CN110847414A - Electric box equipment support device, wall containing the device and integral pouring method thereof - Google Patents

Abstract

The invention discloses an electric box equipment supporting device, a wall body containing the same and an integral pouring method thereof, and relates to the technical field of strong and weak electric box installation in constructional engineering. The method aims at solving the problems that steps are complicated and the quality is difficult to ensure when the traditional grooving and groove supplementing process is used for building a wall body and installing an electric box device. The side wall of one side of a wall body to be poured is implanted into one end of each connecting steel bar, the other end of each connecting steel bar is sequentially tied with a plurality of vertically arranged connecting steel bars of the strong electric box, the connecting steel bars are used as supporting members of connecting pipelines of the strong electric box and the weak electric box, bearing of the strong electric box and bearing of the weak electric box are indirectly transmitted to the side walls, stable support of the strong electric box and the weak electric box are completed by utilizing the existing wall body, displacement of the members in the subsequent integral pouring construction process of the wall body can be avoided, and pouring quality of the wall body is guaranteed.

Description

Electric box equipment support device, wall containing the device and integral pouring method thereof

technical field

The invention relates to the technical field of installation of strong and weak electrical boxes and trunking boxes in construction projects, in particular to a support device for electrical box equipment, a wall containing the device and an integral pouring method thereof.

Background technique

At present, the on-site quality control work of construction projects not only needs to accept more strict local standards, but also bear the constraints from the owner. The traditional construction process needs to go through eight processes such as positioning and laying out → mechanical slotting → manual slotting → wire box fixing → piping fixation → one-time filling groove → secondary filling groove → repairing and hanging net, especially in thin walls. In the case of inlaid multiple electrical boxes and line pipes, the wall is prone to common quality problems due to frequent grooving and grooving, such as wall digging penetration, broken brick cracks, and installation deviation. Therefore, how to reasonably avoid the "old and difficult" quality problems in wall masonry and electrical box equipment installation projects, and achieve "high-quality, civilized, high-speed, low-consumption" construction will become the goal that engineers and technicians need to constantly explore.

SUMMARY OF THE INVENTION

The use of the traditional slotting and filling process to implement wall masonry and electrical box equipment installation has the problems of cumbersome steps and difficult quality assurance. The pouring method adopts the pre-embedded installation and positioning of the electric box → the installation of the electric box equipment support device → the overall pouring of the wall sealing mold to replace the traditional slotting and filling process to ensure the overall stability of the wall.

The technical solution adopted by the present invention to solve the technical problem is: a support device for electric box equipment, the electric box equipment includes a strong electric box and a weak electric box, and the strong electric box and the weak electric box are both arranged on the same side for waiting. The pouring wall includes: at least one connecting steel bar horizontally arranged at the bottom of the strong electric box, one end of the connecting steel bar is embedded in the side wall connected to the wall to be poured, and the other end of the connecting steel bar is sequentially connected to the The vertically arranged connecting pipelines of the strong electric box are connected by means of tie knots.

The electric box equipment support device of the present invention includes at least one connecting steel bar horizontally arranged at the bottom of the strong electric box, one end of the connecting steel bar is embedded in the side wall on one side of the wall to be poured, and the other end of the connecting steel bar is in turn connected to the multiple bars of the strong electric box. The vertical connecting steel bars are tied together, and the connecting steel bars are used as the support members of the connecting pipelines of the strong and weak current boxes, and the load-bearing of the strong and weak current boxes is indirectly transferred to the side wall, and the existing walls are cleverly used to complete the strength and weakness. The stable support of the electric box can avoid the displacement of the above-mentioned components during the subsequent overall pouring construction of the wall, thereby ensuring the pouring quality of the wall. The electric box equipment supporting device has a simple structure and is easy to obtain materials.

Preferably, it further includes a plurality of support rods, the support rods are respectively arranged in close contact with the bottoms of the strong current box and the weak current box, and the support rods are connected to the formwork on one side of the wall to be poured.

Preferably, the support rod and the template are connected by bolts.

