CN114197799B - Energy-saving stone slab dry-hanging structure for interior decoration of exhibition hall and installation method - Google Patents

Abstract

The application relates to a dry hanging structure of an energy-saving stone slab for an exhibition hall and an installation method, belonging to the field of installation structures of stone slabs for building interiors. According to the application, the corner support legs are used for positioning and drilling the mounting holes, so that the position accuracy of the mounting holes on the plate is improved, and the matching accuracy of the back frame mechanism and the keel mechanism with the plate is improved.

Description

Energy-saving stone slab dry-hanging structure for interior decoration of exhibition hall and installation method

Technical Field

The application relates to the field of building interior stone plate mounting structures, in particular to an exhibition hall interior energy-saving stone plate dry-hanging structure and a mounting method.

Background

Stone slabs are usually used as wall decoration in an exhibition hall, and a stone dry hanging method is also called an empty hanging method, so that the stone dry hanging method is a novel construction process in wall stone decoration. The method uses metal hanging pieces to hang facing stone on wall surface or steel frame directly, and no grouting is needed. The dry hanging construction replaces the traditional wet operation construction in a prefabricated assembly mode, and has the advantages that: the surface pollution and the color change are avoided, the wet operation is avoided, the influence of the climate change on the mounting structure is reduced, the probability of stone falling is reduced, the maintenance cost is reduced, the construction speed is high, and the like.

In the related art, a stone slab dry-hanging structure comprises a keel frame and a mounting hanging piece, wherein the keel frame is fixed on a wall surface, a plurality of fixing hanging points are arranged on the keel frame, the mounting hanging piece is fixed on the back of the stone slab, and the mounting hanging piece corresponds to the fixing hanging points. The mounting groove is formed in the side edge of the stone slab, the mounting groove is formed in the manner that a worker in a construction site manually sets the mounting groove through equipment such as a cutting disc, the mounting hanging piece is provided with a wing edge which can be inserted into the mounting groove, connection is achieved between the mounting hanging piece and the fixed hanging point and between the fixed hanging point and the keel frame through bolts, holes through which the bolts pass are kidney-shaped holes, and after the stone slab is hung on the keel frame, the positions of the fixed hanging point or the mounting hanging piece are adjusted according to the overall flatness of the stone slab, so that the overall stone slab curtain wall surface is kept flat.

With respect to the related art in the above, the inventors consider that there are the following drawbacks: because the setting of the inserting groove is manual operation on site, the position and the size of the inserting groove cannot be ensured with higher precision, and the matching state between the installing hanging piece matched with the stone slab through the inserting groove and the stone slab also has larger uncertainty, thereby bringing inconvenience to leveling the stone slab.

Disclosure of Invention

In order to solve the problems, the application provides an exhibition hall interior energy-saving stone slab dry hanging structure and an installation method.

The application provides an exhibition hall interior energy-saving stone slab dry hanging structure, which adopts the following technical scheme:

the utility model provides an energy-conserving slabstone of exhibition hall interior trim is hung structure futilely, includes fossil fragments mechanism and back of the body frame mechanism, fossil fragments mechanism is located the wall, back of the body frame mechanism is located one side of panel orientation wall, fossil fragments mechanism includes a plurality of longitudinal bars, longitudinal bars and wall fixed connection, a plurality of longitudinal bars transverse array arranges, back of the body frame mechanism includes the corner stabilizer blade, the corner stabilizer blade has four and four corner stabilizer blade and the four corner edge alignment of panel, the corner stabilizer blade includes the locating plate, the face laminating of locating plate and panel, the locating hole has been seted up on the locating plate, the mounting hole has been seted up towards one side of wall to the panel, the mounting hole is coaxial with the locating hole, back of the body frame mechanism includes the inflation anchor head, the coaxial locating hole of placing in of inflation anchor head.

Through adopting above-mentioned technical scheme, the mounting hole is the back of the body frame mechanism and carries out the application point of joint support to panel, and after corner stabilizer blade and panel cooperation, its locating hole provides the reference position for the seting up of mounting hole to improved the position accuracy of mounting hole on panel, back of the body frame mechanism also has higher position accuracy relative to the position and the supporting point of panel, and the cooperation precision of panel and other panel and fossil fragments mechanism also can improve.

Preferably, the back frame mechanism further comprises a mounting sleeve and a mounting bolt, the end face of the mounting sleeve is attached to the plate face of the positioning plate, the mounting bolt coaxially penetrates through the mounting sleeve and is inserted into the mounting hole, and the mounting bolt is in threaded connection with the expansion anchor head.

