CN202104587U - Shock absorption and pressure dispersion structure - Google Patents

Abstract

A shock absorption and pressure dispersion structure comprises a shock absorption and pressure dispersion layer; the shock absorption and pressure dispersion layer comprises a plurality of frame bodies and adopts an elastic support structure provided with a plurality of heat dissipation holes, wherein a plurality of frame bodies are composed of a plurality of transversal elastic support walls and a plurality of longitudinal elastic support walls, the elastic support structure provided with the plurality of heat dissipation holes are formed by connecting a plurality of first slant elastic support walls with a plurality of second slant elastic support walls in a staggered manner, and the plurality of first slant elastic support walls and the plurality of second slant elastic support walls are arranged on the double diagonal lines of each frame body; therefore, when a user lies on the shock absorption and pressure dispersion layer, the shock absorption and pressure dispersion layer can disperse the pressure transversely, lengthways and in the double slant directions and enable the downward pressure of the body of the user to be extended and distributed on the whole bed, and the user does not have the feeling of sinking, so that favorable compression, flexibleness and support can be achieved; and the shock absorption and pressure dispersion layer is composed of the plurality of longitudinal elastic support walls, the plurality of transversal elastic support walls and the plurality of double slant support walls which are arranged in a staggered manner, so that the shock absorption and pressure dispersion structure has the advantages of light weight, economy of manufactured materials and manufacturing cost, good air permeability, and the like.

Description

The shock-absorbing laminated structure that looses

Technical field

The utility model is about the diffusing laminated structure of a kind of shock-absorbing; Be meant especially and a kind ofly be cross-linked to the resiliency supported wall and form by a plurality of diclinics that laterally, vertically reach; Make pressure can constantly extend distribution; Let the user not have and touch the sagging impression at the end, and reach characteristics such as good supporting property, flexibility and gas permeability, and can be applied on mattress, cushion, back cushion and the foot-operated pad.

Background technology

At present, it is to cover a gel layer on the foamed cotton layer that the structure of mattress that is sold on the market or back of the body pad or cushion or foot-operated pad has a kind of, and the foamed cotton layer that will cover gel layer is placed in one and is sealed in the overcoat; So that the user lay at or is against or be seated at or ride in this mattress or back of the body pad or cushion or foot-operated the pad last time; The weight that can disperse health by gel layer and this foamed cotton layer, but owing to consider in order to make this foamed cotton layer and this gel layer can bear more complete pressure, so can be designed to one whole and large-area structure; But be designed to whole and void-free structure; Except meeting caused the not enough shortcoming of gas permeability, manufacturer also must spend many materials can process the enough big mattress of area, and after integral manufacturing goes out finished product; Owing to use one whole foam material; So also can increase whole weight significantly, therefore, also can cause the increase of shipment and delivery cost except mattress or cushion or foot-operated pad carrying personnel are caused the heavier carrying burden; If user's mattress that will more renew or back of the body pad or cushion or foot-operated pad in addition, outside not only preponderance was difficult to move, the composition structure of whole formula of this mattress or back of the body pad or cushion or foot-operated pad also can't fold processing.

In addition; The user lay at or is against or be seated at or ride in the gel mattress of full slice system or back of the body pad or cushion or foot-operated the pad last time; Because full slice system gel mattress is too soft; So have the sagging impression of touching the end, and the end impression of touching of sinking lets the user have to be difficult for standing up, to cause the supportive effect clear.

Therefore; If a kind of shock-absorbing laminated structure that looses can be provided, the loose structure of laminated structure of this shock-absorbing is not to be one whole formula, and the while also can reach effective dispersive pressure; So can significantly reduce manufacturing cost; Laminated structure is to be made up of the resiliency supported material because shock-absorbing is loose in addition, so can have in light weight and characteristics such as gas permeability is good, so should be a best solution.

Summary of the invention

The purpose of the utility model promptly is to provide a kind of shock-absorbing laminated structure that looses, and a kind of resiliency supported wall construction that distributes staggered can be provided, and makes the pressure can be towards disperseing away, to reach air permeability and good, supportive and flexibility from all directions.

