CN109208894B - Use method of detachable floor formwork of building - Google Patents

Use method of detachable floor formwork of building Download PDF

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Publication number
CN109208894B
CN109208894B CN201811174533.6A CN201811174533A CN109208894B CN 109208894 B CN109208894 B CN 109208894B CN 201811174533 A CN201811174533 A CN 201811174533A CN 109208894 B CN109208894 B CN 109208894B
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China
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magnetic
template
transverse
longitudinal
templates
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CN109208894A (en
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林智勇
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China University of mining and Technology Engineering Consulting Research Institute (Jiangsu) Co.,Ltd.
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China University Of Mining And Technology Engineering Consulting Research Institute Jiangsu Co ltd
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G11/00Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs
    • E04G11/36Forms, shutterings, or falsework for making walls, floors, ceilings, or roofs for floors, ceilings, or roofs of plane or curved surfaces end formpanels for floor shutterings
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G17/00Connecting or other auxiliary members for forms, falsework structures, or shutterings
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04GSCAFFOLDING; FORMS; SHUTTERING; BUILDING IMPLEMENTS OR AIDS, OR THEIR USE; HANDLING BUILDING MATERIALS ON THE SITE; REPAIRING, BREAKING-UP OR OTHER WORK ON EXISTING BUILDINGS
    • E04G9/00Forming or shuttering elements for general use
    • E04G9/08Forming boards or similar elements, which are collapsible, foldable, or able to be rolled up

Abstract

The use method of the building detachable floor template comprises the steps that the building detachable floor template is composed of a plurality of magnetic templates, each magnetic template comprises a template, a transverse magnetic seat, a transverse connecting device, a longitudinal magnetic seat, a longitudinal connecting device and an adjustable supporting joint, and each template is provided with a left boss, a right notch, an upper boss and a lower notch; when the device is used, the bracket for supporting the template is firstly erected by utilizing the connecting magnetic force seat and the connecting pipe, the template is connected with the bracket, then the left boss and the right notch of the adjacent template are spliced, the upper boss and the lower notch of the adjacent template are spliced, the adjacent templates are connected together by utilizing the transverse magnetic force seat, the transverse connecting device, the longitudinal magnetic force seat and the longitudinal connecting device, and the template forms a pouring cavity of the floor slab, so that the mode of connecting by using iron nails is avoided; after the concrete floor is solidified and hardened, the longitudinal and transverse magnetic connection of the template is released, the template and the bracket are disassembled, the nondestructive connection and the disassembly of the template are implemented, and the service efficiency and the service life of the template are improved.

Description

Use method of detachable floor formwork of building
Technical Field
The invention relates to a method for using a building template, in particular to a method for using a detachable floor template of a building.
Background
At present, when people construct a floor slab, a wood plate needs to be nailed into a floor slab cavity, then concrete slurry is poured into the wood plate cavity, and after the concrete slurry is solidified, the wood plate is pried up to cause the damage of the wood plate, so that the construction efficiency is lower; the use method of the building detachable floor template is required to reduce the labor intensity and improve the use efficiency and the service life of the template.
Disclosure of Invention
The invention aims to overcome the defects of the prior art and provides a using method of a detachable floor formwork for a building, which is used for improving the using efficiency and the service life of the formwork.
The technical scheme adopted by the invention is as follows: the building detachable floor template is formed by combining a plurality of magnetic templates, each magnetic template comprises a template, a transverse magnetic base, a transverse connecting device, a longitudinal magnetic base, a longitudinal connecting device and an adjustable supporting joint, and the templates are fixedly connected with the transverse magnetic bases, the transverse connecting devices, the longitudinal magnetic bases, the longitudinal connecting devices and the adjustable supporting joints; the transverse magnetic base comprises a transverse magnetic base, a transverse magnetic core handle and a transverse positioning hole, the transverse magnetic core handle is fixedly connected with the transverse magnetic core, and the transverse magnetic base is fixedly connected with the template; the transverse connecting device comprises a transverse connecting seat, a transverse elastic pin and a transverse spring, wherein the transverse elastic pin and the transverse spring are arranged in a transverse guide hole of the transverse connecting seat and are used for transverse connection of the template; the longitudinal magnetic force seat comprises a longitudinal magnetic seat, a longitudinal magnetic core handle and a longitudinal positioning hole, the longitudinal magnetic core handle is fixedly connected with the longitudinal magnetic core, and the longitudinal magnetic seat is fixedly connected with the template; the longitudinal connecting device comprises a longitudinal connecting seat, a longitudinal elastic pin and a longitudinal spring, wherein the longitudinal elastic pin and the longitudinal spring are arranged in a longitudinal guide hole of the longitudinal connecting seat and are used for longitudinally connecting the templates; the adjustable supporting device comprises an adjusting nut head, an adjusting screw head, a supporting tube and a rotating rod, wherein the adjusting nut head is fixedly connected with the template, the adjusting screw head is connected with the adjusting nut head through threads, and the supporting tube is movably matched and connected with the adjusting screw head and used for supporting and adjusting the template; the template is provided with a left boss and a right notch, and the left boss is positioned on the left side of the right notch; the transverse magnetic base is arranged on one side of a left boss of the template, and the transverse connecting device is arranged on one side of a right notch of the template and is used for transverse positioning connection of the template; the template is provided with an upper boss and a lower notch, and the upper boss is positioned on the upper edge of the lower notch; the longitudinal magnetic base is arranged on the upper boss of the template, and the longitudinal connecting device is arranged on the lower notch of the template and used for longitudinally positioning and connecting the template; the axis of the transverse magnetic core of the transverse magnetic base, the axis of the longitudinal magnetic core of the longitudinal magnetic base, the axis of the transverse elastic pin of the transverse connecting device and the axis of the longitudinal elastic pin of the longitudinal connecting device on the same template are on the same plane, and the axis of the transverse elastic pin on the same template is vertical to the axis of the longitudinal elastic pin; the axis of a transverse magnetic core of a transverse magnetic base on the same template is vertical to the axis of a longitudinal magnetic core of a longitudinal magnetic base, and the center line of a left boss on the same template is vertical to the center line of an upper boss; when a plurality of magnetic templates are combined, the direction of the magnetic attraction of the transverse magnetic seat on each template to the transverse connecting seat on the adjacent template is the same, and the direction of the magnetic attraction of the longitudinal magnetic seat on each template to the longitudinal connecting seat on the adjacent template is the same; the initial state of the transverse magnetic seat is as follows: magnetic lines of force of the N pole and the S pole of the transverse magnetic core of the transverse magnetic base form a loop through the inside of the transverse magnetic base, and the transverse magnetic base has no magnetic attraction to the adjacent transverse connecting base; the initial state of the longitudinal magnetic force seat is as follows: magnetic lines of force of the N pole and the S pole of the longitudinal magnetic core of the longitudinal magnetic base form a loop through the interior of the longitudinal magnetic base, and the longitudinal magnetic base has no magnetic attraction to the adjacent longitudinal connecting base; the magnetic template is used for forming a pouring cavity of the floor slab by utilizing the mutual connection of a plurality of magnetic templates, and is used for pouring and forming cement mortar of the floor slab.
