CN216347011U - Sliding door lining plate and air conditioner - Google Patents

Abstract

The utility model provides a sliding door lining plate and an air conditioner, and relates to the technical field of air conditioners. The main part district, the thickness of side district and reinforcing district is different, reinforcing district is thickest, the main part district is inferior, the side district is thinnest, through adopting different wall thicknesses, when actual preparation, only need to strengthen the district thick a bit in order to satisfy strengthen the atress demand can, thereby compare in the thick panel of whole adoption, material saving by a wide margin reduces material cost, avoids the waste of material, the weight of welt body has also been alleviateed simultaneously, be favorable to the lightweight of product.

Description

Sliding door lining plate and air conditioner

Technical Field

The utility model relates to the technical field of air conditioners, in particular to a sliding door lining plate and an air conditioner.

Background

The existing air conditioner sliding door lining plate generally adopts a plate body with the same thickness everywhere in order to ensure the manufacturing convenience and the product strength, and generally the product wall thickness is thicker (for example, more than 2.8 mm) in order to ensure the installation strength of a joint, so the material cost is often increased, and the material waste is caused.

SUMMERY OF THE UTILITY MODEL

The utility model solves the problems of ensuring the structural strength, reducing the material cost and avoiding the waste of materials.

In order to solve the problems, the utility model adopts the following technical scheme.

In one aspect, the present invention provides a lining plate for a sliding door, including a lining plate body and a mounting stress block, wherein the lining plate body has a main body region, side regions located at two sides of the main body region in a width direction, and a reinforcing region located at one side of the main body region in a length direction, the mounting stress block is disposed in the reinforcing region and is configured to be assembled on an air conditioner main body, a thickness of the side region is smaller than a thickness of the main body region, and a thickness of the main body region is smaller than a thickness of the reinforcing region.

According to the lining plate for the sliding door, provided by the utility model, the lining plate body is divided into the main body area, the side edge area and the reinforcing area, the mounting stress block is arranged in the reinforcing area, the reinforcing area mainly plays a stress role, meanwhile, the thicknesses of the main body area, the side edge area and the reinforcing area are different, the reinforcing area is the thickest, the main body area is the next to the side edge area, and the reinforcing area is the thinnest. Compared with the prior art, the sliding door lining plate provided by the utility model has the advantages that on the premise of ensuring the structural strength, the use of materials is reduced, the material cost is reduced, the waste of materials is avoided, and the lightweight of a product is facilitated.

Further, the thickness of the reinforcing area is between 2.4mm and 2.6 mm.

According to the sliding door lining plate provided by the utility model, the thickness of the reinforcing area is limited, so that the reinforcing area can meet the stress requirement of installing the stress block, and the stress deformation of the reinforcing area is avoided.

Further, the thickness of the body region is between 2.2mm and 2.4 mm.

According to the sliding door lining plate provided by the utility model, the thickness of the main body area is reasonably set, so that the main body area can meet the strength requirement of a sliding door, meanwhile, the thickness of the sliding door lining plate is reduced, and the use of materials is further reduced.

Further, the thickness of the side edge region is between 1.9mm and 2.1 mm.

According to the sliding door lining plate provided by the utility model, the thickness of the side edge area is reasonably set, so that the side edge area can meet the requirement of structural strength, the thickness of the side edge area is reduced, and the use of materials is further reduced.

Furthermore, the inner side surface of the lining plate body is partially outwards sunken to form a plurality of first grooves, and first bosses are correspondingly formed on the outer side surface of the lining plate body; the outer side surface of the lining plate body is partially inwards recessed to form a plurality of second grooves, and second bosses are correspondingly formed on the inner side surface of the lining plate body.

According to the lining plate for the sliding door, the first groove and the second boss are formed on the inner side surface, and the first boss and the second groove are formed on the outer side surface, so that the lining plate body integrally forms the concave-convex structure, the local structural strength is increased, the structural strength of the lining plate body is further improved, and the lining plate body is prevented from being deformed under stress.

Further, be provided with first strengthening rib net in the first recess, first strengthening rib net simultaneously with the lateral wall and the diapire of first recess are connected.

