Switching structure and curtain wall system
By using adapters and connecting components in the transition structure, the problems of low installation efficiency and difficulty in controlling precision of ceramic roller rectangular tubes are solved, achieving efficient and precise positioning and stable connection, thus improving the aesthetics and safety of the curtain wall system.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SUZHOU KELIDA BUILDING & DECORATION CO LTD
- Filing Date
- 2025-06-03
- Publication Date
- 2026-06-26
Smart Images

Figure CN224412889U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of curtain wall technology, specifically to a transition structure and curtain wall system. Background Technology
[0002] Ceramic roller curtain walls are a modern building facade system that combines the natural texture of terracotta materials with metal roll forming technology, resulting in unique decorative and functional properties. The system is constructed by using ceramic rollers as the outer panel, combined with a metal frame (such as aluminum alloy), insulation layer, and waterproof layer.
[0003] In current technology, over 80% of domestic projects use bolt connections, welding, or snap-fit installation methods to fix terracotta rollers and rectangular tubes. These methods are widely used in curtain walls, building facades, and other fields. However, the transition structure used in existing terracotta roller and rectangular tube installation methods relies on manual labor, has a long construction cycle, and is time-consuming on average, resulting in low installation efficiency. Furthermore, the installation accuracy of terracotta rollers and rectangular tubes is difficult to control, which also affects the overall aesthetics and structural safety. Utility Model Content
[0004] In view of this, the present invention provides a transition structure and curtain wall system to solve the problems of low installation efficiency and difficulty in controlling the installation accuracy of ceramic roller rectangular tubes in existing curtain wall systems, which also have a certain impact on the overall aesthetics and structural safety.
[0005] In a first aspect, this utility model provides a transition structure, comprising:
[0006] The adapter assembly includes at least two adapters, which are arranged at intervals relative to each other. Each adapter has a plurality of abutment portions, all of which are spaced apart on the same side of the adapter, and the abutment portions on the two adapters are arranged opposite to each other.
[0007] A connecting component, one end of which is adapted to extend into and connect with the two adapters, and the other end of which is adapted to connect with a column;
[0008] Wherein, any of the abutting portions is adapted to be inserted into the cavity of the ceramic roller tube under the action of external force, and when the abutting portion is inserted into the cavity, the abutting portion is adapted to abut against the inner wall surface of the cavity of the ceramic roller tube, so as to fix the ceramic roller tube on the column by friction.
[0009] Beneficial effects: By inserting the abutting part on the adapter into the cavity of the ceramic roller tube under the action of external force, and abutting against the inner wall of the cavity of the ceramic roller tube, the adapter and the ceramic roller tube are connected. Then, the adapter is installed on the column by the connecting assembly that is connected to the column and the two adapters at both ends respectively. In this way, the ceramic roller tube can be installed on the column, which helps to improve the installation efficiency of the ceramic roller tube.
[0010] In one alternative embodiment, the adapter assembly further includes a seal disposed between the abutment portion and the inner wall surface of the cavity of the ceramic roller tube to seal the gap between the abutment portion and the inner wall surface of the cavity of the ceramic roller tube.
[0011] Beneficial effects: By including a sealing element in the adapter assembly, which is an EPDM rubber strip in this embodiment, the sealing element is specifically disposed between the abutment part and the inner wall surface of the cavity of the ceramic roller tube, thereby sealing the gap between the abutment part and the inner wall surface of the cavity of the ceramic roller tube. This allows for full contact between the abutment part and the inner wall surface of the cavity of the ceramic roller tube, thereby increasing the friction between the abutment part and the inner wall surface of the cavity of the ceramic roller tube, which is beneficial to improving the installation stability of the ceramic roller tube.
[0012] In one optional embodiment, the adapter is further provided with a positioning part, and all the abutting parts are located on the same side of the positioning part. When the abutting part is inserted into the cavity on the ceramic roller tube, the end of the ceramic roller tube is adapted to abut against the positioning part.