The use method of the building detachable floor template comprises the following steps: when in use, the magnetic template with corresponding specification is selected according to the size of the floor poured concrete; setting a filling cavity of a floor according to the requirements of a building drawing on the site of the building floor; erecting a plurality of supporting tubes of an adjustable supporting device on the ground, connecting the supporting tubes together by using a connecting magnetic base of the adjustable supporting device and a connecting tube, respectively screwing a connecting magnetic core handle of each connecting magnetic base to rotate by 90 degrees, so that the connecting magnetic base generates magnetic attraction to the connecting tube, and performing magnetic connection of the supporting tubes by using the connecting magnetic base and the connecting tube; after the magnetic connection of the supporting tube is implemented by using the magnetic base and the connecting tube, the supporting tube is connected with the connecting tube groove of the adjustable supporting device on the magnetic template, the inner safety jack of the supporting tube is aligned to the outer safety jack of the connecting tube groove of the adjusting screw head, then the safety bolt of the adjusting screw head is inserted into the outer safety jack and the inner safety jack, the magnetic template is connected with the adjustable supporting device, and a plurality of magnetic templates are mutually connected in a vertical and horizontal manner on the adjustable supporting device; when the magnetic templates are connected in a longitudinal and transverse mode, the left boss of each magnetic template 1 is inserted into the right notch of the adjacent magnetic template 1, and the upper boss of each magnetic template is inserted into the lower notch of the adjacent magnetic template; then respectively twisting the transverse magnetic core handles of the transverse magnetic bases to rotate by 90 degrees, so that the transverse magnetic bases generate magnetic attraction to the transverse connecting devices opposite to the transverse magnetic bases, sucking the transverse elastic pins of the transverse connecting devices into the transverse positioning holes of the transverse magnetic bases, locking and connecting the adjacent magnetic templates together by utilizing the magnetic attraction of the transverse magnetic bases, and implementing the mutual transverse magnetic locking and connecting of the adjacent templates of the magnetic templates; respectively twisting the longitudinal magnetic core handles of the longitudinal magnetic force seats to rotate by 90 degrees, so that the longitudinal magnetic force seats generate magnetic attraction to the longitudinal connecting devices opposite to the longitudinal magnetic force seats, sucking longitudinal elastic pins of the longitudinal connecting devices into longitudinal positioning holes of the longitudinal magnetic force seats, and mutually locking and connecting adjacent magnetic force templates together by using the magnetic attraction of the longitudinal magnetic force seats to implement mutual longitudinal magnetic force locking and connecting of the adjacent templates of the magnetic force templates; after the longitudinal and transverse magnetic forces of adjacent templates are locked and connected, a rotating rod capable of being installed is inserted into an adjusting hole of an adjusting screw head, the adjusting screw head is rotated by the rotating rod to enable the adjusting screw head to ascend or descend, the templates of all the magnetic templates are adjusted on the same plane, and the magnetic templates and surrounding walls are combined to form a floor filling cavity; after the concrete on the floor is poured and solidified, the magnetic template is detached from the solidified concrete; when the template is disassembled, firstly, the transverse magnetic core handles of the transverse magnetic force seats are respectively screwed in the opposite directions to rotate by 90 degrees, so that the transverse magnetic force seats lose magnetic attraction to the transverse connecting device opposite to the transverse magnetic core handles, and the transverse elastic pins of the transverse connecting device are withdrawn from the transverse positioning holes of the transverse magnetic force seats under the action of the elastic force of the transverse springs to implement the transverse magnetic force connection and separation of the template; respectively screwing the longitudinal magnetic core handles of the longitudinal magnetic force seats in the opposite directions to rotate by 90 degrees, so that the longitudinal magnetic force seats lose magnetic attraction to the opposite longitudinal connecting devices, and the longitudinal elastic pins of the longitudinal connecting devices enable the transverse elastic pins to retreat from the longitudinal positioning holes of the longitudinal magnetic force seats under the action of the elastic force of the longitudinal springs, so as to implement longitudinal magnetic force connection and separation of the template; after the longitudinal and transverse magnetic connection and separation of the magnetic templates, pulling the safety bolts of the adjusting screw heads out of the outer safety jacks and the inner safety jacks, then separating the templates of each magnetic template from the adjacent templates, and detaching all the templates from the poured solidified concrete floor; after the magnetic template is disassembled, the connecting magnetic core handles of the connecting magnetic bases are respectively screwed in the opposite directions to rotate by 90 degrees, so that the connecting magnetic bases lose magnetic attraction to the connecting pipe, the magnetic connection of the supporting pipe is released, and finally the connecting pipe and the supporting pipe are disassembled.
The invention has the beneficial effects that: the building detachable floor template is formed by combining a plurality of magnetic templates, each magnetic template comprises a template, a transverse magnetic seat, a transverse connecting device, a longitudinal magnetic seat, a longitudinal connecting device and an adjustable supporting joint, each transverse magnetic seat comprises a transverse magnetic seat, a transverse magnetic core and a transverse magnetic core handle, each longitudinal magnetic seat comprises a longitudinal magnetic seat, a longitudinal magnetic core and a longitudinal magnetic core handle, and each template is provided with a left boss, a right notch, an upper boss and a lower notch; when the template support is used, the connecting magnetic seat and the connecting pipe are firstly utilized to lift up the support template support, the templates are connected with the support together, then the left lug boss and the right notch of the adjacent templates are spliced, the upper lug boss and the lower notch of the adjacent templates are spliced, and the longitudinal and transverse connection of the templates is implemented; the magnetic attraction of the transverse magnetic force seat to the transverse connecting device and the magnetic attraction of the longitudinal magnetic force seat to the longitudinal connecting plate are utilized to connect the adjacent templates together, and the templates form a pouring cavity of the floor slab, so that the mode of connecting by iron nails is avoided; after the concrete floor is solidified and hardened, the longitudinal and transverse magnetic connection of the template is removed, the template and the support are disassembled, the nondestructive connection and the disassembly of the template are implemented, the defect that the common template is connected by iron nails is overcome, and the service efficiency and the service life of the template are improved.
Drawings
FIG. 1 is a schematic structural view of a removable floor form for construction;
FIG. 2 is a schematic structural view of an adjustable support joint;
FIG. 3 is a schematic view of a transverse magnetic shoe attachment;
FIG. 4 is a schematic view of a longitudinal magnetic mount connection;
fig. 5 is a schematic view of a removable floor form attachment for construction.
