CN116537441A - Compression-resistant sandwich panel assembly capable of being conveniently detached - Google Patents

Abstract

The invention discloses a compression-resistant sandwich panel assembly capable of being conveniently detached, which relates to the field of sandwich panels and comprises a plurality of flat panel members, a starting end power member and an ending end power member, wherein the flat panel members are sequentially distributed between the starting end power member and the ending end power member to be in linear arrangement, and the starting end power member and the flat panel members are connected with a concave assembly; the end power piece and the plate piece are connected with a protruding component; the female component on the starting end power piece can be matched with the male component on the adjacent flat piece; the male component on the terminating end power member can mate with the female component on the adjacent plate member. The wall body structure that the flat plate piece formed is stable high, and compressive capacity is stronger with receiving the impact ability, can fix all flat plate pieces locking when the installation, and with flat plate piece release locking when dismantling fixed, simplified the operation step when installation and dismantlement, reduce the degree of difficulty of installation and dismantlement, the installation effectiveness is higher.

Description

Compression-resistant sandwich panel assembly capable of being conveniently detached

Technical Field

The invention relates to the field of sandwich panels, in particular to a compression-resistant sandwich panel assembly capable of being conveniently detached.

Background

The sandwich board product is made up of two layers of formed metal panels (or other material panels) and high-molecular heat-insulating inner core which is foamed and cured in the middle of the panels, and the board is made up by using surface layer material with higher strength and core material with lighter volume weight and smaller strength through the process of gluing, and its specific strength is high, core material is cheap and its consumption is large, and surface material is cheap and its consumption is small.

The sandwich plate is widely applied to the construction of temporary scene buildings, such as movable houses and building sound insulation plates, due to the advantages of light weight, high strength, easy installation, transportation and the like, the height of the sandwich plate is set to be the required height of the movable houses through the sandwich plate capable of being detached and installed on site, a plurality of sandwich plates can be transversely installed to be assembled into four-sided walls of the movable houses, the installation is more convenient, and the disassembly, the transportation and the repeated use are more convenient when the movable houses are not needed.

Chinese patent CN213741693U discloses a high strength heat preservation polyurethane sandwich panel, including first polyurethane composite sheet body, one side of first polyurethane composite sheet body is provided with connection structure, and one side of connection structure is provided with second polyurethane composite sheet body, second polyurethane composite sheet body includes metal panel, and the bottom of metal panel is provided with the battenboard, the bottom of battenboard is provided with polyurethane rigid foam, and the bottom of polyurethane rigid foam is provided with the rock wool layer, connection structure includes two sets of risers, and the both sides of riser are provided with the diaphragm about upper and lower part, are provided with the fixed plate about one side between the diaphragm, and the inside of fixed plate is all offered by upper and lower parts and is had the cavity; the device is simple in operation, can be quickly assembled and disassembled, is convenient and quick, is more efficient, is high in strength, is high in heat preservation, fire prevention and sound insulation, and improves the practicability of the device.

The above-mentioned patents and prior art also have the following drawbacks:

when the sandwich plate is installed and disassembled, a large number of bolts are required to be installed at the joint of the sandwich plates, the operation is more troublesome, two sandwich plates are fixed, a quick-disassembly structure is installed on the sandwich plate by some technologies, but the assembly of a wall body is required to be a plurality of sandwich plates, the quick-disassembly structure is required to be operated by the installation or the disassembly of each sandwich plate, the operation steps are more troublesome, the installation or the disassembly efficiency of the sandwich plate is low, the movable house consisting of the sandwich plates has a certain living property, the environment where the movable house is located is complex, such as a construction site, a field movable scene and the like, the sandwich plates can be subjected to the leaning of people, the propping of a tabletop, the stacking of articles and the like, the existing quick-disassembly structure is low in installation strength between the two sandwich plates, the sandwich plates cannot be transferred to other sandwich plates after being stressed, the living sandwich plates are easy to separate from the whole, the comfort of the movable house is further caused, the whole aesthetic property is affected, and even a certain potential safety hazard is caused, and the defect is caused.

Accordingly, the present application provides a compression-resistant sandwich panel assembly that is easily removable to meet demand.

Disclosure of Invention

An object of the application is to provide a compression-resistant sandwich panel assembly that can convenient dismantlement, slip stiffener through in the both sides plate piece disperses to other plate pieces, prevent that single plate piece atress from breaking away from wholly, the wall body structural stability that the plate piece formed is high, compressive capacity and the impact force that receive are stronger, can fix all plate pieces locking when the installation, remove the locking fixed with the plate piece when dismantling, simplified the operation step when installation and dismantling, reduce the degree of difficulty of installation and dismantlement, the installation effectiveness is higher.

In order to achieve the above purpose, the present application provides the following technical solutions: the compression-resistant sandwich panel assembly comprises a plurality of flat panel pieces, a starting end power piece and an ending end power piece, wherein the flat panel pieces are positioned between the starting end power piece and the ending end power piece in sequence and are distributed in a straight line;

the starting end power piece and the flat piece are connected with a concave component; the end power piece and the plate piece are connected with a protruding component; the female component on the starting end power piece can be matched with the male component on the adjacent flat piece; the male component on the terminating end power member is capable of mating with the female component on an adjacent plate member;

In adjacent two of the plate members, a female component on the plate member proximate the start end power member is capable of mating with a male component on the plate member distal the start end power member;

the recess assembly includes a recess groove and a locking unit; the boss assembly includes a boss block; when the concave component is matched with the convex component, the convex block is inserted into the concave groove to form an inserting structure;

the inside of the starting end power piece, the inside of the ending end power piece and the inside of the plate piece are provided with reinforcing components; the reinforcement assembly includes a sliding reinforcement bar; the starting end power piece can push the sliding reinforcing rods in all the reinforcing assemblies to move towards the ending end power piece; the end power piece can push the sliding reinforcing rods in all the reinforcing assemblies to move towards the direction of the start end power piece;

all the sliding reinforcing rods can synchronously move; the sliding reinforcing rods except the end power piece can drive the corresponding locking units to perform locking movement in the process of moving towards the end power piece; when the locking unit moves to a locking position, the insertion structure is locked.

