CN112627506A - Plastic building template and supporting device thereof - Google Patents

Abstract

The application relates to a plastic building template and a supporting device thereof, which relate to the technical field of building construction, wherein the plastic building template comprises a supporting top plate, a plurality of matching top plates and a plurality of connecting blocks, and the matching top plates are laid on the periphery of the supporting top plate; the connecting block is located the one side that the floor is connected to the roof of supporting and is kept away from to the floor, and the connecting block is installed in the department of linking to each other of roof of supporting and cooperation roof and the department of linking to each other of adjacent roof of supporting. One side of the connecting block is provided with two embedding blocks which are correspondingly embedded in the supporting top plate and the supporting top plate. This application has the stability that promotes the cooperation roof to the atress is even when being convenient for moulding building templates bears the weight of the concrete of pouring, and then is convenient for reduce the floor and connects the floor and take place from the condition of middle part to edge slope, is finally convenient for promote the effect of the levelness of the floor of pouring and connects the floor.

Description

Plastic building template and supporting device thereof

Technical Field

The application relates to the field of building construction, in particular to a plastic building template and a supporting device thereof.

Background

At present two-layer or two-layer more than building when building, the connection face between floor and the floor utilizes concrete and reinforcing bar to mix to pour formation floor connection floor usually, commonly in rural two-layer building, floor connection floor is when pouring the concrete, all can connect the moulding building templates of the fixed one deck in floor bottom at the floor, bears the weight of the concrete to make the concrete can be moulding fast.

Chinese patent publication No. CN110453912A discloses a moulding building templates is used in floor connection floor pouring, including a supporting bench, the first pneumatic cylinder of top intermediate position fixedly connected with of a supporting bench, and the piston end fixedly connected with support column of first pneumatic cylinder, the top fixedly connected with backup pad of support column, a plurality of channel-section steels of top fixedly connected with of backup pad, and the same roof of top fixedly connected with of channel-section steel. The top of one side and the other side bottom of roof all are connected with the fly leaf through the round pin axle rotation, and the bottom of fly leaf all opens and has the second jack, and the inside grafting of second jack has the second pin, and the roof all opens and has the third jack near one side of draw-in groove corner. When a plurality of moulding building templates splice, the rotation of adjustable fly leaf is pegged graft in second jack and third jack with same second pin, keeps the connection fixity between two adjacent roof.

For the related art, the molding building template of the related art bears the concrete through the top plate, and when the bearing area of the floor connecting floor slab is larger than the supporting area of the top plate, the top plate for matching needs to be installed on the periphery of the top plate for supporting so as to increase the integral bearing area of the top plate. However, the inventor thinks that the stability of the top plates used for matching is poor easily because two adjacent top plates are connected only by the shaft pins, so that the bearing capacity of the moulding building template on concrete is uneven easily, the floor connecting floor slab inclines from the middle to the edge, and finally the levelness of the floor connecting floor slab is poor.

Disclosure of Invention

In order to improve the relatively poor problem of stability that the supporting roof is connected with the cooperation roof, this application provides a plasticity building templates and strutting arrangement thereof.

In a first aspect, the application provides a plastic building template, which adopts the following technical scheme:

a plastic building template comprises a supporting top plate, a plurality of matching top plates and a plurality of connecting blocks, wherein the matching top plates are laid on the periphery of the supporting top plate; the connecting blocks are arranged at the connecting part of the supporting top plate and the matching top plate and the connecting part of the adjacent matching top plates; and two embedding blocks are arranged on one side of the connecting block and are correspondingly embedded in the supporting top plate and the matching top plate.

Through adopting above-mentioned technical scheme, the cooperation of connecting block and embedding piece makes supporting roof and cooperation roof be connected fixedly, and makes adjacent cooperation roof also can connect fixedly. When the floor slab is connected to the plastic building template supporting floor, the connecting block and the embedding block can restrict the degree of freedom of the matching top plate, and the occurrence of the condition of inclination of the matching top plate is reduced. Have the stability that promotes the cooperation roof to the even effect of atress when being convenient for moulding building templates bears the weight of the concrete of pouring, and be convenient for reduce the floor and connect the floor and take place from the condition of middle part to edge slope, the levelness of the floor of finally being convenient for promote pouring is connected the floor.

