CN109577638B

CN109577638B - Assembling frame adjustable aluminum alloy building template set and using method thereof

Info

Publication number: CN109577638B
Application number: CN201811544665.3A
Authority: CN
Inventors: 余海晏
Original assignee: Zhejiang Benhe Construction Technology Development Co Ltd
Current assignee: Zhejiang Benhe Construction Technology Development Co., Ltd
Priority date: 2018-12-17
Filing date: 2018-12-17
Publication date: 2020-10-30
Anticipated expiration: 2038-12-17
Also published as: CN109577638A

Abstract

An assembly frame adjustable aluminum alloy building template set comprises wall plates, transverse columns and vertical columns, wherein each wall plate comprises a transverse plate and a vertical plate, the two ends of the transverse plate are provided with fixing groups I, the two ends of the vertical plate are provided with fixing groups II, the transverse plate is also provided with a vertical column chute, an I-shaped fixing groove and a bolt hole III, the vertical plate is provided with a movable sliding groove, a fixed hole, a fixed lug and a rotary clamping groove, the transverse column comprises a column body and a spring set, the post body comprises a main rod, a left side fixing rod, a right side fixing rod, a rod body fixing hole, a spring piece and a rod body fixing lug, the spring assembly includes rotatory end, rotatory gear train, rotatory hole and rotatory buckle, the vertical column includes main part, fixed riser, spreader groove and bolt hole IV, convenient storage, easily equipment, and simple to use improves building engineering's efficiency of construction, the resource of using manpower sparingly.

Description

Assembling frame adjustable aluminum alloy building template set and using method thereof

Technical Field

The invention relates to the field of buildings, in particular to an assembly frame adjustable aluminum alloy building template set and a using method thereof.

Background

The aluminum alloy is a green and environment-friendly low-carbon material which can be recycled and reused, and is widely applied to the fields of automobiles, ships, aerospace, machinery manufacturing and buildings, and at present, the aluminum alloy is mainly used for manufacturing aluminum alloy doors and windows, curtain walls, building templates and the like in the field of buildings, wherein the aluminum alloy building templates have the advantages of light weight, convenience in construction, high construction efficiency, difficulty in rusting and corrosion, long service life, high recycling value and the like, and gradually replace traditional wood templates, steel templates and plastic templates.

However, the existing aluminum alloy building template has a complex structure, more parts and more welding points, the welding points directly act on the panel, the formed aluminum alloy template has larger deformation and needs to be corrected, and the production efficiency is lower; the aluminum alloy template is formed by welding, is poor in integrity, easy to break or smash, low in turnover frequency, high in processing cost and use cost, convenient to store, easy to assemble and simple to use, and aims to improve the construction efficiency of constructional engineering and save human resources.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects in the background art, the embodiment of the invention provides an assembly frame adjustable aluminum alloy building template set and a using method thereof, which can effectively solve the problems in the background art.

The technical scheme is as follows:

a combined frame adjusting type aluminum alloy building formwork group comprises a wallboard, transverse columns and vertical columns, wherein the wallboard comprises transverse plates and vertical plates, fixing groups I are arranged at two ends of each transverse plate and comprise buckle grooves I and fixing buckles I, the fixing buckles I are provided with bolt holes I, fixing groups II are arranged at two ends of each vertical plate and comprise buckle grooves II and fixing buckles II, and the fixing buckles II are provided with bolt holes II;

the transverse plate is also provided with a vertical column sliding groove, an I-shaped fixing groove and a bolt hole III, the vertical column sliding groove is arranged at the inner position of the inner surface of the transverse plate, the I-shaped fixing groove is uniformly arranged at the inner position of the vertical column sliding groove, and the bolt hole III is uniformly arranged at the side position of the transverse plate and penetrates through the vertical column sliding groove;

the vertical plate is provided with a movable sliding chute, a fixed hole, a fixed lug and a rotary clamping groove, the movable sliding chute is arranged at the inner position of the inner surface of the vertical plate, the fixed holes are uniformly arranged at the inner position of the movable sliding chute, the fixed lug is arranged at the inner wall position of the fixed hole, and the rotary clamping groove is arranged at the inner position of the inner wall at the front end of the fixed hole;

the transverse column comprises a column body and a spring group, the column body comprises a main rod, a left side fixing rod, a right side fixing rod, a rod body fixing hole, a spring piece and a rod body fixing lug, the left side fixing rod is arranged at the inner position of a main rod right side space, the right side fixing rod is arranged at the inner position of the main rod right side space, the rod body fixing hole is respectively arranged at the front end of the left side of the main rod and the front end of the right side of the main rod, the spring piece is respectively arranged at the inner wall positions of the tail ends of the left side fixing rod and the right side fixing rod, the rod body fixing lug is arranged at the front end of the spring piece and pops out to be fixed with the rod body fixing hole;

the spring set comprises a rotating end, a rotating gear set, a rotating hole and a rotating buckle, wherein the rotating end is respectively arranged at the front end of a left side fixing rod and the front end of a right side fixing rod, the rotating gear set is arranged at the inner position of the rotating end and consists of a driving gear, a rotating shaft and a driven gear, the driving gear is respectively connected with the rotating shaft and the driven gear, the rotating hole is arranged at the outer wall position of the rotating end, the rotating buckle is arranged at the inner position of the rotating end and is connected with the driven gear, when the rotating shaft drives the driving gear to rotate, the driving gear drives the driven gear to rotate, and the driven gear drives the rotating buckle to stretch;

the vertical column comprises a main body, a fixed vertical block, a cross column groove and a bolt hole IV, the fixed lugs are respectively arranged at the front end and the tail end of the main body, the cross column groove is arranged at the side position of the vertical column, and the bolt hole IV is arranged at the side inner position of the fixed vertical block;

bolt fixing holes are formed in the inner walls of the bolt hole I, the bolt hole II, the bolt hole III and the bolt hole IV.

As a preferable mode of the present invention, the vertical plate further includes a movable pulley block, the movable pulley block includes a movable lifting groove, a movable fixing groove, a roller spring, a movable block, and a movable roller, the movable lifting groove is disposed at an inner position below the vertical plate, the movable fixing groove is disposed at an inner position of an inner wall of a front end of the movable lifting groove, the roller spring is disposed at an inner position of the movable lifting groove, the movable block is connected to the movable lifting groove through the roller spring, and the movable roller is disposed at a surface position below the movable block.

