CN217580594U - Energy-saving wall structure for outer enclosure of frame structure building - Google Patents

Abstract

The utility model discloses an energy-conserving wall body structure of frame construction building periphery, it includes heat preservation, waterproof vapour barrier, ALC slat and connecting piece, the heat preservation adopts the dry construction to connect the lateral surface at frame construction, waterproof vapour barrier set up in the medial surface of heat preservation, the ALC slat passes through the connecting piece connect in the frame construction, so that the lateral surface of ALC slat with have between the heat preservation waterproof vapour barrier. The waterproof steam-isolating layer is positioned between the heat-insulating layer and the ALC lath, thereby effectively solving the problems of easy cracking and water seepage of the ALC lath due to the material. The heat preservation that is located the outside can be the priority leveling to the effect of leveling of plastering is avoided in the realization, and the leveling of exempting to plaster not only effectively reduces the building load, has effectively avoidd the hidden danger that the screed-coat of plastering that leads to takes place to drop because of the screed-coat of plastering is too thick moreover. Meanwhile, the construction efficiency is remarkably improved compared with the traditional post-pasting construction method.

Description

Energy-saving wall structure for outer enclosure of frame structure building

Technical Field

The utility model relates to an energy-conserving wall body structure of frame construction building outer periphery.

Background

In recent years, the nation has vigorously popularized ultra-low energy consumption and near-zero energy consumption buildings, accelerated development of novel building industrialization, and actively implemented carbon peak reaching and carbon neutralization actions in the building field.

The peripheral revetment system of the frame structure building is generally built on site by ALC laths, and then an inner/outer heat-insulating layer is constructed in a bonding and anchoring mode, so that the building efficiency is low, the site is dirty and poor, the labor consumption is large, and the building industrialization characteristic is not realized. The outer enclosure system generally considers the measures of increasing the thickness of the heat insulation layer and breaking a heat bridge so as to achieve the requirement of higher-level energy conservation. In addition, the internal heat insulation system cannot solve the problem of thermal bridge of the beam, the column and the like, and the energy conservation cannot reach the standard; however, there are many methods for forbidding external heat preservation, bonding and anchoring in provinces and cities in the country, and if ALC laths are still adopted for on-site building, the situation that no heat preservation method is available is faced. And the problems of cracking and water seepage of the ALC ribbon board due to the material of the ALC ribbon board can not be solved all the time. Therefore, a method for insulating the peripheral retaining wall body of the frame structure building, which aims at the high efficiency of the frame structure building, meets the requirement of energy conservation at present, and can effectively solve the problems of cracking and water seepage of the ALC batten, is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the above-mentioned not enough of current existence, the utility model provides an energy-conserving wall body structure of frame construction building outer enclosure.

The utility model discloses a realize through following technical scheme:

the utility model provides an energy-conserving wall body structure of frame construction building peripheral protection, its includes heat preservation, waterproof vapour barrier, ALC slat and connecting piece, the heat preservation adopts the dry construction to connect at frame construction's lateral surface, waterproof vapour barrier set up in the medial surface of heat preservation, the ALC slat passes through the connecting piece connect in the frame construction, so that the lateral surface of ALC slat with have between the heat preservation waterproof vapour barrier.

Furthermore, the outer protective energy-saving wall structure of the frame structure building further comprises a plurality of connecting parts, one end of each connecting part is connected to the frame structure, and the other end of each connecting part is connected to the end part of the heat insulation layer.

Further, frame construction building outer enclosure energy-saving wall body structure still includes metal keel, metal keel connect in frame construction, the medial surface of heat preservation passes through adapting unit connect in on the metal keel.

Furtherly, metal joist includes horizontal portion and the vertical portion that mutually perpendicular connects, horizontal portion laminating support lean on and connect in the medial surface of heat preservation, vertical portion is followed and is close to the direction of ALC slat extends and imbeds to adjacent two in the piece of ALC slat.

Further, the cross-sectional shape of the metal keel is L-shaped or T-shaped.

Further, the adapting unit includes at least one anchor disc and at least one stock, the anchor disc support lean on in the lateral surface of heat preservation, the one end of stock connect in the anchor disc, the other end of stock pass the heat preservation and with the metal keel is connected.

