CN211114296U - Double-interlocking enclosure curtain wall panel and curtain wall - Google Patents

Abstract

The embodiment of the utility model discloses two interlocking are enclosed curtain wall panel and curtain, and this two interlocking are enclosed curtain wall panel and are included: the wall comprises an inner wall plate, an outer wall plate and a core material, wherein a first male port is formed at the front end of the inner wall plate, and a first female port is formed at the opposite end of the inner wall plate; the inner wall plate is provided with a first step at the end, a first bulge at the opposite end, and the inner side edge of the first bulge is flush with the surface of the inner wall plate; the end of the external wall panel is provided with a second male port; the opposite end is provided with a second female port; the opposite end of side fascia is provided with the second arch, and the bellied outside limit of second is parallel and level with the surface of side fascia. The embodiment of the utility model provides a two interlocking enclosure curtain wall panels and curtain can guarantee the surface smoothness of curtain.

Description

Double-interlocking enclosure curtain wall panel and curtain wall

Technical Field

The embodiment of the application relates to the field of building outer enclosure walls, in particular to a double-interlocking enclosure curtain wall panel and a curtain wall.

Background

The curtain wall is a light wall body with decorative effect commonly used in factory buildings and prefabricated house buildings, and has the functions of heat preservation, heat insulation and decoration.

For example, chinese patent publication No. CN205476227U discloses a metal-faced composite wallboard, which includes a first groove, wherein the left side of the first groove is a left support portion, the right side of the first groove is a right support portion, and the right support portion is a main pressure bearing point.

However, in the application process of the composite wall panel, due to the gravity action of the upper composite wall panel, the left support part of the lower composite wall panel is easy to slide outwards (left side) and dislocate, which affects the surface flatness of the curtain wall.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the embodiment of the application provides a double-interlocking enclosure curtain wall panel and a curtain wall, and is used for solving the problem of poor surface flatness of the curtain wall.

The embodiment of the application provides a two interlocking envelope curtain wall panels, include: the composite wall comprises an inner wall plate, an outer wall plate and a core material filled between the inner wall plate and the outer wall plate, wherein a first male port is formed at the local end of the inner wall plate, and a first female port is formed at the opposite end of the inner wall plate; the inner wall plate is characterized in that a first step is arranged at the end of the inner wall plate, a first bulge is arranged at the opposite end of the inner wall plate, and the inner side edge of the first bulge is flush with the surface of the inner wall plate; the second male opening is formed in the end of the external wall panel; a second female port is formed at the opposite end of the external wall panel; the opposite end of the external wall panel is provided with a second bulge, and the outer side edge of the second bulge is flush with the surface of the external wall panel.

Optionally, for two assembled enclosure curtain wall panels: the outer side edge of the second male opening of one enclosure curtain wall panel is attached to the inner side edge of the second protrusion of the other enclosure curtain wall panel; or a cavity is arranged between the second male opening of one enclosure curtain wall panel and the second bulge of the other enclosure curtain wall panel, and the cross section of the cavity is approximately in a right-angle trapezoid shape.

Optionally, the outer side edge of the second male opening comprises two L-shaped steps, and a nailing groove is arranged on the vertical edge of one L-shaped step.

Optionally, the top of the second protrusion of one enclosure curtain wall panel is attached to the transverse edge of the second L type step of the other enclosure curtain wall panel, or a gap is formed between the top of the second protrusion of one enclosure curtain wall panel and the transverse edge of the second L type step of the other enclosure curtain wall panel.

Optionally, the cross section of the first female port is U-shaped or isosceles trapezoid; the cross-sectional shape of the first male port is the same as the cross-sectional shape of the first female port.

Optionally, the position of at least one of the following of the enclosure curtain wall panel is a folded edge: the end head of the inner wall plate is arranged at the end head of the inner wall plate; the opposite end of the inner wallboard is terminated; the end socket of the end of the external wall panel; and the end heads of the opposite ends of the external wall panels.

Optionally, a third female port is formed between the first male port and the second male port, and a third male port matched with the third female port in shape is formed between the first female port and the second female port.

Optionally, a sealing rubber strip is arranged between the first male port and the first female port; and/or a sealing rubber strip is arranged between the second male port and the second female port.

