CN112878680B - Assembly type building template fastening structure and method thereof - Google Patents

Abstract

The invention provides an assembly type building template fastening structure and a method thereof, wherein the assembly type building template fastening structure comprises two guide seats, two transmission screw rods, a gear driving assembly and a reciprocating movement assembly which are oppositely arranged, wherein the reciprocating movement assembly is provided with a movable clamping component, and an elastic clamping assembly opposite to the movable clamping component is also arranged between the two transmission screw rods; the method comprises the following steps: s1, placing the fastening device; s2, adjusting the distance between the movable clamping component and the elastic clamping component; s3, rotating the limiting clamping plates of the movable clamping component by 90 degrees until the assembled templates on the two sides of the wall surface are clamped and fixed; and S4, finely adjusting the distance between the base plate elements and the building templates. The invention has the beneficial effects that: the invention can continuously adjust the corresponding size change according to the requirement along with the change of the thickness of the wall body, thereby realizing the clamping of the building templates at the two sides of the wall body.

Description

Assembly type building template fastening structure and method thereof

Technical Field

The invention relates to the technical field of fixing of an assembly type building template, in particular to a fastening structure and a fastening method of the assembly type building template.

Background

In the assembly type building template work progress, can often use the fastening pull rod fixed with both sides template, general traditional mode adopts the screw rod, and the screw rod passes between the template of both sides, utilizes the nut of both sides to fasten, and the straightness that hangs down of wall body just can be guaranteed to the fastening length of every screw rod needs unanimity, and during the assembly, the quantity of screw rod is huge, and every all needs manual adjustment, and length will guarantee unanimously, and visible engineering volume is huge. After the building template is assembled, the pull screw is hard to pull out, and the building template cannot be used in a circulating way. The existing method is to install a sleeve outside the screw, the sleeve is located in the wall, and the assembled sleeve is left in the wall and the screw is pulled out. The method adds a casing process, the casing needs to be prepared according to the width of the wall, the operation is complicated, the casing is left in the wall, the cost is increased, the end head treatment at the later stage is troublesome, and the labor is wasted.

And along with the change of wall body thickness, the fastener also need carry out corresponding dimensional change, and the elasticity degree that changes the screw rod among the prior art can change the size, but the adjustment is wasted time and energy, needs to measure the adjustment to every screw rod, and the process is wasted time and energy, and the adjustment volume of both sides also is difficult to keep unanimous, causes the straightness that hangs down of wall to be difficult to guarantee.

How to solve the above technical problems is the subject of the present invention.

Disclosure of Invention

The invention aims to provide an assembly type building template fastening structure and a method thereof, which are convenient and quick to install and reinforce, can adjust the reinforcing size, can continuously adjust the size of a fastening piece according to the corresponding size change along with the change of the thickness of a wall body, are more accurate in size, realize the clamping of building templates on two sides of the wall body, and have high reuse rate, good stability and high quality assurance rate.

The invention is realized by the following measures: the utility model provides an assembled building templates fastening structure, includes two guide holder 1 that set up relatively, sets up respectively two drive screw 2 on the guide holder 1, two drive screw 2 one end is equipped with its pivoted gear drive subassembly 3 of drive, two be equipped with along two between drive screw 2 is reciprocating motion's reciprocating motion subassembly 4 be equipped with on the reciprocating motion subassembly 4 and remove clamping part 5, two still be equipped with between drive screw 2 with remove clamping part 5 relative elasticity centre gripping subassembly 6.

As a further optimized solution of the assembled building formwork fastening structure provided by the present invention, the movable clamping component 5 includes a bearing plate 50, two lateral limiting plates 51 respectively disposed at two sides of the bearing plate 50, each of the lateral limiting plates 51 is provided with a lateral clamping plate 52, an elastic return mechanism 53 is disposed at the inner side of the bearing plate 50, and a limiting structure 7 for assisting in fastening the building formwork is further disposed between the elastic return mechanism 53 and one of the lateral clamping plates 52.

