CN219626250U - LED combined glass curtain wall - Google Patents

Abstract

The utility model relates to an LED combined glass curtain wall, which comprises a glass curtain wall, wherein the glass curtain wall comprises a stay rope, glass and a first clamp mechanism, and the glass is fixed on the stay rope through the first clamp mechanism; the LED combined glass curtain wall also comprises an LED display screen; the LED display screen is located the rear side of glass, and the LED display screen is fixed on the cable. Install the rear side at glass with the LED display screen to the LED display screen is fixed on the cable, that is to say, fixes the LED display screen on glass curtain wall's braced skeleton, design like this, need not to establish in addition and support keel structure and provide the installation position for the LED display screen, can install the LED display screen under the prerequisite that does not change glass curtain wall's original bearing structure, simple structure has reduced the installation degree of difficulty of LED display screen, has improved the steadiness that the LED display screen is connected with glass curtain wall, thereby can install the LED display screen on the glass curtain wall of jumbo size, guarantee the safety in utilization of LED combination glass curtain wall.

Description

LED combined glass curtain wall

Technical Field

The utility model belongs to the technical field of LED display screens, and particularly relates to an LED combined glass curtain wall.

Background

With the development of photoelectric technology and information technology, an LED display screen is used for information release in many media fields and service industries. The LED display screen is arranged on a glass curtain wall of a building to form an LED combined glass curtain wall for information display and illumination of various public places.

The glass curtain wall comprises a glass panel and a inhaul cable, wherein the glass panel is fixed through the inhaul cable. The glass panel of part of the glass curtain wall is provided with two layers of glass, and the LED display screen is usually fixed between the two layers of glass so as to realize protection of the LED display screen; however, the maintenance difficulty of the LED display screen is high, and the maintenance cost is increased. At present, in order to facilitate maintenance of the LED display screen, the LED display screen is arranged on the rear side of the glass panel, and two fixing modes are adopted, one fixing mode is that the LED display screen is adhered to the surface of the rear side of the glass panel, so that the LED display screen is fixedly connected with the glass curtain wall; the other is that a supporting keel structure is additionally arranged on the rear side of the glass curtain wall to provide an installation position for the LED display screen, so that the fixed connection between the LED display screen and the glass curtain wall is realized. However, both fixing modes are only suitable for the LED combined glass curtain wall with smaller size, for the LED combined glass curtain wall with larger size, the whole weight of the LED display screen is larger, the glass panel is difficult to bear the weight of the LED display screen when the bonding mode is adopted, the connection between the LED display screen and the glass panel is unstable, the LED display screen is easy to break or even fall off, and the use safety of the LED combined glass curtain wall is influenced; when adopting to add the supporting keel structure mode, need the bigger supporting keel of design cross-section size to satisfy the atress requirement for whole demonstration picture is separated by supporting keel structure, makes the display effect not ideal, and the great supporting keel of span also has the not good problem of stability, influences the safety in utilization of LED combination glass curtain wall.

Disclosure of Invention

The utility model provides an LED combined glass curtain wall, which is used for improving the connection stability of an LED display screen and the glass curtain wall.

The embodiment of the utility model provides an LED combined glass curtain wall, which comprises a glass curtain wall, wherein the glass curtain wall comprises a stay rope, glass and a first clamp mechanism, and the glass is fixed on the stay rope through the first clamp mechanism;

the LED combined glass curtain wall further comprises an LED display screen; the LED display screen is positioned at the rear side of the glass, and the LED display screen is fixed on the inhaul cable.

Optionally, the glass is distributed in a rectangular array, and the LED display screens are distributed in a rectangular array;

each row of glass is arranged corresponding to one row of LED display screens;

and each row of glass and the corresponding row of LED display screen are fixed on the same inhaul cable.

Optionally, a row of the glass and a row of the LED display screen are arranged between every two adjacent inhaul cables;

in each row of the glass, the left side corner of each glass is fixed on the inhaul cable positioned on the left side through the first clamp mechanism, and the right side corner of each glass is fixed on the inhaul cable positioned on the right side through the first clamp mechanism;

In each row of LED display screens, the left side edge of each LED display screen is fixed on the stay rope positioned on the left side, and the right side edge of each LED display screen is fixed on the stay rope positioned on the right side.

Optionally, four corners of each LED display screen are respectively opposite to four corners of one piece of glass;

and each corner of the LED display screen is fixedly connected with the corresponding corner of the glass through one first clamp mechanism.

Optionally, among four corners of the LED display screen, part of the corners are opposite to the corners of one piece of glass;

the edge angle of the LED display screen is divided into a first edge angle and a second edge angle;

the first corner is arranged opposite to the corner of the glass; the corner corresponding to the glass of the first corner is fixed on the inhaul cable through a first clamp mechanism;

the second corner is arranged opposite to the side edge of the glass; the LED combined glass curtain wall further comprises a second clamp mechanism, and the second corner is fixed on the inhaul cable through one second clamp mechanism.

Optionally, the first clamp mechanism includes a first connection structure, a second connection structure, and a first clamping plate;

The first connecting structure is connected with the first clamping plate through a first fastener so as to form a first clamping space for clamping the glass between the first connecting structure and the first clamping plate; the glass is assembled in the first clamping space;

the second connecting structure comprises a first fixing seat and a first mounting assembly;

the first fixing seat is connected with the first connecting structure through a second fastening piece so as to form a second clamping space for clamping the inhaul cable between the first fixing seat and the first connecting structure; the inhaul cable is assembled in the second clamping space;

the first installation component is arranged on the first fixing seat, and the first installation component is fixedly connected with the LED display screen.

