CN211351610U - Structure capable of reducing embedded electric pipelines in assembled concrete body - Google Patents

Abstract

The utility model relates to a structure that can reduce the pre-buried electric pipeline in the assembled concrete body, install the wireless illumination shunt controller in the indoor furred ceiling space of the finish-finished house, it inserts the strong current inlet wire of all the way of indoor block terminal, connects each lighting control circuit in the room of going out, installs the wireless control switch in each room simultaneously, compare with the traditional wall-chiseling mounting means, not only has saved installation time, but also has protected wall body structural strength and integrality; meanwhile, all control circuits are laid in the ceiling space, and pipelines do not need to be embedded, so that the number of embedded electric pipelines in the prefabricated concrete structure is reduced to the maximum extent, and the safety of the prefabricated structure system is ensured.

Description

Structure capable of reducing embedded electric pipelines in assembled concrete body

Technical Field

The utility model relates to a can reduce the structure of the internal pre-buried electric pipeline of assembled concrete belongs to building electrical design field.

Background

The state is vigorously popularizing the industrial building industry, governments of all parts are actively implemented, and the occupation ratio of the prefabricated building is increased. At present, the industrialization rate of civil engineering parts of prefabricated building is gradually improved, but the system integration of pipelines is not developed synchronously, the system integration is basically maintained in the original construction process level stage or the design units are less considered, the building design units and the component design units are separated, problems are easily caused in the middle communication coordination process, in addition, factory prefabrication and field pre-embedding are disordered, the development of the prefabricated building is hindered to a certain extent, the number and the positions of pre-embedded pipes and pre-embedded junction boxes in the prefabricated pc component are frequently problematic, and the integration problem of the pipeline system needs to be researched and solved as soon as possible.

SUMMERY OF THE UTILITY MODEL

The utility model provides a can reduce the structure of the internal pre-buried electric pipeline of assembled concrete, not only solve the problem of pipeline system integration, increase the aesthetic property of user's ceiling moreover.

The utility model provides a technical scheme that its technical problem adopted is:

a structure capable of reducing pre-buried electric pipelines in an assembly type concrete body comprises a cast-in-place layer and a factory prefabrication layer positioned below the cast-in-place layer, wherein an upper-layer household socket circuit is pre-buried in the cast-in-place layer, an upper-layer household socket junction box is installed in an upper-layer household wall body, and the upper-layer household socket circuit is gathered in the upper-layer household socket junction box;

the method comprises the following steps that a suspended ceiling is laid at the bottom of a factory prefabricated layer, a suspended ceiling space is formed between the factory prefabricated layer and the suspended ceiling, a lower-layer household lighting junction box and a plurality of lower-layer household lighting lines communicated with the lower-layer household lighting junction box are installed in the suspended ceiling space, a plurality of lamps are installed on the suspended ceiling, and the lamp lines are collected into the lower-layer household lighting junction box;

the lighting circuits of the lower-layer households are communicated with the wireless lighting shunt controller;

a plurality of wireless control switches are arranged on the wall body of the lower-layer household, and the wireless control switches are in wireless connection with the wireless illumination shunt controller;

as a further preference of the utility model, a wireless transmitting module is arranged in the wireless control switch, a wireless receiving module is arranged in the wireless lighting shunt controller, and the wireless transmitting module is matched with the wireless receiving module;

as a further preferred aspect of the present invention, the wireless control switch and the wireless lighting shunt controller are connected by using 868.35MHZ frequency;

as a further preferred aspect of the present invention, the number of the wireless control switches is the same as the number of the lighting circuits of the lower-floor dwelling;

as the utility model discloses a further preferred, aforementioned cast-in-place layer thickness is 70mm, and the prefabricated layer thickness of mill is 60 mm.

