阅读说明：本技术 一种房建模板支撑定位系统及施工定位方法 (House construction formwork supporting and positioning system and construction positioning method ) 是由 殷世在 商蒙蒙 范瑞厚 于 2021-09-18 设计创作，主要内容包括：本发明公开一种房建模板支撑定位系统及施工定位方法,支撑定位系统包括建筑墙体模板、对拉紧固机构、螺杆锁紧机具和钢丝拉紧机具,建筑墙体模板包括内模板、外模板和模板支撑钢管；对拉紧固机构包括多组模板架对拉组件,模板架对拉组件包括对拉钢丝和两个模板架定位支座；模板架定位支座包括支撑弧形板和连接在支撑弧形板中部外端的支撑定位块,支撑弧形板的中部内开设有板通孔,支撑定位块上开设有与板通孔连通的块通孔；支撑定位块上开设有垂直穿过块通孔的第一螺纹盲孔,第一螺纹盲孔内连接有第一锁紧螺杆。该支撑定位系统可房建模板进行更稳定可靠对拉定位,施工定位后效率更高,环保性和安全性更好,避免了二次灌浆封堵,减少外墙渗漏。(The invention discloses a building formwork supporting and positioning system and a construction positioning method, wherein the supporting and positioning system comprises a building wall formwork, a counter-pull fastening mechanism, a screw locking machine tool and a steel wire tensioning machine tool, and the building wall formwork comprises an inner formwork, an outer formwork and a formwork supporting steel pipe; the opposite-pulling fastening mechanism comprises a plurality of groups of opposite-pulling components of template frames, and each opposite-pulling component of the template frames comprises an opposite-pulling steel wire and two template frame positioning supports; the template frame positioning support comprises a supporting arc-shaped plate and a supporting positioning block connected to the outer end of the middle part of the supporting arc-shaped plate, a plate through hole is formed in the middle part of the supporting arc-shaped plate, and a block through hole communicated with the plate through hole is formed in the supporting positioning block; a first threaded blind hole vertically penetrating through the block through hole is formed in the supporting and positioning block, and a first locking screw rod is connected in the first threaded blind hole. This support positioning system can build the template in room and carry out more reliable and stable location of drawing, and construction location back efficiency is higher, and feature of environmental protection and security are better, have avoided secondary grout shutoff, reduce the outer wall seepage.)

1. A building construction formwork supporting and positioning system and a construction positioning method are characterized in that the building construction formwork supporting and positioning system comprises a building wall formwork, a counter-pull fastening mechanism, a screw locking machine tool and a steel wire tensioning machine tool, wherein the building wall formwork comprises an inner formwork, an outer formwork and a formwork supporting steel pipe; the opposite-pulling fastening mechanism comprises a plurality of groups of opposite-pulling assemblies of template frames which are arranged at intervals, and each opposite-pulling assembly of the template frame comprises an opposite-pulling steel wire and two template frame positioning supports;

the template frame positioning support comprises a supporting arc-shaped plate and a supporting positioning block connected to the outer end of the middle part of the supporting arc-shaped plate, a plate through hole is formed in the middle part of the supporting arc-shaped plate, and a block through hole communicated with the plate through hole is formed in the outer end face of the supporting positioning block; the upper end face of the supporting and positioning block is provided with a first threaded blind hole which vertically penetrates through the block through hole, and a first locking screw rod is connected in the first threaded blind hole;

the construction positioning method comprises the following steps:

step A, binding wall column reinforcing steel bars and installing the wall column reinforcing steel bars to a specified position, installing an outer template, an inner template and a template support steel pipe, and installing a water stop plate on the inner side of the outer template;

b, cutting the split steel wires, determining the position of the template frame positioning support and performing primary positioning on the template frame positioning support;

step C, the end part of the counter-pulling steel wire penetrates through the template frame positioning support; screwing a first locking screw on one template frame positioning support by using a screw locking machine tool, and locking one end of the counter-pull steel wire by using the first locking screw; the other end of the counter-pulling steel wire penetrates through the other template frame positioning support and then is preliminarily positioned through the first locking screw rod;

d, using a steel wire tensioning machine tool, connecting one end of the opposite-pulling steel wire to the steel wire tensioning machine tool and tensioning the opposite-pulling steel wire through the steel wire tensioning machine tool, and then using a screw locking machine tool to rotate a first locking screw to further position until locking;

e, separating the steel wire tensioning tool from the counter-pulling steel wires, and pouring concrete mortar in the outer template and the inner template;

step F, after concrete mortar is poured and formed, loosening the first locking screw by using a screw locking machine, then removing the template frame positioning support which is used for a subsequent construction site, and reserving the opposite-pulling steel wire in the wall body;

and G, removing the building wall formwork, and shearing the exposed counter-pulling steel wires.