Preferably, the back frame mechanism further comprises first support rods, the number of the first support rods is two, a single first support rod is fixedly connected with the side walls of the two mounting sleeves, and the length direction of the first support rod is parallel to the ground and perpendicular to the length direction of the mounting sleeves.

By adopting the technical scheme, the relative position of the first support rod and the mounting sleeve is fixed, and the relative position precision of the first support rod and the plate is also ensured due to the butt joint of the end face of the mounting sleeve and the positioning plate.

Preferably, the back frame mechanism further comprises a second supporting rod, two ends of the second supporting rod are fixedly connected with the two first supporting rods respectively, and the second supporting rod is abutted to a side plate surface of the plate facing the wall.

Through adopting above-mentioned technical scheme, two first bracing pieces have been connected to the second bracing piece, and it can further consolidate the relative position relation of two first bracing pieces, and simultaneously, the back braced skeleton of panel can be regarded as to the second bracing piece, improves the impact strength of panel.

Preferably, the keel mechanism comprises an adjusting sliding rail, the adjusting sliding rail is connected with the longitudinal rod, the length direction of the adjusting sliding rail is perpendicular to the longitudinal rod, an adjusting sliding groove is formed in the first supporting rod along the length direction of the first supporting rod, and the first supporting rod slides in a matched mode through the adjusting sliding groove and the adjusting sliding rail.

Through adopting above-mentioned technical scheme, adjust the regulation spout of slide rail cooperation first bracing piece, the lateral position of panel on fossil fragments mechanism is adjustable, and the supporting state is more stable.

Preferably, the regulation slide rail is last to offer the interlock spout along self length direction, on the first bracing piece and be located on the cell wall of regulation spout fixedly connected with interlock arris, the length direction of interlock arris is unanimous with the length direction of first bracing piece, the interlock arris is located the interlock spout.

Through adopting above-mentioned technical scheme, the interlock arris is located the interlock spout after, has formed the backstop spacing of relative regulation slide rail to first bracing piece for be difficult for taking place between first bracing piece and the regulation slide rail and remove on other directions except that its length direction accident.

Preferably, the keel mechanism comprises an adjusting component, the adjusting component is used for enabling the longitudinal rod to be connected with an adjusting sliding rail, the adjusting component comprises a longitudinal seat and a transverse seat, the longitudinal seat is connected to one side, deviating from the cavity wall, of the longitudinal rod through a bolt, the transverse seat is connected to the longitudinal seat through a bolt, the transverse seat is fixedly connected with the adjusting sliding rail, mounting kidney-shaped holes for the bolts to pass through are formed in the longitudinal seat and the transverse seat, the mounting kidney-shaped holes in the longitudinal seat face the longitudinal rod, the length direction of the mounting kidney-shaped holes is consistent with the length direction of the longitudinal rod, the mounting kidney-shaped holes in the transverse seat face the longitudinal seat, and the length direction of the mounting kidney-shaped holes is parallel to the ground and perpendicular to the length direction of the adjusting sliding rail.

By adopting the technical scheme, the adjusting component respectively provides longitudinal and transverse adjusting amounts for the position of the longitudinal seat relative to the longitudinal rod and the position of the transverse seat relative to the longitudinal seat through the kidney-shaped holes, and adjusts the adjusting component according to the field condition, thereby improving the precision of adjusting the space placement angle of the sliding rail.

Preferably, the keel mechanism further comprises a positioning bolt, a positioning hole for the positioning bolt to pass through is formed in the first supporting rod, a positioning waist-shaped hole for the positioning bolt to pass through is formed in the adjusting sliding rail, and the length direction of the positioning waist-shaped hole is consistent with the length direction of the adjusting sliding rail.

Through adopting above-mentioned technical scheme, when panel removes in place, positioning bolt passes first bracing piece and regulation slide rail simultaneously, and fossil fragments mechanism and back of the body frame mechanism just are connected fixedly, and the panel can't continue to remove.

Preferably, the corner support leg further comprises a clamping edge part, the clamping edge part is fixedly connected with the positioning plate, and the clamping edge part is attached to the side edge of the plate.

Through adopting above-mentioned technical scheme, the cooperation of card limit portion and panel corner has improved the position accuracy of locating plate relative panel, simultaneously, when the panel hangs on fossil fragments mechanism one by one, has formed the gap of equidimension between two adjacent panels through the card limit portion on two panels, and the curtain that the panel formed is more pleasing to the eye, and the spatial distribution of joint compound is also more even.

