CN218074361U - Cabin type partitioned temperature-locking down quilt - Google Patents

Abstract

The utility model provides a cabin formula subregion lock warm eiderdown quilt, concretely relates to eiderdown quilt technical field, it includes: the quilt body comprises a fabric and down filled in the fabric, and further comprises a plurality of quilting lines or a plurality of vertical linings, wherein the quilting lines or the vertical linings divide the quilt body into a plurality of down locking grids, and the quilt body comprises a main body area, a side cabin type buffer temperature locking area, a shoulder cabin type buffer temperature locking area and a foot temperature locking area. The down feather quilt is characterized in that down feathers with different weights are filled in each partition, the partitions can form a three-dimensional cabin type structure, more static air can be locked, and therefore the warm keeping effect of the down feather quilt is improved.

Description

Cabin type partitioned temperature-locking 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 which is commonly used by people and has the biggest characteristic of lightness, but in the use process, as the down quilt is lighter in weight and not tightly attached to the human body, a certain gap is generated between the down quilt and the human body, so that the phenomena of ventilation and air leakage are caused, the warm keeping degree of the down quilt is reduced, and the warm keeping effect is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a down quilt is prevented playing by cabin formula subregion lock temperature, its structure according to the human body carries out the subregion to fill the eiderdown of different weights, in order to reach the effect that lock temperature is prevent wind.

In order to achieve the above objects and other related objects, the present invention provides a cabin type partitioned temperature-locking down quilt, which comprises: the quilt body comprises a fabric and down filled in the fabric, and further comprises a plurality of quilting lines or a plurality of vertical linings, the quilting lines or the vertical linings divide the quilt body into a plurality of down locking grids, the main body area consists of the down locking grids positioned in the middle of the quilt body, the lateral cabin type buffer locking temperature area consists of the down locking grids positioned on two sides of the main body area, the shoulder type buffer locking temperature area consists of the down locking grids positioned between the main body area and the head of the quilt body, the shoulder type buffer locking temperature area consists of the down locking grids positioned on two sides of the shoulder type buffer locking temperature area, and the foot type buffer locking temperature area consists of the down locking grids positioned on the tail of the quilt body.

The average filling amount of the down feather in the side cabin type buffer temperature-locking area, the shoulder temperature-locking area and the foot temperature-locking area is larger than that in the main body area, and the average filling amount of the down feather in the shoulder cabin type buffer temperature-locking area is smaller than that in the shoulder temperature-locking area.

In an example of the cabin type partitioned temperature-locking down feather quilt of the utility model, the down feather average filling amount of the foot temperature-locking area is greater than the down feather average filling amount of the side cabin type buffer temperature-locking area.

In an example of the cabin type partitioned temperature-locking down quilt of the present invention, the average filling amount of the down feather in the shoulder temperature-locking area is greater than or equal to the average filling amount of the down feather in the side cabin type buffer temperature-locking area.

In an example of the cabin type partitioned temperature-locking down quilt of the present invention, the average filling amount of down in the shoulder cabin type buffer temperature-locking area is greater than or equal to the average filling amount of down in the main body area.

The utility model discloses in a cabin formula subregion lock temperature eiderdown quilt example, the main part district is by a plurality of squares lock the temperature check and constitute, the one end in main part district with shoulder lock warm area is connected, the other end in main part district with foot lock warm area is connected.

The utility model discloses in a cabin formula subregion lock temperature eiderdown quilt example, the shape of shoulder lock warm area is isosceles trapezoid, just shoulder lock warm area with the length on the base of one side is connected in the main part district is greater than and is located the length on the base of quilt head one side.

In an example of the cabin type partitioned temperature-locking down quilt of the present invention, the length of the bottom edge of one side of the shoulder temperature-locking region and the main body region is 2 times the length of the bottom edge of one side of the quilt head.

The utility model discloses in cabin formula subregion lock warm eiderdown quilt an example, shoulder cabin formula buffering lock warm area has two, is located respectively the both sides of shoulder lock warm area, the shape of shoulder cabin formula buffering lock warm area is triangle-shaped, the base of triangle-shaped with quilt head of quilt body is located same straight line, triangle-shaped's summit is located the main part district with on the quilting line is cut apart between the side cabin formula buffering lock warm area, cut apart the quilting line extend to with quilt head of quilt body is crossing, thereby will shoulder cabin formula buffering lock warm area falls into two right angled triangle that have common right angle limit.