As a preferred mode of the present invention, the column further includes a bump fixing set, the bump fixing set includes a rotary buckle and a bump rotating shaft, the rotary buckle is disposed at an inner position of a front end of the rod fixing bump and provided with a catching groove, and the bump rotating shaft is disposed at a central position of the rotary buckle and connected to the rotary buckle and the rod fixing bump, respectively.

As a preferred mode of the present invention, the present invention further comprises a fixing bolt, wherein the fixing bolt comprises a fixing rod body, a bolt rotating end, a bolt gear set, a rotating bolt block and a bolt expansion port, the bolt rotating end is arranged at two ends of the fixing rod body, the bolt gear set is arranged at an inner position of the bolt rotating end, the rotating bolt block is arranged at an inner position of the bolt rotating end and connected with the bolt gear set, and the bolt expansion port is arranged at an outer wall position of the bolt rotating end.

As a preferred mode of the present invention, the latch gear set comprises a driving latch gear, a latch rotating shaft and a driven latch gear, the driving latch gear is respectively connected to the latch rotating shaft and the driven latch gear, when the latch rotating end is rotated, the latch rotating shaft drives the driving latch gear to rotate, the driving latch gear drives the driven latch gear to rotate, and the driven latch gear drives the connected rotating latch block to extend and retract at the latch extending and retracting port.

As a preferred mode of the invention, the vertical plate further comprises a rod body storage groove, a panel rotating shaft, a storage panel and a panel fixed block, wherein the rod body storage groove is arranged at the inner position of the outer surface of the vertical plate, the panel rotating shaft is arranged at the inner wall position of the left side of the rod body storage groove, and the storage panel is connected with the rod body storage groove through the panel rotating shaft; the panel fixed block is arranged on the inner wall of the right side of the rod body storage groove.

As a preferable mode of the present invention, the vertical plate further includes a panel fixing hole, a panel rotating hole, a panel fixing rod, and a rotating handle, the panel fixing hole is disposed at an inner position above the panel fixing block, the panel rotating hole is disposed at a front position of the storage panel, the panel fixing rod is disposed at an inner position of the panel rotating hole, and the rotating handle is connected to the panel fixing rod.

As a preferred mode of the present invention, the rod storage tank is provided with a rod arrangement plate, rod fixing buckles, a rod placement groove, and a fixing rotation shaft, the rod arrangement plate is uniformly disposed at an inner position of the rod storage tank, the rod fixing buckles are connected to the rod arrangement plate through the fixing rotation shaft, and the rod placement groove is disposed at a position of the rod fixing buckles facing a surface of the rod storage tank.

A method of using a framing adjustable aluminum alloy building panel set, the method comprising the steps of:

s1, pulling out a movable roller inside a movable mobile phone groove at the lower end of the vertical plate, pulling out the movable roller to drive a connected movable block to be pulled out, and after the movable block is pulled out, rotating the movable block by 90 degrees to enable the movable block to be abutted and fixed with a movable fixed groove;

s2, splicing the fixing buckle I of the transverse plate and the fixing slot II of the vertical plate and the fixing buckle II of the vertical plate and the fixing slot I of the transverse plate to form an outer frame, and keeping the bolt hole I of the fixing buckle I and the bolt hole II of the fixing buckle II on the same horizontal plane during splicing;

s3, inserting a fixing rod body of the fixing bolt into the bolt hole I and the bolt hole II, keeping the bolt rotating end of the fixing rod body in the same horizontal plane with the surfaces of the transverse plate and the vertical plate, and then extending a rotating bolt block out of the telescopic opening of the bolt through a bolt gear set by the rotating bolt rotating end to be abutted and fixed with the bolt fixing hole;

s4, taking out the main rod of the cross column, adjusting the distance of the main rod in the outer frame through the movable sliding groove, after the adjustment is completed, drawing out the left fixed rod of the main rod, inserting the rotating end of the front end of the left fixed rod into the fixed hole of the left transverse plate, abutting and fixing the rotating end of the front end of the left fixed rod with the fixed lug in the fixed hole, drawing out the right fixed rod of the main rod, inserting the rotating end of the front end of the right fixed rod into the fixed hole of the right transverse plate, abutting and fixing the rotating end of the front end of the right fixed rod with the fixed lug in the fixed hole, popping the rod body fixed lug into the rod body fixed hole by the inner spring piece when the drawing out of the left fixed rod is completed, and popping the rod body fixed lug into the rod body fixed hole by the inner;

s5, the left fixing rod and the right fixing rod are driven to rotate through the rotating main rod, when the left fixing rod and the right fixing rod rotate, the rotating ends of the left fixing rod and the right fixing rod drive the rotating gear set to rotate, the rotating gear set drives the rotating buckle to extend out of the rotating hole, and the rotating buckle is abutted and fixed with the rotating clamping groove of the fixing hole;

s6, taking out the main body of the vertical column, putting the main body into the vertical column sliding groove of the transverse plate through the fixed vertical block, adjusting the distance of the main body in the vertical column sliding groove, after the adjustment is finished, abutting the fixed lug of the main body against the I-shaped fixed groove of the transverse plate, and keeping the bolt hole IV of the fixed lug and the bolt hole III of the transverse plate on the same horizontal plane;

s7, inserting the fixing rod body of the fixing bolt into the bolt hole III and the bolt hole IV, keeping the bolt rotating end of the fixing rod body and the surfaces of the transverse plate and the transverse plate at the same horizontal plane, and then extending the rotating bolt block out of the telescopic opening of the bolt through the bolt gear set to be abutted against and fixed with the bolt fixing hole by the rotating bolt rotating end.

As a preferred mode of the present invention, the method further comprises the steps of:

s8, when the left side fixed rod and the right side fixed rod are reset, the lug rotating shaft of the rod body fixing lug is rotated anticlockwise, the rotating buckle is rotated and ascended to be abutted against the inner wall of the main rod through the lug rotating shaft so as to press the rod body fixing lug downwards to be released from fixing with the rod body fixing hole, and then the left side fixed rod and the right side fixed rod freely move on two sides of the main rod;

s9, after the left side fixing rod and the right side fixing rod of the main rod are contracted and reset, the main rod is placed at a storage position where the arrangement of the rod body arrangement plate is finished in the rod body storage tank, and after the main rod is placed, the rod body fixing buckle of the rod body arrangement plate rotates through the fixing rotating shaft to fix the main rod;

s10, after all the rod body fixing buckles in the rod body storage groove fix the main rod, rotating the storage panel to the panel fixing block position through the panel rotating shaft and keeping the panel rotating hole and the panel fixing hole of the storage panel in the same horizontal line;

s11, rotating the panel fixing rod by 90 degrees through the rotating handle to extend into the inner position of the panel fixing hole, and then rotating the panel fixing rod by 90 degrees through the rotating handle to fix the storage panel and the panel fixing block.