2. The building formwork supporting and positioning system and the construction positioning method according to claim 1, wherein the supporting arc plate comprises a middle transverse plate portion, the outer end of the middle transverse plate portion is fixedly connected with the supporting and positioning block, the left side and the right side of the middle transverse plate portion are respectively provided with a first arc plate portion and a second arc plate portion, the outer side of the first arc plate portion is connected with the left transverse plate portion, and the outer side of the second arc plate portion is connected with the right transverse plate portion.

3. The building formwork supporting and positioning system and the construction positioning method according to claim 2, wherein a plurality of arc-shaped plate embedded grooves are formed in the inner wall of the first arc-shaped plate portion and the inner wall of the second arc-shaped plate portion, and a magnet block is in interference fit with each arc-shaped plate embedded groove; the plate through hole is opened at the center of the middle horizontal plate portion.

4. The building formwork supporting and positioning system and the construction positioning method according to claim 1, wherein the supporting and positioning block is rectangular block-shaped, the block through hole is formed in the middle of the outer end face of the supporting and positioning block, and the plate through hole and the block through hole are circular holes and have the same radius.

5. The building formwork supporting and positioning system and the construction positioning method according to claim 4, wherein the first threaded blind hole is a circular threaded hole, and the first threaded blind hole is formed in the middle of the upper end face of the supporting and positioning block;

the depth value of the first threaded blind hole is three-quarters of the thickness value of the supporting and positioning block.

6. The building formwork supporting and positioning system and the construction positioning method according to claim 1, wherein the first locking screw comprises an upper screw head part and a lower screw head part;

the screw locking machine comprises a locking sleeve and a cross rotating frame connected to the upper end of the locking sleeve, a screw head positioning cushion block is arranged in the locking sleeve, and a screw head positioning groove matched with the upper screw head is formed in the lower end face of the screw head positioning cushion block.

7. The building formwork supporting and positioning system and the construction positioning method according to claim 1, wherein the steel wire tensioning tool comprises two first cams, the two first cams are connected through a first stay bar, a first U-shaped frame is connected to the first stay bar, a first rotating handle assembly is connected to the first U-shaped frame, and a steel wire connector is connected to the end portion of the first rotating handle assembly.

8. The building formwork supporting and positioning system and the construction positioning method according to claim 7, wherein the first rotating handle assembly comprises a handle frame and a handle rotating rod, the upper portion of the first U-shaped frame is connected with a first rotating bearing, one end of the handle rotating rod penetrates through the first rotating bearing and then is connected with the handle frame, and the other end of the handle rotating rod is connected with the steel wire connector.

9. The building formwork supporting and positioning system and the construction positioning method according to claim 8, wherein a first stay bar through hole for a counter-pull steel wire to pass through is formed in the middle of the first stay bar;

the steel wire connector comprises a circular ring connecting sleeve, and steel wire connecting slotted holes are formed in the circular ring connecting sleeve and the handle rotating rod.

10. The building formwork supporting and positioning system and the construction positioning method according to claim 9, wherein when a steel wire tensioning tool is used in the step D, a steel wire tensioning positioning method is adopted for fixing the tension steel wire, and the steel wire tensioning positioning method comprises the following steps:

step D01, passing the at least two pairs of preliminarily positioned oppositely-pulled steel wires through the first stay bar through holes;

d02, passing the end part of the opposite pull steel wire through the steel wire connecting slot hole, bending the end part of the opposite pull steel wire appropriately, and screwing the handle frame to screw the two pull steel wires together;

step D03, loosening the first locking screw to loosen the opposite-pulling steel wire, rotating the first rotating handle assembly outwards, taking the two first cams as rotating supporting points, and tensioning the opposite-pulling steel wire;

d04, after the counter-pull steel wire is tensioned, screwing a first locking screw rod by using a screw rod locking machine tool, and locking the counter-pull steel wire by using the first locking screw rod;

and D05, rotating the first rotating handle assembly inwards to rotate the handle frame, so that the handle rotating rod moves towards the direction close to the first support rod, and the end head part of the counter-pull steel wire is separated from the steel wire connecting ring.