Detailed Description
The invention is further described with reference to the following detailed description of embodiments and with reference to the accompanying drawings in which:
fig. 1 is a schematic structural view of a removable floor formwork, fig. 2 is a schematic structural view of an adjustable support joint, fig. 3 is a schematic view of a horizontal magnetic base connection, fig. 4 is a schematic view of a vertical magnetic base connection, and fig. 5 is a schematic view of a removable floor formwork connection; the building detachable floor template is formed by combining a plurality of magnetic templates 1, each magnetic template 1 comprises a template 2, a transverse magnetic seat 3, a transverse connecting device 4, a longitudinal magnetic seat 5, a longitudinal connecting device 6 and an adjustable supporting joint 7, and the templates 2 are fixedly connected with the transverse magnetic seats 3, the transverse connecting devices 4, the longitudinal magnetic seats 5, the longitudinal connecting devices 6 and the adjustable supporting joints 7; the transverse magnetic base 3 comprises a transverse magnetic base 8, a transverse magnetic core 9, a transverse magnetic core handle 10 and a transverse positioning hole 11, the transverse magnetic core handle 10 is fixedly connected with the transverse magnetic core 9, and the transverse magnetic base 8 is fixedly connected with the template 2; the transverse connecting device 4 comprises a transverse connecting seat 12, a transverse elastic pin 13 and a transverse spring 14, wherein the transverse elastic pin 13 and the transverse spring 14 are arranged in a transverse guide hole 15 of the transverse connecting seat 12 and are used for transverse connection of the template 2; the longitudinal magnetic base 5 comprises a longitudinal magnetic base 16, a longitudinal magnetic core 17, a longitudinal magnetic core handle 18 and a longitudinal positioning hole 19, the longitudinal magnetic core handle 18 is fixedly connected with the longitudinal magnetic core 17, and the longitudinal magnetic base 16 is fixedly connected with the template 2; the longitudinal connecting device 6 comprises a longitudinal connecting seat 20, a longitudinal elastic pin 21 and a longitudinal spring 22, wherein the longitudinal elastic pin 21 and the longitudinal spring 22 are arranged in a longitudinal guide hole 23 of the longitudinal connecting seat 20 and are used for longitudinally connecting the templates 2; the adjustable supporting joint 7 comprises an adjusting nut head 24, an adjusting screw head 25, a supporting tube 26 and a rotating rod 27, wherein the adjusting nut head 24 is fixedly connected with the template 2, the adjusting screw head 25 is connected with the adjusting nut head 24 through threads, and the supporting tube 26 is movably matched and connected with the adjusting screw head 25 and used for supporting and adjusting the template 2; the template 2 is provided with a left boss 28 and a right notch 29, and the left boss 28 is positioned on the left side of the right notch 29; the transverse magnetic base 3 is arranged on one side of a left boss 28 of the template 2, and the transverse connecting device 4 is arranged on one side of a right notch 29 of the template 2 and used for transverse positioning connection of the template 2; the template 2 is provided with an upper boss 30 and a lower notch 31, and the upper boss 30 is positioned at the upper edge of the lower notch 31; the longitudinal magnetic base 5 is arranged on an upper boss 30 of the template 2, and the longitudinal connecting device 6 is arranged on a lower notch 31 of the template 2 and used for longitudinally positioning and connecting the template 2; the axis of the transverse magnetic core 9 of the transverse magnetic base 3, the axis of the longitudinal magnetic core 17 of the longitudinal magnetic base 5, the axis of the transverse elastic pin 13 of the transverse connecting device 4 and the axis of the longitudinal elastic pin 21 of the longitudinal connecting device 6 on the same template 2 are on the same plane, and the axis of the transverse elastic pin 13 on the same template 2 is vertical to the axis of the longitudinal elastic pin 21; the axis of the transverse magnetic core 9 of the transverse magnetic base 3 on the same template 2 is vertical to the axis of the longitudinal magnetic core 17 of the longitudinal magnetic base 5, and the center line of the left boss 28 on the same template 2 is vertical to the center line of the upper boss 30; when a plurality of magnetic templates 1 are combined, the direction of the magnetic attraction of the transverse magnetic seat 3 on each template 2 to the transverse connecting seat 12 on the adjacent template 2 is the same, and the direction of the magnetic attraction of the longitudinal magnetic seat 5 on each template 2 to the longitudinal connecting seat 20 on the adjacent template 2 is the same; a plurality of magnetic templates 1 are connected with each other to form a pouring cavity of the floor slab, and the pouring cavity is used for pouring and forming cement mortar of the floor slab.
For the longitudinal and transverse connection of a plurality of templates 2, the back surfaces of the templates 2 are planes, and the transverse magnetic force seat 3, the transverse connecting device 4, the longitudinal magnetic force seat 5 and the longitudinal connecting device 6 are arranged on the front surfaces of the templates 2; the axis of the transverse positioning hole 11 of the transverse magnetic seat 3 of the same template 2 is the same as the axis of the transverse elastic pin 13 of the transverse connecting device 4; the axial line of a longitudinal positioning hole 19 of a longitudinal magnetic base 5 of the same template 2 is the same as the axial line of a longitudinal elastic pin 21 of a longitudinal connecting device 6; the center line of the left boss 28 of the same template 2 is the same as that of the right notch 29, and the center line of the upper boss 30 of the same template 2 is the same as that of the lower notch 31; the centre line of the left boss 28, the centre line of the right recess 29, the centre line of the upper boss 30 and the centre line of the lower recess 31 on the same formwork 2 are in the same plane.
In order to support and adjust the template 2 by using the adjustable supporting joint 7, the adjusting nut head 24 is positioned in the middle of the template 2, the axes of the adjusting nut head 24, the adjusting screw head 25 and the supporting tube 26 are vertical to the plate surface of the template 2, the adjusting screw head 25 is provided with an adjusting hole 32 and a connecting tube groove 33, the connecting tube groove 33 is provided with an outer safety jack 40, the supporting tube 26 is provided with a safety bolt 39 and an inner safety jack 41, the safety bolt 39 is connected with the supporting tube 26 through an iron chain, and the adjusting screw head 25 is movably matched and coaxially connected with the connecting tube groove 33 through a connecting bolt; the axis of the adjusting hole 32 is perpendicular to the axis of the adjusting screw head 25, the outer diameter of the rotating rod 27 is 1 mm to 2 mm smaller than the aperture of the adjusting hole 32, and the initial state when the supporting tube 26 is not installed is as follows: the support tube 26 is separated from the connection tube groove 33 of the adjusting screw head 25; the connecting pipe groove 33 is used for being movably matched and connected with the supporting pipe 26 so as to facilitate the insertion of the rotating rod 27 into the adjusting hole 32, and the rotating rod 27 is used for rotating the adjusting screw head 25 to adjust the parallelism of the supporting pipe 26 for supporting the template 2.