The application provides a method for mounting a dry hanging energy-saving stone plate for an exhibition hall, which sequentially comprises the following steps:

s1: each longitudinal rod is installed on the wall at fixed distance;

s2: an adjusting sliding rail is arranged on the longitudinal rod through an adjusting component, and each adjusting sliding rail is leveled and adjusted;

s3: erecting corner support legs on the plate, drilling to form mounting holes, and assembling a back frame mechanism;

s4: the first support rods of the plates are clamped on the adjusting slide rail through the adjusting slide grooves, after the plates in the same vertical row are assembled, the plates in the vertical row are pushed in the same direction at the same time, when the plates in the first vertical row are pushed, the width distance of each plate pushed is used for detecting the overall flatness of the plates, the perpendicularity between the plates and the ground and the gap change between the plates, and the adjusting assembly is adjusted according to the measuring result;

s5: when the transverse position of the plate cannot move continuously, fixing the first support rod with the adjusting slide rail by using the positioning bolt;

s6: and filling joint filling glue in gaps among the plates.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the corner support legs, the locating plate is opposite to the four corner edges of the plate through the clamping edge parts, the locating holes on the locating plate are processed to form mounting holes, the position accuracy of the mounting holes relative to the plate is guaranteed, and then the relative position accuracy of a back frame structure connected with the plate through the expansion anchor heads and the mounting bolts in the mounting holes is higher;

2. through the setting of adjusting the slide rail, all panels are directional to slide along adjusting the slide rail through back of body frame first bracing piece, and when each panel transversely unidirectionally moves and mutually support tightly, the gap size between the panel of same row is even.

Drawings

FIG. 1 is an overall schematic diagram of a dry hanging structure for representing energy-saving slate for an exhibition hall according to an embodiment of the present application.

Fig. 2 is a schematic diagram of the working principle of the corner support leg according to the embodiment of the present application.

Fig. 3 is an overall schematic diagram of a back frame mechanism for embodying an embodiment of the present application.

Fig. 4 is an exploded schematic view of a structure for embodying a conditioning assembly in an embodiment of the present application.

Fig. 5 is a schematic cross-sectional view showing a mating state of the connecting chute and the adjusting slide rail in the embodiment of the application.

Reference numerals illustrate: 1. a wall; 2. a keel mechanism; 21. a longitudinal bar; 22. adjusting the sliding rail; 221. engaging the sliding groove; 222. positioning the kidney-shaped hole; 23. an adjustment assembly; 231. a longitudinal seat; 232. a transverse seat; 233. mounting a kidney-shaped hole; 24. positioning bolts; 3. a sheet material; 31. a mounting hole; 32. expanding the anchor head; 4. a back frame mechanism; 41. a mounting sleeve; 411. installing a bolt; 42. a first support bar; 421. adjusting the chute; 422. occlusion edges; 43. a second support bar; 44. corner support legs; 441. a positioning plate; 442. a clamping edge part; 443. and positioning holes.

Detailed Description

The application is described in further detail below with reference to fig. 1-5.

The embodiment of the application discloses an energy-saving stone slab dry-hanging structure for an exhibition hall, which is shown in figures 1 and 2 and comprises a keel mechanism 2 positioned on a wall 1 and a back frame mechanism 4 positioned on a plate 3; the keel mechanism 2 provides a support frame for the integrated interior slate curtain wall and the back frame mechanism 4 is used to provide an attachment point for each panel 3 to the keel mechanism 2.

As shown in fig. 2 and 3, the back frame structure includes corner legs 44, mounting bolts 411 and a supporting component, in this embodiment, the plate 3 is made of rectangular environmental protection and energy saving stone, so that the plate has four corners, the corner legs 44 include a positioning plate 441 and a clamping edge 442 which are integrally bent and formed, and the plate surface of the positioning plate 441 is isosceles right triangle; the number of the clamping edge portions 442 connected to the single positioning plate 441 is two, and the two clamping edge portions 442 are respectively integrally bent and formed on two right-angle edges of the positioning plate 441 and are positioned on the same side of the positioning plate 441, and the plate surfaces of the clamping edge portions 442 are perpendicular to the plate surfaces of the positioning plate 441. The two clamping edge portions 442 are respectively abutted against two edges at the edge angle of the plate 3, so that the right-angle edge of the positioning plate 441 is aligned with the supporting leg edge at the edge angle of the plate 3. The positioning plate 441 is provided with positioning holes 443, when the corner support legs 44 are buckled at corners of the plate 3 through the edge clamping portions 442, the plate 3 is drilled by taking the positioning holes 443 as a reference, the mounting holes 31 are formed at the edges of the plate 3 close to four corners, and an expansion anchor head 32 is coaxially arranged in each mounting hole 31.

