CN218074362U - Heat-storage down quilt - Google Patents

Abstract

The utility model provides a heat accumulation eiderdown quilt, it includes: the down filling grid fabric comprises a plurality of upper layer fabric, a lower layer fabric and down, wherein the upper layer fabric is in a long strip shape, two vertical linings equal to the length of the upper layer fabric are arranged on each upper layer fabric along the length direction of the upper layer fabric, the vertical linings are connected with the lower layer fabric, the upper layer fabric is connected with the lower layer fabric through quilting threads, so that a plurality of down filling grids are formed and arranged in a staggered mode, the end portions of quilting seams on the upper layer fabric are connected with the vertical linings on the upper layer fabric, and the down is filled in the down filling grids. The utility model discloses dislocation arrangement is gone up to heat accumulation eiderdown quilt fill fine stereoregularity, the structure is more stable moreover, can pin more still air to improve cold-proof effect, make cold-proof effect more lasting.

Description

Heat-storage down quilt

Technical Field

The utility model relates to a eiderdown quilt technical field especially relates to a cabin formula subregion lock temperature eiderdown quilt.

Background

The quilt is a necessary bedding article for daily life of people, the quilt is various in types, the quality of sleep directly influences the quality of life of people, the quilt is a key factor influencing the quality of sleep, and the quality and functionality of the quilt directly influence the quality of sleep of people, so that the good quilt not only requires beautiful appearance, but also requires the quilt to provide a good microenvironment suitable for sleep for the body.

The down quilt is a warm quilt commonly used by people, down is filled in the down quilt, and is fixed through sewing processes such as quilting and the like to form an independent space for storing the down, but the space for storing the down is poor in three-dimensional property, so that the filling power of the down is insufficient, the static air stored in the down quilt is less, and the warm effect is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a heat accumulation eiderdown quilt, its space stereology of saving eiderdown is good to stable in structure can guarantee the fluffy degree of eiderdown, increases the memory space of static air, thereby improves the thermal insulation performance of eiderdown quilt, and makes cold-proof effect more lasting.

In order to achieve the above objects and other related objects, the present invention provides a heat storage down quilt, which includes: the fabric comprises a plurality of upper fabric layers, a lower fabric layer and down feather, wherein the upper fabric layers are in a long strip shape, two vertical linings with the same length as the upper fabric layers are arranged on each upper fabric layer along the length direction of the upper fabric layers, the upper sides of the vertical linings are respectively connected with the edges of two sides of the upper fabric layers, the lower fabric layers are connected with the lower sides of the vertical linings, each upper fabric layer is connected with the lower fabric layer through a plurality of quilting lines to form a plurality of down feather filling grids which are arranged on the upper fabric layer in a staggered mode, the end portions of quilting seams on the upper fabric layers are connected with the vertical linings on the upper fabric layers, and the down feather is filled in the down feather grids.

The utility model discloses in the example of heat accumulation eiderdown quilt, heat accumulation eiderdown quilt still includes the stile, the stile sets up the edge of heat accumulation eiderdown quilt, the upper and lower both ends of stile are respectively with a plurality of upper fabric the lower floor's surface fabric is connected.

In an example of the heat storage down quilt of the present invention, the height of the vertical side is 1-10 cm.

The utility model discloses in the heat accumulation eiderdown quilt example, a plurality of the length of upper strata surface fabric with the length of lower floor's surface fabric equals, found the lining along the length direction of lower floor's surface fabric with lower floor's surface fabric is connected, and is a plurality of the upper strata surface fabric is in the width direction of lower floor's surface fabric closely arranges.

The utility model discloses in the heat accumulation eiderdown quilt example, a plurality of the length of upper strata surface fabric with the width of lower floor's surface fabric equals, found the lining along the width direction of lower floor's surface fabric with lower floor's surface fabric is connected, and is a plurality of the upper strata surface fabric is in the length direction of lower floor's surface fabric closely arranges.