Optionally, a plurality of first mounting grooves are formed in the supporting top plate, and the first mounting grooves are arranged corresponding to the side edges of the supporting top plate; a plurality of second mounting grooves are formed in each matching top plate, and the second mounting grooves are arranged corresponding to the side edges of the matching top plates; the magnetic blocks are arranged in the first mounting groove and the second mounting groove, the same embedding block on the connecting block is correspondingly embedded in the adjacent first mounting groove and the second mounting groove or the adjacent second mounting groove, and the embedding block is magnetically connected with the magnetic blocks.

Through adopting above-mentioned technical scheme, first mounting groove and second mounting groove are used for restricting the degree of freedom that the piece was put to the embedding, and the magnetic path is used for fixed embedding piece and connecting block, and the condition that the reduction connecting block dropped takes place. And the magnetic block can make the dismounting of supporting roof and cooperation roof simpler and more convenient, is convenient for promote the installation effectiveness of plasticity building templates.

In a second aspect, the present application provides a supporting device for a plastic building template, which adopts the following technical scheme:

the supporting device for the plastic building template comprises the plastic building template, a main body supporting component and a plurality of matched supporting components, wherein the main body supporting component is used for supporting the supporting top plate, the matched supporting components are used for supporting the matched top plate, and the matched supporting components are arranged on the main body supporting component.

Through adopting above-mentioned technical scheme, main part supporting component is used for holding the supporting roof, and cooperation supporting component is used for supporting the cooperation roof, because cooperation supporting component installs on main part supporting component, makes plasticity building templates, main part supporting component and cooperation supporting component constitute triangle bearing structure more easily to be convenient for promote the stability that the cooperation roof supported, and then can promote the floor and connect the levelness after the floor is pour.

Optionally, the main body supporting assembly comprises a supporting seat, a lifting driving piece and a supporting column which are sequentially arranged from bottom to top, and the top of the supporting column is connected with the supporting top plate; the cooperation supporting component includes hinge bar, installation cover and locking piece, the one end of hinge bar is articulated with the connecting block ball that corresponds, support column circumference and with support column threaded connection are located to the installation cover, one side orientation installation cover department slope setting that the connecting block was kept away from to the hinge bar, locking piece locking hinge bar is in installation cover perisporium department.

Through adopting above-mentioned technical scheme, the supporting seat is used for installing the lift driving piece, and the support column is used for supporting the roof, and the lift driving piece is used for lifting support column and plasticity building templates for the support of floor is connected to the floor that the plasticity building templates can be suitable for different floor heights. The hinge rod is used for connecting the connecting block and the mounting sleeve, the hinge rod is hinged with the connecting block through the ball, the hinge rods located in all directions can incline towards the outer wall of the mounting sleeve, the mounting sleeve fixes the hinge rod through the locking piece, and the hinge rod, the support column and the plastic building template form a triangular support system, so that the plastic building template can be stably supported, and the levelness of the floor slab connected with the floor can be further improved.

Optionally, the mounting sleeves are provided with a plurality of mounting sleeves and arranged along the axial direction of the support column, and the number of the mounting sleeves is consistent with the number of turns of the connecting blocks mounted on the plastic building template.

Through adopting above-mentioned technical scheme, the installation cover sets up a plurality of, can adjust the position of installation cover on the support column according to the position of hinge bar, and the hinge bar of different positions can correspond and be connected with the installation cover of different positions, the length of the orderly customization hinge bar of being convenient for, and the orderly installation hinge bar of being convenient for, the condition that reduces each hinge bar and mutually interfere takes place when dismouting and fixed.