Optionally, the core material is bonded between the inner wall panel and the outer wall panel; the core material is rock wool and polyurethane PU, or the core material is rock wool.

The embodiment of the application also provides a curtain wall, which comprises the double-interlocking envelope curtain wall panel.

The application provides a two interlocking enclosure curtain wall panels, through set up two sets of public mouthful, female mouthful structures in grafting department, not only realize the horizontal two self-locking function of enclosure curtain wall panel grafting department, and increased the compressive capacity of enclosure curtain wall panel grafting department to increased the joint strength of enclosure curtain wall panel grafting department, avoided the problem that the surface smoothness is poor that slides and the dislocation of grafting department part cause the curtain.

Simultaneously, through setting up first step and first arch, first arch plays the hindrance effect to the lateral deformation of first public mouth, can prevent that first public mouth from sliding, misplacing to the left side because of the pressurized, further guarantees the surface smoothness of curtain.

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 cross-sectional view of a double-interlocking envelope curtain wall panel provided in an embodiment of the present application;

FIG. 2 is a schematic cross-sectional view of a splicing part of double-interlocking enclosure curtain wall panels (up and down or left and right) provided by the embodiment of the application;

fig. 3 is a schematic diagram illustrating a separated state of the plug in the embodiment shown in fig. 2.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

As shown in fig. 1 to fig. 3, an embodiment of the present application provides a double-interlocking envelope curtain wall panel (hereinafter, envelope curtain wall panel for short), which mainly includes: the core material comprises an inner wall panel 1, an outer wall panel 2 and a core material 3 filled between the inner wall panel 1 and the outer wall panel 2, wherein the core material 3 is not shown in fig. 1.

The inner wall plate 1 and the outer wall plate 2 can be stainless steel plates, aluminum alloy plates and the like; the core material 3 can be rock wool and polyurethane (PU for short) or pure rock wool. By adopting the core material, the sound insulation performance, the fire resistance and the heat insulation performance of the curtain wall can be improved.

Optionally, the inner wall plate 1 and the outer wall plate 2 can be bonded and fixed with the middle core material 3 through an adhesive, so that the structures of the inner wall plate 1, the outer wall plate 2 and the core material 3 are integrated, and the strength of the whole envelope curtain wall panel is increased.

As can be seen from fig. 2 and 3, the inner wall panel 1 is provided at its base end (the upper end of the lower one in fig. 3) with a first male opening 11 formed by bending, and at its opposite end (the lower end of the upper one in fig. 3) with a first female opening 12 formed by bending and matching the shape and size of the first male opening 11. Fig. 2 and 3 show the schematic structural diagrams of the inner and outer enclosure curtain wall panels at the splicing position of the upper and lower enclosure curtain wall panels. As can be seen from fig. 2 and 3, when the two enclosure curtain wall panels are inserted together up and down, the first male port 11 is inserted in the first female port 12, and the first male port 11 forms a main stress point in the vertical direction and can be used for supporting part of the gravity of the enclosure curtain wall panel on the upper portion.

In one embodiment, the first female port 12 is substantially U-shaped in cross-section, and the first male port 11 has a cross-sectional shape that is the same as the cross-sectional shape of the first female port 12, i.e., is also substantially U-shaped. Through the structural arrangement of the U shape and the same cross section shape, the contact area of the first male port 11 and the first female port 12 is increased, and the probability of deformation of the first male port 11 due to compression can be reduced; and can increase the horizontal frictional force between first public mouth 11 and the first female mouth 12, increase the interlocking ability between two blocks of enclosure curtain wall panels, improve the wind-resistant stability of curtain.

In another embodiment, the cross section of the first female port 12 is substantially isosceles trapezoid, and the cross section of the first male port 11 is the same as the cross section of the first female port 12, i.e. also substantially isosceles trapezoid. The probability of deformation of the first male port 11 due to compression can also be reduced; and can increase the horizontal frictional force between first public mouth 11 and the first female mouth 12, increase the interlocking ability between two blocks of enclosure curtain wall panels, improve the wind-resistant stability of curtain.

