CN214034781U - Adjustable template single-side supporting system - Google Patents

Abstract

The utility model relates to a pillar or a support of a building template, in particular to an adjustable template single-side supporting system which is arranged outside a template needing single-side supporting and comprises a plurality of supporting units arranged by clinging to the template; each supporting unit comprises a main upright post attached to the template, a ground attaching beam perpendicular to the template, and a plurality of movable inclined struts arranged between the main upright post and the ground attaching beam, and the included angle between each movable inclined strut and the ground is adjustable; the lower end of the side surface of the main upright post is also provided with a rope tightener used for drawing the upper end of the movable inclined strut downwards. In the utility model, the movable diagonal bracing which can adjust the included angle with the ground is arranged to support the template, so that the mould is tightened when the template is supported, the situation that the poured concrete piece is larger than the design value is avoided, the reliability is high, and the template is not easy to damage due to sundries; the utility model discloses in, a plurality of activity bracing are adjusted through euphroe, and the formwork work load is little.

Description

Adjustable template single-side supporting system

Technical Field

The utility model relates to a building templates's pillar or support especially relates to a template single face supporting system with adjustable.

Background

In the building construction process, a plurality of concrete pieces need to be poured, so that a plurality of moulds need to be built, and the process of building the moulds is called as formwork erecting.

The concrete mold is required to endow the concrete piece to be poured with a shape and resist the mold expansion force in the concrete pouring process, and if the mold closing force provided by the concrete mold cannot be higher than the mold expansion force in the pouring process, the mold expansion phenomenon occurs, so that the poured concrete piece is unqualified in shape and strength.

Most concrete moulds rely on counter-pulling screws to resist the mould expansion force, but the counter-pulling screws mean that free space is needed on two sides of the mould, and the counter-pulling screws cannot be used in scenes with limited space on one side of the mould. In this case, the mold clamping force is generally provided by a sprag. However, compared with the counter-pulling screw rod, the inclined strut cannot tighten the mold like the counter-pulling screw rod, so that the cast concrete piece is a little larger than the designed value.

Some diagonal braces can adjust length, and the diagonal braces can tighten the die like a pulling screw rod, but are easy to damage due to sundries.

SUMMERY OF THE UTILITY MODEL

The utility model provides a template single face supporting system with adjustable.

The technical problem to be solved is that: the existing diagonal brace for supporting the single-sided mould cannot tighten the mould, so that the cast concrete part has a larger design value.

In order to solve the technical problem, the utility model adopts the following technical scheme:

an adjustable template single-side supporting system is arranged on the outer side of a template needing single-side supporting and comprises a plurality of supporting units arranged by being attached to the template;

each supporting unit comprises a main upright post attached to the template, a ground attaching beam perpendicular to the template, and a plurality of movable inclined struts arranged between the main upright post and the ground attaching beam; the ground beam is anchored on the installation base surface, and one end close to the template is rotatably connected with the lower end of the main upright post; the lower ends of the movable inclined struts in the same supporting unit are rotatably connected with one end, far away from the template, of the ground beam, the upper ends of the movable inclined struts are arranged on the side surface of the main upright post at intervals along the length direction of the main upright post and are in sliding connection with the main upright post, and the sliding direction of the movable inclined struts is parallel to the main upright post;

the lower end of the side face of the main upright post is further provided with a rope tightener used for drawing the upper end of the movable inclined strut downwards, the rope tightener is provided with a locking device, and the rope tightener is connected with the upper end of each movable inclined strut in the same supporting unit through a traction rope.

Furthermore, waist holes which are in one-to-one correspondence with the movable inclined struts in the same supporting unit are formed in the main upright post, and long axes of the waist holes are parallel to the main upright post; the upper end of the movable inclined strut is connected with the main upright post in a sliding manner through a pin shaft penetrating through the waist hole, and the lower end of the movable inclined strut is connected with the ground beam in a rotating manner through a pin shaft; the main upright post is rotationally connected with the ground beam through a pin shaft.

Furthermore, in each supporting unit supporting the same template, collinear pin shafts are connected with each other to form a shaft rod.