Preferably, the flat plate piece comprises two flat plate fixing plates and a flat plate filling core, wherein the flat plate filling core is fixedly arranged between the two flat plate fixing plates, and a fixing reinforcing rod is fixedly arranged between the two flat plate fixing plates; the starting end power piece and the ending end power piece comprise two power fixing plates and a power filling core, and the power filling core is fixedly arranged between the two power fixing plates.

Preferably, the flat plate member further comprises two flat plate reinforcing plates, wherein the two flat plate reinforcing plates are fixedly arranged between the two flat plate fixing plates and are arranged at two sides of the flat plate fixing plates; the starting end power piece and the ending end power piece also comprise power reinforcing plates, and the power reinforcing plates are fixedly arranged between the two power fixing plates.

Preferably, the concave assembly further comprises a concave block, the concave groove is formed in the concave block, and the concave block in the concave assembly arranged on the flat plate member is fixedly arranged between the two corresponding flat plate fixing plates; and the concave blocks are fixedly connected with the corresponding flat reinforcing plates, the concave blocks in the concave assembly arranged on the starting end power piece are fixedly arranged on the two power fixing plates, and the concave blocks are fixedly connected with the corresponding power reinforcing plates.

Preferably, the locking block is provided with a locking hole, the locking unit comprises a rotating shaft, a driving gear, a driving bevel gear, a transmission bevel gear, a threaded rod, a moving block and a locking rod, the rotating shaft in the locking unit arranged on the flat plate is rotationally connected to the corresponding flat plate fixing plate, and the rotating shaft in the locking unit arranged on the starting end power piece is rotationally connected to the corresponding power fixing plate; the driving gear is fixedly sleeved on the rotating shaft, the driving bevel gear is fixedly sleeved on the rotating shaft, the transmission bevel gear is meshed with the driving bevel gear, the threaded rod is fixedly installed at the bottom of the transmission bevel gear, the moving block is sleeved on the threaded rod and is in sliding fit with the threaded rod, the supporting rod is fixedly installed on the locking rod, and the other end of the supporting rod is fixedly installed on the moving block.

Preferably, the locking unit further comprises a supporting block, the supporting block arranged on the flat plate member is fixedly arranged on the corresponding flat plate fixing plate, and the supporting block arranged on the starting end power member is fixedly arranged on the corresponding power fixing plate; one end of the threaded rod, which is far away from the transmission bevel gear, is rotationally connected to a supporting block, the supporting rod penetrates through the supporting block and is in sliding fit with the supporting block, a guide hole is formed in the groove wall at the top of the concave groove, and the locking rod is in sliding fit in the guide hole; the opening of the concave groove is in a gradually expanding arrangement;

The bottom of locking lever is gradually shrink setting, the locking groove has been seted up on the bottom cell wall of indent groove, the locking groove is gradually shrink setting, the locking groove with the bottom of locking lever cooperatees.

Preferably, the reinforcement assembly further comprises four limit bars and a driving rack, and the limit bars in the reinforcement assembly arranged on the flat plate member are fixedly arranged on the flat plate fixing plate; the limiting strips in the reinforcing assemblies arranged on the starting end power piece and the ending end power piece are fixedly arranged on the power fixing plate; two limiting bars are arranged on two sides of the sliding reinforcing bar, one side of the sliding reinforcing bar is located between the corresponding two limiting bars, the driving rack is fixedly installed at the bottom of the sliding reinforcing bar, and the driving rack is meshed with the driving gear.

Preferably, the reinforcing component further comprises a connecting block, the reinforcing component is arranged on the flat plate member, and the connecting block is fixedly arranged in the two flat plate fixing plates; the reinforcing component is arranged on the starting end power piece, and the connecting blocks are fixedly arranged in the two power fixing plates;

The connecting block is located be close to protruding subassembly position in dull and stereotyped fixed plate and the power fixed plate, the connecting hole has been seted up on the connecting block, slip stiffener sliding fit is in the connecting hole, the connecting hole is the divergent setting, just the expansion direction of connecting hole with the direction of movement of slip stiffener is opposite.

Preferably, the flat plate member further comprises four edge sealing strips, wherein two edge sealing strips are fixedly installed at the top of the flat plate fixing plate and are arranged at the top of the flat plate fixing plate, the other two edge sealing strips are fixedly installed at two ends of the fixing reinforcing rod, the flat plate member further comprises two ornamental plates, and the two ornamental plates are fixedly installed at one side, corresponding to the flat plate fixing plate, away from the flat plate filling core.

Preferably, a support column is fixedly arranged on one side of each of the starting end power piece and the ending end power piece; the starting end power piece and the ending end power piece also comprise driving units, each driving unit comprises a hydraulic rod and a driving rod, each hydraulic rod is fixedly installed on each supporting column, each driving rod is fixedly installed at the output end of each hydraulic rod, and each driving rod is fixedly installed on the corresponding sliding reinforcing rod.

In summary, the invention has the technical effects and advantages that:

1. according to the invention, the protruding component is arranged on one side of the flat plate, the recessed component is arranged on the other side of the flat plate, the recessed component is arranged on the starting end power piece, the protruding component is arranged on the ending end power piece, and the protruding blocks in the protruding component can be inserted into the recessed grooves in the recessed component to form an inserting structure, so that the protruding component and the recessed component can be mutually matched, the starting end power piece, the plurality of flat plate pieces and the ending end power piece can be sequentially inserted into each other to form a wall structure, all the sliding reinforcing rods are pushed to move by the starting end power piece, the corresponding locking units can be enabled to lock the corresponding protruding blocks in the recessed grooves by the sliding reinforcing rods, the starting end power piece and the flat plate pieces, the flat plate pieces and the ending end power pieces are locked and fixed, the formed wall structure has better stability, the flat plate pieces are not easy to disassemble and break away from the whole, all the flat plate pieces can be locked and fixed during installation, the flat plate pieces are unlocked and fixed during the disassembly, the operation steps during the installation and the disassembly are simplified, the installation and the disassembly difficulty is lowered, and the installation efficiency is higher;

