in the utility model is distributed in the distribution schematic diagram two of seat cushion.

Fig. 5 shows that the gel module in the utility model is distributed in the distribution schematic diagram three of seat cushion.

Fig. 6 shows that the gel module in the utility model is distributed in the distribution schematic diagram four of seat cushion.

Fig. 7 shows the sectional view of the bicycle saddle cushion of the second embodiment combination biogel structure of the utility model.

Fig. 8 shows the sectional view of the bicycle saddle cushion of the 3rd embodiment combination biogel structure of the utility model.

Main element label declaration：

100 seat cushions

1 bolster

11 columns

2 foamed material layers

3 surface layers

21 perforations

21a triangle cone perforations

4 gel layers

5 gel modules

6 grounds

7 vibration-absorbing material layers

P1 ischium confined areas

The legs P2 contact zone

P3 center lines connected region

Specific implementation mode

For a clearer understanding of the technical features, objectives and effects of the utility model, existing control description of the drawings Specific embodiment of the present utility model:

Shown in Fig. 1-2, the side of the bicycle saddle cushion of the utility model combination biogel structure is shown Depending on schematic diagram, and Fig. 2 shows the sectional view of A-A sections in Fig. 1.As shown, the bottom of a seat cushion 100 is combined with a bolster 1, And bolster 1 is in conjunction with a column 11.Seat cushion 100 can be the seat cushion of a bicycle, electric vehicle, automobile or other application occasion.

As shown in Fig. 2, seat cushion 100 mainly includes a foamed material layer 2 and is covered in the surface of the foamed material layer 2 One surface layer 3.Foamed material layer 2 can be selected from PU (Polyurethanes, polyurethane), EVA (Ethylene Vinyl Acetate, Ethylene vinyl acetate copolymer), PP (Polypropylene, polypropylene), TPR (Themoplastic Rubber, thermoplasticity Rubber), PVC (PolyVinyl Chloride, polyvinyl chloride).

Foamed material layer 2 also can be by TPU (Thermoplastic Polyurethane, thermoplastic polyurethane elastomer) Made, most foaming monomers are mutually adhered or with heat with bonding material appropriate by this material each other by multiple foaming monomers The surface of molten foaming monomer and so that adjacent majority foaming monomers is mutually adhered, each foamed process of foaming monomer and Multiple foaming micropores are formed in inside, so constituting has light-weight and high resiliency characteristic material layer.

In the utility model design, multiple perforations 21 being spaced are formed in foamed material layer 2.Each perforation 21 is in Column perforation, that is, the bottom opening of perforation 21 and open-topped diameter are identical.

One gel layer 4 is formed in the bottom surface of the foamed material layer 2.Multiple gel modules 5 are filled in the foaming material one by one Multiple perforation 21 of the bed of material 2.The tip contact of each gel module 5 is in the bottom surface on the surface layer 3, and bottom end is then integrally It is linked to the gel layer 5.

Gel layer 4 and gel module 5 refer to elastomer gel made of gel (Gel) material, such as the gel rubber material For polyurethane gel (polyurethane-based Gel), silicon-based gel (silicone-based gels), PVC bases gel (PVC-based Gel), acrylic gel (acrylic-based gel) etc..

The utility model is added in gel layer 4 and the gel rubber material of gel module 5 or coating anti-biotic material.Anti-biotic material It may include antibacterial microorganism, by volatile ingredient caused by the antibacterial microorganism, mushroom can be inhibited by air by having Development, the effect of decomposition smell ingredient.

In another example the anti-biotic material may include silver nano-particle, and the silver nano-particle is entrained in gel layer 4 and gel mold In block 5 or it is coated on the surface layer of the gel module 5.The silver nano-particle also has the function of inhibiting mushroom.

Aforementioned seat structure can be made into the pattern of cover, to be suitble to be coated on the surface of existing bicycle saddle cushion.Also may be used A ground 6 directly is combined in the bottom surface of the foamed material layer 2, and can be after combining bolster 1 as shown in Figure 1 in conjunction with column 11, the seat cushion as bicycle.

Fig. 3 shows that the gel module in the utility model is distributed in the distribution schematic diagram one of seat cushion.As shown, seat cushion Lay perforation 21 in 100 whole surface region.Also that is, gel mold block 5 is laid in the whole region of the foamed material layer 2.