Optionally, the locking element includes a hinged plate, a fixing rope, a first connecting buckle and a second connecting buckle, the hinged plate is hinged to the side wall of the mounting sleeve, and one end of the hinged plate, which is far away from the mounting sleeve, is connected to the fixing rope; the first connecting buckle is arranged on the outer wall of the mounting sleeve and positioned above the hinged plate, the second connecting buckle is arranged on the supporting seat, and one end of the fixing rope, which is far away from the hinged plate, sequentially penetrates through the first connecting buckle and the second connecting buckle and is fixed at the second connecting buckle; one end of the hinge rod, which is far away from the connecting block, abuts against the included angle between the hinge plate and the mounting sleeve.

Through adopting above-mentioned technical scheme, will fix the rope and pass first connector link and second connector link in proper order, make the articulated slab naturally flagging earlier, treat that the one end that the connecting rod was kept away from to the hinge bar is close to or when the fixed cover lateral wall that the butt corresponds, the fixed rope of pulling makes the articulated slab rotate towards fixed cover outer wall department, will fix the one end that the articulated slab was kept away from to the rope afterwards and fix with the second connector link, the one end that the connecting block was kept away from to the hinge bar is spacing and be fixed in the contained angle of articulated slab and fixed.

Optionally, limiting assemblies are arranged between the mounting sleeves and between the mounting sleeve at the lowermost layer and the lifting driving piece, and limit axial displacement of the mounting sleeves along the supporting column is limited by the limiting assemblies.

Through adopting above-mentioned technical scheme, the articulated mast can transmit the pressure that bears for the articulated slab, and the articulated slab is installed on the installation cover, and the installation cover also can bear partial pressure, and spacing subassembly set up can be at the fixed position back restriction installation cover displacement of installation cover, promotes the stability that the articulated mast supported.

Optionally, the limiting assembly comprises a first limiting block and a second limiting block which are connected, and the first limiting block and the second limiting block are located in the circumferential direction of the supporting column and are arranged in a embracing mode.

Through adopting above-mentioned technical scheme, adopt first stopper and second stopper be convenient for nimble install in the axial of support column, and the stable support installation cover of being convenient for.

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

1. through the arrangement of the supporting top plate, the matching top plate, the connecting block and the embedding block, the stability of the matching top plate can be improved, so that the molded building template is uniformly stressed when bearing poured concrete, the condition that a floor connecting floor slab inclines from the middle to the edge is reduced, and the levelness of the poured floor connecting floor slab is improved;

2. through the arrangement of the hinged rod, the mounting sleeve and the locking piece, a triangular support system can be formed, so that the plastic building template can be stably supported, and the levelness of a floor slab connected with a floor can be improved;

3. through the arrangement of the hinged plate, the fixed rope, the first connecting buckle and the second connecting buckle, the locking and loosening of the hinged rod can be achieved flexibly, the fixing difficulty of the hinged rod is reduced, and the triangular support system is convenient to construct.

Drawings

Fig. 1 is a schematic view of the overall structure of a plastic building panel according to an embodiment of the present application.

Fig. 2 is a cross-sectional structural schematic view of a plastic building panel of an embodiment of the present application.

Fig. 3 is a partially enlarged schematic view of a portion a in fig. 2.

Fig. 4 is a schematic structural diagram of the support device according to the embodiment of the present application.

Description of reference numerals: 1. supporting a top plate; 11. a first mounting groove; 12. a magnetic block; 13. a first water seepage hole; 2. a mating top plate; 21. a second mounting groove; 3. connecting blocks; 31. embedding blocks; 32. a second water seepage hole; 33. a pin shaft; 4. a water permeable membrane; 41. a connecting pipe; 5. a body support assembly; 51. a supporting seat; 52. a hydraulic cylinder; 53. mounting a plate; 54. a support pillar; 6. a mating support assembly; 61. installing a sleeve; 62. a hinged lever; 63. a hinge plate; 64. fixing a rope; 65. a first connecting buckle; 66. a second connecting buckle; 7. a limiting component; 71. a first stopper; 72. a second limiting block; 8. a plastic building panel.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a plastic building template. Referring to fig. 1, a plasticity building templates includes supporting roof 1, a plurality of cooperation roof 2 and a plurality of connecting block 3, and cooperation roof 2 is laid in supporting roof 1 week side, and connecting block 3 is installed between supporting roof 1 and cooperation roof 2 and between adjacent cooperation roof 2 for supporting roof 1 and cooperation roof 2 are connected and are formed holistic plasticity building templates 8, are used for supporting floor connection floor. The projected shape of the plate surfaces of the supporting top plate 1 and the matching top plate 2 can be one or more of a triangle, a quadrangle or other polygons. In this embodiment, the supporting top plate 1 and the matching top plate 2 are both made of steel plates with square plate projection shapes.