2. According to the invention, except for the plate parts close to the end power part, the sliding reinforcing rods in other plate parts can move into the next plate part along the moving direction, so that the plate parts can be dispersed to the plate parts corresponding to the two sides through the sliding reinforcing rods when being stressed, and then the sliding reinforcing rods in the plate parts at the two sides are dispersed to the other plate parts, so that the single plate part is prevented from being stressed to be separated from the whole, the stability of the wall structure formed by the plate parts is high, and the compression resistance and the impact resistance are stronger;

3. according to the invention, the locking rod is limited by the guide hole and the locking hole, so that the locking rod is more stable, the locking effect on the protruding block is better, and the locking rod still can pass through the locking hole when a certain matching error exists between the locking rod and the locking hole due to the gradual shrinkage of the bottom of the locking rod, so that the convenience of assembly is improved;

4. in the invention, when the sliding reinforcing rod in one plate moves into the corresponding other plate, the sliding reinforcing rod is firstly arranged in the connecting hole of the connecting block in a gradually expanding way, so that the sliding reinforcing rod can easily enter the connecting hole, and the assembly is simpler under the condition of certain assembly error.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the structure of a start end power member, a plate member and an end power member of the present invention;

FIG. 2 is a schematic view of the structure of the panel fixing plate and the trim panel of the present invention with a portion of the panel hidden;

FIG. 3 is a schematic view of the structure of the panel retainer plate, trim panel and panel filler core of the present invention with portions of the panel member hidden;

FIG. 4 is an enlarged view of portion A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic view of the structure of the present invention with the flat plate fastener and the power fixing plate hidden;

FIG. 6 is a schematic view of the structure of the start and end power members of the present invention;

FIG. 7 is a schematic view of the structure of a plate member according to the present invention;

FIG. 8 is an enlarged view of portion B of FIG. 7 in accordance with the present invention;

FIG. 9 is a schematic view of the structure of the female component, male component and reinforcing component of the present invention;

FIG. 10 is a schematic view of the structure of the flat plate fixing plate and the sliding reinforcing rods according to the present invention;

FIG. 11 is an enlarged view of portion C of FIG. 10 in accordance with the present invention;

fig. 12 is a schematic structural view of embodiment 2 of the present invention.

In the figure: 1. a plate member; 11. a flat plate fixing plate; 12. a flat panel filler core; 13. fixing the reinforcing rod; 14. a flat reinforcing plate; 15. edge banding; 2. a start end power piece; 21. a power fixing plate; 22. a power filling core; 23. a hydraulic rod; 24. a driving rod; 25. a power reinforcing plate; 3. ending the end power piece; 4. a recess assembly; 41. a concave groove; 42. a concave block; 43. a drive gear; 44. driving a bevel gear; 45. a drive bevel gear; 46. a threaded rod; 47. a locking lever; 5. a projection assembly; 51. a protruding block; 6. a reinforcement assembly; 61. sliding the reinforcing rod; 62. a limit bar; 63. a drive rack; 64. a connecting block; 7. and (5) supporting the column.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1: referring to fig. 1-12, a compression-resistant sandwich panel assembly capable of being disassembled conveniently comprises a plurality of flat panel members 1, a starting end power member 2 and a finishing end power member 3, wherein the flat panel members 1 are sequentially distributed between the starting end power member 2 and the finishing end power member 3 to be in linear arrangement;

the starting end power piece 2 and the plate piece 1 are connected with a concave component 4; the end power piece 3 and the plate piece 1 are both connected with a bulge component 5; the female component 4 on the starting end power piece 2 can be matched with the male component 5 on the adjacent flat piece 1; the male component 5 on the end power piece 3 can be matched with the female component 4 on the adjacent flat piece 1;

in the adjacent two flat plates 1, the concave component 4 on the flat plate 1 close to the starting end power piece 2 can be matched with the convex component 5 on the flat plate 1 far away from the starting end power piece 2;

the recess assembly 4 includes a recess groove 41 and a locking unit; the boss assembly 5 includes a boss block 51; when the concave component 4 is matched with the convex component 5, the convex block 51 is inserted into the concave groove 41 to form an inserting structure;

the starting end power piece 2, the ending end power piece 3 and the plate piece 1 are respectively provided with a reinforcing component 6; the reinforcement assembly 6 includes a sliding reinforcement bar 61; the starting end power piece 2 can push the sliding reinforcing rods 61 in all the reinforcing assemblies 6 to move towards the ending end power piece 3; the end power piece 3 can push the sliding reinforcing rods 61 in all the reinforcing assemblies 6 to move towards the direction of the start power piece 2;

All the slide reinforcing bars 61 can be moved synchronously; the other sliding reinforcing rods 61 except the end-end power piece 3 can drive the corresponding locking units to perform locking movement in the process of moving to the end-end power piece 3; when the locking unit moves to the locking position, the insertion structure is locked.

The starting end power member 2 is provided with a concave component 4, one side of the plate member 1 is provided with a convex component 5, the other side is provided with a concave component 4, the concave component 4 can be matched with the convex component 5 and form an inserting structure, namely, a convex block 51 in the convex component 5 is inserted into a concave groove 41 in the concave component 4, the convex component 5 on one plate member 1 is matched with the concave component 4 on the starting end power member 2, namely, the convex block 51 on one plate member 1 is inserted into the concave groove 41 on one side of the starting end power member 2 to form an inserting structure, then the convex component 5 on the other plate member 1 is matched with the concave component 4 on the plate member 1, namely, the convex block 51 on the other plate member 1 is inserted into the concave groove 41 on the plate member 1 to form an inserting structure, the plurality of flat plate members 1 are mutually matched in sequence through the concave assemblies 4 and the convex assemblies 5 to form an inserting structure, a linear wall body is formed, the convex assemblies 5 are arranged on the ending end power member 3, after the plurality of flat plate members 1 are mutually matched to form the inserting structure to form the linear wall body, the convex assemblies 5 on the ending end power member 3 are matched with the concave assemblies 4 on the flat plate members 1 far from the starting end power member 2, namely, the convex blocks 51 on the ending end power member 3 are inserted into the concave grooves 41 on the flat plate members 1 far from the starting end power member 2 to form the inserting structure, then the starting end power member 2 pushes the sliding reinforcing rods 61 in the starting end power member 2 to move, the sliding reinforcing rods 61 in the flat plate members 1 positioned on one side of the starting end power member 2 are pushed to move, except for the flat plate members 1 close to the ending end power member 3, the sliding reinforcing rods 61 in other plate members 1 move to push the sliding reinforcing rods 61 in the next plate member 1 to move along the moving direction, so that the starting end power member 2 pushes all the sliding reinforcing rods 61 to move, the sliding reinforcing rods 61 can drive the corresponding locking units to perform locking movement, namely the locking units driven by the sliding reinforcing rods 61 to move are positioned on the same plate member 1 or all the starting end power members 2, when the locking units move to the locking positions, the inserting structure is locked, namely the locking units lock the next protruding blocks 51 along the moving direction of the sliding reinforcing rods 61 in the corresponding concave grooves 41, so that the starting end power member 2 and the adjacent plate members 1 are locked and fixed, the plurality of plate members 1 are locked and fixed, the ending end power member 3 is far away from the plate members 1 of the starting end power member 2, and the linear wall surface is formed;