Through above technical scheme, for prior art, the utility model discloses following beneficial effect has:

1. the wireless lighting shunt controller installed in the ceiling space of the utility model is connected with one strong current incoming line of an indoor distribution box and is connected with each indoor lighting control circuit, and meanwhile, the wireless control switch is installed in each room, compared with the traditional wall chiseling installation mode, the wireless lighting shunt controller not only saves the installation time, but also protects the structural strength and the integrity of the wall body;

2. the utility model discloses all interior control scheme all lay in the furred ceiling space, and need not pre-buried pipeline, and the maximize reduces the internal pre-buried electric pipeline quantity of prefabricated concrete structure, ensures the security of prefabricated structure system.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic overall structure diagram of a preferred embodiment of the present invention;

fig. 2 is a schematic structural diagram of the wireless lighting shunt controller according to the preferred embodiment of the present invention.

In the figure: the wireless lighting shunt controller is characterized in that the wireless lighting shunt controller is 1, the wireless control switch is 2, the cast-in-place layer is 3, the factory prefabricated layer is 4, the ceiling space is 5, the upper-layer household socket circuit is 6, the lower-layer household lighting circuit is 7, the upper-layer household socket junction box is 8, the lower-layer household lighting junction box is 9, and the lamp is 10.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

In the existing building electrical design industry, a large number of electrical strong and weak power pipelines need to be embedded in an assembly type precast concrete component, and due to the fact that a building design unit and a component design unit are separated, problems are easily caused in the communication and coordination process among all units, most directly, problems often occur in the number and positions of embedded pipes and embedded junction boxes in a prefabricated assembly type pc component, and therefore later-stage grooving and punching are needed, and the safety of an assembly type building structure system is damaged.

Based on the above problems, the present application provides an embodiment:

as shown in fig. 1, comprises a cast-in-situ layer 3 and a factory-prefabricated layer 4 positioned below the cast-in-situ layer,

an upper-layer household socket circuit 6 is pre-buried in the cast-in-place layer 3, an upper-layer household socket junction box 8 is installed in the upper-layer household wall, and the upper-layer household socket circuit 6 is converged into the upper-layer household socket junction box 8; that is to say, the lighting pipeline can no longer be pre-buried in the cast-in-place layer 3, and only the upper layer household socket line 6 needs to be laid in the layer, and the upper layer household socket line 6 is converged into the upper layer household socket junction box 8, so that the thickness of the cast-in-place layer 3 can be reduced by about 10mm, and the height of 70mm is achieved.

A suspended ceiling is laid at the bottom of a factory prefabricated layer 4, a suspended ceiling space 5 is formed between the factory prefabricated layer 4 and the suspended ceiling, a lower-layer household lighting junction box 9 and a plurality of lower-layer household lighting lines 7 communicated with the lower-layer household lighting junction box are arranged in the suspended ceiling space 5, a plurality of lamps 10 are arranged on the suspended ceiling, and the lines of the lamps 10 are collected into the lower-layer household lighting junction box 9;

a wireless illumination shunt controller 1 is also installed in the ceiling space 5, and is simultaneously communicated with a plurality of lower-layer household illumination lines 7 as shown in fig. 2, namely an outgoing line at the tail end of the wireless illumination shunt controller 1 is determined according to the number of control loops of the lamp 10 in the actual engineering;

after being led out from a circuit breaker of an illumination loop in a finished house, the finished house is directly connected to a wireless illumination shunt controller 1 in a ceiling space 5, the wireless illumination shunt controller 1 in the embodiment is provided with a lightning protection circuit, so that potential safety hazards caused by lightning strike, short circuit, overload, electric leakage and the like of household appliances can be effectively prevented, then a plurality of lower-layer household illumination circuits 7 are derived from the wireless illumination shunt controller 1, each lower-layer household illumination circuit 7 is connected with a corresponding lamp 10 control loop (the rated current of a wiring terminal in each control loop is 10A at most) through a lower-layer household illumination junction box 9, a plurality of wireless control switches 2 are installed on the wall of a lower-layer household, each wireless control switch 2 corresponds to the lamps 10 in one control loop, namely the number of the wireless control switches 2 is determined according to the number of the control loops of the lamps 10 in actual engineering, the wireless control switch 2 and the wireless illumination shunt controller 1 are controlled by wireless transmission, so that the defects of wall surface slotting and top plate pre-buried pipe in the traditional control mode are overcome, the strength and integrity of the wall structure are protected, and the installation time is saved;

