CN109184043B - Thermal insulation type partition system - Google Patents

Abstract

The invention discloses a heat-insulating partition system, which comprises a fixed frame, wherein the fixed frame comprises a first steel frame, a first connecting component and a first non-fireproof frame with visual grain appearance effect, the first steel frame is connected with the first non-fireproof frame for improving the visual grain appearance effect on at least one side of a visual surface through the first connecting component, an air heat-insulating gap is formed between the first connecting component and the first steel frame, the first connecting component is arranged continuously without interval along the length direction of the air heat-insulating gap, and a first partition board or an opening fan is arranged in the first steel frame. The partition system has the advantages of simple structure, ingenious design, attractive appearance, high fire resistance and high heat preservation performance.

Description

Thermal insulation type partition system

Technical Field

The invention mainly relates to the field of constructional engineering, in particular to a heat-insulating partition system.

Background

The profile is widely used in the building industry, especially in the fields of curtain walls, doors and windows, partitions and the like of buildings, and if the appearance effect of wood grains is required to be realized in the doors and windows, the pure steel doors and windows are difficult to realize. The steel door and window is formed by welding sectional materials, and the manufacturing sequence is that the welding, polishing and spraying are firstly carried out, and the surface coating can be damaged due to the fact that the welding temperature is too high, so that the welding, polishing and spraying can only be carried out firstly. Thus, wood grain transfer cannot be achieved. But steel doors and windows have good fire resistance. The aluminum alloy door and window can realize the transfer printing of the wood grain of the profile, and then the aluminum alloy door and window is assembled through mechanical connection, so that the surface coating cannot be damaged, and the transfer printing of the wood grain can be performed before the aluminum alloy door and window is assembled. The aluminum alloy has a low melting point, so that the fireproof function is difficult to realize.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the heat-insulating partition system which has the advantages of simple structure, ingenious design, attractive appearance, high fire resistance and high heat preservation performance.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a thermal-insulated formula cuts off system, includes fixed frame, fixed frame includes first steel frame, first coupling assembling and possesses the first non-fire-resistant frame of visual line outward appearance effect, first steel frame is connected with through first coupling assembling on the visual face of one side at least be used for improving the first non-fire-resistant frame of this visual face outward appearance effect, form the thermal-insulated clearance of air between first coupling assembling and the first steel frame, first coupling assembling is continuous no interval arrangement along the length direction in this thermal-insulated clearance of air, be equipped with first partition panel or open the fan in the first steel frame.

As a further improvement of the above technical scheme:

the opening fan comprises an opening frame and a second partition board, the opening frame comprises a second steel frame, a second connecting component and a second non-fireproof frame with visual grain appearance effects, the second steel frame is connected with the second non-fireproof frame for improving the visual surface appearance effects at least on one side through the second connecting component, an air heat insulation gap is formed between the second connecting component and the second steel frame, the second connecting component is arranged continuously without intervals along the length direction of the air heat insulation gap, and the second partition board is installed in the second steel frame.

The novel wall panel is characterized by further comprising buckling strips with visual grain appearance effects, wherein the buckling strips are arranged on the inner sides of first non-fireproof frames of the first steel frames for installing the first wall panel and/or second non-fireproof frames of the second steel frames for installing the second wall panel, and installing grooves for respectively bearing the corresponding first wall panel and the second wall panel are formed between the buckling strips and the corresponding first steel frames and between the buckling strips and the corresponding second steel frames.

The first non-fireproof frame and the second non-fireproof frame are respectively provided with a fastening bolt on the inner side wall, the buckling strip is arranged to be a steel strip of an opening section bar, and two fracture edges of the buckling strip are fastened with screw heads of the fastening bolts.

The buckling strip comprises a steel buckling strip of an opening section and a non-fireproof buckling strip with visual grain appearance effect, the first non-fireproof frame and the second non-fireproof frame are respectively provided with a fastening bolt on the inner side wall, the steel buckling strip is connected with the fastening bolts, and the non-fireproof buckling strip is buckled on two fracture edges of the steel buckling strip.

The first connecting assembly and the second connecting assembly comprise steel connecting plates, fastening bolts and heat-resistant limiting sleeves, the corresponding steel connecting plates are fixedly connected with corresponding first steel frames and second steel frames through the fastening bolts, the heat-resistant limiting sleeves are sleeved on the fastening bolts and abut against the steel connecting plates and the corresponding first steel frames and second steel frames, air heat-insulating gaps are formed between the steel connecting plates and the corresponding first steel frames and the corresponding second steel frames through the heat-resistant limiting sleeves, the heat-resistant limiting sleeves are arranged continuously without intervals along the length direction of the corresponding air heat-insulating gaps, and the first non-fireproof frames and the second non-fireproof frames are connected with the corresponding steel connecting plates.