As shown in fig. 2 and 3, the support assembly includes a first support rod 42, a mounting sleeve 41 and a second support rod 43, the number of the first support rod 42 and the second support rod 43 on the single plate 3 is two, the number of the mounting sleeve 41 is four, each single first support rod 42 is welded and fixed with two mounting sleeves 41, the first support rod 42 is made of channel steel, the channel name of the first support rod is an adjusting chute 421, the mounting sleeve 41 is located at one side of the first support rod 42 away from the notch of the adjusting chute 421, the length direction of the first support rod 42 is perpendicular to the length direction of the mounting sleeve 41, and the length directions of the two first support rods 42 are parallel. The second support rod 43 is located between the two first support rods 42, two ends of the second support rod 43 are welded on the two first support rods 42 respectively, the length direction of the second support rod 43 is perpendicular to the length direction of the first support rod 42, and the second support rod 43 is attached to the plate surface of the plate 3. When the welding process of the first support rod 42 and the mounting sleeve 41 and the welding process of the second support rod 43 and the first support rod 42 are performed, the parallelism between the four support rods and the plate surface and the plate edge of the plate 3 are measured continuously, and the position of each component is adjusted according to the measurement result. The second supporting rods 43 are used for reinforcing the positions and structures of the two first supporting rods 42, and can serve as a framework of a part of the plate 3, so that the plate 3 is supported by impact strength.

As shown in fig. 1 and 4, the keel mechanism 2 comprises a longitudinal rod 21, an adjusting slide rail 22 and an adjusting assembly 23, the length direction of the longitudinal rod 21 is vertical to the ground, a plurality of longitudinal rods 21 are arrayed along the horizontal direction, and the lower ends of the longitudinal rods 21 are abutted to the ground; wing plates through which bolts pass are integrally formed on two sides of the longitudinal rod 21, and the bolts pass through the wing plates and are screwed into the wall 1 to fix the longitudinal rod 21 and the wall 1. The adjusting slide rail 22 is arranged on the longitudinal rod 21 through the adjusting component 23, and the length direction of the adjusting slide rail 22 is parallel to the wall surface and the ground. The adjusting component 23 comprises a longitudinal seat 231, a transverse seat 232 and a plurality of bolts, the longitudinal seat 231 is connected with the longitudinal rods 21 through the bolts, the transverse seat 232 is connected with the longitudinal seat 231 through the bolts, the transverse seat 232 is welded and fixed with the adjusting slide rail 22, the number of the adjusting components 23 on the single longitudinal rod 21 is eight, and eight threaded holes are formed in each longitudinal rod 21 along the length direction of the longitudinal rod. The longitudinal seat 231 and the transverse seat 232 are provided with mounting waist-shaped holes 233, bolts horizontally pass through the mounting waist-shaped holes 233 on the longitudinal seat 231 and are inserted into the longitudinal rod 21, and bolts vertically pass through the mounting waist-shaped holes 233 on the transverse seat 232 and are inserted into the longitudinal seat 231; the mounting kidney-shaped hole 233 on the longitudinal seat 231 is vertical, the mounting kidney-shaped hole 233 on the transverse seat 232 is horizontal and vertical to the wall surface, that is, the adjusting component 23 can adjust and correct the parallelism of the adjusting slide rail 22 with the ground and the wall surface. The adjusting slide rails 22 in the same height are three which are connected end to end, a gap of 1-4 mm exists between every two adjacent adjusting slide rails 22, and the number of the transverse seats 232 connected with each single adjusting slide rail 22 is also three.

As shown in fig. 4 and 5, the adjusting slide rail 22 is composed of square tubes, and the width dimension of the notch of the adjusting slide rail 421 is consistent with the transverse distance between the two outer walls of the adjusting slide rail 22; the first support rod 42 is provided with a snap edge 422 integrally formed at the notch of the adjusting chute 421, and the length direction of the snap edge 422 is consistent with the length direction of the first support rod 42. The side wall of the adjusting slide rail 22 is provided with a snap-in slide groove 221 along the length direction of the side wall, the first support rod 42 slides in from one end of the adjusting slide rail 22, the groove wall and the groove bottom of the adjusting slide groove 421 are clung to the two side walls of the adjusting slide rail 22, and a snap-in edge 422 is positioned in the snap-in slide groove 221 and is used for forming anti-falling limit for the first support rod 42.