Furthermore, the frame construction building outer periphery protects energy-conserving wall structure still includes to wearing the mounting, to wearing the mounting including adapter sleeve and connecting screw, adapter sleeve pre-buries in the heat preservation, connecting screw's one end connect in adapter sleeve, connecting screw's the other end pass waterproof steam proof layer and with the ALC slat is connected.

Furthermore, the outer protective energy-saving wall body structure of the frame structure building further comprises a finishing layer, wherein the finishing layer is connected to the outer side surface of the heat insulation layer and/or the inner side surface of the ALC slat;

and/or, the frame structure building outer enclosure energy-saving wall structure further comprises a bracket, and the heat-insulating layer is connected to the bracket.

Furthermore, at least one reinforcing component is preset in the heat-insulating layer;

and/or the heat-insulating layer is made of A-grade fireproof heat-insulating material.

Further, the waterproof and steam-proof layer comprises a flexible waterproof cushion layer and/or a waterproof and steam-proof film;

and/or the insulating layer is made of a silicon graphene insulating material.

The beneficial effects of the utility model reside in that:

the utility model discloses an energy-conserving wall body structure of frame construction building periphery protection sets up waterproof vapour barrier, the inboard ALC slat of being under construction again through erectting heat preservation earlier, centre for waterproof vapour barrier is located between heat preservation and the ALC slat, thereby effectively solves fracture, the infiltration problem that the ALC slat easily takes place because of its material reason. The heat preservation that is located the outside can be the priority leveling to the effect of leveling of plastering is avoided in the realization, and the leveling of exempting to plaster not only effectively reduces the building load, has effectively avoidd the hidden danger that the screed-coat of plastering that leads to takes place to drop because of the screed-coat of plastering is too thick moreover. Meanwhile, the construction efficiency is remarkably improved compared with the traditional post-pasting construction method.

Drawings

Fig. 1 is a schematic view of an internal structure of an energy-saving wall structure of a frame structure building enclosure according to embodiment 1 of the present invention.

Fig. 2 is an internal structure diagram of an energy-saving wall structure of an outer enclosure of a frame structure building according to embodiment 2 of the present invention.

Fig. 3 is a schematic view of a part of the internal structure of the energy-saving wall structure of the outer periphery of the frame structure building according to embodiment 2 of the present invention.

Fig. 4 is a partially enlarged schematic view of the energy-saving wall structure of the outer periphery of the frame structure building according to embodiment 2 of the present invention.

Description of reference numerals:

heat insulation layer 1

Reinforcing member 11

Waterproof vapor barrier 2

ALC lath 3

Connecting part 4

Anchor disc 41

Anchor rod 42

Metal keel 5

Transverse part 51

Vertical part 52

Opposite-penetrating fixing piece 6

Connecting sleeve 61

Connecting screw 62

Finishing layer 7

Bracket 8

Frame structure 10

Detailed Description

The following description of the embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments in which the invention may be practiced.

Example 1

As shown in fig. 1, the embodiment discloses an energy-saving wall structure for the outer enclosure of a frame structure building, which comprises an insulating layer 1, a waterproof steam-isolating layer 2, ALC strips 3 and connecting pieces, wherein the insulating layer 1 is connected to the outer side surface of the frame structure 10 by dry construction, the waterproof steam-isolating layer 2 is arranged on the inner side surface of the insulating layer 1, and the ALC strips 3 are connected to the inside of the frame structure 10 by the connecting pieces, so that the waterproof steam-isolating layer 2 is arranged between the outer side surface of the ALC strips 3 and the insulating layer 1.

The dry construction is adopted, the heat insulation layer 1 is firstly erected, the heat insulation layer 1 is connected to the outer side face of the frame structure 10, the middle of the heat insulation layer is provided with the waterproof steam-insulating layer 2, and then the ALC batten 3 on the inner side is constructed. The ALC ribbon boards 3 are installed and connected in the frame structure 10 through the connecting pieces to form a base layer wall body, the installation strength is high, and the installation and the connection are convenient. Meanwhile, the waterproof steam-proof layer 2 is positioned between the heat-insulating layer 1 and the ALC ribbon board 3, thereby effectively solving the problems of easy cracking and water seepage of the ALC ribbon board 3 due to the material, and greatly improving the safety and stability of the external protective energy-saving wall body structure of the frame structure building.