The steel connecting plate comprises connecting edges, buckling edges are bent at two ends of the connecting edges, buckling cavities are formed in the first non-fireproof frame and the second non-fireproof frame respectively, the corresponding connecting edges are fixedly connected with the corresponding first steel frame and the corresponding second steel frame through fastening bolts, air heat insulation gaps are formed between the connecting edges and the corresponding first steel frame and the corresponding second steel frame through heat-resistant limiting sleeves, and the buckling cavities on the first non-fireproof frame and the corresponding second non-fireproof frame are buckled with the corresponding buckling edges.

Limiting grooves are formed in the first steel frame, the second steel frame and the connecting edges, and two ends of the heat-resistant limiting sleeve are sunk in the corresponding limiting grooves.

The two ends of the connecting edge are also bent to form a pressing edge, and the pressing edge is pressed on the side walls of the corresponding first steel frame and the second steel frame.

And limiting grooves are formed in the first steel frame and the second steel frame, and one end of the heat-resistant limiting sleeve is sunk in the corresponding limiting groove.

And extending edges extending to the side walls of the corresponding first steel frame and second steel frame are arranged on two sides of the first non-fireproof frame and the second non-fireproof frame.

The steel profiles of the first steel frame and the second steel frame are all provided with opening profiles, and the fastening bolts are arranged on two sides of the opening of the corresponding steel profile.

The steel section bars of the first steel frame and the second steel frame are all set to be opening section bars, the fastening bolts are arranged on two sides of the opening of the corresponding steel section bars, sealing edges are bent at two ends of the connecting edge, the sealing edges extend to the corresponding side walls of the first steel frame and the second steel frame, and extending edges extending to the corresponding side walls of the first steel frame and the second steel frame are arranged on two sides of the first non-fireproof frame and the second non-fireproof frame.

The first non-fireproof frame is installed on the visible surface of one side of the first steel frame through the first connecting component, and the second non-fireproof frame is installed on the visible surface of one side of the second steel frame through the second connecting component.

The fire-resistant steel frame is characterized by further comprising a third non-fire-resistant frame and a third connecting assembly, wherein the third non-fire-resistant frame is installed on the other visible surface of the corresponding first steel frame and second steel frame through the third connecting assembly.

The third connecting assembly comprises a buckling table and locking bolts, the corresponding buckling table is respectively and fixedly connected with the other visible surfaces of the corresponding first steel frame and the second steel frame through the locking bolts, and the third non-fireproof frame is buckled on the corresponding buckling table.

The buckling connection platform comprises a connection platform and a buckling platform which are connected into a whole, the corresponding connection platform is respectively and fixedly connected with the other visible surfaces of the corresponding first steel frame and the second steel frame through locking bolts, and the third non-fireproof frame is buckled on the corresponding buckling platform.

The third non-fireproof frame is provided with a buckle plate at the inner side, and the third non-fireproof frame is buckled with the corresponding buckle table through the buckle plate.

Compared with the prior art, the invention has the advantages that:

the invention discloses a heat-insulating partition system, which comprises a fixed frame, wherein the fixed frame comprises a first steel frame, a first connecting component and a first non-fireproof frame with visual grain appearance effect, the first steel frame is connected with the first non-fireproof frame for improving the visual grain appearance effect on at least one visual surface through the first connecting component, an air heat-insulating gap is formed between the first connecting component and the first steel frame, the first connecting component is continuously arranged without interval along the length direction of the air heat-insulating gap, and a first partition plate or an opening fan is arranged in the first steel frame. The first steel frame has good fire behavior, and first non-fire-resistant frame can adopt aluminium alloy frame, and it can realize earlier line rendition and assemble again, can not destroy the surface coating, and first non-fire-resistant frame passes through first coupling assembling and installs on the visual face of first steel frame for visual face side possesses visual line outward appearance effect. Compared with the traditional structure, the partition system forms a fixed frame which has fireproof function and visual grain appearance effect through the organic combination of the first steel frame and the first non-fireproof frame, has simple structure and ingenious design, has good fireproof performance, and has attractive appearance and high resistance to being seen; and moreover, an air heat insulation gap is formed between the first connecting assembly and the first steel frame, namely, an air heat insulation bridge cut-off is formed inside, so that a certain heat insulation effect is achieved.

Drawings

Fig. 1 is a schematic structural view of embodiment 1 of the present invention.

Fig. 2 is a partially enlarged schematic structural view of fig. 1.

Fig. 3 is a schematic side view of embodiment 1 of the present invention.

Fig. 4 is a schematic structural view of embodiment 2 of the present invention.

