CN214127918U - Pillow core with embedded structure - Google Patents

Abstract

The utility model discloses a pillow core with an embedded structure, which comprises a comfortable layer and a bearing embedded layer, wherein the bearing embedded layer is embedded into an embedded groove of the comfortable layer; compared with the prior art, be located comfortable layer when people's head, good comfort is given to softer comfortable layer, improves the sleep quality, and when comfortable layer received head pressure, comfortable layer takes place to warp in order better laminating in the head to with head pressure homodisperse to comfortable layer, and when head pressure eliminated, comfortable layer can slowly resume original shape. Because the bearing embedding layer is embedded into the embedding groove of the comfortable layer, the bearing embedding layer can bear the pressure of the head and part of the comfortable layer, and the bearing force of the pillow inner is increased. Bearing embedding layer is as the bearing layer, even comfortable layer receives the head action of gravity to take place to warp, bearing embedding layer support head that still can be fine to make whole pillow have better bearing effect, even comfortable layer is pressed the deformation and also can the bearing head.

Description

Pillow core with embedded structure

Technical Field

The utility model relates to a bedding, in particular to a pillow core with an embedded structure.

Background

The pillow is a bedding used for ensuring people to obtain comfortable and healthy sleep, and mainly comprises a pillow core, wherein the pillow cores on the market are various, such as: most of the chemical fiber pillow interiors, the buckwheat pillow interior and the latex pillow interior are made of a single material, and the pillow interiors made of the single material have the defects, for example, the chemical fiber pillow is low in price, but is not breathable, and is easy to deform and agglomerate after being used for a long time, so that the cervical vertebra is easy to deform, and the human health is not facilitated; the fillers of the buckwheat pillow core are generally economical buckwheat husks, mung bean husks, millets, silkworm excrement and the like, have certain efficacy on preventing cervical spondylosis, but are not suitable for cleaning; the latex pillow core is divided into a natural latex pillow core and a synthetic latex pillow core, the natural latex pillow core is an environment-friendly pillow core, the resilience force and the air permeability are strong, the anti-bacteria and anti-mite pillow core can inhibit bacteria and mites, but the price is high, the anti-bacteria and anti-mite pillow core is easy to oxidize, particularly, the anti-bacteria and anti-mite pillow core is easy to accelerate the oxidation process when meeting ultraviolet rays, the price is extremely high, and the latex is used as an allergen and is not suitable for everyone.

It is an aspect of the present invention to provide a comfortable and stable pillow core that allows a user to sleep comfortably without affecting the health of the user.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a pillow of embedded structure, including comfortable layer and bearing embedding layer, wherein the inside on comfortable layer has run through along the length direction on comfortable layer and has the embedded groove, and bearing embedding layer inlays and locates in the embedded groove.

Preferably, the comfortable layer has upper surface and lower surface, all is equipped with a plurality of first ventilative grooves on upper surface and the lower surface, and a plurality of first ventilative grooves are along the width direction parallel arrangement on comfortable layer, and each first ventilative groove extends along the length direction on comfortable layer, and the interval between two adjacent first ventilative grooves is the same, and the groove width, the groove depth and the groove length of each first ventilative groove are the same.

Preferably, all be equipped with a plurality of ventilative grooves of second on upper surface and the lower surface, a plurality of ventilative grooves of second are along the width direction parallel arrangement on comfortable layer, and every ventilative groove of second extends along the length direction on comfortable layer, a plurality of first ventilative grooves and a plurality of ventilative groove staggered arrangement of second.

Preferably, the upper surface and the lower surface are both provided with a plurality of third ventilation grooves, the plurality of third ventilation grooves are arranged in parallel along the length direction of the comfort layer, each third ventilation groove extends along the width direction of the comfort layer, and the plurality of third ventilation grooves arranged on the upper surface and the lower surface are crossed with the plurality of first ventilation grooves and the plurality of second ventilation grooves on the same surface; the distance between two adjacent third ventilation grooves is the same, and the groove width, the groove depth and the groove length of each third ventilation groove are the same.