Through erectting installation heat preservation 1 earlier, the heat preservation 1 that is located the outside can be the priority leveling, effectively promotes outer facade roughness straightness that hangs down to can realize exempting the effect of plastering and making level, avoid plastering and make level and not only effectively reduce building load, effectively avoid moreover because of plastering the hidden danger that the screed-coat that plasters that the screed-coat is too thick and lead to takes place to drop. Meanwhile, the construction efficiency is remarkably improved compared with the traditional post-pasting construction method.

The material of the insulating layer 1 can be A-grade fireproof insulating material. Preferably, the material of the heat-insulating layer 1 is an organic-inorganic composite A-grade fireproof heat-insulating material. The heat-insulating property of the organic-inorganic composite A-grade fireproof heat-insulating material can ensure that the strength meets the standard requirements of related products under the condition of the heat-insulating material with the same thickness, the fireproof property reaches A2 grade, and an inorganic plate is not required to be compounded to enhance the strength and the fireproof property.

The material of the heat insulation layer 1 can be silicon graphene heat insulation material. The heat preservation performance and the fireproof performance of the external protective energy-saving wall body structure of the frame structure building are effectively guaranteed, and the safety and the stability of the external protective energy-saving wall body structure of the frame structure building are greatly improved.

The waterproof steam-proof layer 2 can be a flexible waterproof cushion layer or a waterproof steam-proof film, and the waterproof steam-proof layer 2 can also comprise a flexible waterproof cushion layer and/or a waterproof steam-proof film. The waterproof steam-proof layer 2 has a good waterproof steam-permeable function through the flexible waterproof cushion layer and/or the waterproof steam-proof film, so that the ALC slat 3 is protected, and the problems of cracking and water seepage of the ALC slat 3 due to material reasons are effectively solved.

In this embodiment, the energy-saving wall structure of the outer periphery of the frame structure building further comprises a plurality of connecting members 4, one end of each connecting member 4 is connected to the frame structure 10, and the other end of each connecting member 4 is connected to the end of the insulating layer 1. The heat preservation layer 1 is arranged on the outer side surface of the frame structure 10, and the upper end part and the lower end part of the heat preservation layer 1 are directly connected onto the frame structure 10 through the connecting part 4, so that the heat preservation layer 1 and the frame structure 10 are installed. The heat preservation layer 1 is directly connected to the outer side surface of the frame structure 10 through the connecting part 4, so that the mounting strength is high, and the mounting and the connection are convenient.

At least one reinforcing component 11 is preset in the heat-insulating layer 1. Through setting up reinforcing part 11 in heat preservation 1, can effectively heat preservation 1's self structural strength, improved the safety and stability of frame construction building outer protective energy-saving wall body structure. The reinforcing member 11 may be a metal reinforcing mesh and/or a hollow metal square tube. The connecting sleeve 61 may be connected with the reinforcing member 11. The number of the reinforcing members 11 may not be limited.

The energy-saving wall structure for the outer periphery of the frame structure building further comprises a through fixing piece 6, the through fixing piece 6 comprises a connecting sleeve 61 and a connecting screw rod 62, the connecting sleeve 61 is embedded in the heat insulation layer 1 in advance, one end of the connecting screw rod 62 is connected to the connecting sleeve 61, and the other end of the connecting screw rod 62 penetrates through the waterproof steam-proof layer 2 and is connected with the ALC ribbon board 3. Connecting sleeve 61 is pre-buried in heat preservation 1 and is connected with heat preservation 1, correspond the position of connecting sleeve 61 and carry out the trompil in ALC slat 3, connecting screw 62 will pass trompil and waterproof vapour barrier 2 will connect the connecting sleeve 61 in heat preservation 1, connecting screw 62 also connects simultaneously on ALC slat 3, thereby realize heat preservation 1, waterproof vapour barrier 2, ALC slat 3 links together, the firmness of connecting between each layer of the outer energy-conserving wall body structure of frame construction building peripheral protection has further been strengthened. Meanwhile, the connecting sleeve 61 and the connecting screw rod 62 are in threaded connection, so that the installation and the connection are very convenient.