Fig. 5 is a partially enlarged schematic structural view of fig. 4.

Fig. 6 is a schematic structural view of embodiment 3 of the present invention.

Fig. 7 is a schematic structural view of embodiment 4 of the present invention.

Fig. 8 is a partially enlarged schematic structural view of fig. 7.

Fig. 9 is a schematic structural view of embodiment 5 of the present invention.

Fig. 10 is a partially enlarged schematic structural view of fig. 9.

Fig. 11 is a schematic structural view of embodiment 6 of the present invention.

Fig. 12 is a partially enlarged structural schematic view of fig. 11.

Fig. 13 is a schematic structural view of embodiment 7 of the present invention.

Fig. 14 is a partially enlarged structural schematic view of fig. 13.

Fig. 15 is a schematic structural view of embodiment 8 of the present invention.

Fig. 16 is a partially enlarged structural schematic view of fig. 15.

The reference numerals in the drawings denote:

1. a fixed frame; 11. a first steel frame; 12. a first connection assembly; 13. a first non-refractory frame; 2. an air insulation gap; 3. a first partition panel; 4. opening a fan; 41. opening the frame; 411. a second steel frame; 412. a second connection assembly; 413. a second non-refractory frame; 42. a second partition panel; 5. a buckling strip; 51. a steel buckle strip; 52. a non-fire resistant buckle strip; 6. a mounting groove; 7. a fastening bolt; 8. a steel connecting plate; 81. connecting edges; 82. fastening edges; 83. edge pressing; 84. sealing edges; 9. a fastening bolt; 10. a heat-resistant limit sleeve; 20. a buckling cavity; 30. a limit groove; 40. an extension edge; 50. a third non-refractory frame; 501. a buckle plate; 60. a third connection assembly; 601. a buckling table; 6011. a connection station; 6012. a buckling table; 602. a locking bolt.

Detailed Description

The invention will be described in further detail with reference to the drawings and the specific examples.

Example 1:

as shown in fig. 1 to 3, the insulation partition system of the present invention comprises a fixed frame 1, wherein the fixed frame 1 comprises a first steel frame 11, a first connecting component 12 and a first non-refractory frame 13 with visual grain appearance effect, the first steel frame 11 is connected with the first non-refractory frame 13 for improving the visual surface appearance effect on at least one visual surface through the first connecting component 12, an air insulation gap 2 is formed between the first connecting component 12 and the first steel frame 11, the first connecting component 12 is arranged continuously and non-intermittently along the length direction of the air insulation gap 2, and a first partition panel 3 is installed in the first steel frame 11. This structure has formed a fixed partition system, possesses single partition function, and first partition panel 3 can set up to the glass board, and first steel frame 11 has good fire behavior, and first non-fire-resistant frame 13 can adopt aluminium alloy frame, and it can realize earlier line rendition and assemble again, can not destroy the surface coating, and first non-fire-resistant frame 13 passes through first coupling assembling 12 and installs on first steel frame 11's visual face for visual face side possesses visual line outward appearance effect. Compared with the traditional structure, the partition system forms the fixed frame 1 which has the fireproof function and the visual grain appearance effect through the organic combination of the first steel frame 11 and the first non-fireproof frame 13, has the advantages of simple structure, ingenious design, good fireproof performance and attractive appearance and is resistant to being seen; the air heat insulation gap 2 is formed between the first connecting component 12 and the first steel frame 11, namely, an air heat insulation bridge cut-off is formed inside, and a certain heat insulation effect is achieved.

In this embodiment, the first connecting component 12 includes a steel connecting plate 8, a fastening bolt 9 and a heat-resistant stop collar 10, the steel connecting plate 8 is fastened and connected with the first steel frame 11 through the fastening bolt 9, the heat-resistant stop collar 10 is sleeved on the fastening bolt 9 and props against the steel connecting plate 8 and the first steel frame 11, the steel connecting plate 8 forms an air heat insulation gap 2 between the heat-resistant stop collar 10 and the first steel frame 11, the heat-resistant stop collar 10 is arranged continuously and non-intermittently along the length direction of the corresponding air heat insulation gap 2, and the first non-fireproof frame 13 is connected with the steel connecting plate 8. In this structure, steel connecting plate 8 passes through fastening bolt 9 and first steel frame 11 fastening connection, and heat-resisting stop collar 10 forms spacingly to steel connecting plate 8 and is used for forming air thermal insulation clearance 2, and first partition panel 3 is installed in air thermal insulation clearance 2, has formed air thermal insulation bridge cut-off promptly inside, has guaranteed the heat preservation effect, and first non-fire-resistant frame 13 only need be connected with steel connecting plate 8 can guarantee visual line outward appearance effect.