As a further optimized solution of the assembled building formwork fastening structure provided by the present invention, the elastic return mechanism 53 includes a connection seat 530 fixedly disposed on the bearing plate 50, an elastic element 531 disposed on the connection seat 530, and a power rotating arm 532 movably connected to a power driving end of the elastic element 531, wherein a power end of the power rotating arm 532 is connected to the guiding component 70 of the limiting structure 7 through an interface 533.

As a further optimized solution of the assembled building formwork fastening structure provided by the present invention, the elastic element 531 includes two cross joints 5310, one end of one of the cross joints 5310 is movably connected to one of the connecting rods of the connecting seat 530, the other cross joint 5310 is rotatably connected to the rotating seat 5320 of the power rotating arm 532, and the elastic element 531 further includes a tension spring 5311 disposed along an axial direction of a guide post at an end of the two cross joints 5310.

As a further optimized scheme of the assembled building formwork fastening structure provided by the invention, the power rotating arm 532 is in a V shape, and rotates around another connecting rod on the connecting seat 530 as a rotating shaft within a range of 90 degrees through the rotating seat 5320, and a driving motor is coaxially arranged with the other connecting rod, is arranged on the connecting seat 530, and is used for driving the power rotating arm 532 to rotate and simultaneously drive the rotating guide rail 73 to rotate around the fixed shaft 72, at this time, the guide assembly 70 also makes a synchronous motion, and the limit clamp plate 74 turns from a vertical position to a horizontal position and makes a motion within a range of 90 degrees.

As a further optimized scheme of the assembled building template fastening structure provided by the invention, the elastic clamping assembly 6 comprises a fixed plate 60 bridged between the two guide bases 1, a limiting guide hole 600 is formed at the center of gravity of the fixed plate 60, a fixed support frame 61, an elastic reciprocating member 62 and a backing plate element 63 are sequentially arranged on one side of the fixed plate 60 along the axial direction of the limiting guide hole 600, a guide shaft 64 sequentially penetrating through the fixed support frame 61, the elastic reciprocating member 62 and the backing plate element 63 is sleeved in the limiting guide hole 600, a moving sleeve 65 is further sleeved on the guide shaft 64 in a sliding manner, one end of the moving sleeve 65 is connected with the elastic reciprocating member 62, and the other end of the moving sleeve is connected with the pressing element 8;

the elastic reciprocating member 62 is composed of a transverse support plate 620 sleeved on the guide shaft 64, two baffles 621 respectively connected to two ends of the transverse support plate 620, an arc-shaped support 622 with one end connected to the two baffles 621 respectively, and two pressure springs 623 connecting the transverse support plate 620 and the fixed support frame 61; the other ends of the two arc-shaped supporting pieces 622 are connected with guide sleeves 623, and the guide sleeves 623 are in sliding fit with the guide shafts 64;

The arc-shaped supporting piece 622 is made of a rigid material;

the pad member 63 is composed of a middle connection plate 630 and two pads 631 connected to two free ends of the middle connection plate 630, and the center of the middle connection plate 630 is connected to the guide shaft 64;

the pressing element 8 is composed of a pulling part connected to the moving sleeve 65 and a power pressing part connected to the driving end of the pulling part, and the power pressing part is rotatably connected to the supporting plate on one side of the fixing plate 60.

As a further optimized solution of the assembled building formwork fastening structure provided by the present invention, the limiting structure 7 includes an opening 71 disposed in the middle of one edge of one of the lateral limiting plates 51, a fixed shaft 72 disposed in the opening, a rotating rail 73 sleeved on the fixed shaft 72, the guiding assembly 70 slidably engaged with the rotating rail 73, and a limiting clamp 74 disposed on the guiding assembly 70.