Optionally, the first mounting assembly includes a first connection plate and a first bearing plate;

the first connecting plate is arranged on the first side face of the first fixing seat along the axial direction of the inhaul cable, a first mounting structure is arranged on the first connecting plate, and the first mounting structure is fixedly connected with the LED display screen;

the first supporting plate is arranged on the second side surface of the first fixing seat along the axial direction perpendicular to the inhaul cable, and the LED display screen is supported on the first supporting plate;

The first side face and the second side face of the first fixing seat are two adjacent side faces.

Optionally, the second clamp mechanism includes a third connection structure and a fourth connection structure;

the fourth connecting structure comprises a second fixing seat and a second mounting assembly; the second fixing seat is connected with the third connecting structure through a third fastener so as to form a third clamping space for clamping the inhaul cable between the second fixing seat and the third connecting structure; the inhaul cable is assembled in the third clamping space; the second installation component is arranged on the second fixing seat, and the second installation component is fixedly connected with the LED display screen.

Optionally, the second mounting assembly includes a second connection plate and a second bearing plate;

the second connecting plate is arranged on the first side face of the second fixing seat along the axial direction of the inhaul cable, a second mounting structure is arranged on the second connecting plate, and the second mounting structure is fixedly connected with the LED display screen;

the second supporting plate is arranged on the second side face of the second fixing seat along the axial direction perpendicular to the inhaul cable, and the LED display screen is supported on the second supporting plate;

the first side face and the second side face of the second fixing seat are two adjacent side faces.

Optionally, the LED combined glass curtain wall further comprises a third clamp mechanism, and the LED display screen is fixed on the inhaul cable through the third clamp mechanism.

In the LED combined glass curtain wall provided by the embodiment of the utility model, the LED display screen is arranged at the rear side of the glass, so that the installation difficulty of the LED display screen and the glass curtain wall is reduced, the maintenance of the LED display screen is facilitated, the operation is simpler, and the maintenance cost is reduced; and the LED display screen is fixed on the cable, that is to say, directly fix the LED display screen on glass curtain wall's braced skeleton, design like this, need not to establish in addition and support keel structure and provide the installation position for the LED display screen, can install the LED display screen under the prerequisite that does not change glass curtain wall's original bearing structure, simple structure has reduced the installation degree of difficulty of LED display screen, has improved the steadiness that LED display screen and glass curtain wall are connected, thereby can install the LED display screen on jumbo size glass curtain wall, guarantee the safety in utilization of LED combination glass curtain wall.

Drawings

FIG. 1 is a schematic view of a portion of a structure of an LED combined glass curtain wall according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a first clamping mechanism according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a first clamp mechanism according to another embodiment of the present utility model;

FIG. 4 is a schematic diagram of a second clamp mechanism according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a second fixture mechanism according to another embodiment of the present utility model.

Reference numerals in the specification are as follows:

1. a first clamp mechanism; 11. a first connection structure; 111. a connecting seat; 112. a second clamping plate; 113. a support; 12. a second connection structure; 121. a first fixing seat; 122. a first connection plate; 123. a first support plate; 13. a first clamping plate; 14. a first clamping space; 15. a second clamping space; 16. a first fastener; 17. a second fastener; 18. a first mounting structure; 2. a second clamp mechanism; 21. a third connection structure; 22. a fourth connection structure; 221. the second fixing seat; 222. a second connecting plate; 223. a second support plate; 23. a third clamping space; 24. a third fastener; 25. a second mounting structure; 3. an LED display screen; 4. a guy cable; 5. glass.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects solved by the utility model more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are merely for convenience in describing and simplifying the description based on the orientation or positional relationship shown in the drawings, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The directions of the utility model are all based on the normal use state of the LED combined glass curtain wall; the glass and the LED display screen are arranged at intervals along the front-back direction; the side of the glass, which faces away from the LED display screen, is the front side, and the side of the glass, which faces towards the LED display screen, is the rear side; the stay extends in the up-down direction.

As shown in fig. 1, the LED combined glass curtain wall provided by the embodiment of the utility model comprises a glass curtain wall and an LED display screen 3; the glass curtain wall comprises a guy cable 4, glass 5 and a first clamp mechanism 1, wherein the glass 5 is fixed on the guy cable 4 through the first clamp mechanism 1; the LED display screen 3 is located the rear side of glass 5, and LED display screen 3 is fixed on cable 4.

As an example, the glass 5 is a component of the LED composite glass curtain wall that functions to decorate the architectural appearance and protect the LED display 3. The glass 5 may be a single glass or a double glass.

As an example, the stay 4 is a part of the LED composite glass curtain wall that serves as a support and fixing member for fixing the glass 5 and the LED display screen 3 to the building main body.

As an example, the first fixture mechanism 1 is a component part in the LED composite glass curtain wall that serves to fixedly connect the glass 5 and the stay 4, for fixing the glass 5 to the stay 4.

As an example, the LED display 3 is a part of the LED composite glass curtain wall that plays a role in displaying information and lighting.