Technical Field

The invention relates to the technical field of constructional engineering, in particular to a building formwork supporting and positioning system and a construction positioning method.

Background

For the house building, when the wall body is poured, the opposite-pulling screw rod or the water-stopping screw rod is needed to be used for pulling joints between the inner formwork and the outer formwork of the wall body, so that the lateral pressure and other loads of concrete are borne, the space between the inner formwork and the outer formwork can meet the design requirements, and the space is also used as a fulcrum of the formwork and the supporting structure thereof to prevent the formwork from expanding. For the split screw or the water stop screw, after the wall body is poured, if the screw is pulled out, then a conical groove is formed in the outer opening of the opening, then plugging materials are used for grout filling of the opening, the whole process is time-consuming and labor-consuming, and if the grout filling effect is not good, the outer wall body is prone to water seepage from the opening. If the screw rod is left in the wall body, the cost is too high and the screw rod is not easy to adopt.

Disclosure of Invention

The invention aims to provide a supporting and positioning system and a construction positioning method for a house building template.

In order to achieve the purpose, the invention adopts the technical scheme that:

a building template supporting and positioning system and a construction positioning method are disclosed, the building template supporting and positioning system comprises a building wall template, a counter-pull fastening mechanism, a screw locking machine tool and a steel wire tensioning machine tool, and the building wall template comprises an inner template, an outer template and a template supporting steel pipe; the opposite-pulling fastening mechanism comprises a plurality of groups of opposite-pulling assemblies of template frames which are arranged at intervals, and each opposite-pulling assembly of the template frame comprises an opposite-pulling steel wire and two template frame positioning supports;

the template frame positioning support comprises a supporting arc-shaped plate and a supporting positioning block connected to the outer end of the middle part of the supporting arc-shaped plate, a plate through hole is formed in the middle part of the supporting arc-shaped plate, and a block through hole communicated with the plate through hole is formed in the outer end face of the supporting positioning block; the upper end face of the supporting and positioning block is provided with a first threaded blind hole which vertically penetrates through the block through hole, and a first locking screw rod is connected in the first threaded blind hole;

the construction positioning method comprises the following steps:

step A, binding wall column reinforcing steel bars and installing the wall column reinforcing steel bars to a specified position, installing an outer template, an inner template and a template support steel pipe, and installing a water stop plate on the inner side of the outer template;

b, cutting the split steel wires, determining the position of the template frame positioning support and performing primary positioning on the template frame positioning support;

step C, the end part of the counter-pulling steel wire penetrates through the template frame positioning support; screwing a first locking screw on one template frame positioning support by using a screw locking machine tool, and locking one end of the counter-pull steel wire by using the first locking screw; the other end of the counter-pulling steel wire penetrates through the other template frame positioning support and then is preliminarily positioned through the first locking screw rod;

d, using a steel wire tensioning machine tool, connecting one end of the opposite-pulling steel wire to the steel wire tensioning machine tool and tensioning the opposite-pulling steel wire through the steel wire tensioning machine tool, and then using a screw locking machine tool to rotate a first locking screw to further position until locking;

e, separating the steel wire tensioning tool from the counter-pulling steel wires, and pouring concrete mortar in the outer template and the inner template;

step F, after concrete mortar is poured and formed, loosening the first locking screw by using a screw locking machine, then removing the template frame positioning support which is used for a subsequent construction site, and reserving the opposite-pulling steel wire in the wall body;

and G, removing the building wall formwork, and shearing the exposed counter-pulling steel wires.

Preferably, the support arc includes well horizontal plate, and the outer end of well horizontal plate links firmly the support positioning piece, and the left and right sides of well horizontal plate is first arc board and second arc board respectively, and the first arc board outside even has left horizontal plate, and the outside of second arc board even has right horizontal plate.

Preferably, a plurality of arc-shaped plate embedded grooves are formed in the inner wall of the first arc-shaped plate part and the inner wall of the second arc-shaped plate part, and a magnet block is in interference fit in each arc-shaped plate embedded groove; the plate through hole is opened at the center of the middle horizontal plate portion.

Preferably, the supporting and positioning block is rectangular block-shaped, the block through hole is formed in the middle of the outer end face of the supporting and positioning block, and the plate through hole and the block through hole are circular holes and have the same radius.