Furthermore, the haulage rope is including connecting the main rope on the euphroe to and one end is connected with main rope side, the branch rope that the other end is connected with movable bracing upper end.

Further, the rope tightening device is a ratchet type rope tightening device.

Furthermore, the main upright post is a square steel pipe with a side surface arranged by being attached to the template, and the rope tightener is arranged on the surface of the square steel pipe, which is perpendicular to the template.

Further, the ground beam is a square steel pipe and is anchored on the installation base surface through a steel chisel arranged by penetrating the ground beam.

The utility model relates to a template single face supporting system with adjustable compares with prior art, has following beneficial effect:

in the utility model, the movable diagonal bracing which can adjust the included angle with the ground is arranged to support the template, so that the mould is tightened when the template is supported, the situation that the poured concrete piece is larger than the design value is avoided, the reliability is high, and the template is not easy to damage due to sundries; the utility model discloses in, the activity bracing pulls through the euphroe and adjusts the contained angle with ground, and a plurality of activity bracing are adjusted through a euphroe, and the formwork work load is little.

Drawings

Fig. 1 is a schematic structural view of a support unit of an adjustable formwork one-sided bracing system of the present invention;

fig. 2 is a schematic structural view of an adjustable formwork single-sided support system of the present invention when the support units are independent from each other;

FIG. 3 is a schematic view of an adjustable formwork single-sided support system of the present invention with support units connected together;

wherein, the device comprises 1-main upright post, 11-waist hole, 2-ground beam, 3-movable diagonal brace, 4-shaft lever, 5-traction rope, 6-rope tightener and 7-template.

Detailed Description

As shown in fig. 1, an adjustable formwork one-sided bracing system, which is disposed outside a formwork 7 to be single-sided braced, includes a plurality of support units disposed against the formwork 7. The supporting units can be arranged separately as in fig. 2, or can be connected together as in fig. 3.

Each supporting unit comprises a main upright post 1 arranged close to the template 7, a ground beam 2 arranged perpendicular to the template 7 and a plurality of movable inclined struts 3 arranged between the main upright post 1 and the ground beam 2; the ground beam 2 is anchored on the installation base surface, and one end close to the template 7 is rotatably connected with the lower end of the main upright post 1; the lower end of each movable inclined strut 3 in the same supporting unit is rotatably connected with one end of the ground beam 2 far away from the template 7, the upper end of the movable inclined strut is arranged on the side surface of the main upright post 1 at intervals along the length direction of the main upright post 1 and is in sliding connection with the main upright post 1, and the sliding direction of the movable inclined strut is parallel to the main upright post 1.

The lower end of the side surface of the main upright post 1 is also provided with a rope tightener 6 for drawing the upper end of the movable inclined strut 3 downwards, the rope tightener 6 is provided with a locking device, and the rope tightener 6 is respectively connected with the upper end of each movable inclined strut 3 in the same supporting unit through a traction rope 5.

It is noted that the rope tensioner 6 must here have a locking device which locks the traction rope 5 after the traction rope 5 has been tightened into place, otherwise the movable stay 3 will spring back.

Waist holes 11 which are in one-to-one correspondence with the movable inclined struts 3 in the same supporting unit are formed in the main upright post 1, and long axes of the waist holes 11 are parallel to the main upright post 1; the upper end of the movable inclined strut 3 is connected with the main upright post 1 in a sliding way through a pin shaft which is arranged in the waist hole 11 in a penetrating way, and the lower end of the movable inclined strut is connected with the ground beam 2 in a rotating way through a pin shaft; the main upright post 1 is rotationally connected with the ground beam 2 through a pin shaft. Here, the pin shaft hole between the main column 1 and the ground beam 2 may also be made into a horizontally extending waist-shaped hole, and the pin shaft can horizontally slide in the pin shaft hole, so that the main column 1 can better cling to the template 7, but generally, the upper part of the die is more serious when the die expands, so the pin shaft hole between the main column 1 and the ground beam 2 in this embodiment is not made into a waist-shaped hole.

As shown in fig. 3, in each supporting unit supporting the same formwork 7, the collinear pins are connected with each other to form the shaft rod 4, so that the shaft rod 4 can be used as a pin, and the supporting units are connected into a whole to be more stable. In addition, the structure is convenient to assemble or disassemble.

