CN112854774A

CN112854774A - Flame-retardant anti-cracking composite heat-insulation wall body stacking construction method

Info

Publication number: CN112854774A
Application number: CN202110014233.7A
Authority: CN
Inventors: 赵宣; 于元鹏
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-06
Filing date: 2021-01-06
Publication date: 2021-05-28

Abstract

The invention relates to a method for stacking and constructing a flame-retardant anti-cracking composite heat-insulating wall, which uses equipment for stacking and constructing the flame-retardant anti-cracking composite heat-insulating wall. The invention can solve the problems existing in the piling construction of the flame-retardant anti-cracking composite heat-insulating wall body at present: the existing support equipment for stacking and constructing the flame-retardant anti-cracking composite heat-insulating building blocks is constructed by a plurality of steel structures, along with the gradual rise of the wall body, the steel structures are required to be additionally installed on the upper end of the original support equipment through manual work, the bottom of the support equipment is not provided with moving rollers, the steel structures on the support equipment are more and more, the whole support equipment is heavier and more, the steel structures of the support equipment are increased, the support equipment is moved, a large amount of time of workers can be wasted, and therefore the construction efficiency of the wall body is reduced.

Description

Flame-retardant anti-cracking composite heat-insulation wall body stacking construction method

Technical Field

The invention relates to the field of buildings, in particular to a method for building a flame-retardant anti-cracking composite heat-insulating wall.

Background

With the further importance of the country on building energy conservation and the gradual deepening and improvement of the research and development of building energy-saving materials, various novel energy-saving materials emerge endlessly. At present, more and more various novel light flame-retardant anti-cracking composite heat-insulation building blocks are applied to building walls, and the application of the flame-retardant anti-cracking composite heat-insulation building blocks can greatly improve the construction speed under the condition of meeting the energy-saving design requirement. The flame-retardant anti-cracking composite heat-insulation building block has a small heat transfer coefficient, can meet the energy-saving requirement of residential buildings, does not need an external heat-insulation layer for a masonry body, enables an external facing material to have more selectivity, can be coated with paint, can be directly coated with a face brick, is easy to process, transport and store, is simple and convenient and quick to construct, can shorten the working period, and is economical in manufacturing cost compared with a common building block external expansion polystyrene board heat-insulation system. The invention mainly aims at the building construction of the wall body by the flame-retardant anti-cracking composite heat-insulation building block.

At present, the following problems exist during the stacking construction of the flame-retardant anti-cracking composite heat-insulating wall body: the existing support equipment for stacking construction of flame-retardant anti-cracking composite heat-insulating building blocks is built by a plurality of steel structures, along with gradual rise of a wall body, the steel structures are required to be additionally installed on the upper end of the original support equipment through manual work, the support equipment is enabled to rise, movable rollers are not arranged at the bottom of the support equipment, steel structures on the support equipment are more and more caused, the whole support equipment is heavier and more, the support equipment is required to be moved to different positions for supporting the wall body, greater labor intensity can be brought to workers, the steel structures of the support equipment are increased, the support equipment is moved, a large amount of time of the workers can be wasted, and the construction efficiency of the wall body is reduced.

Disclosure of Invention

The invention aims to provide a method for building a flame-retardant anti-cracking composite heat-insulating wall body so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the method for stacking and constructing the flame-retardant anti-cracking composite heat-insulating wall uses a device for stacking and constructing the flame-retardant anti-cracking composite heat-insulating wall, the device for stacking and constructing the flame-retardant anti-cracking composite heat-insulating wall comprises a base and a supporting device, and the device for stacking and constructing the flame-retardant anti-cracking composite heat-insulating wall comprises the following concrete steps:

step one, preparation operation: debugging the flame-retardant anti-cracking composite heat-insulating wall body stacking construction equipment, and moving the two flame-retardant anti-cracking composite heat-insulating wall body stacking construction equipment to a construction site for constructing the flame-retardant anti-cracking composite heat-insulating wall body;