As can be seen from fig. 2 and 3, the first step 13 is provided at the end of the inner wall panel 1, and the first step 13 includes a vertical side in the vertical direction and a horizontal side in the horizontal direction according to the direction shown in fig. 3. The vertical side of the first step 13 constitutes the inner side (i.e., the left side in fig. 3) of the first male notch 11. The opposite end of the inner wall panel 1 is provided with a first protrusion 14 matching the shape and size of the first step 13, the inner side edge (i.e. the side on the left side in fig. 3) of the first protrusion 14 is flush with the surface of the inner wall panel 1, and the outer side edge (i.e. the side on the right side in fig. 3) of the first protrusion 14 constitutes the inner side edge (i.e. the side on the left side in fig. 3) of the first female port 12.

By arranging the first step 13 and the first protrusion 14, the first step 13 mainly provides a containing place for the first protrusion 14; meanwhile, the first bulge 14 has a blocking effect on the transverse deformation of the first male opening 11, and can prevent the first bulge 14 from sliding and dislocating to the left side due to compression, so that the surface flatness of the curtain wall is ensured.

In the above embodiments, it is mentioned that the cross section of the first male opening 11 and the first female opening 12 is substantially isosceles trapezoid, i.e. the inner side (the left side) of the first male opening 11 and the first female opening 12 in fig. 3 is similar to the shape of the vertical lines, and the arrangement of the shapes is convenient for realizing the splicing of the upper and the lower enclosing curtain wall panels.

Because the lower enclosure curtain wall panel is fixed on the purline when the upper and lower enclosure curtain wall panels are spliced and assembled to form the curtain wall, the lower end of the upper enclosure curtain wall panel can be moved to the splicing part, and the upper end of the upper enclosure curtain wall panel can incline towards the outer side (the right side in figure 2 or figure 3) of the front body due to hoisting, and the splicing of the two enclosure curtain wall panels is facilitated through the inclined bevel edge structural design similar to the vertical and horizontal directions, so that the installation efficiency of the enclosure curtain wall panels is further improved.

As can be seen from fig. 2 and 3, the first end (the upper end of the lower external wall panel in fig. 3) of the external wall panel 2 is provided with a second male opening 21 formed by bending, and the second end (the lower end of the upper external wall panel in fig. 3) is provided with a second female opening 22 formed by bending. As can be seen from fig. 2 and 3, when the two enclosure curtain wall panels are inserted together up and down, the second male opening 21 is inserted in the second female opening 22, and the second male opening 21 forms another main stress point in the vertical direction, which is used for supporting part of the gravity of the enclosure curtain wall panel on the upper portion.

In the embodiment shown in fig. 3, the cross section of the upper portion of the second male opening 21 is substantially rectangular, and the cross section of the upper portion of the second female opening 22 is substantially rectangular, which is mainly for the convenience of manufacturing the external wall panel 2, because the external wall panel 2 shown in fig. 1 to 3 is usually formed by bending the edge portion of a flat panel.

The outer side edge of the second male opening 21 of the external wall panel 2 comprises two L-shaped steps 211, a nailing groove 2111 is arranged on the vertical edge of a second L-shaped step on the upper part shown in fig. 3, and nails (not shown) on the purlines of the external wall of the house are driven into the nailing groove 2111 (leftwards) for fixing the whole enclosure curtain wall panel on the purlines of the external wall (not shown).

Because the material of exterior wallboard 2 generally is the metal, through setting up above-mentioned nailing recess 2111 and two L type steps 211, increased a plurality of buckling department on exterior wallboard 2, can further increase the stress strength of enclosure curtain wall panel grafting department.

The opposite end of the external wall panel 2 (the lower end of the upper external wall panel in fig. 3) is provided with a second protrusion 23, the outer side edge of the second protrusion 23 is flush with the surface of the external wall panel 2, and the inner side edge of the second protrusion 23 forms the outer side edge of the second female port 22.

Through setting up above-mentioned second arch 23, and the protruding 23 downwardly extending of second one section distance, can play the effect of sheltering from to the grafting department of two piece upper and lower enclosure curtain wall panels, can effectively reduce rainwater, moisture, wind etc. and get into indoorly to reduce indoor outer cold and hot exchange, improve the wholeness of curtain, improve the efficiency of building.