The utility model discloses in cabin formula subregion lock temperature eiderdown quilt an example, shoulder cabin formula buffering lock warm area includes first lock temperature check and second lock temperature check, first lock temperature check respectively with second lock temperature check with shoulder lock warm area is connected, second lock temperature check respectively with first lock temperature check with side cabin formula buffering lock warm area is connected, the area of second lock temperature check is greater than the area of first lock temperature check, and second lock temperature check is located the length on the base of quilt head one side does first lock temperature check are located 2 times the length on the base of quilt head one side.

The utility model discloses in cabin formula subregion lock temperature eiderdown quilt an example, side cabin formula buffering lock warm area has two, is located respectively the both sides in main part district, the one end in side cabin formula buffering lock warm area is located quilt integument head department, its other end with foot lock warm area is connected, every side cabin formula buffering lock warm area is by the quadrangle that a plurality of symmetries set up lock temperature check and a plurality of triangle-shaped lock temperature check are constituteed.

In an example of the cabin type partitioned temperature-locking down quilt of the present invention, the fabric includes a first fabric, a second fabric and a vertical edge, and the edge of the first fabric and the edge of the second fabric are connected to the upper and lower ends of the vertical edge respectively.

In an example of the cabin type partitioned temperature-locking down quilt of the present invention, the first fabric and/or the second fabric is a pure cotton fabric, a polyester cotton fabric or a polyester fabric.

In an example of the cabin type partitioned temperature-locking down quilt of the present invention, the height of the vertical edge is 1-10 cm.

In an example of the cabin type partitioned temperature-locking down quilt of the present invention, the down filled in the quilt body includes one or more of grey duck down, white duck down, grey goose down and white goose down.

The utility model discloses cabin formula subregion lock temperature eiderdown quilt will the quilt body has been divided into main part district, side cabin formula buffering lock warm area, shoulder cabin formula buffering lock warm area and foot lock warm area to fill the eiderdown of different weight in each subregion, three-dimensional cabin formula structure can be constituteed to above-mentioned subregion, can pin more still air, thereby improve the cold-proof effect of eiderdown quilt, shoulder lock warm area and shoulder cabin formula buffering lock warm area human shoulder neck position of laminating more, improve the quilt body is to the cold-proof effect at shoulder neck position, and side cabin formula buffering lock warm area and foot lock warm area can effectively prevent the ventilative, improve the cold-proof effect of eiderdown quilt.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the cabin type partitioned temperature-locking down quilt of the present invention;

fig. 2 is a top view of an embodiment of the cabin type partitioned temperature-locking down quilt of the present invention.

Element number description:

100. quilt body

110. Grid with lock velvet

120. Body region

130. Side cabin type buffer temperature-locking area

140. Shoulder lock temperature zone

150. Shoulder cabin type buffer locking temperature zone

151. First lock velvet grid

152. Second lock fine hair check

160. Foot lock temperature zone

200. First fabric

300. 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 be implemented or applied by 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 specified in the following examples are generally carried out under conventional conditions or under conditions recommended by the respective manufacturers.

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 describe the same, and all methods, apparatus and materials similar or equivalent to those described herein may be used in the practice of this invention.

Referring to fig. 1 and 2, fig. 1 is a schematic structural view of an embodiment of a cabin type partitioned temperature-locking down quilt of the present invention, and fig. 2 is a top view of an embodiment of the cabin type partitioned temperature-locking down quilt of the present invention.

The utility model provides a cabin formula subregion lock warm eiderdown quilt, it includes: the quilt body 100 comprises a fabric and down filled in the fabric, the quilt body 100 further comprises a plurality of quilting lines or a plurality of vertical linings, and the quilting lines or the vertical linings divide the quilt body 100 into a plurality of down locking grids 110.

