CN214195119U - Matching structure of GRC hanging plate - Google Patents

Abstract

The utility model relates to a cooperation structure of GRC link plate spare, include: the first bending part is positioned at the upper edge of the first substrate, bends downwards and forms a first bending cavity; the second component is in an L shape and comprises a bonding edge and a bearing edge; the third part includes the third base plate, the first portion of stretching into and supports the first portion of stretching into and with third base plate mutually perpendicular's first supporting part, first supporting part still includes and is used for connecting the first transition portion of the first portion of stretching into first transition portion is equipped with the strong point with the first junction of stretching into the portion, the strong point protrusion in the first surface of stretching into, and with first base plate is inconsistent. The beneficial effects are that: stability is good, through the setting of strong point, has improved the stability of whole cooperation structure, can reduce the emergence of the slope phenomenon of GRC link plate simultaneously, is difficult for droing.

Description

Matching structure of GRC hanging plate

Technical Field

The utility model belongs to the technical field of the architectural decoration technique and specifically relates to a cooperation structure of GRC hanging plate spare is related to.

Background

With the technological progress and the development of building technology, new materials, new processes and new technologies of building curtain walls are emerging continuously, and because glass fiber reinforced cement boards have strong plasticity and decorative effect, architects begin to select elements as curtain wall materials to express unique individuality of buildings. Glass fiber Reinforced cement (abbreviated as GRC) is a fiber cement composite material using alkali-resistant Glass fibers as a reinforcing material and cement mortar as a matrix material, and the material has the advantages of high strength, high toughness, water resistance, fire resistance, light weight and the like, and is widely applied to exterior decoration members of buildings at present.

With the recent GRC products not only limited to the previous installation only in the form of architectural decoration components, the construction mode of dry-hanging large-area curtain walls is started to be adopted, such as the Qianjin deep memorial museum, the Nanjing Qingao main venue and the like, and the construction mode of dry-hanging GRC curtain walls is adopted, the embedded parts of the GRC curtain walls need to be fixed on a steel frame through connecting pieces, and the existing fixing mode is common bolt and nut or welding. The difficulty of above-mentioned mode construction is big, probably has unstable problem, especially when adopting large-size monomer GRC link plate, because the effect of gravity, GRC link plate can produce the pulling force of certain incline direction, leads to the built-in fitting to receive the pressure or the pulling force of slope simultaneously, when keeping above-mentioned gesture for a long time, the unstable of GRC link plate can appear, even the phenomenon that drops.

Therefore, it is necessary to develop a matching structure of GRC hanger plates, which has the characteristics of firm connection and good stability.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cooperation structure of GRC hanger plate spare to solve the poor stability's among the prior art problem.

The utility model provides a technical problem adopt following technical scheme to realize:

a mating structure of a GRC hanger plate, comprising:

the first component comprises a first substrate and a first bending part arranged on the first substrate, wherein the first bending part is positioned at the upper edge of the first substrate, bends downwards and forms a first bending cavity;

the second component is L-shaped and comprises a joint edge fixedly jointed with the steel component and a bearing edge vertical to the joint edge;

the third part, the third part include with the fixed third base plate of pressure-bearing edge laminating, stretch into first portion of stretching into and the support in the first bending cavity first stretch into the portion and with the first supporting part of third base plate mutually perpendicular, first supporting part is still including being used for connecting the first transition portion that stretches into the portion first transition portion is equipped with the strong point with the first junction that stretches into the portion, the strong point protrusion in the first surface that stretches into the portion, and with first base plate is inconsistent.

As a preferred technical solution, the first member further includes a second bending portion, and the second bending portion is located at a middle portion or a lower edge of the first substrate, and bends downward to form a second bending cavity.

As a preferable technical scheme, the third component further comprises a second extending portion, and the second extending portion is connected with the first supporting portion through a second transition portion and extends into the second bending cavity.

As a preferable technical scheme, a supporting point is arranged at the joint of the second transition part and the second extending part, and the supporting point protrudes out of the surface of the second extending part and is abutted against the first substrate.

Preferably, the second transition portion is an extension of the third substrate.

Preferably, the third member further includes a third protruding portion that extends from the third substrate and abuts against the first substrate.

Preferably, a reinforcing rib is disposed between the third substrate and the first support portion.

Preferably, a plurality of anti-slip lines are arranged on the surface of the second component.

As a preferable technical scheme, a plurality of anti-slip stripes are arranged on the surface of the third substrate.

As a preferred technical scheme, the supporting points are a plurality of round bulges with smooth surfaces.

Preferably, the thickness of the supporting point is not greater than the thickness of the first protruding part.