The application provides an above-mentioned two interlocking envelope curtain wall panels sets up two sets of public mouthful, female mouthful structure through the grafting department at two sides envelope curtain wall panels, not only realizes the horizontal two auto-lock functions of envelope curtain wall panel grafting department, and has increased the compressive capacity of envelope curtain wall panel grafting department to increase the joint strength of envelope curtain wall panel grafting department, avoided the problem that the surface smoothness is poor that slides and the dislocation of grafting department part cause the curtain.

For the above mentioned double self-locking function, according to the directions shown in fig. 2 and fig. 3, i.e. the left and right directions of an upper enclosure curtain wall panel are limited by two male ports of a lower enclosure curtain wall panel, so that the left and right displacement cannot occur. The left side of the enclosure curtain wall panel is generally indoor, the right side of the enclosure curtain wall panel is outdoor, and the wind pressure resistance of the enclosure curtain wall panel is improved through the double self-locking function.

Simultaneously, through setting up above-mentioned first step 13 and first arch 14, first arch 14 plays the hindrance effect to the lateral deformation of first public mouth 11, can prevent that first public mouth 11 from slipping, misplacing to the left side because of the pressurized, further guarantees the surface smoothness of curtain.

In addition, through setting up second arch 23, can play the effect of sheltering from to the grafting department of enclosing the curtain panel, can effectively reduce rainwater, moisture, wind etc. and get into indoorly to reduce indoor outer cold and hot exchange, improve the wholeness of curtain, improve the efficiency of building.

The application provides a during concatenation of two interlocking enclosure curtain wall panels, to an enclosure curtain wall panel, only need fix the position of this enclosure curtain wall panel upper portion nailing recess 2111 on the purlin through fixed modes such as nailing, because this enclosure curtain wall panel lower part is pegged graft with another enclosure curtain wall panel and is realized dual auto-lock, its concatenation process is simple and convenient and the time is short, at steel construction building industrialization production in-process, improve the installation effectiveness, can effectively shorten construction cycle.

In the practical application process, the sealing rubber strips can be arranged between the first male port 11 and the first female port 12 and/or between the second male port 21 and the second female port 22 in each embodiment, so that after the male port and the female port are plugged, the friction force of a contact surface is increased, the double self-locking capability of the enclosure curtain wall panel is further improved, the integral wind resistance of the enclosure curtain wall panel can be improved, and meanwhile, the air tightness and the water tightness of the plugging position of the male port and the female port are also improved.

As can be seen from fig. 3, the upper end of the inner wall panel 1 may be provided with an upper folded edge, which is called the upper end of the inner wall panel 1, specifically the outer side (right side in fig. 3) of the first male opening 11. In addition, the lower end of the inner wall panel 1 may be provided with a folded-down heavy edge, i.e., the outer side edge and the top (the right side edge and the top in fig. 3) of the first female port 12. Because the material of interior wallboard 1 generally is the metal, through the structure setting on the heavy limit of above-mentioned book, for the enclosure curtain wall panel that does not have the heavy limit of book, can increase the resistance to deformation of enclosure curtain wall panel grafting department, further increased the joint strength of enclosure curtain wall panel grafting department, avoided because of the poor problem of surface flatness that first public mouthful 11 pressurized deformation caused.

Similar to the principle of providing the folded edge on the inner wall panel 1, the upper folded edge (not shown) may be provided at the upper end of the outer wall panel 2; and a downward-folded heavy edge (not shown) can be arranged at the lower end of the outer wall plate 2, so that the connection strength of the splicing part of the enclosure curtain wall panel is further increased.

As can be seen in fig. 2, between the outer side of the second male opening 21 of the lower one of the containment curtain wall panels and the second projection 23 of the upper one of the containment curtain wall panels, there is a cavity 24, the cross section of which cavity 24 is substantially in the form of a right trapezoid. Through the arrangement, as can be seen from fig. 2, the distance between the inner wall plate 1 and the outer wall plate 2 is reduced, the overhanging length of a nail driven leftwards by the nailing groove 2111 is reduced, the construction is facilitated, and the connection strength of the enclosure curtain wall panel and the purline can be improved. The overhanging length of the nail mentioned here, i.e. the length of the nail located inside the panel of the enclosure curtain wall, the part of the nail on the left side of the inner wall panel 1 can be driven inside the purlin.