As a further optimized scheme of the assembled building template fastening structure provided by the invention, the gear driving component 3 comprises two driven bevel gears 30 respectively arranged on the two transmission screws 2, two driving bevel gears 31 respectively engaged with the two driven bevel gears 30, a driving rotating shaft 32 for driving the two driving bevel gears 31, and a power motor coaxially arranged with the driving rotating shaft;

The spiral line directions of the two transmission screw rods 2 are opposite, and the reciprocating component 4 is in threaded connection with the two transmission screw rods 2.

In order to better achieve the above object, the present invention also provides a fastening method of a fastening structure of an assembly type building template, comprising the steps of:

s1, placing the assembled building templates on two sides of the wall surface to be clamped between the movable clamping component 5 and the elastic clamping component 6;

s2, attaching the assembly type building template on one side of the wall surface to the backing plate element 63 of the elastic clamping component 6, starting the power motor, rotating the two driving bevel gears 31 to drive the two driven bevel gears 30 to rotate, and rotating the two transmission screw rods 2 to drive the reciprocating component 4 on the two transmission screw rods 2 to move along the two transmission screw rods 2;

s3, starting a driving motor, enabling a power rotating arm 532 to rotate within 90 degrees around another connecting rod on the connecting seat 530 through the rotating seat 5320, and meanwhile enabling the limiting clamping plate 74 to synchronously rotate around the fixed shaft 72 until the assembled templates on the two sides of the wall surface are clamped and fixed;

s4, manually pressing the power pressing part, driving the traction part to drive the moving sleeve 65 to reciprocate along the guide shaft 64 by the power pressing part, driving the elastic reciprocating moving part 62 to reciprocate along the guide shaft 64 by the traction arc-shaped supporting part 622 when the moving sleeve 65 moves, and adjusting the distance between the cushion plate element 63 and the building template to carry out micro adjustment under the action of the elastic force of the pressure spring 623;

S5, before the fine adjustment in step S4, the fine adjustment in step S4 may be performed after the continuous adjustment is performed by adjusting the distance between the movable clamping member 5 and the elastic clamping assembly 6.

Compared with the prior art, the invention has the following beneficial effects: the assembled building template fastening structure provided by the invention is clamped according to the template requirements on two sides of walls with different thicknesses, and is greatly adjusted and positioned by adjusting the position of the movable clamping part 5 on the transmission screw rod 2, so that the template running can be effectively prevented, and the extremely high reinforcing performance can be provided; in addition, can also press the power through the manual work and press the part, power is when pressing the part drive tractive spare and drives removal cover 65 along guiding axle 64 reciprocating motion, when removing cover 65 and remove, drive elasticity reciprocating motion spare 62 along guiding axle 64 reciprocating motion through tractive arc support piece 622, distance between the relative building templates of adjustment backing plate spare 63 carries out the micro-adjustment under the effect of the elastic force of pressure spring 623, convenient and fast is consolidated in the installation, can adjust and consolidate the size, along with the change of wall thickness, the fastener also can carry out corresponding dimensional change as required and carry out continuous adjustment, the size is more accurate, realize the clamp of wall both sides building templates, the rate of reuse is high, stability is good, the quality assurance rate is high.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of an embodiment of the present invention.

Fig. 6 is a schematic structural view of a fixing support frame in an embodiment of the invention.

FIG. 7 is a schematic structural diagram of an elastic reciprocating element according to an embodiment of the present invention.

Fig. 8 is a schematic structural view of a backing plate member in an embodiment of the present invention.

Wherein the reference numerals are:

1. a guide seat;

2. a drive screw;

3. a gear drive assembly; 30. a driven bevel gear; 31. a drive bevel gear; 32. a driving rotating shaft;

4. a reciprocating assembly;

5. moving the clamping member; 50. a carrier plate; 51. a lateral limiting plate; 52. a lateral splint; 53. an elastic return mechanism; 530. a connecting seat; 531. an elastic element; 532. a powered rotating arm; 5320. a rotating base; 533. an interface member; 5310. an intersection; 5311. a tension spring;