The invention realizes the following beneficial effects:

1. the aluminum alloy building template group is free of welding, easy to assemble, simple to use, not prone to deformation, not prone to damage, high in turnover frequency, low in machining cost and use cost, and capable of effectively improving construction efficiency of building engineering and saving manpower resources;

2. when the aluminum alloy building template group needs to move, the aluminum alloy building template group can be pushed on the ground only by pulling out and rotating the movable roller;

3. and a special fixing bolt is arranged, so that the aluminum alloy building template group can be further reinforced after the assembly is finished.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure;

FIG. 1 is a schematic front view of an aluminum alloy template set assembly according to an exemplary embodiment of the present invention;

fig. 2 is a schematic cross-sectional elevation view of a riser provided in accordance with an example of the invention;

FIG. 3 is a schematic partial cross-sectional view of the area of the fixation holes provided by one example of the present invention;

FIG. 4 is a partially cut-away schematic view of the area of the spine where a left side stationary rod is located according to one embodiment of the present invention;

FIG. 5 is a partially cut-away schematic view of the area of the spine where a right side fixation rod is located according to one example of the present invention;

fig. 6 is a schematic partial cross-sectional view of a main rod area where a rod fixing block is located according to an example of the present invention;

fig. 7 is a schematic top view of a rod fixing block according to an example of the present invention;

FIG. 8 is a partially cross-sectional front end view of a left fixation rod according to one embodiment of the present invention;

FIG. 9 is a schematic top view of the front end of a left fixation rod according to one embodiment of the present invention;

FIG. 10 is a schematic cross-sectional front end view of a left fixation rod according to one embodiment of the present invention;

FIG. 11 is a schematic view of the inner surface of the cross plate provided in accordance with one example of the present invention;

FIG. 12 is a schematic front view of a upstand provided in accordance with one example of the present invention;

FIG. 13 is a side schematic view of a upstand provided in accordance with one example of the present invention;

FIG. 14 is a schematic view, partially in section, of the bottom end area of the cross plate where the moving elevator slot is located according to one embodiment of the present invention;

FIG. 15 is a schematic view, partially in section, of the area of the bottom end of the cross plate to which the movable roller is pulled and secured in accordance with one embodiment of the present invention;

FIG. 16 is a schematic view of a retaining latch according to one example of the present invention;

FIG. 17 is a partial side cross-sectional view of the pin rotating end of the retaining pin according to one example of the present invention;

FIG. 18 is a top cross-sectional view of the pin rotating end of the retaining pin according to one example of the present invention;

FIG. 19 is a partial schematic view of a riser surface in which a rod storage groove is formed according to an embodiment of the present invention;

FIG. 20 is a cross-sectional schematic view of a storage panel provided in accordance with one example of the present invention;

FIG. 21 is a partial schematic view of an area where a panel mounting block is located according to one embodiment of the present invention;

fig. 22 is a schematic partial cross-sectional view of an area where a rod body fixing buckle is provided according to an example of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Unless otherwise defined, the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present invention. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. All technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" is not to be interpreted as implying any or all combinations of one or more of the associated listed items.

Spatially relative terms, such as "disposed above … …," "disposed above … …," "disposed above … …, above," and the like, may be used herein for ease of description to describe the spatial relationship of one device or feature to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "disposed above … …" can include both an orientation of "disposed above … …" and "disposed below … …". The device may be otherwise variously positioned and the spatially relative descriptors used herein interpreted accordingly.

Example one

Referring to fig. 1-13, fig. 16-18.

Specifically, this embodiment provides a formula aluminum alloy building templates group is adjusted to group's frame, including wallboard, spreader and upstand, the wallboard includes diaphragm 10 and riser 11, diaphragm 10 both ends are provided with fixed group I, fixed group I includes buckle groove I120 and fixed buckle I121, fixed buckle I121 is provided with bolt hole I122, riser 11 both ends are provided with fixed group II, fixed group II includes buckle groove II130 and fixed buckle II131, buckle groove II131 is provided with bolt hole II 132.

The transverse plate 10 is further provided with a vertical column sliding groove 100, an I-shaped fixing groove 101 and a bolt hole III102, the vertical column sliding groove 100 is arranged in the inner surface of the transverse plate 10, the I-shaped fixing groove 101 is uniformly arranged in the inner position of the vertical column sliding groove 100, and the bolt hole III102 is uniformly arranged in the side position of the transverse plate 10 and penetrates through the vertical column sliding groove 100.

The riser 11 is provided with and removes spout 110, fixed orifices 111, fixed lug 112 and rotatory draw-in groove 113, it sets up in riser 11 internal surface internal position to remove spout 110, fixed orifices 111 align to grid is in removing spout 110 internal position, fixed lug 112 sets up in fixed orifices 111 inner wall position, rotatory draw-in groove 113 sets up in fixed orifices 111 front end inner wall internal position.

The spreader includes cylinder and spring assembly, the cylinder includes mobile jib 200, left side dead lever 201, right side dead lever 202, body of rod fixed orifices 203, spring leaf 204 and the fixed lug of the body of rod 205, left side dead lever 201 sets up in trunk right side space internal position, right side dead lever 202 sets up in mobile jib 200 right side space internal position, body of rod fixed orifices 203 sets up respectively in mobile jib 200 left side front end and mobile jib 200 right side front end position, spring leaf 204 sets up respectively in left side dead lever 201 and right side dead lever 202 tail end inner wall position, the fixed lug of the body of rod 205 sets up in spring leaf 204 front end position and pops out after left side dead lever 201 stretches out with the body of rod fixed orifices 203 of the left side front end of mobile jib 200 fixed or pop out after right side dead lever 202 stretches out with the body of rod fixed orifices 203 of.

The spring assembly includes a rotating end 210, a rotating gear set, a rotating hole 212 and a rotating catch 213, the rotating ends 210 are respectively arranged at the front end of the left fixing rod 201 and the front end of the right fixing rod 202, the rotating gear set is disposed at an inner position of the rotating end 210 and is composed of a driving gear 211-1, a rotating shaft 211-2 and a driven gear 211-3, the driving gear 211-1 is connected to the rotating shaft 211-2 and the driven gear 211-3, the rotating hole 212 is disposed at an outer wall position of the rotating end 210, the rotating catch 213 is disposed at an inner position of the rotating end 210 and connected with the driven gear 211-3, when the rotating shaft 211-2 drives the driving gear 211-1 to rotate, the driving gear 211-1 drives the driven gear 211-3 to rotate, and the driven gear 211-3 drives the rotating buckle 213 to extend and retract at the position of the rotating hole 212.