In the LED combined glass curtain wall provided by the embodiment of the utility model, the LED display screen 3 is arranged at the rear side of the glass 5, so that the installation difficulty of the LED display screen 3 and the glass curtain wall is reduced, the maintenance of the LED display screen 3 is convenient, the operation is simpler, and the maintenance cost is reduced; and LED display screen 3 is fixed on cable 4, that is to say, fix LED display screen 3 directly on glass curtain wall's bearing structure, design like this, need not to establish in addition and support keel structure and provide the installation position for LED display screen 3, can install LED display screen 3 under the prerequisite that does not change glass curtain wall's original bearing structure, simple structure has reduced the installation degree of difficulty of LED display screen 3, has improved the steadiness that LED display screen 3 is connected with glass curtain wall, thereby can install LED display screen 3 on the glass curtain wall of jumbo size, guarantee the safety in utilization of LED combination glass curtain wall.

In one embodiment, the plurality of glasses 5 are distributed in a rectangular array, and the plurality of LED display screens 3 are distributed in a rectangular array; each row of glass 5 is arranged corresponding to one row of LED display screens 3; each row of glass 5 and the corresponding row of LED display screens 3 are fixed on the same guy cable 4.

In the example, all the glass 5 are distributed in a rectangular array, all the LED display screens 3 are distributed in a rectangular array, and each row of glass 5 is correspondingly arranged with one row of LED display screens 3, so that the glass 5 and the LED display screens 3 are installed more orderly, and the operation is simpler and more convenient; and, each row of glass 5 is fixed on same cable 4 with the LED display screen 3 that corresponds the row for when installing LED display screen 3 on the glass curtain wall, only need with LED display screen 3 fix on the original cable 4 of glass curtain wall can, need not to establish other support fossil fragments structure in addition, simple structure, the operation of being convenient for is favorable to keeping the original good permeability of glass curtain wall.

In one embodiment, as shown in fig. 1, a row of glass 5 and a row of LED display screens 3 are arranged between every two adjacent inhaul cables 4; in each row of the glass 5, the left side corner of each glass 5 is fixed on the stay 4 positioned at the left side through the first clamp mechanism 1, and the right side corner of each glass 5 is fixed on the stay 4 positioned at the right side through the first clamp mechanism 1; in each row of LED display screens 3, the left side corner of each LED display screen 3 is fixed on a stay cable 4 positioned on the left side, and the right side corner of each LED display screen 3 is fixed on a stay cable 4 positioned on the right side.

In the example, all the inhaul cables 4 are arranged at intervals along the left-right direction, and a row of glass 5 and a row of LED display screens 3 are arranged between every two adjacent inhaul cables 4; each glass 5 located between two adjacent inhaul cables 4, the left side corner of which is fixed on the inhaul cable 4 located on the left side through the first clamp mechanism 1, and the right side corner of which is fixed on the inhaul cable 4 located on the right side through the first clamp mechanism 1; each LED display 3 located between two adjacent cables 4 has its left side corner fixed to the cable 4 located on the left side and its right side corner fixed to the cable 4 located on the right side. That is, each glass 5 is fixed to the two stay wires 4 by the first clamp mechanism 1, and each LED display 3 is fixed to the two stay wires 4; by means of the design, the joints of the glass 5 and the inhaul cable 4 and the joints of the LED display screen 3 and the inhaul cable 4 are increased, the installation stability of the glass 5 and the LED display screen 3 is improved, the shaking of the glass 5 and the LED display screen 3 is avoided, and the use safety of the LED combined glass curtain wall is improved.

In an embodiment, four corners of each LED display 3 are disposed opposite to four corners of one piece of glass 5, respectively; each corner of the LED display screen 3 is fixedly connected with the inhaul cable 4 through a first clamp mechanism 1 corresponding to the glass 5.

Wherein, the rows are arranged along the left-right direction and the columns are arranged along the up-down direction.

In this example, four corners of each LED display 3 are disposed opposite four corners of one piece of glass 5, respectively. That is, the length of each glass 5 in the left-right direction is the same as the length of each LED display 3 in the left-right direction, and the height of each glass 5 in the up-down direction is the same as the height of each LED display 3 in the up-down direction; each corner of the glass 5 is fixedly connected with the inhaul cable 4 through a first clamp mechanism 1, so that the corresponding corner on the LED display screen 3 is fixedly connected with the inhaul cable 4 through the same first clamp mechanism 1; that is, the first clamp mechanism 1 is respectively connected with the glass 5, the LED display screen 3 and the inhaul cable 4, the connecting structure of the glass 5 and the inhaul cable 4 and the connecting structure of the LED display screen 3 and the inhaul cable 4 are integrated into a whole, the connection stability of the glass curtain wall and the LED display screen 3 is improved, the number of parts is reduced, the overall weight of the LED combined glass curtain wall is reduced, and the installation operation is simpler and more convenient.

In one embodiment, as shown in fig. 1, among four corners of an LED display 3, a part of the corners are disposed opposite to a corner of a piece of glass 5; the side angle of the LED display screen 3 is divided into a first corner and a second corner; the first corner is arranged opposite to the corner of the glass 5; the first corner and the corner corresponding to the glass 5 are fixed on the inhaul cable 4 through a first clamp mechanism 1; the second corner is arranged opposite to the side edge of the glass 5; the LED combined glass curtain wall further comprises a second clamp mechanism 2, and the second corner is fixed on the inhaul cable 4 through the second clamp mechanism 2.