Of course, in other embodiments, the outer side edge of the second male mouth 21 of the lower one of the containment curtain wall panels may be completely flush with the second projection 23 of the upper one of the containment curtain wall panels, i.e. without leaving the cavity 24 as shown in fig. 2. This embodiment is equivalent to increasing the contact area between the second male port 21 and the second female port 22, and not only can the probability of deformation of the second male port 21 due to pressure be reduced; and the friction force between the second male opening 21 and the second female opening 22 can be increased, the interlocking capability between two enclosure curtain wall panels is increased, and the wind resistance stability of the curtain wall is improved.

In the embodiment shown in fig. 2, the top (the lowest part in the figure) of the second protrusion 23 is attached to the transverse edge of the second L-shaped step 211 at the lower part, so that rainwater, moisture, wind and the like can be effectively prevented from entering the room, heat exchange between the indoor space and the outdoor space can be reduced, the integrity of the curtain wall is improved, and the energy efficiency of the building is improved.

Of course, in other embodiments, there may be a gap between the top of the second protrusion 24 and the lateral edge of the lower second L-shaped step 211, and the gap forms a horizontal decorative seam of the curtain wall, so as to decorate and beautify the curtain wall.

Of course, in the practical application process, the distance between the top of the second protrusion 23 and the transverse edge of one second L-shaped step 211 at the lower part can be adjusted according to the practical requirement of the curtain wall, so that the curtain wall is provided with wide seams, narrow seams, seamless decoration effects and the like.

Alternatively, in the embodiment shown in fig. 2 and 3, the transverse edge of the second L-shaped step 211 at the lower part can be provided with a downward sloping slope, namely a shape similar to the Chinese character stroke 'right-falling', so that rainwater and pollutant residues in the decorative seams can be prevented, and the cleaning cost of the curtain wall is reduced.

As can be seen from fig. 2 and 3, a third female port (not numbered) is formed between the first male port 11 and the second male port 21, and a third male port (not numbered) matched with the shape of the third female port is formed between the first female port 12 and the second female port 22. Through the third male port and the third female port, the pressure resistance of the splicing part of the panel of the enclosure curtain wall can be further improved, so that the connection strength of the splicing part of the panel of the enclosure curtain wall is improved, and the problem that the surface flatness of the curtain wall is poor due to slippage and dislocation of components at the splicing part is solved.

It should be noted that the enclosure curtain wall panels described in the above embodiments of the present disclosure may be double-faced tongue-and-groove panels, or four-faced tongue-and-groove panels, that is, the insertion joints shown in fig. 2 and 3 exist not only between the upper and lower enclosure curtain wall panels, but also between the left and right enclosure curtain wall panels, there may be insertion structures shown in fig. 2 and 3.

The surrounding curtain wall panel is arranged into the four-side tongue-and-groove plate, so that the overall stability of the curtain wall can be further improved, and the wind resistance stability of the curtain wall is improved. And rainwater, moisture, wind and the like can be effectively reduced to enter the room, indoor and outdoor heat exchange is reduced, the integrity of the curtain wall is improved, and the energy efficiency of the building is improved.

Optionally, in a specific embodiment, the length of the inner wall panel 1 after being unfolded in the vertical direction is 1065-1075 mm, preferably 1070 mm; the length of the external wall panel 2 after being unfolded in the vertical direction is 1195-1205 mm, preferably 1200 mm. Through the size setting, the size standardization of the enclosure curtain wall panel after processing is facilitated, and the interchangeability requirement in the process of processing the enclosure curtain wall panel and assembling the enclosure curtain wall panel is convenient to improve.

Based on the containment curtain wall panel that each above-mentioned embodiment provided, this application embodiment still provides a curtain, and this curtain can include the house purlin of steel construction and a plurality of aforesaid be used for installing the containment curtain wall panel on the house purlin.