In this embodiment, the steel connecting plate 8 includes a connecting edge 81, two ends of the connecting edge 81 are bent to form a fastening edge 82, a fastening cavity 20 is formed on the first non-refractory frame 13, the connecting edge 81 is fastened and connected with the first steel frame 11 through a fastening bolt 9, an air heat insulation gap 2 is formed between the connecting edge 81 and the first steel frame 11 through a heat-resistant limit sleeve 10, and the fastening cavity 20 on the first non-refractory frame 13 is fastened and connected with the fastening edge 82. In this structure, the connecting edge 81 is used for fastening connection with the first steel frame 11 through the fastening bolt 9 on the one hand, and forms the air heat insulation gap 2 with the first steel frame 11 through the spacing effect of the heat-resistant spacing sleeve 10 on the other hand, and the buckling edge 82 is used for forming buckling connection with the buckling cavity 20 on the first non-fireproof frame 13, so that the structure is simple and reliable.

In this embodiment, the first steel frame 11 and the connecting edge 81 are formed with a limiting groove 30, and two ends of the heat-resistant limiting sleeve 10 are sunk in the corresponding limiting groove 30. The quick location when setting up the heat-resisting stop collar 10 of being convenient for on the one hand like this, on the other hand can also transversely spacing heat-resisting stop collar 10 to guarantee its stability.

In this embodiment, the first non-refractory frame 13 is mounted on a side viewing surface of the first steel frame 11 by the first connection assembly 12. The partition system of the structure is suitable for building openings, namely, only one indoor visible surface is arranged.

Example 2:

as shown in fig. 4 and 5, a second embodiment of the insulation type partition system of the present invention is basically the same as embodiment 1, except that: in this embodiment, the opening fan 4 is installed in the first steel frame 11. The opening fan 4 comprises an opening frame 41 and a second partition plate 42, the opening frame 41 comprises a second steel frame 411, a second connecting component 412 and a second non-fireproof frame 413 with visual grain appearance effect, the second steel frame 411 is connected with the second non-fireproof frame 413 for improving the visual grain appearance effect on at least one side of the visual face through the second connecting component 412, an air heat insulation gap 2 is formed between the second connecting component 412 and the second steel frame 411, the second connecting component 412 is continuously arranged without interval along the length direction of the air heat insulation gap 2, and the second partition plate 42 is installed in the second steel frame 411. This structure has formed a movable partition system, possesses and cuts off the function and pass through the function, and second partition panel 42 can set up to the glass board equally, and second steel frame 411 has good fire behavior, and second non-fire resistant frame 413 can adopt aluminium alloy frame, and it can realize earlier line rendition and assemble again, can not destroy the surface coating, and second non-fire resistant frame 413 passes through second coupling assembling 412 and installs on the visual face of second steel frame 411 for visual face side possesses visual line outward appearance effect. Compared with the traditional structure, the partition system forms the opening frame 41 which has the fireproof function and the visual grain appearance effect through the organic combination of the second steel frame 411 and the second non-fireproof frame 413, has the advantages of simple structure, ingenious design, good fireproof performance and attractive appearance and is resistant to being seen; an air heat insulation gap 2, i.e., an air heat insulation bridge cut-off is formed inside, is formed between the second connection assembly 412 and the second steel frame 411, and a certain heat insulation effect is achieved.

In this embodiment, the second connection assemblies 412 each include a steel connection plate 8, a fastening bolt 9 and a heat-resistant stop collar 10, the steel connection plate 8 is fastened and connected with the second steel frame 411 through the fastening bolt 9, the heat-resistant stop collar 10 is sleeved on the fastening bolt 9 and abuts against the steel connection plate 8 and the second steel frame 411, an air heat-insulating gap 2 is formed between the steel connection plate 8 and the second steel frame 411 through the heat-resistant stop collar 10, and the second non-refractory frame 413 is connected with the steel connection plate 8. In this structure, steel connecting plate 8 passes through fastening bolt 9 and 411 fastening connection of second steel frame, and heat-resisting stop collar 10 forms spacingly for forming air thermal-insulated clearance 2 to steel connecting plate 8, and heat-resisting stop collar 10 is continuous no interval arrangement along the length direction of corresponding air thermal-insulated clearance 2, and second partition panel 42 installs in air thermal-insulated clearance 2, has formed the thermal-insulated bridge cut-off of air promptly inside, has guaranteed the heat preservation effect, and second non-fire-resistant frame 413 only need be connected with steel connecting plate 8 can guarantee visual line outward appearance effect.