Preferably, the embedded groove comprises at least one first embedded groove region, the supporting embedded layer is provided with at least one first convex body region, the first convex body region is matched with the first embedded groove region, and the first convex body region is embedded into the first embedded groove region.

Preferably, the first spur zone comprises at least one first spur; when the number of the first convex bodies is at least two, the shape and the size of the at least two first convex bodies are consistent.

Preferably, the embedded groove comprises a second embedded groove region, the bearing embedded layer is provided with a second convex body region, the second convex body region is matched with the second embedded groove region, the second convex body region is embedded into the second embedded groove region, and the first convex body region is connected with the second convex body region.

Preferably, the second convex body region includes at least one second convex body, and when the number of the second convex bodies is at least two, the shape and size of the at least two second convex bodies are identical.

Preferably, when the number of the first convex regions is at least two, the first convex regions are distributed at two ends of the second convex region.

Preferably, the comfort layer has a thickness greater than the thickness of the support insert layer.

The beneficial effect of this application lies in:

when people's head is located comfortable layer, the better comfort can be given people on softer comfortable layer, can let the people improve the sleep quality to when comfortable layer received head pressure, comfortable layer can take place to warp in order better laminating in the head, can also with head pressure homodisperse to comfortable layer, and when head pressure eliminated, comfortable layer can slowly resume original shape. Meanwhile, the bearing embedding layer is embedded into the embedded groove of the comfortable layer and is used for bearing the pressure of the head and part of the comfortable layer, so that the bearing force of the pillow inner is increased. Bearing embedding layer is as the bearing layer, even comfortable layer receives the effect of head gravity to take place to warp down, bearing embedding layer support head that still can be fine to make whole pillow have better bearing effect, even comfortable layer is pressed the deformation and also can the bearing head.

The comfortable layer and the bearing embedding layer can be detachably arranged, when a user likes a softer pillow inner, the bearing embedding layer can be pulled out along the penetrating embedding groove, and the comfortable layer can be directly used as the pillow inner; or when bearing embedding layer received the damage and need changed, also can extract the bearing embedding layer of damage along the embedded groove that runs through, and insert new bearing embedding layer along the embedded groove that runs through, the convenient change. That is, the height and hardness of the pillow to be slept are different due to different sleeping habits of a user, when the user wants to sleep on the softer pillow core, the supporting embedded layer can be drawn out from the embedded groove, and the comfortable layer forms the pillow core; when people want to sleep on the harder pillow inner, the bearing embedding layer can be inserted into the embedding groove.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic perspective view of a pillow core with an embedded structure in the present embodiment;

fig. 2 is a schematic perspective view of another angle of the pillow core with an embedded structure in the present embodiment;

fig. 3 is a schematic side view of the pillow core with the embedded structure in this embodiment.

Reference numerals:

a comfort layer 1; an insertion groove 11; a first embedding slot region 111; a second embedded groove region 112; an upper surface 12; a first air-permeable groove 121; a second air-permeable groove 122; a third air-permeable groove 123; a lower surface 13; supporting the embedded layer 2; a first convex region 21; the first convex body 211; the second convex region 22; second convex bodies 221.

Detailed Description

In the following description, numerous implementation details are set forth in order to provide a more thorough understanding of the present invention. It should be understood, however, that these implementation details should not be used to limit the invention. That is, in some embodiments of the invention, details of these implementations are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

It should be noted that all the directional indicators in the embodiments of the present invention, such as upper, lower, left, right, front and rear … …, are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture as shown in the drawings, and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for description purposes, not specifically referring to the order or sequence, and are not intended to limit the present invention, but only to distinguish the components or operations described in the same technical terms, and are not to be construed as indicating or implying any relative importance or implicit indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