In this example, among four corners of an LED display 3, a part of the corners are disposed opposite to a corner of a piece of glass 5, and the corners of the LED display 3 are divided into a first corner disposed opposite to the corner of the glass 5 and a second corner disposed opposite to the side of the glass 5. That is, the length of each glass 5 in the left-right direction is the same as the length of each LED display 3 in the left-right direction, the height of each glass 5 in the up-down direction is greater than the height of each LED display 3 in the up-down direction, and the height of each glass 5 is a multiple of the height of each LED display 3, i.e., at least two LED displays 3 are provided for one glass 5; the first corner of LED display screen 3 and the corner that glass 5 corresponds are fixed on cable 4 through a first fixture mechanism 1, and the second corner of LED display screen 3 is fixed on cable 4 through a second fixture mechanism 2, through first fixture mechanism 1 and the cooperation of second fixture mechanism 2, can assemble LED display screen 3 at the glass 5 rear side of jumbo size, guarantee the steadiness of LED display screen 3 installation.

Taking the example that the height of the glass 5 is twice that of the LED display screens 3, one glass 5 is correspondingly provided with two LED display screens 3; two corners on the upper side of the upper LED display screen 3 are opposite to two corners on the upper side of the glass 5, so that the two corners on the upper side of the upper LED display screen 3 are first corners which are fixed on the inhaul cable 4 through the first clamp mechanism 1; two corners of the lower side of the upper LED display screen 3 are opposite to the side edges of the glass 5, so the two corners of the lower side of the upper LED display screen 3 are second corners, and the second corners are fixed on the inhaul cable 4 through the second clamp mechanism 2; two corners on the upper side of the lower LED display screen 3 are opposite to the side edges of the glass 5, so the two corners on the upper side of the lower LED display screen 3 are second corners which are fixed on the inhaul cable 4 through the second clamp mechanism 2; two corners of the lower side of the LED display screen 3 positioned below are opposite to two corners of the lower side of the glass 5, so the two corners of the lower side of the LED display screen 3 positioned below are first corners, and the first corners are fixed on the inhaul cable 4 through the first clamp mechanism 1.

In one embodiment, as shown in fig. 1 and 2, the first clamp mechanism 1 includes a first connection structure 11, a second connection structure 12, and a first clamping plate 13; the first connection structure 11 is connected with the first clamping plate 13 by a first fastener 16 to form a first clamping space 14 therebetween for clamping the glass 5; the glass 5 fits in the first clamping space 14; the second connecting structure 12 includes a first fixing base 121 and a first mounting assembly; the first fixing base 121 is connected with the first connecting structure 11 by the second fastener 17 to form a second clamping space 15 therebetween for clamping the cable 4; the inhaul cable 4 is assembled in the second clamping space 15; the first installation component sets up on first fixing base 121, and first installation component and LED display screen 3 fixed connection.

As an example, the first connection structure 11 and the first clamping plate 13 cooperate to be a component of the first clamp mechanism 1 that functions to fix the glass 5. The first connection structure 11 is connected with the first clamping plate 13 by a first fastener 16 to form a first clamping space 14 therebetween for clamping the glass 5. That is, each corner of the glass 5 is fitted into a first clamping space 14, and the first fastener 16 is adjusted so that the first connection structure 11 and the first clamping plate 13 clamp the glass 5, thereby achieving fixation of the glass 5.

As an example, the first connection structure 11 and the first fixing base 121 cooperate to be a component of the first fixture mechanism 1 that functions to connect with the cable 4. The first fixing base 121 is connected with the first connection structure 11 by the second fastener 17 to form a second clamping space 15 therebetween for clamping the cable 4. That is, the cable 4 is fitted in the second clamping space 15, and the second fastener 17 is adjusted so that the first connection structure 11 and the first fixing base 121 are clamped on the cable 4, thereby fixing the first clamp mechanism 1 on the cable 4, and fixing the glass 5 and the LED display screen 3 on the cable 4 is achieved.

As an example, the first mounting assembly is a component of the first fixture mechanism 1 that functions to secure the LED display screen 3. The first mounting assembly is disposed on the first fixing base 121 for mounting the LED display screen 3. That is, each corner of the LED display 3 is fixedly connected with a first mounting component, so that the first mounting component provides a mounting position for the LED display 3 on the first fixing seat 121, and the LED display 3 is fixedly connected with the cable 4.

In this example, the first connection structure 11 is connected to the first clamping plate 13 by a first fastener 16, forming a first clamping space 14 for clamping the glass 5; the first fixing seat 121 is connected with the first connecting structure 11 through a second fastener 17 to form a second clamping space 15 for clamping the inhaul cable 4; the first fixing seat 121 is provided with a first installation component for installing the LED display screen 3; the design like this can realize the connection of glass 5, cable 4 and LED display screen 3 three through first fixture mechanism 1, has realized installing the LED display screen 3 in the rear side of glass 5, directly set up first installation component on the connection structure of glass 5 and cable 4 and provide the installation position for LED display screen 3 to fix LED display screen 3 on cable 4, can install LED display screen 3 under the prerequisite that does not change original glass curtain wall's braced skeleton, simple structure has reduced the installation degree of difficulty of LED display screen 3, is favorable to guaranteeing the safety in utilization of LED combination glass curtain wall, avoids the whole display screen of LED combination glass curtain wall to be cut apart simultaneously, has promoted the display effect.