In this embodiment, the steel connecting plate 8 includes a connecting edge 81, two ends of the connecting edge 81 are bent to form a fastening edge 82, a fastening cavity 20 is formed on the second non-refractory frame 413, the connecting edge 81 is fastened and connected with the second steel frame 411 through a fastening bolt 9, an air heat insulation gap 2 is formed between the connecting edge 81 and the second steel frame 411 through a heat-resistant limit sleeve 10, and the fastening cavity 20 on the second non-refractory frame 413 is fastened and connected with the fastening edge 82. In this structure, the connecting edge 81 is used for fastening connection with the second steel frame 411 through the fastening bolt 9 on the one hand, and forms the air heat insulation gap 2 with the second steel frame 411 through the spacing effect of the heat-resistant spacing sleeve 10 on the other hand, and the fastening edge 82 is used for forming fastening connection with the fastening cavity 20 on the second non-fireproof frame 413, and its structure is simple and reliable.

In this embodiment, the second steel frame 411 and the connecting edge 81 are both formed with a limiting groove 30, and two ends of the heat-resistant limiting sleeve 10 are disposed in the corresponding limiting groove 30. The quick location when setting up the heat-resisting stop collar 10 of being convenient for on the one hand like this, on the other hand can also transversely spacing heat-resisting stop collar 10 to guarantee its stability.

In this embodiment, the second non-refractory frame 413 is mounted to a side viewing surface of the second steel frame 411 by a second connection assembly 412. The partition system of the structure is suitable for building openings, namely, only one indoor visible surface is arranged.

Example 3:

as shown in fig. 6, a third embodiment of the partition system of the present invention is substantially the same as embodiment 1, except that: the partition system consists of the fixed partition system of the embodiment 1 and the movable partition system of the embodiment 2, has a partition function and a pass-through function, and is suitable for large-area partition requirement scenes.

Example 4:

as shown in fig. 7 and 8, a fourth embodiment of the partition system of the present invention is substantially the same as embodiment 3, except that: in this embodiment, the two ends of the connecting edge 81 are further bent with a pressing edge 83, and the pressing edge 83 is pressed on the side walls of the corresponding first steel frame 11 and the second steel frame 411. The arrangement of the pressing edge 83 enables the air heat insulation gap 2 to form a semi-closed structure, so that the heat insulation effect is further improved; on the other hand, the pressing edges 83 are pressed on the side walls of the corresponding first steel frame 11 and second steel frame 411, that is, the corresponding first non-fire-resistant frame 13 and second non-fire-resistant frame 413 can be limited in the transverse direction and the force can be transmitted to the first steel frame 11 and the second steel frame 411, so that the first non-fire-resistant frame 13 and the second non-fire-resistant frame 413 are prevented from being deflected in the transverse direction.

In this embodiment, the present invention further includes a buckle strip 5 with visual grain appearance effect, where the buckle strip 5 is mounted on the inner side of the first non-fire-resistant frame 13 of the first steel frame 11 for mounting the first partition panel 3 and/or the second non-fire-resistant frame 413 of the second steel frame 411 for mounting the second partition panel 42, and a mounting groove 6 for respectively receiving the corresponding first partition panel 3 and the second partition panel 42 is formed between the corresponding buckle strip 5 and the corresponding first steel frame 11 and second steel frame 411. During installation, bear the weight of the inboard at first steel frame 11 with first partition panel 3 and second partition panel 42, then install buckle strip 5 on first steel frame 11 for first partition panel 3 and second partition panel 42 both ends are fixed in mounting groove 6, because each buckle strip 5 is solitary section bar structure, do not have the welding process of polishing, so buckle strip 5 can carry out the line rendition, makes buckle strip 5 possess visual line outward appearance effect equally, has further improved overall structure's vision uniformity.

In this embodiment, in the present embodiment, the first non-refractory frame 13 and the second non-refractory frame 413 are both provided with fastening bolts 7 on the inner side walls, the fastening strips 5 are steel strips of open section materials, and two fracture edges of the fastening strips 5 are fastened with screw heads of the fastening bolts 7. The fastening structure can enable the fastening bolt 7 to be covered by the fastening strip 5, and the visual effect of the appearance of the fastening strip 5 cannot be damaged.

Example 5:

as shown in fig. 9 and 10, a fifth embodiment of the partition system of the present invention is substantially the same as embodiment 3, except that: in this embodiment, the first steel frame 11 and the second steel frame 411 are formed with a limiting groove 30, and one end of the heat-resistant limiting sleeve 10 is sunk in the corresponding limiting groove 30. The quick location when setting up the heat-resisting stop collar 10 of being convenient for on the one hand like this, on the other hand can also transversely spacing heat-resisting stop collar 10 to guarantee its stability.

