CN114775952A

CN114775952A - Inside pre-buried formula air pipe of energy-saving building

Info

Publication number: CN114775952A
Application number: CN202210551239.2A
Authority: CN
Inventors: 朱坤雷; 刘旭; 万斌
Original assignee: Jinan First Construction Group Co Ltd
Current assignee: Jinan First Construction Group Co Ltd
Priority date: 2022-05-18
Filing date: 2022-05-18
Publication date: 2022-07-22

Abstract

The invention discloses an energy-saving building internal pre-embedded ventilation pipeline, which comprises a wall plate in a building, wherein the front end of the wall plate is cast and formed with a prefabricated integrated pipe, and the outer side of the integrated pipe is provided with a ventilator, the invention is provided with an installation mode of combining the prefabricated ventilation pipeline with the building body, when the energy-saving building internal pre-embedded ventilation pipeline is installed, straight connecting reinforcing steel bars are inserted into the reinforcing steel bar holes at the outer part of the wall body reserved with the reinforcing steel bar holes, then the connecting reinforcing steel bars are bent, so that a main pipeline and the wall body are preliminarily connected, an elongated strip is contacted with the wall body to form a cavity, other main pipelines are assembled from the upper direction and the lower direction, the reinforcing steel bars are ensured to be inserted into butt joint grooves in a staggered manner, finally, compound mold concrete is injected from a pouring hole at the outer part of the wall body pipe and the wall plate, thus the pre-embedded ventilation pipeline is realized, the problem that the existing ventilation pipeline is mostly built by adopting masonry or composite plate pouring and the like is solved, the construction process is troublesome and the construction process is inconvenient.

Description

Inside pre-buried formula air pipe of energy-saving building

Technical Field

The invention relates to the field of energy-saving buildings, in particular to a pre-buried ventilation pipeline in an energy-saving building.

Background

The energy-saving building is a basic method following climate design and energy saving, and the low-energy-consumption building is designed after researching building planning subareas, groups and monomers, building orientation, space, solar radiation, wind direction and external space environment.

Disclosure of Invention

The invention aims to provide an energy-saving building internal pre-embedded ventilation pipeline to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an energy-saving building internal pre-embedded ventilation pipeline comprises a wall plate in a building, wherein a prefabricated integral pipe is cast at the front end of the wall plate, heat-insulating pipes are assembled inside the integral pipe and the wall plate, openings are formed in the outer sides of the heat-insulating pipes and the integral pipe, and a ventilator is assembled inside the openings;

the wallboard comprises a wall body, wherein a steel bar hole for penetrating through a steel bar and a pouring hole for connection are formed in the outer side of the wall body;

the integrated pipe comprises a main pipeline, connecting reinforcing steel bars and reinforcing steel bars are distributed in the main pipeline, and groove body structures which are in pouring butt joint with the connecting parts are formed in the top and the front end of the main pipeline;

the ventilator comprises a fixing frame, a plurality of opening and closing fan blades are hinged to the inside of the fixing frame, a connecting rod is hinged to the outer side end of each opening and closing fan blade, the outer side of each connecting rod is provided with a connecting shaft with an S shape, a motor is assembled at the inner side end of each connecting shaft, the motor can drive the connecting rods and the connecting shafts to overturn, then the opening and closing of the opening and closing fan blades can be driven, a heat preservation block capable of moving back and forth is assembled at the rear of the fixing frame, and the front surface of the heat preservation block can cover the opening.

Preferably, the wall body is divided into 2 types, one type is a vertical ventilating duct rear wall, and the other type is a plane-mounted composite floor slab.

Preferably, the cell body structure includes butt joint groove and combination groove, the butt joint groove is the several font after pouring the completion, and the reinforcing bar that is located the rear end of main part pipeline lengthens backward, and the reinforcing bar of extension can insert the inside in butt joint groove when the equipment.

Preferably, the reinforcing steel bars are bound on the inner sides of the connecting steel bars, the connecting steel bars serve as main bearing structures, and the reinforcing steel bars on the inner sides serve as main structural strength inner filling materials.

Preferably, the outside integrated into one piece of main part pipeline has the extension strip, and the top inboard reservation of extension strip has the joint groove, and the joint groove with to the integrative intercommunication in groove, can wrap up connecting reinforcement and reinforcing bar completely after joint groove and the groove of butt joint are pour.