When disassembly is required, the end power piece 3 pushes the sliding reinforcing rod 61 in the end power piece 3 to move, the sliding reinforcing rod 61 pushes the sliding reinforcing rod 61 in the flat plate piece 1 positioned on one side of the end power piece 3 to move, except for the flat plate piece 1 close to the start end power piece 2, the sliding reinforcing rods 61 in other flat plate pieces 1 push the sliding reinforcing rods 61 in the next flat plate piece 1 to move along the moving direction, so that the start end power piece 2 pushes all the sliding reinforcing rods 61 to move, the sliding reinforcing rods 61 can drive the corresponding locking units to perform unlocking movement, the protruding blocks 51 in the corresponding concave grooves 41 are in contact with locking, the protruding blocks 51 can be separated from the concave grooves 41, the protruding assemblies 5 can be separated from the concave assemblies 4, the locking between the start end power piece 2 and the corresponding flat plate piece 1 is released, the locking between the flat plate pieces 1 and the end power piece 3 is released, and the start end power piece 2, the flat plate piece 1 and the end power piece 3 can be disassembled.

The upper side of the flat plate 1 is provided with the protruding component 5, the other side of the flat plate 1 is provided with the recessed component 4, the starting end power piece 2 is provided with the recessed component 4, the ending end power piece 3 is provided with the protruding component 5, the protruding blocks 51 in the protruding component 5 can be inserted into the recessed grooves 41 in the recessed component 4 to form an inserting structure, so that the protruding component 5 and the recessed component 4 can be mutually matched, the starting end power piece 2, a plurality of flat plate pieces 1 and the ending end power piece 3 can be sequentially inserted into each other to form a wall structure, all sliding reinforcing rods 61 are pushed to move by the starting end power piece 2, the corresponding locking units can be locked in the recessed grooves 41 by the sliding reinforcing rods 61, the corresponding locking units are enabled to be locked and fixed between the starting end power piece 2 and the flat plate pieces 1, and between the flat plate pieces 1, and the flat plate pieces 1 are enabled to have better stability, the whole flat plate pieces 1 can be not easy to disassemble and break away from the whole, the flat plate pieces 1 can be locked and fixed during installation, the flat plate pieces 1 can be unlocked and fixed during the disassembly, the locking and fixed during the disassembly, the operation is simplified, the operation and the disassembly and the assembly are more difficult;

Except for the flat plate piece 1 close to the end power piece 3, the sliding reinforcing rods 61 in other flat plate pieces 1 can move to enter the next flat plate piece 1 along the moving direction, so that the flat plate pieces 1 can be dispersed to the flat plate pieces 1 corresponding to the two sides through the sliding reinforcing rods 61 when being stressed, the sliding reinforcing rods 61 in the flat plate pieces 1 on the two sides are dispersed to other flat plate pieces 1, the single flat plate piece 1 is prevented from being stressed to be separated from the whole, the stability of the wall structure formed by the flat plate pieces 1 is high, and the compression resistance and the impact resistance are strong.

The slide stiffener 61 in the start end power member 2 abuts the slide stiffener 61 in the corresponding plate member 1 when the female component 4 on the start end power member 2 mates with the male component 5 on the corresponding plate member 1, the slide stiffener 61 in the plate member 1 abuts the slide stiffener 61 in the corresponding other plate member 1 when the female component 4 on the end power member 3 mates with the male component 5 on the corresponding plate member 1, and the slide stiffener 61 in the end power member 3 abuts the slide stiffener 61 in the corresponding plate member 1 when the female component 4 on the end power member 3 mates with the male component 5 on the corresponding plate member 1.

When the starting end power piece 2 and the ending end power piece 3 push the corresponding sliding reinforcing rods 61 to move, all the sliding reinforcing rods 61 can be driven to move, and therefore the purpose of unlocking the locking structure of the flat plate piece 1 is achieved.

Further, referring to fig. 1 to 12, the flat plate member 1 includes two flat plate fixing plates 11 and a flat plate filling core 12, the flat plate filling core 12 is fixedly installed between the two flat plate fixing plates 11, the flat plate member 1 further includes a fixing reinforcing rod 13, and the fixing reinforcing rod 13 is fixedly installed between the two flat plate fixing plates 11; the starting end power piece 2 and the ending end power piece 3 comprise two power fixing plates 21 and a power filling core 22, and the power filling core 22 is fixedly arranged between the two power fixing plates 21.

The flat filling core 12 is fixed in the middle of the flat fixing plate 11, the power filling core 22 is fixed in the middle of the power fixing plate 21, the stability of the formed wall is good, and the flat filling core 12 and the power filling core 22 are made of foamed glass materials, so that the wall has good heat insulation, heat preservation and fireproof capability.

Further, referring to fig. 1 to 12, the flat plate member 1 further includes two flat reinforcing plates 14, and the two flat reinforcing plates 14 are fixedly installed between the two flat fixing plates 11 and disposed at both sides of the flat fixing plates 11; the starting end power piece 2 and the ending end power piece 3 also comprise a power reinforcing plate 25, and the power reinforcing plate 25 is fixedly arranged between the two power fixing plates 21.