step two, preparing the flame-retardant anti-cracking composite heat-insulation building block: the flame-retardant anti-cracking composite heat-insulation building blocks are produced by using the existing building block manufacturing equipment, and are transported to a place where a flame-retardant anti-cracking composite heat-insulation wall needs to be built;

step three, stacking the flame-retardant anti-cracking composite heat-insulation wall: the two flame-retardant anti-cracking composite heat-insulation wall body stacking construction devices are symmetrically arranged on two sides of the building cavity, then the supporting devices are adjusted, so that the building blocks in the step two can be started to be stacked, and in the building block stacking process, the supporting devices support the building blocks which are just stacked;

the upper surface of the base is provided with a supporting device; wherein:

the movable sliding ways are symmetrically arranged at two ends of the lower surface of the base along the width direction of the lower surface of the base, movable sliding blocks are symmetrically and slidably mounted at two ends in the movable sliding ways, a movable lead screw penetrates through the movable sliding ways, the movable sliding blocks are connected with the movable lead screw in a threaded fit mode, the thread fit directions between the two movable sliding blocks positioned in the same movable sliding way and the movable lead screw are opposite, movable rollers are arranged on the lower surfaces of the movable sliding blocks, movable support blocks are symmetrically and slidably mounted at two ends below the movable sliding ways, the movable rollers are in contact connection with the movable support blocks, and movable wheels are rotatably arranged below the;

the supporting device comprises a first lifting slide way, a first lifting slide block, a lifting cylinder, a lifting connecting rod, a lifting support plate, a second lifting slide way, a second lifting slide block, a regulating slide rod, a supporting unit and a regulating screw rod, wherein the upper surface of the base is provided with the first lifting slide way, the first lifting slide block is symmetrically and slidably mounted at two ends in the first lifting slide way, the lifting cylinder is connected between one end of the first lifting slide way and the first lifting slide block positioned at the other end in the first lifting slide way, the upper end surfaces of the two first lifting slide blocks are respectively connected with the lower end of the lifting connecting rod through hinges, the lifting connecting rod is of a diamond telescopic structure, the second lifting slide way is arranged at the upper end of the lifting support plate, the second lifting slide block is symmetrically and slidably mounted at two ends in the second lifting slide way, the first lifting slide block corresponds to the second lifting slide block in position one to one, and the upper end of, two adjusting slide bars are symmetrically and vertically arranged at two ends of the width direction of one side of the lifting support plate, three supporting units are sequentially arranged on the adjusting slide bars in a sliding manner along the length direction of the adjusting slide bars, and the lifting support plate is connected with the supporting units through adjusting screws.

As a further scheme of the invention: the utility model discloses a lifting support board, including lifting support board, balancing slide bar, balancing connecting rod, a plurality of balancing spout, balancing slide bar and balancing slide bar, the vertical balanced slide that is provided with of its width direction both ends symmetry of lifting support board opposite side, the sliding is provided with a plurality of balancing slider in proper order in the balanced slide, and connects through balancing connecting rod between the adjacent balancing slider, balancing connecting rod is elastic telescopic structure, both ends down have set gradually a plurality of balancing spout from last about the lifting connecting rod, and balancing slider is.

As a further scheme of the invention: the utility model discloses a lifting support plate, including lifting support plate, supplementary slide frame, auxiliary sliding plate, auxiliary sliding groove, supporting spring, supplementary slide plate, supplementary slide frame, supplementary slide plate, supplementary long roller.

As a further scheme of the invention: the supporting unit is including supporting the diaphragm, support the slide, the supporting shoe, spacing subassembly, support the long slab, coupling assembling, braced frame body and supporting roller, it has three support diaphragm to extend its length direction to slide in proper order on the regulation slide bar, the support slide has transversely been seted up to support diaphragm one side, it is provided with spacing subassembly to slide in the support slide and be provided with between the two the supporting shoe and the two, the support long slab is installed to supporting shoe one side, support long slab one side and transversely be provided with a plurality of coupling assembling, braced frame body is installed to coupling assembling one side, the last vertical supporting roller that is provided with.

