CN110722665A

CN110722665A - Green's building templates

Info

Publication number: CN110722665A
Application number: CN201911008894.8A
Authority: CN
Inventors: 吕磊
Original assignee: Individual
Current assignee: Sinochem Communications Construction Group Construction Engineering Co ltd
Priority date: 2019-10-23
Filing date: 2019-10-23
Publication date: 2020-01-24
Anticipated expiration: 2039-10-23
Also published as: CN110722665B

Abstract

The invention relates to the field of building templates, in particular to a green and environment-friendly building template which comprises an inner template, outer templates, mounting pieces, a template seat and a die opening control piece, wherein the inner template is connected with the four outer templates through the mounting pieces, and the inner template is positioned in the four outer templates; the mounting piece is connected to the die opening control piece; the die opening control part is connected to the die plate seat; the inner template and the four outer templates are matched on the template base; the four outer templates are sequentially connected end to end and form a pouring area with the inner template. The invention provides a green and environment-friendly building template, which aims to solve the problems in the prior art, and can conveniently control the separation of an inner template and an outer template from a square upright post after the processing of a hollow square upright post is completed.

Description

Green's building templates

Technical Field

The invention relates to the field of building templates, in particular to a green environment-friendly building template.

Background

The building template is a temporary supporting structure, is manufactured according to the design requirements, enables concrete structures and members to be formed according to the specified positions and geometric dimensions, keeps the correct positions, bears the self weight of the building template and external loads acting on the building template, and carries out template engineering, thereby ensuring the quality and construction safety of concrete engineering, accelerating the construction progress and reducing the engineering cost. In the prior art, when a square upright post with a hollow center is processed, the problem that a building template is not easy to disassemble exists.

Disclosure of Invention

In view of the above, the invention provides an environment-friendly building template, which is used for solving the problems in the prior art, and can conveniently control the separation of an inner template and an outer template inside the building template from a square upright post after the processing of the hollow square upright post is completed.

In order to achieve the above object, the following solutions are proposed:

the green and environment-friendly building template comprises an inner template, outer templates, mounting pieces, template seats and a die opening control piece, wherein the inner template is connected with the four outer templates through the mounting pieces, and the inner template is positioned in the four outer templates; the mounting piece is connected to the die opening control piece; the die opening control part is connected to the die plate seat; the inner template and the four outer templates are matched on the template base; the four outer templates are sequentially connected end to end and form a pouring area with the inner template.

The inner template is a rectangular vertical frame with a hollowed-out inner side.

The outer template is provided with a rectangular sliding groove with an open upper part and two hexagonal grooves positioned in the rectangular sliding groove; and the outer template is provided with a handle.

The mounting part comprises a turnover inserting component, a sliding plate seat, a push-pull component, an adjusting screw rod, a sliding groove seat and an adjusting rotating wheel; the sliding groove seat is connected to the inner template; the middle part of the adjusting screw rod is rotationally matched on the sliding groove seat; the top end of the adjusting screw rod is fixedly connected with an adjusting rotating wheel; the bottom end of the adjusting screw rod is rotatably matched in the inner template; the adjusting screw rod is matched with the inner end of the push-pull assembly through threads; the outer end of the push-pull assembly is connected with the inner ends of the four sliding plate seats; the middle parts of the four sliding plate seats are respectively matched with the four sides of the sliding groove seat in a sliding manner; the outer ends of the four sliding plate seats are respectively connected with an overturning inserting component; the four overturning inserting components are respectively inserted and connected with an outer template.

The push-pull assembly comprises a lifting plate, a push-pull arm and a push-pull seat; the lifting plate is connected to the adjusting screw rod through threads; the four sides of the lifting plate are respectively and rotatably connected with the upper end of one push-pull arm, the lower ends of the four push-pull arms are respectively and rotatably connected to one push-pull seat, and the four push-pull seats are respectively fixed at the inner ends of the four sliding plate seats.