In one embodiment, as shown in fig. 2 and 3, the first mounting assembly includes a first connection plate 122 and a first carrier plate 123; the first connecting plate 122 is arranged on the first side surface of the first fixing seat 121 along the axial direction of the inhaul cable 4, the first connecting plate 122 is provided with a first mounting structure 18, and the first mounting structure 18 is fixedly connected with the LED display screen 3; the first supporting plate 123 is arranged on the second side surface of the first fixing seat 121 along the axial direction perpendicular to the inhaul cable 4, and the LED display screen 3 is supported on the first supporting plate 123; the first side surface and the second side surface of the first fixing seat 121 are two adjacent side surfaces.

As an example, the first bearing plate 123 is provided in the axial direction perpendicular to the cable 4; that is, the first support plate 123 is disposed in the horizontal direction, and the bottom surface of the LED display screen 3 abuts on the first support plate 123, so that the first support plate 123 plays a supporting role for the LED display screen 3.

As an example, the first linking plate 122 is provided along the axial direction of the cable 4; that is, the first connection plate 122 is disposed in the up-down direction; the first connection plate 122 is located at one side of the LED display screen 3 in the left-right direction, and the LED display screen 3 is connected to the first mounting structure 18 on the first connection plate 122, so that the LED display screen 3 is fixed on the first connection plate 122, thereby fixing the LED display screen 3 on the cable 4.

In this example, the first supporting board 123 supports the LED display 3, and the first connecting board 122 provides an installation position for the LED display 3; the first supporting plate 123 is matched with the first connecting plate 122, so that the LED display screen 3 is fixed on the inhaul cable 4, and the connection stability of the LED display screen 3 and the inhaul cable 4 is improved. The first installation component is simple in structure and convenient to process and install.

In one embodiment, as shown in fig. 2 and 3, the second connecting structure 12 includes two first connecting plates 122, and the two first connecting plates 122 are respectively disposed on two opposite sides of the first fixing base 121; and/or the second connecting structure 12 comprises two first supporting plates 123, and the two first supporting plates 123 are respectively arranged on two opposite sides of the first fixing seat 121; the first connecting plate 122 is provided with two first mounting structures 18, and the first mounting structures 18 are arranged in one-to-one correspondence with the first bearing plates 123.

As an example, the second connecting structure 12 includes two first connecting plates 122, and the two first connecting plates 122 are respectively disposed on two opposite sides of the first fixing base 121. That is, the upper and lower sides of the first fixing base 121 are respectively provided with a first connection plate 122; the design is that a first fixture mechanism 1 can be connected with two vertically adjacent LED display screens 3, a first connecting plate 122 positioned on the upper side surface of a first fixing seat 121 is connected with the upper LED display screen 3, and a first connecting plate 122 positioned on the lower side surface of the first fixing seat 121 is connected with the lower LED display screen 3; so that the fixation of the LED display screen 3 in the LED composite glass curtain wall can be achieved with fewer first clamping mechanisms 1.

As an example, the second connecting structure 12 includes two first supporting plates 123, and the two first supporting plates 123 are respectively disposed on two opposite sides of the first fixing base 121; the first connecting plate 122 is provided with two first mounting structures 18, and the first mounting structures 18 are arranged in one-to-one correspondence with the first bearing plates 123. That is, the left and right sides of the first fixing base 121 are respectively provided with a first supporting plate 123, and the first connecting plate 122 is provided with two first mounting structures 18, so that one first fixture mechanism 1 can be connected with two left and right adjacent LED display screens 3, and the LED display screen 3 positioned at the left side is supported on the first supporting plate 123 positioned at the left side of the first fixing base 121 and connected with one first mounting structure 18; the LED display screen 3 positioned on the right side is supported on a first supporting plate 123 positioned on the right side surface of the first fixing seat 121 and is connected with another first mounting structure 18; so that the fixation of the LED display screen 3 in the LED composite glass curtain wall can be achieved with fewer first clamping mechanisms 1.

As an example, the second connecting structure 12 includes two first connecting plates 122, and the two first connecting plates 122 are respectively disposed on two opposite sides of the first fixing base 121; the second connecting structure 12 comprises two first supporting plates 123, and the two first supporting plates 123 are respectively arranged on two opposite side surfaces of the first fixing seat 121; the first connecting plate 122 is provided with two first mounting structures 18, and the first mounting structures 18 are arranged in one-to-one correspondence with the first bearing plates 123. That is, the upper and lower sides of the first fixing base 121 are respectively provided with a first connection plate 122; the left side surface and the right side surface of the first fixing seat 121 are respectively provided with a first bearing plate 123, and the first connecting plate 122 is provided with two first mounting structures 18; by adopting the design, one first fixture mechanism 1 can be connected with four adjacent LED display screens 3, and the four LED display screens 3 are distributed in a 2 x 2 matrix, so that the number of the first fixture mechanisms 1 is reduced as much as possible, and the LED display screens 3 in the LED combined glass curtain wall can be fixed by using fewer first fixture mechanisms 1.

In the present embodiment, as shown in fig. 2 and 3, the first mounting structure 18 on the first connection plate 122 located on the upper side of the first fixing base 121 is provided as a first elongated hole; the first connecting plate 122 is connected with the LED display screen 3 through a connecting bolt; by means of the design, the position of the LED display screen 3 can be adjusted, and connection of the first connecting plate 122 and the LED display screen 3 is facilitated.

In the present embodiment, as shown in fig. 3, the first mounting structure 18 on the first connection plate 122 located on the lower side of the first fixing base 121 is provided as a first circular hole; the first connecting plate 122 is connected with the LED display screen 3 through a connecting bolt; by the design, the first connecting plate 122 and the LED display screen 3 are convenient to connect, install and position, and operate.

