CN214785933U - Detachable template for shear walls on two sides of expansion joint in house construction project - Google Patents

Abstract

The application relates to a detachable template of shear walls on two sides of an expansion joint in a building construction project, relating to the technical field of building components; the auxiliary sliding block is fixed relative to the inner side template, the auxiliary sliding block is in sliding fit with the auxiliary sliding rail, and the auxiliary sliding block is detachably connected with the auxiliary sliding rail; and a driving component is arranged on the auxiliary sliding rail on one side and is used for driving the auxiliary sliding block to slide along the auxiliary sliding rail. This application has reached the effect of being convenient for do effective protection to the inside bolster in inside bolster installation.

Description

Detachable template for shear walls on two sides of expansion joint in house construction project

Technical Field

The utility model belongs to the technical field of building element and specifically relates to a removable template of expansion joint both sides shear force wall in building engineering is related to.

Background

At present, expansion joints (including settlement joints, earthquake-resistant joints and expansion joints) are more and more involved in house construction engineering design, and a template at the expansion joint is of great importance for pouring of a shear wall of the expansion joint; the shear wall for the expansion joint generally comprises an outer shear wall body and an inner shear wall body, and the distance between the outer shear wall body and the inner shear wall body is the expansion joint.

If the outer side shear wall body and the inner side lower shear wall body are cast wall bodies firstly, then the inner side upper shear wall body needs to be cast at the moment; when the shear wall on the inner side is poured, the pouring is finished by means of a template, and the template generally comprises an inner template and an outer template; when the existing templates are arranged on the inner side shear wall body, the inner side templates are generally placed in the expansion joints by means of a tower crane and the like, and the inner side templates and the inner side lower wall body are relatively fixed; then, arranging an outer side template, and stably connecting the outer side template with the inner side template; and finally, pouring concrete between the inner side formwork and the outer side formwork to form the inner side upper shear wall.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: because the distance between the inner side shear wall body and the outer side lower shear wall body is smaller, the inner side formwork is easy to collide with the wall bodies on the two sides, and the inner side formwork is damaged finally.

SUMMERY OF THE UTILITY MODEL

In order to improve the easy impaired problem in the installation of inboard template, this application provides an expansion joint both sides shear force wall detachable template in the building engineering.

The application provides a but expansion joint both sides shear force wall detachable template adopts following technical scheme in the building engineering:

a shear wall detachable template on two sides of an expansion joint in a building construction project comprises an inner side template, wherein auxiliary mounting assemblies are arranged on two sides of the inner side template, which are perpendicular to an inner side lower shear wall body, and each auxiliary mounting assembly comprises an auxiliary slide rail and an auxiliary slide block, wherein the length direction of the auxiliary slide rail is parallel to the height direction of the inner side lower shear wall body, the auxiliary slide blocks are relatively fixed with the inner side template, the auxiliary slide blocks are in sliding fit with the auxiliary slide rails, and the auxiliary slide blocks are detachably connected with the auxiliary slide rails; and a driving component is arranged on the auxiliary sliding rail on one side and is used for driving the auxiliary sliding block to slide along the auxiliary sliding rail.

By adopting the technical scheme, the driving component is controlled to drive the auxiliary sliding block to move downwards along the auxiliary sliding rail, and the auxiliary sliding block and the inner side template are relatively fixed, so that the inner side template can move downwards along the auxiliary sliding rail along with the auxiliary sliding block; by the aid of the mode, the step of manually placing the inner side template into the expansion joint or placing the inner side template into the expansion joint by the hoisting tool is omitted, and the auxiliary sliding blocks are only required to be aligned to the corresponding auxiliary sliding rails, so that convenience is brought to installation of the inner side template; meanwhile, the inner side template slides along the length direction of the auxiliary slide rail, so that the possibility of collision between the inner side template and the inner side outer shear wall body or the outer side shear wall body is effectively reduced, the inner side template is effectively protected, and the service life of the inner side template is conveniently prolonged.