In an example of the heat storage down quilt of the present invention, the width of the upper layer fabric is 20-40 cm.

In an example of the heat-accumulating down quilt of the present invention, the quilting seam on the upper fabric is perpendicular to the long side of the upper fabric.

In an example of the heat-accumulating down quilt of the present invention, the distance between two adjacent quilting seams on the upper fabric is 5-50 cm.

In an example of the heat-accumulating down quilt of the present invention, the end of the quilting on the upper fabric is connected to the middle of the vertical lining adjacent to the down-filled cells on the upper fabric.

In an example of the heat-accumulating down quilt of the present invention, the quilting seam of the upper fabric has a portion adjacent to the end portion of the quilting seam of the upper fabric, and the joint of the vertical lining is provided with a down filling opening.

In an example of the heat storage down quilt of the present invention, an end of the quilting on the upper fabric is connected to the vertical lining on the upper fabric through a pleating process.

In an example of the heat-storage down quilt of the present invention, the pleating process is pleating, and the height of the pleating is 0.5-5 cm.

In an example of the heat storage down quilt of the present invention, the height of the vertical lining is 0.5-5 cm.

In an example of the heat storage down quilt of the present invention, the upper fabric is connected to the lower fabric through a cutting process.

In an example of the heat storage down quilt of the present invention, the down may include one or more of grey duck down, grey goose down, white duck down, and white goose down.

In an example of the heat-storage down quilt of the present invention, the upper fabric is a pure cotton fabric, a cotton fabric or a polyester fabric, and the lower fabric is a pure cotton fabric, a cotton fabric or a polyester fabric.

In an example of the heat-accumulating down quilt of the present invention, the vertical lining is made of pure cotton fabric, cotton-polyester fabric or polyester fabric.

In an example of the heat-storage down quilt of the present invention, the vertical edge is made of pure cotton fabric, cotton polyester fabric or polyester fabric.

The utility model discloses heat accumulation eiderdown quilt passes through found lining and quilting will the upper strata surface fabric with the surface fabric of lower floor divides for a plurality of fill the fine hair check, adjacent on the upper strata surface fabric fill fine hair check staggered arrangement to with the tip and the adjacent of quilting the upper strata surface fabric found the lining is connected, staggered arrangement fill the fine three-dimensional nature of fine hair check, the structure is more stable moreover, can pin more still air to improve cold-proof effect, make cold-proof effect more lasting.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the heat storage down quilt of the present invention;

fig. 2 is a sectional view of down filling cells in an embodiment of the heat storage down quilt of the present invention;

fig. 3 is a top view of an embodiment of the heat-accumulating duvet of the present invention.

Element number description:

100. upper layer fabric

110. Quilting machine

200. Vertical lining

300. Lower-layer fabric

400. Filling grid

500. Vertical edge

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The present invention can also be implemented or applied through other different specific embodiments, and various details in the present specification can be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict. It is also to be understood that the terminology used in the examples of the present invention is for the purpose of describing particular embodiments only, and is not intended to limit the scope of the present invention. Test methods in which specific conditions are not noted in the following examples are generally performed under conventional conditions or conditions recommended by each manufacturer.

When numerical ranges are given in the examples, it is understood that both endpoints of each of the numerical ranges and any number between the endpoints are optional unless the utility model discloses otherwise. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs and are intended to be open ended, and all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Referring to fig. 1 and 2, fig. 1 is a schematic structural view of an embodiment of the heat storage down quilt of the present invention, and fig. 2 is a sectional view of down filling cells in an embodiment of the heat storage down quilt of the present invention.