In one embodiment, the second connecting structure 12 is integrally formed. By the design, the overall strength of the second connecting structure 12 is improved, the connection stability of the LED display screen 3 and the inhaul cable 4 is guaranteed, the number of parts is reduced, the processing technology is simple, and production and installation are facilitated.

In one embodiment, as shown in fig. 2, the first connection structure 11 includes a connection base 111 and a second clamping plate 112; the second clamping plate 112 is connected with the first clamping plate 13 by a first fastener 16 to form a first clamping space 14 therebetween; the connecting base 111 is connected to a side of the second clamping plate 112 away from the first clamping plate 13, and the connecting base 111 is connected to the first fixing base 121 by the second fastening member 17 to form a second clamping space 15 therebetween.

As an example, the second clamping plate 112 is connected with the first clamping plate 13 by the first fastener 16, forming the first clamping space 14. That is, the first fastener 16 is adjusted so that the first clamping plate 13 and the second clamping plate 112 clamp the glass 5 in the first clamping space 14. The second clamping plate 112 is arranged, so that the contact area between the second clamping plate 112 and the glass 5 is increased as much as possible, and the fixing stability of the glass 5 is improved.

Preferably, the first fastener 16 is a bolt; the threaded connection is stable, and simple structure is convenient for install and dismantle.

As an example, the connection base 111 is connected to the first fixing base 121 by the second fastening member 17 to form the second clamping space 15. That is, the cable 4 is fitted in the second clamping space 15, and the second fastener 17 is adjusted so that the connection base 111 and the first fixing base 121 clamp the cable 4 to fix the first clamp mechanism 1 to the cable 4.

Preferably, the second fastener 17 is a bolt; the threaded connection is stable, and simple structure is convenient for install and dismantle.

In one embodiment, as shown in fig. 2, the first connection structure 11 further includes a support 113; one side of the supporting piece 113 is connected with the second clamping plate 112, the other side of the supporting piece 113 is abutted with the first clamping plate 13, and the supporting piece 113 is used for supporting the glass 5. In this example, the supporting member 113 is fixed on the second clamping plate 112, and the supporting member 113 is located between the first clamping plate 13 and the second clamping plate 112; by means of the design, the second clamping plate 112 and the first clamping plate 13 clamp the glass 5 through the first fastening piece 16, the glass 5 is supported by the combination supporting piece 113, the glass 5 can be better fixed by the first clamping mechanism 1, and the fixing stability of the glass 5 is guaranteed.

In the present embodiment, the supporting member 113 is a cross-shaped supporting member 113, and the supporting member 113 divides the first clamping space 14 into four clamping positions, each for clamping a glass 5. In this example, the support 113 divides the first clamping space 14 into four clamping locations, each for clamping a glass 5. That is, one first clamping mechanism 1 can be connected with four adjacent glass pieces 5, and the four glass pieces 5 are distributed in a 2 x 2 matrix, wherein the first clamping mechanism 1 is positioned in the middle of the four glass pieces 5, and corners of each glass piece 5 adjacent to the other three glass pieces 5 are assembled in a clamping position; thereby reducing the number of first fixture mechanisms 1 as much as possible, and enabling the fixation of the glass 5 in the LED composite glass curtain wall with fewer first fixture mechanisms 1.

In one embodiment, the first connection structure 11 is integrally formed. By means of the design, the overall strength of the first connecting structure 11 is improved, the connection stability of the glass 5 and the inhaul cable 4 is guaranteed, the number of parts is reduced, the processing technology is simple, and production and installation are facilitated.

In one embodiment, as shown in fig. 1 and 4, the second clamp mechanism 2 includes a third connecting structure 21 and a fourth connecting structure 22; the fourth connection structure 22 includes a second fixing base 221 and a second mounting assembly; the second fixing base 221 and the third connecting structure 21 are connected by a third fastener 24 to form a third clamping space 23 therebetween for clamping the cable 4; the inhaul cable 4 is assembled in the third clamping space 23; the second installation component sets up on the second fixing base 221, and second installation component and LED display screen 3 fixed connection.

As an example, the second fixing base 221 is connected with the third connecting structure 21 by a third fastener 24 to form a third clamping space 23 therebetween for clamping the cable 4. That is, the cable 4 is fitted in the third clamping space 23, and the third fastener 24 is adjusted so that the third connecting structure 21 and the second fixing base 221 are clamped to the cable 4, thereby fixing the second clamp mechanism 2 to the cable 4.

As an example, a second mounting assembly is provided on the second fixing base 221 for mounting the LED display screen 3. That is, each second corner of the LED display 3 is fixedly connected with a second mounting assembly, so that the second mounting assembly provides a mounting position for the LED display 3 on the second fixing seat 221, and the LED display 3 is fixedly connected with the cable 4.

In this example, under the bigger circumstances of glass 5 size, when the upper and lower height of glass 5 is the upper and lower high multiple of LED display screen 3, the first corner of LED display screen 3 passes through first fixture mechanism 1 and cable 4 fixed connection, and the second corner of LED display screen 3 passes through second fixture mechanism 2 and cable 4 fixed connection, has guaranteed the steadiness of LED display screen 3 installation.

Preferably, the third fastener 24 is a bolt; the threaded connection is stable, and simple structure is convenient for install and dismantle.