The vertical column comprises a main body 30, a fixed vertical block 31, a cross column groove 32 and a bolt hole IV, the fixed lug 112 is respectively arranged at the front end and the tail end of the main body 30, the cross column groove 32 is arranged at the side position of the vertical column, and the bolt hole IV is arranged at the side inner position of the fixed vertical block 31.

And bolt fixing holes 4 are formed in the inner walls of the bolt holes I122, II132, III102 and IV.

Wherein, the front end of the rotating end 210 is provided with a fixing slot for abutting against and fixing with the fixing protrusion 112.

Specifically, when splicing the transverse plate 10 and the vertical plate 11, the fixing groups I at the two ends of the transverse plate 10 and the fixing groups II at the two ends of the vertical plate 11 are spliced, the fixing buckle I121 of the fixing group I is butted and spliced with the buckle groove I120 of the fixing group II, and the buckle groove II131 of the fixing group II is butted and spliced with the buckle groove II130 of the fixing group I to form an outer frame.

Specifically, after the outer frame is formed, the main rod 200 of the cross-post is taken out and the main rod 200 is placed in the inner position of the outer frame, then the main rod 200 is moved inside the moving chute 110 of the vertical plate 11 to adjust the size of the inner transverse space of the outer frame, after the adjustment is completed, the left fixing rod 201 and the right fixing rod 202 of the main rod 200 are pulled out to be abutted against the fixing hole 111 of the moving chute 110, after the left fixing rod 201 and the right fixing rod 202 are pulled out, the rotating end 210 at the front end of the left fixing rod 201 and the right fixing rod 202 is abutted against and fixed to the fixing lug 112 inside the fixing hole 111, the spring leaf 204 inside the left fixing rod 201 and the right fixing rod 202 pops the rotating rod fixing lug 205 inside the rod fixing hole 203 for fixing, then the clockwise rotating main rod 200 drives the left fixing rod 201 and the right fixing rod 202 to rotate clockwise, when the left fixing rod 201 and the right fixing The rotating shaft 211-2 rotates, the driving gear 211-1 which is in driving connection with the rotating shaft 211-2 rotates when the rotating shaft 211-2 rotates, the driven gear 211-3 which is in driving connection with the driving gear 211-1 rotates when the driving gear 211-1 rotates, the driven gear 211-3 rotates to drive the rotating buckle 213 which is in connection with the rotating buckle 213 to extend out of the rotating clamping groove 113 inside the fixing hole 111 from the rotating hole 212 of the rotating end 210, and after the rotating buckle 213 abuts against the rotating clamping groove 113, the main rod 200, the left fixing rod 201 and the right fixing rod 202 cannot be rotated to remind an installer of completing rotation, and so on until the horizontal space inside the outer frame is adjusted.

Wherein, the vertical column sliding groove 100 inside the horizontal plate 10 is provided with vertical column placing openings at two ends.

Specifically, after the inside horizontal space adjustment of outer frame is accomplished, installer takes the upstand and puts into upstand spout 100 with the main part 30 of upstand through the upstand of fixed riser 31 from upstand spout 100 of diaphragm 10, the upstand is contradicted through mobile jib 200 of spreader recess 32 with the spreader, then installer main part 30 removes the size of adjusting the inside longitudinal space of outer frame inside at upstand spout 100 inside of diaphragm 10, insert the I type fixed slot 101 position of upstand spout 100 with the fixed riser 31 of this main part 30 after the regulation is accomplished, in order to fix this main part 30, so on, until the inside longitudinal space adjustment of outer frame is accomplished.

Wherein, still include fixed bolt, fixed bolt is including the fixed body of rod 50, the rotatory end 51 of bolt, bolt gear train, rotatory bolt piece 53 and bolt expansion joint 54, the rotatory end 51 of bolt sets up in the fixed body of rod 50 both ends position, the bolt gear train sets up in the rotatory end 51 inside position of bolt, rotatory bolt piece 53 sets up in the rotatory end 51 inside position of bolt and is connected with the bolt gear train, bolt expansion joint 54 sets up in the rotatory end 51 outer wall position of bolt.

The latch gear set comprises a driving latch gear 520, a latch rotating shaft 521 and a driven latch gear 522, wherein the driving latch gear 520 is respectively connected with the latch rotating shaft 521 and the driven latch gear 522, when the latch rotating end 51 is rotated, the latch rotating shaft 521 drives the driving latch gear 520 to rotate, the driving latch gear 520 drives the driven latch gear 522 to rotate, and the driven latch gear 522 drives the connected rotating latch block 53 to extend and retract at the latch extending port 54.

Wherein, the top position of the bolt rotating end 51 is provided with a rotating groove for an installer to rotate the bolt rotating end 51.

Specifically, after the outer frame is spliced, an installer takes the fixing bolt and inserts the fixing rod 50 of the fixing bolt into the bolt hole II132 of the buckle groove II131 on the left side of the vertical plate 11, passes through the bolt hole I122 of the fixing buckle I121 of the horizontal plate 10, and finally extends out of the bolt hole II132 of the buckle groove II131 on the right side of the vertical plate 11, after the fixing rod 50 is inserted, the bolt rotating ends 51 at the two ends of the fixing rod 50 and the outer surface of the vertical plate 11 keep the same horizontal plane, then the installer rotates the bolt rotating ends 51 through the rotating grooves of the bolt rotating ends 51, the bolt rotating ends 51 are rotated by the bolt rotating shaft 521 inside the gear set at the bolt, the driving bolt gear 520 drives the connected rotating bolt block 53 to extend out of the bolt extending opening 54 to the bolt fixing opening inside the bolt hole II132 through the connected driven bolt gear 522, after the rotary latch block 53 is abutted against the latch fixing port in the latch hole II132, the latch rotary end 51 cannot be rotated to remind the installer that the rotation is completed, and so on until the vertical plate 11 and the transverse plate 10 are fixed in the splicing position.