Time purpose of the utility model promptly is to provide a kind of shock-absorbing laminated structure that looses; Seeing through a plurality of longitudinal elasticity supporting walls, transverse elasticity supporting walls and diclinic forms to the resiliency supported wall is staggered; Make it when making, need not use a large amount of elastomeric materials, save cost and reduce the weight purpose to reach.

An embodiment according to the utility model; Can reach the diffusing laminated structure of shock-absorbing of above-mentioned novel purpose; Comprised a shock-absorbing and loose to have pressed layer, this shock-absorbing is loose and is pressed layer to be cross-linked by a plurality of transverse elasticity supporting walls, a plurality of longitudinal elasticity supporting walls and a plurality of first oblique resiliency supported wall and the second resiliency supported wall to constitute a resiliency supported frame structure, therefore presses a layer last time when the user couches to loose in this shock-absorbing; The diffusing pressure layer of this shock-absorbing can always disperse pressure towards horizontal, vertical, diclinic simultaneously; Therefore the down force pressure of user's health can on average be extended the every nook and cranny that is distributed in the diffusing pressure layer of shock-absorbing, can not produce the sagging impression of touching the end, to reach good supporting property and flexibility; In addition; Constitute because this shock-absorbing loose to press layer to be cross-linked by a plurality of transverse elasticity supporting walls, a plurality of longitudinal elasticity supporting walls and a plurality of first oblique resiliency supported wall and the second resiliency supported wall, forming a plurality of louvres, and have overall weight light, save advantages such as manufactured materials and cost and gas permeability be good.

In particular, the side height and the width of said transverse elasticity supporting walls, longitudinal elasticity supporting walls, the first oblique resiliency supported wall and the second oblique resiliency supported wall are all identical.

In particular, the said first oblique resiliency supported wall and the second oblique resiliency supported wall can pass the cross-point of this transverse elasticity supporting walls and this longitudinal elasticity supporting walls.

In particular, can form a plurality of louvres between said transverse elasticity supporting walls, longitudinal elasticity supporting walls and oblique resiliency supported wall are cross-linked.

In particular; The diffusing characteristic of pressing the resiliency supported wall of layer to have absorbing vibration, disperseing to impact power of said shock-absorbing, and the resiliency supported wall of the diffusing laminated structure of this shock-absorbing is that gel rubber material, latex material, silica gel, soft rubber, soft rubber polymer or soft PU glue elastomeric material are made.

The diffusing laminated structure of said shock-absorbing more can comprise a cladding, and this cladding has an accommodation space, and this shock-absorbing is loose and pressed layer to be placed in the accommodation space of this cladding.

The diffusing laminated structure of said shock-absorbing more can comprise a cushioned material layer, and the top end surface of this cushioned material layer looses with shock-absorbing and presses the bottom end surface of layer to combine.

The said shock-absorbing laminated structure that looses, louvre is the open-work that runs through.

The said shock-absorbing laminated structure that looses, this shock-absorbing loose, and to press a wherein end surfaces of layer be confining surface, and an end of louvre is a closed.

According to another embodiment of the utility model, a kind of shock-absorbing laminated structure that looses is provided, it comprises: a cushioned material layer; A plurality of shock-absorbings are loose and are pressed layer; This shock-absorbing is loose and is pressed layer to be staggered to form a plurality of frameworks by a plurality of transverse elasticity supporting walls and a plurality of longitudinal elasticity supporting walls; And extend the first oblique resiliency supported wall and the second oblique resiliency supported wall respectively from two diagonal of each framework; This first oblique resiliency supported wall and the second oblique resiliency supported wall and can be interlaced with the cross-point of a plurality of transverse elasticity supporting walls and a plurality of longitudinal elasticity supporting walls except that itself is staggered, to form a plurality of louvres; The diffusing layer of pressing of a plurality of shock-absorbings is incorporated on this padded coaming laminar surface, and each shock-absorbing is loose and is pressed interlayer also to keep a spacing, and forms a plurality of concavity passages between the layer diffusing pressure of shock-absorbing.