In one embodiment, as shown in fig. 4 and 5, the second mounting assembly includes a second connection plate 222 and a second carrier plate 223; the second connecting plate 222 is arranged on the first side surface of the second fixing seat 221 along the axial direction of the inhaul cable 4, the second connecting plate 222 is provided with a second mounting structure 25, and the second mounting structure 25 is fixedly connected with the LED display screen 3; the second supporting plate 223 is arranged on the second side surface of the second fixing seat 221 along the axial direction perpendicular to the inhaul cable 4, and the LED display screen 3 is supported on the second supporting plate 223; the first side surface and the second side surface of the second fixing seat 221 are two adjacent side surfaces.

As an example, the second support plate 223 is provided in the axial direction perpendicular to the cable 4; that is, the second support plate 223 is disposed in the horizontal direction, and the bottom surface of the LED display screen 3 abuts on the second support plate 223, so that the second support plate 223 plays a supporting role for the LED display screen 3.

As an example, the second connection plate 222 is provided along the axial direction of the cable 4; that is, the second connection plate 222 is disposed in the up-down direction; the second connection plate 222 is located at one side of the LED display 3 in the left-right direction, and the LED display 3 is connected to the second mounting structure 25 on the second connection plate 222, so that the LED display 3 is fixed on the second connection plate 222, thereby fixing the LED display 3 on the cable 4.

In this example, the second supporting plate 223 supports the LED display 3, and the second connecting plate 222 provides a mounting position for the LED display 3; the second supporting plate 223 is matched with the second connecting plate 222, so that the LED display screen 3 is fixed on the inhaul cable 4, and the connection stability of the LED display screen 3 and the inhaul cable 4 is improved. The second installation component is simple in structure and convenient to process and install.

In an embodiment, as shown in fig. 4 and 5, the fourth connecting structure 22 includes two second connecting plates 222, and the two second connecting plates 222 are respectively disposed on two opposite sides of the second fixing base 221; and/or the fourth connecting structure 22 comprises two second supporting plates 223, and the two second supporting plates 223 are respectively arranged on two opposite sides of the second fixing seat 221; two second mounting structures 25 are arranged on the second connecting plate 222, and the second mounting structures 25 are arranged in one-to-one correspondence with the second bearing plates 223.

As an example, the fourth connecting structure 22 includes two second connecting plates 222, and the two second connecting plates 222 are respectively disposed on two opposite sides of the second fixing base 221. That is, the upper and lower sides of the second fixing base 221 are respectively provided with a second connection plate 222; the design is that one second clamp mechanism 2 can be connected with two vertically adjacent LED display screens 3, a second connecting plate 222 positioned on the upper side surface of a second fixing seat 221 is connected with the upper LED display screen 3, and a second connecting plate 222 positioned on the lower side surface of the second fixing seat 221 is connected with the lower LED display screen 3; so that the fixation of the LED display 3 in the LED composite glass curtain wall can be achieved with fewer second clamping mechanisms 2.

As an example, the fourth connecting structure 22 includes two second supporting plates 223, and the two second supporting plates 223 are respectively disposed on two opposite sides of the second fixing base 221; two second mounting structures 25 are arranged on the second connecting plate 222, and the second mounting structures 25 are arranged in one-to-one correspondence with the second bearing plates 223. That is, the left and right sides of the second fixing base 221 are respectively provided with a second supporting plate 223, and the second connecting plate 222 is provided with two second mounting structures 25, so that one second fixture mechanism 2 can be connected with two left and right adjacent LED display screens 3, and the LED display screen 3 positioned at the left side is supported on the second supporting plate 223 positioned at the left side of the second fixing base 221 and connected with one second mounting structure 25; the LED display 3 on the right side is supported on the second supporting plate 223 on the right side of the second fixing base 221 and is connected with another second mounting structure 25; so that the fixation of the LED display 3 in the LED composite glass curtain wall can be achieved with fewer second clamping mechanisms 2.

As an example, the fourth connecting structure 22 includes two second connecting plates 222, and the two second connecting plates 222 are respectively disposed on two opposite sides of the second fixing base 221; the fourth connecting structure 22 comprises two second supporting plates 223, and the two second supporting plates 223 are respectively arranged on two opposite sides of the second fixing seat 221; two second mounting structures 25 are arranged on the second connecting plate 222, and the second mounting structures 25 are arranged in one-to-one correspondence with the second bearing plates 223. That is, the upper and lower sides of the second fixing base 221 are respectively provided with a second connection plate 222; the left side surface and the right side surface of the second fixing seat 221 are respectively provided with a second supporting plate 223, and the second connecting plate 222 is provided with two second mounting structures 25; by adopting the design, one second clamp mechanism 2 can be connected with four adjacent LED display screens 3, and the four LED display screens 3 are distributed in a 2 x 2 matrix, so that the number of the second clamp mechanisms 2 is reduced as much as possible, and the LED display screens 3 in the LED combined glass curtain wall can be fixed by using fewer second clamp mechanisms 2.

In the present embodiment, as shown in fig. 4 and 5, the second mounting structure 25 on the second connection plate 222 located on the upper side of the second fixing base 221 is provided as a first elongated hole; the second connecting plate 222 is connected with the LED display screen 3 through a connecting bolt; by means of the design, the position of the LED display screen 3 can be adjusted, and connection of the second connecting plate 222 and the LED display screen 3 is facilitated.

In the present embodiment, as shown in fig. 5, the second mounting structure 25 on the second connection plate 222 located on the lower side of the second fixing base 221 is provided as a first circular hole; the second connecting plate 222 is connected with the LED display screen 3 through a connecting bolt; by the design, the second connecting plate 222 and the LED display screen 3 are conveniently connected, installed and positioned, and operation is convenient.