For further understanding of the contents, features and functions of the present invention, the following embodiments will be exemplified in conjunction with the accompanying drawings as follows:

referring to fig. 1-3, fig. 1 is a schematic perspective view of the pillow core with an embedded structure in the present embodiment, fig. 2 is a schematic perspective view of another angle of the pillow core with an embedded structure in the present embodiment, and fig. 3 is a schematic side view of the pillow core with an embedded structure in the present embodiment. In the embodiment, a pillow of embedded structure, it includes comfortable layer bearing embedding layer 21 bearing embedding layer 2 and bearing embedding layer 22 bearing embedding layer 2, wherein the inside of the comfortable layer bearing embedding layer 21 bearing embedding layer 2 of bearing embedding layer 2, it has embedded groove bearing embedding layer 211 bearing embedding layer 2 to run through along the length direction of the comfortable layer bearing embedding layer 21 bearing embedding layer 2 of bearing embedding layer 2, the embedding of bearing embedding layer 2 bearing embedding layer is in bearing embedding layer 2 embedded groove bearing embedding layer 211 bearing embedding layer 2.

When the head of people is located comfortable layer 1, comfortable layer 1 is the head layer that is pressed, and comfortable layer 1 can give other people the comfort, improves the sleep quality. When comfortable layer 1 received head pressure, comfortable layer can take place to warp in order better laminating in the head, can also be with head pressure evenly distributed to comfortable layer 1, and when head pressure eliminated, comfortable layer 1 can slowly resume original shape. Meanwhile, the bearing embedding layer is embedded into the embedded groove of the comfortable layer, and the bearing embedding layer 2 is used for bearing the pressure of the head and part of the comfortable layer 1, so that the bearing force of the pillow inner is increased. Bearing embedding layer 2 is as the bearing layer, even comfortable layer 1 receives the effect of head gravity to take place to warp down, bearing embedding layer 2 still can be fine support head to make whole pillow have better bearing effect, even comfortable layer 1 is pressed the deformation and also can the bearing head. Specifically, the comfortable layer 1 is made of memory cotton, and the bearing embedded layer 3 is a cotton core.

When the user likes softer pillow, can also extract bearing embedding layer 2 along the embedded groove 11 that runs through, directly with comfortable layer 1 as the pillow can, perhaps receive when damaging when needing to be changed when bearing embedding layer 2, also can extract the bearing embedding layer 2 that damages along the embedded groove 11 that runs through, and insert new bearing embedding layer 2 along the embedded groove 11 that runs through, the convenient change. That is, the comfortable layer 1 and the bearing embedded layer 2 are arranged detachably, so that the pillow height and hardness of a user who wants to sleep are different due to different sleeping habits, when the user wants to sleep on a softer pillow core, the bearing embedded layer 2 can be drawn out from the embedded groove 11, and the comfortable layer forms the pillow core; when people want to sleep on the harder pillow inner, the bearing embedding layer 2 can be inserted into the embedding groove 11.

Preferably, the comfort layer 1 has a thickness greater than the thickness of the support insert layer 2. Set up like this and make the pillow softer comfortable more, make the people better fall asleep, can satisfy the people who likes soft pillow better, bearing embedding layer 2 has certain thickness simultaneously, also can play better bearing effect to the head.

Comfort layer 1 has upper surface bearing embedding layer 212 bearing embedding layer 2 and lower surface bearing embedding layer 213 bearing embedding layer 2, bearing embedding layer 2 upper surface bearing embedding layer 212 bearing embedding layer 2 and lower surface bearing embedding layer 213 bearing embedding layer all are equipped with a plurality of first ventilative grooves 121 on 2, a plurality of second ventilative grooves 122 and a plurality of third ventilative groove 123, a plurality of first ventilative grooves 121 and a plurality of second ventilative grooves 122 parallel arrangement of each other, wherein locate a plurality of third ventilative grooves 123 that upper surface bearing embedding layer 212 bearing embedding layer 2 and lower surface bearing embedding layer 213 bearing embedding layer 2 and be located a plurality of first ventilative grooves 121 and a plurality of second ventilative grooves 122 on the same surface and intersect. Each first ventilation groove 121 and each third ventilation groove 123 on the same surface are intersected to form an included angle, and the included angle between the first ventilation groove 121 and the third ventilation groove can be an acute angle, a right angle and an obtuse angle, and preferably is a right angle; similarly, each second air-permeable groove 122 and each third air-permeable groove 123 on the same surface intersect at an included angle, which may be an acute angle, a right angle and an obtuse angle, preferably a right angle.