Optionally, a fixing assembly is arranged between each of the two side walls of the inner side template and the corresponding auxiliary sliding block, and the auxiliary sliding blocks are detachably connected with the inner side template through the fixing assemblies.

By adopting the technical scheme, when the inner side template needs to be fixed, the auxiliary sliding block and the inner side template can be fixed at corresponding positions through the fixing assembly, so that the inner side template can move downwards along the auxiliary sliding rail; the detachable connection of the inner side template and the auxiliary sliding block improves the turnover performance of the auxiliary sliding block, the auxiliary sliding rail and the driving assembly, thereby being convenient for improving the utilization rate of the auxiliary sliding block, the auxiliary sliding rail and the driving assembly.

Optionally, the fixing assembly includes a fixing plate and a fixing bolt, wherein the auxiliary sliding block is fixed to a side of the fixing plate away from the inner side formwork, and the auxiliary sliding block is located at the bottom of the fixing plate away from the inner side formwork; the fixing bolt penetrates through the fixing plate and is in threaded connection with the inner side template.

By adopting the technical scheme, when the inner side template and the auxiliary sliding block need to be fixed, the fixing bolt can penetrate through the fixing plate and the inner side template through the thread, and the matching of the fixing plate and the fixing bolt provides convenience for the disassembly and the assembly of the auxiliary sliding block and the inner side template; meanwhile, the fixed plate is matched with the fixing bolt, so that the connection stability of the inner side template and the auxiliary sliding block is improved conveniently, and the stability of the inner side template moving downwards along the auxiliary sliding rail is improved conveniently.

Optionally, a threaded hole is preset in a position of the inner side template corresponding to the fixing bolt, and the fixing bolt penetrates through the corresponding threaded hole through threads to be in threaded connection with the inner side template.

Through adopting above-mentioned technical scheme, predetermine the screw hole, reduced the possibility of interior side form repeated trompil to be convenient for do effective protection to interior side form, in order to improve the life of interior side form.

Optionally, a protective layer is arranged on one side of the inner template and one side of the fixed plate opposite to the inner template.

Through adopting above-mentioned technical scheme, set up the protective layer between fixed plate and corresponding inboard template, be convenient for do effective protection to inboard template to further improve the life of inboard template.

Optionally, the auxiliary sliding block is rotatably connected with a plurality of balls opposite to the side wall of the auxiliary sliding rail, and when the auxiliary sliding block slides along the auxiliary sliding rail, each ball keeps rolling relatively to the corresponding auxiliary sliding rail.

By adopting the technical scheme, when the driving assembly drives the auxiliary sliding block to slide along the corresponding auxiliary sliding rail, each ball rolls relative to the corresponding auxiliary sliding rail; the arrangement of each ball improves the smoothness of the auxiliary sliding block when sliding along the corresponding auxiliary sliding rail, so that the consistency of the heights of the two sides of the inner side template is improved.

Optionally, the circumferential outer side wall of the auxiliary slide rail is provided with scale marks, the side wall of the fixed plate is provided with calibration lines, and the calibration lines on the two fixed plates are located at the same position on the corresponding fixed plate; when the calibration lines of the two fixing plates and the scale marks are at the same positions, the inner side template is relatively fixed on the inner side lower shear wall body.

By adopting the technical scheme, after the driving assembly is controlled to drive the auxiliary sliding block to slide to a proper position, the specific position of the calibration line close to the driving assembly, which is located at the corresponding scale mark, is checked, the position of the calibration line far away from the driving assembly is adjusted based on the position, and the adjustment of the position of the calibration line is realized by adjusting the fixing plate; the arrangement of the calibration lines and the scale lines is convenient for keeping the heights of the two sides of the inner side template consistent, so that the pouring effect of the inner side upper shear wall body is improved.

Optionally, the driving assembly includes a motor and a screw rod, wherein the motor is fixedly disposed on the corresponding auxiliary slide rail, one end of the screw rod is coaxially fixed to the motor, the other end of the screw rod passes through the auxiliary slide block and is in threaded connection with the auxiliary slide block, and one end of the screw rod passing through the auxiliary slide block is in rotating fit with the corresponding position of the auxiliary slide rail; the length direction of the screw rod is parallel to the length direction of the auxiliary slide rail.

