CN216454260U - Quilting layer with good air permeability - Google Patents

Abstract

The utility model relates to the field of mattresses, in particular to a quilting layer with good air permeability. The breathable fabric comprises a surface layer and an inner lining, wherein a surface layer supporting area and a surface layer breathable area are arranged on the surface layer, the surface layer supporting area comprises a plurality of surface layer supporting blocks sewn on the surface layer, the surface layer supporting blocks are arranged at intervals, the surface layer breathable area comprises a plurality of surface layer breathable blocks sewn on the surface layer, a plurality of surface layer breathable seams are formed in the surface layer breathable blocks, and the length directions of the surface layer breathable seams are parallel to each other. The quilting layer has the effect of improving the air permeability of the quilting layer.

Description

Quilting layer with good air permeability

Technical Field

The utility model relates to the field of mattresses, in particular to a quilting layer with good air permeability.

Background

The mattress is an article used between a human body and a bed to ensure that a user obtains healthy and comfortable sleep. Along with the improvement of living standard of people, the requirement on the comfort level of the mattress is gradually improved, the material and the variety of the mattress are continuously increased, and the mattresses made of different materials can bring different sleeping effects to people. To improve the comfort of the mattress, the mattress top is often provided with a quilted layer.

The quilting layer is a composite fabric layer, which is a composite body formed by quilting textile fabrics on the surface of the mattress and materials such as sponge, wadding fibers, non-woven fabrics and the like. The quilting layer is arranged on the most surface layer of the mattress and is directly contacted with the human body. A certain amount of fillers are arranged in the quilting layer, so that the quilting layer has a heat preservation effect and poor air permeability, and a sleeper is easy to feel stuffy when lying on the mattress in hot summer.

SUMMERY OF THE UTILITY MODEL

The utility model provides a quilting layer with good air permeability, aiming at improving the air permeability of the quilting layer.

The utility model provides a quilting layer with good air permeability, which adopts the following technical scheme:

the quilting layer with good air permeability comprises a surface layer and an inner lining, wherein a surface layer supporting area and a surface layer air permeable area are arranged on the surface layer, the surface layer supporting area comprises a plurality of surface layer supporting blocks sewn on the surface layer, the surface layer supporting blocks are arranged at intervals, the surface layer air permeable area comprises a plurality of surface layer air permeable blocks sewn on the surface layer, a plurality of surface layer air permeable seams are formed in the surface layer air permeable blocks, and the length directions of the surface layer air permeable seams are parallel to each other.

Through adopting above-mentioned technical scheme, the quilting layer includes superficial layer and interior nexine for the quilting layer has certain thickness, can satisfy heat retaining requirement, and materials such as cotton fibre can be filled in the superficial layer supporting shoe, supports the human body through setting up soft superficial layer supporting shoe, improves the comfort level on quilting layer. If the surface layer supporting blocks are arranged in a large area, a user can feel sultry easily, so that the surface layer supporting blocks are arranged at intervals and a certain ventilation space is reserved. The surface layer breathable blocks can be filled with cotton wool and other materials, the human body is supported by the soft surface layer breathable blocks, the surface layer breathable seams are formed, and the breathability of the surface layer breathable blocks is improved. By arranging the surface layer supporting block and the surface layer breathable block, the quilting layer is soft and comfortable to support a human body and has good breathability.

Optionally, the inner layer includes the ventilative district of inner layer, the ventilative district of inner layer includes a plurality of lining ventilative pieces of making on the inner layer, the ventilative piece of inner layer sets up with the ventilative piece one-to-one in top layer, a plurality of lining ventilative seams have been seted up to the ventilative piece of inner layer, and is a plurality of the length direction of lining ventilative seam is parallel to each other.

By adopting the technical scheme, materials such as cotton wool can be filled in the inner breathable block, the comfort level of the quilting layer is improved, and meanwhile, the inner breathable seams are formed in the inner breathable block, so that the quilting layer has good breathability.

Optionally, the length direction of the inner layer ventilation seam is perpendicular to the length direction of the surface layer ventilation seam, and the surface layer ventilation seam and the inner layer ventilation seam on the correspondingly arranged surface layer ventilation block and the inner layer ventilation block are communicated with each other.

Through adopting above-mentioned technical scheme, correspond the top layer ventilative seam and the ventilative seam intercommunication each other of nexine on the ventilative piece of top layer and the ventilative piece of nexine that sets up for top layer ventilative seam and nexine ventilative seam can play better ventilative radiating effect.