According to the lining plate for the sliding door, the first reinforcing rib net is arranged, so that the lining plate body is supported, the local structural strength of the area where the first groove is located can be enhanced, the structural strength of the lining plate body is further improved, and the lining plate body is prevented from being deformed under stress.

Further, first strengthening rib net includes first horizontal muscle and first perpendicular muscle, first horizontal muscle runs through first recess, and simultaneously with the lateral wall and the diapire of first recess are connected, first perpendicular muscle with first horizontal muscle is connected and perpendicular to first horizontal muscle sets up.

According to the sliding door lining plate provided by the utility model, the first transverse ribs and the first vertical ribs are arranged, so that the reinforcing effect of the first reinforcing rib net is better, and the structural strength in multiple directions can be enhanced.

Further, a second reinforcing rib net is arranged in the second groove, and the second reinforcing rib net is connected with the side wall and the bottom wall of the second groove at the same time.

According to the lining plate for the sliding door, provided by the utility model, the second reinforcing rib net is arranged, so that the local structural strength of the area where the second groove is located can be enhanced, the structural strength of the lining plate body is further improved, and the lining plate body is prevented from being deformed under stress.

Further, the second reinforcing rib net comprises a second transverse rib and a second vertical rib, the second vertical rib penetrates through the second groove and is connected with the side wall and the bottom wall of the second groove, and the second transverse rib is connected with the second vertical rib and is perpendicular to the second vertical rib.

According to the sliding door lining plate provided by the utility model, the second transverse ribs and the second vertical ribs are arranged, so that the reinforcing effect of the second reinforcing rib net is better, and the structural strength in multiple directions can be enhanced.

Further, the surface of the first boss is also provided with a third reinforcing rib net.

According to the lining plate for the sliding door, provided by the utility model, the third reinforcing rib net is additionally arranged on the surface of the first boss, so that the structural strength of the lining plate body can be further enhanced.

Further, the depth of the first groove is greater than that of the first groove located in the side edge area; the depth of the second groove in the main body region is greater than the depth of the second groove in the side region.

According to the sliding door lining plate provided by the utility model, the first reinforcing rib net and the second reinforcing rib net in the main body area are lifted, so that the deformation resistance of the main body area is stronger.

In another aspect, the present invention provides an air conditioner, including a sliding door lining plate, the sliding door lining plate including a lining plate body and a mounting stress block, the lining plate body having a main body region, side regions located at two sides of the main body region, and a reinforcing region located at the top of the main body region, the mounting stress block being disposed in the reinforcing region and adapted to be assembled on an air conditioner main body, and the thickness of the side regions being smaller than the thickness of the main body region, and the thickness of the main body region being smaller than the thickness of the reinforcing region.

Drawings

FIG. 1 is a schematic view of a sliding door liner panel according to a first embodiment of the present invention at a first viewing angle;

FIG. 2 is a partial cross-sectional view of a sliding door liner panel according to a first embodiment of the present invention, shown from a first perspective;

FIG. 3 is an enlarged partial view of III of FIG. 2;

FIG. 4 is a schematic view of a sliding door liner panel according to a first embodiment of the present invention from a second viewing angle;

FIG. 5 is a partial enlarged view of V in FIG. 4;

FIG. 6 is a partial cross-sectional view of the sliding door liner panel of the first embodiment of the present invention, taken at a second viewing angle;

fig. 7 is a partial structural cross-sectional view of a sliding door liner panel according to a first embodiment of the present invention at a third viewing angle.

Description of reference numerals:

100-sliding door lining board; 110-a liner body; 111-a first recess; 112-a first boss; 113-a second groove; 114-a second boss; 115-a first reinforcing mesh; 1151-a first transverse bar; 1153-a first vertical rib; 117-a second network of reinforcing bars; 1171-second transverse ribs; 1173-second vertical ribs; 119-a third network of reinforcing bars; 130-installing a stress block; 150-a body region; 170-side area; 190-reinforcing region.