Preferably, the inside of the main pipe is formed with a reinforcing bar groove.

Preferably, the constant head tank has been seted up to the four corners department of fixed frame, the slide bar has been cup jointed to the inside of constant head tank, the outer skin weld of slide bar has the slide, the slide cup joints the internal surface at the constant head tank, the internal surface of fixed frame is equipped with the carriage, the internal surface of carriage is equipped with the expansion bend, and the rear end assembly of expansion bend is at the front end of heat preservation piece.

Preferably, the outer side of the connecting frame is uniformly provided with mounting holes, and the inner surfaces of the mounting holes are assembled at the outer side ends of the opening and closing fan blades.

Preferably, the top and the bottom of the opening and closing fan blade are both abutted to the inner surface of the connecting frame, and the sealing strip is adhered to the outer edge of the opening and closing fan blade at the topmost end and the bottommost end.

Compared with the prior art, the invention has the beneficial effects that: the invention provides an installation mode of combining a prefabricated ventilating duct with a building body, during installation, straight connecting reinforcing steel bars are inserted into reinforcing steel bar holes reserved outside a wall body, then the connecting reinforcing steel bars are bent, so that a main pipeline is preliminarily connected with the wall body, an elongated strip is contacted with the wall body to form a cavity, other main pipelines are assembled from the upper direction and the lower direction, the reinforcing steel bars are ensured to be inserted into butt joint grooves in a staggered mode, finally, mold closing concrete is injected from a pouring hole outside the wall body, and therefore, the integrated pipeline and the wall body are combined to form the pre-buried ventilating duct.

Drawings

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is an assembly schematic of the present invention;

FIG. 3 is a schematic view of the assembled structure of the present invention;

FIG. 4 is a schematic view of a cut-away construction of the ventilator of the present invention;

FIG. 5 is a schematic view of the ventilator assembly of the present invention;

fig. 6 is a top view of the present invention.

In the figure: 1. wallboard, 11, wall body, 12, reinforcing steel bar hole, 13, pouring hole, 2, integrative pipe, 21, main body pipeline, 22, butt joint groove, 23, extension bar, 24, joint groove, 25, vent, 26, reinforcing steel bar groove, 27, connecting steel bar, 28, reinforcing steel bar, 3, insulating tube, 31, insulating layer, 32, connector, 4, ventilator, 41, fixed frame, 42, positioning groove, 43, slide bar, 44, sliding sheet, 45, insulating block, 46, connecting frame, 47, expansion bend, 48, mounting hole, 49, opening and closing fan blade.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: an energy-saving building internal pre-embedded ventilation pipeline comprises a wall plate 1 in a building, wherein a prefabricated integrated pipe 2 is cast at the front end of the wall plate 1, a heat preservation pipe 3 is assembled inside the integrated pipe 2 and the wall plate 1, openings are formed in the outer sides of the heat preservation pipe 3 and the integrated pipe 2, and a ventilator 4 is assembled inside the openings;

the wallboard 1 comprises a wall body 11, wherein a reinforcing steel bar hole 12 for penetrating through a reinforcing steel bar and a pouring hole 13 for connection are formed in the outer side of the wall body 11;

the integral pipe 2 comprises a main pipe 21, connecting steel bars 27 and reinforcing steel bars 28 are distributed in the main pipe 21, and groove body structures which are in pouring butt joint with the connecting parts are formed in the top and the front end of the main pipe 21;

the ventilator 4 comprises a fixed frame 41, a plurality of opening and closing fan blades 49 are hinged inside the fixed frame 41, a connecting rod is hinged to the outer side end of each opening and closing fan blade 49, an S-shaped connecting shaft is assembled on the outer side of each connecting rod, a motor is assembled at the inner side end of each connecting shaft, the connecting rods and the connecting shafts can be driven to turn over through the rotation of the motors, then the opening and closing of the opening and closing fan blades 49 can be driven, a heat preservation block 45 capable of moving back and forth is assembled behind the fixed frame 41, and the front surface of the heat preservation block 45 can cover the opening;