Referring to the area partitioned by the dotted line in fig. 2, the plurality of lint-locking lattices 110 located in the middle of the quilt body 100 form a main body area 120, the plurality of lint-locking lattices 110 located at both sides of the main body area 120 form a lateral cabin-type buffer temperature-locking area 130, the plurality of lint-locking lattices 110 located between the main body area 120 and the quilt head of the quilt body 100 form a shoulder temperature-locking area 140, the plurality of lint-locking lattices 110 located at both sides of the shoulder temperature-locking area 140 form a shoulder cabin-type buffer temperature-locking area 150, and the plurality of lint-locking lattices 110 located at the quilt tail of the quilt body 100 form a foot temperature-locking area 160.

The average filling amount of the down feather in the side cabin type buffer temperature-locking area 130, the shoulder temperature-locking area 140 and the foot temperature-locking area 160 is greater than the average filling amount of the down feather in the main body area 120, the average filling amount of the down feather in the shoulder cabin type buffer temperature-locking area 150 is less than the average filling amount of the down feather in the shoulder temperature-locking area 140, and the average filling amount of the down feather is the mass of the down feather filled in a unit volume.

The utility model discloses cabin formula subregion lock warm eiderdown quilt will quilt body 100 has been divided into main part district 120, side cabin formula buffering lock warm area 130, shoulder lock warm area 140, shoulder cabin formula buffering lock warm area 150 and foot lock warm area 160 to fill the eiderdown of different weights in each subregion, make three-dimensional cabin formula structure can be constituteed to above-mentioned subregion, can pin more still air, thereby improve the cold-proof effect of eiderdown quilt, shoulder lock warm area 140 and shoulder cabin formula buffering lock warm area 150 human shoulder neck position of laminating more, improve quilt body 100 can effectively prevent the ventilative to the cold-proof effect of shoulder neck position, side cabin formula buffering lock warm area 130 and foot lock warm area 160, improve the cold-proof effect of eiderdown quilt.

In an example of the cabin type partitioned temperature-locking down quilt of the present invention, the down filling amount of the foot temperature-locking area 160 is larger than the down filling amount of the side cabin type buffer temperature-locking area 130. As the feet of the user move more during the sleeping process, the average filling amount of the down feather in the foot temperature-locking area 160 is the largest, the air leakage at the tail of the quilt can be avoided, and the warm-keeping effect of the quilt 100 on the feet is improved.

In an example of the cabin type partitioned temperature-locking down quilt of the present invention, the average filling amount of the down feather in the shoulder temperature-locking area 140 is greater than or equal to the average filling amount of the down feather in the side cabin type buffering temperature-locking area 130. The shoulder thermal-insulation area 140 can effectively cover the shoulder and neck parts of the human body, so that the shoulder thermal-insulation area 140 has larger down filling amount, and the fitness of the quilt 100 to the shoulder and neck parts of the human body can be improved, thereby improving the thermal insulation effect.

In an example of the cabin type partitioned temperature-locking down feather quilt of the present invention, the average filling amount of the down feather in the shoulder cabin type buffer temperature-locking area 150 is greater than or equal to the average filling amount of the down feather in the main body area 120. The shoulder cabin type buffering temperature-locking area 150 can be folded, so that the quilt body 100 can be more attached to the shoulder and neck of a human body, and the warm-keeping effect is improved.

Referring to fig. 1 and 2, in an example of the cabin type partitioned temperature-locking down quilt of the present invention, the main body area 120 is composed of a plurality of square temperature-locking cells 110, one end of the main body area 120 is connected to the shoulder temperature-locking area 140, and the other end of the main body area 120 is connected to the foot temperature-locking area 160. The body region 120 is adapted to directly cover a torso region of a human body.

Referring to fig. 1 and 2, in an example of the cabin type partitioned temperature-locking down quilt of the present invention, the shape of the shoulder temperature-locking area 140 is isosceles trapezoid, and the length of the bottom side of the side where the shoulder temperature-locking area 140 is connected to the main body area 120 is greater than the length of the bottom side of the quilt head side of the quilt 100. The shoulder and neck part of the human body can be covered more effectively by the shoulder and neck locking temperature area 140 which is arranged like the shoulder and neck part of the human body.