[0013] Beneficial effects: By setting a positioning part on the adapter, which in this embodiment is a positioning plate, and all the abutment parts are set on the same side of the positioning part, and when the abutment part is inserted into the cavity of the ceramic roller tube under the action of external force, the end of the ceramic roller tube can abut against the positioning part. In this way, the installation accuracy of the ceramic roller tube can be accurately controlled, which is conducive to improving the overall aesthetics of the curtain wall system.
[0014] In one alternative embodiment, any of the abutting portions and the positioning portions are arranged perpendicularly.
[0015] Beneficial effects: By setting the abutment part and the positioning part to be perpendicular, since the inner wall of the cavity on the ceramic roller tube is perpendicular to the end wall of the ceramic roller tube, the abutment part and the positioning part are set to be perpendicular to each other to adapt to the structure of the ceramic roller tube.
[0016] In one alternative embodiment, the connecting assembly includes a connector, one end of which is connected to the post, and the other end of which is adapted to be inserted into the gap between the two adapters and connected to the two adapters.
[0017] Beneficial effects: By setting the connecting component to include a connector, which in this embodiment is a connecting plate, one end of the connector is connected to the column, and the other end can be inserted into the gap between the two adapters and connected to the two adapters. In this way, the two adapters can be installed on the column.
[0018] In one alternative embodiment, the connecting assembly further includes a locking member adapted to penetrate the ends of the two adapters and the connector under external force to connect the connector and the two adapters.
[0019] Beneficial effects: By including a locking element in the connecting assembly, which is a bolt in this embodiment, the locking element can penetrate the ends of the two adapters and connectors under external force, so that when the end of the connector extends into the gap between the two adapters, the locking element can connect the ends of the two adapters and connectors together.
[0020] In one alternative embodiment, the connection assembly further includes a filler disposed between the adapter and the connector to fill the gap between the adapter and the connector.
[0021] Beneficial effects: By including a filler in the connecting component, which is a rubber gasket in this embodiment, the filler is specifically disposed between the adapter and the connector, thereby filling the gap between the adapter and the connector and isolating the connector and the adapter to avoid mutual corrosion between the adapter and the connector.
[0022] In one optional embodiment, the positioning portions on the two adapters are integrally formed, and all the abutting portions are respectively arranged on both sides of the positioning portion and are arranged in a one-to-one correspondence. The end of the positioning portion is provided with a clearance portion for the insertion of the connecting component.
[0023] Beneficial effects: By setting the positioning parts on the two adapters to be an integrally formed structure, the two adapters become an integral structure, and all the abutment parts are respectively set on both sides of the positioning part, and are arranged one-to-one with each other. In this way, the adapters can be connected to the two ceramic roller tubes through the abutment parts on both sides of the positioning part. At the same time, since the positioning parts on the two adapters are integrally formed, a clearance part is required at the end of the positioning part for the end of the connecting component to be inserted. In this embodiment, the clearance part is a clearance groove. In this way, the connection between the adapter and the connecting component can be realized.
[0024] Secondly, this utility model also provides a curtain wall system, including columns, ceramic roller rectangular tubes and the aforementioned transition structure.
[0025] Beneficial effects: By setting up a curtain wall system including columns, ceramic roller tubes, and the aforementioned adapter structure, that is, by installing the adapter on the columns through connecting components, and then connecting the adapter to the ceramic roller tube through the abutment part on the adapter, the ceramic roller tube is installed on the columns. This helps to improve the installation efficiency of the ceramic roller tube. In addition, the installation of the ceramic roller tube can be accurately controlled by the positioning unit on the adapter, thereby improving the overall aesthetics of the curtain wall system. Attached Figure Description
[0026] To more clearly illustrate the specific embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the specific embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.
[0027] Figure 1 This is a cross-sectional view of a junction structure according to an embodiment of the present utility model.
[0028] Figure 2 This is a vertical section diagram of a transition structure according to an embodiment of the present utility model.