As a further scheme of the invention: spacing subassembly includes spacing spout, spacing slider, spacing ball and spacing draw-in groove, supports that its length direction of slide one side has evenly seted up the spacing spout of a plurality of, and slidable mounting has spacing slider and is connected with supporting spring between the two in the spacing spout, and spacing slider one end roll mounting has spacing ball, and the spacing draw-in groove of a plurality of has evenly been seted up to the supporting slider opposite side, and spacing ball is connected with the cooperation of spacing draw-in groove.

As a further scheme of the invention: the connecting assembly comprises a first connecting chute, a second connecting chute, connecting sliding blocks, connecting rods, connecting screw rods and connecting rods, a plurality of first connecting chutes are uniformly and vertically arranged on one side of the supporting long plate in the length direction, the second connecting chute is vertically arranged on one side of the supporting frame body, the first connecting chute is opposite to the second connecting chute in position, the connecting sliding blocks are symmetrically and slidably arranged at two ends of the first connecting chute and two ends of the second connecting chute, the connecting sliding blocks are connected through the connecting rods, the connecting rods are in a cross structure, the connecting sliding blocks positioned in the second connecting chute are connected with the connecting rods through universal joints, the connecting screw rods penetrate through the first connecting chute, the two connecting sliding blocks positioned in the first connecting chute are connected with the connecting screw rods through screw thread matching, the connecting screw rods positioned at opposite positions on the three supporting transverse plates are connected through the connecting rods, the connecting screw rod is connected with the connecting rod in a sliding manner.

As a further scheme of the invention: and a plurality of supporting balls are uniformly arranged on the surface of the supporting roller in a rolling manner.

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

the method can solve the following problems in the existing stacking construction of the flame-retardant anti-cracking composite heat-insulating wall body: the existing supporting equipment for stacking the flame-retardant anti-cracking composite heat-insulation building blocks is built by a plurality of steel structures, along with the gradual rise of the wall body, the steel structures are required to be installed and increased on the upper end of the original supporting equipment manually, so that the supporting equipment rises, and the bottom of the supporting equipment is not provided with a movable roller, so that the number of the steel structures on the supporting equipment is increased, the whole supporting equipment is also increased, when the supporting equipment is required to be moved to different positions for supporting the wall body, the labor intensity of workers is increased, and the steel structures of the supporting equipment are increased, so that the movement of the supporting equipment wastes a large amount of time of the workers, and the construction efficiency of the wall body is reduced;

when the device disclosed by the invention is used for building the flame-retardant anti-cracking composite heat-insulating wall, the position of the supporting device can be freely controlled, so that the supporting device can be synchronously lifted along with the rising of the building of the wall, the wall can be better and stably supported, the supporting unit can synchronously support three layers of building blocks which are just built at the same time, the position movement can be carried out, the range of supporting the building blocks is enlarged, the frequency of moving the supporting device is reduced, and the building construction efficiency of the flame-retardant anti-cracking composite heat-insulating wall is effectively improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of the operation of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic side sectional view of the present invention;

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic cross-sectional view taken along line B-B of FIG. 3 in accordance with the present invention;

FIG. 6 is an enlarged view of FIG. 3 at C of the present invention;

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained with reference to fig. 1 to 6.

A method for stacking and constructing a flame-retardant anti-cracking composite heat-insulating wall body uses a device for stacking and constructing the flame-retardant anti-cracking composite heat-insulating wall body, the device for stacking and constructing the flame-retardant anti-cracking composite heat-insulating wall body comprises a base 1 and a supporting device 2, and the method comprises the following concrete steps when the device for stacking and constructing the flame-retardant anti-cracking composite heat-insulating wall body is adopted:

step three, stacking the flame-retardant anti-cracking composite heat-insulation wall: the two flame-retardant anti-cracking composite heat-insulation wall body stacking construction devices are symmetrically arranged on two sides of the building cavity, then the supporting devices 2 are adjusted, so that the building blocks in the second step can be stacked, and in the building block stacking process, the supporting devices 2 support the building blocks which are just stacked;