The overturning splicing component comprises an overturning shaft, a shaft seat, an overturning splicing plate, a wheel disc, a positioning bolt, a bolt seat plate, a screw rod, a movable block, a connecting plate, a sliding plate and a hexagonal splicing column, wherein the wheel disc is uniformly provided with four jacks in a surrounding manner; the middle part of the turnover shaft is rotationally matched on a shaft seat, and the shaft seat is fixed at the outer end of the sliding plate seat; the upper end of the overturning inserting plate is fixed on the overturning shaft, and the lower end of the overturning inserting plate is in sliding fit with the rectangular sliding groove of the outer template; the wheel disc is fixed at one end of the turnover shaft; the positioning bolt is inserted in any one insertion hole of the wheel disc; the positioning bolt is connected to the bolt seat plate through threads, and the bolt seat plate is fixed on the sliding plate seat; an open slot is formed in the overturning inserting plate; the screw is rotationally matched in the open slot; the middle part of the screw rod is connected to the movable block through threads; the both ends of movable block rotate the one end of connecting a yoke plate respectively, and the other end of two yoke plates rotates respectively and connects a slide, and the outer end of two slides is six arriss of fixed connection respectively and inserts the post, and two six arriss are inserted the post and are sliding fit respectively in the six arriss slides of upset picture peg both sides, and two six arriss are inserted the post and are pegged graft respectively in two six arris grooves of exterior sheathing.

A plurality of steel bar jacks are arranged on the sliding plate seat at intervals; the axis of the steel bar jack is perpendicular to the template base.

The front side of the template seat is provided with an inclined plane with the height decreasing from inside to outside.

The die opening control part comprises a die opening frame and an electric push rod; two ends of the die opening frame are respectively and fixedly connected with an electric push rod, and the lower ends of the two electric push rods are fixed at the left end and the right end of the die plate seat; the upper end of the adjusting screw rod is rotatably matched on the die opening frame; the die sinking frame is positioned at the upper end of the lifting plate.

And the outer side surface of the inner template, the inner side surface of the outer template and the top surface of the template seat are polished.

The invention has the beneficial effects that: the green and environment-friendly building template is used for machining a square upright post hollowed in the center, and after machining is finished, the inner template and the outer template in the green and environment-friendly building template can be conveniently controlled to be separated from the square upright post; the installation part capable of being adjusted is adopted, the distance between the inner template and the four outer templates can be adjusted through the installation part, the installation part is suitable for processing square columns with hollow centers of different sizes, and when the square columns with different sizes are processed, the outer templates with different sizes need to be replaced; the outer template convenient to replace and install is adopted, the assembly and disassembly are convenient, and the building construction efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments are briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a schematic structural view of the inner form of the present invention;

FIG. 4 is a schematic structural view of an exterior form of the present invention;

FIG. 5 is a schematic structural view of the mount of the present invention;

FIG. 6 is a schematic structural view of the flip-plug assembly of the present invention;

FIG. 7 is a schematic view of the slide plate carrier of the present invention;

figure 8 is a schematic structural view of the push-pull assembly of the present invention;

FIG. 9 is a schematic view of the construction of the stencil holder of the present invention;

fig. 10 is a schematic structural view of the mold opening control member of the present invention.

In the figure: an inner template 1; an outer template 2; a rectangular chute 201; hexagonal grooves 202; a mounting member 3; turning over the plug-in assembly 301; a turnover shaft 301-1; shaft seat 301-2; a turnover inserting plate 301-3; a wheel disc 301-4; positioning bolts 301-5; bolt seat plates 301-6; screw 301-7; a movable block 301-8; the connecting plate 301-9; a sliding plate 301-10; hexagonal insert columns 301-11; a slide plate holder 302; a steel bar jack 302-1; a push-pull assembly 303; a lifter plate 303-1; a push-pull arm 303-2; a push-pull seat 303-3; an adjusting screw 304; a chute base 305; an adjustment wheel 306; a template base 4; a mold opening control part 5; opening a mold frame 501; an electric push rod 502.

Detailed Description

The technical solution of the present invention will be clearly and completely described by the following detailed description. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

as shown in fig. 1-10, a green environment-friendly building template comprises an inner template 1, outer templates 2, mounting pieces 3, a template base 4 and a mold opening control piece 5, wherein the inner template 1 is connected with the four outer templates 2 through the mounting pieces 3, and the inner template 1 is positioned in the four outer templates 2; the mounting piece 3 is connected to the die sinking control piece 5; the die opening control part 5 is connected to the die plate seat 4; the inner template 1 and the four outer templates 2 are matched on the template base 4; the four outer formworks 2 are sequentially connected end to end and form a pouring area with the inner formwork 1. According to the green and environment-friendly building template, the four outer templates 2 which can be conveniently detached or installed are matched with the inner template 1, concrete can be poured in a pouring area formed between the inner template 1 and the four outer templates 2 and is used for machining a square upright post with a hollow center, and after machining is finished, the mounting part 3, the inner template 1 and the outer template 2 can be driven to move upwards through the die opening control part 5 to control the inner template and the outer template to be separated from the square upright post; the square upright post is convenient to take out; can adjust the distance between four outer formworks 2 and the interior template 1 through adjusting installed part 3, four outer formworks 2 need be changed according to the size of the square stand column of required processing.