Specifically, after the vertical post is fixed with the I-shaped fixing groove 101 through the fixing vertical block 31, the installer takes the fixing bolt and inserts the fixing rod 50 of the fixing bolt into the bolt hole III102 at the left side position of the horizontal plate 10, and then extends from the bolt hole III102 to the inside position of the bolt hole IV of the fixing vertical block 31 of the vertical post, and finally extends from the bolt hole III102 at the right side position of the horizontal plate 10, after the fixing rod 50 is inserted, the bolt rotating ends 51 at both ends of the fixing rod 50 and the surfaces at both sides of the horizontal plate 10 keep the same horizontal plane, then the installer rotates the bolt rotating ends 51 through the rotating grooves of the bolt rotating ends 51, the bolt rotating shaft 521 inside the gear set at the bolt position drives the driving bolt gear 520 connected with the bolt rotating ends 51 when the bolt rotating ends 51 are rotated, the driving bolt gear 520 drives the rotating bolt block 53 connected with the driven bolt gear 522 connected with the driving bolt rotating end to extend from the bolt extending opening 54 to the bolt fixing opening position inside the bolt hole III, after the rotary latch block 53 is abutted against the latch fixing port in the latch hole III102, the latch rotary end 51 cannot be rotated to remind the installer that the rotation is completed, and so on until the transverse plate 10 and the vertical column are fixed.

Example two

Referring to fig. 2, shown in fig. 14-15.

This embodiment is substantially identical to the first embodiment, except that, in this embodiment, the riser 11 further comprises a set of moving pulleys 114, the movable pulley block 114 comprises a movable lifting groove 114-1, a movable fixing groove 114-2, a roller spring 114-3, a movable block 114-4 and a movable roller 114-5, the movable lifting groove 114-1 is arranged at the inner position below the vertical plate 11, the movable fixing groove 114-2 is arranged at the inner position of the inner wall at the front end of the movable lifting groove 114-1, the roller spring 114-3 is disposed at an inner position of the moving lifting groove 114-1, the moving block 114-4 is connected with the moving lifting groove 114-1 through a roller spring 114-3, the moving roller 114-5 is disposed on the surface of the moving block 114-4.

Specifically, when the installer takes the vertical plate 11, if the outer frame is moved after the outer frame is spliced to form the frame, the movable roller 114-5 at the inner position of the lower end of the vertical plate 11 is grabbed, and then the movable roller 114-5 is pulled out, when the moving roller 114-5 is pulled out, the moving roller 114-5 drives the connected moving block 114-4 to be pulled out, the moving block 114-4 drives the connected roller spring 114-3 to be pulled out, after the connected moving block 114-4 is completely pulled out of the moving lifting groove 114-1 by the moving roller 114-5, the installer rotates the moving roller 114-5 clockwise by 90 degrees to drive the connected moving block 114-4 clockwise by 90 degrees, then, the moving block 114-4 connected with the moving roller 114-5 is contracted and placed into the moving fixing groove 114-2 for fixing; when the installer does not need to use the moving roller 114-5, the moving roller 114-5 is pulled out and the moving roller 114-5 is rotated counterclockwise by 90 degrees to drive the connected moving block 114-4 to rotate counterclockwise by 90 degrees, then the moving roller 114-5 is released, and the roller spring 114-3 in the moving lifting groove 114-1 retracts the moving roller 114-5 to the inside of the moving lifting groove 114-1 through the connected moving block 114-4 for storage.

EXAMPLE III

As shown with reference to fig. 4-7.

The embodiment is substantially the same as the first embodiment, except that in the embodiment, the column further includes a bump fixing set, the bump fixing set includes a rotating buckle 206-1 and a bump rotating shaft 206-2, the rotating buckle 206-1 is disposed at an inner position of a front end of the rod fixing bump 205 and is provided with a grabbing groove 206-3, the bump rotating shaft 206-2 is disposed at a central position of the rotating buckle 206-1 and is respectively connected with the rotating buckle 206-1 and the rod fixing bump 205, and the bump fixing hole 111 is disposed at an inner position of an inner wall of the rod fixing hole 203.

The rotating buckle 206-1 is composed of a fixing piece and a contact.

Specifically, when the cross post needs to be released from the vertical plate 11 for fixing and taken out, the main rod 200 is rotated counterclockwise to drive the left fixing rod 201 and the right fixing rod 202 to rotate counterclockwise, the rotating end 210 drives the rotating shaft 211-2 inside the rotating gear set to rotate when the left fixing rod 201 and the right fixing rod 202 rotate clockwise, the rotating shaft 211-2 drives the driving gear 211-1 connected with the rotating shaft to rotate, the driving gear 211-1 drives the driven gear 211-3 connected with the driving gear to rotate when the driving gear 211-1 rotates, the driven gear 211-3 drives the rotating buckle 213 connected with the rotating shaft 211 to completely contract from the position of the rotating hole 212 of the rotating end 210 to release the fixing with the rotating clamping groove 113 when the driven gear 211-3 rotates, and then the installer uses the grabbing groove 206-3 of the front section of the rod body fixing bump 205 of the left fixing rod 201 or the right fixing rod 202 to rotate the rotating buckle 206 And when the rotating buckle 206-1 is in contact with the inner wall of the main rod 200, the installer continues to rotate the rotating buckle 206-2 anticlockwise to drive the connected rotating buckle 206-1 to ascend so as to descend the rod fixing lug 205 until the rod fixing lug is released from the rod fixing hole 203, and after the rod fixing lug 205 is released from the rod fixing hole 203, the left fixing rod 201 or the right fixing rod 202 can freely stretch and retract at the position of the main rod 200.

Example four

As shown with reference to fig. 19-22.

The embodiment is substantially the same as the first embodiment, except that in the embodiment, the vertical plate 11 further includes a rod storage groove 103, a panel rotating shaft 104, a storage panel 105, and a panel fixing block 106, the rod storage groove 103 is disposed at an inner position of an outer surface of the vertical plate 11, the panel rotating shaft 104 is disposed at an inner wall position of a left side of the rod storage groove 103, and the storage panel 105 is connected to the rod storage groove 103 through the panel rotating shaft 104; the panel fixing block 106 is arranged on the inner wall of the right side of the rod body storage groove 103.

The riser 11 further includes a panel fixing hole 107, a panel rotating hole 108, a panel fixing rod 109 and a rotating handle 110, the panel fixing hole 107 is disposed at an inner position above the panel fixing block 106, the panel rotating hole 108 is disposed at a front position of the storage panel 105, the panel fixing rod 109 is disposed at an inner position of the panel rotating hole 108, and the rotating handle is connected to the panel fixing rod 109.

Wherein, body of rod holding tank 103 is provided with body of rod range board 111, the body of rod is fixed detains 112, the body of rod is placed recess 113 and fixed rotation axis 114, body of rod range board 111 evenly sets up in body of rod holding tank 103 internal position, the body of rod is fixed detains 112 and is arranged the board 111 through fixed rotation axis 114 and the body of rod and be connected, the body of rod is placed recess 113 and is set up in the body of rod and is fixed detain 112 towards body of rod holding tank 103 surface position.