the upper surface of the base 1 is provided with a supporting device 2; wherein:

the lower surface of the base 1 is symmetrically provided with moving slideways 10 along two ends of the width direction of the lower surface, moving sliding blocks 11 are symmetrically and slidably mounted at two ends in the moving slideways 10, a moving screw 12 penetrates through the moving slideway 10, the moving sliding blocks 11 are connected with the moving screw 12 in a thread fit mode, the thread fit directions between the two moving sliding blocks 11 and the moving screw 12 in the same moving slideway 10 are opposite, moving rollers 13 are arranged on the lower surfaces of the moving sliding blocks 11, moving support blocks 14 are symmetrically and slidably mounted at two ends below the moving slideway 10, the moving rollers 13 are in contact connection with the moving support blocks 14, and moving wheels 15 are rotatably arranged below the moving support blocks 14; during specific work, the rotating movable screw 12 can control the two movable sliding blocks 11 to move relatively in the movable sliding way 10, so that the movable roller 13 can be in contact with the movable supporting block 14, the movable supporting block 14 moves downwards to push the movable wheel 15 out of the base 1, and therefore when the base 1 is moved, the movable roller can move towards all directions, when the movable roller 13 is not in contact with the movable supporting block 14, the movable wheel 15 can enter one part of the base 1, the movable direction of the movable wheel 15 can only move transversely, and when the supporting device 2 supports a wall body, the problem of deviation does not occur in the moving process of the base 1, and the supporting device 2 can always support the wall body.

The supporting device 2 comprises a first lifting slide way 20, a first lifting slide block 21, a lifting cylinder 22, a lifting connecting rod 23, a lifting support plate 24, a second lifting slide way 25, a second lifting slide block 26, an adjusting slide rod 27, a supporting unit 28 and an adjusting screw 29, wherein the upper surface of the base 1 is provided with the first lifting slide way 20, the first lifting slide way 21 is symmetrically and slidably installed at two ends in the first lifting slide way 20, the lifting cylinder 22 is connected between one end of the first lifting slide way 20 and the first lifting slide block 21 at the other end in the first lifting slide way 20, the upper end surfaces of the two first lifting slide blocks 21 are respectively connected with the lower end of the lifting connecting rod 23 through hinges, the lifting connecting rod 23 is of a diamond-shaped telescopic structure, the second lifting slide way 25 is started to be arranged at the upper end of the lifting support plate 24, the second lifting slide block 26 is symmetrically and slidably installed at two ends in the second lifting slide way 25, the first lifting slide blocks 21 correspond to, the upper end of the lifting connecting rod 23 is connected with two second lifting slide blocks 26 through hinges respectively, two adjusting slide rods 27 are symmetrically and vertically arranged on one side of the lifting support plate 24 along two ends of the width direction of the lifting support plate, three support units 28 are sequentially arranged on the adjusting slide rods 27 along the length direction of the adjusting slide rods in a sliding mode, and the lifting support plate 24 is connected with the support units 28 through adjusting screws 29;

when the lifting device works, the expansion of the lifting cylinder 22 can control the first lifting slide block 21 to move in the first lifting slide way 20, thus when the distance between the two first lifting sliders 21 in the first lifting slide 20 is changed, the lifting connecting rod 23 is extended and contracted, so that the two second lifting slide blocks 26 move relatively in the second lifting slide way 25, the height of the lifting support plate 24 from the base 1 can be controlled due to the extension and contraction of the lifting connecting rod 23, so that the position of the supporting unit 28 can be raised with the gradual rise of the wall body building, the rotation of the adjusting screw 29 can adjust and support the position change of the three supporting units 28 on the adjusting slide rod 27, so that each supporting unit can be aligned with one building block for supporting, thus, the three support units 28 can simultaneously support the three layers of the building blocks which are just piled, and the solidification of concrete among the building blocks is facilitated.