The utility model provides a heat accumulation eiderdown quilt, it includes: the fabric comprises a plurality of upper layer fabrics 100, a lower layer fabric 300 and down, wherein the upper layer fabric 100 is in a long strip shape, two vertical linings 200 which are equal to the upper layer fabric 100 in length are arranged on each upper layer fabric 100 along the length direction of the upper layer fabric 100, the upper sides of the two vertical linings 200 are respectively connected with the edges of the upper layer fabric 100, the lower layer fabric 300 is connected with the lower sides of all the vertical linings 200, each upper layer fabric 100 is connected with the lower layer fabric 300 through a plurality of quilting seams to form a plurality of down-filled lattices 400, the adjacent down-filled lattices 400 on the upper layer fabric 100 are arranged in a staggered manner, the end parts of the quilting seams 110 on the upper layer fabric 100 are connected with the adjacent vertical linings 200 on the upper layer fabric 100, and the down-filled lattices 400 are filled in the down.

The upper fabric 100 is connected with the lower fabric 300 through the vertical lining 200 in a sewing mode, the upper fabric 100 and the lower fabric 300 are divided into the down filling grids 400 through quilting lines, the down filling grids 400 on the upper fabric 100 are arranged in a staggered mode, the strength and the stability of each down filling grid 400 are improved, a stable three-dimensional down filling space is formed, down filled can be kept fluffy, more static air can be locked, the warm-keeping effect is improved, and the warm-keeping effect is more durable. The end of the quilting 110 of the upper fabric 100 is connected to the vertical lining 200 of the upper fabric 100, which can increase the cubic effect and the integrity, and make the structure more stable.

Referring to fig. 1, in an example of the heat storage down quilt according to the present invention, the heat storage down quilt further includes a vertical edge 500, the vertical edge 500 is disposed at an edge of the heat storage down quilt, and an upper end and a lower end of the vertical edge 500 are respectively connected to the upper fabric 100 and the lower fabric 300. The height of the vertical side 500 is 1-10 cm. The vertical sides 500 can increase the stereoscopic impression of the heat storage down quilt and ensure the stability of the whole structure.

Referring to fig. 1 and 3, fig. 3 is a top view of an embodiment of the heat storage down quilt of the present invention. In an example of the heat storage down quilt of the present invention, the length of the upper fabric 100 is equal to the length of the lower fabric 300, the upper fabric 100 is closely arranged in the width direction of the lower fabric 300, and the width of the upper fabric 100 is 20-40 cm. The upper fabric 100 extends in the longitudinal direction of the lower fabric 300, the standing liner 200 is sewn to the lower fabric 300 in the longitudinal direction of the lower fabric 300, and the quilting 110 of the upper fabric 100 extends in the width direction of the lower fabric 300.

In an example of the heat storage down quilt of the present invention, the length of the upper fabric 100 is equal to the width of the lower fabric 300, the upper fabric 100 is closely arranged in the length direction of the lower fabric 300, and the width of the upper fabric 100 is 20-40 cm. The upper fabric 100 extends in the width direction of the lower fabric 300, the standing liner 200 is sewn to the lower fabric 300 in the width direction of the lower fabric 300, and the quilting 110 of the upper fabric 100 extends in the length direction of the lower fabric 300.

Referring to fig. 1 and 3, in an example of the heat-accumulating down quilt of the present invention, the quilting 110 on the upper fabric 100 is perpendicular to the long side of the upper fabric 100. The distance between two adjacent quilts 110 on the upper fabric 100 is 5-50 cm. The end of the quilting 110 of the upper fabric 100 is connected to the middle of the standing lining 200 of the down-filled lattice 400 of the adjacent upper fabric 100. A down filling opening is formed on the vertical lining 200 at the joint of the end of the quilting seam 110 on the upper layer fabric 100 and the vertical lining 200 adjacent to the upper layer fabric 100. The quilting 110 thus arranged can be perpendicular to the stand-up 200, and a structure can be more stable. The size of the filling grid 400 is controlled by controlling the distance between adjacent quilts 110. The offset distance of the filling grid 400 can be controlled by controlling the position where the quilting 110 is attached to the stand-up 200. The down filling port is used for filling down.