Preferably, the connection pipeline of the strong electric box and the connection steel bar are connected and fixed by wire binding.

The present invention also provides a wall containing an electric box equipment support device, which comprises: a reinforced concrete wall body, a strong electric box and a weak electric box embedded in the reinforced concrete wall body, the strong electric box and The weak current box is staggered up and down, and is respectively connected to the strong current box, a plurality of connecting pipelines at the top and bottom of the weak current box, and at least one connecting steel bar laterally arranged at the bottom of the strong current box One end of the connecting steel bar is embedded in the side wall on one side of the main body of the reinforced concrete wall, and the other end of the connecting steel bar is sequentially connected with the vertically arranged connecting pipeline of the strong electric box. Both the pipeline and the connecting steel bars are embedded in the main body of the reinforced concrete wall.

The wall containing the electric box equipment support device of the present invention includes a reinforced concrete wall body, a strong and weak electric box buried in it, a plurality of connecting pipelines respectively connected to the top and bottom of the strong and weak electric box, and a horizontally arranged on the At the bottom of the strong current box and one end is implanted into the connecting steel bar of the side wall, multiple connecting pipelines are connected with the connecting steel bar in turn, so that the strong and weak current box is connected with the existing side wall through the connecting steel bar, and the strong and weak current box is realized by using the existing side wall. The stable support of the reinforced concrete wall avoids the displacement of each component during concrete pouring; after the overall concrete pouring is completed, the strong and weak electric boxes and connecting pipelines can be buried in the main body of the reinforced concrete wall according to the design position, so as to avoid the traditional slotting and filling construction on the wall. damage, thereby ensuring the overall stability of the wall.

Preferably, it also includes a plurality of support rods, the support rods are respectively arranged in close contact with the bottoms of the strong current box and the weak current box, and the support rods are connected to the formwork on one side of the wall to be poured. connect.

In addition, the present invention also provides an integral pouring method for a wall containing an electrical box equipment support device. The steps are as follows: according to the electromechanical installation drawing, the formwork on one side of the wall to be poured is laid out to confirm the strong current box, the weak current box and the Connect the installation position of the pipeline, and set up holes in the installation positions of the strong current box and the weak current box of the formwork on one side of the wall to be poured. For the installation and positioning of the connecting pipeline, at least one connecting steel bar is horizontally arranged at the bottom of the strong electric box, one end of the connecting steel bar is implanted into the side wall, and a plurality of vertically arranged connecting lines are respectively connected with the connecting steel bar. , After the electric box equipment and its supporting device are in place, the mold is sealed to pour concrete. After the concrete reaches the strength required by the design, the mold is removed to complete the overall pouring construction of the wall.

The integral casting method of the wall containing the electric box equipment support device of the present invention adopts the whole casting process of the electric box pre-embedded installation and positioning → installation of the electric box equipment support device → integral casting of the wall sealing mold, wherein the electric box equipment support is installed. The device includes implanting connecting steel bars in the side walls, and fixing the connecting pipelines to the connecting steel bars, so as to complete the vertical support and positioning of the electrical box equipment. The side wall ensures the overall stability of the poured wall and forms a wall with high-quality appearance and functions; the present invention adopts the whole pouring process to replace the traditional slotting and filling process, so as to avoid the damage to the wall caused by the slotting and filling construction, thereby In order to ensure the overall stability of the wall and improve the construction quality, the invention is particularly suitable for the working condition of "multiple electrical boxes and multi-line boxes in one wall" in the masonry engineering of the wall.

Preferably, before pouring concrete, a support rod is installed close to the bottom of the strong current box and the weak current box, and the support rod is bolted to the formwork.

Preferably, after the formwork on both sides of the wall to be poured is in place, a plurality of vertical and spaced fixing rods are fixed to the outside of the formwork on both sides to seal the mold.