Two flat fixed plates 11 can be reinforced through the flat reinforcing plate 14, so that the flat piece 1 is firmer, the compression resistance is stronger, two power fixed plates 21 can be reinforced through the power reinforcing plate 25, and the starting end power piece 2 and the ending end power piece 3 are firmer, and the compression resistance is stronger.

Further, referring to fig. 1 to 12, the recess assembly 4 further includes a recess block 42, the recess groove 41 is opened on the recess block 42, the recess block 42 in the recess assembly 4 provided on the flat plate member 1 is fixedly installed between the corresponding two flat plate fixing plates 11; and the concave blocks 42 are fixedly connected with the corresponding flat reinforcing plates 14, the concave blocks 42 in the concave assemblies 4 arranged on the starting end power piece 2 are fixedly arranged on the two power fixing plates 21, and the concave blocks 42 are fixedly connected with the corresponding power reinforcing plates 25.

The concave block 42 provided on the flat plate member 1 is fixed to the flat plate fixing plate 11 and the flat plate reinforcing plate 14, and can transfer moment to the flat plate fixing plate 11 and the flat plate reinforcing plate 14 when the concave block 42 is stressed, increase the compression resistance of the concave block 42, and the concave block 42 provided on the starting end power member 2 is fixed to the power fixing plate 21 and the power reinforcing plate 25, and transfer moment to the flat plate fixing plate 11 and the flat plate reinforcing plate 14 when the concave block 42 is stressed, increase the compression resistance of the concave block 42.

Further, referring to fig. 1 to 12, the boss 51 is provided with a locking hole, and the locking unit includes a rotation shaft, a driving gear 43, a driving bevel gear 44, a transmission bevel gear 45, a threaded rod 46, a moving block and a locking lever 47, the rotation shaft in the locking unit provided on the flat plate member 1 is rotatably connected to the corresponding flat plate fixing plate 11, and the rotation shaft in the locking unit provided on the start-end power member 2 is rotatably connected to the corresponding power fixing plate 21; the drive gear 43 is fixedly sleeved on the rotating shaft, the drive bevel gear 44 is fixedly sleeved on the rotating shaft, the drive bevel gear 45 is meshed with the drive bevel gear 44, the threaded rod 46 is fixedly installed at the bottom of the drive bevel gear 45, the moving block is sleeved on the threaded rod 46 and is in sliding fit with the threaded rod 46, the supporting rod is fixedly installed on the locking rod 47, and the other end of the supporting rod is fixedly installed on the moving block.

When the corresponding sliding reinforcing rod 61 moves, the sliding reinforcing rod 61 can drive the driving gear 43 to rotate, the driving gear 43 drives the rotating shaft to rotate, the rotating shaft drives the driving bevel gear 44 to rotate, the driving bevel gear 44 drives the driving bevel gear 45 to rotate, the driving bevel gear 45 drives the threaded rod 46 to rotate, the moving block moves on the threaded rod 46, the moving block drives the locking rod 47 to move, the locking rod 47 locks the convex block 51 positioned in the concave groove 41, and the locking rod 47 locks the convex block 51 by moving into the locking hole in the convex block 51.

Further, referring to fig. 1 to 12, the locking unit further includes a support block fixedly installed on the corresponding flat plate fixing plate 11 and a support block fixedly installed on the start end power member 2 on the corresponding power fixing plate 21; one end of the threaded rod 46, which is far away from the transmission bevel gear 45, is rotatably connected to the supporting block, the supporting rod penetrates through the supporting block and is in sliding fit with the supporting block, a guide hole is formed in the groove wall at the top of the concave groove 41, and the locking rod 47 is in sliding fit in the guide hole; the opening of the concave groove 41 is gradually expanded;

the bottom of the locking lever 47 is gradually contracted, the groove wall of the bottom of the concave groove 41 is provided with a locking groove, the locking groove is gradually contracted, and the locking groove is matched with the bottom of the locking lever 47.

When the starting end power piece 2 drives the sliding reinforcing rod 61 to move, the sliding reinforcing rod 61 drives the locking rod 47 to descend, at the moment, the locking unit is locked, the locking unit moves to the locking position, when the locking rod 47 passes through the locking hole on the boss block 51 and is inserted into the locking groove, the boss block 51 is locked, and the locking rod 47 is limited through the guide hole and the locking hole, so that the locking rod 47 is firmer, the locking effect on the boss block 51 is better, the locking rod 47 is gradually contracted through the bottom of the locking rod 47, and when a certain matching error exists between the locking rod 47 and the locking hole, the locking rod 47 still can pass through the locking hole, and the assembly convenience is improved.

Further, referring to fig. 1 to 12, the reinforcement assembly 6 further includes four stopper bars 62 and a driving rack 63, and the stopper bars 62 in the reinforcement assembly 6 provided on the flat plate member 1 are fixedly installed on the flat plate fixing plate 11; the limiting strips 62 in the reinforcing assemblies 6 arranged on the starting end power piece 2 and the ending end power piece 3 are fixedly arranged on the power fixing plate 21; two limiting bars 62 are arranged on two sides of the sliding reinforcing rod 61, one side of the sliding reinforcing rod 61 is located between the two corresponding limiting bars 62, a driving rack 63 is fixedly arranged at the bottom of the sliding reinforcing rod 61, and the driving rack 63 is meshed with the driving gear 43.

The limit bar 62 limits the sliding reinforcing bar 61, so that the sliding reinforcing bar 61 does not move to other direction positions except the designated moving direction while having a certain moving amount, the sliding reinforcing bar 61 is limited, the sliding reinforcing bar 61 moves more stably, the compression resistance is high, the compression resistance of the plate member 1 is increased, the driving rack 63 is driven to synchronously move when the sliding reinforcing bar 61 moves, and the driving rack 63 can drive the driving gear 43 to rotate.

The limit strip 62 is middle part position fixed mounting and is kept out the board, keeps out one side fixed mounting that the board is close to slip stiffener 61 and has the rubber slab, and the rubber slab offsets with slip stiffener 61, compresses tightly the rubber slab on slip stiffener 61 through keeping out the board, makes to have certain frictional force between slip stiffener 61 and the rubber slab, prevents that plate 1 from in the transportation, and slip stiffener 61 takes place the displacement, can not increase the assembly degree of difficulty of plate 1 when the assembly.