Optionally, still be provided with the top layer on the surface layer and arrange wet district, the top layer is arranged wet district and is included a plurality of top layers of sewing on the surface layer and is arranged wet piece, the top layer is arranged wet piece and is used for absorbing moisture, and is a plurality of the top layer is arranged wet piece parallel arrangement.

By adopting the technical scheme, the surface layer moisture-discharging block is filled with a material with better water absorption, so that sweat of a human body can be absorbed, and the comfort level of the quilting layer is further improved.

Optionally, the surface layer dehumidifying area further comprises a plurality of surface layer dehumidifying support blocks sewn on the surface layer, and the surface layer dehumidifying support blocks and the surface layer dehumidifying blocks are arranged at intervals.

Through adopting above-mentioned technical scheme, material such as cotton fibre can be filled to the top layer hydrofuge supporting shoe, through setting up soft top layer hydrofuge supporting shoe, supports the human body. If the surface layer dehumidifying block is arranged in a large area, excessive local water absorption is easily caused, the comfort level of a user can be reduced due to local moisture of the quilting layer, and therefore the surface layer dehumidifying support block and the surface layer dehumidifying block are arranged at intervals.

Optionally, still be provided with nexine hydrofuge district on the inlayer, the nexine hydrofuge district corresponds the setting with top layer hydrofuge district, the nexine hydrofuge district includes a plurality of nexine hydrofuge pieces of making on the inlayer including, the nexine hydrofuge piece is used for absorbing moisture, and is a plurality of nexine hydrofuge piece parallel arrangement.

By adopting the technical scheme, the inner layer moisture-discharging block is filled with a material with better water absorption, so that sweat of a human body can be absorbed, and the comfort level of the quilting layer is further improved.

Optionally, the inner layer dehumidifying area further comprises a plurality of inner layer dehumidifying support blocks sewn on the inner layer, and the inner layer dehumidifying support blocks and the inner layer dehumidifying blocks are arranged at intervals.

Through adopting above-mentioned technical scheme, the inlayer hydrofuge supporting shoe can fill materials such as cotton fibre, supports the human body through setting up soft inlayer hydrofuge supporting shoe. If the inner layer dehumidifying block is arranged in a large area, the local water absorption is easy to cause, the comfort level of a user can be reduced due to the local moisture of the quilting layer, and therefore the inner layer dehumidifying support block and the inner layer dehumidifying block are arranged at intervals.

Optionally, the length direction perpendicular to of the moisture removal piece of nexine the length direction of the moisture removal piece of top layer, the moisture removal piece of top layer and the mutual butt of the moisture removal piece of nexine.

Through adopting above-mentioned technical scheme, the mutual butt of wet piece is arranged with the nexine to the top layer for the moisture that the wet piece was arranged to the top layer can transmit to the nexine better and arrange wet piece, keeps the dry and comfortable of surface layer, improves the comfort level of quilting layer.

In summary, the utility model includes at least one of the following beneficial technical effects:

1. by arranging the surface layer supporting block and the surface layer breathable block, the quilting layer is soft and comfortable to support a human body and has better breathability;

2. the air permeability of the quilting layer is further improved by arranging the inner layer air permeable block;

3. through setting up top layer hydrofuge district and nexine hydrofuge district, can absorb human sweat, further improve the comfort level of quilting layer.

Drawings

Fig. 1 is an exploded view of a quilted layer having good air permeability.

Fig. 2 is a structural layout view of a surface layer in a quilted layer having good air permeability.

Fig. 3 is a schematic view showing a structure of a surface supporting region in a quilted layer having good air permeability.

Fig. 4 is a schematic structural diagram of a surface layer breathable area in a quilted layer with good breathability.

Fig. 5 is a schematic structural view of a surface moisture-discharging region in a quilted layer having good air permeability.

Fig. 6 is a schematic structural view of an inner breathable region in a quilted layer having good breathability.

Fig. 7 is a schematic view showing a structure of a moisture discharge area of an inner layer of a quilted layer having good air permeability.

Description of reference numerals: 100. a surface layer; 110. a surface support region; 111. a surface layer supporting block; 120. a surface layer breathable zone; 121. a surface layer air permeable block; 122. a surface layer air-permeable seam; 130. a surface layer moisture removal area; 131. surface layer moisture removal blocks; 132. a surface layer moisture-removing supporting block; 200. an inner lining layer; 220. an inner breathable zone; 221. an inner layer air permeable block; 222. an inner layer air-permeable seam; 230. an inner layer moisture removal area; 231. the inner layer is a moisture removal block; 232. the inner layer is a moisture-removing supporting block.

Detailed Description

The present invention is described in further detail below with reference to the accompanying fig. 1-7.