Through adopting above-mentioned technical scheme, when needs make supplementary slider along corresponding supplementary slide rail removal, only need control the motor and be in operating condition, the motor can drive the lead screw and rotate, owing to the cooperation of the supplementary slider of inboard template opposite side and supplementary slide rail this moment for supplementary slider all only slides along the length direction who corresponds supplementary slide rail, so that realize the installation of inboard template.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the auxiliary sliding blocks, the auxiliary sliding rails and the driving assemblies, when the inner side templates are installed, the corresponding auxiliary sliding blocks are only required to be aligned to the corresponding auxiliary sliding rails, and then the motors are controlled, so that convenience is provided for installation of the inner side templates; meanwhile, the auxiliary sliding block slides along the length direction of the corresponding auxiliary sliding rail, so that the possibility of collision between the inner side template and the wall bodies on two sides is effectively reduced, and the inner side template is effectively protected;

2. the fixed plate is provided with the calibration line, and the auxiliary slide rail is provided with the scale mark, so that the consistency of the heights of the two sides of the inner side template is improved conveniently, and the pouring effect of the shear wall on the inner side is improved conveniently;

3. realize the stable connection of inboard template and supplementary installation component and drive assembly through fixed plate and fixing bolt, for the dismouting of inboard template and supplementary installation component provides convenience, is convenient for improve the utilization ratio of supplementary installation component and drive assembly, still can improve the stability of being connected of inboard template and supplementary slider simultaneously.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a partial schematic view showing a securing assembly;

fig. 3 is a partial cross-sectional view of the drive assembly.

Description of reference numerals: 1. an inboard lower shear wall; 2. an outer shear wall; 3. an inner side template; 31. a threaded hole; 4. an auxiliary mounting assembly; 41. an auxiliary slide block; 411. a ball bearing; 42. an auxiliary slide rail; 421. scale lines; 5. a drive assembly; 51. a motor; 52. a lead screw; 6. a fixing assembly; 61. a fixing plate; 611. a protective layer; 612. calibrating the line; 62. and (5) fixing the bolt.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses removable template of expansion joint both sides shear force wall in building engineering.

Referring to fig. 1 and 2, the detachable formwork for the shear walls on the two sides of the expansion joint in the building construction project comprises an inner formwork 3, wherein the inner formwork 3 is positioned between an inner lower shear wall body 1 and an outer shear wall body 2, and the inner formwork 3 and the inner lower shear wall body 1 are relatively fixed; auxiliary mounting assemblies 4 are arranged on two sides of the inner side template 3, which are perpendicular to the inner side lower shear wall body 1, wherein one auxiliary mounting assembly 4 is provided with a driving assembly 5, the auxiliary mounting assemblies 4 are matched with the driving assemblies 5, so that the inner side template 3 moves downwards along the inner side lower shear wall body 1, the possibility of time and labor waste caused by placing the inner side template 3 between the inner side lower shear wall body 1 and the outer side shear wall body 2 manually or by means of a hoisting tool and the like is reduced, and the mounting convenience of the inner side template 3 and the inner side lower shear wall body 1 is effectively improved; meanwhile, the inner side formwork 3 moves downwards along the inner side lower shear wall body 1, so that the collision between the inner side formwork 3 and the inner side lower shear wall body 1 and between the inner side formwork 3 and the outer side shear wall body 2 is reduced, the inner side formwork 3 is effectively protected, and the service life of the inner side formwork 3 is prolonged.