Description of drawings

1 is a schematic diagram of the arrangement of the electrical box equipment support device in an embodiment of the integral casting method for the wall containing the electrical box equipment support device of the present invention;

2 is a side view of the electric box equipment support device in an embodiment of the integral casting method for the wall containing the electric box equipment support device of the present invention;

3 is a schematic diagram of the connection relationship between the vertical pipeline of the strong electric box and the connecting steel bars in an embodiment of the electric box equipment support device of the present invention.

4 is a schematic structural diagram of the wall body after molding in an embodiment of the integral casting method for a wall body containing an electrical box equipment support device according to the present invention;

The symbols in the figure are as follows:

Side wall 1; formwork 2; connecting pipeline 3; connecting steel bar 4; supporting rod 5; fixed rod 6.

Detailed ways

The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments. It should be noted that, the accompanying drawings are all in a very simplified form and in inaccurate scales, and are only used to facilitate and clearly assist the purpose of explaining the embodiments of the present invention. For the convenience of description, the "upper" and "lower" described below are consistent with the upper and lower directions of the drawings, but this cannot be a limitation of the technical solution of the present invention.

Example 1

In this embodiment, the electric box equipment includes a strong electric box and a weak electric box. The strong electric box and the weak electric box are both installed on the same wall to be poured, and have dense connection pipelines 3, and the side wall 1 connected to the wall to be poured It is a reinforced concrete shear wall, the following describes the electric box equipment support device of the present invention in conjunction with Fig. 1 to Fig. 4, which comprises: at least one connecting steel bar 4 laterally arranged at the bottom of the strong electric box, and one end of the connecting steel bar 4 is implanted with The side wall 1 connected by the wall to be poured, the extension length of the other end of the connecting steel bar 4 needs to ensure that it can be effectively tied with the connecting pipeline 3 arranged vertically in the strong electric box in turn; the connecting pipeline 3 in this embodiment is a pvc pipeline , and install two connecting bars 4 of Φ8.

The electric box equipment support device of the present invention includes at least one connecting steel bar 4 laterally arranged at the bottom of the strong electric box. A plurality of vertically arranged connecting steel bars 4 of the box are tied together, and the connecting steel bars 4 are used as supporting members of the connecting pipelines 3 of the strong and weak current boxes, and the load-bearing of the strong and weak current boxes is indirectly transferred to the side wall 1. The existing wall has completed the stable support of the strong and weak electric boxes, which can avoid the displacement of the above-mentioned components during the subsequent overall pouring construction of the wall, thereby ensuring the pouring quality of the wall. The electric box equipment supporting device has a simple structure and is easy to obtain materials.

Please continue to refer to FIG. 1. For the strong and weak current boxes with larger volume and larger self-weight, the above-mentioned electric box equipment support device also includes a plurality of support rods 5. The positions of the electric box and the weak electric box are respectively provided with holes. After the strong electric box and the weak electric box are embedded in the hole, the supporting rods 5 are respectively set in close contact with the bottoms of the strong electric box and the weak electric box, and the supporting rods 5 are connected to the wall to be poured. The formwork 2 on one side of the body is connected; the support rod 5 is used as the vertical support of the strong electric box and the weak electric box, which can ensure the stability of the electric box equipment. In this embodiment, the formwork 2 of the wall to be poured is made of glued wood formwork 2, and the support rods 5 are made of wood, so that the support rods 5 can be bolted to the wooden formwork 2, which is convenient for disassembly and assembly, which is conducive to the repeated use of components. Of course, the template 2 and the support rod 5 can also be made of steel and connected by bolts, and both can realize the technical solution of the present invention.

The connection pipeline 3 of the above-mentioned strong electric box and the connection steel bar 4 are connected and fixed by wire binding, and the steel wire is easy to obtain and disassemble and assemble.