the invention provides an installation mode of combining a prefabricated ventilating duct with a building body, during installation, straight connecting reinforcing steel bars 27 are inserted into reinforcing steel bar holes 12 from the outer part of a wall body reserved with the reinforcing steel bar holes 12, then the connecting reinforcing steel bars 27 are bent, so that a main pipeline 21 is primarily connected with the wall body 11, an extension bar 23 is contacted with the wall body 11 to form a cavity, other main pipelines 21 are assembled from the upper direction and the lower direction, the reinforcing steel bars 28 are ensured to be inserted into butt joint grooves 22 in a staggered mode, and finally, die-assembling concrete is injected from a pouring hole 13 in the outer part of the wall body 11, so that the integrated pipeline 2 and the wall plate 1 are combined together to realize the pre-embedded ventilating duct, and the problems that the existing ventilating duct is mostly built by building or pouring a composite plate and the like, the building process is troublesome, and the construction process is inconvenient are solved effectively.

Specifically, the wall 11 is divided into 2 types, one type is a vertical ventilating duct rear wall, and the other type is a plane-mounted laminated floor, so the invention can be mounted by adopting two mounting modes, the mounting of a vertical shaft ventilating duct and the mounting of a parallel ventilating duct of a roof in a building as required can be realized, the mounting modes are diversified, the wall 11 can be of various thicknesses, and the schematic mode is adopted in the figure of the invention.

Particularly, the cell body structure includes butt joint groove 22 and combination groove 24, and butt joint groove 22 is a few font after pouring the completion, and the reinforcing bar 27 that is located the rear end of main part pipeline 21 lengthens backward, and the reinforcing bar 27 of extension can insert the inside of butt joint groove 22 when the equipment, utilizes the cell body structure, can be in the same place with the equipment of various connecting pieces and even handing-over through the mode of pouring, improves structural strength, guarantees the connection effect.

Specifically, the reinforcing steel bars 28 are bound to the inner sides of the connecting steel bars 27, the connecting steel bars 27 serve as main bearing structures, the reinforcing steel bars 28 on the inner sides serve as main structural strength inner fillers, the connecting steel bars 27 serve as main limiting steel bars of the frame, and the reinforcing steel bars 28 serving as main supporting concrete structures inside are matched to improve the structural strength and the connection strength of the integrated pipe 2.

Particularly, main part pipeline 21's outside integrated into one piece has the extension strip 23, and the top inboard reservation of extension strip 23 has combination groove 24, and combination groove 24 and the integrative intercommunication of butt joint groove 22, can wrap up connecting reinforcement 27 and reinforcing bar 28 completely after combination groove 24 and the butt joint groove 22 are pour, the mode of adopting the grout to pour can pour the gap between integrative pipe 2 and the wall 1 together to improve intensity, guarantee the qualification rate of building.

Specifically, a reinforcing steel bar groove 26 is formed inside the main pipeline 21, before the integrated pipe 2 is pre-embedded and assembled, the heat preservation pipe 3 is assembled inside the integrated pipe 2, the heat preservation pipe 3 comprises a main heat preservation layer 31, a connection port 32 is formed in the outer side of the heat preservation layer 31, a ventilation opening 25 is formed in the outer side of the integrated pipe 2, the connection port 32 corresponds to the ventilation opening, the edge size of a heat preservation block 45 is 2-5 cm wider than the edge of the ventilation opening 25, the edges of the ventilation opening 25 can be attached to each other, the heat preservation effect is achieved inside the ventilation pipeline, unnecessary temperature exchange is reduced, and the energy-saving and heat preservation effects are achieved;

and some air conditioners, ventilators and other equipment can be arranged in the ventilation pipe, and the ventilation pipe can be used as a pipeline of the air conditioner when in use.

Specifically, positioning grooves 42 are formed in four corners of a fixing frame 41, sliding rods 43 are sleeved inside the positioning grooves 42, sliding pieces 44 are welded on the outer surfaces of the sliding rods 43, the sliding pieces 44 are sleeved on the inner surfaces of the positioning grooves 42, a connecting frame 46 is assembled on the inner surface of the fixing frame 41, a telescopic device 47 is assembled on the inner surface of the connecting frame 46, the rear end of the telescopic device 47 is assembled at the front end of a heat insulation block 45, a connecting rod and a motor structure used outside an opening and closing fan blade 49 adopt a connecting rod, a steering engine rod and a stepping motor which are commonly used as an opening and closing structure of a steering engine, a steering engine with the same steering engine principle of a model machine can be directly adopted, the structure is not suitable for a motor structure, a direct mechanical connection mode is adopted, manual opening and closing are realized, if an electric mode is adopted, an electromagnetic relay switch is required to be started and is connected to a control system of a background, can remote control and control, can cooperate automatic system and wisdom building to realize the purpose of green building.