Two ends of the other side of the lifting support plate 24 in the width direction are symmetrically and vertically provided with balance slideways 240, a plurality of balance sliding blocks 241 are sequentially arranged in the balance slideways 240 in a sliding manner, adjacent balance sliding blocks 241 are connected through balance connecting rods 242, the balance connecting rods 242 are of elastic telescopic structures, a plurality of balance sliding grooves 243 are sequentially arranged at the left end and the right end of the lifting connecting rod 23 from top to bottom, the balance sliding blocks 241 are located in the balance sliding grooves 243 in a one-to-one correspondence manner, and the balance sliding blocks 241 are connected with the balance sliding grooves 243 through balance sliding rods 244; during specific work, when the lifting connecting rod 23 extends, the balance slide rod 244 on the balance slide groove 243 can drive the balance slide block 241 to move in the balance slide way 240, and under the action of the balance connecting rod 242, the balance slide block 241 in the same balance slide way 240 can move synchronously, so that the up-and-down movement of the position of the lifting support plate 24 can be carried out more stably, the whole supporting device 2 can be more stable when the supporting unit 28 supports the wall, and the safety and stability of the wall are ensured.

An auxiliary sliding frame 245 is arranged at the upper end of the lifting support plate 24 in a sliding manner, an auxiliary cylinder 246 is connected between the lifting support plate 24 and the auxiliary sliding frame 245, an auxiliary transverse plate 247 is arranged at one end of the auxiliary sliding frame 245, an auxiliary support 248 is arranged on one side surface of the auxiliary transverse plate 247 in a vertical sliding manner, a support spring is connected between the auxiliary transverse plate 247 and the auxiliary support 248, an auxiliary sliding groove 249 is formed in one side of the auxiliary support 248, an auxiliary sliding plate 250 is arranged in the auxiliary sliding groove 249 in a sliding manner, the support spring is connected between the auxiliary transverse plate 247 and the auxiliary support 248, and; during specific work, the auxiliary cylinder 246 can stretch and retract to push the auxiliary carriage 245 to slide on the upper end of the lifting support plate 24, so that the position, away from the surface of the wall, of the auxiliary long roller 251 on one side of the auxiliary support 248 is controlled through the auxiliary transverse plate 247, the auxiliary long roller 251 can be located right above the wall, the distance between the auxiliary long rollers 251 on the two support devices 2 located at opposite positions on two sides of the wall is slightly smaller than the width of a building block, and therefore when the building block is stacked, the building block can extrude the auxiliary sliding plate 250 to slide in the auxiliary sliding groove 249 under the action of the support spring until the building block falls on the end face above the wall, the position of the building block can be calibrated by an auxiliary worker, and accordingly the stacking quality of the.

The supporting unit 28 comprises a supporting transverse plate 280, a supporting slide way 281, a supporting slide block 282, a limiting assembly 283, a supporting long plate 284, a connecting assembly 285, a supporting frame 286 and a supporting roller 287, three supporting transverse plates 280 are sequentially arranged on the adjusting slide rod 27 in a sliding manner along the length direction of the adjusting slide rod, the supporting slide way 281 is transversely arranged on one side of each supporting transverse plate 280, the supporting slide block 282 is arranged in the supporting slide way 281 in a sliding manner, the limiting assembly 283 is arranged between the supporting slide blocks 282 and the supporting long plate 284, the connecting assemblies 285 are transversely arranged on one side of each supporting long plate 284, the supporting frame 286 is arranged on one side of each connecting assembly 285, and the supporting roller 287 is;

during specific work, can control the position of supporting roller 287 apart from the wall on the carriage 286 through coupling assembling 285, thereby better support wall, and supporting slider 282 can move in supporting slide 281, like this workman alright with the mode through the hand push, make supporting slider 282 take supporting roller 287 to roll to the place of piling up the building block on the wall, can temporarily different removal base 1 like this, alright realize the support to the building block in the certain limit, effectively reduce the quantity that the workman removed base 1, thereby improve the efficiency of wall piling up, spacing subassembly 283 can be when supporting slider 282 stops in supporting slide 281, temporarily carry out the restriction of position to supporting slider 282, thereby guarantee supporting roller 287's stable supporting effect.