Example 2

1 to 4 to describe the wall containing the electric box equipment support device of the present invention, which includes: a reinforced concrete wall body, a strong electric box and a weak electric box embedded in the reinforced concrete wall body, a strong electric box and a weak electric box The top and bottom of the box are staggered and connected to a plurality of connecting pipelines 3 at the top and bottom of the strong electric box and the weak electric box, and at least one connecting steel bar 4 laterally arranged at the bottom of the strong electric box, and one end of the connecting steel bar 4 is planted. into the side wall 1 on one side of the main body of the reinforced concrete wall, the extension length of the other end of the connecting steel bar 4 must ensure that it can be effectively tied with the connecting pipeline 3 vertically arranged in the strong electric box in turn, and the connecting pipeline 3 and the connecting steel bar 4 They are embedded in the main body of the reinforced concrete wall.

The wall containing the electric box equipment support device of the present invention includes a reinforced concrete wall body, a strong and weak electric box buried in it, a plurality of connecting pipelines 3 respectively connected to the top and bottom of the strong and weak electric box, and horizontally arranged The connecting steel bar 4 of the side wall 1 is implanted at the bottom of the strong current box and one end is implanted, and a plurality of connecting pipelines 3 are connected with the connecting steel bar 4 in turn, so that the strong and weak current box is connected with the existing side wall 1 through the connecting steel bar 4, and the existing side wall 1 is used. The side wall 1 realizes the stable support of the strong and weak electric box to avoid the displacement of each component during concrete pouring; after the overall concrete pouring is completed, the strong and weak electric box and the connecting pipeline 3 can be buried in the main body of the reinforced concrete wall according to the design position to avoid The traditional grooving and grooving construction will damage the wall, so as to ensure the overall stability of the wall.

More preferably, the above-mentioned wall containing the electric box equipment support device also includes a plurality of support rods 5, the support rods 5 are respectively arranged in close contact with the bottom of the strong current box and the weak current box, and the support rods 5 are connected to the to-be-casting. The formwork 2 on one side of the wall is connected, and the support rod 5 is used as the vertical support of the strong electric box and the weak electric box, which can ensure the stability of the electric box equipment.

Example 3

The overall pouring method of the wall containing the electrical box equipment support device of the present invention, the specific steps are as follows:

According to the electromechanical installation drawings, against the one-meter line of the building, set out the formwork 2 on one side of the wall to be poured to confirm the installation positions of the strong current box, the weak current box and the connecting pipeline 3. Open holes respectively at the installation positions of the strong current box and the weak current box, and insert the strong current box and the weak current box into the holes respectively, carry out the installation and positioning of the strong current box, the weak current box and the connecting pipeline 3, and set at least one connecting steel bar horizontally at the bottom of the strong current box. 4. One end of the connecting steel bar 4 is implanted into the side wall 1, and a plurality of vertically arranged connecting pipelines 3 are respectively connected with the connecting steel bar 4. After the pre-embedded installation of the electric box equipment and its supporting device are in place, the mold is sealed and the concrete is poured. After the concrete reaches the strength required by the design, the formwork is removed to complete the pouring of the wall.

The integral casting method of the wall containing the electric box equipment support device of the present invention adopts the whole casting process of the electric box pre-embedded installation and positioning → installation of the electric box equipment support device → integral casting of the wall sealing mold, wherein the electric box equipment support is installed. The device includes a side wall 1 implanted with connecting steel bars 4, and the connecting pipelines 3 are tied and fixed to the connecting steel bars 4, so as to complete the vertical support and positioning of the electrical box equipment. It is fixed on the existing side wall 1 to ensure the overall stability of the poured wall and form a wall with high-quality appearance and function; the present invention adopts the whole pouring process to replace the traditional slotting and filling process, so as to avoid the construction of the slotting and filling to the wall. Therefore, the overall stability of the wall can be ensured and the construction quality can be improved. The invention is particularly suitable for the working condition of "one wall, multiple electrical boxes and multiple wire boxes" in the wall masonry project.

The above steps also include, before pouring concrete, installing a support rod 5 close to the bottom of the strong current box and the weak current box as a vertical support member of the electric box equipment, and the support rod 5 is bolted to the template 2, which is convenient for disassembly and assembly.