Specifically, when an installer needs to take a stored horizontal pole, the installer rotates the rotating handle 110 at the position of the storage panel 105 clockwise 90 degrees first, the rotating handle 110 rotates to drive the connected panel fixing rod 109 clockwise 90 degrees, then rotates the storage panel 105 through the panel rotating shaft 104 to open the rod storage slot 103, when the storage panel 105 opens the rod storage slot 103, the panel fixing rod 109 releases the fixation with the panel fixing hole 107, then the installer rotates the rod fixing buckle 112 through the fixed rotating shaft 114 to release the fixation with the horizontal pole at the position of the rod arrangement plate 111, and after the rod fixing buckle 112 rotates through the fixed rotating shaft 114 to release the fixation with the horizontal pole, the installer can take the horizontal pole out.

EXAMPLE five

As shown with reference to fig. 1-22.

Specifically, the present embodiment provides a method for using a set frame adjustable aluminum alloy building template set, where the method includes the following steps:

s1, pulling out the movable roller 114-5 in the movable mobile phone groove at the lower end of the vertical plate 11, pulling out the movable roller 114-5 to drive the connected movable block 114-4 to be pulled out, and rotating the movable block 114-4 by 90 degrees after the movable block 114-4 is pulled out to enable the movable block 114-4 to be abutted and fixed with the movable fixed groove 114-2.

S2, splicing the fixing buckle I121 of the transverse plate 10 and the fixing slot II of the vertical plate 11 and the buckle groove II131 of the vertical plate 11 and the fixing slot I of the transverse plate 10 to form an outer frame, and keeping the bolt hole I122 of the fixing buckle I121 and the bolt hole II132 of the buckle groove II131 on the same horizontal plane during splicing.

And S3, inserting the fixing rod body 50 of the fixing bolt into the bolt holes I122 and II132 and keeping the bolt rotating end 51 of the fixing rod body 50 at the same horizontal plane with the surfaces of the transverse plate 10 and the vertical plate 11, and then extending the rotating bolt block 53 from the bolt telescopic hole 54 to be abutted and fixed with the bolt fixing hole 4 by the rotating bolt rotating end 51 through the bolt gear set.

S4, taking out the main rod 200 of the transverse column, adjusting the distance between the main rod 200 and the outer frame through the movable sliding groove 110, after the adjustment is completed, the left side fixing lever 201 of the main lever 200 is withdrawn and the rotating end 210 of the front end of the left side fixing lever 201 is inserted into the fixing hole 111 of the left side cross plate 10, and the rotating end 210 of the front end of the left fixing rod 201 is abutted and fixed with the fixing lug 112 in the fixing hole 111, then the right side fixing lever 202 of the main lever 200 is withdrawn and the rotating end 210 of the front end of the right side fixing lever 202 is inserted into the fixing hole 111 of the right side cross plate 10, the rotating end 210 of the front end of the right fixing rod 202 is abutted against and fixed to the fixing protrusion 112 in the fixing hole 111, the inner spring 204 ejects the rod fixing protrusion 205 to the rod fixing hole 203 for fixing when the left fixing rod 201 is completely pulled out, and the inner spring 204 ejects the rod fixing protrusion 205 to the rod fixing hole 203 for fixing when the right fixing rod 202 is completely pulled out.

S5, the left fixing rod 201 and the right fixing rod 202 are driven to rotate by the rotating main rod 200, when the left fixing rod 201 and the right fixing rod 202 rotate, the rotating end 210 of the left fixing rod 201 and the right fixing rod 202 drives the rotating gear set to rotate, the rotating gear set drives the rotating buckle 213 to extend out of the rotating hole 212, and the rotating buckle 213 is abutted against and fixed with the rotating slot 113 of the fixing hole 111.

And S6, taking out the main body 30 of the vertical column, putting the main body 30 into the vertical column sliding groove 100 of the transverse plate 10 through the fixed vertical block 31, adjusting the distance of the main body 30 in the vertical column sliding groove 100, and after the adjustment is finished, abutting the fixing lug 112 of the main body 30 against the I-shaped fixing groove 101 of the transverse plate 10 and keeping the bolt hole IV of the fixing lug 112 and the bolt hole III102 of the transverse plate 10 at the same horizontal plane.

And S7, inserting the fixing rod body 50 of the fixing bolt into the bolt hole III102 and the bolt hole IV, keeping the bolt rotating end 51 of the fixing rod body 50 at the same horizontal plane with the surfaces of the transverse plate 10 and the transverse plate 10, and then rotating the bolt rotating end 51 to extend the rotating bolt block 53 from the bolt telescopic opening 54 through the bolt gear set to be abutted and fixed with the bolt fixing hole 4.

Wherein the method further comprises the steps of:

s8, when the left fixing rod 201 and the right fixing rod 202 are reset, the rotating shaft 206-2 of the rod fixing protrusion 205 is rotated counterclockwise, the rotating buckle 206-1 is rotated and raised to abut against the inner wall of the main rod 200 through the rotating shaft 206-2 to press the rod fixing protrusion 205 downward to release the fixing with the rod fixing hole 203, and then the left fixing rod 201 and the right fixing rod 202 are freely movable on both sides of the main rod 200.

S9, after the left side fixing rod 201 and the right side fixing rod 202 of the main rod 200 are contracted and reset, the main rod 200 is placed in the rod storage groove 103 at a storage position where the arrangement of the rod arrangement plate 111 is completed, and after the main rod 200 is placed, the rod fixing buckle 112 of the rod arrangement plate 111 is rotated by the fixing rotation shaft 114 to fix the main rod 200.

S10, after the main lever 200 is fixed by all the lever fixing clasps 112 inside the lever storage slot 103, the storage panel 105 is rotated to the position of the panel fixing block 106 by the panel rotating shaft 104 and the panel rotating hole 108 of the storage panel 105 is maintained at the same horizontal line as the panel fixing hole 107.