the wireless control switch 2 is connected with the wireless illumination shunt controller 1 at 868.35MHz, so that the wireless illumination shunt controller has the advantages of strong wall penetration capability, strong anti-interference capability and low power, the wireless illumination shunt controller 1 can realize the control logic between the wireless illumination shunt controller 1 and the wireless control switch 2 when leaving factory, meanwhile, the wireless control switch 2 can also adjust the control logic by self dialing of a user at the later stage, and finally, the control relation between the lamp 10 in a room and the wireless control switch 2 is realized;

meanwhile, the wireless illumination shunt controller 1 is connected to pipelines of control loops of all the lamps 10 at the tail end and is completely laid in the ceiling space 5, so that illumination pipelines can not be pre-buried in the cast-in-place layer 3, and the defect of pre-buried pipes in a floor slab in the traditional control mode is further overcome.

In this application, use solar energy and lithium cell cooperation to supply power for wireless control switch 2, need not to change the battery, life is up to more than 5 years.

A wireless transmitting module is arranged in the wireless control switch 2, a wireless receiving module is arranged in the wireless illumination shunt controller 1, and the wireless transmitting module is matched with the wireless receiving module; by using the RF wireless module, single-gang, double-gang, and multi-gang control of any indoor luminaire 10 can be easily achieved.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The meaning of "and/or" as used herein is intended to include both the individual components or both.

The term "connected" as used herein may mean either a direct connection between components or an indirect connection between components via other components.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (5)

1. The utility model provides a can reduce the structure of the internal pre-buried electric pipeline of assembled concrete, includes cast-in-place layer and the prefabricated layer of mill that is located its below, its characterized in that: pre-burying an upper-layer household socket line in a cast-in-place layer, installing an upper-layer household socket junction box in an upper-layer household wall body, and collecting the upper-layer household socket line into the upper-layer household socket junction box;

the method comprises the following steps that a suspended ceiling is laid at the bottom of a factory prefabricated layer, a suspended ceiling space is formed between the factory prefabricated layer and the suspended ceiling, a lower-layer household lighting junction box and a plurality of lower-layer household lighting lines communicated with the lower-layer household lighting junction box are installed in the suspended ceiling space, a plurality of lamps are installed on the suspended ceiling, and the lamp lines are collected into the lower-layer household lighting junction box;

a wireless illumination shunt controller is also arranged in the ceiling space and is simultaneously communicated with a plurality of lighting circuits of the lower-layer households;

a plurality of wireless control switches are installed on the wall body of the lower-layer household, and the wireless control switches are in wireless connection with the wireless illumination shunt controller.

2. The structure capable of reducing the pre-buried electric pipelines in the fabricated concrete body according to claim 1, characterized in that: a wireless transmitting module is arranged in the wireless control switch, a wireless receiving module is arranged in the wireless illumination shunt controller, and the wireless transmitting module is matched with the wireless receiving module.

3. The structure capable of reducing the pre-buried electric pipelines in the fabricated concrete body according to claim 2, characterized in that: the wireless control switch is connected with the wireless illumination shunt controller by adopting 868.35MHZ frequency.

4. The structure capable of reducing the pre-buried electric pipelines in the fabricated concrete body according to claim 1, characterized in that: the number of the wireless control switches is the same as that of the lighting circuits of the lower-layer households.

5. The structure capable of reducing the pre-buried electric pipelines in the fabricated concrete body according to claim 1, characterized in that: the thickness of the cast-in-situ layer is 70mm, and the thickness of the factory prefabricated layer is 60 mm.

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