Referring to fig. 2 and 3, a plurality of first installation grooves 11 are formed in one side of the supporting top plate 1, and the first installation grooves 11 are arranged corresponding to the side edges of the supporting top plate 1; a plurality of second mounting grooves 21 have been seted up to the one side of keeping away from floor connection floor on the cooperation roof 2, and second mounting groove 21 corresponds the setting with the side of cooperation roof 2. The magnetic block 12 is connected to the side walls of the first mounting groove 11 and the second mounting groove 21, two embedding blocks 31 are arranged on one side of the connecting block 3, and the embedding blocks 31 are welded to the connecting block 3. The embedding block 31 may be made of a magnetic material or a material capable of attracting the magnetic material. When the connecting block 3 is installed between the supporting top plate 1 and the matching top plate 2, the embedding block 31 is correspondingly embedded in the adjacent first installation groove 11 and the second installation groove 21 and is magnetically connected with the magnetic blocks 12 in the first installation groove 11 and the second installation groove 21, so that the connecting block 3 is fixed. When the connecting block 3 is mounted between the adjacent matching top plates 2, the embedding blocks 31 are correspondingly embedded in the adjacent second mounting grooves 21 and magnetically connected with the magnetic blocks 12, so that the connecting block 3 is fixed.

Referring to fig. 2 and 3, the first water seepage holes 13 are vertically formed in the bottoms of the first mounting groove 11 and the second mounting groove 21, and the first water seepage holes 13 are through holes. The permeable membrane 4 is laid on the surface of the plastic building template 8, the connecting pipe 41 is bonded on one side of the permeable membrane 4 facing the first water seepage hole 13, and the connecting pipe 41 is embedded in the first water seepage hole 13. One side of the embedding block 31 facing the first water seepage hole 13 is provided with a second water seepage hole 32, and the second water seepage hole 32 is a blind hole. The first water seepage hole 13 is communicated with the second water seepage hole 32, and the connecting pipe 41 extends into the second water seepage hole 32. The outer wall of the connecting pipe 41 is provided with a waist-shaped groove, the side wall of the embedding block 31 is inserted with a pin shaft 33, and one end of the pin shaft 33 can extend into the waist-shaped groove, so that the connecting pipe 41 is fixed. The long end of the waist-shaped groove can extend along the circumferential direction of the connecting pipe 41, and the width of the waist-shaped groove is larger than that of the pin shaft 33, so that the pin shaft 33 and the waist-shaped groove are aligned conveniently.

The water that precipitates in the concrete can be discharged into the connecting pipe 41 through the permeable membrane 4, so that the curing speed of the concrete at the floor slab connecting position can be accelerated, and the problem of concrete leakage can be avoided. The connecting pipe 41 and the embedding block 31 are connected and fixed through the pin shaft 33, so that the permeable membrane 4 is convenient to fix, the adhesion of the permeable membrane 4 and concrete is reduced when the floor is connected with the plastic building template 8 at a separation floor, and the permeable membrane 4 is completely peeled off from the floor; and the stability that the embedding block 31 is connected and fixed with the plastic building template 8 can be improved, the condition that the supporting top plate 1 and the matching top plate 2 are separated accidentally is reduced, and the stability of the integral connection of the plastic building template 8 is further convenient to improve.