S11, rotating the panel fixing lever 109 by 90 ° by rotating the handle 110 to reach the inner position of the panel fixing hole 107, and then rotating the panel fixing lever 109 by 90 ° again by rotating the handle 110 to fix the storage panel 105 with the panel fixing block 106.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The assembly frame adjusting type aluminum alloy building formwork group comprises a wallboard, transverse columns and vertical columns, and is characterized in that the wallboard comprises a transverse plate (10) and a vertical plate (11), fixing groups I are arranged at two ends of the transverse plate (10), each fixing group I comprises a buckle groove I (120) and a fixing buckle I (121), each fixing buckle I (121) is provided with a bolt hole I (122), fixing groups II are arranged at two ends of the vertical plate (11), each fixing group II comprises a buckle groove II (130) and a fixing buckle (131), and each fixing buckle (131) is provided with a bolt hole II (132);

the transverse plate (10) is further provided with a vertical column sliding groove (100), an I-shaped fixing groove (101) and a bolt hole III (102), the vertical column sliding groove (100) is arranged at the inner position of the inner surface of the transverse plate (10), the I-shaped fixing groove (101) is uniformly arranged at the inner position of the vertical column sliding groove (100), and the bolt hole III (102) is uniformly arranged at the side position of the transverse plate (10) and penetrates through the vertical column sliding groove (100);

the vertical plate (11) is provided with a movable sliding groove (110), a fixed hole (111), a fixed lug (112) and a rotary clamping groove (113), the movable sliding groove (110) is arranged at the inner position of the inner surface of the vertical plate (11), the fixed holes (111) are uniformly arranged at the inner position of the movable sliding groove (110), the fixed lug (112) is arranged at the inner wall position of the fixed hole (111), and the rotary clamping groove (113) is arranged at the inner position of the inner wall at the front end of the fixed hole (111);

the spreader includes cylinder and spring assembly, the cylinder includes mobile jib (200), left side dead lever (201), right side dead lever (202), body of rod fixed orifices (203), spring leaf (204) and body of rod fixed lug (205), left side dead lever (201) sets up in trunk right side space internal position, right side dead lever (202) sets up in mobile jib (200) right side space internal position, body of rod fixed orifices (203) set up respectively in mobile jib (200) left side front end and mobile jib (200) right side front end position, spring leaf (204) set up respectively in left side dead lever (201) and right side dead lever (202) tail end inner wall position, body of rod fixed lug (205) set up in spring leaf (204) front end position and pop out after left side dead lever (201) stretches out body of rod fixed orifices (203) of the left side front end of popping out with mobile jib (200) fixed or pop out the body of rod fixed lug (202) of the body of the right side front end of popping out Fixing the fixed hole (203);

the spring group comprises a rotating end (210), a rotating gear set, a rotating hole (212) and a rotating buckle (213), wherein the rotating end (210) is respectively arranged at the front end of the left fixing rod (201) and the front end of the right fixing rod (202), the rotating gear set is arranged at the inner position of the rotating end (210) and consists of a driving gear (211-1), a rotating shaft (211-2) and a driven gear (211-3), the driving gear (211-1) is respectively connected with the rotating shaft (211-2) and the driven gear (211-3), the rotating hole (212) is arranged at the outer wall position of the rotating end (210), the rotating buckle (213) is arranged at the inner position of the rotating end (210) and is connected with the driven gear (211-3), and when the rotating shaft (211-2) drives the driving gear (211-1) to rotate, the driving gear (211-1) drives the driven gear (211-3) to rotate, and the driven gear (211-3) drives the rotary buckle (213) to stretch out and draw back at the position of the rotary hole (212);

the vertical column comprises a main body (30), a fixed vertical block (31), a cross column groove (32) and a bolt hole IV, the fixed lugs (112) are respectively arranged at the front end and the tail end of the main body (30), the cross column groove (32) is arranged at the side position of the vertical column, and the bolt hole IV is arranged at the side inner position of the fixed vertical block (31);

and bolt fixing holes (4) are formed in the inner walls of the bolt holes I (122), II (132), III (102) and IV.

2. The assembling frame adjusting type aluminum alloy building formwork group according to claim 1, wherein the vertical plate (11) further comprises a movable pulley block (114), the movable pulley block (114) comprises a movable lifting groove (114-1), a movable fixing groove (114-2), a roller spring (114-3), a movable block (114-4) and a movable roller (114-5), the movable lifting groove (114-1) is arranged at an inner position below the vertical plate (11), the movable fixing groove (114-2) is arranged at an inner position of the inner wall of the front end of the movable lifting groove (114-1), the roller spring (114-3) is arranged at an inner position of the movable lifting groove (114-1), and the movable block (114-4) is connected with the movable lifting groove (114-1) through the roller spring (114-3), the moving roller (114-5) is arranged on the surface position below the moving block (114-4).

3. The assembling frame adjusting type aluminum alloy building template set according to claim 1, wherein the column further comprises a bump fixing set, the bump fixing set comprises a rotating buckle (206-1) and a bump rotating shaft (206-2), the rotating buckle (206-1) is arranged at an inner position of the front end of the rod fixing bump (205) and is provided with a grabbing groove, and the bump rotating shaft (206-2) is arranged at a central position of the rotating buckle (206-1) and is respectively connected with the rotating buckle (206-1) and the rod fixing bump (205).

4. The adjustable aluminum alloy building formwork group of the assembling frame type as claimed in claim 1, further comprising a fixing bolt, wherein the fixing bolt comprises a fixing rod body (50), a bolt rotating end (51), a bolt gear set, a rotating bolt block (53) and a bolt expansion port (54), the bolt rotating end (51) is disposed at two end positions of the fixing rod body (50), the bolt gear set is disposed at an inner position of the bolt rotating end (51), the rotating bolt block (53) is disposed at an inner position of the bolt rotating end (51) and connected with the bolt gear set, and the bolt expansion port (54) is disposed at an outer wall position of the bolt rotating end (51).

5. The adjustable aluminum alloy building formwork group of claim 4, wherein the bolt gear set comprises a driving bolt gear (520), a bolt rotating shaft (521) and a driven bolt gear (522), the driving bolt gear (520) is respectively connected with the bolt rotating shaft (521) and the driven bolt gear (522), when the bolt rotating end (51) is rotated, the bolt rotating shaft (521) drives the driving bolt gear (520) to rotate, the driving bolt gear (520) drives the driven bolt gear (522) to rotate, and the driven bolt gear (522) drives the connected rotating bolt block (53) to extend and retract at the bolt extending port (54).

6. The assembled frame regulated aluminum alloy building formwork group as claimed in claim 1, wherein the riser (11) further comprises a rod body storage groove (103), a panel rotating shaft (104), a storage panel (105) and a panel fixing block (106), the rod body storage groove (103) is provided at an inner position of the outer surface of the riser (11), the panel rotating shaft (104) is provided at an inner wall position of the left side of the rod body storage groove (103), and the storage panel (105) is connected with the rod body storage groove (103) through the panel rotating shaft (104); the panel fixed block (106) is arranged on the inner wall of the right side of the rod body storage groove (103).