The limiting assembly 283 comprises a limiting chute 2830, a limiting slider 2831, limiting balls 2832 and limiting clamping grooves 2833, a plurality of limiting chutes 2830 are uniformly formed in one side of the supporting slideway 281 along the length direction of the supporting slideway, the limiting slider 2831 is slidably mounted in the limiting chute 2830, a supporting spring is connected between the limiting slider 2831 and the limiting chute 2833, the limiting balls 2832 are rotatably mounted at one end of the limiting slider 2831, the limiting clamping grooves 2833 are uniformly formed in the other side of the supporting slider 282, and the limiting balls 2832 are connected with the limiting clamping grooves 2833 in a matched mode; during specific work, when support slider 282 stops in support slide 281, spacing ball 2832 can cooperate with spacing draw-in groove 2833 to be connected, then under supporting spring's effect, spacing slider 2831 can push up spacing ball 2832 in spacing draw-in groove 2833, thereby form the position restriction to support slider 282, when support slider 282 removes in support slide 281, because extruded effect, spacing ball 2832 is extruded and also can extrude spacing slider 2831 and remove toward spacing spout 2830, thereby make spacing ball 2832 break away from with spacing draw-in groove 2833, make support slider 282 lose the restriction, support slider 282 alright in order to freely slide in support slide 281 like this.

The connecting assembly 285 comprises a first connecting chute 2850, a second connecting chute 2851, a connecting slider 2852, a connecting rod 2853, a connecting screw rod 2854 and a connecting rod 2855, wherein one side of the support long plate 284 is uniformly and vertically provided with a plurality of first connecting chutes 2850 along the length direction thereof, one side of the support frame 286 is vertically provided with a second connecting chute 2851, the first connecting chute 2850 is opposite to the second connecting chute 2851 in position, two ends of the first connecting chute 2850 and two ends of the second connecting chute 2851 are symmetrically and slidably provided with connecting sliders 2852, the connecting sliders 2852 are connected through the connecting rod 2853, the connecting rod 2853 is of a cross structure, the connecting sliders 2852 positioned in the second connecting chute 2851 are connected with the connecting rod 2853 through universal joints, the connecting screw rod penetrates through the first connecting chute 2850, two connecting sliders 2852 positioned in the first connecting chute 2850 are connected with the connecting screw rod 2854 through screw threads in a matching manner, and the connecting screw rod 2854 are opposite in directions, the connecting screw rods 2854 located at opposite positions on the three supporting transverse plates 280 are connected through the connecting rods 2855, and the connecting screw rods 2854 are in sliding connection with the connecting rods 2855;

during operation, rotate connecting screw 2854 and can control two link blocks 2852 relative motion between being located same one link chute 2850, connecting rod 2853 just can appear flexible phenomenon like this and make two link blocks 2852 that are located two link chutes 2851 also take place relative motion, thereby realize the position of the supporting roller 287 apart from the wall body on the control braced frame 286, connecting rod 2855 can play and connect three link screw 2854 that vertical position is relative and rotate together, and every link screw 2854 pivoted number of turns is different can make the flexible length of connecting rod 2853 different, support or arc wall body also can support to wall body corner like this.