Example two:

as shown in fig. 1-10, the inner formwork 1 is a rectangular stand with a hollow inner side. The inner formworks 1 can be replaced and detached from the mounting members 3.

Example three:

as shown in fig. 1 to 10, a rectangular sliding groove 201 with an open upper portion and two hexagonal grooves 202 located in the rectangular sliding groove 201 are formed in the outer formwork 2; and a handle is arranged on the outer template 2. The arrangement of the handle is convenient for the outer template 2 on one side to be opened for observing the forming condition of the square upright column.

Example four:

as shown in fig. 1 to 10, the mounting member 3 includes a flip plug assembly 301, a slide plate base 302, a push-pull assembly 303, an adjusting screw 304, a chute base 305, and an adjusting wheel 306; the chute seat 305 is connected to the inner formwork 1; the middle part of the adjusting screw 304 is rotationally matched on the chute seat 305; the top end of the adjusting screw 304 is fixedly connected with an adjusting rotating wheel 306; the bottom end of the adjusting screw rod 304 is in running fit with the inner template 1; the adjusting screw rod 304 is matched with the inner end of the push-pull assembly 303 through threads; the outer end of the push-pull assembly 303 is connected with the inner ends of the four sliding plate seats 302; the middle parts of the four sliding plate seats 302 are respectively matched with the four sides of the sliding groove seat 305 in a sliding way; the outer ends of the four sliding plate seats 302 are respectively connected with an overturning inserting assembly 301; the four turning plug-in components 301 are respectively connected with an outer template 2 in a plug-in manner. Rotate and adjust runner 306 and can drive and adjust lead screw 304 and rotate, adjust lead screw 304 and rotate and can change the position of adjusting lead screw 304 and push-and-pull subassembly 303 contact, and then drive four slide plate bases 302 through push-and-pull subassembly 303 and slide in and out on chute seat 305, and drive four upset plug-in components 301 through four slide plate bases 302 and adjust four outer formworks 2's position, outer formworks 2 are connected on upset plug-in components 301, can realize quick installation or dismantlement.

Example five:

as shown in fig. 1-10, the push-pull assembly 303 includes a lifting plate 303-1, a push-pull arm 303-2 and a push-pull seat 303-3; the lifting plate 303-1 is connected to the adjusting screw rod 304 through threads; the four sides of the lifting plate 303-1 are respectively and rotatably connected with the upper end of a push-pull arm 303-2, the lower ends of the four push-pull arms 303-2 are respectively and rotatably connected with a push-pull seat 303-3, and the four push-pull seats 303-3 are respectively fixed at the inner ends of the four sliding plate seats 302. The lifting plate 303-1 in the push-pull assembly 303 is driven by the adjusting screw 304 to move up and down, and the lifting plate 303-1 pushes or pulls the four sliding plate seats 302 to perform horizontal inner and outer sliding movement through the four push-pull arms 303-2 and the four push-pull seats 303-3.

Example six:

as shown in fig. 1-10, the turning plug-in component 301 comprises a turning shaft 301-1, a shaft seat 301-2, a turning plug board 301-3, a wheel disc 301-4 with four jacks uniformly arranged in a surrounding manner, a positioning bolt 301-5, a bolt seat board 301-6, a screw 301-7, a movable block 301-8, a connecting plate 301-9, a sliding plate 301-10 and a hexagonal plug column 301-11; the middle part of the turning shaft 301-1 is rotationally matched on the shaft seat 301-2, and the shaft seat 301-2 is fixed at the outer end of the sliding plate seat 302; the upper end of the overturning inserting plate 301-3 is fixed on the overturning shaft 301-1, and the lower end of the overturning inserting plate 301-3 is in sliding fit in the rectangular sliding groove 201 of the outer template 2; the wheel disc 301-4 is fixed at one end of the turning shaft 301-1; the positioning bolt 301-5 is inserted into any one insertion hole of the wheel disc 301-4; the positioning bolt 301-5 is connected to the bolt seat plate 301-6 through threads, and the bolt seat plate 301-6 is fixed to the sliding plate seat 302; an open slot is formed on the overturning inserting plate 301-3; the screw 301-7 is rotatably matched in the open slot; the middle part of the screw 301-7 is connected to the movable block 301-8 through threads; two ends of the movable block 301-8 are respectively and rotatably connected with one end of one connecting plate 301-9, the other ends of the two connecting plates 301-9 are respectively and rotatably connected with one sliding plate 301-10, the outer ends of the two sliding plates 301-10 are respectively and fixedly connected with one hexagonal inserting column 301-11, the two hexagonal inserting columns 301-11 are respectively and slidably matched in the hexagonal slideways on the two sides of the overturning inserting plate 301-3, and the two hexagonal inserting columns 301-11 are respectively inserted in the two hexagonal grooves 202 of the outer template 2. The overturning inserting assembly 301 is used for being rapidly disassembled and assembled with the outer templates 2 of different sizes; the whole overturning and inserting assembly 301 can move under the driving of the sliding plate base 302; when the outer template 2 needs to be disassembled or assembled, the screw rods 301-7 are rotated, the positions of the screw rods 301-7, which are in contact with the movable blocks 301-8, are changed when the screw rods 301-7 rotate, the distance between the movable blocks 301-8 and the turnover inserting plates 301-3 is changed, the movable blocks 301-8 drive the two sliding plates 301-10 to slide relatively or oppositely through the two connecting plates 301-9, the two sliding plates 301-10 drive the two hexagonal inserting columns 301-11 to be inserted into the two hexagonal grooves 202 of the outer template 2 or be pulled out of the two hexagonal grooves 202 of the outer template 2, and the outer template 2 is assembled or disassembled; when the outer template 2 needs to be turned over to inspect or further process one side face of the processed square upright column, the positioning bolt 301-5 is rotated, after the positioning bolt 301-5 is separated from the insertion hole of the wheel disc 301-4, the turning insertion plate 301-3 which is turned outwards can drive the outer template 2 to be turned over, after the outer template is turned to a proper angle, the positioning bolt 301-5 is rotated to be inserted into the insertion hole at the corresponding position of the wheel disc 301-4, the outer template 2 is fixed after being turned over, and at the moment, one side face of the square upright column can be inspected or further processed.

Example seven:

as shown in fig. 1-10, a plurality of steel bar insertion holes 302-1 are arranged on the slide plate base 302 at intervals; the axis of the reinforcing steel bar insertion hole 302-1 is perpendicular to the template base 4. The arrangement of the steel bar insertion holes 302-1 enables the steel bars to be inserted in the steel bar insertion holes before concrete pouring and then concrete slurry to be poured when the square stand column is processed, so that the steel bars are arranged inside the processed square stand column, the longitudinal supporting strength of the square stand column can be effectively improved, and the quality of the square stand column is improved.

Example eight:

as shown in fig. 1 to 10, the front side of the stencil holder 4 is provided with an inclined surface having a height decreasing from the inside to the outside. The arrangement of the inclined plane enables the square upright post after the die sinking to be conveniently transferred to the outer side of the template base 4.

Example nine:

as shown in fig. 1 to 10, the mold opening control member 5 includes a mold opening frame 501 and an electric push rod 502; two ends of the die sinking frame 501 are respectively and fixedly connected with an electric push rod 502, and the lower ends of the two electric push rods 502 are fixed at the left end and the right end of the die plate seat 4; the upper end of the adjusting screw 304 is rotatably matched on the die sinking frame 501; the die sinking frame 501 is positioned at the upper end of the lifting plate 303-1.

And the outer side surface of the inner template 1, the inner side surface of the outer template 2 and the top surface of the template seat 4 are polished.

The electric push rod 502 can be an electric telescopic rod purchased in the market, and can also be a hydraulic push rod purchased in the market; after the electric push rod 502 is started, the die holder 501 can be driven to perform lifting motion in the vertical direction, the die holder 501 drives the adjusting screw 304 to perform lifting motion, the adjusting screw 304 drives the whole of the mounting part 3 and drives the inner template 1 and the outer template 2 to perform lifting motion through the mounting part 3, and the demolding work of the square stand column is realized.