The implementation principle of the plastic building template in the embodiment of the application is as follows: first, the total area of the plastic building template 8 is planned according to the area of the floor slab to be supported, and the supporting roof plate 1 is used as a center roof plate, and the mating roof plate 2 is laid on the periphery of the supporting roof plate 1. Connection blocks 3 are then installed between the supporting top plate 1 and the mating top plate 2 and between the adjacent mating top plates 2. The size of the matching top plate 2 is reasonably designed according to the total area of the plastic building template 8, and the matching top plate 2 with different length and width sizes can be adapted to the support of the floor connecting plates with more sizes. During supporting, the floor connecting floor slab can be poured in different areas to facilitate assembly and jacking of the plastic building template 8, so that the plastic building template 8 can be supported in different areas.

Next, the water permeable membrane 4 is laid on the assembled plastic building template 8, and the connection pipe 41 is inserted into the second water penetration hole 32 through the first water penetration hole 13. Then, the pin 33 is inserted into the kidney-shaped groove at the side wall of the connecting pipe 41 from the side wall of the embedding block 31. After the connecting pipe 41 is fixed, the plastic building template 8 in this embodiment can be lifted to the height of the floor slab to be supported.

The embodiment of the application also discloses a supporting device of the plastic building template. Referring to fig. 3 and 4, a supporting device for a plastic building formwork includes a main body supporting member 5 and a plurality of cooperating supporting members 6, the main body supporting member 5 supporting a supporting top plate 1, and the cooperating supporting members 6 being mounted on the main body supporting member 5 and supporting respective cooperating top plates 2 by supporting a connecting block 3.

Referring to fig. 4, the main body supporting assembly 5 includes a supporting seat 51, a lifting driving member and a supporting pillar 54 sequentially arranged from bottom to top, the lifting driving member adopts a hydraulic cylinder 52, a cylinder body of the hydraulic cylinder 52 is installed on the supporting seat 51, and a piston rod of the hydraulic cylinder 52 is connected with an installation plate 53. The supporting column 54 is vertically arranged, one end of the supporting column is fixed on the mounting plate 53, and the other end of the supporting column is connected with the supporting top plate 1. To facilitate a more balanced support of the plastic building panel 8, the supporting roof 1, the supporting columns 54, the mounting plate 53 and the hydraulic cylinder 52 are arranged coaxially in this embodiment.

Referring to fig. 3 and 4, the supporting assembly 6 includes a mounting sleeve 61, a locking member and a hinge rod 62, the mounting sleeve 61 is sleeved on the circumference of the supporting column 54 and is in threaded connection with the supporting column 54, the mounting sleeve 61 can be arranged in one or more axial directions of the supporting column 54, and the number of the mounting sleeves 61 can be set according to the number of turns of the connecting blocks 3 mounted on the plastic building template 8. In this embodiment, the plastic building template 8 is provided with two rings of connecting blocks 3, so that the supporting column 54 is in threaded connection with two mounting sleeves 61. . One end of the hinge rod 62 is ball-hinged with one side of the connecting block 3 far away from the embedding block 31, the other end of the hinge rod inclines towards the outer wall of the mounting sleeve 61, and the locking piece fixes one end of the hinge rod 62 far away from the connecting block 3 on the outer wall of the mounting sleeve 61. The innermost ring of articulated rods 62 is inclined towards the uppermost mounting sleeve 61 and the second ring of articulated rods 62 is connected with the second mounting sleeve 61 from top to bottom. When the mating top plate 2 and the connecting block 3 are added, the hinge rods 62 of the respective rings are installed, and so on. The hinge rod 62 may be a straight rod with a fixed length, or may be an expansion rod connected with the screw through a sleeve, and in this embodiment, the hinge rod 62 is a straight rod with a fixed length. The hinged rods 62, the supporting columns 54 and the plastic building template 8 form a triangular supporting system which can stably support the matched top plates 2.