7. The assembly frame adjusting type aluminum alloy building formwork group as claimed in claim 6, wherein the riser (11) further comprises a panel fixing hole (107), a panel rotating hole (108), a panel fixing rod (109) and a rotating handle (110), the panel fixing hole (107) is arranged at an inner position above the panel fixing block (106), the panel rotating hole (108) is arranged at a front position of the storage panel (105), the panel fixing rod (109) is arranged at an inner position of the panel rotating hole (108), and the rotating handle is connected with the panel fixing rod (109).

8. The assembling frame adjusting type aluminum alloy building formwork group according to claim 6, wherein the rod storage grooves (103) are provided with rod arrangement plates (111), rod fixing buckles (112), rod placing grooves (113) and fixing rotation shafts (114), the rod arrangement plates (111) are uniformly arranged at the inner positions of the rod storage grooves (103), the rod fixing buckles (112) are connected with the rod arrangement plates (111) through the fixing rotation shafts (114), and the rod placing grooves (113) are arranged at the surface positions of the rod fixing buckles (112) facing the rod storage grooves (103).

9. A method of using a framing adjusted aluminium alloy building panel set as claimed in any one of claims 1 to 8, the method including the steps of:

s1, pulling out a movable roller (114-5) in the mobile phone groove at the lower end of the vertical plate (11), pulling out the movable roller (114-5) to drive a connected movable block (114-4) to be pulled out, and after the movable block (114-4) is pulled out, rotating the movable block (114-4) by 90 degrees to enable the movable block (114-4) to be abutted against and fixed with the mobile fixing groove (114-2);

s2, splicing the fixing buckle I (121) of the transverse plate (10) and the fixing clamp groove II of the vertical plate (11) and splicing the fixing buckle (131) of the vertical plate (11) and the fixing clamp groove I of the transverse plate (10) to form an outer frame, and keeping the bolt hole I (122) of the fixing buckle I (121) and the bolt hole II (132) of the fixing buckle (131) on the same horizontal plane during splicing;

s3, inserting a fixing rod body (50) of a fixing bolt into the bolt hole I (122) and the bolt hole II (132), keeping a bolt rotating end (51) of the fixing rod body (50) and the surfaces of the transverse plate (10) and the vertical plate (11) at the same horizontal plane, and then extending a rotating bolt block (53) out of the bolt telescopic opening (54) through a bolt gear set by the rotating bolt rotating end (51) to be abutted against and fixed with the bolt fixing hole (4);

s4, taking out the main rod (200) of the transverse column, then adjusting the distance of the main rod (200) in the outer frame through the movable sliding chute (110), after the adjustment is finished, drawing out the left side fixed rod (201) of the main rod (200) and inserting the rotating end (210) of the front end of the left side fixed rod (201) into the fixed hole (111) of the left side transverse plate (10), and abutting and fixing the rotating end (210) of the front end of the left side fixed rod (201) and the fixed lug (112) in the fixed hole (111), then drawing out the right side fixed rod (202) of the main rod (200) and inserting the rotating end (210) of the front end of the right side fixed rod (202) into the fixed hole (111) of the right side transverse plate (10), and abutting and fixing the rotating end (210) of the front end of the right side fixed rod (202) and the fixed lug (112) in the fixed hole (111), when the left side fixed rod (201) is finished, the inner spring leaf (204) pops out the rod fixed lug (205) of the rod body to the rod body, when the right fixing rod (202) is pulled out, the inner spring piece (204) pops the rod body fixing lug (205) into the rod body fixing hole (203) for fixing;

s5, the left fixing rod (201) and the right fixing rod (202) are driven to rotate through the rotating main rod (200), when the left fixing rod (201) and the right fixing rod (202) rotate, the rotating ends (210) of the left fixing rod (201) and the right fixing rod (202) drive the rotating gear set to rotate, the rotating gear set drives the rotating buckle (213) to extend out of the rotating hole (212), and the rotating buckle (213) is abutted and fixed with the rotating clamping groove (113) of the fixing hole (111);

s6, taking out the main body (30) of the vertical column, then putting the main body (30) into the vertical column sliding groove (100) of the transverse plate (10) through the fixed vertical block (31), adjusting the distance of the main body (30) in the vertical column sliding groove (100), after the adjustment is finished, abutting the fixing lug (112) of the main body (30) against the I-shaped fixing groove (101) of the transverse plate (10) and keeping the bolt hole IV of the fixing lug (112) and the bolt hole III (102) of the transverse plate (10) at the same horizontal plane;

s7, inserting a fixing rod body (50) of a fixing bolt into the bolt hole III (102) and the bolt hole IV, keeping a bolt rotating end (51) of the fixing rod body (50) and the surfaces of the transverse plate (10) and the transverse plate (10) at the same horizontal plane, and then enabling the rotating bolt rotating end (51) to extend out a rotating bolt block (53) from a bolt telescopic opening (54) through a bolt gear set to be abutted and fixed with the bolt fixing hole (4).

10. The method of using a set of framing regulated aluminum alloy building templates of claim 9, further comprising the steps of:

s8, when the left side fixing rod (201) and the right side fixing rod (202) are reset, the lug rotating shaft (206-2) of the rod body fixing lug (205) is rotated anticlockwise, the rotating buckle (206-1) is rotated and ascended to be abutted against the inner wall of the main rod (200) through the lug rotating shaft (206-2) so as to press the rod body fixing lug (205) downwards to be released from fixing with the rod body fixing hole (203), and then the left side fixing rod (201) and the right side fixing rod (202) freely move on two sides of the main rod (200);

s9, after the left side fixing rod (201) and the right side fixing rod (202) of the main rod (200) are contracted and reset, the main rod (200) is placed at the storage position where the rod body arrangement plate (111) is arranged inside the rod body storage groove (103), and after the main rod (200) is placed, the rod body fixing buckle (112) of the rod body arrangement plate (111) rotates through the fixing rotating shaft (114) to fix the main rod (200);

s10, after all the rod body fixing buckles (112) in the rod body storage grooves (103) fix the main rod (200), rotating the storage panel (105) to the position of the panel fixing block (106) through the panel rotating shaft (104) and keeping the panel rotating hole (108) and the panel fixing hole (107) of the storage panel (105) at the same horizontal line;

s11, rotating the panel fixing rod (109) by 90 degrees through the rotating handle (110) to extend into the inner position of the panel fixing hole (107), and then rotating the panel fixing rod (109) by 90 degrees again through the rotating handle (110) to fix the storage panel (105) and the panel fixing block (106).