A plurality of supporting balls 2870 are uniformly arranged on the surface of the supporting roller 287 in a rolling manner; during specific work, the supporting roller 287 can transversely move on the surface of the wall, and after the supporting ball 2870 is installed, the supporting roller 287 can freely move on the surface of the wall, so that the position change of the whole supporting device 2 is facilitated, and the supporting stability of the wall cannot be influenced.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a fire-retardant anti compound incubation wall body of splitting piles up construction method, it has used a fire-retardant anti compound incubation wall body of splitting to pile up construction equipment, this fire-retardant anti compound incubation wall body of splitting piles up construction equipment and includes base (1) and strutting arrangement (2), its characterized in that: the method for stacking the flame-retardant anti-cracking composite heat-insulating wall by adopting the flame-retardant anti-cracking composite heat-insulating wall stacking construction equipment comprises the following specific steps:

step three, stacking the flame-retardant anti-cracking composite heat-insulation wall: the two flame-retardant anti-cracking composite heat-insulation wall body stacking construction devices are symmetrically arranged on two sides of the building cavity, then the supporting devices (2) are adjusted, so that the building blocks in the second step can be stacked, and in the building block stacking process, the supporting devices (2) support the building blocks which are just stacked;

the upper surface of the base (1) is provided with a supporting device (2); wherein:

the movable sliding ways (10) are symmetrically arranged on the lower surface of the base (1) along two ends in the width direction of the base, movable sliding blocks (11) are symmetrically and slidably mounted at two ends in the movable sliding ways (10), a movable lead screw (12) penetrates through the movable lead screw (10), the movable sliding blocks (11) are connected with the movable lead screw (12) in a thread fit mode, the thread fit directions of the two movable sliding blocks (11) in the same movable sliding way (10) and the movable lead screw (12) are opposite, movable rollers (13) are arranged on the lower surface of each movable sliding block (11), movable supporting blocks (14) are symmetrically and slidably mounted at two ends below the movable sliding way (10), the movable rollers (13) are in contact connection with the movable supporting blocks (14), and movable wheels (15) are rotatably arranged below the movable supporting blocks (14);

the supporting device (2) comprises a first lifting slide way (20), a first lifting slide block (21), a lifting cylinder (22), a lifting connecting rod (23), a lifting support plate (24), a second lifting slide way (25), a second lifting slide block (26), an adjusting slide rod (27), a supporting unit (28) and an adjusting screw rod (29), wherein the first lifting slide way (20) is arranged on the upper surface of the base (1), the first lifting slide block (21) is symmetrically and slidably arranged at two ends in the first lifting slide way (20), the lifting cylinder (22) is connected between one end of the first lifting slide way (20) and the first lifting slide block (21) at the other end in the first lifting slide way (20), the upper end surfaces of the two first lifting slide blocks (21) are respectively connected with the lower end of the lifting connecting rod (23) through hinges, the lifting connecting rod (23) is of a diamond-shaped telescopic structure, the upper end of the lifting support plate (24) starts to be provided with the second lifting slide, two ends of the interior of the second lifting slide way (25) are symmetrically and slidably provided with a second lifting slide block (26), the first lifting slide block (21) corresponds to the second lifting slide block (26) in a one-to-one mode, the upper end of the lifting connecting rod (23) is connected with the two second lifting slide blocks (26) through hinges respectively, two adjusting slide rods (27) are vertically arranged on one side of the lifting support plate (24) in a mode that two ends of the lifting support plate are symmetrically arranged along the width direction of the lifting support plate, three supporting units (28) are sequentially arranged on the adjusting slide rods (27) in a sliding mode along the length direction of the lifting support plate, and the lifting support plate (24) is connected with the supporting.

2. The method for building and constructing the flame-retardant anti-cracking composite heat-insulating wall body according to claim 1, wherein the method comprises the following steps: the lifting support plate (24) is provided with a balance slide way (240) symmetrically and vertically at two ends of the width direction of the other side of the lifting support plate (24), a plurality of balance sliding blocks (241) are sequentially arranged in the balance slide way (240) in a sliding mode, adjacent balance sliding blocks (241) are connected through balance connecting rods (242), each balance connecting rod (242) is of an elastic telescopic structure, a plurality of balance sliding grooves (243) are sequentially arranged at the left end and the right end of the lifting connecting rod (23) from top to bottom, the balance sliding blocks (241) are located in the balance sliding grooves (243) in a one-to-one correspondence mode, and the balance sliding blocks (241) are connected with the balance sliding grooves (.