In this embodiment, the energy-saving wall structure of the outer periphery of the frame structure building further includes a finishing layer 7, and the finishing layer 7 is connected to the outer side surface of the insulating layer 1 and/or the inner side surface of the ALC slat 3. The heat-insulating layer 1 and/or the ALC lath 3 can be protected by the plastering layer 7, and the safety and stability of the external protective energy-saving wall structure of the frame structure building are improved. The plastering layer 7 comprises anti-crack mortar and alkali-resistant glass fiber gridding cloth, the anti-crack mortar is connected to the outer side surface of the insulating layer 1 and/or the inner side surface of the ALC lath 3, and the alkali-resistant glass fiber gridding cloth is arranged in the anti-crack mortar. The anti-crack mortar is used for leveling and protecting, and the alkali-resistant glass fiber grids are arranged in the anti-crack mortar to enhance the overall structural firmness of the plastering layer 7.

The outer protective energy-saving wall structure of the frame structure building further comprises a bracket 8, and the heat-insulating layer 1 is connected to the bracket 8. The bracket 8 is arranged on the end face of the heat-insulating layer 1 in a lining manner and provides acting force for the heat-insulating layer 1, so that the heat-insulating layer 1 has supporting and hanging effects, the structural connection is firm, and the anti-falling safety performance of the heat-insulating layer 1 is further improved; and is convenient for construction. Wherein, the bracket 8 is provided with a structure protruding upwards and/or downwards and embedded into the end part of the heat-insulating layer 1, so that the connection firmness of the bracket 8 and the heat-insulating layer 1 is further improved.

The embodiment also discloses a construction method of the frame structure building outer enclosure energy-saving wall structure, the construction method of the frame structure building outer enclosure energy-saving wall structure is used for installing and arranging the frame structure building outer enclosure energy-saving wall structure on a frame structure 10, and the construction method of the frame structure building outer enclosure energy-saving wall structure comprises the following steps: s1, hoisting and erecting a heat-insulating layer 1, and connecting the heat-insulating layer 1 to the outer side surface of a frame structure 10, wherein a waterproof steam-insulating layer 2 is arranged on the inner side surface of the heat-insulating layer 1; s2, building the ALC laths 3 on the inner side surface of the heat insulation layer 1, and connecting the ALC laths 3 into the frame structure 10 through connecting pieces, so that a waterproof steam-insulating layer 2 is arranged between the outer side surface of the ALC laths 3 and the inner side surface of the heat insulation layer 1.

The heat-insulating layer 1 is erected and installed on the outer side face of the frame structure 10 by dry construction, the waterproof steam-insulating layer 2 is arranged on the inner side face of the heat-insulating layer 1, and then the ALC battens 3 are installed and connected in the frame structure 10 through the connecting pieces to form a base wall. Therefore, the waterproof and steam-proof layer 2 is positioned between the insulating layer 1 and the ALC lath 3, and the problems of easy cracking and water seepage of the ALC lath 3 due to the material are effectively solved; and effectively promote the straightness that hangs down of outer facade roughness to can realize avoiding the effect of plastering and making level, avoid plastering and making level not only effectively reduce the building load, effectively avoid moreover because of plastering the hidden danger that the screed-coat that plasters that the screed-coat leads to takes place to drop. Meanwhile, the construction efficiency is remarkably improved compared with the traditional post-pasting construction method.

The step S1 specifically includes the following steps: s13, hoisting and erecting the heat-insulating layer 1, and setting temporary fixing measures to temporarily fix the heat-insulating layer 1; s14, the heat insulation layer 1 is directly connected to the outer side surface of the frame structure 10 through the connecting component 4. In this embodiment, the insulating layer 1 is directly connected to the outer side surface of the frame structure 10 through the connecting member 4, so that the construction efficiency is high and the strength is high.

Wherein, before the heat-insulating layer 1 is hoisted and erected, the waterproof steam-insulating layer 2 can be arranged on the inner side surface of the heat-insulating layer 1. After the heat-insulating layer 1 is hoisted and erected, the waterproof and steam-insulating layer 2 can be arranged on the inner side surface of the heat-insulating layer 1. The waterproof steam-proof layer 2 can be arranged on the inner side surface of the heat-insulating layer 1 before or after the heat-insulating layer 1 is installed, and the installation and the connection are very convenient.