In one embodiment, fourth connecting structure 22 is integrally formed. By the design, the overall strength of the fourth connecting structure 22 is improved, the connection stability of the LED display screen 3 and the inhaul cable 4 is guaranteed, the number of parts is reduced, the processing technology is simple, and production and installation are facilitated.

As another implementation mode, the LED combined glass curtain wall further comprises a third clamp mechanism, and the LED display screen is fixed on the inhaul cable through the third clamp mechanism. In this example, glass is fixed on the cable through a first clamp mechanism, and the LED display screen is fixed on the cable through a third clamp mechanism. That is, the glass and the LED display screen are respectively fixed on the inhaul cable by adopting corresponding connecting structures, so that the fixation of the glass and the LED display screen is mutually independent.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. An LED combined glass curtain wall comprises a glass curtain wall, wherein the glass curtain wall comprises a stay rope, glass and a first clamp mechanism, and the glass is fixed on the stay rope through the first clamp mechanism; it is characterized in that the method comprises the steps of,

the LED combined glass curtain wall further comprises an LED display screen; the LED display screen is positioned at the rear side of the glass, and the LED display screen is fixed on the inhaul cable.

2. The LED composite glass curtain wall of claim 1, wherein a plurality of the glasses are distributed in a rectangular array and a plurality of the LED display screens are distributed in a rectangular array;

each row of glass is arranged corresponding to one row of LED display screens;

and each row of glass and the corresponding row of LED display screen are fixed on the same inhaul cable.

3. The LED composite glass curtain wall of claim 2, wherein a row of said glass and a row of said LED display screen are disposed between each adjacent two of said cables;

In each row of the glass, the left side corner of each glass is fixed on the inhaul cable positioned on the left side through the first clamp mechanism, and the right side corner of each glass is fixed on the inhaul cable positioned on the right side through the first clamp mechanism;

in each row of LED display screens, the left side edge of each LED display screen is fixed on the stay rope positioned on the left side, and the right side edge of each LED display screen is fixed on the stay rope positioned on the right side.

4. The LED composite glass curtain wall of claim 3, wherein four corners of each LED display screen are disposed opposite four corners of one piece of glass;

and each corner of the LED display screen is fixedly connected with the corresponding corner of the glass through one first clamp mechanism.

5. The LED composite glass curtain wall of claim 3, wherein a portion of four corners of one of said LED display panels is disposed opposite a corner of one of said glass panels;

the edge angle of the LED display screen is divided into a first edge angle and a second edge angle;

the first corner is arranged opposite to the corner of the glass; the corner corresponding to the glass of the first corner is fixed on the inhaul cable through a first clamp mechanism;

The second corner is arranged opposite to the side edge of the glass; the LED combined glass curtain wall further comprises a second clamp mechanism, and the second corner is fixed on the inhaul cable through one second clamp mechanism.

6. The LED combiner glass curtain wall of claim 4 or 5, wherein the first fixture mechanism comprises a first connection structure, a second connection structure, and a first clamping plate;

the first connecting structure is connected with the first clamping plate through a first fastener so as to form a first clamping space for clamping the glass between the first connecting structure and the first clamping plate; the glass is assembled in the first clamping space;

the second connecting structure comprises a first fixing seat and a first mounting assembly;

the first fixing seat is connected with the first connecting structure through a second fastening piece so as to form a second clamping space for clamping the inhaul cable between the first fixing seat and the first connecting structure; the inhaul cable is assembled in the second clamping space;

the first installation component is arranged on the first fixing seat, and the first installation component is fixedly connected with the LED display screen.

7. The LED modular glass curtain wall of claim 6, wherein the first mounting assembly comprises a first connection plate and a first bearing plate;

The first connecting plate is arranged on the first side face of the first fixing seat along the axial direction of the inhaul cable, a first mounting structure is arranged on the first connecting plate, and the first mounting structure is fixedly connected with the LED display screen;

the first bearing plate is arranged on the second side surface of the first fixing seat along the axial direction perpendicular to the inhaul cable, and the LED display screen is supported on the first bearing plate;

the first side face and the second side face of the first fixing seat are two adjacent side faces.

8. The LED modular glass curtain wall of claim 5, wherein the second fixture mechanism comprises a third connection structure and a fourth connection structure;

the fourth connecting structure comprises a second fixing seat and a second mounting assembly; the second fixing seat is connected with the third connecting structure through a third fastener so as to form a third clamping space for clamping the inhaul cable between the second fixing seat and the third connecting structure; the inhaul cable is assembled in the third clamping space; the second installation component is arranged on the second fixing seat, and the second installation component is fixedly connected with the LED display screen.

9. The LED modular glass curtain wall of claim 8, wherein the second mounting assembly comprises a second connection plate and a second bearing plate;

The second connecting plate is arranged on the first side face of the second fixing seat along the axial direction of the inhaul cable, a second mounting structure is arranged on the second connecting plate, and the second mounting structure is fixedly connected with the LED display screen;

the second supporting plate is arranged on the second side face of the second fixing seat along the axial direction perpendicular to the inhaul cable, and the LED display screen is supported on the second supporting plate;

the first side face and the second side face of the second fixing seat are two adjacent side faces.

10. The LED composite glass curtain wall of claim 1, further comprising a third clamp mechanism, wherein the LED display screen is secured to the cable by the third clamp mechanism.