As shown in fig. 4 and 5, the keel mechanism 4 further includes positioning bolts 24, the first support rod 42 is provided with positioning holes 443 for the positioning bolts 24 to vertically pass through, and the number of the positioning holes 443 behind the single plate 3 is one; the adjusting slide rail 22 is provided with positioning kidney-shaped holes 222 for the positioning bolts 24 to pass through, the length direction of the positioning kidney-shaped holes 222 is consistent with the length direction of the adjusting slide rail 22, and the number of the positioning kidney-shaped holes 222 is consistent with the number of the plates 3. The plates 3 slide one by one through the cooperation of the adjusting slide rail 22 and the first supporting rod 42 until the side edges of all the plates 3 in the same layer are mutually abutted, and then the plates 3 in the layer are arranged completely; when the sheet 3 is slid, each time one sheet 3 is moved to its "end point", it is finally fixed using the set screw 24.

The embodiment of the application relates to an energy-saving stone slab dry-hanging structure for an exhibition hall interior decoration, which is implemented by the following principle:

the arrangement of the corner support legs 44 improves the position of the mounting holes 31 on the plate 3, the position of the mounting holes 31 determines the relative position of the first support rods 42 relative to the plate 3, and the first support rods 42 are support stress components for supporting the plate 3 by the keel mechanisms 2, so that the position accuracy of each plate 3 relative to the keel mechanisms 2 can be improved; after the adjacent plates 3 are abutted against each other, the clamping edge portions 442 on the two plates 3 are abutted against each other, so that a uniform gap is formed between the adjacent plates 3, and the overall aesthetic degree is improved.

The embodiment of the application discloses a method for mounting a dry hanging of an energy-saving stone slab for an exhibition hall, which sequentially comprises the following steps:

s1: the longitudinal bars 21 are installed on the wall 1 at fixed intervals;

s2: the adjusting slide rails 22 are arranged on the longitudinal bar 21 through the adjusting component 23, and leveling adjustment is carried out on each adjusting slide rail 22, so that each bolt in the adjusting component 23 is not completely screwed;

s3: erecting corner support legs 44 on the plate 3, drilling to form mounting holes 31, and assembling a back frame mechanism 4;

s4: the first support rods 42 of the plates 3 are clamped on the adjusting slide rail 22 through the adjusting slide grooves 421, after the plates 3 in the same vertical row are assembled, the plates 3 in the vertical row are simultaneously pushed in the same direction, when the plates 3 in the first vertical row are pushed, the width distance of each plate 3 is pushed, the overall flatness of the plates 3, the perpendicularity with the ground and the gap change between the partition plates 3 are monitored in real time, and the adjusting assembly 23 is adjusted according to the measuring result;

s5: when the transverse position of the plate 3 cannot move continuously, the first support rod 42 is fixed with the adjusting slide rail 22 by the positioning bolt 24;

s6: and filling joint compound in gaps among the plates 3.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (6)

1. The utility model provides an energy-conserving slabstone of exhibition hall interior trim hangs structure futilely, includes fossil fragments mechanism (2) and back of the body frame mechanism (4), fossil fragments mechanism (2) are located wall (1), back of the body frame mechanism (4) are located one side of panel (3) towards wall (1), fossil fragments mechanism (2) include a plurality of vertical pole (21), vertical pole (21) and wall (1) fixed connection, a plurality of vertical pole (21) transverse array arranges, its characterized in that: the back frame mechanism (4) comprises corner support legs (44), four corner support legs (44) are aligned with four corner edges of the plate (3), the corner support legs (44) comprise positioning plates (441), the positioning plates (441) are attached to the plate surface of the plate (3), positioning holes (443) are formed in the positioning plates (441), one side, facing the wall (1), of the plate (3) is provided with mounting holes (31), the mounting holes (31) are coaxial with the positioning holes (443), the back frame mechanism (4) comprises expansion anchor heads (32), and the expansion anchor heads (32) are coaxially arranged in the positioning holes (443);

the back frame mechanism (4) further comprises a mounting sleeve (41) and a mounting bolt (411), the end face of the mounting sleeve (41) is attached to the plate face of the positioning plate (441), the mounting bolt (411) coaxially penetrates through the mounting sleeve (41) and is inserted into the mounting hole (31), and the mounting bolt (411) is in threaded connection with the expansion anchor head (32);