In this embodiment, both sides of the first non-refractory frame 13 and the second non-refractory frame 413 are provided with extension edges 40 extending to the side walls of the respective first steel frame 11 and second steel frame 411. The arrangement of the extension edge 40 enables the air heat insulation gap 2 to form a semi-closed structure, and further improves the heat insulation effect.

In this embodiment, the buckling strip 5 includes a steel buckling strip 51 of an open section and a non-fireproof buckling strip 52 with visual texture appearance effect, the inner side wall of the first non-fireproof frame 13 is provided with a fastening bolt 7, the steel buckling strip 51 is connected with the fastening bolt 7, and the non-fireproof buckling strip 52 is buckled on two fracture edges of the steel buckling strip 51. During installation, the first partition panel 3 is borne on the inner side of the first steel frame 11, and then the steel buckling strips 51 are installed on the first steel frame 11 through the fastening bolts 7, so that two ends of the first partition panel 3 are fixed in the installation groove 6, and as each steel buckling strip 51 is buckled with the non-fireproof buckling strip 52 with visual grain appearance effect, the appearance effect is guaranteed, and the visual uniformity of the whole structure is further improved.

Example 6:

as shown in fig. 11 and 12, a sixth embodiment of the partition system of the present invention is substantially the same as embodiment 5, except that: in the present embodiment, the steel profiles of the first steel frame 11 and the second steel frame 411 are each provided as an open profile, and the fastening bolts 9 are provided on both sides of the openings of the respective steel profiles. The steel profiles of the first steel frame 11 and the second steel frame 411 are arranged as open profiles so that the air heat insulation gap 2 further extends to the inner cavities of the steel profiles of the first steel frame 11 and the second steel frame 411, and the heat insulation effect is further improved.

In this embodiment, the buckling strip 5 includes a steel buckling strip 51 of an open section and a non-fireproof buckling strip 52 with visual texture appearance effect, the inner side walls of the first non-fireproof frame 13 and the second non-fireproof frame 413 are respectively provided with a fastening bolt 7, the steel buckling strip 51 is connected with the fastening bolts 7, and the non-fireproof buckling strip 52 is buckled on two fracture edges of the steel buckling strip 51. During installation, the first partition panel 3 and the second partition panel 42 are borne on the inner sides of the first steel frame 11 and the second steel frame 411, and then the steel buckling strips 51 are installed on the first steel frame 11 and the second steel frame 411 through the fastening bolts 7, so that two ends of the first partition panel 3 and the second partition panel 42 are fixed in the installation groove 6, and as each steel buckling strip 51 is buckled with the non-fireproof buckling strip 52 with the visual grain appearance effect, the appearance effect is guaranteed, and the visual uniformity of the whole structure is further improved.

Example 7:

as shown in fig. 13 and 14, a seventh embodiment of the partition system of the present invention is substantially the same as embodiment 4 except that: in this embodiment, the steel profiles of the first steel frame 11 and the second steel frame 411 are all open profiles, the fastening bolts 9 are arranged at two sides of the opening of the corresponding steel profile, the two ends of the connecting edge 81 are also bent with sealing edges 84, the sealing edges 84 extend to the side walls of the corresponding first steel frame 11 and second steel frame 411, and the two sides of the first non-fireproof frame 13 and the second non-fireproof frame 413 are respectively provided with an extending edge 40 extending to the side walls of the corresponding first steel frame 11 and second steel frame 411. The steel profiles of the first steel frame 11 and the second steel frame 411 are arranged as opening profiles, so that the air heat insulation gap 2 further extends to the inner cavities of the steel profiles of the first steel frame 11 and the second steel frame 411, and the arrangement of the edge sealing 84 and the extending edge 40 is matched, so that the air heat insulation gap 2 forms a semi-closed structure, and the heat insulation effect is further improved.

Example 8:

as shown in fig. 15 and 16, an eighth embodiment of the partition system of the present invention is substantially the same as embodiment 3 except that: in this embodiment, a third non-refractory frame 50 and a third connection assembly 60 are further included, and the third non-refractory frame 50 is mounted on the other visible surface of the respective first and second steel frames 11 and 411 by the third connection assembly 60. The partition system with the structure is suitable for indoor partition, namely, the partition system is provided with two visible surfaces.

In this embodiment, the third connecting assembly 60 includes a fastening platform 601 and a locking bolt 602, the corresponding fastening platform 601 is respectively fastened to the other visible surfaces of the corresponding first steel frame 11 and the second steel frame 411 by the locking bolt 602, and the third non-refractory frame 50 is fastened to the corresponding fastening platform 601. In this structure, locking bolt 602 fastens lock joint platform 601 on corresponding first steel frame 11 and second steel frame 411, forms the lock joint node on first steel frame 11 and second steel frame 411, and third non-fire-resistant frame 50 only need the lock joint platform 601 can accomplish the fixed of third non-fire-resistant frame 50, has guaranteed joint strength to third coupling assembling 60 is likewise covered, can not destroy the outward appearance visual effect of first steel frame 11 and second steel frame 411.