As shown in Figure 4, after the formwork 2 on both sides of the wall to be poured is in place, a plurality of vertical and spaced fixing rods 6 are fixed to the outside of the formwork 2 on both sides to seal the formwork to avoid slurry leakage during concrete pouring phenomenon, the fixing rod 6 in this embodiment adopts a wooden square with a cross-sectional size of 40mm×60mm, and the distance between two adjacent fixing rods 6 is 400mm, which is convenient to obtain materials and avoids material waste.

The above description is only a description of the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention. Any changes and modifications made by those of ordinary skill in the field of the present invention based on the above disclosure are within the scope of the claims.

Claims (9)

1. The utility model provides an electronic box equipment strutting arrangement, electronic box equipment includes strong electric box and weak electric box, strong electric box with weak electric box all sets up in the same face and waits to pour the wall body, its characterized in that, it includes: at least one transversely set up in the connecting reinforcement of strong case bottom, the side wall of being connected with the wall body of waiting to water is implanted to the one end of connecting reinforcement, the connecting reinforcement other end in proper order with the connecting line drawknot of the vertical setting of strong case is connected.

2. The electrical box apparatus support device of claim 1, wherein: the device also comprises a plurality of supporting rod pieces, wherein the supporting rod pieces are respectively arranged at the bottoms of the strong power box and the weak power box in a clinging manner, and the supporting rod pieces are connected with the template on one side of the wall to be cast.

3. The electrical box apparatus support device of claim 2, wherein: the support rod piece is connected with the template through a bolt.

4. The electrical box apparatus support device of claim 1, wherein: and the connecting pipeline of the strong power box and the connecting steel bars are fixedly connected through steel wire binding.

5. A wall body that contains electronic box equipment strutting arrangement, its characterized in that, it includes: the reinforced concrete wall body comprises a reinforced concrete wall body main body, a strong electric box and a weak electric box which are embedded in the reinforced concrete wall body main body, wherein the strong electric box and the weak electric box are arranged in a staggered mode from top to bottom, the strong electric box and the weak electric box are respectively connected with a plurality of connecting pipelines at the top and the bottom of the strong electric box, at least one connecting steel bar is transversely arranged at the bottom of the strong electric box, one end of each connecting steel bar is embedded in a side wall on one side of the reinforced concrete wall body main body, the other end of each connecting steel bar is sequentially connected with the connecting pipeline of the strong electric box in a pulling mode, and the connecting pipelines and the connecting steel bars are all embedded in the reinforced concrete wall body.

6. The wall body with the electrical box equipment supporting device as claimed in claim 5, wherein: the device also comprises a plurality of supporting rod pieces, wherein the supporting rod pieces are respectively arranged at the bottoms of the strong power box and the weak power box in a clinging manner, and the supporting rod pieces are connected with a template on one side of the wall to be cast.

7. The method for integrally casting the wall with the electrical box equipment supporting device according to claim 5, comprising the following steps: according to an electromechanical installation drawing, paying off is carried out on a formwork on one side of a wall body to be poured to confirm the installation positions of a strong electric box, a weak electric box and a connecting pipeline, holes are respectively formed in the installation positions of the strong electric box and the weak electric box of the formwork on the side of the wall body to be poured, the strong electric box and the weak electric box are respectively embedded into the corresponding holes, the strong electric box, the weak electric box and the connecting pipeline are installed and positioned, at least one connecting steel bar is transversely arranged at the bottom of the strong electric box, one end of the connecting steel bar is implanted into the side wall, a plurality of vertically arranged connecting pipelines are respectively connected with the connecting steel bar in a pulling mode, after electric box equipment and a supporting device of the electric box are in place, concrete is poured in a sealing mode, and after the concrete reaches the strength required by design, the.

8. The one-piece casting method according to claim 7, wherein: before concrete is poured, a support rod piece is installed and attached to the bottoms of the strong electric box and the weak electric box, and the support rod piece is connected with the template through bolts.

9. The one-piece casting method according to claim 7, wherein: after the formworks on the two sides of the poured wall are in place, fixing a plurality of vertical fixing rod pieces which are arranged at intervals on the outer sides of the formworks on the two sides for mold sealing.

Images