Specifically, a plurality of first ventilative grooves 121 are arranged along the width direction of the comfortable layer 1 in parallel, each first ventilative groove bearing embedding layer 2121 bearing embedding layer 2 extends along the length direction of the comfortable layer bearing embedding layer 21 bearing embedding layer 2 of bearing embedding layer 2, the shape of each first ventilative groove 121 is the same, and the size is the same, the interval between two adjacent first ventilative grooves 121 is the same, and the groove width, the groove depth and the groove length of each first ventilative groove 121 are the same.

The plurality of second ventilation grooves 122 are arranged in parallel along the width direction of the comfort layer 1, each second ventilation groove supporting embedded layer 2122 supports the embedded layer 2 to extend along the length direction of the supporting embedded layer 2 of the comfort layer supporting embedded layer 21 of the supporting embedded layer 2, each second ventilation groove 122 is identical in shape and size, the distance between every two adjacent second ventilation grooves 122 is identical, and the groove width, the groove depth and the groove length of each second ventilation groove 122 are identical; a plurality of first ventilative grooves 121 and a plurality of second ventilative grooves 122 keep away from the middle part of the one side of bearing embedding layer 2 along comfortable layer 1 toward both sides evenly distributed, and each second ventilative groove 122 is located between two adjacent first ventilative grooves 121.

A plurality of third air-permeable grooves 123 are arranged in parallel along the length direction of the comfort layer 1, and each third air-permeable groove bearing embedding layer 2123 bearing embedding layer 2 extends along the width direction of the comfort layer bearing embedding layer 21 bearing embedding layer 2 of the bearing embedding layer 2, wherein a plurality of third air-permeable groove bearing embedding layers 2123 bearing embedding layers 2 provided on the upper surface bearing embedding layer 212 bearing embedding layer 2 and the lower surface bearing embedding layer 213 bearing embedding layer 2 are crossed with a plurality of first air-permeable groove bearing embedding layers 2121 bearing embedding layers 2122 and a plurality of second air-permeable groove bearing embedding layers 2122 bearing embedding layers 2 on the same surface; each third ventilation groove 123 has the same shape and size, the distance between two adjacent third ventilation grooves 123 is the same, and the groove width, the groove depth and the groove length of each third ventilation groove 123 are the same.

The air groove is designed according to the human engineering, the contact area of the head and the comfortable layer 1 is increased, the air permeability of the pillow core is increased, heat dissipation is facilitated, and head health is facilitated.

Preferably, both the upper surface 12 and the lower surface 13 of the comfort layer 1 are provided with five first ventilation slots 121, two second ventilation slots 122, and five third ventilation slots 123; five first air-permeable grooves 121 and two second air-permeable grooves 122 located on the same surface are all arranged in parallel along the width direction of the comfort layer 1, five first air-permeable groove bearing embedded layer 2121 and two second air-permeable grooves 122 located on the same surface are all extended along the length direction of the comfort layer bearing embedded layer 21 bearing embedded layer 2 of the bearing embedded layer 2, five third air-permeable groove bearing embedded layer 2123 and bearing embedded layer 2 located on the same surface are all extended along the width direction of the comfort layer bearing embedded layer 21 of the bearing embedded layer 2, that is, the lengths of the first air-permeable grooves 121 and the second air-permeable grooves 122 are respectively consistent with the length of the comfort layer 1, the length of the third air-permeable grooves 123 is consistent with the width of the comfort layer 1, the shapes of each of the first air-permeable grooves 121, the second air-permeable grooves 122 and the third air-permeable grooves 123 are all in the same shape, five first strip-shaped air-permeable grooves 121 and two second strip-shaped air-permeable grooves 122 located on the same surface are arranged in parallel and staggered manner, five first ventilation grooves 121 on the same surface are uniformly distributed towards two sides along the middle part on the same surface of the comfort layer 1, wherein one second ventilation groove 122 is distributed between the second first ventilation groove 121 and the third first ventilation groove 121, wherein the other second ventilation groove 122 is distributed between the third first ventilation groove 121 and the fourth first ventilation groove 121, and the two second ventilation grooves 122 are symmetrically distributed on two sides of the third first ventilation groove 121.