6. An elastic clamping assembly; 60. a fixing plate; 600. a limiting guide hole; 61. fixing a support frame; 62. a resilient reciprocating member; 620. a transverse support plate; 621. a baffle plate; 622. an arc-shaped support member; 623. a pressure spring; 63. a backing plate element; 630. a middle connecting plate; 631. a base plate; 64. a guide shaft; 65. moving the sleeve;

7. a limiting structure; 70. a guide assembly; 71. an opening; 72. a fixed shaft; 73. rotating the guide rail; 74. a limiting clamp plate;

8. and a pressing element.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. Of course, the specific embodiments described herein are merely illustrative of the invention and are not intended to be limiting.

Example 1

Referring to fig. 1 to 8, the technical scheme of the invention is that the assembly type building template fastening structure comprises two guide bases 1 which are oppositely arranged, two transmission screws 2 which are respectively arranged on the two guide bases 1, a gear driving component 3 which drives the two transmission screws 2 to rotate is arranged at one end of each transmission screw 2, a reciprocating component 4 which reciprocates along the two transmission screws 2 is arranged between the two transmission screws 2, a moving clamping component 5 is arranged on the reciprocating component 4, and an elastic clamping component 6 which is opposite to the moving clamping component 5 is also arranged between the two transmission screws 2.

Specifically, the movable clamping component 5 comprises a bearing plate 50, two lateral limiting plates 51 respectively arranged at two sides of the bearing plate 50, a lateral clamping plate 52 arranged on each lateral limiting plate 51, an elastic return mechanism 53 arranged at the inner side of the bearing plate 50, and a limiting structure 7 arranged between the elastic return mechanism 53 and one of the lateral clamping plates 52 for assisting in fastening the building template.

Specifically, the elastic return mechanism 53 includes a connecting seat 530 fixedly disposed on the loading plate 50, an elastic element 531 disposed on the connecting seat 530, and a power rotating arm 532 movably connected to the power driving end of the elastic element 531, wherein the power end of the power rotating arm 532 is connected to the guiding component 70 of the limiting structure 7 through an interface 533.

Specifically, the elastic element 531 includes two cross joints 5310, one end of one of the cross joints 5310 is movably connected to one of the connecting rods of the connecting base 530, the other cross joint 5310 is rotatably connected to the rotating base 5320 of the power rotating arm 532, and the elastic element 531 further includes a tension spring 5311 disposed along an axial direction of a guiding column at an end of the two cross joints 5310.

Specifically, the power rotating arm 532 is in a V shape, and rotates around another connecting rod on the connecting seat 530 as a rotating shaft within 90 degrees through the rotating seat 5320, and a driving motor is coaxially disposed with the other connecting rod, and is disposed on the connecting seat 530, and is used for driving the power rotating arm 532 to rotate, and at the same time, the driving rail 73 is driven to rotate around the fixed shaft 72, and at this time, the guiding assembly 70 also makes a synchronous motion, and the limiting clamp plate 74 is turned from a vertical position to a horizontal position, and makes a motion within 90 degrees.

Specifically, the elastic clamping assembly 6 comprises a fixed plate 60 bridged between two guide bases 1, a limiting guide hole 600 is formed in the gravity center of the fixed plate 60, a fixed support frame 61, an elastic reciprocating member 62 and a backing plate element 63 are sequentially arranged on one side of the fixed plate 60 along the axis direction of the limiting guide hole 600, a guide shaft 64 sequentially penetrating through the fixed support frame 61, the elastic reciprocating member 62 and the backing plate element 63 is sleeved in the limiting guide hole 600, a moving sleeve 65 is further sleeved on the guide shaft 64 in a sliding manner, one end of the moving sleeve 65 is connected with the elastic reciprocating member 62, and the other end of the moving sleeve 65 is connected with a pressing element 8;

the elastic reciprocating element 62 is composed of a transverse support plate 620 sleeved on the guide shaft 64, two baffles 621 respectively connected to two ends of the transverse support plate 620, an arc-shaped support 622 with one end connected to the two baffles 621 respectively, and two pressure springs 623 connecting the transverse support plate 620 and the fixed support frame 61; the other ends of the two arc-shaped supporting pieces 622 are connected with guide sleeves, and the guide sleeves are in sliding fit with the guide shafts 64;

the arc-shaped supporting piece 622 is made of a rigid material;

the backing plate element 63 is composed of a middle connecting plate 630 and two backing plates 631 connected to two free ends of the middle connecting plate 630, and the center of the middle connecting plate 630 is connected with a guide shaft 64;