In this embodiment, the fastening platform 601 includes a connecting platform 6011 and a fastening platform 6012 that are integrally connected, the corresponding connecting platform 6011 is fastened to the other visible surfaces of the corresponding first steel frame 11 and second steel frame 411 by locking bolts 602, and the third non-refractory frame 50 is fastened to the corresponding fastening platform 6012. In this structure, the locking bolts 602 fasten the connecting platform 6011 to the corresponding first steel frame 11 and second steel frame 411, the buckling platform 6012 forms a buckling node on the first steel frame 11 and the second steel frame 411, and the fixing of the third non-refractory frame 50 can be completed only by buckling the third non-refractory frame 50 on the buckling platform 6012, which is simple and reliable in structure.

In this embodiment, the third non-refractory frame 50 is provided with a buckle 501 at the inner side, and the third non-refractory frame 50 is buckled with the corresponding buckling platform 6012 through the buckle 501. Through the cooperation lock joint of buckle 501 and knot platform 6012, on the one hand easy to assemble, on the other hand easily makes the shaping.

While the invention has been described in terms of preferred embodiments, it is not intended to be limiting. Many possible variations and modifications of the disclosed technology can be made by anyone skilled in the art, or equivalent embodiments with equivalent variations can be made, without departing from the scope of the invention. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present invention shall fall within the scope of the technical solution of the present invention.

Claims (17)

1. A thermal insulation partition system, characterized by: including fixed frame (1), fixed frame (1) includes first steel frame (11), first coupling assembling (12) and possesses the first non-fire-resistant frame (13) of visual line outward appearance effect, first steel frame (11) are connected with through first coupling assembling (12) at least on one side visual surface and are used for improving this visual surface outward appearance effect first non-fire-resistant frame (13), form air thermal insulation clearance (2) between first coupling assembling (12) and first steel frame (11), first coupling assembling (12) are continuous non-interval arrangement along the length direction of this air thermal insulation clearance (2), be equipped with first partition board (3) or open fan (4) in first steel frame (11), open fan (4) are including opening frame (41) and second partition board (42), open frame (41) include second steel frame (411), second coupling assembling (412) and possess visual line outward appearance effect second non-fire-resistant frame (413), second steel frame (412) are equipped with at least on this side visual surface and are connected with second steel frame (411) at least on this side visual surface and are used for improving this visual line outward appearance effect between second steel frame (412), the second connecting components (412) are arranged continuously and without intervals along the length direction of the air heat insulation gap (2), and the second partition plate (42) is installed in the second steel frame (411).

2. The insulating partition system of claim 1, wherein: the novel wall structure is characterized by further comprising buckling strips (5) with visual grain appearance effects, wherein the buckling strips (5) are arranged on the inner sides of first non-fireproof frames (13) of first steel frames (11) for installing first partition plates (3) and/or second non-fireproof frames (413) of second steel frames (411) for installing second partition plates (42), and installing grooves (6) for respectively bearing the corresponding first partition plates (3) and the corresponding second partition plates (42) are formed between the buckling strips (5) and the corresponding first steel frames (11) and between the buckling strips and the corresponding second steel frames (411).

3. The insulating partition system of claim 2, wherein: the first non-fireproof frame (13) and the second non-fireproof frame (413) are respectively provided with a fastening bolt (7) on the inner side wall, the buckling strip (5) is arranged to be a steel strip of an opening section bar, and two fracture edges of the buckling strip (5) are fastened with screw heads of the fastening bolts (7).

4. The insulating partition system of claim 2, wherein: the buckling strip (5) comprises a steel buckling strip (51) of an opening section and a non-fireproof buckling strip (52) with visual grain appearance effects, the first non-fireproof frame (13) and the second non-fireproof frame (413) are respectively provided with a fastening bolt (7) on the inner side wall, the steel buckling strip (51) is connected with the fastening bolts (7), and the non-fireproof buckling strip (52) is buckled on two fracture edges of the steel buckling strip (51).