Embedding groove bearing embedding layer 211 bearing embedding layer 2 in comfortable layer 1 includes at least one first embedding groove district 111, and bearing embedding layer 2 is equipped with at least one first bulge district 21, first bulge district 21 and first embedded groove 13 looks adaptation, and in bearing embedding layer 22 bearing embedding layer 2 embedding locates bearing embedding layer 2 embedding groove bearing embedding layer 211 bearing embedding layer 2, first bulge district 21 embedding first embedding groove district 111.

The first convex body region 21 includes at least one first convex body 211; when the number of the first protrusions 211 is at least two, the shape and size of at least two first protrusions 211 are the same.

When the comfort layer 1 and the support embedded layer 2 are detachably disposed, each first protrusion 211 in each first protrusion area 21 may be fixedly connected or movably connected. When the bearing embedding layer 22 is embedded in the bearing embedding layer 2, the bearing embedding layer 2 is embedded in the bearing embedding layer 211, and each of the first protrusions 211 is embedded in the corresponding notch of the first embedding groove region 111.

It imbeds the tank district 112 to have seted up the second in the comfortable layer 1, bearing embedding layer 2 is equipped with second protruding district 22, second protruding district 22 and second embedding tank district 112 looks adaptation, inlay layer 22 bearing embedding layer 2 and inlay in the layer 2 embedding of bearing embedding layer is inlayed in bearing embedding layer 2 embedding groove bearing embedding layer 211 bearing embedding layer 2 when the bearing, the corresponding notch of second embedding tank district 112 is inlayed in second protruding district 22, and first protruding district 21 is connected with second protruding district 22, first embedded groove 13 and second embedding tank district 112 fixed connection.

When the comfort layer 1 and the support embedded layer 2 are detachably disposed, the first convex region 21 and the second convex region 22 may be disposed to be movably connected or may be disposed to be fixedly connected.

The second convex body region 22 includes at least one second convex body 221, and when the number of the second convex bodies 221 is at least two, the shape and size of at least two second convex bodies 221 are the same.

When the comfort layer 1 and the support insert layer 2 are detachably disposed, each second protrusion 221 in each second protrusion area 22 may be fixedly connected or movably connected. When the support inlay is inserted into the inlay groove of the comfort layer, each second protrusion 221 is inserted into a corresponding notch of the second inlay groove area 112.

Preferably, when the number of the first convex region 21 is at least two, the first convex region 21 is distributed at both ends of the second convex region 22.

More preferably, the support embedded layer 2 includes two first protrusion areas 21 and one second protrusion area 22, the two first protrusion areas 21 have the same shape and size, the two first protrusion areas 21 are symmetrically distributed at two ends of the second protrusion area 22, and the two first protrusion areas 21 are both fixedly connected to the second protrusion area 22. Each first convex body region 21 is provided with two first convex bodies 211, the second convex body region 22 is provided with two second convex bodies 221, the cross section of each first convex body 211 and the cross section of each second convex body 221 are both elliptical, and the thickness of each first convex body 211 is greater than that of each second convex body 221.

More preferably, the thickness of the first protrusion region 21 is greater than the thickness of the second protrusion region 22. Because the whole length and the width of the pillow of embedded structure are fixed, the thickness in first protruding district 21 is greater than the thickness in second protruding district 22, so the thickness of the comfortable layer 1 that first protruding district 21 corresponds is less than the thickness of the comfortable layer 1 that second protruding district 22 corresponds, and because comfortable layer 1 is softer, bearing embedding layer 2 is harder, it makes the part of the pillow of the embedded structure that first protruding district 21 corresponds have better bearing effect than the part of the pillow of the embedded structure that second protruding district 22 corresponds to set up like this, the part of the pillow of the embedded structure that second protruding district 22 corresponds has better soft effect than the part of the pillow of the embedded structure that first protruding district 21 corresponds.

