CN219059272U - Axminster carpet for reducing energy consumption - Google Patents

Abstract

The utility model belongs to the technical field of carpets, and particularly relates to an loss-saving and consumption-reducing Axminster carpet which comprises a carpet main body, wherein an effective area and a loss area are arranged on the carpet main body, and the density of pile yarns in the loss area is smaller than that in the effective area. The beneficial effects are that: according to the loss-saving consumption-reducing Axminster carpet, the wool yarn density of the loss area is smaller than that of the effective area, and the non-woven wool yarns are directly blank in the loss area, so that on one hand, the wool yarns of the general carpet are thicker, if the loss area is blank, the carpet is extremely easy to collapse locally when the carpet is coiled and packaged, the coiling and packaging are affected, the wool yarns in the loss area can support the carpet, the coiling and packaging and the transportation are not affected, the loss of the wool yarns is reduced on the two hand, the labor intensity of workers is reduced, the manufacturing time of products is shortened, and the cost is greatly reduced.

Description

Axminster carpet for reducing energy consumption

Technical Field

The utility model belongs to the technical field of carpets, and particularly relates to an Axminster carpet capable of reducing loss and consumption.

Background

The Axminster carpet is made up by using the braiding principle of eastern carpet, using mechanical method to cut down the pile yarn into the specified length, then using the consolidation method of "u" or "J" to make it be buried between the ground warp yarn layers of the carpet, then using weft yarn to fix, so that it has no sinking yarn on the back surface of the carpet, and its pile yarn utilization rate is high. The Axminster carpet has rich pattern color, smooth and plump carpet surface, and great style, and has excellent appearance retention, durability, stability and comfort, and is durable and selected by modern hotels.

With the personalized needs of modern hotel designs, more and more irregular areas appear, such as: circular conference rooms, arcuate walkways, polygonal banquet halls, etc. However, woven carpets can only be produced as strip carpets due to the limitations of production technology, packaging, transportation, etc. Therefore, parts outside the actual use area are also produced, resulting in a large amount of loss. The larger the loss is, the higher the cost is, which not only increases the financial burden of the user, but also causes the waste of resources.

Disclosure of Invention

In order to solve the problem that the Axminster carpet in the prior art cannot be directly applied to irregular areas to cause loss, the utility model provides the Axminster carpet capable of saving loss and reducing consumption.

In order to solve the technical problems, the utility model adopts the following technical scheme that the loss-saving and consumption-reducing Axminster carpet comprises a carpet main body, wherein an effective area and a loss area are arranged on the carpet main body, and the density of pile yarns in the loss area is smaller than that of the effective area.

Preferably, the yarn cost of the depletion region is lower than the yarn cost of the active region. The pile yarns in the worn area can use low-quality and low-price pile yarn raw materials, and the pile yarns scrapped in the effective area can also be recycled, so that the cost of the Axminster carpet can be greatly reduced.

Preferably, the carpet body is formed by interweaving a plurality of warp yarns and a plurality of weft yarns, the pile yarns are woven on the warp yarns and fixed by the weft yarns, and the pile yarns of the loss areas are woven on the corresponding warp yarns at intervals. The density of the velvet yarns in the loss area is convenient to realize and is smaller than that in the effective area, the velvet yarns in the loss area are woven at intervals instead of directly and blank non-woven velvet yarns, on one hand, the velvet yarns of a general carpet are thicker, if the loss area is blank, the carpet is extremely easy to collapse locally when being rolled and packaged, the rolling and packaging are affected, the velvet yarns in the loss area can support the carpet, the rolling, packaging and transportation are not affected, and the cost is greatly reduced in two aspects.

Further, the carpet main body is formed by interweaving three warp yarns and three weft yarns, wherein the warp yarns are marked as a group, the weft yarns are marked as a group, a first warp yarn is positioned between the weft yarns at the upper part and the weft yarns at the middle part, a second warp yarn is positioned between the weft yarns at the middle part and the weft yarns at the lower part, the weft yarns at the lower part pass through the weft yarns at the middle part and the weft yarns at the upper part upwards and hook a third warp yarn, and the velvet yarns are woven on the first warp yarn or the second warp yarn; in the effective area, each group of warp yarns is correspondingly implanted with one pile yarn; in the loss area, each group of warp yarns is correspondingly implanted with one pile yarn, and at least one group of warp yarns is spaced to be implanted with one pile yarn. The main body of the existing Axminster carpet is generally formed by interweaving three warp yarns and weft yarns, the technology is mature, and the main body of the carpet is firm and is not easy to shrink and deform.

Further, in the depletion region, one or two sets of the warp yarns are implanted with one pile yarn at each interval. The reasonable and reliable fluff yarn density of the loss area is ensured.

The beneficial effects are that: according to the loss-saving and consumption-reducing Axminster carpet, the wool yarn density of the loss area is smaller than that of the effective area, and the loss area is not directly blank and not woven, so that on one hand, the wool yarn of a general carpet is thicker, if the loss area is blank, the carpet is extremely easy to collapse locally when the carpet is coiled and packaged, the coiling and packaging are affected, the wool yarn of the loss area can support the carpet, the coiling and packaging and transportation are not affected, the loss of the wool yarn is reduced on the two hand, the labor intensity of workers is reduced, the manufacturing time of a product is shortened, the cost is greatly reduced, and when the Axminster carpet is used, the residual effective area can be matched with an irregular area of the carpet to be paved by only cutting the loss area.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic illustration of the construction of loss-reducing Axminster carpet of the present utility model;

FIG. 2 is a schematic partial cross-sectional view of the active area of the loss-reducing Axminster carpet of the present utility model;