Preferably, the first threaded blind hole is a circular threaded hole, and the first threaded blind hole is formed in the middle of the upper end face of the support positioning block;

the depth value of the first threaded blind hole is three-quarters of the thickness value of the supporting and positioning block.

Preferably, the first locking screw comprises an upper screw head part and a lower screw head part;

the screw locking machine comprises a locking sleeve and a cross rotating frame connected to the upper end of the locking sleeve, a screw head positioning cushion block is arranged in the locking sleeve, and a screw head positioning groove matched with the upper screw head is formed in the lower end face of the screw head positioning cushion block.

Preferably, the steel wire tensioning machine tool comprises two first cams, the two first cams are connected through a first supporting rod, a first U-shaped frame is connected onto the first supporting rod, a first rotating handle assembly is connected onto the first U-shaped frame, and a steel wire connector is connected to the end portion of the first rotating handle assembly.

Preferably, first rotation handle subassembly includes handle frame and handle dwang, and the upper portion of first U-shaped frame is connected with first rolling bearing, and the one end of handle dwang is passed and is connected with handle frame behind the first rolling bearing, and the other end and the steel wire connector of handle dwang are connected.

Preferably, the middle part of the first support rod is provided with a first support rod through hole for the counter-pulling steel wire to pass through;

the steel wire connector comprises a circular ring connecting sleeve, and steel wire connecting slotted holes are formed in the circular ring connecting sleeve and the handle rotating rod.

Preferably, when a steel wire tensioning tool is used in the step D, a steel wire tensioning positioning method is adopted to fix the tensioned steel wire, and the steel wire tensioning positioning method comprises the following steps:

step D01, passing the at least two pairs of preliminarily positioned oppositely-pulled steel wires through the first stay bar through holes;

d02, passing the end part of the opposite pull steel wire through the steel wire connecting slot hole, bending the end part of the opposite pull steel wire appropriately, and screwing the handle frame to screw the two pull steel wires together;

step D03, loosening the first locking screw to loosen the opposite-pulling steel wire, rotating the first rotating handle assembly outwards, taking the two first cams as rotating supporting points, and tensioning the opposite-pulling steel wire;

d04, after the counter-pull steel wire is tensioned, screwing a first locking screw rod by using a screw rod locking machine tool, and locking the counter-pull steel wire by using the first locking screw rod;

and D05, rotating the first rotating handle assembly inwards to rotate the handle frame, so that the handle rotating rod moves towards the direction close to the first support rod, and the end head part of the counter-pull steel wire is separated from the steel wire connecting ring.

The invention has the beneficial effects that:

among the above-mentioned template support positioning system is built in room and construction positioning method, set up novel to drawing fastening device, be provided with multiunit template frame to drawing the subassembly, novel and the template frame of mechanism is to drawing the subassembly under the condition of guaranteeing template to tensile strength, can guarantee the time can not change to drawing the steel wire, to drawing the steel wire and fastening the location through the template frame location support of novel structure, to drawing the location make full use of steel wire friction when compressing tightly for it is reliable and stable when the steel wire location. Compared with the existing formwork positioning method adopting a split screw mode, the construction method is easier to operate, and due to the application of the split fastening mechanism with the novel structure, the use of the split screw can be effectively reduced, and the integral and mechanism cost during formwork installation is reduced. And template frame location support is detachable mechanism, and circulated use after the form removal, building in the room template support positioning system has improved holistic efficiency of construction, and the security of drawing of construction templates obtains guaranteeing moreover.

Drawings

In order to clearly illustrate the embodiments or technical solutions of the present invention in the prior art, the drawings used in the description of the embodiments or prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a flow chart of a construction positioning method of a building formwork supporting and positioning system.

Fig. 2 is a schematic structural position diagram of the counter-pulling fastening mechanism.

Fig. 3 is a schematic view of the overall structure of the formwork holder split component.

Fig. 4 is a schematic view of the overall structure of the screw locking machine.

Fig. 5 is a schematic view of the overall structure of the wire tensioning tool.

