CN216147783U - Heat insulation type composite curtain - Google Patents

Abstract

The utility model provides a compound (window) curtain of thermal-insulated type, includes the (window) curtain body, sets up connecting strip, the setting of (window) curtain body upper end are in on the connecting strip and be the link that the equidistance distributes and fix through the mode that passes the link the peg of (window) curtain body is still including setting up on the (window) curtain body and be located the reflector layer of connecting strip lower extreme and setting are in on the reflector layer and be located two heat absorption strip units between the axis of link. The utility model forms the reflecting-heat absorbing-reflecting structure distributed at intervals by arranging the reflecting layer and the heat absorbing strip units, has good heat insulation effect, is suitable for curtains with a pleating process, greatly improves the aesthetic property, meets the increasing demands of consumers and has good development prospect.

Description

Heat insulation type composite curtain

Technical Field

The utility model belongs to the technical field of curtains, and particularly relates to a heat-insulation type composite curtain.

Background

People design windows for ventilation purposes, but people are very likely to lose their privacy, and therefore, people design curtains that can be opened and closed conveniently. The curtain mainly has the functions of isolating the indoor space from an external light source and keeping the privacy of the room, and is one of the indispensable ornaments for home decoration. The curtain cloth in the prior art can reduce light and shade light to meet the requirements of people on different intensities of light, can prevent dust, eliminate noise, insulate heat, protect against radiation, prevent ultraviolet rays and the like, and improves the climate and environment of a living room, so the curtain cloth is popular with consumers.

The existing heat insulation curtain, as the file with the authorization bulletin number of CN212089147, discloses a heat insulation curtain, which comprises a cross rod and a curtain cloth, wherein the curtain cloth is connected with a plurality of hanging rings, the two ends of the cross rod are fixedly connected with strip-shaped plates, the strip-shaped plates are connected with two sliding rods, the sliding rods are provided with sliding grooves, a plurality of horizontal idler wheels are connected between the two sliding grooves in a rolling manner, the lower end surfaces of the idler wheels are connected with heat insulation layers, the upper end parts of the heat insulation layers are connected with the idler wheels at equal intervals, the heat insulation layers are matched with the curtain cloth, and the heat insulation layers are made of glass fiber cotton. The heat-insulating curtain is in the use, and the accessible removes the link and makes the (window) curtain open and shut about, and the gyro wheel rolls and makes the insulating layer remove, and the (window) curtain can be sheltered from to the insulating layer, and the insulating layer adopts the cotton material of glass fiber, has good heat preservation, heat-resisting and sound insulation performance, can avoid indoor heat to scatter and disappear, and thermal-insulated effect is better.

However, this structure is only suitable for a whole curtain sheet, and is not suitable for a curtain made by a pleating process, so that the appearance is slightly poor.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, an object of the present invention is to provide a heat insulation type composite curtain, which forms a reflection-heat absorption-reflection structure distributed at intervals by arranging a reflection layer and heat absorption bar units, so that the heat insulation type composite curtain has a good heat insulation effect, is suitable for a curtain with a pleating process, greatly improves the aesthetic property, meets the increasing demands of consumers, and has a good development prospect.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

the utility model provides a compound (window) curtain of thermal-insulated type, includes the (window) curtain body, sets up connecting strip, the setting of (window) curtain body upper end are in on the connecting strip and be the link that the equidistance distributes and fix through the mode that passes the link the peg of (window) curtain body is still including setting up on the (window) curtain body and be located the reflector layer of connecting strip lower extreme and setting are in on the reflector layer and be located two heat absorption strip units between the axis of link.

As a further preferable aspect of the present invention, the heat absorbing strip unit includes two first fixing strips disposed at upper and lower ends of the reflective layer, two second fixing strips connected to the two first fixing strips, respectively, and a plurality of heat absorbing strip bodies disposed between the two second fixing strips.

As a further preferable mode of the present invention, the heat absorbing strip unit further includes a plurality of first fixing ports disposed on the second fixing strip at the upper end and distributed at equal intervals, and second fixing ports disposed on the second fixing strip at the lower end and respectively corresponding to the first fixing ports in a one-to-one vertical direction.

As a further preferred aspect of the present invention, the heat absorbing bar unit further includes a first fixing block provided at one end of the heat absorbing bar body and inserted into the first fixing port, and a second fixing block provided at the other end of the heat absorbing bar body and inserted into the second fixing port.

As a further preferred aspect of the present invention, the heat absorbing strip body includes a fixing layer, and a filling layer disposed in the fixing layer.

As a further preferred aspect of the present invention, the number of the heat absorbing bar bodies is equal to or less than the number of the first fixing ports.

As a further preferred of the present invention, the second fixing strip includes a body layer, and an adhesive block disposed at one end of the body layer close to the first fixing strip and adhered to a surface of the first fixing strip, and the first fixing opening or the second fixing opening is disposed on the body layer.