The curtain wall is usually formed by splicing a plurality of enclosure curtain wall panels, when the enclosure curtain wall panels are spliced, generally from bottom to top, the nailing groove 2111 at the upper part of the enclosure curtain wall panel at the bottom end of the curtain wall is fixed on a purline, the lower part of one enclosure curtain wall panel at the upper side is fixed with the enclosure curtain wall panel at the bottom end of the curtain wall through splicing, then the nailing groove 2111 at the upper part of the enclosure curtain wall panel at the upper side is fixed on the purline, and according to the sequence, the enclosure curtain wall panels of one block are spliced from bottom to top one by one to finally form the curtain wall of the steel structure building.

It should be noted that, the terms of orientation used in this embodiment, such as upper, lower, left, right, upper, lower, upper end, lower end, home end, opposite end, etc., generally refer to the perspective of the curtain wall panel from the outside to the curtain wall after the enclosure curtain wall panel is installed on the steel structure building, and only for clarity, the structural features of the enclosure curtain wall panel are briefly described, so the terms of orientation do not constitute specific limitations on the structure of the enclosure curtain wall panel of this embodiment.

The above are merely examples of the present application and are not intended to limit the present application. 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 application should be included in the scope of the claims of the present application.

Claims (10)

1. A double-interlocking envelope curtain wall panel, comprising: an inner wall plate, an outer wall plate and a core material filled between the inner wall plate and the outer wall plate, wherein,

the first male port is arranged at the local end of the inner wall plate, and the first female port is arranged at the opposite end of the inner wall plate;

the inner wall plate is characterized in that a first step is arranged at the end of the inner wall plate, a first bulge is arranged at the opposite end of the inner wall plate, and the inner side edge of the first bulge is flush with the surface of the inner wall plate;

the second male opening is formed in the end of the external wall panel; a second female port is formed at the opposite end of the external wall panel;

the opposite end of the external wall panel is provided with a second bulge, and the outer side edge of the second bulge is flush with the surface of the external wall panel.

2. The envelope curtain wall panel of claim 1, wherein for two assembled envelope curtain wall panels:

the outer side edge of the second male opening of one enclosure curtain wall panel is attached to the inner side edge of the second protrusion of the other enclosure curtain wall panel; or

And a cavity is arranged between the second male opening of one enclosure curtain wall panel and the second protrusion of the other enclosure curtain wall panel, and the cross section of the cavity is approximately in a right trapezoid shape.

3. The envelope curtain wall panel of claim 2, wherein the outer side edge of the second male opening includes two second L-shaped steps, and a nailing groove is formed on the vertical edge of one second L-shaped step.

4. The envelope curtain wall panel of claim 3,

the top of the second bulge of one enclosure curtain wall panel is attached to the transverse edge of the second L-shaped step of the other enclosure curtain wall panel, or

A gap exists between the top of the second protrusion of one enclosing curtain wall panel and the transverse edge of the second L-shaped step of the other enclosing curtain wall panel.

5. The envelope curtain wall panel of claim 1, wherein the cross section of the first female port is U-shaped or isosceles trapezoid; the cross-sectional shape of the first male port is the same as the cross-sectional shape of the first female port.

6. The envelope curtain wall panel of any one of claims 1 to 5, wherein the envelope curtain wall panel is at a location of at least one of:

the end head of the inner wall plate is arranged at the end head of the inner wall plate;

the opposite end of the inner wallboard is terminated;

the end socket of the end of the external wall panel; and

and the end heads of the opposite ends of the external wall panels.

7. The envelope curtain wall panel of claim 6, wherein a third female port is formed between the first male port and the second male port, and a third male port matched with the third female port in shape is formed between the first female port and the second female port.

8. The envelope curtain wall panel of claim 6,

a sealing rubber strip is arranged between the first male port and the first female port; and/or the presence of a gas in the gas,

and a sealing rubber strip is arranged between the second male port and the second female port.

9. The envelope curtain wall panel of claim 1, wherein the core material is bonded between the inner and outer wall panels; the core material is rock wool and polyurethane PU, or the core material is rock wool.

10. A curtain wall comprising a containment curtain wall panel as claimed in any one of claims 1 to 9.

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