Further, referring to fig. 1 to 12, the reinforcement assembly 6 further includes a connection block 64, the reinforcement assembly 6 being disposed on the flat plate member 1, wherein the connection block 64 is fixedly installed in the two flat plate fixing plates 11; a reinforcement assembly 6 provided on the start-end power member 2, wherein a connection block 64 is fixedly installed in the two power fixing plates 21;

The connecting block 64 is located in the flat fixing plate 11 and the power fixing plate 21 and is close to the position of the protruding component 5, a connecting hole is formed in the connecting block 64, the sliding reinforcing rod 61 is in sliding fit in the connecting hole, the connecting hole is in expanding arrangement, and the expanding direction of the connecting hole is opposite to the moving direction of the sliding reinforcing rod 61.

When the sliding reinforcing rod 61 in one flat plate piece 1 moves into the corresponding other flat plate piece 1, the sliding reinforcing rod 61 is firstly arranged in the connecting hole of the connecting block 64, the connecting hole is gradually expanded, the sliding reinforcing rod 61 can easily enter the connecting hole, and the sliding reinforcing rod can still enter the connecting hole under the condition of certain assembly error, so that the assembly is simpler.

Further, referring to fig. 1 to 12, the panel 1 further includes four edge sealing strips 15, wherein two edge sealing strips 15 are fixedly installed at the top and the top of the panel fixing plate 11, the other two edge sealing strips 15 are fixedly installed at two ends of the fixing reinforcing rod 13, and the panel 1 further includes two decorative plates fixedly installed at one side of the corresponding panel fixing plate 11 far from the panel filling core 12.

By means of the four edge strips 15 and the two trim panels, the integrity and the aesthetic appearance of the panel 1 are improved.

Further, referring to fig. 1 to 12, a support column 7 is fixedly installed at one side of each of the start end power member 2 and the end power member 3; the starting end power piece 2 and the ending end power piece 3 also comprise driving units, each driving unit comprises a hydraulic rod 23 and a driving rod 24, the hydraulic rods 23 are fixedly arranged on the supporting columns 7, the driving rods 24 are fixedly arranged at the output ends of the hydraulic rods 23, and the driving rods 24 are fixedly arranged on the corresponding sliding reinforcing rods 61.

When the hydraulic rod 23 works, the hydraulic rod 23 drives the driving rod 24 to move, the driving rod 24 drives the corresponding sliding reinforcing rods 61 to move, so that all the sliding reinforcing rods 61 are driven to move, the driving rod 24 in the starting end power piece 2 drives the sliding reinforcing rods 61 to move towards the direction close to the ending end power piece 3, the sliding reinforcing rods 61 in the flat piece 1 enter the next flat piece 1 along the moving direction, the driving rod 24 in the ending end power piece 3 drives the sliding reinforcing rods 61 to move towards the direction close to the starting end power piece 2, the sliding reinforcing rods 61 in the flat piece 1 are reset, when the hydraulic rods 23 in the starting end power piece 2 are stretched out, the hydraulic rods 23 in the ending end power piece 3 are contracted, and when the hydraulic rods 23 in the ending end power piece 3 are stretched out, the hydraulic rods 23 in the starting end power piece 2 are contracted.

Through support column 7 and ground or other object fixed, increase the overall stability of wall body, prevent that the wall body from wholly empting, further increase compressive capacity.

In embodiment 2, as another preferred embodiment, the support column 7 connected with the starting end power member 2 is further connected with another ending end power member 3, the support column 7 connected with the ending end power member 3 is further connected with another starting end power member 2, the starting end power member 2 and the ending end power member 3 are connected on the support column 7, and a certain angle is formed between the starting end power member 2 and the ending end power member 3, after the corresponding flat plate member 1 is assembled, the wall body can be bent at a certain angle, so that the wall body can adapt to the use of various scenes, the angle formed by the starting end power member 2 and the ending end power member 3 is preferably 90 degrees, and the problem of corner when building a house body can be solved.

The working principle of the invention is as follows: the starting end power member 2 is provided with a concave component 4, one side of the plate member 1 is provided with a convex component 5, the other side is provided with a concave component 4, the concave component 4 can be matched with the convex component 5 and form an inserting structure, namely, a convex block 51 in the convex component 5 is inserted into a concave groove 41 in the concave component 4, the convex component 5 on one plate member 1 is matched with the concave component 4 on the starting end power member 2, namely, the convex block 51 on one plate member 1 is inserted into the concave groove 41 on one side of the starting end power member 2 to form an inserting structure, then the convex component 5 on the other plate member 1 is matched with the concave component 4 on the plate member 1, namely, the convex block 51 on the other plate member 1 is inserted into the concave groove 41 on the plate member 1 to form an inserting structure, the plurality of flat plate members 1 are mutually matched in sequence through the concave assemblies 4 and the convex assemblies 5 to form an inserting structure, a linear wall body is formed, the convex assemblies 5 are arranged on the ending end power member 3, after the plurality of flat plate members 1 are mutually matched to form the inserting structure to form the linear wall body, the convex assemblies 5 on the ending end power member 3 are matched with the concave assemblies 4 on the flat plate members 1 far from the starting end power member 2, namely, the convex blocks 51 on the ending end power member 3 are inserted into the concave grooves 41 on the flat plate members 1 far from the starting end power member 2 to form the inserting structure, then the starting end power member 2 pushes the sliding reinforcing rods 61 in the starting end power member 2 to move, the sliding reinforcing rods 61 in the flat plate members 1 positioned on one side of the starting end power member 2 are pushed to move, except for the flat plate members 1 close to the ending end power member 3, the sliding reinforcing rods 61 in other plate members 1 move to push the sliding reinforcing rods 61 in the next plate member 1 to move along the moving direction, so that the starting end power member 2 pushes all the sliding reinforcing rods 61 to move, the sliding reinforcing rods 61 drive the driving racks 63 to move, the driving racks 63 drive the driving gears 43 to rotate, the driving gears 43 drive the rotating shafts to rotate, the rotating shafts drive the driving bevel gears 44 to rotate, the driving bevel gears 44 drive the driving bevel gears 45 to rotate, the driving bevel gears 45 drive the threaded rods 46 to rotate, the moving blocks move on the threaded rods 46, the moving blocks drive the locking rods 47 to move, the locking rods 47 lock the protruding blocks 51 in the concave grooves 41 by moving the locking holes inserted in the protruding blocks 51, the locking units lock the next protruding blocks 51 in the corresponding concave grooves 41 along the moving direction of the sliding reinforcing rods 61, the starting end power member 2 and the adjacent plate members 1 are locked and fixed, the end power members 3 are far away from the starting end power member 2 and form a straight wall surface;