Referring to fig. 3 and 4, in order to facilitate the detachment and installation of the hinge rod 62 and the mounting sleeve 61, the locking member in this embodiment includes a hinge plate 63 and a fixing rope 64, the mounting sleeve 61 is circular and square, one end of the hinge plate 63 is hinged to the outer wall of one side of the mounting sleeve 61, and the other end of the hinge plate 63 is fixedly connected to one end of the fixing rope 64. In the embodiment, 4 hinge plates 63 are circumferentially arranged on one mounting sleeve 61, and one hinge plate 63 is hinged to each side wall of the mounting sleeve 61. The outer wall of the mounting sleeve 61 is connected with first connecting buckles 65 above the hinge plates 63, second connecting buckles 66 are arranged on the support seat 51 corresponding to the first connecting buckles 65, and one ends of the fixing ropes 64 far away from the hinge plates 63 sequentially penetrate through the first connecting buckles 65 and the second connecting buckles 66. When the hinge rod 62 is inclined to the outer wall of the corresponding mounting sleeve 61 or abuts against the outer wall of the corresponding mounting sleeve 61, the fixing rope 64 is pulled, so that the hinge plate 63 rotates towards one side of the hinge rod 62. After the hinge plate 63 rotates more than 90 degrees toward the hinge lever 62, the fixed string 64 can be stopped from being pulled at any time. At this time, the end of the fixing rope 64 far away from the hinge plate 63 is fixedly connected with the second connecting buckle 66, and the end of the hinge rod 62 far away from the connecting block 3 is limited at the angle between the hinge plate 63 and the mounting sleeve 61. When it is desired to remove the plastic building panel 8, the hinge rods 62 can be released by simply untying the securing cords 64.

Referring to fig. 3 and 4, the limiting assemblies 7 are mounted between adjacent mounting sleeves 61 and between the mounting sleeve 61 at the lowermost layer and the mounting plate 53, and the limiting assemblies 7 can limit the vertical displacement of the mounting sleeves 61. In this embodiment, the limiting assembly 7 adopts a first limiting block 71 and a second limiting block 72, the first limiting block 71 and the second limiting block 72 are installed in the circumferential direction of the supporting column 54 and are arranged in an encircling manner, and the first limiting block 71 and the second limiting block 72 can be fixed by bolts.

The implementation principle of the supporting device for the plastic building template with good stability is as follows: firstly, the plastic building template 8 is fixedly connected with the supporting columns 54, then the hydraulic cylinders 52 are connected to the hydraulic system, the supporting columns 54 are lifted by the hydraulic cylinders 52, and the lifting of the hydraulic cylinders 52 is stopped until the plastic building template 8 reaches the designated supporting height. Then, the hinge lever 62 is manually rotated so that the hinge lever 62 is tilted toward the outer wall of the corresponding mounting sleeve 61, then the fixing string 64 is pulled so that the hinge plate 63 is rotated and engaged with the mounting sleeve 61 to clamp the tilted hinge lever 62, and then the fixing string 64 is connected to the second connector link 66 so that the rotation angle of the hinge plate 63 is fixed. It is possible to first secure the ring of hinge bars 62 closest to the support column 54 and then secure each hinge bar 62 in turn towards the ring remote from the support column 54.

After the concrete is completely solidified, the plastic building template 8 is separated from the floor slab connected with the floor by the hydraulic cylinder 52, and the permeable membrane 4 is difficult to be adhered with the concrete under the action of the connecting pipe 41. Then, the fixing rope 64 fixed at the second connecting buckle 66 is loosened to allow the hinge rod 62 to naturally fall, and then the pin 33 at the embedding block 31 is pulled out and the corresponding connecting block 3 is pulled out. Then, the water stored in each insert block 31 can be poured into a water tub. When the connecting block 3 is removed, the matching top plate 2 and the supporting top plate 1 are automatically detached, and when the matching top plate 2 is taken down, the connecting pipe 41 is separated from the matching top plate 2, namely, the permeable membrane 4 is separated from the matching top plate 2. Treat that all cooperation roofs 2 take off and pile up the back, can take off the membrane 4 that permeates water from supporting roof 1 and fold, use when waiting for the construction next time with strutting arrangement, the membrane 4 that permeates water and the sub-packaging of cooperation roof 2 transport from the scene at last.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A plastic building panel characterized by: the supporting device comprises a supporting top plate (1), a plurality of matching top plates (2) and a plurality of connecting blocks (3), wherein the matching top plates (2) are laid on the periphery of the supporting top plate (1); the connecting blocks (3) are arranged at the connecting part of the supporting top plate (1) and the matching top plate (2) and the connecting part of the adjacent matching top plates (2); one side of connecting block (3) is provided with two embedding blocks (31), embedding block (31) correspond the embedding in supporting roof (1) and cooperation roof (2).