In order to connect a plurality of support tubes 26 together and increase the safety and reliability of the support tubes 26, the support tubes 26 are provided with a connecting magnetic seat 34 and a connecting tube 35, and the connecting magnetic seat 34 is fixedly connected with the support tubes 26; the connecting magnetic base 34 comprises a connecting magnetic base 36, a connecting transverse magnetic core 37 and a connecting magnetic core handle 38, the connecting magnetic core handle 38 is fixedly connected with the connecting transverse magnetic core 37, the connecting magnetic base 36 is fixedly connected with the support tube 26, the connecting tube 35 is made of ferromagnetic materials, and the support tube 26 is connected together by the connecting magnetic base 34 and the connecting tube 35.
The initial state of the transverse magnetic base 3 is: magnetic lines of force of the N pole and the S pole of the transverse magnetic core 9 of the transverse magnetic base 3 form a loop through the inside of the transverse magnetic base 8, and the transverse magnetic base 3 has no magnetic attraction to the adjacent transverse connecting base 12; the initial state of the longitudinal magnetic base 5 is: magnetic lines of force of the N pole and the S pole of the longitudinal magnetic core 17 of the longitudinal magnetic base 5 form a loop through the interior of the longitudinal magnetic base 16, and the longitudinal magnetic base 5 has no magnetic attraction to the adjacent longitudinal connecting base 20; when the transverse magnetic core 9 of the transverse magnetic base 3 rotates by 90 degrees, the magnetic lines of force of the N pole and the S pole of the transverse magnetic core 9 form a loop through the outside of the transverse magnetic base 8, and the transverse magnetic base 3 has magnetic attraction to the adjacent transverse connecting base 12; when the longitudinal magnetic core 17 of the longitudinal magnetic base 5 rotates by 90 degrees, the magnetic lines of force of the N pole and the S pole of the longitudinal magnetic core 17 form a loop through the outside of the longitudinal magnetic base 16, and the longitudinal magnetic base 5 has magnetic attraction to the adjacent longitudinal connecting base 20; the transverse connection holder 12 and the longitudinal connection holder 20 are made of ferromagnetic material.
In order to facilitate the positioning connection and the disassembly of one template 2 and the other template 2, the aperture of the transverse positioning hole 11 of the transverse magnetic base 3 is 0.8 mm to 1 mm larger than the outer diameter of the transverse elastic pin 13 of the transverse connecting base 12; the width of the right notch 29 of the template 2 is 1 mm to 3 mm larger than the width of the left boss 28; the aperture of the longitudinal positioning hole 19 of the longitudinal magnetic base 5 is 0.8 mm to 1 mm larger than the outer diameter of the longitudinal elastic pin 21 of the longitudinal connecting device 6; the width of the lower recess 31 of the template 2 is 1 mm to 3 mm greater than the width of the upper ledge 30.
In order to implement the pouring of the building floor slab, a pouring cavity of the floor slab is formed by using a building detachable floor template, each magnetic template 1 is provided with a template 2, and each template 2 is provided with a transverse magnetic base 3, a transverse connecting base 12, a left boss 28 and a right notch 29 for transverse connection between the adjacent templates 2; each magnetic template 1 is provided with a template 2, and each template 2 is provided with a longitudinal magnetic base 5, a longitudinal connecting base 20, an upper boss 30 and a lower notch 31 for longitudinal connection between adjacent templates 2.
In order to be suitable for building floor slab filling cavities with different specifications, the magnetic template 1 is provided with different specifications, the size and the shape of the template 2 with the same specification are the same, and the positions and the sizes of the transverse magnetic seat 3, the transverse connecting seat 12, the longitudinal magnetic seat 5 and the longitudinal connecting seat 20 with the same specification are the same, so that the floor slab filling cavities with different specifications are formed.
The use method of the building detachable floor template comprises the following steps: when in use, the magnetic template 1 with corresponding specification is selected according to the size of the floor poured concrete; setting a filling cavity of a floor according to the requirements of a building drawing on the site of the building floor; erecting a plurality of supporting pipes 26 of the adjustable supporting joints 7 on the ground, connecting the plurality of supporting pipes 26 together by using the connecting magnetic seats 34 of the adjustable supporting joints 7 and the connecting pipes 35, respectively screwing the connecting magnetic core handles 38 of the connecting magnetic seats 34 to rotate by 90 degrees, so that the connecting magnetic seats 34 generate magnetic attraction to the connecting pipes 35, and performing magnetic connection of the supporting pipes 26 by using the connecting magnetic seats 34 and the connecting pipes 35; after the magnetic connection of the supporting tube 26 is implemented by using the connecting magnetic base 34 and the connecting tube 35, the supporting tube 26 is connected with the connecting tube groove 33 of the adjustable supporting joint 7 on the magnetic template 1, so that the inner safety jack 41 of the supporting tube 26 is aligned with the outer safety jack 40 of the connecting tube groove 33 of the adjusting screw head 25, then the safety pin 39 of the adjusting screw head 25 is inserted into the outer safety jack 40 and the inner safety jack 41, and a plurality of magnetic templates 1 are connected with each other in a vertical and horizontal manner on the adjustable supporting joint 7; when the magnetic templates 1 are connected in a crisscross mode, the left boss 28 of each magnetic template 1 is inserted into the right notch 29 of the adjacent magnetic template 1, and the upper boss 30 of each magnetic template 1 is inserted into the lower notch 31 of the adjacent magnetic template 1; then respectively screwing the transverse magnetic core handles 10 of the transverse magnetic force seats 3 to rotate by 90 degrees, so that the transverse magnetic force seats 3 generate magnetic attraction to the opposite transverse connecting devices 4, sucking the transverse elastic pins 13 of the transverse connecting devices 4 into the transverse positioning holes 11 of the transverse magnetic force seats 3, mutually locking and connecting the adjacent magnetic force templates 1 by using the magnetic attraction of the transverse magnetic force seats 3, and realizing the mutual transverse magnetic force locking and connecting of the adjacent templates 2 of the magnetic force templates 1; respectively screwing the longitudinal magnetic core handles 18 of the longitudinal magnetic force seats 5 to rotate by 90 degrees, so that the longitudinal magnetic force seats 5 generate magnetic attraction force on the opposite longitudinal connecting devices 6, sucking the longitudinal elastic pins 21 of the longitudinal connecting devices 6 into the longitudinal positioning holes 19 of the longitudinal magnetic force seats 5, mutually locking and connecting the adjacent magnetic force templates 1 by using the magnetic attraction force of the longitudinal magnetic force seats 5, and realizing mutual longitudinal magnetic force locking and connecting of the adjacent templates 2 of the magnetic force templates 1; after the longitudinal and transverse magnetic forces of the adjacent templates 2 are locked and connected, the rotating rod 27 of the