Referring to fig. 2 and 3, the auxiliary mounting assembly 4 includes an auxiliary sliding block 41 and an auxiliary sliding rail 42, wherein the auxiliary sliding block 41 is located at the bottom of the corresponding side wall of the inner side formwork 3, the auxiliary sliding rail 42 is fixed to the corresponding position of the inner side lower shear wall 1 through a bolt, and the auxiliary sliding rail 42 is vertically arranged; in the embodiment of the application, the horizontal section of the auxiliary sliding block 41 is in a dovetail shape, the auxiliary sliding block 41 is relatively fixed with the inner side template 3, and the width of one side of the auxiliary sliding block 41 close to the inner side template 3 is the largest; the auxiliary slide rail 42 is matched with the auxiliary slide block 41, and the length direction of the auxiliary slide rail 42 is parallel to the height direction of the inner lower shear wall 1; the driving assembly 5 is arranged on the auxiliary slide rail 42 and used for driving the auxiliary slide block 41 to slide along the corresponding auxiliary slide rail 42; the side walls of the two auxiliary sliding blocks 41 which are away from each other are rotatably connected with a plurality of balls 411, and when the auxiliary sliding blocks 41 slide along the corresponding auxiliary sliding rails 42, the balls 411 keep rolling relative to the fixed auxiliary sliding rails 42.

Because the auxiliary sliding block 41 and the inner side formwork 3 are relatively fixed, when the inner side formwork 3 needs to be arranged between the inner side lower shear wall 1 and the outer side shear wall 2, the inner side formwork 3 and the auxiliary sliding block 41 only need to be relatively fixed, and then the driving assembly 5 is controlled to drive the auxiliary sliding block 41 to move downwards along the corresponding auxiliary sliding rail 42, so that the inner side formwork 3 is convenient to install; the horizontal section of the auxiliary sliding block 41 is in a dovetail shape, so that the stability of the inner side template 3 during installation is improved conveniently; meanwhile, when the auxiliary sliding block 41 moves downwards along the corresponding auxiliary sliding rail 42, the arrangement of the balls 411 facilitates the sliding of the auxiliary sliding block 41 relative to the auxiliary sliding rail 42, so that the two sides of the inner side formwork 3 move downwards at the same height.

Referring to fig. 1 and 2, a fixing assembly 6 is arranged between each inner side template 3 and the corresponding auxiliary sliding block 41, and the inner side templates 3 and the corresponding auxiliary sliding blocks 41 are detachably matched through the fixing assemblies 6; the fixing component 6 comprises a fixing plate 61 and a fixing bolt 62, wherein the fixing plate 61 comprises a first vertical plate and a second vertical plate, the first vertical plate and the second vertical plate are perpendicular to each other, one sides of the first vertical plate and the second vertical plate far away from the inner side template 3 are flush, and the second vertical plate is perpendicular to the auxiliary sliding rail 42; a protective layer 611 is arranged on one side, opposite to the inner side formwork 3, of the first vertical plate and the second vertical plate, one side, opposite to the inner side formwork 3, of the protective layer 611 is tightly abutted to the inner side formwork 3, and the protective layer 611 is a rubber plate in the embodiment of the application; one side of the fixed plate 61, which is far away from the inner side template 3, is fixed with the corresponding auxiliary sliding block 41, two fixed bolts 62 are arranged on the same fixed plate 61, and the fixed bolts 62 are positioned on a second vertical plate; threaded holes 31 are preset in the inner formwork 3 at positions corresponding to the fixing bolts 62, and the fixing bolts 62 penetrate through the fixing plate 61 and the protective layer 611 and then penetrate into the corresponding threaded holes 31.

When the inner formwork 3 needs to be installed by means of the auxiliary sliding rail 42 and the like, the fixing bolt 62 can firstly penetrate through the corresponding position of the fixing plate 61 and then thread into the corresponding threaded hole 31, so as to complete the relative fixation of the auxiliary sliding block 41 and the inner formwork 3; the cooperation of the second vertical plate and the two fixing bolts 62 provides convenience for the disassembly and assembly of the fixing plate 61 and the inner side template 3, so that the installation of the inner side template 3 is facilitated, and the turnover performance of the auxiliary installation component 4 and the driving component 5 is effectively improved, namely the utilization rate of the auxiliary installation component 4 and the driving component 5 is improved; the arrangement of the protective layer 611 is convenient for effectively protecting the inner template 3; meanwhile, the protective layer 611 is a rubber plate, so that the friction force between the fixing plate 61 and the inner side formwork 3 is increased, and the connection stability between the fixing plate 61 and the inner side formwork 3 is improved.