When the disassembly is required, the end power piece 3 pushes the sliding reinforcing rod 61 in the end power piece 3 to move, the sliding reinforcing rod 61 pushes the sliding reinforcing rod 61 in the flat piece 1 positioned on one side of the end power piece 3 to move, the sliding reinforcing rods 61 in other flat pieces 1 push the sliding reinforcing rods 61 in the next flat piece 1 to move along the moving direction except for the flat piece 1 close to the start end power piece 2, so that the start end power piece 2 pushes all the sliding reinforcing rods 61 to move, the sliding reinforcing rods 61 drive the driving racks 63 to move, the driving racks 63 drive the driving gears 43 to rotate, the driving gears 43 drive the rotating shafts to rotate, the driving bevel gears 44 drive the driving bevel gears 45 to rotate, the driving bevel gears 45 drive the threaded rods 46 to rotate, the moving blocks move on the threaded rods 46, the moving blocks drive the locking rods 47 to lock the protruding blocks 51 positioned in the concave grooves 41, the locking rods 47 are separated from the locking holes in the protruding blocks 51 through movement, the protruding blocks 51 in the corresponding concave grooves 41 are contacted and locked, the protruding blocks 51 can be separated from the concave grooves 41, the protruding blocks 5 can be separated from the concave assemblies 5 from the concave pieces 1 and the end power piece 1 can be disassembled, and fixed, and the end power piece 1 can be disassembled, and the end-assembled and the end power piece 1 can be disassembled.

The upper side of the flat plate 1 is provided with the protruding component 5, the other side of the flat plate 1 is provided with the recessed component 4, the starting end power piece 2 is provided with the recessed component 4, the ending end power piece 3 is provided with the protruding component 5, the protruding blocks 51 in the protruding component 5 can be inserted into the recessed grooves 41 in the recessed component 4 to form an inserting structure, so that the protruding component 5 and the recessed component 4 can be mutually matched, the starting end power piece 2, a plurality of flat plate pieces 1 and the ending end power piece 3 can be sequentially inserted into each other to form a wall structure, all sliding reinforcing rods 61 are pushed to move by the starting end power piece 2, the corresponding locking units can be locked in the recessed grooves 41 by the sliding reinforcing rods 61, the corresponding locking units are enabled to be locked and fixed between the starting end power piece 2 and the flat plate pieces 1, and between the flat plate pieces 1, and the flat plate pieces 1 are enabled to have better stability, the whole flat plate pieces 1 can be not easy to disassemble and break away from the whole, the flat plate pieces 1 can be locked and fixed during installation, the flat plate pieces 1 can be unlocked and fixed during the disassembly, the locking and fixed during the disassembly, the operation is simplified, the operation and the disassembly and the assembly are more difficult;

except for the flat plate piece 1 close to the end power piece 3, the sliding reinforcing rods 61 in other flat plate pieces 1 can move to enter the next flat plate piece 1 along the moving direction, so that the flat plate pieces 1 can be dispersed to the flat plate pieces 1 corresponding to the two sides through the sliding reinforcing rods 61 when being stressed, the sliding reinforcing rods 61 in the flat plate pieces 1 on the two sides are dispersed to other flat plate pieces 1, the single flat plate piece 1 is prevented from being stressed to be separated from the whole, the stability of the wall structure formed by the flat plate pieces 1 is high, and the compression resistance and the impact resistance are strong.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. The utility model provides a compression-resistant sandwich panel assembly that can conveniently dismantle, includes a plurality of dull and stereotyped piece (1), its characterized in that: the device also comprises a starting end power piece (2) and a finishing end power piece (3), wherein a plurality of flat plate pieces (1) are sequentially distributed between the starting end power piece (2) and the finishing end power piece (3) to be in linear arrangement;

the starting end power piece (2) and the flat piece (1) are connected with a concave component (4); the end power piece (3) and the flat plate piece (1) are connected with a protruding component (5); -said female assembly (4) on said starting end power member (2) being able to cooperate with said male assembly (5) on an adjacent flat plate member (1); -said male assembly (5) on said finishing end power member (3) being capable of cooperating with said female assembly (4) on an adjacent flat plate member (1);

In two adjacent flat pieces (1), a concave component (4) on the flat piece (1) close to the initial end power piece (2) can be matched with a convex component (5) on the flat piece (1) far away from the initial end power piece (2);

the recess assembly (4) comprises a recess groove (41) and a locking unit; the bump assembly (5) comprises a bump block (51); when the concave component (4) is matched with the convex component (5), the convex block (51) is inserted into the concave groove (41) to form an inserting structure;

the starting end power piece (2), the ending end power piece (3) and the plate piece (1) are internally provided with reinforcing components (6); -said stiffening assembly (6) comprises a sliding stiffening rod (61); the starting end power piece (2) can push the sliding reinforcing rods (61) in all the reinforcing assemblies (6) to move towards the ending end power piece (3); the end power piece (3) can push the sliding reinforcing rods (61) in all the reinforcing assemblies (6) to move towards the starting end power piece (2);

all the sliding reinforcing rods (61) can synchronously move; the sliding reinforcing rods (61) except the end power piece (3) can drive the corresponding locking units to perform locking movement in the process of moving towards the end power piece (3); when the locking unit moves to a locking position, the insertion structure is locked.