The pressing element 8 is composed of a pulling member connected to the moving sleeve 65 and a power pressing part connected to the driving end of the pulling member, and the power pressing part is rotatably connected to the supporting plate on one side of the fixing plate 60.

Specifically, the limiting structure 7 includes an opening 71 disposed in the middle of one edge of one of the lateral limiting plates 51, a fixing shaft 72 disposed in the opening, a rotating rail 73 sleeved on the fixing shaft 72, a guiding assembly 70 slidably engaged with the rotating rail 73, and a limiting clamp plate 74 disposed on the guiding assembly 70.

Specifically, the gear driving assembly 3 comprises two driven bevel gears 30 respectively arranged on the two transmission screws 2, two driving bevel gears 31 respectively engaged with the two driven bevel gears 30, a driving rotating shaft 32 for driving the two driving bevel gears 31, and a power motor coaxially arranged with the driving rotating shaft;

the spiral line directions of the two transmission screw rods 2 are opposite, and the reciprocating component 4 is in threaded connection with the two transmission screw rods 2.

In order to better achieve the above object, the present invention also provides a fastening method of a fastening structure of an assembly type building template, comprising the steps of:

s1, placing the assembled building templates on two sides of the wall surface to be clamped between the movable clamping component 5 and the elastic clamping component 6;

S2, attaching the assembled building template on one side of the wall surface to the backing plate element 63 of the elastic clamping assembly 6, starting the power motor, rotating the two driving bevel gears 31 to drive the two driven bevel gears 30 to rotate, and rotating the two transmission screw rods 2 to drive the reciprocating assembly 4 on the two driving bevel gears to move along the two transmission screw rods 2;

s3, starting a driving motor, enabling the power rotating arm 532 to rotate within 90 degrees around another connecting rod on the connecting seat 530 through the rotating seat 5320, and meanwhile enabling the limiting clamping plate 74 to synchronously rotate around the fixed shaft 72 until the assembled templates on the two sides of the wall surface are clamped and fixed;

s4, manually pressing the power pressing part, driving the traction part to drive the moving sleeve 65 to reciprocate along the guide shaft 64 by the power pressing part, driving the elastic reciprocating moving part 62 to reciprocate along the guide shaft 64 by the traction arc-shaped supporting part 622 when the moving sleeve 65 moves, and adjusting the distance between the cushion plate element 63 and the building template to carry out micro adjustment under the action of the elastic force of the pressure spring 623;

s5, before the fine adjustment in step S4, the distance between the movable clamping member 5 and the elastic clamping unit 6 may be adjusted continuously, and then the fine adjustment in step S4 may be performed.