[0029] Explanation of reference numerals in the attached figures:
[0030] 1-Adapter assembly; 11-Adapter part; 111-Abutting part; 112-Positioning part; 12-Sealing part;
[0031] 2-Connecting assembly; 21-Connector; 22-Locking element; 23-Filling element;
[0032] 3-Column; 4-Ceramic roller rectangular tube. Detailed Implementation
[0033] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.
[0034] The following is combined Figure 1 and Figure 2 The following describes embodiments of the present invention.
[0035] According to an embodiment of the present invention, in one aspect, a transition structure is provided, such as... Figure 1 and Figure 2As shown, the assembly includes a converter assembly 1 and a connecting assembly 2. The converter assembly 1 includes at least two converter pieces 11, which are arranged at intervals relative to each other. Each converter piece 11 is provided with a plurality of abutment portions 111, which are all spaced apart on the same side of the converter piece 11. The abutment portions 111 on the two converter pieces 11 are arranged opposite to each other. One end of the connecting assembly 2 is adapted to extend into the gap between the two converter pieces 11 and connect with the two converter pieces 11. The other end of the connecting assembly 2 is adapted to connect with the column 3. Each abutment portion 111 is adapted to be inserted into the cavity of the ceramic roller tube 4 under the action of external force. When the abutment portion 111 is inserted into the cavity, the abutment portion 111 is adapted to abut against the inner wall of the cavity of the ceramic roller tube 4 to fix the ceramic roller tube 4 to the column 3 by friction.
[0036] The aforementioned transition structure utilizes a transition assembly 1 and a connecting assembly 2 disposed between the column 3 and the ceramic roller rectangular tube 4. The transition assembly 1 includes two transition pieces 11, which in this embodiment are transition profiles. The two transition pieces 11 are spaced apart, and each transition piece 11 has several abutment portions 111, which in this embodiment are abutment plates. All abutment portions 111 are spaced apart and located on the same side of the transition piece 11. This allows the abutment portions 111 on the two transition pieces 11 to be positioned opposite each other when they are spaced apart. The connecting assembly... One end of the connecting component 2 can extend into the gap between the two adapters 11 and connect to the two adapters 11 respectively. The other end of the connecting component 2 can connect to the column 3, so that the connecting component 2 can install the two adapters 11 on the column 3 at the same time. In addition, each abutment part 111 on the adapter 11 can be inserted into the cavity of the ceramic roller tube 4 under the action of external force. When the abutment part 111 is inserted into the cavity, the abutment part 111 can abut against the inner wall of the cavity of the ceramic roller tube 4. Thus, the ceramic roller tube 4 can be fixed on the column 3 by the friction between the abutment part 111 and the inner wall of the cavity of the ceramic roller tube 4, and the installation of the ceramic roller tube 4 is realized.
[0037] Specifically, the end of the connecting component 2 connected to the column 3 is connected to the column 3 by welding, while the abutment part 111 on the adapter 11 can be directly inserted into the cavity on the ceramic roller tube 4 under the action of external force. After the adapter 11 is connected to the ceramic roller tube 4 through the abutment part 111, the adapter 11 can be connected to the end of the connecting component 2 away from the column 3. In this way, the ceramic roller tube 4 can be installed on the column 3, which helps to improve the installation efficiency of the ceramic roller tube 4.
[0038] In one embodiment, such as Figure 1As shown, the adapter assembly 1 also includes a seal 12, which is disposed between the abutment portion 111 and the inner wall of the cavity of the ceramic roller tube 4 to seal the gap between the abutment portion 111 and the inner wall of the cavity of the ceramic roller tube 4.
[0039] The above-described adapter structure, by setting the adapter component 1, also includes a sealing element 12. In this embodiment, the sealing element 12 is an EPDM rubber strip. The sealing element 12 is specifically disposed between the abutment part 111 and the inner wall surface of the cavity of the ceramic roller tube 4, thereby sealing the gap between the abutment part 111 and the inner wall surface of the cavity of the ceramic roller tube 4, so that the abutment part 111 and the inner wall surface of the cavity of the ceramic roller tube 4 can make full contact, thereby increasing the friction between the abutment part 111 and the inner wall surface of the cavity of the ceramic roller tube 4, which is beneficial to improving the installation stability of the ceramic roller tube 4.