The diffusing laminated structure of said shock-absorbing more can comprise a cladding, has an accommodation space, and this combines the diffusing cushioned material layer of layer of pressing of a plurality of shock-absorbings to be placed in the accommodation space of this cladding.

The beneficial effect of the utility model is; The diffusing pressure layer of the shock-absorbing that is wherein comprised is cross-linked by a plurality of transverse elasticity supporting walls, a plurality of longitudinal elasticity supporting walls and a plurality of first oblique resiliency supported wall and the second resiliency supported wall and constitutes a resiliency supported frame structure; Therefore when couching, the user pressed a layer last time in this shock-absorbing is diffusing; The diffusing pressure layer of this shock-absorbing can always disperse pressure towards horizontal, vertical, diclinic simultaneously; Therefore the down force pressure of user's health can on average be extended the every nook and cranny that is distributed in the diffusing pressure layer of shock-absorbing, can not produce the sagging impression of touching the end, to reach good supporting property and flexibility; In addition; Constitute because this shock-absorbing loose to press layer to be cross-linked by a plurality of transverse elasticity supporting walls, a plurality of longitudinal elasticity supporting walls and a plurality of first oblique resiliency supported wall and the second resiliency supported wall, forming a plurality of louvres, and have overall weight light, save advantages such as manufactured materials and cost and gas permeability be good.

Description of drawings

Figure 1A: for first of the diffusing laminated structure of the utility model shock-absorbing is implemented structural perspective;

Figure 1B: be the A-A profile of Figure 1A;

Fig. 2: be the dispersive pressure sketch map of the diffusing laminated structure of the utility model shock-absorbing;

Fig. 3: for second of the diffusing laminated structure of the utility model shock-absorbing is implemented sketch map;

Fig. 4: for the 3rd of the diffusing laminated structure of the utility model shock-absorbing is implemented sketch map;

Fig. 5: be the use sketch map of the diffusing laminated structure of the utility model shock-absorbing;

Fig. 6: for first of the diffusing laminated structure of the utility model shock-absorbing is implemented folding sketch map;

Fig. 7: implement structural perspective the 3rd for the 4th of the diffusing laminated structure of the utility model shock-absorbing and implement folding sketch map; And

Fig. 8: implement structural perspective the 4th for the 3rd of the diffusing laminated structure of the utility model shock-absorbing and implement folding sketch map;

Fig. 9 A: implement structural perspective the 5th for the 4th of the diffusing laminated structure of the utility model shock-absorbing and implement sketch map;

Fig. 9 B: be the B-B profile of Fig. 9 A.

The specific embodiment

Relevant for the aforementioned of the utility model and other technology contents, characteristics and effect, in the following detailed description that cooperates with reference to graphic preferred embodiment, can clearly appear.

See also Figure 1A, B and shown in Figure 2 implements structural perspective and uses sketch map for first of the diffusing laminated structure of the utility model shock-absorbing, comprises:

One shock-absorbing is loose and is pressed layer 1; This shock-absorbing loose to press layer 1 to be staggered to form a framework by a plurality of transverse elasticity supporting walls 11, a plurality of longitudinal elasticity supporting walls 12; Forming a plurality of cross-points, and extend the first oblique resiliency supported wall 13 and the second oblique resiliency supported wall 14, constitute an elastic support structure to be cross-linked from two diagonal of framework; Wherein this first oblique resiliency supported wall 13 and the second oblique resiliency supported wall 14 are except that itself is staggered; And can pass the cross-point of this transverse elasticity supporting walls 11 and this longitudinal elasticity supporting walls 12, and this transverse elasticity supporting walls 11, this longitudinal elasticity supporting walls 12, first oblique resiliency supported wall 13 is cross-linked and the second oblique resiliency supported wall 14 between can form a plurality of louvres 15, the open-work of this louvre 15 for running through; In order to circulation of air, reach the heat radiation purpose;

As shown in Figure 2; When shock-absorbing loose to press layer 1 stressed, this transverse elasticity supporting walls 11 can lateral dispersion pressure, and this vertically dispersive pressure of longitudinal elasticity supporting walls 12; And 14 on this first oblique resiliency supported wall 13 and the second oblique resiliency supported wall can oblique dispersive pressures; Therefore, pressure can be towards extending out, to reach comfort cushioning and to loose and press effect from all directions.