FIG. 3 is a schematic partial cross-sectional view of the wear area of the loss-reducing Axminster carpet of the present utility model;

in the figure: 1. carpet body 11, active area 12, wear area 2, pile yarn 3, warp yarn 4, weft yarn.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. The following description of at least one exemplary embodiment is merely exemplary in nature and is in no way intended to limit the utility model, its application, or uses. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

As shown in fig. 1 to 3, the loss-reducing axminster carpet comprises a carpet main body 1, wherein an effective area 11 and a loss area 12 are arranged on the carpet main body 1, and the density of pile yarns 2 of the loss area 12 is smaller than that of the pile yarns 2 of the effective area 11. Specifically, in this embodiment, the carpet body 1 is interwoven by a plurality of warp yarns 3 and a plurality of weft yarns 4, the pile yarns 2 are woven on the warp yarns 3 and are fixed by the weft yarns 4, and the pile yarns 2 of the depletion region 12 are woven on the corresponding warp yarns at intervals. Further, in this embodiment, the carpet body 1 is formed by interweaving three warp yarns 3 and three weft yarns 4, three warp yarns 3 are grouped together, three weft yarns 4 are grouped together, a first warp yarn 3 is located between an upper weft yarn 4 and a middle weft yarn 4, a second warp yarn 3 is located between the middle weft yarn 4 and a lower weft yarn 4, the lower weft yarn 4 passes upward through the middle weft yarn 4 and the upper weft yarn 4 and hooks a third warp yarn 3, and the pile yarn 2 is woven on the first warp yarn 3 or the second warp yarn 3, as shown in fig. 2, and the pile yarn 2 is woven on the second warp yarn 3; in the effective area 11, each group of warp yarns 3 is correspondingly implanted with one pile yarn 2 to ensure the quality of the carpet, and the carpet can be particularly referred to as a multi-density Axminster computer jacquard carpet loom disclosed in the prior patent application number 201910093764.2; in the depletion region 12, each set of warp yarns 3 is implanted with one pile yarn 2, and at least one set of warp yarns 3 is implanted with one pile yarn 2 at intervals, so as to ensure that the pile yarn 2 density in the depletion region 12 is reasonably reliable, in this embodiment, in the depletion region 12, one pile yarn 2 is implanted with each interval or two sets of warp yarns 3, and as shown in fig. 3, one pile yarn 2 is implanted with each interval set of warp yarns 3.

In order to greatly reduce the cost of the axminster carpet, in this embodiment, the cost of the pile yarn 2 in the depletion region 12 is lower than that of the pile yarn 2 in the active region 11, and the pile yarn 2 in the depletion region 12 of this embodiment can use the low-quality and low-price pile yarn 2 raw material, and can also recycle the discarded pile yarn 2 in the active region 11.

The working principle is as follows:

the Axminster carpet is manufactured on the existing Axminster carpet loom, a required pattern is input into a computer system on the Axminster carpet loom, the pattern is divided into an effective area 11 and a loss area 12 as shown in figure 1, the Axminster carpet is square after being manufactured, the density of pile yarns 2 of the loss area 12 is smaller than that of the pile yarns 2 of the effective area 11 instead of the loss area 12 which is directly blank and not braided with the pile yarns 2, on one hand, the pile yarns 2 of the general carpet are thicker, if the loss area 12 is blank, the carpet is extremely easy to partially collapse when being coiled and packaged, the coiling and packaging are affected, the pile yarns 2 of the loss area 12 can support the carpet, the coiling packaging and the transportation are not affected, and the cost is greatly reduced on the two aspects. When the Axminster carpet is used, only the loss region 12 is needed to be cut off, and the residual effective region 11 can be matched with an irregular region of the carpet to be laid for use.

The present utility model is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present utility model and the inventive concept thereof, can be replaced or changed within the scope of the present utility model.

Claims (4)

1. An axminster carpet for reducing energy consumption, which is characterized in that: the carpet comprises a carpet body (1), wherein an effective area (11) and a loss area (12) are arranged on the carpet body (1), and the density of the velvet yarns (2) of the loss area (12) is smaller than that of the velvet yarns (2) of the effective area (11).

2. Loss-reducing axminster carpet according to claim 1, characterized in that: the carpet main body (1) is formed by interweaving a plurality of warp yarns (3) and a plurality of weft yarns (4), the pile yarns (2) are woven on the warp yarns (3) and are fixed by the weft yarns (4), and the pile yarns (2) of the loss areas (12) are woven on the corresponding warp yarns at intervals.

3. Loss-reducing axminster carpet according to claim 2, characterized in that: the carpet main body (1) is formed by interweaving three warp yarns (3) and three weft yarns (4), the three warp yarns (3) are marked as a group, the three weft yarns (4) are marked as a group, a first warp yarn (3) is positioned between the upper weft yarn (4) and the middle weft yarn (4), a second warp yarn (3) is positioned between the middle weft yarn (4) and the lower weft yarn (4), the lower weft yarn (4) passes through the middle weft yarn (4) and the upper weft yarn (4) upwards and hooks the third warp yarn (3), and the pile yarn (2) is woven on the first warp yarn (3) or the second warp yarn (3); -implanting one said pile yarn (2) in correspondence of each group of said warp yarns (3) in said active area (11); in the depletion region (12), each group of warp yarns (3) is correspondingly implanted with one pile yarn (2), and at least one group of warp yarns (3) is implanted with one pile yarn (2) at intervals.

4. An loss-reducing axminster carpet according to claim 3, wherein: -implanting one said pile yarn (2) per one or two groups of said warp yarns (3) at each interval in said depletion zone (12).

Images