In a further preferred embodiment of the present invention, the thickness of the body layer is 1 to 3 cm.

In a further preferred embodiment of the present invention, the first fixing port and the second fixing port have the same thickness and are both 0.5cm or less.

In conclusion, the utility model has the following beneficial effects:

the utility model adds a heat insulation functional structure on the basis of the traditional curtain, thereby ensuring the heat insulation effect of the curtain.

According to the utility model, the reflecting layer and the heat insulation strip units are arranged to form a distribution structure of the reflecting layer, the heat absorbing strip units and the reflecting layer, heat irradiated to the heat absorbing strip units is directly absorbed, part of light irradiated to the reflecting layer is reflected to the original path, and part of light is reflected to the heat absorbing strip units to be absorbed, so that the heat insulation effect is further improved.

The utility model has simple structure, convenient disassembly and excellent aesthetic degree.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a side view of the structure of the present invention.

Fig. 3 is a schematic structural diagram of the position of the heat absorbing strip unit of the utility model.

Fig. 4 is a partial structural schematic view of the heat absorbing strip unit of the utility model.

Fig. 5 is a schematic structural diagram of the heat absorbing strip body of the present invention.

Fig. 6 is a schematic structural view of a second fixing strip of the present invention.

Description of the drawings: the window curtain comprises a window curtain body 1, a connecting strip 11, hanging rings 12, hanging rods 13, a reflecting layer 2, a heat absorbing strip unit 3, a first fixing strip 301, a second fixing strip 302, a body layer 302a, an adhesive block 302b, a heat absorbing strip body 303, a fixing layer 303a, a filling layer 303b, a first fixing port 304, a second fixing port 305, a first fixing block 306 and a second fixing block 307.

Detailed Description

Example 1

The heat insulation type composite curtain provided by the embodiment comprises a curtain body 1, a connecting strip 11 arranged at the upper end of the curtain body 1, hanging rings 12 arranged on the connecting strip 11 and distributed at equal intervals, hanging rods 13 fixed by passing through the hanging rings 12 and a reflecting layer 2 arranged on the curtain body 1 and positioned at the lower end of the connecting strip 11, and heat absorbing strip units 3 arranged on the reflecting layer 2 and positioned between the central axes of the hanging rings 12, wherein the connecting strip 11 is arranged at the upper end of the curtain body 1, the hanging rings 12 are arranged on the connecting strip 11 in an equal distribution mode, and the hanging rods 13 penetrate through the hanging rings 12.

Compared with the traditional roman rod type curtain, the heat insulation functional structure is additionally arranged on the basis of the roman rod type curtain, the heat insulation functional structure specifically comprises the reflecting layer 2 arranged on the outer side of the curtain body 1, the reflecting layer 2 can be prepared by using an aluminum foil, and the effect of the heat insulation curtain is that light irradiating the surface of the reflecting layer 2 is partially reflected to the outside of a window, and partially reflected to the heat absorption strip unit 3 to be absorbed, so that light entering a room is greatly reduced, and the heat insulation effect is achieved. In this embodiment, the wrinkles of the curtain need to be ensured to maintain the beautiful shape, so the thickness of the reflective layer 2 should not be too thick, preferably less than 0.5cm, and the heat absorbing strip units 3 that need a certain thickness to exert the heat absorbing effect are distributed on the reflective layer 2 at intervals, further, considering that the bending degree of the curtain body 1 at the central axis of the hanging rings 12 is the largest, and the bending degree between the two hanging rings 12 is relatively gentle, so the heat absorbing strip units 3 are distributed between the central axes of the two hanging rings 12, the gentle bending is also beneficial to ensuring the heat absorbing area of the heat absorbing strip units 3, that is, the heat absorbing function is ensured, and the beautiful shape is not lost, and moreover, the distribution structure of the reflective layer 2-the heat absorbing strip units 3-the reflective layer 2 is formed in this way, and the heat irradiated to the heat absorbing strip units 3 is directly absorbed, the light irradiated to the reflecting layer 2 is partially reflected to the original path, and partially reflected to the heat absorbing strip unit 3 to be absorbed, so that the excellent heat insulation effect is ensured.

In this embodiment, as shown in fig. 2, the heat absorbing strip unit 3 includes two first fixing strips 301 disposed at the upper and lower ends of the reflective layer 2, two second fixing strips 302 respectively connected to the two first fixing strips 301, and a plurality of heat absorbing strip bodies 303 disposed between the two second fixing strips 302. In this embodiment, the second fixing strip 302 includes a body layer 302a, and an adhesive block 302b disposed at an end of the body layer 302a close to the first fixing strip 301 and adhered to a surface of the first fixing strip 301. The bonding blocks 302b may be bonding strips having the same size as the body layer 302a, or bonding blocks distributed on the body layer 302a at equal intervals.