The embodiment of the utility model discloses a quilting layer with good air permeability.

Referring to fig. 1, a quilting layer having good air permeability includes a surface layer 100 and an inner layer 200 which are attached to each other inside and outside, the inner layer 200 is attached to a bedspread, and the surface layer 100 can be directly contacted with the skin of a user.

Referring to fig. 2, the surface layer 100 is provided with a surface layer supporting region 110, a surface layer ventilating region 120, and a surface layer moisture discharging region 130. The surface layer breathable area 120 and the surface layer moisture removing area 130 are arranged in a plurality of numbers, and the surface layer breathable area 120 and the surface layer moisture removing area 130 are arranged at intervals. The area of the surface layer 100 other than the surface layer breather region 120 and the surface layer moisture removal region 130 is the surface layer support region 110.

The arrangement of the regions of the inner layer 200 is similar to that of the surface layer 100, and thus, a repeated drawing is not repeated. The inner lining 200 is provided with an inner supporting area, an inner ventilating area 220 and an inner dehumidifying area 230. The position of the inner layer supporting area corresponds to the position of the surface layer supporting area 110, the position of the inner layer ventilating area 220 corresponds to the position of the surface layer ventilating area 120, and the position of the inner layer dehumidifying area 230 corresponds to the position of the surface layer dehumidifying area 130.

Referring to fig. 3, the surface supporting section 110 includes a plurality of surface supporting blocks 111 sewn to the surface layer 100, and the plurality of surface supporting blocks 111 are directly spaced apart. The surface supporting blocks 111 can be filled with cotton wool and other materials to be softer, the surface supporting blocks 111 can be arranged into different patterns, and the attractiveness of the quilting layer is improved. The structure of the inner support region is similar to that of the surface support region 110, and will not be described herein.

Referring to fig. 4, the skin ventilating area 120 includes a plurality of skin ventilating blocks 121 sewn to the skin 100, in this embodiment, the skin ventilating blocks 121 have a hexagonal structure, and the plurality of skin ventilating blocks 121 are arranged along the direction I shown in fig. 4. The surface layer air-permeable block 121 is provided with a plurality of surface layer air-permeable seams 122, and the length directions of the plurality of surface layer air-permeable seams 122 are parallel to each other. In this embodiment, the skin vent seam 122 is in the shape of a pointed ellipse, and the length direction thereof is parallel to the direction I shown in fig. 4, but the skin vent seam 122 may have other shapes.

Referring to fig. 5, the surface layer dehumidifying area 130 includes a plurality of surface layer dehumidifying blocks 131 and a plurality of surface layer dehumidifying support blocks 132, the surface layer dehumidifying blocks 131 and the surface layer dehumidifying support blocks 132 are all sewn on the surface layer 100, and the plurality of surface layer dehumidifying blocks 131 are arranged in parallel. The surface layer dehumidifying support block 132 and the surface layer dehumidifying block 131 are arranged at intervals. The surface dehumidifying block 131 is filled with a material having a good water absorption property and can absorb moisture. In this embodiment, the surface layer dehumidifying block 131 has a rectangular cross section, and the length direction thereof is parallel to the direction I shown in fig. 5; the surface moisture removal support block 132 has a rectangular cross-section with its length direction parallel to the direction I of fig. 5.

Referring to fig. 6, the inner layer ventilation zone 220 includes a plurality of inner layer ventilation blocks 221 sewn on the inner layer 200, the inner layer ventilation blocks 221 are arranged in one-to-one correspondence with the surface layer ventilation blocks 121, the inner layer ventilation blocks 221 are provided with a plurality of inner layer ventilation seams 222, and the length directions of the plurality of inner layer ventilation seams 222 are parallel to each other. In this embodiment, the inner air-permeable slit 222 is in the shape of a pointed ellipse, the length direction of which is parallel to the direction II shown in fig. 4, and the direction II is perpendicular to the direction I, and the inner air-permeable slit 222 may have other shapes. The surface layer air-permeable seams 122 and the inner layer air-permeable seams 222 on the surface layer air-permeable block 121 and the inner layer air-permeable block 221 which are correspondingly arranged are mutually communicated.