adjustable supporting joint 7 is inserted into the adjusting hole 32 of the adjusting screw head 25, the adjusting screw head 25 is rotated by using the rotating rod 27, the adjusting screw head 24 is lifted or lowered, the templates 2 of each magnetic template 1 are adjusted on the same plane, and the magnetic templates 1 and the surrounding walls are combined into a floor pouring cavity; after the concrete on the floor is poured and solidified, the magnetic template 1 is detached from the solidified concrete; during disassembly, firstly, the transverse magnetic core handles 10 of the transverse magnetic bases 3 are respectively screwed in opposite directions to rotate by 90 degrees, so that the transverse magnetic bases 3 lose magnetic attraction to the transverse connecting devices 4 opposite to the transverse magnetic bases, and the transverse elastic pins 13 of the transverse connecting devices 4 are separated from the transverse positioning holes 11 of the transverse magnetic bases 3 under the action of the elastic force of the transverse springs 14, so that the transverse magnetic connection and separation of the template 2 are implemented; and respectively screwing the longitudinal magnetic core handles 18 of the longitudinal magnetic force seats 5 in the opposite directions to rotate by 90 degrees, so that the longitudinal magnetic force seats 5 lose the magnetic attraction force to the opposite longitudinal connecting devices 6, and the longitudinal elastic pins 21 of the longitudinal connecting devices 6 enable the transverse elastic pins 13 to withdraw from the longitudinal positioning holes 19 of the longitudinal magnetic force seats 5 under the action of the elastic force of the longitudinal springs 22, so as to implement the longitudinal magnetic force connection and separation of the template 2; after the longitudinal and transverse magnetic connection and separation of the magnetic templates 1, pulling the safety bolts 39 of the adjusting screw heads 25 out of the outer safety jacks 40 and the inner safety jacks 41, then separating the templates 2 of each magnetic template 1 from the adjacent templates 2, and detaching all the templates 2 from the poured solidified concrete floor; after the magnetic template 1 is disassembled, the connecting magnetic core handles 38 of the connecting magnetic bases 34 are respectively screwed in the opposite directions to rotate by 90 degrees, so that the magnetic attraction of the connecting magnetic bases 34 to the connecting pipe 35 is lost, the magnetic connection of the supporting pipe 26 is released, and finally the connecting pipe 35 and the supporting pipe 26 are disassembled.
In order to facilitate the positioning connection and the disassembly of the adjacent templates 2, when the adjacent templates 2 are transversely positioned and connected, the left boss 28 and the right notch 29 of the adjacent templates 2 are movably matched and connected, and the transverse elastic pin 13 is movably matched and connected with the transverse positioning hole 11; when the transverse magnetic base 3 generates magnetic attraction, the transverse elastic pin 13 is tightly attracted in the transverse positioning hole 11 by the transverse magnetic base 3; when the adjacent templates 2 are longitudinally connected, the upper bosses 30 of the adjacent templates 2 are movably matched and connected with the lower notches 31, and the longitudinal elastic pins 21 are movably matched and connected with the longitudinal positioning holes 19; when the vertical magnetic force base 5 generates the magnetic attraction force, the vertical elastic pin 21 is tightly attracted to the vertical positioning hole 19 of the vertical magnetic force base 5.
In order to use a plurality of support pipes 26 to erect the firm support bracket of the template 2, the use method of the building detachable floor template is as follows: when the support pipes 26 of the plurality of adjustable support joints 7 are erected before the ground, the support pipes 26 are arranged according to the distance between the adjusting nut heads 24 of the two adjustable support joints 7 of the two adjacent templates 2, so that the distance between the two support pipes 26 is equal to the distance between the two adjusting nut heads 24 on the two adjacent templates 2, the support pipes 26 are inserted into the connecting pipe grooves 33 of the adjusting screw heads 25, and the support pipes 26 are movably matched and connected with the connecting pipe grooves 33 of the adjusting screw heads 25.
In order to connect the templates 2 of the magnetic templates 1 with the supporting tubes 26 and increase the safety of the templates 2, the adjacent magnetic templates 1 are connected, after the supporting tubes 26 are connected through the connecting magnetic bases 34 and the connecting tubes 35, the back surface of the template 2 of the first magnetic template 1 is upward, the front surface of the template 2 is downward, the connecting tube grooves 33 of the adjustable supporting joints 7 of the first magnetic template 1 are inserted into the supporting tubes 26, and the first template 2 is connected with the first supporting tubes 26 through the adjusting nut heads 24 and the adjusting screw heads 25.
In order to connect the adjacent magnetic templates 1, after the first template 2 is connected with the first support pipe 26, the second template 2 is connected with the second support pipe 26; this is repeated, all the formworks 2 are connected to the corresponding support pipes 26, and all the formworks 2 are connected to the corresponding support pipes 26 by the safety bolts 39.
In order to implement the transverse positioning connection of the magnetic template 1, after the first template 2 is connected with the first support tube 26, the left boss 28 of the second template 2 is inserted into the right notch 29 of the first template 2, and meanwhile, the connecting tube groove 33 of the adjustable support joint 7 on the second template 2 is inserted into the second support tube 26; then, the transverse magnetic core handle 10 of the transverse magnetic base 3 on the second template 2 is rotated to drive the transverse magnetic core 9 of the transverse magnetic base 3 to rotate by 90 degrees, so that the transverse magnetic base 3 on the second template 2 generates magnetic attraction, the magnetic attraction of the transverse magnetic base 3 overcomes the elasticity of the transverse spring 14 of the transverse connecting device 4, the transverse elastic pin 13 of the second template 2 is sucked into the transverse positioning hole 11 of the transverse magnetic base 3, and the transverse connection of the adjacent templates 2 is implemented.
In order to implement the longitudinal positioning connection of the magnetic template 1, after the first template 2 is connected with the first support tube 26, or the upper boss 30 of the second template 2 is inserted into the lower notch 31 of the first template 2, and meanwhile, the connecting tube groove 33 of the adjustable support joint 7 on the second template 2 is inserted into the second support tube 26; then, the longitudinal magnetic core handle 18 of the longitudinal magnetic base 5 on the second template 2 is rotated to drive the longitudinal magnetic core 17 of the longitudinal magnetic base 5 to rotate by 90 degrees, so that the longitudinal magnetic base 5 on the second template 2 generates magnetic attraction, and the magnetic attraction of the longitudinal magnetic base 5 overcomes the elastic force of the longitudinal spring 22 of the longitudinal connecting device 6, so that the longitudinal elastic pin 21 of the second template 2 is sucked into the longitudinal positioning hole 19 of the longitudinal magnetic base 5, and the longitudinal connection of the adjacent templates 2 is implemented.