The working principle of the invention is as follows: according to the green and environment-friendly building template, the four outer templates 2 which can be conveniently detached or installed are matched with the inner template 1, concrete can be poured in a pouring area formed between the inner template 1 and the four outer templates 2 and is used for machining a square upright post with a hollow center, and after machining is finished, the mounting part 3, the inner template 1 and the outer template 2 can be driven to move upwards through the die opening control part 5 to control the inner template and the outer template to be separated from the square upright post; the square upright post is convenient to take out; the distance between the four outer templates 2 and the inner template 1 can be adjusted by adjusting the mounting pieces 3, and the four outer templates 2 need to be replaced according to the size of the square upright column to be processed; the adjusting rotating wheel 306 is rotated to drive the adjusting screw 304 to rotate, the adjusting screw 304 is rotated to change the contact position of the adjusting screw 304 and the push-pull assembly 303, then the push-pull assembly 303 drives the four sliding plate seats 302 to slide in and out on the sliding groove seats 305, the four sliding plate seats 302 drive the four overturning insertion assemblies 301 to adjust the positions of the four outer templates 2, and the outer templates 2 are connected to the overturning insertion assemblies 301 to realize quick installation or disassembly; the lifting plate 303-1 in the push-pull assembly 303 is driven by the adjusting screw 304 to move up and down, and the lifting plate 303-1 pushes or pulls the four sliding plate seats 302 to perform horizontal inner and outer sliding movement through the four push-pull arms 303-2 and the four push-pull seats 303-3; the overturning inserting assembly 301 is used for being rapidly disassembled and assembled with the outer templates 2 of different sizes; the whole overturning and inserting assembly 301 can move under the driving of the sliding plate base 302; when the outer template 2 needs to be disassembled or assembled, the screw rods 301-7 are rotated, the positions of the screw rods 301-7, which are in contact with the movable blocks 301-8, are changed when the screw rods 301-7 rotate, the distance between the movable blocks 301-8 and the turnover inserting plates 301-3 is changed, the movable blocks 301-8 drive the two sliding plates 301-10 to slide relatively or oppositely through the two connecting plates 301-9, the two sliding plates 301-10 drive the two hexagonal inserting columns 301-11 to be inserted into the two hexagonal grooves 202 of the outer template 2 or be pulled out of the two hexagonal grooves 202 of the outer template 2, and the outer template 2 is assembled or disassembled; when the outer template 2 needs to be turned over to inspect or further process one side face of the processed square upright column, the positioning bolt 301-5 is rotated, the positioning bolt 301-5 is separated from the insertion hole of the wheel disc 301-4, the turning insertion plate 301-3 is turned outwards to drive the outer template 2 to turn over, after the outer template is turned to a proper angle, the positioning bolt 301-5 is rotated to be inserted into the insertion hole at the corresponding position of the wheel disc 301-4, the outer template 2 is fixed after being turned over, and at the moment, one side face of the square upright column can be inspected or further processed; the electric push rod 502 can be an electric telescopic rod purchased in the market, and can also be a hydraulic push rod purchased in the market; after the electric push rod 502 is started, the die holder 501 can be driven to perform lifting motion in the vertical direction, the die holder 501 drives the adjusting screw 304 to perform lifting motion, the adjusting screw 304 drives the whole of the mounting part 3 and drives the inner template 1 and the outer template 2 to perform lifting motion through the mounting part 3, and the demolding work of the square stand column is realized.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a green's building templates, includes interior template (1), exterior sheathing (2), installed part (3), template seat (4) and die sinking control piece (5), its characterized in that: the inner formwork (1) is connected with the four outer formworks (2) through mounting pieces (3), and the inner formwork (1) is located in the four outer formworks (2); the mounting piece (3) is connected to the die opening control piece (5); the die opening control part (5) is connected to the die plate seat (4); the inner template (1) and the four outer templates (2) are matched on the template base (4); the four outer templates (2) are sequentially connected end to end and form a pouring area with the inner template (1).

2. The green environmental building template of claim 1, wherein: the inner template (1) is a rectangular vertical frame with a hollowed inner side.

3. The green environmental building template of claim 2, wherein: the outer template (2) is provided with a rectangular sliding groove (201) with an open upper part and two hexagonal grooves (202) positioned in the rectangular sliding groove (201); the outer template (2) is provided with a handle.