In an example of the thermal storage down quilt of the present invention, the end of the quilting 110 on the upper fabric 100 is connected to the adjacent vertical lining 200 on the upper fabric 100 by a pleating process. The pleating process is pleating, and the height of the pleating is 0.5-5 cm. The height of the vertical lining 200 is 0.5-5 cm. A plurality of the upper fabrics 100 are connected to the lower fabric 300 through a cut-through process. The joint of the quilting seam 110 and the standing liner 200 can be made more stereoscopic by the pleating process, and the upper fabric 100 and the lower fabric 300 connected by the cut-through process can prevent the running of the pile. It should be noted that the pleating process and the cutting process are conventional in the textile field, and will not be described in detail here.

In an example of the heat storage down quilt of the present invention, the down may include one or more of grey duck down, grey goose down, white duck down, and white goose down. The upper fabric 100 is a pure cotton fabric, a cotton polyester fabric or a polyester fabric, and the lower fabric 300 is a pure cotton fabric, a cotton polyester fabric or a polyester fabric. The vertical lining 200 is made of pure cotton fabric, cotton polyester fabric or polyester fabric. The vertical edge 500 is made of pure cotton fabric, cotton polyester fabric or full polyester fabric. It should be noted that the above materials are all conventional materials in the field of home textiles and can be obtained by conventional commercial means.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Any person skilled in the art can modify or change the above embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. A heat-accumulating down quilt is characterized by comprising:

the upper layer fabric is strip-shaped, two vertical linings with the same length as the upper layer fabric are arranged on each upper layer fabric along the length direction of the upper layer fabric, and the upper sides of the two vertical linings are respectively connected with the edges of the two sides of the upper layer fabric;

the lower layer fabric is connected with the lower sides of all the vertical linings, each upper layer fabric is connected with the lower layer fabric through a plurality of quilting lines to form a plurality of down-filled lattices, the down-filled lattices on the adjacent upper layer fabrics are arranged in a staggered mode, and the end parts of the quilts on the upper layer fabrics are connected with the vertical linings on the adjacent upper layer fabrics;

the down feather is filled in the down feather filling grids.

2. The heat-storage down quilt as claimed in claim 1, further comprising a vertical edge, wherein the vertical edge is disposed at the edge of the heat-storage down quilt, and the upper and lower ends of the vertical edge are respectively connected to the upper and lower fabrics.

3. The heat-accumulating down quilt according to claim 2, wherein the height of the vertical sides is 1 to 10cm.

4. The heat-accumulating down quilt as claimed in claim 1, wherein a plurality of said upper fabrics have a length equal to that of said lower fabric, said vertical linings are connected to said lower fabric along the length direction of said lower fabric, and a plurality of said upper fabrics are closely arranged in the width direction of said lower fabric.

5. The heat-accumulating down quilt as set forth in claim 1, wherein a plurality of said upper fabrics have a length equal to a width of said lower fabric, said vertical linings are connected to said lower fabric in a widthwise direction of said lower fabric, and a plurality of said upper fabrics are closely arranged in a lengthwise direction of said lower fabric.

6. The heat-accumulating down quilt as claimed in claim 1, wherein the quilting seam of the upper fabric is perpendicular to the long side of the upper fabric.

7. The heat-accumulating down quilt as claimed in claim 6, wherein the distance between the adjacent quilting seams of the upper sheet is 5-50 cm.

8. The heat-accumulating down quilt as claimed in claim 1, wherein down filling ports are provided on the vertical lining at the joint of the quilted end of the upper fabric and the vertical lining adjacent to the upper fabric.

9. The thermal storage down quilt of claim 1, wherein ends of quilting seams in said upper sheet are connected to said stiles in adjacent ones of said upper sheet by a pleating process.

10. The thermal storage down quilt as claimed in claim 9, wherein said pleating process is pleating, the height of the pleating is 0.5-5 cm, and the height of the standing liner is 0.5-5 cm.

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