The step S2 specifically includes the following steps: s21, drilling holes in the ALC ribbon board 3 at positions corresponding to the connecting sleeves 61, and enabling the connecting screw rods 62 to penetrate through the holes in the ALC ribbon board 3 and be connected to the connecting sleeves 61; s22, building the ALC laths 3, and plugging joints of the ALC laths 3; and S23, plugging the open holes of the ALC ribbon 3.

After insulating layer 1 and waterproof steam proof layer 2 are all installed fixedly, will carry out erection joint to ALC slat 3, ALC slat 3 passes through connecting piece lug connection in frame construction 10, and is connected with insulating layer 1 through connecting screw 62 to strengthen the firmness of frame construction building outer periphery and protected energy-conserving wall structure each interstation connection, improved the safety and stability of frame construction building outer periphery and protected energy-conserving wall structure greatly.

The following steps are also included after step S2: and S3, performing outer side plastering and inner side plastering. Thereby have the guard action to the outside and inboard through plastering, safety and stability is high.

Example 2

As shown in fig. 2, 3 and 4, the frame structure building outer enclosure energy-saving wall structure and the construction method of the frame structure building outer enclosure energy-saving wall structure of the embodiment 2 are not repeated as the same as those of the embodiment 1, and only the differences will be described. The energy-saving wall structure of the outer enclosure of the frame structure building in the embodiment 1 does not include the metal keel. In this embodiment 2, the energy-saving wall structure of the exterior wall of the frame structure building further includes a metal keel 5, the metal keel 5 is connected to the frame structure 10, and the inner side surface of the insulating layer 1 is connected to the metal keel 5 through the connecting component 4.

Metal joist 5 will install earlier and set up on frame construction 10, later heat preservation 1 will be connected on metal joist 5 through adapting unit 4 to realize that 1 installation of heat preservation sets up the lateral surface at frame construction 10, be connected heat preservation 1 with metal joist 5, strengthened heat preservation 1's joint strength greatly, effectively avoided 1 emergence obscission of heat preservation, improved the safety and stability nature of frame construction building outer enclosure energy-saving wall body structure greatly.

The connecting component 4 comprises at least one anchor disc 41 and at least one anchor rod 42, the anchor disc 41 is abutted against the outer side face of the heat-insulating layer 1, one end of the anchor rod 42 is connected to the anchor disc 41, and the other end of the anchor rod 42 penetrates through the heat-insulating layer 1 and is connected with the metal keel 5. The connecting part 4 abuts against the outer side face of the heat-insulating layer 1 in a fitting manner through the anchor disc 41, and the connecting part 4 is connected with the metal keel 5 through the anchor rod 42, so that the heat-insulating layer 1 is tightly pressed between the anchor disc 41 and the metal keel 5, the connecting strength of the heat-insulating layer 1 and the metal keel 5 is further enhanced, and the phenomenon that the heat-insulating layer 1 falls off is effectively avoided; meanwhile, the structure is simple, and the installation is very convenient. Wherein the anchor disc 41 and the anchor rod 42 are integrally formed.

The metal keel 5 comprises a transverse part 51 and a vertical part 52 which are connected in a mutually perpendicular mode, the transverse part 51 is attached to abut against and is connected to the inner side face of the heat insulation layer 1, and the vertical part 52 extends in the direction close to the ALC battens 3 and is embedded into the abutted seams of the two adjacent ALC battens 3. The two connecting members 4 penetrate the insulating layer 1 and are connected to both ends of the transverse portion 51, respectively, and the connecting strength is high. Meanwhile, a plurality of ALC battens 3 are spliced with each other and are installed in the frame structure 10 to form a base wall, and the vertical part 52 is embedded into the abutted seams of two adjacent ALC battens 3, so that the abutted seams of two adjacent ALC battens 3 are effectively sealed.

In this embodiment 2, the number of the horizontal portions 51 and the vertical portions 52 is one, and the end portions of the vertical portions 52 are connected to the middle position of the horizontal portions 51 toward the ALC lath 3, so that the cross-sectional shape of the metal keel 5 is "T" shaped. Of course, in other embodiments, the end of the vertical portion 52 may be connected with the end of the horizontal portion 51, so that the shape between the horizontal portion 51 and the vertical portion 52 is "L" shaped. The number of the transverse parts 51 and the vertical parts 52 can be two, the two transverse parts 51 and the two vertical parts 52 are combined to form two "L" shaped connecting structures, and the vertical parts 52 in the two "L" shaped connecting structures are embedded into the seams of the two adjacent ALC slats 3.