Detailed Description

As disclosed in the background art, there is a scheme of using a sliding door for opening and closing an air outlet of a cabinet air conditioner in the prior art, wherein the sliding door is slidably mounted on an air conditioner body by a lining plate. In order to ensure the convenience of manufacture and the strength of products, the conventional sliding door lining plate is generally made of a plate body with the same thickness, namely, the thickness of each part of the sliding door lining plate is equal. In order to ensure the structural strength of the joint of the sliding door lining plate and the air conditioner body, the thickness of the sliding door lining plate is generally required to be larger, for example, the thickness of the lining plate which is purchased in the conventional sliding mode reaches 2.8 mm. And the conventional sliding door liner plate is generally formed by integral injection molding, so that the thickness of the liner plate is increased everywhere, the material cost is undoubtedly increased, and meanwhile, the material waste is caused. And, thicker sliding door welt also makes its weight great, is unfavorable for the lightweight of product, has also promoted the drive requirement, and is too high to the drive requirement of motor.

In order to solve the problems, the utility model provides a novel sliding door lining plate, which adopts different thicknesses after being partitioned, effectively reduces the material cost and avoids the waste of materials. In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

First embodiment

Referring to fig. 1, the present embodiment provides a sliding door liner 100, which reduces the use of materials, reduces the material cost, avoids the waste of materials, and helps to achieve the lightweight of products, reducing the driving requirements for the motor.

The sliding door lining plate 100 provided by the embodiment comprises a lining plate body 110 and an installation stress block 130, wherein the lining plate body 110 is provided with a main body area 150, side area 170 positioned at two sides of the main body area 150 along the width direction and a reinforced area 190 positioned at one side of the main body area 150 along the length direction, the installation stress block 130 is arranged on the reinforced area 190 and is used for being assembled on an air conditioner main body, the thickness of the side area 170 is smaller than that of the main body area 150, and the thickness of the main body area 150 is smaller than that of the reinforced area 190.

In this embodiment, the panel body 110 has opposite inner and outer sides, the outer side also being fitted with a trim panel to form a sliding door. The installation stress block 130 is arranged on the reinforcing area 190 on the inner side surface and is used for being assembled on the air conditioner main body, so the reinforcing area 190 needs to bear the weight of the whole lining plate body 110 and the decorating plate, the thickness of the reinforcing area is the largest, the structural strength of the whole lining plate body 110 needs to be guaranteed by the main body area 150, the thickness of the reinforcing area 190 can be smaller than that of the reinforcing area 190, and the side area 170 is basically not stressed, so the thickness of the reinforcing area is the smallest. This embodiment is through being divided into main part district 150 with welt body 110, side district 170 and reinforced district 190, installation atress piece 130 sets up in reinforced district 190, reinforced district 190 mainly plays the atress effect, simultaneously main part district 150, side district 170 is different with the thickness of reinforced district 190, reinforced district 190 is thickest, main part district 150 times, side district 170 is thinnest, through adopting different wall thicknesses, when actual preparation, only need to do reinforced district 190 thick a bit in order to satisfy reinforced atress demand can, thereby compare in whole adoption thicker panel, material saving by a wide margin, reduce material cost, avoid the waste of material, the weight of welt body 110 has also been alleviateed simultaneously, be favorable to the lightweight of product.

It should be noted that the sliding door lining plate 100 of the present embodiment is suitable for a vertical air conditioner, and the vertical air conditioner has a cylindrical shape, so the cross section of the lining plate body 110 is also arc-shaped to fit the air conditioner main body.

In this embodiment, the main body region 150 is located in the middle of the liner body 110, the side regions 170 are located on the left and right sides of the main body region 150, the reinforced region 190 is located at the top of the main body region 150, the installation stress block 130 is disposed in the reinforced region 190, there is no definite boundary between the main body region 150 and the side regions 170, and the boundary can be set according to the actual air conditioner model, for example, for a cabinet air conditioner with a small size, the side region 170 can be wider, so that the main body region 150 is narrower, and for a cabinet air conditioner with a large size, the side region 170 can be narrower, the main body region 150 can be wider, and the actual limited range of the two regions can be set according to the actual requirements.

In this embodiment, the thickness of the reinforced region 190 is between 2.4mm and 2.6 mm. Specifically, the thickness of the reinforcing region 190 is 2.5mm, which can satisfy the structural strength of the joint of the mounting stress block 130 and the lining panel body 110, but the thickness of the reinforcing region 190 is merely an example, and the thickness may be determined according to the material of the lining panel body 110, the weight of the decorative plate, and the contact area between the mounting stress block 130 and the lining panel body 110, and is not particularly limited. Here, by limiting the thickness of the reinforcing region 190, the reinforcing region 190 can meet the stress requirement of the installation stress block 130, and the reinforcing region 190 is prevented from deforming under stress.