4. A green environmental building panel according to claim 3, wherein: the mounting piece (3) comprises a turnover inserting assembly (301), a sliding plate seat (302), a push-pull assembly (303), an adjusting screw rod (304), a sliding groove seat (305) and an adjusting rotating wheel (306); the sliding groove seat (305) is connected to the inner template (1); the middle part of the adjusting screw rod (304) is rotationally matched on the chute seat (305); the top end of the adjusting lead screw (304) is fixedly connected with an adjusting rotating wheel (306); the bottom end of the adjusting screw rod (304) is in running fit with the inner template (1); the adjusting screw rod (304) is matched with the inner end of the push-pull assembly (303) through threads; the outer end of the push-pull assembly (303) is connected with the inner ends of the four sliding plate seats (302); the middle parts of the four sliding plate seats (302) are respectively matched with the four sides of the sliding groove seat (305) in a sliding way; the outer ends of the four sliding plate seats (302) are respectively connected with an overturning inserting assembly (301); the four overturning inserting components (301) are respectively connected with an outer template (2) in an inserting manner.

5. The green environmental building template of claim 4, wherein: the push-pull assembly (303) comprises a lifting plate (303-1), a push-pull arm (303-2) and a push-pull seat (303-3); the lifting plate (303-1) is connected to the adjusting screw rod (304) through threads; the four sides of the lifting plate (303-1) are respectively and rotatably connected with the upper end of one push-pull arm (303-2), the lower ends of the four push-pull arms (303-2) are respectively and rotatably connected to one push-pull seat (303-3), and the four push-pull seats (303-3) are respectively fixed at the inner ends of the four sliding plate seats (302).

6. The green environmental building template of claim 5, wherein: the overturning splicing assembly (301) comprises an overturning shaft (301-1), a shaft seat (301-2), an overturning splicing plate (301-3), a wheel disc (301-4) with four jacks uniformly arranged in a surrounding manner, a positioning bolt (301-5), a bolt seat plate (301-6), a screw rod (301-7), a movable block (301-8), a connecting plate (301-9), a sliding plate (301-10) and a hexagonal splicing column (301-11); the middle part of the turning shaft (301-1) is rotationally matched on the shaft seat (301-2), and the shaft seat (301-2) is fixed at the outer end of the sliding plate seat (302); the upper end of the overturning inserting plate (301-3) is fixed on the overturning shaft (301-1), and the lower end of the overturning inserting plate (301-3) is in sliding fit in the rectangular sliding groove (201) of the outer template (2); the wheel disc (301-4) is fixed at one end of the overturning shaft (301-1); the positioning bolt (301-5) is inserted into any one insertion hole of the wheel disc (301-4); the positioning bolts (301-5) are connected to the bolt seat plates (301-6) through threads, and the bolt seat plates (301-6) are fixed to the sliding plate seat (302); an open slot is arranged on the overturning inserting plate (301-3); the screw rods (301-7) are rotatably matched in the open grooves; the middle part of the screw rod (301-7) is connected to the movable block (301-8) through threads; the two ends of the movable block (301-8) are respectively rotatably connected with one end of one connecting plate (301-9), the other ends of the two connecting plates (301-9) are respectively rotatably connected with one sliding plate (301-10), the outer ends of the two sliding plates (301-10) are respectively fixedly connected with one hexagonal inserting column (301-11), the two hexagonal inserting columns (301-11) are respectively in sliding fit in hexagonal slideways on the two sides of the turnover inserting plate (301-3), and the two hexagonal inserting columns (301-11) are respectively inserted in two hexagonal grooves (202) of the outer template (2).

7. The green environmental building template of claim 6, wherein: a plurality of steel bar jacks (302-1) are arranged on the sliding plate seat (302) at intervals; the axis of the steel bar jack (302-1) is perpendicular to the template base (4).

8. The green environmental building template of claim 7, wherein: the front side of the template seat (4) is provided with an inclined plane with the height decreasing from inside to outside.

9. The green environmental building template of claim 8, wherein: the die opening control part (5) comprises a die opening frame (501) and an electric push rod (502); two ends of the die opening frame (501) are respectively and fixedly connected with an electric push rod (502), and the lower ends of the two electric push rods (502) are fixed at the left end and the right end of the die plate seat (4); the upper end of the adjusting screw rod (304) is in running fit with the die sinking frame (501); the die opening frame (501) is positioned at the upper end of the lifting plate (303-1).

10. The green environmental building template of claim 9, wherein: and the outer side surface of the inner template (1), the inner side surface of the outer template (2) and the top surface of the template seat (4) are polished.