Referring to fig. 1 and 2, in an example of the cabin type partitioned temperature-locking down quilt of the present invention, the shoulder temperature-locking area 140 is composed of a plurality of isosceles trapezoid temperature-locking cells 110, and the length of the bottom side of the side where the shoulder temperature-locking area 140 is connected to the main body area 120 is 2 times the length of the bottom side of the quilt head side of the quilt 100.

Referring to fig. 1 and 2, in an example of the cabin-type partitioned temperature-locking down feather quilt according to the present invention, there are two shoulder cabin-type buffered temperature-locking regions 150 respectively located at two sides of the shoulder temperature-locking region 140, the overall shape of the shoulder cabin-type buffered temperature-locking region 150 is a triangle, the base of the triangle and the quilt head of the quilt (i.e. the side of the quilt 100 facing the head of the human body) are located on the same straight line, the vertex of the triangle is located on the dividing quilting line between the main body region 120 and the side cabin-type buffered temperature-locking region 130, and the dividing quilting line between the main body region 120 and the side cabin-type buffered temperature-locking region 130 extends toward the quilt head of the quilt 100 and intersects with the straight line of the quilt head, so as to divide the shoulder cabin-type buffered temperature-locking region 150 into two right-angled triangles having a common border, so that each shoulder cabin-type buffered temperature-locking region 150 is composed of two right-angled triangles 110, i.e. a first temperature-locking lattice 151 and a second temperature-locking lattice 152. The shoulder cabin type buffer locking temperature area 150 designed in the way is easier to fold, and through the matching of the shoulder locking temperature area 140 and the shoulder cabin type buffer locking temperature area 150, the head of the quilt body 100 can be more attached to the curve of the shoulder and neck of a human body to wrap the shoulder and neck of the human body, so that the sealing performance is better, the ventilation is prevented, and the warm-keeping effect is enhanced.

Referring to fig. 1 and 2, in an example of the cabin-type partitioned temperature-locking down quilt according to the present invention, the shoulder cabin-type buffered temperature-locking area 150 includes a first temperature-locking grid 151 and a second temperature-locking grid 152, the first temperature-locking grid 151 is connected to the second temperature-locking grid 152 and the shoulder temperature-locking area 140, the second temperature-locking grid 152 is connected to the first temperature-locking grid 151 and the side cabin-type buffered temperature-locking area 130, an area of the second temperature-locking grid 152 is larger than an area of the first temperature-locking grid 151, and a length of a bottom side of the second temperature-locking grid 152 on a side where a head of the quilt 100 is located is 2 times a length of a bottom side of the first temperature-locking grid 151 on the side where the head of the quilt 100 is located. The first temperature-locking lattices 151 and the second temperature-locking lattices 152 can be folded by quilting therebetween to form a cabin-type structure, wrap the shoulder and neck parts of a human body, prevent air leakage, and enhance the warm-keeping effect.

Referring to fig. 1 and 2, in an example of the cabin type partitioned temperature-locking down quilt of the present invention, there are two side cabin type buffer temperature-locking regions 130 respectively located at two sides of the main body region 120, one end of the side cabin type buffer temperature-locking region 130 is located at the head of the quilt body 110, and the other end is connected to the foot temperature-locking region 160, and each side cabin type buffer temperature-locking region 130 is composed of a plurality of symmetrical quadrilateral temperature-locking lattices 110 and a plurality of triangular temperature-locking lattices 110. The side cabin type buffer temperature-locking area 130 designed in this way can form a three-dimensional cabin type structure with the main body area 120, and can prevent air leakage at the side edge and improve the warm-keeping effect.

Referring to fig. 1, in an example of the cabin-type partitioned temperature-locking down quilt of the present invention, the fabric includes a first fabric 200, a second fabric and a vertical edge 300, and edges of the first fabric 200 and the second fabric are respectively connected to upper and lower ends of the vertical edge 300. The first fabric 200 and/or the second fabric is a pure cotton fabric, a polyester cotton fabric or a polyester fabric. The height of the vertical side 300 is 1-10 cm. The down filled in the quilt body 100 includes one or more of grey duck down, white duck down, grey goose down and white goose down.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not intended to limit the present invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art 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 cabin type partitioned temperature-locking down quilt is characterized by comprising:

the quilt body comprises fabrics and down filled in the fabrics, and also comprises a plurality of quilting lines or a plurality of vertical linings, and the quilting lines or the vertical linings divide the quilt body into a plurality of down locking grids;