The working principle of the invention is as follows: placing the assembled building templates on two sides of a wall surface to be clamped between the movable clamping component 5 and the elastic clamping component 6, attaching the assembled building templates on one side of the wall surface to a backing plate element 63 of the elastic clamping component 6, starting a power motor, rotating the two driving bevel gears 31 to drive the two driven bevel gears 30 to rotate, and rotating the two transmission screw rods 2 to drive the reciprocating component 4 on the two driving bevel gears to move along the two transmission screw rods 2; starting a driving motor, enabling a power rotating arm 532 to rotate within a range of 90 degrees around another connecting rod on the connecting seat 530 through a rotating seat 5320, and simultaneously enabling a limiting clamping plate 74 to synchronously rotate around a fixed shaft 72 until the assembled templates on two sides of the wall surface are clamped and fixed; manually pressing the power pressing part, driving the traction part to drive the moving sleeve 65 to reciprocate along the guide shaft 64 by the power pressing part, driving the elastic reciprocating moving part 62 to reciprocate along the guide shaft 64 by the traction arc-shaped supporting part 622 when the moving sleeve 65 moves, and finely adjusting the distance between the adjusting pad element 63 and the building template under the action of the elastic force of the 623 pressure spring; the positions of the movable clamping parts 5 on the transmission screw rods 2 can be adjusted and positioned greatly according to the templates on two sides of the wall body with different thicknesses, so that the template running can be prevented effectively, and high reinforcing performance can be provided; in addition, can also press the power through manual, when the power is pressed the part drive tractive spare and is driven and remove cover 65 along guiding axle 64 reciprocating motion, when removing cover 65 and removing, drive elasticity reciprocating motion spare 62 along guiding axle 64 reciprocating motion through tractive arc support piece 622, adjust the distance between the relative building templates of backing plate component 63 and carry out the fine adjustment under the effect of the elastic force of pressure spring 623, the installation is consolidated convenient and fast, can adjust and consolidate the size, along with the change of wall body thickness, the fastener also can carry out corresponding dimensional change as required and carry out continuous adjustment, the size is more accurate, realize the clamp tight to the building templates of wall body both sides, the reuse rate is high, stability is good, the quality assurance rate is high.

Example 2

On the basis of the embodiment 1, the elastic clamping assembly 6 can also be other elastic clamping assemblies moving along the axial direction of the transmission screw rod 2, so that the micro adjustment of the reinforcement and the positioning of the two side templates of the wall body can be realized.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (2)

1. An assembly type building template fastening structure comprises two guide seats (1) which are oppositely arranged, two transmission screw rods (2) which are respectively arranged on the two guide seats (1), a gear driving component (3) for driving the two transmission screw rods (2) to rotate is arranged at one end of each of the two transmission screw rods (2), a reciprocating component (4) which reciprocates along the two transmission screw rods (2) is arranged between the two transmission screw rods (2), and the assembly type building template fastening structure is characterized in that a movable clamping component (5) is arranged on the reciprocating component (4), and an elastic clamping component (6) which is opposite to the movable clamping component (5) is also arranged between the two transmission screw rods (2);

the movable clamping component (5) comprises a bearing plate (50), two lateral limiting plates (51) respectively arranged on two sides of the bearing plate (50), each lateral limiting plate (51) is provided with a lateral clamping plate (52), the inner side of the bearing plate (50) is provided with an elastic return mechanism (53), and a limiting structure (7) for assisting the fastening of the building template is further arranged between the elastic return mechanism (53) and one of the lateral clamping plates (52);

The elastic return mechanism (53) comprises a connecting seat (530) fixedly arranged on the bearing plate (50), an elastic element (531) arranged on the connecting seat (530), and a power rotating arm (532) movably connected to a power driving end of the elastic element (531), wherein the power end of the power rotating arm (532) is connected with a guide assembly (70) of the limiting structure (7) through a connecting piece (533);

the elastic element (531) comprises two cross joints (5310), one end of one of the cross joints (5310) is movably connected to one connecting rod of the connecting seat (530), the other cross joint (5310) is rotatably connected to a rotating seat (5320) of the power rotating arm (532), and the elastic element (531) further comprises a tension spring (5311) arranged along the axial direction of a guide post at the tail end of the two cross joints (5310);

the power rotating arm (532) is in a V shape, rotates around the other connecting rod on the connecting seat (530) as a rotating shaft within a range of 90 degrees through the rotating seat (5320), is coaxially provided with a driving motor, and is arranged on the connecting seat (530);