As preferred technical scheme, the top surface of first portion of bending is equipped with the screw hole, threaded hole installs fastening bolt, fastening bolt contradicts the first top that stretches into the portion to improve the stability of cooperation structure.

The utility model has the advantages that: stability is good, through the setting of strong point, has improved the stability of whole cooperation structure, can reduce the emergence of the slope phenomenon of GRC link plate simultaneously, is difficult for droing.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 shows the utility model: a schematic structural diagram of a mating structure of a GRC hanger plate member in embodiment 1;

fig. 2 shows the utility model: one of the schematic structural views of the third member in embodiment 1;

fig. 3 shows the utility model: a second structural schematic diagram of the third part in embodiment 1;

fig. 4 shows the utility model: a schematic structural diagram of a mating structure of a GRC hanger plate in embodiment 2;

fig. 5 shows the utility model: a schematic structural view of a third member in embodiment 2;

fig. 6 shows the utility model: a schematic structural diagram of a mating structure of a GRC hanger plate in embodiment 3;

fig. 7 is the utility model: a schematic structural view of a third member in embodiment 3;

wherein:

98-steel member

99-GRC hanging plate

100-first part

200-second part

300-third part

101-first substrate

102-first bend

103-first bend

107-threaded hole

104-fastening bolt

105-second bend

106-second bending cavity

201-attaching edge

202-bearing edge

301-third substrate

302-first extension

303-first support part

304-support point

305-first transition

306-third Instructions

307-reinforcing bar

308-second penetration

309-second transition.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further explained by combining with the specific drawings.

Example 1

Referring to fig. 1-3, a mating structure for a GRC hanger plate member includes: a first component 100, a second component 200, and a third component 300. The first member 100 is used for being mounted on the GRC hanging plate 99, and includes a first substrate 101 and a first bending portion 102 disposed on the first substrate 101, wherein the first bending portion 102 is located at an upper edge of the first substrate 101 and bends downward to form a first bending cavity 103.

The second member 200 is used for being mounted on the fixed steel member 98, and the second member 200 is L-shaped and includes an attaching side 201 attached and fixed to the steel member 98, and a pressure receiving side 202 perpendicular to the attaching side 201.

The third member 300 is fixed on the second member 200 and is connected with the first member 100 in a matching manner, the third member 300 includes a third substrate 301 attached and fixed to the bearing edge 202, a first extending portion 302 extending into the first bending cavity 103, and a first supporting portion 303 supporting the first extending portion 302 and perpendicular to the third substrate 301, the first supporting portion 303 further includes a first transition portion 305 for connecting the first extending portion 302, a supporting point 304 is arranged at a connection position of the first transition portion 305 and the first extending portion 302, and the supporting point 304 protrudes out of the surface of the first extending portion 302 and is abutted to the first substrate 101.

When the first extending portion 302 extends into the first bending cavity 103, the third member 300 receives downward pressure of the GRC cladding panel 99 under the action of gravity, and the GRC cladding panel 99 can be stabilized under normal conditions. However, since the area of the GRC cladding 99 is large, the GRC cladding 99 has a certain inclination angle, and at this time, the third member 300 is subjected to an inclined pressure, so that the application of the supporting point 304 in this embodiment equalizes the gravity and the pressure applied to the third member 300, and the third member 300 is not deformed or damaged due to the long-term inclined state of the GRC cladding 99.

The supporting points 304 in this example are a plurality of round protrusions with smooth surfaces, and the thickness of the supporting points 304 is not greater than that of the first protruding parts 302. The thickness of the support points 304 should not be too great or would result in difficulty in mounting the GRC cladding panel 99.

In order to achieve better uniform force, the third member 300 of the present example further includes a third protruding portion 306, and the third protruding portion 306 is an extension of the third substrate 301 and abuts against the first substrate 101.

In order to improve the stability of the third member 300, a rib 307 is provided between the third substrate 301 and the first support portion 303.

In this example, the surfaces of the second member 200 and the third substrate 301 are provided with a plurality of anti-slip patterns, so that the second member 200 and the third member 300 can be kept relatively stable after being connected by the fasteners, and displacement or relative movement can be reduced.

For further realizing the stability of the whole structure, the top surface of the first bending part 102 is provided with a threaded hole 107, a fastening bolt 104 is installed in the threaded hole 107, and the fastening bolt 104 abuts against the top of the first extending part 302 and abuts against the top surface of the first extending part 302 so as to improve the stability of the matching structure.