the body area is composed of a plurality of the down locking grids positioned in the middle of the quilt body;

the lateral cabin type buffer locking temperature area is composed of a plurality of pile locking grids positioned on two sides of the main body area;

the shoulder temperature-locking area consists of a plurality of down-locking grids positioned between the main body area and the quilt head;

the shoulder cabin type buffer locking temperature zone consists of a plurality of pile locking grids positioned at two sides of the shoulder locking temperature zone;

the foot temperature-locking area consists of a plurality of down-locking grids positioned at the tail of the quilt body;

the average filling amount of the down feather in the side cabin type buffer temperature-locking area, the shoulder temperature-locking area and the foot temperature-locking area is larger than that in the main body area, and the average filling amount of the down feather in the shoulder cabin type buffer temperature-locking area is smaller than that in the shoulder temperature-locking area.

2. The cabin-type zoned temperature-locking down quilt as claimed in claim 1, wherein the average filling amount of the down feather in the foot temperature-locking zone is larger than that in the side cabin-type buffer temperature-locking zone.

3. The cabin-type zoned temperature-locking down quilt as claimed in claim 1, wherein the average filling amount of down feather in the shoulder temperature-locking zone is greater than or equal to the average filling amount of down feather in the side cabin-type buffering temperature-locking zone.

4. The cabin-type zoned temperature-locking down quilt as claimed in claim 1, wherein the average filling amount of down feather in the shoulder cabin-type buffering temperature-locking zone is greater than or equal to the average filling amount of down feather in the main body zone.

5. The cabin-type temperature-locking feather quilt as claimed in claim 1, wherein said body section is composed of a plurality of square temperature-locking lattices, one end of said body section is connected to said shoulder temperature-locking region, and the other end of said body section is connected to said foot temperature-locking region.

6. The cabin-type partitioned temperature-locking down quilt as claimed in claim 1, wherein the shape of the shoulder temperature-locking area is isosceles trapezoid, and the length of the bottom edge of the side where the shoulder temperature-locking area is connected with the main body area is greater than the length of the bottom edge of the side where the quilt is headed.

7. The cabin-type partitioned temperature-locking down quilt as claimed in claim 6, wherein the length of the bottom edge of the side where the shoulder temperature-locking area is connected with the main body area is 2 times the length of the bottom edge of the side where the quilt is worn.

8. The cabin-type partitioned temperature-locking down quilt as claimed in claim 1, wherein there are two shoulder cabin-type buffered temperature-locking regions respectively located at two sides of the shoulder temperature-locking region, the shape of the shoulder cabin-type buffered temperature-locking region is a triangle, the base of the triangle is located on the same line with the quilt head of the quilt body, the vertex of the triangle is located on the dividing quilting line between the main body region and the side cabin-type buffered temperature-locking region, and the dividing quilting line extends to intersect with the quilt head of the quilt body, so as to divide the shoulder cabin-type buffered temperature-locking region into two right-angled triangles having a common right-angle side.

9. The hatchable temperature-locking feather quilt as claimed in claim 8, wherein the shoulder hatchable temperature-locking zone comprises a first temperature-locking cell and a second temperature-locking cell, the first temperature-locking cell is connected with the second temperature-locking cell and the shoulder temperature-locking zone respectively, the second temperature-locking cell is connected with the first temperature-locking cell and the side hatchable temperature-locking zone respectively, the area of the second temperature-locking cell is larger than that of the first temperature-locking cell, and the length of the bottom edge of the second temperature-locking cell on the side of the quilt head is 2 times that of the bottom edge of the first temperature-locking cell on the side of the quilt head.

10. The cabin type partitioned temperature-locking down quilt as claimed in claim 1, wherein there are two side cabin type buffer temperature-locking areas respectively located at two sides of the main body area, one end of the side cabin type buffer temperature-locking area is located at the head of the quilt, the other end of the side cabin type buffer temperature-locking area is connected with the foot temperature-locking area, and each side cabin type buffer temperature-locking area is composed of a plurality of symmetrical quadrilateral temperature-locking grids and a plurality of triangular temperature-locking grids.

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