Fig. 4 shows that the gel module in the utility model is distributed in the distribution schematic diagram two of seat cushion.As shown, seat cushion 100 regional areas corresponded at two ischium positions of a rider are defined as ischium confined area P1, and multiple gel mold Block 5 is laid in the foamed material layer 2 and corresponds at the position of ischium confined area P1.

Fig. 5 shows that the gel module in the utility model is distributed in the distribution schematic diagram three of seat cushion.As shown, seat cushion The center line regional area of 100 leading edge to rear is defined as center line connected region P2, and multiple gel module 5 is laid in the foaming Material layer 2 corresponds at the position of center line connected region P2.

Fig. 6 shows that the gel module in the utility model is distributed in the distribution schematic diagram four of seat cushion.As shown, seat cushion 100 regional areas for corresponding to two femoribus internus of a rider are defined as leg contact zone P3, and multiple gel module 5 The foamed material layer 2 is laid in correspond at the position of leg contact zone P3.

Fig. 7 shows the sectional view of the bicycle saddle cushion of the utility model second embodiment combination biogel structure.This reality The composition component for applying example is roughly the same with first embodiment, therefore similar elements are the identical element number of mark, as a means of correspondence.? It further include a vibration-absorbing material layer 7 in the present embodiment, between foamed material layer 2 and surface layer 3.Such as the vibration-absorbing material layer 7 can be note Recall one of foamed cotton layer or foamed cotton layer.It is usually with polyurethane high molecule polymer material institute to remember foamed cotton layer (Memory Foam) It is made, there is the characteristic for having both viscosity (Viscosity) and elastic (Elasticity), when external force makes the memory foamed cotton layer After deformation, which can slowly reply original shape, to absorb impact kinetic energy.

Fig. 8 shows the sectional view of the bicycle saddle cushion of the 3rd embodiment combination biogel structure of the utility model.This In embodiment, multiple triangle cone perforation 21a are formed in foamed material layer 2.Also that is, triangle cone perforation 21a is smaller with one The open top of diameter and a larger-diameter bottom opening.Certain triangle cone perforation 21a also can be with smaller straight The bottom opening of diameter and larger-diameter open-topped inversion triangle cone perforation.

The above descriptions are merely exemplary embodiments of the present utility model, is not limited to the model of the utility model It encloses.Any those skilled in the art, made equivalent change under the premise of not departing from the design and principle of the utility model Change and change, the range of the utility model protection should all be belonged to.

Claims (8)

1. it includes a foamed material layer and be covered in that a kind of bicycle saddle cushion of combination biogel structure, which is in a seat cushion, One surface layer on the surface of the foamed material layer, it is characterised in that:

Multiple perforations being spaced, form the foamed material layer；

One gel layer is formed in the bottom surface of the foamed material layer；

Multiple gel modules are filled in multiple perforations of the foamed material layer one by one, and the top of each gel module connects It touches in the bottom surface on the surface layer, and bottom end is then integrally linked to the gel layer.

2. combining the bicycle saddle cushion of biogel structure as described in claim 1, which is characterized in that the foamed material layer Bottom surface is herein in connection with a ground.

3. as described in claim 1 combine biogel structure bicycle saddle cushion, which is characterized in that the foamed material layer and It further include a vibration-absorbing material layer between the surface layer.

4. combining the bicycle saddle cushion of biogel structure as described in claim 1, which is characterized in that the perforation is a column Perforation or triangle cone perforation.

5. combining the bicycle saddle cushion of biogel structure as described in claim 1, which is characterized in that multiple gel modules It is laid in the whole region of the foamed material layer.

6. combining the bicycle saddle cushion of biogel structure as described in claim 1, which is characterized in that the seat cushion corresponds to one Regional area at two ischium positions of rider is defined as ischium confined area, and multiple gel modules are laid in the foaming Material layer corresponds at the position of the ischium confined area.

7. combining the bicycle saddle cushion of biogel structure as described in claim 1, which is characterized in that the seat cushion corresponds to one The regional area of two femoribus internus of rider is defined as leg contact zone, and multiple gel modules are laid in the foaming material The bed of material corresponds at the position of the leg contact zone.

8. combining the bicycle saddle cushion of biogel structure as described in claim 1, which is characterized in that the leading edge of the seat cushion is extremely The center line regional area of rear is defined as center line connected region, and multiple gel modules are laid in the foamed material layer and correspond to this At the position of center line connected region.