What deserves to be mentioned is; Transverse elasticity supporting walls 11, longitudinal elasticity supporting walls 12, the first oblique resiliency supported wall 13 and the second oblique resiliency supported wall 14 of the diffusing pressure layer 1 of this shock-absorbing has absorbing vibration, disperses to impact the characteristic of power, and transverse elasticity supporting walls 11, longitudinal elasticity supporting walls 12, the first oblique resiliency supported wall 13 and the second oblique resiliency supported wall 14 of the diffusing pressure layer 1 of this shock-absorbing are that gel rubber material, latex material, silica gel, soft rubber, soft rubber polymer or soft PU glue elastomeric material are made.

What deserves to be mentioned is that this transverse elasticity supporting walls 11, this longitudinal elasticity supporting walls 12, this first oblique resiliency supported wall 13 and the second oblique resiliency supported wall 14 are formed in one and are made.

What deserves to be mentioned is that the side height of this transverse elasticity supporting walls 11, this longitudinal elasticity supporting walls 12, this first oblique resiliency supported wall 13 and the second oblique resiliency supported wall 14 is all identical.

What deserves to be mentioned is that the side width of this transverse elasticity supporting walls 11, this longitudinal elasticity supporting walls 12, this first oblique resiliency supported wall 13 and the second oblique resiliency supported wall 14 is all identical.

See also shown in Figure 3; For second of the diffusing laminated structure of the utility model shock-absorbing is implemented structural perspective; The difference of itself and Fig. 1 be in; Loose to press layer 1 to be placed in the accommodation space 21 of a cladding 2 shock-absorbing, press layer to coat, shock-absorbing is loose press layer can be applied in the field of mattress, back cushion, cushion or foot-operated pad so that shock-absorbing is loose.

What deserves to be mentioned is that this cladding 2 is to weave cotton cloth or stretch knit cloth or corium leather or dermatine are made.

See also shown in Figure 4; For the 3rd of the diffusing laminated structure of the utility model shock-absorbing is implemented structural perspective; By knowing among the figure; Be that with Fig. 2 difference this shock-absorbing is loose and pressed layer 1 bottom can combine a cushioned material layer 3, and with the diffusing accommodation space 21 of pressing layer 1 and cushioned material layer 3 to place this cladding 2 in the lump of this shock-absorbing; Wherein this cushioned material layer 3 can this shock-absorbing of effective support be loose and is pressed layer 1, also can share simultaneously a part of by this shock-absorbing loose press layer 1 downward impact and pressure.

What deserves to be mentioned is that this cushioned material layer 3 is made for foam or memory foam or high density foam or synthetic cotton or natural cotton.

Please consult Fig. 2 and shown in Figure 5 in the lump; Dispersive pressure sketch map and use sketch map for the diffusing laminated structure of the utility model shock-absorbing; By knowing among the figure; This shock-absorbing loose to press layer 1 by with being applied to the mattress field; This shock-absorbing is diffusing pressed layer 1 a last time when user's 4 body pressures are pressed on downwards; Because this transverse elasticity supporting walls 11, this longitudinal elasticity supporting walls 12 and the first oblique resiliency supported wall 13 and the second oblique resiliency supported wall 14 are the structure of interlaced connection, so can the mode of pressure via transverse component, vertical component and oblique component be distributed in the pressure extension on whole transverse elasticity supporting walls 11, this longitudinal elasticity supporting walls 12 and the first oblique resiliency supported wall 13 and the second oblique resiliency supported wall 14; Therefore pressure can be via transverse component (transverse elasticity supporting walls 11), vertical component (longitudinal elasticity supporting walls 12) and diclinic to component (first oblique resiliency supported wall 13, the second oblique resiliency supported wall 14); Constantly down force pressure is disperseed via component; Make the pressure spot of point-like change netted pressure distribution into, impact power equivalence fruit so can reach fabulous absorbing vibration, dispersion.Cause the down force pressure of user's 4 healths to extend and be distributed on whole the bed, do not have the sagging impression of touching the end, to reach good compression property and flexibility and supportive.