[0040] In one embodiment, such as Figure 1 As shown, the adapter 11 is also provided with a positioning part 112, and all the abutting parts 111 are provided on the same side of the positioning part 112. When the abutting part 111 is inserted into the cavity on the ceramic roller tube 4, the end of the ceramic roller tube 4 is adapted to abut against the positioning part 112.
[0041] The above-described transition structure, through the positioning part 112 provided on the transition member 11, the positioning part 112 is a positioning plate surface in this embodiment, all the abutment parts 111 are provided on the same side of the positioning part 112, and when the abutment part 111 is inserted into the cavity of the ceramic roller rectangular tube 4 under the action of external force, the end of the ceramic roller rectangular tube 4 can abut with the positioning part 112. In this way, the installation accuracy of the ceramic roller rectangular tube 4 can be accurately controlled, which is beneficial to improving the overall aesthetics of the curtain wall system.
[0042] In one embodiment, such as Figure 1 As shown, any abutting part 111 and positioning part 112 are arranged vertically.
[0043] The above-described transfer structure is designed so that the abutment part 111 and the positioning part 112 are arranged vertically. Since the inner wall of the cavity on the ceramic roller tube 4 is perpendicular to the end wall of the ceramic roller tube 4, the abutment part 111 and the positioning part 112 are arranged vertically to adapt to the structure of the ceramic roller tube 4.
[0044] In one embodiment, such as Figure 1 and Figure 2 As shown, the connecting component 2 includes a connector 21, one end of which is connected to the column 3, and the other end is adapted to be inserted into the gap between the two adapters 11 and connected to the two adapters 11.
[0045] The above-described adapter structure includes a connector 21 in the connecting component 2. In this embodiment, the connector 21 is a connecting plate. One end of the connector 21 is connected to the column 3, and the other end can be inserted into the gap between the two adapters 11 and connected to the two adapters 11. In this way, the two adapters 11 can be installed on the column 3.
[0046] In one embodiment, such as Figure 1 and Figure 2 As shown, the connecting assembly 2 also includes a locking member 22, which is adapted to penetrate the ends of the two adapters 11 and the connector 21 under the action of external force, so as to connect the connector 21 and the two adapters 11.
[0047] The above-described adapter structure, by setting the connecting component 2, also includes a locking member 22. In this embodiment, the locking member 22 is a bolt. The locking member 22 can penetrate through the ends of the two adapters 11 and the connector 21 under the action of external force, so that when the end of the connector 21 extends into the gap between the two adapters 11, the locking member 22 can connect the ends of the two adapters 11 and the connector 21 together.
[0048] In one embodiment, such as Figure 1 As shown, the connecting component 2 also includes a filler 23, which is disposed between the adapter 11 and the connector 21 to fill the gap between the adapter 11 and the connector 21.
[0049] The above-described adapter structure, by setting the connecting component 2, also includes a filler 23. In this embodiment, the filler 23 is a rubber gasket. The filler 23 is specifically disposed between the adapter 11 and the connector 21, thereby filling the gap between the adapter 11 and the connector 21 and isolating the connector 21 and the adapter 11 to avoid mutual corrosion between the adapter 11 and the connector 21.
[0050] In one embodiment, such as Figure 1 As shown, the positioning part 112 on the two adapters 11 is an integrally formed structure. All the abutting parts 111 are respectively arranged on both sides of the positioning part 112 and are arranged in a one-to-one correspondence. The end of the positioning part 112 is provided with a clearance part for the insertion of the connecting component 2.
[0051] The above-described adapter structure, by setting the positioning parts 112 on the two adapter pieces 11 as an integral structure, makes the two adapter pieces 11 a single structure, and thus all the abutment parts 111 are respectively set on both sides of the positioning parts 112, and are arranged one-to-one with each other. In this way, the adapter piece 11 can be connected to the two ceramic roller tubes 4 through the abutment parts 111 on both sides of the positioning parts 112. At the same time, since the positioning parts 112 on the two adapter pieces 11 are integrally formed, the end of the positioning part 112 needs to be provided with a clearance part for the end of the connecting component 2 to be inserted. In this embodiment, the clearance part is a clearance groove. In this way, the connection between the adapter piece 11 and the connecting component 2 can be realized.