Referring to fig. 3, the driving assembly 5 includes a motor 51 and a screw 52, the motor 51 is disposed inside one of the auxiliary slide rails 42, and may be located at the top of the auxiliary slide rail 42, or located at the bottom of the auxiliary slide rail 42, one end of the screw 52 is coaxially fixed with the motor 51, the other end of the screw 52 passes through the auxiliary slide block 41 and is in threaded connection with the auxiliary slide block 41, and one end of the screw 52 passing through the auxiliary slide block 41 and is in rotating fit with the corresponding position of the auxiliary slide rail 42, and the screw 52 is vertically disposed in the corresponding auxiliary slide rail 42; the screw 52 can be replaced by a gear (not shown) and a rack (not shown), in which case the motor 51 is coaxially fixed with the gear (not shown), the gear (not shown) is engaged with the rack (not shown), and the side of the rack (not shown) away from the gear (not shown) is fixed with the corresponding auxiliary slider 41.

After the corresponding positions of the auxiliary sliding block 41 and the inner side template 3 are relatively fixed, the motor 51 is controlled to work, the motor 51 drives the screw rod 52 to rotate, and at the moment, due to the matching of the auxiliary sliding rail 42 and the auxiliary sliding block 41 which are far away from one side of the motor 51, the auxiliary sliding block 41 which is in threaded fit with the screw rod 52 only slides along the corresponding auxiliary sliding rail 42, so that the inner side template 3 is convenient to disassemble and assemble.

Referring to fig. 1 and 2, the circumferential side wall of the auxiliary slide rail 42 is provided with a scale line 421, the same positions on the two fixing plates 61 are both provided with a calibration line 612, the calibration line 612 is located on the corresponding second vertical plate, and the scale line 421 is located on the side of the auxiliary slide rail 42 away from the inner lower shear wall 1; when the calibration line 612 on the two fixing plates 61 is opposite to the same position of the calibration line 421, the inner side formwork 3 is relatively fixed on the inner side lower shear wall 1; after the driving assembly 5 drives the auxiliary sliding block 41 to slide along the corresponding auxiliary sliding rail 42, that is, the inner formwork 3 moves down to a suitable position, the heights of the two sides of the inner formwork 3 are adjusted to be consistent by making the two calibration lines 612 face the same position of the corresponding scale line 421, so as to improve the final concrete pouring effect.

The application embodiment an implementation principle of removable template of expansion joint both sides shear force wall in building engineering does: when the inner side template 3 needs to be fixed, firstly, after each fixing bolt 62 passes through the corresponding position of the corresponding second vertical plate and the corresponding protective layer 611, threads penetrate into the corresponding threaded hole 31, so as to realize the stable connection of the inner side template 3 and the auxiliary sliding block 41; secondly, the motor 51 is controlled to finally drive each auxiliary sliding block 41 to move downwards for a proper distance along the corresponding auxiliary sliding rail 42 so as to move the inner side formwork 3 downwards to a proper position along the inner side lower shear wall 1, so that the inner side formwork 3 and the inner side lower shear wall 1 can be conveniently fixed; the two calibration lines 612 are opposite to the same position of the two scale lines 421 by adjusting the position of the auxiliary slide block 41 on the side far away from the motor 51, so that the two sides of the inner side template 3 keep the same height; the inner side formwork 3 moves downwards along the length direction of the auxiliary slide rail 42, so that the collision between the inner side formwork 3 and the wall bodies on the two sides is reduced, the possibility that the inner side formwork 3 is damaged due to collision with the wall bodies on the two sides in the installation process is reduced, and the service life of the inner side formwork 3 is prolonged conveniently.