Example 2

Referring to fig. 4-5, a mating structure for a GRC hanger plate member includes: a first component 100, a second component 200, and a third component 300. The first member 100 is used for being mounted on the GRC hanging plate 99, and includes a first substrate 101, and a first bending portion 102 and a second bending portion 105 which are arranged on the first substrate 101, wherein the first bending portion 102 is located at an upper edge of the first substrate 101 and bends downward to form a first bending cavity 103, and the second bending portion 105 is located at a middle portion or a lower edge of the first substrate 101 and bends downward to form a second bending cavity 106. The second bending part 105 in the present embodiment is located at the lower edge of the first substrate 101.

The second member 200 is used for being mounted on the fixed steel member 98, and the second member 200 is L-shaped and includes an attaching side 201 attached and fixed to the steel member 98, and a pressure receiving side 202 perpendicular to the attaching side 201.

The third member 300 is fixed on the second member 200 and is connected with the first member 100 in a matching manner, the third member 300 comprises a third substrate 301 attached and fixed with the bearing edge 202, a first extending portion 302 extending into the first bending cavity 103, a second extending portion 308 extending into the second bending cavity 106, and a first supporting portion 303 supporting the first extending portion 302 and perpendicular to the third substrate 301, the first supporting portion 303 further comprises a first transition portion 305 used for connecting the first extending portion 302, a supporting point 304 is arranged at the connecting position of the first transition portion 305 and the first extending portion 302, and the supporting point 304 protrudes out of the surface of the first extending portion 302 and is abutted against the first substrate 101.

The second extending portion 308 is connected to the first supporting portion 303 through a second transition portion 309 and extends into the second bending cavity 106, a supporting point 304 is disposed at a connection position of the second transition portion 309 and the second extending portion 308, and the supporting point 304 protrudes from a surface of the second extending portion 308 and abuts against the first substrate 101. The second transition 309 in this example is an extension of the third substrate 301.

When first portion 302 that stretches into first bending cavity 103, second portion 308 that stretches into when second bending cavity 106, under the effect of gravity, third part 300 receives the decurrent pressure of GRC link plate 99, under normal conditions, can realize GRC link plate 99's stability. However, since the area of the GRC cladding 99 is large, the GRC cladding 99 has a certain inclination angle, and at this time, the third member 300 is subjected to an inclined pressure, so that the application of the supporting point 304 in this embodiment equalizes the gravity and the pressure applied to the third member 300, and the third member 300 is not deformed or damaged due to the long-term inclined state of the GRC cladding 99.

The supporting points 304 in this example are a plurality of round protrusions with smooth surfaces, and the thickness of the supporting points 304 is not greater than that of the first protruding parts 302. The thickness of the support points 304 should not be too great or would result in difficulty in mounting the GRC cladding panel 99.

In order to improve the stability of the third member 300, a rib 307 is provided between the third substrate 301 and the first support portion 303.

In this example, the surfaces of the second member 200 and the third substrate 301 are provided with a plurality of anti-slip patterns, so that the second member 200 and the third member 300 can be kept relatively stable after being connected by the fasteners, and displacement or relative movement can be reduced.

For further realizing the stability of the whole structure, the top surface of the first bending part 102 is provided with a threaded hole 107, a fastening bolt 104 is installed in the threaded hole 107, and the fastening bolt 104 abuts against the top of the first extending part 302 and abuts against the top surface of the first extending part 302 so as to improve the stability of the matching structure.

Example 3

Referring to fig. 6-7, a mating structure for a GRC hanger plate member includes: a first component 100, a second component 200, and a third component 300. The first member 100 is used for being mounted on the GRC hanging plate 99, and includes a first substrate 101, and a first bending portion 102 and a second bending portion 105 which are arranged on the first substrate 101, wherein the first bending portion 102 is located at an upper edge of the first substrate 101 and bends downward to form a first bending cavity 103, and the second bending portion 105 is located at a middle portion or a lower edge of the first substrate 101 and bends downward to form a second bending cavity 106. The second bending part 105 in the present embodiment is located at the lower edge of the first substrate 101.

The second member 200 is used for being mounted on the fixed steel member 98, and the second member 200 is L-shaped and includes an attaching side 201 attached and fixed to the steel member 98, and a pressure receiving side 202 perpendicular to the attaching side 201.

The third member 300 is fixed on the second member 200 and is connected with the first member 100 in a matching manner, the third member 300 comprises a third substrate 301 attached and fixed with the bearing edge 202, a first extending portion 302 extending into the first bending cavity 103, a second extending portion 308 extending into the second bending cavity 106, and a first supporting portion 303 supporting the first extending portion 302 and perpendicular to the third substrate 301, the first supporting portion 303 further comprises a first transition portion 305 used for connecting the first extending portion 302, a supporting point 304 is arranged at the connecting position of the first transition portion 305 and the first extending portion 302, and the supporting point 304 protrudes out of the surface of the first extending portion 302 and is abutted against the first substrate 101.