In order to disassemble the magnetic template 1 on the solidified floor, after the poured concrete floor is solidified, when the magnetic template 1 is disassembled, firstly, the transverse magnetic core handle 10 of the transverse magnetic base 3 and the longitudinal magnetic core handle 18 of the longitudinal magnetic base 5 on the template 2 are reversely screwed to rotate by 90 degrees, so that the transverse magnetic base 3 and the longitudinal magnetic base 5 lose the magnetic attraction force, the transverse elastic pin 13 of the transverse connecting device 4 on the adjacent template 2 is withdrawn from the transverse positioning hole 11 of the transverse magnetic base 3, the longitudinal elastic pin 21 of the longitudinal connecting device 6 on the adjacent template 2 is withdrawn from the longitudinal positioning hole 19 of the longitudinal magnetic base 5, and the longitudinal and transverse magnetic attraction force connection between the template 2 and the adjacent template 2 is released; after the connection between the template 2 and the adjacent template 2 is released, a rubber hammer is used for knocking loose the bonding between the template 2 and the solidified floor, the adjusting screw head 25 is rotated by the rotating rod 27, and the adjusting screw head 24 and the template 2 are driven to descend by the adjusting screw head 25, so that the template 2 is separated from the solidified floor; after the template 2 is separated from the floor, the safety bolts 39 of the adjusting screw heads 25 are pulled away from the outer safety jacks 40 and the inner safety jacks 41 of the adjustable support joints 7 connected with the template 2, so that the template 2 is separated from the support pipes 26, and the magnetic template 1 is detached; after the magnetic template 1 is removed, the connecting magnetic core handle 38 of the connecting magnetic base 34 of the supporting tube 26 is rotated in the opposite direction, the connecting horizontal magnetic core 37 of the connecting magnetic base 34 is driven to rotate in the opposite direction by 90 degrees, the magnetic attraction of the connecting magnetic base 34 to the connecting tube 35 is lost, and then the supporting tube 26 is removed.
When the magnetic template 1 is disassembled, after the supporting tube 26 connected with the magnetic template 1 to be disassembled is disassembled, the left boss 28 of the template 2 of the magnetic template 1 is separated from the right notch 29 of the adjacent template 2, and the transverse concave-convex connection of the adjacent template 2 is disassembled; separating the upper convex table 30 of the template 2 of the magnetic template 1 from the lower concave 31 of the adjacent template 2, and unlocking the longitudinal concave-convex connection of the template 2 of the magnetic template 1; after the first formwork 2 is detached, detaching a second supporting pipe 26 to be detached; after the second support pipe 26 is removed, the formwork 2 supported by the support pipe 26 is removed; the circulation is repeated, all the supporting tubes 26 and all the formworks 2 are dismounted, so that the aim of conveniently dismounting the formworks without damaging the formworks is fulfilled.

Claims (6)

1. The use method of the detachable floor template for the building comprises the steps that the detachable floor template for the building is formed by combining a plurality of magnetic templates (1), each magnetic template (1) comprises a template (2), a transverse magnetic seat (3), a transverse connecting device (4), a longitudinal magnetic seat (5), a longitudinal connecting device (6) and an adjustable supporting joint (7), and the templates (2) are fixedly connected with the transverse magnetic seats (3), the transverse connecting devices (4), the longitudinal magnetic seats (5), the longitudinal connecting devices (6) and the adjustable supporting joints (7); the transverse magnetic base (3) comprises a transverse magnetic base (8), a transverse magnetic core (9), a transverse magnetic core handle (10) and a transverse positioning hole (11), the transverse connecting device (4) comprises a transverse connecting base (12), a transverse elastic pin (13) and a transverse spring (14), the longitudinal magnetic base (5) comprises a longitudinal magnetic base (16), a longitudinal magnetic core (17), a longitudinal magnetic core handle (18) and a longitudinal positioning hole (19), the longitudinal connecting device (6) comprises a longitudinal connecting base (20), a longitudinal elastic pin (21) and a longitudinal spring (22), the adjustable supporting joint (7) comprises an adjusting nut head (24), an adjusting screw head (25), a supporting pipe (26) and a rotating rod (27), the template (2) is provided with a left boss (28) and a right notch (29), and the template (2) is provided with an upper boss (30) and a lower notch (31); the initial state of the transverse magnetic base (3) is as follows: the transverse magnetic force seat (3) has no magnetic attraction to the adjacent transverse connecting seat (12); the initial state of the longitudinal magnetic force seat (5) is as follows: the longitudinal magnetic force seat (5) has no magnetic attraction to the adjacent longitudinal connecting seats (20): the back surface of the template (2) is a plane, and the transverse magnetic force seat (3), the transverse connecting device (4), the longitudinal magnetic force seat (5) and the longitudinal connecting device (6) are arranged on the front surface of the template (2); the axial line of a transverse positioning hole (11) of a transverse magnetic base (3) of the same template (2) is the same as the axial line of a transverse elastic pin (13) of a transverse connecting device (4); the axial line of a longitudinal positioning hole (19) of a longitudinal magnetic base (5) of the same template (2) is the same as the axial line of a longitudinal elastic pin (21) of a longitudinal connecting device (6); the center line of the left boss (28) of the same template (2) is the same as that of the right notch (29), and the center line of the upper boss (30) of the same template (2) is the same as that of the lower notch (31); the center line of the left boss (28), the center line of the right notch (29), the center line of the upper boss (30) and the center line of the lower notch (31) on the same template (2) are on the same plane; the axis of a transverse magnetic core (9) of a transverse magnetic base (3), the axis of a longitudinal magnetic core (17) of a longitudinal magnetic base (5), the axis of a transverse elastic pin (13) of a transverse connecting device (4) and the axis of a longitudinal elastic pin (21) of a longitudinal connecting device (6) on the same template (2) are on the same plane, and the axis of the transverse elastic pin (13) on the same template (2) is vertical to the axis of the longitudinal elastic pin (21); the axis of a transverse magnetic core (9) of a transverse magnetic base (3) on the same template (2) is vertical to the axis of a longitudinal magnetic core (17) of a longitudinal magnetic base (5), and the central line of a left boss (28) on the same template (2) is vertical to the central line of an upper boss (30); the supporting tube (26) is provided with a connecting magnetic seat (34) and a connecting tube (35), and the connecting magnetic seat (34) is fixedly connected with the supporting tube (26); the connecting magnetic base (34) comprises a connecting magnetic base (36), a connecting transverse magnetic core (37) and a connecting magnetic core handle (38), the connecting magnetic core handle (38) is fixedly connected with the connecting transverse magnetic core (37), the connecting magnetic base (36) is fixedly connected with the supporting tube (26), and the connecting tube (35) is made of ferromagnetic materials;