In addition; And this shock-absorbing loose to press layer to be made up of to the resiliency supported wall is staggered a plurality of longitudinal elasticity supporting walls, transverse elasticity supporting walls and diclinic, and produces a plurality of louvres 15, and is in light weight except that having, save the plurality of advantages such as manufactured materials and manufacturing cost and gas permeability be good; This louvre 15 has cross-ventilated effect; Supply the user in sleep, to enjoy refrigerant comfortable impression, do not have feeling of oppression and heat, avoid skin phenomenons such as erythema, bedsore or allergy to occur.

See also shown in Figure 6, for the utility model shock-absorbing first of laminated structure that looses is implemented folding sketch map, by knowing among the figure; Pressure layer 1 is to be made by elastomeric material because this shock-absorbing is loose, and makes it have bendability characteristics, and it is superimposed that the user can carry out doubling; With the diffusing volume of pressing layer 1 integral body of reduction shock-absorbing; Be easy to collection, and press the in light weight of layer, so after the reduction in bulk because shock-absorbing is loose; Be easier to carry, but so Convenient mattress carrying personnel transport or person easy to use changes the diffusing laminated structure of old shock-absorbing voluntarily.

See also Fig. 7 and shown in Figure 8, for the 4th of the diffusing laminated structure of the utility model shock-absorbing is implemented structural perspective, by knowing among the figure; A plurality of shock-absorbings that on these cushioned material layer 3 surfaces, distributed are separately loose and are pressed layer 1; And each shock-absorbing loose to press 1 on layer all to keep a spacing, a plurality of shock-absorbings is loose press between the layer 1 to form a plurality of concavity passages 16, and supplying user 4 to see through this concavity passage 16, to carry out doubling superimposed; To dwindle the overall volume of cushioned material layer 3, be easy to carry about with one or Zang Na.

See also Fig. 9 A, shown in the B, the utility model the 5th is implemented sketch map; The difference of itself and Fig. 1 is in looses in, this shock-absorbing that to press layer a 1 ' at least one surface be confining surface, transverse elasticity supporting walls 11, this longitudinal elasticity supporting walls 12, first oblique resiliency supported wall 13 are cross-linked and the second oblique supporter 14 between can form the louvre 17 of several sealings; Because the aperture of louvre 17 is bigger; So when louvre 17 is squeezed distortion, can air be guided out via open surface equally, reach the purpose of heat radiation; And other structures are all identical with Fig. 1, repeat no more in this.

In addition, the shock-absorbing shown in Fig. 9 A, the B is loose and is pressed layer 1 ' can implement with Fig. 2 to Fig. 8 institute disclosure equally, repeats no more in this.

In addition, this combines the diffusing cushioned material layer 3 of layer 1 of pressing of a plurality of shock-absorbings to be placed in the accommodation space 21 of this cladding 2.

In addition, the shock-absorbing of above-mentioned various embodiment is loose and is pressed layer 1 all can be made into mattress or back cushion or cushion or foot-operated pad or products such as bolster or neck pillow.

In addition, be conveniently stripped in manufacture process, the cross-point of this transverse elasticity supporting walls 11, this longitudinal elasticity supporting walls 12, first oblique resiliency supported wall 13 and the second oblique resiliency supported wall 14 is circular aspect, in order to the demoulding.

The shock-absorbing that the utility model the provided laminated structure that looses with other located by prior art each other relatively the time, has more and gets the row advantage ready:

1. the utility model can provide a kind of staggered elastic support structure that distributes; So that pressure can be along disperseing away from all directions; Therefore the diffusing laminated structure of the shock-absorbing of this a kind of non-one whole formula need not use wide variety of materials to process the diffusing layer of pressing of this shock-absorbing, so can save whole manufacturing cost.