The second extending portion 308 is connected to the first supporting portion 303 through a second transition portion 309 and extends into the second bending cavity 106, a supporting point 304 is disposed at a connection position of the second transition portion 309 and the second extending portion 308, and the supporting point 304 protrudes from a surface of the second extending portion 308 and abuts against the first substrate 101.

When first portion 302 that stretches into first bending cavity 103, second portion 308 that stretches into when second bending cavity 106, under the effect of gravity, third part 300 receives the decurrent pressure of GRC link plate 99, under normal conditions, can realize GRC link plate 99's stability. However, since the area of the GRC cladding 99 is large, the GRC cladding 99 has a certain inclination angle, and at this time, the third member 300 is subjected to an inclined pressure, so that the application of the supporting point 304 in this embodiment equalizes the gravity and the pressure applied to the third member 300, and the third member 300 is not deformed or damaged due to the long-term inclined state of the GRC cladding 99.

The supporting points 304 in this example are a plurality of round protrusions with smooth surfaces, and the thickness of the supporting points 304 is not greater than that of the first protruding parts 302. The thickness of the support points 304 should not be too great or would result in difficulty in mounting the GRC cladding panel 99.

In order to achieve better uniform force, the third member 300 of the present example further includes a third protruding portion 306, and the third protruding portion 306 is an extension of the third substrate 301 and abuts against the first substrate 101.

In order to improve the stability of the third member 300, a rib 307 is provided between the third substrate 301 and the first support portion 303.

In this example, the surfaces of the second member 200 and the third substrate 301 are provided with a plurality of anti-slip patterns, so that the second member 200 and the third member 300 can be kept relatively stable after being connected by the fasteners, and displacement or relative movement can be reduced.

For further realizing the stability of the whole structure, the top surface of the first bending part 102 is provided with a threaded hole 107, a fastening bolt 104 is installed in the threaded hole 107, and the fastening bolt 104 abuts against the top of the first extending part 302 and abuts against the top surface of the first extending part 302 so as to improve the stability of the matching structure.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a cooperation structure of GRC hanger plate spare which characterized in that includes:

the first component comprises a first substrate and a first bending part arranged on the first substrate, wherein the first bending part is positioned at the upper edge of the first substrate, bends downwards and forms a first bending cavity;

the second component is L-shaped and comprises a joint edge fixedly jointed with the steel component and a bearing edge vertical to the joint edge;

the third part, the third part include with the fixed third base plate of pressure-bearing edge laminating, stretch into first portion of stretching into and the support in the first bending cavity first stretch into the portion and with the first supporting part of third base plate mutually perpendicular, first supporting part is still including being used for connecting the first transition portion that stretches into the portion first transition portion is equipped with the strong point with the first junction that stretches into the portion, the strong point protrusion in the first surface that stretches into the portion, and with first base plate is inconsistent.

2. A mating structure for a GRC hanger member according to claim 1 wherein the first member further includes a second bend located at a middle or lower edge of the first base plate and bent downwardly to form a second bending cavity.

3. A mating structure for a GRC hanger plate as claimed in claim 2, wherein the third member further comprises a second ingoing portion, the second ingoing portion being connected to the first support portion by a second transition portion and extending into the second bending cavity.

4. A mating structure of a GRC hanger plate as claimed in claim 3, wherein a support point is provided at a junction of the second transition portion and the second protruding portion, the support point protruding from a surface of the second protruding portion and abutting against the first base plate.

5. A mating structure for a GRC hanger plate as claimed in claim 3, wherein the second transition is an extension of the third base plate.

6. A mating structure for a GRC hanger member as claimed in claim 1, wherein the third member further comprises a third ingoing portion, the third ingoing portion being an extension of the third base plate and abutting the first base plate.

7. A mating structure for a GRC hanger plate as claimed in claim 1, wherein a reinforcing rib is provided between the third base plate and the first support portion.

8. A mating structure for a GRC hanger plate as claimed in claim 1 or claim 4, wherein the support points are smooth surfaced rounded projections.

9. A mating structure for a GRC hanger member as claimed in claim 8, wherein the thickness of the support point is no greater than the thickness of the first penetration.

10. A mating structure of a GRC hanger plate member as claimed in claim 1, wherein the top surface of the first bent portion is provided with a threaded hole, and a fastening bolt is installed in the threaded hole and abuts against the top of the first extending portion.

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