In the present embodiment, the body region 150 has a thickness of between 2.2mm and 2.4 mm. Specifically, the thickness of the body region 150 is 2.3mm, which is slightly less than the thickness of the reinforcement region 190, although the thickness of the body region 150 is merely illustrative and need only be less than the thickness of the reinforcement region 190. Through the thickness of reasonable setting main part district 150 for main part district 150 can satisfy sliding door's intensity demand, has also thinned its thickness simultaneously, further reduces the use of material.

In this embodiment, the side edge region 170 has a thickness of between 1.9mm and 2.1 mm. Specifically, the thickness of the side region 170 is 2mm, which is slightly smaller than the thickness of the body region 150, but the thickness of the side region 170 is merely illustrated here, and it is only necessary to satisfy the requirement that the thickness is smaller than the thickness of the body region 150. Through the thickness that rationally sets up side district 170 for side district 170 can satisfy structural strength's demand, has also thinned its thickness simultaneously, further reduces the use of material.

Referring to fig. 2 to 7 in combination, in the present embodiment, the inner side surface of the liner plate body 110 is partially recessed outwards to form a plurality of first grooves 111, and first bosses 112 are correspondingly formed on the outer side surface of the liner plate body 110; the outer side surface of the liner body 110 is partially inwardly recessed to form a plurality of second grooves 113, and second bosses 114 are correspondingly formed on the inner side surface of the liner body 110. Specifically, the lining plate body 110 is formed by injection molding, and the lining plate body 110 is both provided with a concave-convex structure in the width direction and the length direction, so that the lining plate body 110 has a local bending structure. The first groove 111 and the second boss 114 are formed on the inner side surface, and the first boss 112 and the second groove 113 are formed on the outer side surface, so that the lining plate body 110 integrally forms an uneven structure, the local structural strength is increased, the structural strength of the lining plate body 110 is improved, and the stress deformation of the lining plate body is avoided.

It should be noted that, the inner side of the lining board body 110 mentioned in the embodiment refers to a side close to the center of the air conditioner body after assembly and installation, that is, a side of the lining board body 110 that is concave inwards; the outer side of the lining board body 110 mentioned in this embodiment refers to a side close to the external space after the assembly is completed, i.e. a side protruding outward from the lining board body 110. And the first groove 111 and the second groove 113 are symmetrically arranged along the center line of the liner plate body 110.

In this embodiment, a first web of reinforcing ribs 115 is arranged in the first groove 111, the first web of reinforcing ribs 115 being connected to both the side walls and the bottom wall of the first groove 111. Specifically, first reinforcing rib net 115 and the integrative injection moulding of welt body 110 through setting up first reinforcing rib net 115, play the supporting role to welt body 110, can strengthen the local structural strength in first recess 111 place region, and then make welt body 110's structural strength promote, avoid its atress to warp.

The first web of reinforcing bars 115 comprises first transverse bars 1151 and first vertical bars 1153, the first transverse bars 1151 extend through the first groove 111 and are connected to the side walls and the bottom wall of the first groove 111, and the first vertical bars 1153 are connected to the first transverse bars 1151 and are arranged perpendicular to the first transverse bars 1151. Specifically, first horizontal muscle 1151 and first perpendicular muscle 1153 are crisscross setting anyhow to form latticed structure, through setting up first horizontal muscle 1151 and first perpendicular muscle 1153, make the enhancement effect of first strengthening rib net 115 better, can strengthen the structural strength of a plurality of directions.

In this embodiment, a second web of reinforcing ribs 117 is provided in the second groove 113, the second web of reinforcing ribs 117 being connected to both the side walls and the bottom wall of the second groove 113. Specifically, second reinforcing rib net 117 and the integrative injection moulding of welt body 110 through setting up second reinforcing rib net 117, can strengthen the local structural strength in second recess 113 place region, and then make welt body 110's structural strength further promote, avoid its atress to warp.