2. The removable compression-resistant sandwich panel assembly of claim 1 wherein: the flat plate piece (1) comprises two flat plate fixing plates (11) and a flat plate filling core (12), wherein the flat plate filling core (12) is fixedly arranged between the two flat plate fixing plates (11), and a fixing reinforcing rod (13) is fixedly arranged between the two flat plate fixing plates (11); the starting end power piece (2) and the ending end power piece (3) comprise two power fixing plates (21) and a power filling core (22), and the power filling core (22) is fixedly arranged between the two power fixing plates (21).

3. The removable compression-resistant sandwich panel assembly of claim 2, wherein: the flat plate piece (1) further comprises two flat plate reinforcing plates (14), wherein the two flat plate reinforcing plates (14) are fixedly arranged between the two flat plate fixing plates (11) and are arranged at two sides of the flat plate fixing plates (11); the starting end power piece (2) and the ending end power piece (3) also comprise power reinforcing plates (25), and the power reinforcing plates (25) are fixedly arranged between the two power fixing plates (21).

4. A removable compression-resistant sandwich panel assembly as recited in claim 3, wherein: the concave assembly (4) further comprises a concave block (42), the concave groove (41) is formed in the concave block (42), and the concave block (42) in the concave assembly (4) arranged on the flat plate piece (1) is fixedly arranged between the two corresponding flat plate fixing plates (11); and the concave blocks (42) are fixedly connected with the corresponding flat reinforcing plates (14), the concave blocks (42) in the concave assemblies (4) arranged on the starting end power piece (2) are fixedly arranged on the two power fixing plates (21), and the concave blocks (42) are fixedly connected with the corresponding power reinforcing plates (25).

5. A removable compression-resistant sandwich panel assembly as recited in claim 3, wherein: the locking unit comprises a rotating shaft, a driving gear (43), a driving bevel gear (44), a transmission bevel gear (45), a threaded rod (46), a moving block and a locking rod (47), wherein the rotating shaft in the locking unit arranged on the flat plate (1) is rotationally connected to the corresponding flat plate fixing plate (11), and the rotating shaft in the locking unit arranged on the starting end power part (2) is rotationally connected to the corresponding power fixing plate (21); the driving gear (43) is fixedly sleeved on the rotating shaft, the driving bevel gear (44) is fixedly sleeved on the rotating shaft, the driving bevel gear (45) is meshed with the driving bevel gear (44), the threaded rod (46) is fixedly mounted at the bottom of the driving bevel gear (45), the moving block is sleeved on the threaded rod (46) and is in sliding fit with the threaded rod (46), the supporting rod is fixedly mounted on the locking rod (47), and the other end of the supporting rod is fixedly mounted on the moving block.

6. The removable compression-resistant sandwich panel assembly of claim 5 wherein: the locking unit further comprises a supporting block, the supporting block arranged on the flat plate piece (1) is fixedly arranged on the corresponding flat plate fixing plate (11), and the supporting block arranged on the starting end power piece (2) is fixedly arranged on the corresponding power fixing plate (21); one end of the threaded rod (46) far away from the transmission bevel gear (45) is rotationally connected to a supporting block, the supporting rod penetrates through the supporting block and is in sliding fit with the supporting block, a guide hole is formed in the groove wall at the top of the concave groove (41), and the locking rod (47) is in sliding fit in the guide hole; the opening of the concave groove (41) is in a gradually expanding arrangement;

the bottom of locking lever (47) is gradually shrink setting, set up the locking groove on the bottom cell wall of indent groove (41), the locking groove is gradually shrink setting, the locking groove with the bottom of locking lever (47) cooperatees.

7. The removable compression-resistant sandwich panel assembly of claim 5 wherein: the reinforcing component (6) further comprises four limit strips (62) and a driving rack (63), and the limit strips (62) in the reinforcing component (6) arranged on the flat plate piece (1) are fixedly arranged on the flat plate fixing plate (11); the limiting strips (62) in the reinforcing assemblies (6) arranged on the starting end power piece (2) and the ending end power piece (3) are fixedly arranged on the power fixing plate (21); two limit bars (62) are arranged on two sides of the sliding reinforcing rod (61), one side of the sliding reinforcing rod (61) is located between the two corresponding limit bars (62), the driving rack (63) is fixedly installed at the bottom of the sliding reinforcing rod (61), and the driving rack (63) is meshed with the driving gear (43).

8. A removable compression-resistant sandwich panel assembly as recited in claim 3, wherein: the reinforcing component (6) further comprises a connecting block (64), and the reinforcing component (6) is arranged on the flat plate piece (1), wherein the connecting block (64) is fixedly arranged in the two flat plate fixing plates (11); the reinforcing component (6) is arranged on the starting end power piece (2), and the connecting blocks (64) are fixedly arranged in the two power fixing plates (21);

the connecting block (64) is located at the position, close to the protruding component (5), in the flat fixing plate (11) and the power fixing plate (21), a connecting hole is formed in the connecting block (64), the sliding reinforcing rod (61) is in sliding fit in the connecting hole, the connecting hole is formed in a gradually expanding mode, and the expanding direction of the connecting hole is opposite to the moving direction of the sliding reinforcing rod (61).

9. A removable compression-resistant sandwich panel assembly as recited in claim 3, wherein: the flat plate piece (1) further comprises four edge sealing strips (15), wherein two edge sealing strips (15) are fixedly installed at the top of the flat plate fixing plate (11) and are arranged at the top, the other two edge sealing strips (15) are fixedly installed at two ends of the fixing reinforcing rod (13), the flat plate piece (1) further comprises two ornamental plates, and the two ornamental plates are fixedly installed at one sides, corresponding to the flat plate fixing plate (11), of the flat plate filling core (12).

10. The removable compression-resistant sandwich panel assembly of claim 1 wherein: a support column (7) is fixedly arranged on one side of each of the starting end power piece (2) and the ending end power piece (3); the starting end power piece (2) and the ending end power piece (3) further comprise a driving unit, the driving unit comprises a hydraulic rod (23) and a driving rod (24), the hydraulic rod (23) is fixedly installed on the supporting column (7), the driving rod (24) is fixedly installed at the output end of the hydraulic rod (23), and the driving rod (24) is fixedly installed on the corresponding sliding reinforcing rod (61).