After the inner side formwork 3 and the inner side lower shear wall body 1 are relatively fixed through a wall locking screw or other devices, the fixing bolts 62 are unscrewed, so that the fixing plate 61, the auxiliary mounting assembly 4 and the driving assembly 5 are separated from the inner side formwork 3, the auxiliary mounting assembly 4 and the driving assembly 5 can be conveniently recycled, and the utilization rate of the auxiliary mounting assembly 4 and the driving assembly 5 can be conveniently improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a removable template of expansion joint both sides shear force wall in engineering is built in room, its characterized in that: the auxiliary sliding block fixing device comprises an inner side template (3), wherein auxiliary mounting components (4) are arranged on two sides of the inner side template (3) perpendicular to an inner side lower shear wall body (1), each auxiliary mounting component (4) comprises an auxiliary sliding rail (42) and an auxiliary sliding block (41), the length direction of each auxiliary sliding rail (42) is parallel to the height direction of the inner side lower shear wall body (1), each auxiliary sliding block (41) and the inner side template (3) are relatively fixed, each auxiliary sliding block (41) is in sliding fit with the corresponding auxiliary sliding rail (42), and each auxiliary sliding block (41) is detachably connected with the corresponding auxiliary sliding rail (42); the auxiliary sliding rail (42) on one side is provided with a driving component (5), and the driving component (5) is used for driving the auxiliary sliding block (41) to slide along the auxiliary sliding rail (42).

2. The removable template of expansion joint both sides shear force wall in building engineering of claim 1, characterized in that: fixed components (6) are arranged between two side walls of the inner side template (3) and the corresponding auxiliary sliding blocks (41), and the auxiliary sliding blocks (41) are detachably connected with the inner side template (3) through the fixed components (6).

3. The removable template of expansion joint both sides shear force wall in building engineering of claim 2, characterized in that: the fixing assembly (6) comprises a fixing plate (61) and a fixing bolt (62), wherein the auxiliary sliding block (41) is fixed to one side, away from the inner side template (3), of the fixing plate (61), and the auxiliary sliding block (41) is located at the bottom of one side, away from the inner side template (3), of the fixing plate (61); the fixing bolt (62) penetrates through the fixing plate (61) and is in threaded connection with the inner side template (3).

4. The removable template of expansion joint both sides shear force wall in building engineering of claim 3, characterized in that: threaded holes (31) are preset in the positions, corresponding to the fixing bolts (62), of the inner side template (3), and the fixing bolts (62) penetrate into the corresponding threaded holes (31) through threads to achieve threaded connection with the inner side template (3).

5. The removable template of expansion joint both sides shear force wall in building engineering of claim 3, characterized in that: and one side of the fixed plate (61) opposite to the inner side template (3) is provided with a protective layer (611).

6. The removable template of expansion joint both sides shear force wall in building engineering of claim 1, characterized in that: the auxiliary sliding block (41) is in rotary connection with a plurality of balls (411) opposite to the side wall of the auxiliary sliding rail (42), and when the auxiliary sliding block (41) slides along the auxiliary sliding rail (42), each ball (411) keeps rolling relative to the corresponding auxiliary sliding rail (42).

7. The removable template of expansion joint both sides shear force wall in building engineering of claim 3, characterized in that: the outer circumferential side wall of the auxiliary sliding rail (42) is provided with scale marks (421), the side wall of the fixed plate (61) is provided with a calibration line (612), and the calibration lines (612) on the two fixed plates (61) are located at the same position on the corresponding fixed plate (61); when the calibration lines (612) of the two fixing plates (61) are at the same position with the scale marks (421), the inner side template (3) is relatively fixed on the inner side lower shear wall body (1).

8. The removable template of expansion joint both sides shear force wall in building engineering of claim 1, characterized in that: the driving assembly (5) comprises a motor (51) and a lead screw (52), wherein the motor (51) is fixedly arranged on the corresponding auxiliary sliding rail (42), one end of the lead screw (52) is coaxially fixed with the motor (51), the other end of the lead screw (52) penetrates through the auxiliary sliding block (41) and is in threaded connection with the auxiliary sliding block (41), and one end of the lead screw (52) penetrating through the auxiliary sliding block (41) is in rotating fit with the corresponding position of the auxiliary sliding rail (42); the length direction of the screw rod (52) is parallel to the length direction of the auxiliary slide rail (42).

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