The second reinforcing rib net 117 comprises a second transverse rib 1171 and a second vertical rib 1173, the second vertical rib 1173 penetrates through the second groove 113 and is simultaneously connected with the side wall and the bottom wall of the second groove 113, and the second transverse rib 1171 is connected with the second vertical rib 1173 and is perpendicular to the second vertical rib 1173. Specifically, the horizontal muscle 1171 of second and the vertical muscle 1173 of second are crisscross setting anyhow to form latticed structure, through setting up the horizontal muscle 1171 of second and the vertical muscle 1173 of second, make the reinforcing effect of second reinforcing rib net 117 better, can strengthen the structural strength of a plurality of directions.

In this embodiment, the surface of the first boss 112 is further provided with a third web of reinforcing ribs 119. Specifically, the third reinforcing mesh 119 may also be formed on the surface of the first boss 112 by integral injection molding using vertically and horizontally staggered ribs. The structural strength of the liner body 110 can be further enhanced by adding the third reinforcing mesh 119 to the surface of the first boss 112.

In the present embodiment, the depth of the first groove 111 in the body region 150 is greater than the depth of the first groove 111 in the side region 170; the depth of the second recesses 113 in the body region 150 is greater than the depth of the second recesses 113 in the side regions 170, while the height of the first web of reinforcing ribs 115 is adapted to the depth of the first recesses 111 and the height of the second web of reinforcing ribs 117 is adapted to the depth of the second recesses 113. The height of the first web of reinforcing ribs 115 in the body region 150 is greater than the height of the first web of reinforcing ribs 115 in the side regions 170; the height of the second web of reinforcing ribs 117 in the body region 150 is greater than the height of the second web of reinforcing ribs 117 in the side regions 170. In particular, the deformation resistance of the body region 150 is made stronger by the first and second webs of reinforcing ribs 115, 117 of the body region 150 being pulled up.

It should be noted that the height of the first reinforcing rib net 115 refers to the height of the first transverse rib 1151 and the first vertical rib 1153 relative to the bottom wall of the first groove 111, and the height of the second reinforcing rib net 117 refers to the height of the second transverse rib 1171 and the second vertical rib 1173 relative to the bottom wall of the second groove 113. Meanwhile, the height of the third reinforcing rib mesh 119 relative to the surface of the first boss 112 is far smaller than that of the first reinforcing rib mesh 115 or the second reinforcing rib mesh 117, so that the influence of the third reinforcing rib mesh 119 on the installation of a subsequent decorative plate is avoided.

In this embodiment, the concave-convex structure is made to welt body 110 in the width direction, and simultaneously, the concave-convex structure is made in the length direction of welt body 110, form first recess 111 and second recess 113 in the both sides of welt body 110, and arrange horizontal crisscross first horizontal muscle 1151 and the first muscle 1153 of erectting in first recess 111, arrange horizontal crisscross second horizontal muscle 1171 and the second muscle of erectting 1173 of erectting in second recess 113, the strengthening rib plays the supporting role to welt body 110, and the strengthening rib of main part district 150 is pulled up and is handled, can reduce welt body 110 width direction and length direction's deflection, guarantee welt body 110 width direction and length direction's intensity simultaneously.

In summary, in the sliding door lining plate 100 provided in this embodiment, the lining plate body 110 is divided into the main body area 150, the side area 170 and the reinforcement area 190, the installation stress block 130 is disposed in the reinforcement area 190, the reinforcement area 190 mainly plays a role of stress, meanwhile, the main body area 150, the side area 170 and the reinforcement area 190 have different thicknesses, the reinforcement area 190 is thickest, the main body area is 150 times, and the side area 170 is thinnest, and by adopting different wall thicknesses, in actual manufacturing, the reinforcement area 190 only needs to be thicker to meet the requirement of reinforcement stress, so as to greatly save materials, reduce material cost, avoid material waste, reduce the weight of the lining plate body 110, and facilitate light weight of products. Meanwhile, the surfaces of the two sides of the lining plate body 110 are partially recessed to form a first groove 111 and a second groove 113, a first reinforcing rib net 115 is arranged in the first groove 111, and a second reinforcing rib net 117 is arranged in the second groove 113, so that the strength of the lining plate body 110 in the length direction and the width direction can be enhanced.