In the construction method of the energy-saving wall structure for the outer periphery of the frame structure building in this embodiment 2, the step S1 specifically includes the following steps: and S11, connecting the metal keel 5 with the frame structure 10. S12, hoisting and erecting the heat-insulating layer 1, and connecting the inner side surface of the heat-insulating layer 1 to the metal keel 5 through the connecting part 4. The metal keel 5 is installed earlier and is set up on frame construction 10, and later heat preservation 1 erects and installs to connecting on metal keel 5 for heat preservation 1 passes through the installation of metal keel 5 and sets up on frame construction 10, has effectively avoided heat preservation 1 to take place the obscission, has improved the safety and stability that frame construction building outer protects energy-conserving wall structure greatly.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention, therefore, all equivalent variations of the present invention are intended to be covered by the present invention.

Claims (10)

1. The utility model provides a frame construction building periphery protects energy-conserving wall body structure, its characterized in that, it includes heat preservation, waterproof vapour barrier, ALC slat and connecting piece, the heat preservation adopts the dry construction to connect the lateral surface at frame construction, waterproof vapour barrier set up in the medial surface of heat preservation, the ALC slat passes through the connecting piece connect in the frame construction, so that the lateral surface of ALC slat with have between the heat preservation waterproof vapour barrier.

2. The frame structure building enclosure energy saving wall structure of claim 1, further comprising a plurality of connecting members, one end of the connecting members being connected to the frame structure, the other end of the connecting members being connected to the end of the insulating layer.

3. The frame structure building enclosure energy saving wall structure of claim 2, wherein the frame structure building enclosure energy saving wall structure further comprises a metal keel, the metal keel is connected to the frame structure, and the inner side surface of the insulation layer is connected to the metal keel through the connecting member.

4. The framing structure building external enclosure energy-saving wall structure as claimed in claim 3, wherein the metal keel comprises a transverse portion and a vertical portion which are vertically connected with each other, the transverse portion is abutted against and connected with the inner side surface of the insulating layer, and the vertical portion extends in the direction close to the ALC laths and is embedded into the abutted seam of the two adjacent ALC laths.

5. A frame structure building enclosure energy saving wall structure as claimed in claim 4, wherein the cross-sectional shape of the metal keel is "L" or "T" shaped.

6. A frame structure building outer skin energy saving wall structure according to claim 3, wherein the connecting member comprises at least one anchor plate and at least one anchor rod, the anchor plate is abutted against the outer side surface of the heat insulating layer, one end of the anchor rod is connected to the anchor plate, and the other end of the anchor rod passes through the heat insulating layer and is connected with the metal keel.

7. The framing structure building enclosure energy-saving wall structure of claim 1, wherein the framing structure building enclosure energy-saving wall structure further comprises a through fixing member, the through fixing member comprises a connecting sleeve and a connecting screw rod, the connecting sleeve is embedded in the heat-insulating layer, one end of the connecting screw rod is connected to the connecting sleeve, and the other end of the connecting screw rod passes through the waterproof and steam-proof layer and is connected with the ALC slat.

8. The framing structure building external skin energy-saving wall structure as claimed in claim 1, wherein the framing structure building external skin energy-saving wall structure further comprises a rendering coat, the rendering coat is connected to the outer side surface of the insulating layer and/or the inner side surface of the ALC slat;

and/or the frame structure building outer periphery energy-saving wall structure further comprises a bracket, and the heat-insulating layer is connected to the bracket.

9. The energy-saving wall structure with the frame structure and the building outer periphery as claimed in claim 1, wherein at least one reinforcing component is preset in the heat-insulating layer;

and/or the heat-insulating layer is made of A-grade fireproof heat-insulating material.

10. A frame structure building surround energy saving wall construction of claim 1, characterized in that the waterproof vapour barrier comprises a flexible waterproof cushion and/or waterproof vapour barrier membrane;

and/or the insulating layer is made of a silicon graphene insulating material.

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