Detailed Description

The invention provides a building formwork supporting and positioning system and a construction positioning method, and the invention is further described in detail below in order to make the purpose, technical scheme and effect of the invention clearer and more clear and definite. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention is described in detail below with reference to the accompanying drawings:

with reference to fig. 1 to 5, a building formwork supporting and positioning system and a construction positioning method are provided, the building formwork supporting and positioning system comprises a building wall formwork 1, a counter-pull fastening mechanism 2, a screw locking machine 3 and a steel wire tensioning machine 4. The building wall formwork 1 comprises an outer formwork 11 and an inner formwork 12, and formwork support steel pipes 13 are arranged on the outer side of the inner formwork 12 and the outer side of the outer formwork 11. The split fastening mechanism comprises a plurality of groups of template frame split components 5, and each template frame split component 5 comprises a split steel wire 51 and two template frame positioning supports 6.

Template frame positioning support 6 is including supporting arc 61 and connecting the support positioning piece 62 in the outer end of support arc 61 middle part, has seted up board through-hole 63 in the middle part of supporting arc 61, has seted up the piece through-hole 631 with board through-hole 63 intercommunication on the outer terminal surface of support positioning piece 62. The upper end surface of the supporting and positioning block 62 is provided with a first threaded blind hole 64 vertically penetrating through the block through hole 631, and the first threaded blind hole 64 is internally connected with a first locking screw 65.

The construction positioning method comprises the following steps:

step A, binding wall column reinforcing steel bars and installing the wall column reinforcing steel bars to a specified position, installing an outer template 11, an inner template 12 and a template support steel pipe 13, and installing a water stop plate 14 on the inner side of the outer template 11;

b, cutting the split steel wire 51, determining the position of the template frame positioning support 6 and performing primary positioning on the template frame positioning support 6;

step C, two ends of the counter-pulling steel wire 51 penetrate through the two template frame positioning supports 6 respectively, a screw locking machine tool 3 is used for screwing a first locking screw on one template frame positioning support 6, and one end of the counter-pulling steel wire is locked by the first locking screw; the other end of the opposite pull steel wire 51 passes through the other template frame positioning support and then is preliminarily positioned through a first locking screw on the other template frame positioning support;

step D, using a steel wire tensioning tool 4, connecting one end of the counter-pulling steel wire 51 to the steel wire tensioning tool 4 and tensioning the counter-pulling steel wire through the steel wire tensioning tool 4, and then using a screw locking tool 3 to rotate a first locking screw 65 for further positioning until locking;

e, separating a steel wire tensioning tool from the counter-pulling steel wire 51, and pouring concrete mortar in the outer formwork 11 and the inner formwork 12;

step F, after the concrete mortar is poured and formed, loosening the first locking screw 65 by using the screw locking machine 3, then removing the template frame positioning support 6, wherein the template frame positioning support 6 is used for a subsequent construction site, and the opposite-pulling steel wire is left in the wall body;

and G, removing the building wall formwork, and shearing the exposed oppositely-pulled steel wires by using a shearing tool.

The supporting arc-shaped plate 61 comprises a middle transverse plate portion 611, the outer end of the middle transverse plate portion 611 is fixedly connected with the supporting positioning block 62, the left side and the right side of the middle transverse plate portion 611 are respectively provided with a first arc-shaped plate portion 612 and a second arc-shaped plate portion 613, the outer side of the first arc-shaped plate portion 612 is connected with a left transverse plate portion 614, and the outer side of the second arc-shaped plate portion 613 is connected with a right transverse plate portion 615.

A plurality of arc-shaped plate embedded grooves are formed in the inner wall of the first arc-shaped plate portion 612 and the inner wall of the second arc-shaped plate portion 613 respectively, and a magnet block 616 is in interference fit in each arc-shaped plate embedded groove; the plate through hole 63 opens at the center of the middle cross plate portion 611. The support positioning block 62 is rectangular block-shaped, the block through hole 631 is opened in the middle of the outer end face of the support positioning block 62, and the plate through hole 63 and the block through hole 631 are both circular holes and have the same radius.

The first threaded blind hole 64 is a circular threaded hole, and the first threaded blind hole 64 is formed in the middle of the upper end surface of the support positioning block 62. The depth value of the first threaded blind hole 64 is three-quarters of the thickness value of the support positioning block 62. The first locking screw 65 includes an upper screw portion and a lower screw portion; the first locking screw 65 is adapted to a screw locking machine.

The screw locking machine 3 comprises a locking sleeve 31 and a cross rotating frame 32 connected to the upper end of the locking sleeve 31, a screw head positioning cushion block 33 is arranged in the locking sleeve 31, and a screw head positioning groove 34 matched with the upper screw head is formed in the lower end face of the screw head positioning cushion block 33. The upper screw head part is in a hexagonal block shape, and the screw head positioning groove 34 is in a hexagonal groove shape.