the method is characterized in that: the use method of the building detachable floor template comprises the following steps: when in use, the magnetic template (1) with corresponding specification is selected according to the size of the floor poured concrete; setting a filling cavity of a floor according to the requirements of a building drawing on the site of the building floor; erecting a plurality of supporting pipes (26) of adjustable supporting joints (7) on the ground, connecting the plurality of supporting pipes (26) together by using connecting magnetic force seats (34) of the adjustable supporting joints (7) and connecting pipes (35), respectively screwing connecting magnetic core handles (38) of the connecting magnetic force seats (34) to rotate for 90 degrees, enabling the connecting magnetic force seats (34) to generate magnetic attraction to the connecting pipes (35), and performing magnetic connection of the supporting pipes (26) by using the connecting magnetic force seats (34) and the connecting pipes (35); after the magnetic connection of the supporting tube (26) is implemented by utilizing the connecting magnetic base (34) and the connecting tube (35), the supporting tube (26) is connected with the connecting tube groove (33) of the adjustable supporting joint (7) on the magnetic template (1), the inner safety jack (41) of the supporting tube (26) is aligned to the outer safety jack (40) of the connecting tube groove (33) of the adjusting screw head (25), then the safety bolt (39) of the adjusting screw head (25) is inserted into the outer safety jack (40) and the inner safety jack (41), the magnetic template (1) is connected with the adjustable supporting joint (7), and a plurality of magnetic templates (1) are mutually connected in a cross-and-cross mode on the adjustable supporting joint (7); when the magnetic templates (1) are connected in a longitudinal and transverse mode, the left boss (28) of each magnetic template (1) is inserted into the right notch (29) of the adjacent magnetic template (1), and the upper boss (30) of each magnetic template (1) is inserted into the lower notch (31) of the adjacent magnetic template (1); then respectively screwing the transverse magnetic core handles (10) of the transverse magnetic force seats (3) to rotate by 90 degrees, so that the transverse magnetic force seats (3) generate magnetic attraction to the opposite transverse connecting devices (4), sucking transverse elastic pins (13) of the transverse connecting devices (4) into transverse positioning holes (11) of the transverse magnetic force seats (3), mutually locking and connecting adjacent magnetic force templates (1) by utilizing the magnetic attraction of the transverse magnetic force seats (3), and realizing mutual transverse magnetic force locking and connecting of the adjacent templates (2) of the magnetic force templates (1); respectively screwing the longitudinal magnetic core handles (18) of the longitudinal magnetic force seats (5) to rotate by 90 degrees, so that the longitudinal magnetic force seats (5) generate magnetic attraction to the opposite longitudinal connecting devices (6), sucking longitudinal elastic pins (21) of the longitudinal connecting devices (6) into longitudinal positioning holes (19) of the longitudinal magnetic force seats (5), mutually locking and connecting adjacent magnetic force templates (1) by utilizing the magnetic attraction of the longitudinal magnetic force seats (5), and realizing mutual longitudinal magnetic force locking and connecting of the adjacent templates (2) of the magnetic force templates (1); after the longitudinal and transverse magnetic locking connection of the adjacent templates (2), inserting a rotating rod (27) of an adjustable supporting joint (7) into an adjusting hole (32) of an adjusting screw head (25), rotating the adjusting screw head (25) by using the rotating rod (27) to enable an adjusting screw head (24) to ascend or descend, adjusting the templates (2) of each magnetic template (1) on the same plane, and combining the magnetic templates (1) with the surrounding walls to form a floor filling cavity; after the concrete on the floor is poured and solidified, the magnetic template (1) is detached from the solidified concrete; when the device is disassembled, firstly, the transverse magnetic core handles (10) of the transverse magnetic base (3) are respectively screwed in the opposite directions to rotate by 90 degrees, so that the transverse magnetic base (3) loses magnetic attraction to the transverse connecting device (4) opposite to the transverse magnetic base, and the transverse elastic pin (13) of the transverse connecting device (4) is withdrawn from the transverse positioning hole (11) of the transverse magnetic base (3) under the action of the elastic force of the transverse spring (14), so that the transverse magnetic connection and separation of the template (2) are implemented; respectively screwing the longitudinal magnetic core handles (18) of the longitudinal magnetic bases (5) in the opposite directions to rotate by 90 degrees, so that the longitudinal magnetic bases (5) lose magnetic attraction to the opposite longitudinal connecting devices (6), and the longitudinal elastic pins (21) of the longitudinal connecting devices (6) enable the transverse elastic pins (13) to withdraw from the longitudinal positioning holes (19) of the longitudinal magnetic bases (5) under the action of the elastic force of the longitudinal springs (22) to implement longitudinal magnetic connection and separation of the template (2); after the longitudinal and transverse magnetic connection and separation of the magnetic templates (1), pulling the safety bolts (39) of the adjusting screw heads (25) out of the outer safety jacks (40) and the inner safety jacks (41), then separating the templates (2) of each magnetic template (1) from the adjacent templates (2), and detaching all the templates (2) from the poured solidified concrete floor; after the magnetic template (1) is disassembled, the connecting magnetic core handles (38) of the connecting magnetic bases (34) are respectively screwed in the opposite directions to rotate for 90 degrees, so that the magnetic attraction of the connecting magnetic bases (34) to the connecting pipe (35) is lost, the magnetic connection of the supporting pipe (26) is released, and finally the connecting pipe (35) and the supporting pipe (26) are disassembled; when the adjacent templates (2) are transversely positioned and connected, the left boss (28) of the adjacent template (2) is movably matched and connected with the right notch (29), and the transverse elastic pin (13) is movably matched and connected with the transverse positioning hole (11); when the transverse magnetic force seat (3) generates magnetic attraction, the transverse elastic pin (13) is tightly attracted in the transverse positioning hole (11) by the transverse magnetic force seat (3); when the adjacent templates (2) are longitudinally connected, the upper bosses (30) of the adjacent templates (2) are movably matched and connected with the lower notches (31), and the longitudinal elastic pins (21) are movably matched and connected with the longitudinal positioning holes (19); when the longitudinal magnetic force seat (5) generates magnetic attraction, the longitudinal elastic pin (21) is tightly attracted in the longitudinal positioning hole (19) of the longitudinal magnetic force seat (5); after the first template (2) is connected with the first support pipe (26), a left boss (28) of the second template (2) is inserted into a right notch (29) of the first template (2), and meanwhile, a connecting pipe groove (33) of an adjustable support joint (7) on the second template (2) is inserted into the second support pipe (26); then a transverse magnetic core handle (10) of a transverse magnetic base (3) on the second template (2) is rotated to drive a transverse magnetic core (9) of the transverse magnetic base (3) to rotate for 90 degrees, so that the transverse magnetic base (3) on the second template (2) generates magnetic attraction, the magnetic attraction of the transverse magnetic base (3) overcomes the elasticity of a transverse spring (14) of a transverse connecting device (4), a transverse elastic pin (13) of the second template (2) is sucked into a transverse positioning hole (11) of the transverse magnetic base (3), and the transverse connection of adjacent templates (2) is implemented; after the first template (2) is connected with the first support pipe (26), the upper boss (30) of the second template (2) is inserted into the lower notch (31) of the first template (2), and meanwhile, the connecting pipe groove (33) of the adjustable support joint (7) on the second template (2) is inserted into the second support pipe (26); then, a longitudinal magnetic core handle (18) of a longitudinal magnetic base (5) on the second template (2) is rotated to drive a longitudinal magnetic core (17) of the longitudinal magnetic base (5) to rotate by 90 degrees, so that the longitudinal magnetic base (5) on the second template (2) generates magnetic attraction, the magnetic attraction of the longitudinal magnetic base (5) overcomes the elasticity of a longitudinal spring (22) of a longitudinal connecting device (6), a longitudinal elastic pin (21) of the second template (2) is attracted into a longitudinal positioning hole (19) of the longitudinal magnetic base (5), and the longitudinal connection of the adjacent templates (2) is implemented; when the magnetic template (1) is disassembled, firstly, a transverse magnetic core handle (10) of a transverse magnetic base (3) on the template (2) and a longitudinal magnetic core handle (18) of a longitudinal magnetic base (5) are reversely screwed to rotate by 90 degrees, so that the transverse magnetic base (3) and the longitudinal magnetic base (5) lose magnetic attraction, a transverse elastic pin (13) of a transverse connecting device (4) on the adjacent template (2) is withdrawn from a transverse positioning hole (11) of the transverse magnetic base (3), a longitudinal elastic pin (21) of a longitudinal connecting device (6) on the adjacent template (2) is withdrawn from a longitudinal positioning hole (19) of the longitudinal magnetic base (5), and the magnetic longitudinal-transverse attraction connection between the template (2) and the adjacent template (2) is released; after the connection between the template (2) and the adjacent template (2) through longitudinal and transverse magnetic attraction is released, a rubber hammer is used for knocking loose the bonding between the template (2) and the solidified floor, an adjusting screw head (25) is rotated by a rotating rod (27), and the adjusting screw head (25) is used for driving the adjusting screw head (24) and the template (2) to descend so that the template (2) is separated from the solidified floor; after the template (2) is separated from the floor slab, the safety bolt (39) of the adjusting screw head (25) is pulled away from an outer safety jack (40) and an inner safety jack (41) of an adjustable support joint (7) connected with the template (2), so that the template (2) is separated from the support pipe (26), and the magnetic template (1) is detached; after the magnetic template (1) is detached, the connecting magnetic core handle (38) of the connecting magnetic base (34) of the supporting tube (26) is rotated in the opposite direction, the connecting transverse magnetic core (37) of the connecting magnetic base (34) is driven to rotate in the opposite direction by 90 degrees, the magnetic attraction force of the connecting magnetic base (34) on the connecting tube (35) is lost, and then the supporting tube (26) is detached.
2. The method of using a removable floor form for construction according to claim 1, wherein: the use method of the building detachable floor template comprises the following steps: when the supporting pipes (26) of the adjustable supporting joints (7) are erected before the ground, the supporting pipes (26) are arranged according to the distance between the adjusting nut heads (24) of the two adjustable supporting joints (7) of the two adjacent templates (2), so that the distance between the two supporting pipes (26) is equal to the distance between the two adjusting nut heads (24) on the two adjacent templates (2), the supporting pipes (26) are inserted into the connecting pipe grooves (33) of the adjusting screw heads (25), and the supporting pipes (26) are movably matched and connected with the connecting pipe grooves (33) of the adjusting screw heads (25).
3. The method of using a removable floor form for construction according to claim 2, wherein: after the supporting tube (26) is connected through the connecting magnetic base (34) and the connecting tube (35), the back face of the template (2) of the first magnetic template (1) is upward, the front face of the template (2) is downward, the connecting tube groove (33) of the adjustable supporting joint (7) of the first magnetic template (1) is spliced with the supporting tube (26), and the first template (2) is connected with the first supporting tube (26) through the adjusting nut head (24) and the adjusting screw head (25).
4. The method of using a removable floor form for construction according to claim 3, wherein: after the first template (2) is connected with the first support pipe (26), the second template (2) is connected with the second support pipe (26); the circulation is repeated, all the templates (2) are connected with the corresponding support pipes (26), and all the templates (2) are connected with the corresponding support pipes (26) by the safety bolts (39).
5. The method of using a removable floor form for construction according to claim 4, wherein: when the magnetic template (1) is disassembled, after the supporting pipe (26) connected with the magnetic template (1) needing to be disassembled is disassembled, the left boss (28) of the template (2) of the magnetic template (1) is separated from the right notch (29) of the adjacent template (2), and the transverse concave-convex connection of the adjacent template (2) is released; and separating the upper convex table (30) of the template (2) of the magnetic template (1) from the lower concave opening (31) of the adjacent template (2), and unlocking the longitudinal concave-convex connection of the template (2) of the magnetic template (1).
6. The method of using a removable floor form for construction according to claim 5, wherein: after the template (2) of the first block is disassembled, the second support tube (26) which needs to be disassembled is disassembled; after the second supporting pipe (26) is detached, the template (2) supported by the supporting pipe (26) is detached; the circulation is repeated continuously, all the supporting tubes (26) and all the templates (2) are disassembled, so that the aim of conveniently disassembling the templates is fulfilled without damaging the templates.
CN201811174533.6A 2018-10-09 2018-10-09 Use method of detachable floor formwork of building Active CN109208894B (en)

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103334587A (en) * 2013-06-09 2013-10-02 福建省二建建设集团有限公司 Fast assembly and disassembly structure and method of wood or bamboo horizontal template
CN204875537U (en) * 2015-07-29 2015-12-16 山东瑞鸿重工机械有限公司 Strong magnetism of steel form connecting device placed in middle
CN205276871U (en) * 2016-01-07 2016-06-01 姜衍鑫 Novel easy building templates who supports
CN205604712U (en) * 2016-05-18 2016-09-28 江苏建筑职业技术学院 Aluminum alloy template is connected to magnetism for building
CN206000163U (en) * 2016-08-31 2017-03-08 青岛一建集团有限公司 Aluminum alloy building template splicing component
KR20180107404A (en) * 2017-03-20 2018-10-02 백희정 Prop head guide and Placement method

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103334587A (en) * 2013-06-09 2013-10-02 福建省二建建设集团有限公司 Fast assembly and disassembly structure and method of wood or bamboo horizontal template
CN204875537U (en) * 2015-07-29 2015-12-16 山东瑞鸿重工机械有限公司 Strong magnetism of steel form connecting device placed in middle
CN205276871U (en) * 2016-01-07 2016-06-01 姜衍鑫 Novel easy building templates who supports
CN205604712U (en) * 2016-05-18 2016-09-28 江苏建筑职业技术学院 Aluminum alloy template is connected to magnetism for building
CN206000163U (en) * 2016-08-31 2017-03-08 青岛一建集团有限公司 Aluminum alloy building template splicing component
KR20180107404A (en) * 2017-03-20 2018-10-02 백희정 Prop head guide and Placement method

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