2. the shock-absorbing of the utility model is loose to press on the layer and is had a plurality of louvres; Make this shock-absorbing loose to press layer in light weight except that having, can save the plurality of advantages such as manufactured materials and cost; And can carry out circulation of air via louvre; With the rapid loss of hot gas that human body produces, avoid skin to grow erythema or bedsore or other allergic phenomenas because of pressing for a long time.

By the detailed description of above preferred embodiment, hope can be known the characteristic and spirit of describing the utility model more, and is not to come the category of the utility model is limited with the above-mentioned preferred embodiment that is disclosed.On the contrary, its objective is that hope can contain in the category of the claim that is arranged in the desire application of the utility model institute of various changes and tool equality.

Claims (10)

1. the diffusing laminated structure of shock-absorbing is characterized in that, comprises:

One shock-absorbing is loose and is pressed layer; Be staggered to form a plurality of frameworks by a plurality of transverse elasticity supporting walls and a plurality of longitudinal elasticity supporting walls; And extend the first oblique resiliency supported wall and the second oblique resiliency supported wall respectively from two diagonal of each framework; This first oblique resiliency supported wall and the second oblique resiliency supported wall and can be interlaced with the cross-point of a plurality of transverse elasticity supporting walls and a plurality of longitudinal elasticity supporting walls except that itself is staggered, to form a plurality of louvres.

2. the shock-absorbing as claimed in claim 1 laminated structure that looses is characterized in that the side height of this transverse elasticity supporting walls, this longitudinal elasticity supporting walls, the first oblique resiliency supported wall and the second oblique resiliency supported wall is all identical.

3. the shock-absorbing as claimed in claim 1 laminated structure that looses is characterized in that the side width of this transverse elasticity supporting walls, this longitudinal elasticity supporting walls, the first oblique resiliency supported wall and the second oblique resiliency supported wall is all identical.

4. the shock-absorbing as claimed in claim 1 laminated structure that looses; It is characterized in that this transverse elasticity supporting walls, longitudinal elasticity supporting walls, the first oblique resiliency supported wall and the second oblique resiliency supported wall are that gel rubber material, latex material, silica gel, soft rubber, soft rubber polymer or soft PU glue are processed.

5. the shock-absorbing as claimed in claim 1 laminated structure that looses is characterized in that more comprise a cladding, this cladding has an accommodation space, and this shock-absorbing is loose and pressed layer to be placed in the accommodation space of this cladding.

6. the shock-absorbing as claimed in claim 1 laminated structure that looses is characterized in that, more comprises a cushioned material layer, and the top end surface of this cushioned material layer looses with shock-absorbing and presses the bottom end surface of layer to combine.

7. the shock-absorbing as claimed in claim 1 laminated structure that looses is characterized in that louvre is the open-work that runs through.

8. the shock-absorbing as claimed in claim 1 laminated structure that looses is characterized in that, this shock-absorbing is loose, and to press a wherein end surfaces of layer be confining surface, and an end of louvre is a closed.

9. the diffusing laminated structure of shock-absorbing is characterized in that, comprises:

One cushioned material layer;

A plurality of shock-absorbings are loose and are pressed layer; This shock-absorbing is loose and is pressed layer to be staggered to form a plurality of frameworks by a plurality of transverse elasticity supporting walls and a plurality of longitudinal elasticity supporting walls; And extend the first oblique resiliency supported wall and the second oblique resiliency supported wall respectively from two diagonal of each framework; This first oblique resiliency supported wall and the second oblique resiliency supported wall and can be interlaced with the cross-point of a plurality of transverse elasticity supporting walls and a plurality of longitudinal elasticity supporting walls except that itself is staggered, to form a plurality of louvres;

The diffusing layer of pressing of a plurality of shock-absorbings is incorporated on this padded coaming laminar surface, and each shock-absorbing is loose and is pressed interlayer also to keep a spacing, and forms a plurality of concavity passages between the layer diffusing pressure of shock-absorbing.

10. the shock-absorbing as claimed in claim 9 laminated structure that looses is characterized in that, more comprises a cladding, has an accommodation space, and this combines a plurality of shock-absorbings to loose to press the cushioned material layer of layer to be placed in the accommodation space of this cladding.

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