The elastic clamping assembly (6) comprises a fixing plate (60) bridged between two guide seats (1), a limiting guide hole (600) is formed in the gravity center of the fixing plate (60), a fixing support frame (61), an elastic reciprocating member (62) and a base plate element (63) are sequentially arranged on one side of the fixing plate (60) along the axis direction of the limiting guide hole (600), a guide shaft (64) which sequentially penetrates through the fixing support frame (61), the elastic reciprocating member (62) and the base plate element (63) is sleeved in the limiting guide hole (600), a moving sleeve (65) is further sleeved on the guide shaft (64) in a sliding manner, one end of the moving sleeve (65) is connected with the elastic reciprocating member (62), and the other end of the moving sleeve is connected with a pressing element (8);

the elastic reciprocating element (62) consists of a transverse support plate (620) sleeved on the guide shaft (64), two baffles (621) respectively connected to two ends of the transverse support plate (620), an arc-shaped support element (622) with one end respectively connected to the two baffles (621), and two pressure springs (623) connecting the transverse support plate (620) and the fixed support frame (61); the other ends of the two arc-shaped supporting pieces (622) are connected with guide sleeves to form the guide device, and the guide sleeves (624) are in sliding fit with the guide shafts (64);

The arc-shaped support (622) is made of a rigid material;

the pad element (63) is composed of a middle connecting plate (630) and two pads (631) connected to the two free ends of the middle connecting plate (630), and the center of the middle connecting plate (630) is connected with the guide shaft (64);

the pressing element (8) is composed of a traction part connected to the movable sleeve (65) and a power pressing part connected to the driving end of the traction part, and the power pressing part is rotatably connected to a supporting plate on one side of the fixed plate (60);

the limiting structure (7) comprises an opening (71) arranged in the middle of one edge of one of the lateral limiting plates (51), a fixed shaft (72) arranged in the opening, a rotating guide rail (73) sleeved on the fixed shaft (72), the guide assembly (70) in sliding fit with the rotating guide rail (73), and a limiting clamping plate (74) arranged on the guide assembly (70);

the gear driving component (3) comprises two driven bevel gears (30) respectively arranged on the two transmission screw rods (2), two driving bevel gears (31) respectively meshed with the two driven bevel gears (30), a driving rotating shaft (32) for driving the two driving bevel gears (31), and a power motor coaxially arranged with the driving rotating shaft;

The spiral line directions of the two transmission screw rods (2) are opposite, and the reciprocating component (4) is in threaded connection with the two transmission screw rods (2).

2. A fastening method of the assembled construction formwork fastening structure based on claim 1, comprising the steps of:

the fastening method of the assembled building template fastening structure comprises the following steps of:

s1, placing the assembled building templates at two sides of the wall to be clamped between the movable clamping component (5) and the elastic clamping component (6);

s2, attaching the assembled building template on one side of the wall body to a backing plate element (63) of the elastic clamping assembly (6), starting a power motor, rotating the two driving bevel gears (31) to drive the two driven bevel gears (30) to rotate, and rotating the two transmission screw rods (2) to drive the reciprocating assembly (4) on the two transmission screw rods to move along the two transmission screw rods (2);

s3, starting a driving motor, enabling a power rotating arm (532) to rotate within a range of 90 degrees around another connecting rod on the connecting seat (530) through the rotating seat (5320) as a rotating shaft, and enabling a limiting clamping plate (74) to synchronously rotate around a fixing shaft (72) until the assembled formworks on the two sides of the wall body are clamped and fixed;

S4, manually pressing the power pressing part, driving the traction part to drive the moving sleeve (65) to reciprocate along the guide shaft (64) by the power pressing part, driving the elastic reciprocating moving part (62) to reciprocate along the guide shaft (64) by the traction arc-shaped supporting part (622) when the moving sleeve (65) moves, and adjusting the distance between the cushion plate element (63) and the building template under the action of the elastic force of the pressure spring (623) to perform micro-adjustment;

s5, before the fine adjustment in step S4, the fine adjustment in step S4 may be performed after the continuous adjustment is performed by adjusting the distance between the movable clamping member (5) and the elastic clamping assembly (6).

Images