The hauling cable 5 comprises a main cable connected to the cable tensioner 6 and a branch cable with one end connected to the side of the main cable and the other end connected to the upper end of the movable inclined strut 3. Therefore, only one main rope is arranged, and the problem of rope entanglement is not easy to occur.

The rope tightening device 6 is a ratchet type rope tightening device, and the rope tightening device 6 is locked firmly.

The main upright post 1 is a square steel tube with one side surface arranged by being attached to the template 7, and the rope tightener 6 is arranged on the surface, perpendicular to the template 7, of the square steel tube.

The ground beam 2 is a square steel pipe and is anchored on an installation base surface through a steel chisel penetrating through the ground beam 2, and the installation base surface of most molds on a construction site is exposed soil, so that the steel chisel is very convenient to anchor. Of course, if the installation base surface is a cement ground, the anchor still needs to be anchored by embedded bolts or expansion bolts.

The utility model relates to a template single face supporting system with adjustable, its use includes following step:

the method comprises the following steps: the utility model is assembled at the edge of the template 7;

step two: tightly attaching each main upright post 1 to a template 7;

step three: the traction rope 5 is tightened and the rope tensioner 6 is locked.

The above-mentioned embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.

Claims (7)

1. The utility model provides a template single face supporting system with adjustable sets up in template (7) outside that need carry out single face and strut, its characterized in that: comprises a plurality of supporting units arranged against the formwork (7);

each supporting unit comprises a main upright post (1) arranged close to the template (7), a ground beam (2) arranged perpendicular to the template (7) and a plurality of movable inclined struts (3) arranged between the main upright post (1) and the ground beam (2); the ground beam (2) is anchored on the installation base surface, and one end close to the template (7) is rotatably connected with the lower end of the main upright post (1); the lower ends of the movable inclined struts (3) in the same supporting unit are rotatably connected with one end, far away from the template (7), of the ground beam (2), the upper ends of the movable inclined struts are arranged on the side surface of the main upright post (1) at intervals along the length direction of the main upright post (1) and are in sliding connection with the main upright post (1), and the sliding direction of the movable inclined struts is parallel to the main upright post (1);

the lower end of the side face of the main upright post (1) is further provided with a rope tightener (6) used for drawing the upper end of the movable inclined strut (3) downwards, the rope tightener (6) is provided with a locking device, and the rope tightener (6) is connected with the upper ends of the movable inclined struts (3) in the same supporting unit through a traction rope (5).

2. An adjustable formwork one-sided bracing system according to claim 1, wherein: waist holes (11) which correspond to the movable inclined struts (3) in the same supporting unit one by one are formed in the main upright post (1), and the long axes of the waist holes (11) are parallel to the main upright post (1); the upper end of the movable inclined strut (3) is connected with the main upright post (1) in a sliding way through a pin shaft penetrating through the waist hole (11), and the lower end of the movable inclined strut is connected with the ground beam (2) in a rotating way through the pin shaft; the main upright post (1) is rotatably connected with the ground beam (2) through a pin shaft.

3. An adjustable formwork one-sided bracing system according to claim 2, wherein: in each supporting unit supporting the same template (7), collinear pin shafts are connected with each other to form a shaft rod (4).

4. An adjustable formwork one-sided bracing system according to claim 1, wherein: the traction rope (5) comprises a main rope connected to the rope tightener (6) and a supporting rope, one end of the supporting rope is connected with the side face of the main rope, and the other end of the supporting rope is connected with the upper end of the movable inclined strut (3).

5. An adjustable formwork one-sided bracing system according to claim 1, wherein: the rope tightening device (6) is a ratchet wheel type rope tightening device.

6. An adjustable formwork one-sided bracing system according to claim 1, wherein: the main upright post (1) is a square steel tube with a side surface arranged by being attached to the template (7), and the rope tightener (6) is arranged on the surface of the square steel tube, which is perpendicular to the template (7).

7. An adjustable formwork one-sided bracing system according to claim 1, wherein: the ground beam (2) is a square steel pipe and is anchored on the installation base surface through a steel chisel arranged by penetrating the ground beam (2).

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