3. The method for building and constructing the flame-retardant anti-cracking composite heat-insulating wall body according to claim 1, wherein the method comprises the following steps: the utility model discloses a supporting device, including lift extension board (24), be connected with between lift extension board (24) and supplementary balladeur train (245) auxiliary cylinder (246), auxiliary balladeur train (245) one end is provided with supplementary diaphragm (247), the vertical slip of supplementary diaphragm (247) one side is provided with auxiliary support (248), and be connected with supporting spring between supplementary diaphragm (247) and auxiliary support (248), auxiliary runner (249) have been seted up to auxiliary support (248) one side, slidable mounting has auxiliary slide (250) and is connected with supporting spring between the two in auxiliary runner (249), auxiliary slide (250) one side is from last down transversely being provided with a plurality of supplementary long roller (251.

4. The method for building and constructing the flame-retardant anti-cracking composite heat-insulating wall body according to claim 1, wherein the method comprises the following steps: the supporting unit (28) comprises supporting transverse plates (280), supporting slide ways (281), supporting sliding blocks (282), limiting assemblies (283), supporting long plates (284), connecting assemblies (285), supporting frame bodies (286) and supporting idler wheels (287), three supporting transverse plates (280) are arranged on the adjusting slide rods (27) in a sliding mode along the length direction of the adjusting slide rods in sequence, the supporting slide ways (281) are transversely arranged on one sides of the supporting transverse plates (280), the supporting slide ways (281) are arranged in the supporting slide ways (281) in a sliding mode, the limiting assemblies (283) are arranged between the supporting sliding blocks (282) and the supporting idler wheels (287), the supporting long plates (284) are arranged on one sides of the supporting long plates (284), the supporting frame bodies (286) are arranged on one sides of the connecting assemblies (285), and the supporting idler wheels (287) are vertically arranged.

5. The method for building and constructing the flame-retardant anti-cracking composite heat-insulating wall body according to claim 4, wherein the method comprises the following steps: spacing subassembly (283) include spacing spout (2830), spacing slider (2831), spacing ball (2832) and spacing draw-in groove (2833), support slide (281) one side and prolong its length direction and evenly seted up a plurality of spacing spout (2830), slidable mounting has spacing slider (2831) and is connected with supporting spring between the two in spacing spout (2830), spacing slider (2831) one end rolling mounting has spacing ball (2832), a plurality of spacing draw-in groove (2833) have evenly been seted up to supporting slider (282) opposite side, spacing ball (2832) and spacing draw-in groove (2833) cooperation are connected.

6. The method for building and constructing the flame-retardant anti-cracking composite heat-insulating wall body according to claim 4, wherein the method comprises the following steps: coupling assembling (285) include a connection spout (2850), No. two connection spout (2851), link block (2852), connecting rod (2853), connecting screw rod (2854) and connecting rod (2855), support rectangular plate (284) one side and extend its even vertical a plurality of connection spout (2850) of having seted up of length direction, vertical No. two connection spout (2851) of having seted up of one side of braced frame body (286), No. one connection spout (2850) is relative with No. two connection spout (2851) positions, and the equal symmetrical slidable mounting in both ends of a connection spout (2850) and No. two connection spout (2851) has link block (2852), connect through connecting rod (2853) between link block (2852), connecting rod (2853) are cross structure, and are located and connect through the universal joint connection between the link block (2852) of No. two connection spout (2851) and the connecting rod (2853), pass the connecting screw rod in connecting spout (2850), be located two connecting slide (2852) in connecting spout (2850) and connecting screw rod (2854) between be connected through screw-thread fit and even screw-thread fit's opposite direction, be located connecting screw rod (2854) of three support diaphragm (280) relative position between connect through connecting rod (2855), sliding connection between connecting screw rod (2854) and connecting rod (2855).

7. The method for building and constructing the flame-retardant anti-cracking composite heat-insulating wall body according to claim 4, wherein the method comprises the following steps: the surface of the supporting roller (287) is uniformly provided with a plurality of supporting balls (2870) in a rolling manner.