In this embodiment, the first fixing strip 301 and the second fixing strip 302 are detachably bonded, so that the storage and installation are convenient, a plurality of heat absorbing strip bodies 303 arranged at intervals are fixed between the two second fixing strips 302, the heat absorbing strip bodies 303 can be supported by blending of glass fiber cotton materials or a plurality of heat insulating fibers, and the thickness is preferably 1-2 cm, so that a reflection-heat absorption-reflection structure is further formed in the region between the central axes of the two suspension loops 12 through the arrangement of the heat absorbing strip bodies 303, and the heat absorption effect is further improved.

Example 2

The difference between this embodiment and embodiment 1 is that, as shown in fig. 3 to 6, the heat absorbing strip unit 3 further includes a plurality of first fixing ports 304 disposed on the second fixing strip 302 at the upper end and distributed at equal intervals, second fixing ports 305 disposed on the second fixing strip 302 at the lower end and respectively corresponding to the first fixing ports 304 one by one in the vertical direction, a first fixing block 306 disposed on one end of the heat absorbing strip body 303 and used for inserting into the first fixing ports 304, and a second fixing block 307 disposed on the other end of the heat absorbing strip body 303 and used for inserting into the second fixing ports 305. In this embodiment, the first fixing hole 304 or the second fixing hole 305 is disposed on the body layer 302 a.

In this embodiment, the arrangement of the first fixing port 304 and the second fixing port 305 meets the requirement that the heat absorbing strip bodies 303 have different spacing widths, so that the number of the heat absorbing strip bodies 303 is less than or equal to the number of the first fixing port 304 or the second fixing port 305, and a proper spacing arrangement can be selected according to an actual scene, thereby not only ensuring a heat insulation effect, but also further improving the aesthetic property; considering that the heat absorbing strip body 303 is soft and cannot be quickly inserted into and fixed to the first fixing hole 304 and the second fixing hole 305, the first fixing block 306 and the second fixing block 307 are disposed at the end portions, and the first fixing block 306 and the second fixing block 307 are made of common light and hard materials, such as plastics; the thicknesses of the first fixing port 304 and the second fixing port 305 are the same and are both less than or equal to 0.5cm, so that the thicknesses of the first fixing block 306 and the second fixing block 307 are also less than or equal to 0.5 cm; the heat absorbing strip body 303 comprises a fixing layer 303a and a filling layer 303b arranged in the fixing layer 303a, wherein the fixing layer 303a is made of a light-transmitting material, and the filling layer 303b is made of a heat absorbing material.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Claims (9)

1. The utility model provides a heat-insulating type composite curtain, includes (window) curtain body (1), sets up connecting strip (11) of (window) curtain body (1) upper end, setting are in link (11) are last and be equidistant distribution hanging ring (12) and fix through the mode that passes hanging ring (12) hanging rod (13) of (window) curtain body (1), its characterized in that still including setting up on (window) curtain body (1) and be located reflecting layer (2) of connecting strip (11) lower extreme and setting are in on reflecting layer (2) and be located two heat absorption strip unit (3) between the axis of hanging ring (12).

2. An insulated composite window covering according to claim 1, wherein said heat absorbing strip unit (3) comprises two first fixing strips (301) disposed at upper and lower ends of said reflective layer (2), two second fixing strips (302) connected to said two first fixing strips (301), respectively, and a plurality of heat absorbing strip bodies (303) disposed between said two second fixing strips (302).

3. An insulated composite window covering according to claim 2, wherein said heat absorbing strip unit (3) further comprises a plurality of first fixing ports (304) disposed on the second fixing strip (302) at the upper end and distributed at equal intervals, and second fixing ports (305) disposed on the second fixing strip (302) at the lower end and respectively corresponding to said first fixing ports (304) in a one-to-one vertical direction.

4. An insulated composite window covering according to claim 3, wherein said heat-absorbing strip unit (3) further comprises a first fixing block (306) provided at one end of said heat-absorbing strip body (303) for inserting said first fixing port (304), and a second fixing block (307) provided at the other end of said heat-absorbing strip body (303) for inserting said second fixing port (305).

5. An insulated composite window covering as claimed in claim 2, wherein the heat absorbing strip body (303) comprises a fixed layer (303 a) and a filler layer (303 b) disposed within the fixed layer (303 a).

6. An insulated composite window covering according to claim 3, wherein the number of said heat absorbing strip bodies (303) is less than or equal to the number of said first fixing openings (304).

7. An insulated composite window covering according to claim 3, wherein the second fixing strip (302) comprises a body layer (302 a), and a bonding block (302 b) disposed at an end of the body layer (302 a) close to the first fixing strip (301) and bonded to a surface of the first fixing strip (301), wherein the first fixing opening (304) or the second fixing opening (305) is disposed on the body layer (302 a).

8. The insulation type composite curtain as claimed in claim 7, wherein the thickness of the body layer (302 a) is 1-3 cm.

9. An insulated composite window covering according to claim 7, wherein said first fastening opening (304) and said second fastening opening (305) have the same thickness and are each less than or equal to 0.5 cm.

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