To sum up, be located comfortable layer when people's head, softer comfortable layer can give other people good comfort, can let the people improve the sleep quality to when comfortable layer received head pressure, comfortable layer can take place to warp in order better laminating in the head, can also with head pressure homodisperse to comfortable layer, and when head pressure eliminated, comfortable layer can slowly resume original shape. Meanwhile, the bearing embedding layer is embedded into the embedded groove of the comfortable layer and is used for bearing the pressure of the head and part of the comfortable layer, so that the bearing force of the pillow inner is increased. Bearing embedding layer is as the bearing layer, even comfortable layer receives the effect of head gravity to take place to warp down, bearing embedding layer support head that still can be fine to make whole pillow have better bearing effect, even comfortable layer is pressed the deformation and also can the bearing head.

The above is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a pillow of embedded structure, its characterized in that, includes comfortable layer (1) and bearing embedding layer (2), wherein the inside of comfortable layer (1), along the length direction of comfortable layer (1) runs through has embedded groove (11), bearing embedding layer (2) are inlayed and are located in embedded groove (11).

2. The pillow inner with an embedded structure according to claim 1, wherein the comfort layer (1) has an upper surface (12) and a lower surface (13), the upper surface (12) and the lower surface (13) are provided with a plurality of first air permeable grooves (121), the plurality of first air permeable grooves (121) are arranged in parallel along the width direction of the comfort layer (1), each first air permeable groove (121) extends along the length direction of the comfort layer (1), the distance between two adjacent first air permeable grooves (121) is the same, and the groove width, the groove depth and the groove length of each first air permeable groove (121) are the same.

3. The pillow inner with embedded structure according to claim 2, wherein the upper surface (12) and the lower surface (13) are provided with a plurality of second air permeable grooves (122), the plurality of second air permeable grooves (122) are arranged in parallel along the width direction of the comfort layer (1), each second air permeable groove (122) extends along the length direction of the comfort layer (1), and the plurality of first air permeable grooves (121) and the plurality of second air permeable grooves (122) are arranged in a staggered manner.

4. The pillow inner with embedded structure according to claim 3, wherein the upper surface (12) and the lower surface (13) are provided with a plurality of third air permeable grooves (123), the plurality of third air permeable grooves (123) are arranged in parallel along the length direction of the comfort layer (1), each third air permeable groove (123) extends along the width direction of the comfort layer (1), wherein the plurality of third air permeable grooves (123) provided on the upper surface (12) and the lower surface (13) are crossed with the plurality of first air permeable grooves (121) and the plurality of second air permeable grooves (122) on the same surface; the distance between two adjacent third ventilation grooves (123) is the same, and the groove width, the groove depth and the groove length of each third ventilation groove (123) are the same.

5. Pillow with embedded structure according to claim 1, characterised in that said embedding recess (11) comprises at least one first embedding recess zone (111), said supporting embedding layer (2) having at least one first protruding zone (21), said first protruding zone (21) being adapted to said first embedding recess zone (111), said first protruding zone (21) being embedded in said first embedding recess zone (111).

6. Pillow according to claim 5, characterised in that said first zone of protrusions (21) comprises at least one first protrusion (211); when the number of the first convex bodies (211) is at least two, the shape and the size of the at least two first convex bodies (211) are consistent.

7. Pillow according to claim 5, characterised in that said insertion groove (11) comprises a second insertion groove zone (112), said supporting insertion layer (2) having a second zone of protrusions (22), said second zone of protrusions (22) being adapted to said second insertion groove zone (112), said second zone of protrusions (22) being inserted into said second insertion groove zone (112), and said first zone of protrusions (21) being connected to said second zone of protrusions (22).

8. The pillow core with embedded structure according to claim 7, wherein the second convex body region (22) comprises at least one second convex body (221), and when the number of the second convex bodies (221) is at least two, the shape and size of the at least two second convex bodies (221) are consistent.

9. The pillow core with embedded structure according to claim 7, wherein when the number of the first convex body regions (21) is at least two, the first convex body regions (21) are distributed at two ends of the second convex body region (22).

10. Pillow according to any of claims 1 to 9, characterised in that the comfort layer (1) has a thickness greater than the thickness of the support insert layer (2).

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