Second embodiment

The present embodiment provides an air conditioner, which comprises an air conditioner body and a sliding door lining plate 100, wherein the basic structure and principle of the sliding door lining plate 100 and the generated technical effects are the same as those of the first embodiment, and for the sake of brief description, the corresponding contents in the first embodiment can be referred to where the present embodiment is not mentioned in part.

The air conditioner that this embodiment provided, including air conditioner body and sliding door lining board 100, sliding door lining board 100 includes lining board body 110 and installation atress piece 130, have main part district 150 on the lining board body 110, be located the side district 170 of main part district 150 both sides and being located the reinforcing area 190 at main part district 150 top, installation atress piece 130 sets up reinforcing area 190 to the assembly is in the air conditioner main part, just the thickness of side district 170 is less than the thickness of main part district 150, the thickness of main part district 150 is less than the thickness of reinforcing area 190.

In this embodiment, an air outlet is provided on the air conditioner body, and the sliding door lining plate 100 is slidably assembled at the air outlet and driven by the motor to open or close the air outlet.

In this embodiment, the mounting stress block 130 is disposed on the inner side surface of the lining board body 110, and the outer side surface of the lining board body 110 is further mounted with a decorative board, and the shape and size of the decorative board are all adapted to the lining board body 110.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (12)

1. The sliding door lining plate is characterized by comprising a lining plate body (110) and an installation stress block (130), wherein a main body area (150), side edge areas (170) located on two sides of the main body area (150) in the width direction and a reinforcing area (190) located on one side of the main body area (150) in the length direction are arranged on the lining plate body (110), the installation stress block (130) is arranged on the reinforcing area (190) and used for being assembled on an air conditioner main body, the thickness of each side edge area (170) is smaller than that of the main body area (150), and the thickness of the main body area (150) is smaller than that of the reinforcing area (190).

2. The sliding door liner as claimed in claim 1, wherein the thickness of the reinforced area (190) is between 2.4mm-2.6 mm.

3. The sliding door liner panel according to claim 1, wherein the thickness of the body region (150) is between 2.2mm-2.4 mm.

4. The sliding door liner as claimed in claim 1, wherein the thickness of the side edge region (170) is between 1.9mm and 2.1 mm.

5. The sliding door liner as claimed in any one of claims 1 to 4, wherein an inner side surface of the liner body (110) is partially outwardly recessed to form a plurality of first grooves (111), and a first boss (112) is correspondingly formed on an outer side surface of the liner body (110); the outer side surface of the lining plate body (110) is partially inwards recessed to form a plurality of second grooves (113), and second bosses (114) are correspondingly formed on the inner side surface of the lining plate body (110).

6. The sliding door liner according to claim 5, wherein a first web of reinforcing bars (115) is arranged in the first groove (111), the first web of reinforcing bars (115) being connected to both the side walls and the bottom wall of the first groove (111).

7. The sliding door liner according to claim 6, wherein the first web of reinforcing bars (115) comprises a first transverse bar (1151) and a first vertical bar (1153), the first transverse bar (1151) extending through the first groove (111) and being connected to both the side wall and the bottom wall of the first groove (111), the first vertical bar (1153) being connected to the first transverse bar (1151) and being arranged perpendicular to the first transverse bar (1151).

8. The sliding door liner as claimed in claim 5, wherein a second web of reinforcing ribs (117) is provided in the second groove (113), the second web of reinforcing ribs (117) being connected to both the side walls and the bottom wall of the second groove (113).

9. The sliding door liner as claimed in claim 8, wherein the second web of reinforcing ribs (117) comprises second transverse ribs (1171) and second vertical ribs (1173), the second vertical ribs (1173) extending through the second recess (113) and being connected to the side walls and bottom wall of the second recess (113) simultaneously, the second transverse ribs (1171) being connected to the second vertical ribs (1173) and being arranged perpendicular to the second vertical ribs (1173).

10. The sliding door liner as claimed in claim 5, wherein the surface of the first boss (112) is further provided with a third web of reinforcing ribs (119).

11. The sliding door liner as claimed in claim 5, wherein the depth of the first groove (111) in the body region (150) is greater than the depth of the first groove (111) in the side region (170); the depth of the second recess (113) in the body region (150) is greater than the depth of the second recess (113) in the side region (170).

12. An air conditioner characterized by comprising the sliding door liner as recited in any one of claims 1 to 11.

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