the back frame mechanism (4) further comprises first support rods (42), the number of the first support rods (42) is two, a single first support rod (42) is fixedly connected with the side walls of the two mounting sleeves (41), and the length direction of the first support rod (42) is parallel to the ground and perpendicular to the length direction of the mounting sleeves (41);

the keel mechanism (2) comprises an adjusting slide rail (22), the adjusting slide rail (22) is connected with the longitudinal rod (21), the length direction of the adjusting slide rail (22) is perpendicular to the longitudinal rod (21), an adjusting slide groove (421) is formed in the first supporting rod (42) along the length direction of the first supporting rod, and the first supporting rod (42) slides in a matched mode with the adjusting slide rail (22) through the adjusting slide groove (421);

the adjustable sliding rail (22) is provided with a meshing sliding groove (221) along the length direction of the adjustable sliding rail, a meshing edge (422) is fixedly connected to the first supporting rod (42) and located on the groove wall of the adjustable sliding groove (421), the length direction of the meshing edge (422) is consistent with the length direction of the first supporting rod (42), and the meshing edge (422) is located in the meshing sliding groove (221).

2. The energy-saving stone slab dry-hanging structure for an exhibition hall according to claim 1, wherein: the back frame mechanism (4) further comprises a second supporting rod (43), two ends of the second supporting rod (43) are fixedly connected with the two first supporting rods (42) respectively, and the second supporting rod (43) is abutted to a side plate surface of the plate (3) facing the wall (1).

3. The energy-saving stone slab dry-hanging structure for an exhibition hall according to claim 1, wherein: the keel mechanism (2) comprises an adjusting component (23), the adjusting component (23) is used for enabling a longitudinal rod (21) to be connected with an adjusting sliding rail (22), the adjusting component (23) comprises a longitudinal seat (231) and a transverse seat (232), the longitudinal seat (231) is connected to one side, deviating from a cavity wall, of the longitudinal rod (21) through a bolt, the transverse seat (232) is connected to the longitudinal seat (231) through a bolt, the transverse seat (232) is fixedly connected with the adjusting sliding rail (22), installation kidney-shaped holes (233) for enabling bolts to pass through are formed in the longitudinal seat (231) and the transverse seat (232), the length direction of the installation kidney-shaped holes (233) on the longitudinal seat (231) is consistent with the length direction of the longitudinal rod (21), the installation kidney-shaped holes (233) on the transverse seat (232) are parallel to the ground and perpendicular to the length direction of the adjusting sliding rail (22).

4. The energy-saving stone slab dry-hanging structure for an exhibition hall according to claim 1, wherein: the keel mechanism (2) further comprises a positioning bolt (24), a positioning hole (443) for the positioning bolt (24) to pass through is formed in the first supporting rod (42), a positioning waist-shaped hole (222) for the positioning bolt (24) to pass through is formed in the adjusting sliding rail (22), and the length direction of the positioning waist-shaped hole (222) is consistent with the length direction of the adjusting sliding rail (22).

5. The energy-saving stone slab dry-hanging structure for an exhibition hall according to claim 1, wherein: the corner support leg (44) further comprises a clamping edge portion (442), the clamping edge portion (442) is fixedly connected with the positioning plate (441), and the clamping edge portion (442) is attached to the side edge of the plate (3).

6. The utility model provides a method for installing energy-saving stone slab in exhibition hall in a dry hanging way, which is characterized in that: the method sequentially comprises the following steps:

s1: each longitudinal rod (21) is installed on the wall (1) at fixed distance;

s2: an adjusting sliding rail (22) is arranged on the longitudinal rod (21) through an adjusting component (23), and each adjusting sliding rail (22) is leveled and adjusted;

s3: erecting corner support legs (44) on the plate (3), drilling holes to form mounting holes (31), and assembling a back frame mechanism (4);

s4: the first support rods (42) of the plates (3) are clamped on the adjusting slide rails (22) through the adjusting slide grooves (421), after the plates (3) in the same vertical row are assembled, the plates (3) in the vertical row are pushed in the same direction at the same time, when the plates (3) in the first vertical row are pushed, the width distance of each plate (3) is pushed, the overall flatness of the plates (3), the perpendicularity with the ground and the gap change between the partition plates (3) are detected, and the adjusting assembly (23) is adjusted according to the measuring result;

s5: when the transverse position of the plate (3) cannot move continuously, the first support rod (42) is fixed with the adjusting slide rail (22) by using the positioning bolt (24);

s6: and filling joint filling glue in gaps among the plates (3).