Referring to fig. 7, the inner layer moisture discharging area 230 includes a plurality of inner layer moisture discharging blocks 231 and a plurality of inner layer moisture discharging supporting blocks 232, the inner layer moisture discharging blocks 231 and the inner layer moisture discharging supporting blocks 232 are all sewn on the inner layer 200, and the plurality of inner layer moisture discharging blocks 231 are arranged in parallel. The inner layer dehumidifying support block 232 and the inner layer dehumidifying block 231 are arranged at intervals. The inner dehumidifying block 231 is filled with a material having a good water absorption property, and can be used to absorb moisture. In this embodiment, the section of the inner dehumidifying block 231 is rectangular, and the length direction thereof is parallel to the direction II shown in fig. 5; the section of the inner moisture-discharging support block 232 is rectangular, and the length direction thereof is parallel to the direction II shown in fig. 5. The surface dehumidifying block 131 and the inner dehumidifying block 231 are in contact with each other.

The quilting layer with good air permeability provided by the embodiment of the utility model is implemented according to the following principle: the quilting layer comprises a surface layer 100 and an inner lining 200, so that the quilting layer has a certain thickness and can meet the requirement of heat preservation. The surface layer supporting area 110 and the lining layer supporting area are relatively soft, so that a human body can be supported, and the comfort level of the quilting layer is improved. The surface layer breathable region 120 and the inner layer breathable region 220 can improve the breathability of the quilting layer. The surface layer moisture wicking zone 130 and the inner layer moisture wicking zone 230 can improve the water absorbency of the quilted layer.

The above are all preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered by the protection scope of the utility model.

Claims (8)

1. A quilting layer with good air permeability is characterized in that: the breathable fabric is characterized by comprising a surface layer (100) and an inner lining (200), wherein a surface layer supporting area (110) and a surface layer breathable area (120) are arranged on the surface layer (100), the surface layer supporting area (110) comprises a plurality of surface layer supporting blocks (111) sewn on the surface layer (100), the surface layer supporting blocks (111) are arranged at intervals, the surface layer breathable area (120) comprises a plurality of surface layer breathable blocks (121) sewn on the surface layer (100), a plurality of surface layer breathable seams (122) are formed in the surface layer breathable blocks (121), and the length directions of the surface layer breathable seams (122) are parallel to each other.

2. The quilted layer having good air permeability of claim 1 wherein: the inner layer (200) comprises an inner layer breathable area (220), the inner layer breathable area (220) comprises a plurality of inner layer breathable blocks (221) sewn on the inner layer (200), the inner layer breathable blocks (221) are in one-to-one correspondence with the surface layer breathable blocks (121), a plurality of inner layer breathable seams (222) are formed in the inner layer breathable blocks (221), and the length directions of the inner layer breathable seams (222) are parallel to each other.

3. The quilted layer having good air permeability of claim 2 wherein: the length direction of the inner layer air permeable seam (222) is perpendicular to the length direction of the surface layer air permeable seam (122), and the surface layer air permeable seam (122) and the inner layer air permeable seam (222) on the surface layer air permeable block (121) and the inner layer air permeable block (221) which are correspondingly arranged are communicated with each other.

4. A quilted layer having good air permeability as in claim 3 wherein: still be provided with on superficial layer (100) and arrange wet district (130) on the superficial layer, superficial layer is arranged wet district (130) and is included a plurality of superficial layer and arranges wet piece (131) of sewing on superficial layer (100), superficial layer is arranged wet piece (131) and is used for absorbing moisture, and is a plurality of superficial layer is arranged wet piece (131) parallel arrangement.

5. The quilted layer having good air permeability of claim 4 wherein: the surface layer dehumidifying area (130) further comprises a plurality of surface layer dehumidifying supporting blocks (132) sewn on the surface layer (100), and the surface layer dehumidifying supporting blocks (132) and the surface layer dehumidifying blocks (131) are arranged at intervals.

6. A quilted layer having good air permeability as defined in claim 4 or 5 wherein: still be provided with nexine hydrofuge district (230) on nexine (200), nexine hydrofuge district (230) and top layer hydrofuge district (130) correspond the setting, nexine hydrofuge district (230) includes that a plurality of nexine hydrofuge pieces (231) on nexine (200) including sewing up, nexine hydrofuge piece (231) are used for absorbing moisture, and are a plurality of nexine hydrofuge piece (231) parallel arrangement.

7. The quilted layer having good air permeability of claim 6 wherein: the inner layer moisture-discharging area (230) further comprises a plurality of inner layer moisture-discharging supporting blocks (232) sewn on the inner layer (200), and the inner layer moisture-discharging supporting blocks (232) and the inner layer moisture-discharging blocks (231) are arranged at intervals.

8. The quilted layer having good air permeability of claim 7 wherein: the length direction of the inner layer dehumidifying block (231) is perpendicular to the length direction of the surface layer dehumidifying block (131), and the surface layer dehumidifying block (131) is mutually abutted with the inner layer dehumidifying block (231).

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