[0052] According to an embodiment of the present invention, another aspect also provides a curtain wall system, such as... Figure 1 and Figure 2 As shown, the curtain wall system includes a column 3, a ceramic roller tube 4, and the aforementioned connecting structure. This curtain wall system, by including the column 3, the ceramic roller tube 4, and the connecting structure, allows the connecting component 11 to be installed on the column 3 via the connecting assembly 2. The connecting component 11 is then connected to the ceramic roller tube 4 via its abutment portion 111, thereby installing the ceramic roller tube 4 on the column 3. This improves the installation efficiency of the ceramic roller tube 4. Furthermore, the positioning portion 112 on the connecting component 11 allows for precise control of the installation of the ceramic roller tube 4, enhancing the overall aesthetics of the curtain wall system.
[0053] Although embodiments of the present invention have been described in conjunction with the accompanying drawings, those skilled in the art can make various modifications and variations without departing from the spirit and scope of the present invention, and such modifications and variations all fall within the scope defined by the appended claims.
Claims
1. A transition structure, characterized in that, include: The adapter assembly (1) includes at least two adapters (11), which are arranged at intervals relative to each other. Each adapter (11) is provided with a plurality of abutment portions (111), and all the abutment portions (111) are arranged at intervals on the same side of the adapter (11). The abutment portions (111) on the two adapters (11) are arranged opposite to each other. A connecting component (2), one end of which is adapted to extend into the gap between the two adapters (11) and to be connected to the two adapters (11), and the other end of which is adapted to be connected to the column (3); Wherein, any of the abutting parts (111) is adapted to be inserted into the cavity on the ceramic roller tube (4) under the action of external force, and when the abutting part (111) is inserted into the cavity, the abutting part (111) is adapted to abut against the inner wall of the cavity of the ceramic roller tube (4) so as to fix the ceramic roller tube (4) on the column (3) by friction.
2. The adapter structure according to claim 1, characterized in that, The adapter assembly (1) further includes a seal (12) disposed between the abutment portion (111) and the inner wall of the cavity of the ceramic roller tube (4) to seal the gap between the abutment portion (111) and the inner wall of the cavity of the ceramic roller tube (4).
3. The adapter structure according to claim 2, characterized in that, The adapter (11) is also provided with a positioning part (112), and all the abutting parts (111) are located on the same side of the positioning part (112). When the abutting part (111) is inserted into the cavity on the ceramic roller tube (4), the end of the ceramic roller tube (4) is adapted to abut against the positioning part (112).
4. The adapter structure according to claim 3, characterized in that, The abutting part (111) and the positioning part (112) are arranged perpendicularly.
5. The adapter structure according to claim 4, characterized in that, The connecting component (2) includes a connector (21), one end of which is connected to the column (3), and the other end is adapted to be inserted into the gap between the two adapters (11) and connected to the two adapters (11).
6. The adapter structure according to claim 5, characterized in that, The connecting assembly (2) further includes a locking member (22) adapted to penetrate the ends of the two adapters (11) and the connector (21) under external force to connect the connector (21) and the two adapters (11).
7. The adapter structure according to claim 6, characterized in that, The connecting assembly (2) further includes a filler (23) disposed between the adapter (11) and the connector (21) to fill the gap between the adapter (11) and the connector (21).
8. The adapter structure according to claim 4, characterized in that, The positioning part (112) on the two adapters (11) is an integrally formed structure. All the abutting parts (111) are respectively arranged on both sides of the positioning part (112) and are arranged in a one-to-one correspondence. The end of the positioning part (112) is provided with a clearance part for the insertion of the connecting component (2).
9. A curtain wall system, characterized in that, It includes a column (3), a ceramic roller rectangular tube (4), and a transfer structure as described in any one of claims 1-8.