5. A thermal insulation partition system according to any one of claims 1 to 4, wherein: the first connecting component (12) and the second connecting component (412) comprise a steel connecting plate (8), fastening bolts (9) and heat-resistant limiting sleeves (10), the corresponding steel connecting plate (8) is fixedly connected with a corresponding first steel frame (11) and a corresponding second steel frame (411) through the fastening bolts (9), the heat-resistant limiting sleeves (10) are sleeved on the fastening bolts (9) and abut against the steel connecting plate (8) and the corresponding first steel frame (11) and the corresponding second steel frame (411), the air heat-resistant gap (2) is formed between the steel connecting plate (8) and the corresponding first steel frame (11) and the corresponding second steel frame (411) through the heat-resistant limiting sleeves (10), the heat-resistant limiting sleeves (10) are continuously arranged in a non-interval mode along the length direction of the corresponding air heat-resistant gap (2), and the first non-fireproof frame (13) and the second non-fireproof frame (413) are connected with the corresponding steel connecting plate (8).

6. The insulating partition system of claim 5, wherein: the steel connecting plate (8) comprises connecting edges (81), buckling edges (82) are bent at two ends of the connecting edges (81), buckling cavities (20) are formed in the first non-fireproof frame (13) and the second non-fireproof frame (413), the corresponding connecting edges (81) are fixedly connected with the corresponding first steel frame (11) and the corresponding second steel frame (411) through fastening bolts (9), air heat insulation gaps (2) are formed between the connecting edges (81) and the corresponding first steel frame (11) and the corresponding second steel frame (411) through heat-resistant limiting sleeves (10), and the buckling cavities (20) in the first non-fireproof frame (13) and the second non-fireproof frame (413) are buckled with the corresponding buckling edges (82).

7. The insulating partition system of claim 6, wherein: limiting grooves (30) are formed in the first steel frame (11), the second steel frame (411) and the connecting edge (81), and two ends of the heat-resistant limiting sleeve (10) are sunk in the corresponding limiting grooves (30).

8. The insulating partition system of claim 6, wherein: the two ends of the connecting edge (81) are also bent to form a pressing edge (83), and the pressing edge (83) is pressed on the side walls of the corresponding first steel frame (11) and the corresponding second steel frame (411).

9. The insulating partition system of claim 6, wherein: limiting grooves (30) are formed in the first steel frame (11) and the second steel frame (411), and one end of the heat-resistant limiting sleeve (10) is sunk in the corresponding limiting groove (30).

10. The insulating partition system of claim 9, wherein: both sides of the first non-fireproof frame (13) and the second non-fireproof frame (413) are respectively provided with an extension edge (40) which extends to the side wall of the corresponding first steel frame (11) and the second steel frame (411).

11. The insulating partition system of claim 6, wherein: the steel profiles of the first steel frame (11) and the second steel frame (411) are respectively provided with an opening profile, and the fastening bolts (9) are arranged on two sides of the opening of the corresponding steel profile.

12. The insulating partition system of claim 11, wherein: the steel profiles of the first steel frame (11) and the second steel frame (411) are all set to be open profiles, the fastening bolts (9) are arranged on two sides of the opening of the corresponding steel profile, sealing edges (84) are bent at two ends of the connecting edge (81), the sealing edges (84) extend to the side walls of the corresponding first steel frame (11) and the corresponding second steel frame (411), and extension edges (40) extending to the side walls of the corresponding first steel frame (11) and the corresponding second steel frame (411) are arranged on two sides of the first non-fireproof frame (13) and the second non-fireproof frame (413).

13. A thermal insulation partition system according to any one of claims 1 to 4, wherein: the first non-fireproof frame (13) is installed on the visible surface of one side of the first steel frame (11) through a first connecting component (12), and the second non-fireproof frame (413) is installed on the visible surface of one side of the second steel frame (411) through a second connecting component (412).

14. The insulating partition system of claim 13, wherein: and a third non-refractory frame (50) and a third connecting assembly (60), wherein the third non-refractory frame (50) is arranged on the other visible surface of the corresponding first steel frame (11) and second steel frame (411) through the third connecting assembly (60).

15. The insulating partition system of claim 14, wherein: the third connecting assembly (60) comprises a buckling platform (601) and locking bolts (602), the corresponding buckling platform (601) is respectively and fixedly connected with the other visible surfaces of the corresponding first steel frame (11) and the second steel frame (411) through the locking bolts (602), and the third non-fireproof frame (50) is buckled on the corresponding buckling platform (601).

16. The insulating partition system of claim 15, wherein: the buckling platform (601) comprises a connecting platform (6011) and a buckling platform (6012) which are connected into a whole, the corresponding connecting platform (6011) is respectively and tightly connected with the other visible surfaces of the corresponding first steel frame (11) and the second steel frame (411) through locking bolts (602), and the third non-fireproof frame (50) is buckled on the corresponding buckling platform (6012).

17. The insulating partition system of claim 16, wherein: the third non-fireproof frame (50) is provided with a buckle plate (501) at the inner side, and the third non-fireproof frame (50) is buckled with the corresponding buckle table (6012) through the buckle plate (501).