The steel wire tensioning tool 4 comprises two first cams 41, the two first cams 41 are connected through a first supporting rod 42, a first U-shaped frame 43 is connected onto the first supporting rod 42, a first rotating handle assembly 44 is connected onto the first U-shaped frame 43, and a steel wire connector 45 is connected to the end portion of the first rotating handle assembly 44.

The first rotating handle assembly 44 includes a handle frame 441 and a handle rotating rod 442, a first rotating bearing 431 is connected to an upper portion of the first U-shaped frame 43, one end of the handle rotating rod 442 passes through the first rotating bearing 431 and then is connected to the handle frame 441, and the other end of the handle rotating rod 442 is connected to the wire connecting head 45.

A first stay bar through hole 421 for the counter-pulling steel wire 51 to pass through is formed in the middle of the first stay bar 42; the steel wire connector 45 comprises a circular ring connecting sleeve 451, and steel wire connecting slot holes 452 are formed in the circular ring connecting sleeve 451 and the handle rotating rod 442; the ring connecting sleeve is sleeved at the end part of the handle rotating rod, the steel wire is connected in the steel wire connecting groove hole, the first rotating handle assembly is rotated, and the two split counter-pulling steel wires are screwed together.

Example 2

When the steel wire tensioning tool 4 is used in the step D, a steel wire tensioning positioning method is adopted for fixing the counter-pulling steel wire, and the steel wire tensioning positioning method comprises the following steps:

and D01, rotating the handle frame 441 to move the handle rotating rod 442 towards the direction close to the first stay 42, and passing the at least two pairs of preliminarily positioned steel wires through the first stay through holes 421.

Step D02, winding the end of the counter pull wire 51 around the wire connecting ring 451, and screwing the handle holder 441 to move the handle rotating rod 442 away from the first stay 42; after the handle frame 441 is screwed, the end portions of the split wires 51 are attached to the wire connecting ring 451 while two or more split wires are screwed together.

Step D03, loosening the first locking screw 65 loosens the pull-up wire 51, the first rotating handle assembly 44 rotates outward, the two first cams 41 are the supporting points for rotation, and the pull-up wire 51 is tightened.

In step D04, after the counter pull wire 51 is tightened, the first locking screw 65 is screwed by using the screw locking device 3, and the counter pull wire 51 is locked by the first locking screw 65.

In step D05, the first turning handle assembly 44 is turned inward, and the handle holder 441 is turned, so that the handle turning rod 442 is moved toward the first stay 42, and the end portion of the counter pull wire 51 is separated from the wire connecting ring.

Example 3

Among the above-mentioned template support positioning system is built in room and construction positioning method, set up novel to drawing fastening device, be provided with multiunit template frame to drawing the subassembly, novel and the template frame of mechanism is to drawing the subassembly under the condition of guaranteeing template to tensile strength, can guarantee the time can not change to drawing the steel wire, to drawing the steel wire and fastening the location through the template frame location support of novel structure, to drawing the location make full use of steel wire friction when compressing tightly for it is reliable and stable when the steel wire location.

The template frame positioning support comprises a supporting arc plate and a supporting positioning block which are of a novel structure, the supporting arc plate is preliminarily positioned through the magnet block during the early fixing, so that the supporting arc plate is more conveniently pre-contacted with the template supporting steel pipe in the early stage, the template frame positioning support is prevented from being always held by workers during the steel wire threading, and the integral installation convenience is improved. Through the use of novel steel wire tensioning machines and screw locking machines, the convenience and the stability of the installation of the integral opposite-pulling circulating fastening mechanism are improved.

Compared with the existing formwork positioning method in a split screw mode, the construction method is firstly easier to operate, and through the application of the split fastening mechanism with the novel structure, the use of the split screw can be effectively reduced, and the integral and mechanism cost during formwork installation is reduced. And template frame location support is detachable mechanism, and circulated use after the form removal, building in the room template support positioning system has improved holistic efficiency of construction, and the security of drawing of construction templates obtains guaranteeing moreover.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Parts which are not described in the invention can be realized by adopting or referring to the prior art.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art may make modifications, alterations, additions or substitutions within the spirit and scope of the present invention.