2. The plastic building panel as claimed in claim 1, wherein: a plurality of first mounting grooves (11) are formed in the supporting top plate (1), and the first mounting grooves (11) are arranged corresponding to the side edges of the supporting top plate (1); a plurality of second mounting grooves (21) are formed in each matching top plate (2), and the second mounting grooves (21) are arranged corresponding to the side edges of the matching top plates (2); the magnetic blocks (12) are arranged in the first mounting groove (11) and the second mounting groove (21), the same embedding block (31) on the connecting block (3) is correspondingly embedded in the adjacent first mounting groove (11) and the second mounting groove (21) or the adjacent second mounting groove (21), and the embedding block (31) is magnetically connected with the magnetic blocks (12).

3. A support arrangement for a plastic building panel, characterized by: plastic building formwork including any one of claims 1-2, further comprising a main body support assembly (5) for supporting the supporting roof (1) and a number of cooperating support assemblies (6) for supporting the cooperating roof (2), the cooperating support assemblies (6) being mounted on the main body support assembly (5).

4. A support means for a plastic building panel according to claim 3, characterised in that: the main body supporting assembly (5) comprises a supporting seat (51), a lifting driving piece and a supporting column (54) which are sequentially arranged from bottom to top, and the top of the supporting column (54) is connected with the supporting top plate (1); cooperation supporting component (6) are including articulated pole (62), installation cover (61) and locking piece, the one end of articulated pole (62) is ball-hinged with connecting block (3) that correspond, support column (54) circumference and with support column (54) threaded connection are located to installation cover (61) cover, one side orientation installation cover (61) department slope setting of connecting block (3) is kept away from in articulated pole (62), locking piece locking articulated pole (62) is in installation cover (61) perisporium department.

5. A support means for a plastic building panel according to claim 3, characterised in that: the mounting sleeve (61) is provided with a plurality of mounting sleeves (61) which are axially arranged along the supporting column (54), and the number of the mounting sleeves (61) is consistent with the number of turns of the connecting blocks (3) mounted on the plastic building template (8).

6. The support device for plastic building templates as claimed in claim 4, wherein: the locking piece comprises a hinge plate (63), a fixing rope (64), a first connecting buckle (65) and a second connecting buckle (66), the hinge plate (63) is hinged with the side wall of the mounting sleeve (61), and one end, away from the mounting sleeve (61), of the hinge plate (63) is connected with the fixing rope (64); the first connecting buckle (65) is arranged on the outer wall of the mounting sleeve (61) and located above the hinged plate (63), the second connecting buckle (66) is arranged on the supporting seat (51), and one end, far away from the hinged plate (63), of the fixing rope (64) sequentially penetrates through the first connecting buckle (65) and the second connecting buckle (66) and is fixed at the second connecting buckle (66); one end of the hinge rod (62) far away from the connecting block (3) abuts against an included angle between the hinge plate (63) and the mounting sleeve (61).

7. The support device for plastic building templates as claimed in claim 4, wherein: adjacent mounting sleeves (61) and the lowermost mounting sleeve (61) and the lifting driving piece are provided with limiting assemblies (7), and the limiting assemblies (7) limit the axial displacement of the mounting sleeves (61) along the supporting columns (54).

8. The support device for plastic building templates of claim 7, wherein: the limiting assembly (7) comprises a first limiting block (71) and a second limiting block (72) which are connected, wherein the first limiting block (71) and the second limiting block (72) are located in the circumferential direction of the supporting column (54) and are arranged in an encircling mode.

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