Specifically, mounting holes 48 are uniformly opened on the outer side of the connecting frame 46, and the inner surfaces of the mounting holes 48 are fitted to the outer ends of the opening/closing blades 49.

Particularly, the top and the bottom of flabellum 49 that opens and shuts all support the internal surface at the link 46, and lie in the outer border department of the flabellum 49 that opens and shuts of topmost and least significant end and paste and have the sealing strip, can seal the structure department of the flabellum 49 that opens and shuts and the ore body through the sealing strip structure.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an inside pre-buried formula air pipe of energy-saving building, includes wallboard (1) in the building, its characterized in that: the front end of the wallboard (1) is cast and molded with a prefabricated integrated pipe (2), the integrated pipe (2) and the wallboard (1) are internally provided with a heat preservation pipe (3), the outer sides of the heat preservation pipe (3) and the integrated pipe (2) are provided with openings, and the openings are internally provided with ventilators (4);

the wall plate (1) comprises a wall body (11), and a reinforcing steel bar hole (12) for penetrating through a reinforcing steel bar and a pouring hole (13) for connection are formed in the outer side of the wall body (11);

the integrated pipe (2) comprises a main pipeline (21), connecting reinforcing steel bars (27) and reinforcing steel bars (28) are distributed in the main pipeline (21), and groove body structures which are in pouring butt joint with connecting parts are formed in the top and the front end of the main pipeline (21);

ventilator (4) are including fixed frame (41), the inside of fixed frame (41) articulates there are a plurality of flabellum (49) that open and shut, and the outside end that opens and shuts flabellum (49) articulates there is a connecting rod, and the outside of connecting rod is equipped with the connecting axle that has an S type, and the medial extremity assembly motor of connecting axle, the rotation of motor can drive connecting rod and connecting axle upset, and then can drive opening and shutting of flabellum (49), and be equipped with heat preservation piece (45) that can the back-and-forth movement at the rear of fixed frame (41), the front surface of heat preservation piece (45) can cover the opening.

2. The energy-saving building internal pre-buried ventilation duct of claim 1, characterized in that: the wall body (11) is divided into 2 types, one type is a rear wall of a vertical ventilating duct, and the other type is a laminated floor slab installed in a plane.

3. The energy-saving building internal pre-buried ventilation duct of claim 1, characterized in that: the cell body structure includes butt joint groove (22) and combines groove (24), butt joint groove (22) are several font after pouring the completion, and reinforcing bar (27) that are located the rear end of main part pipeline (21) are the extension backward, and reinforcing bar (27) of extension can insert the inside of butt joint groove (22) when the equipment.

4. The energy-saving building internal pre-buried ventilation duct of claim 1, characterized in that: the reinforcing steel bars (28) are bound on the inner sides of the connecting steel bars (27), the connecting steel bars (27) are used as main bearing structures, and the reinforcing steel bars (28) on the inner sides are used as main structural strength inner filling materials.

5. The energy-saving building internal pre-buried ventilation pipeline according to claim 1, characterized in that: the outside integrated into one piece of main part pipeline (21) has elongation strip (23), and the top inboard reservation of elongation strip (23) has combination groove (24), and combines groove (24) and butt joint groove (22) an organic whole intercommunication, combines groove (24) and butt joint groove (22) to pour the back and can wrap up connecting reinforcement (27) and reinforcing bar (28) completely.

6. The energy-saving building internal pre-buried ventilation pipeline according to claim 1, characterized in that: the inside of the main body pipeline (21) is formed with a reinforcing steel bar groove (26).

7. The energy-saving building internal pre-buried ventilation duct of claim 1, characterized in that: constant head tank (42) have been seted up to the four corners department of fixed frame (41), slide bar (43) have been cup jointed to the inside of constant head tank (42), the outer skin weld of slide bar (43) has slide (44), slide (44) cup joint the internal surface at constant head tank (42), the internal surface of fixed frame (41) is equipped with coupling frame (46), the internal surface of coupling frame (46) is equipped with expansion bend (47), and the rear end assembly of expansion bend (47) is at the front end of insulating block (45).

8. The energy-saving building internal pre-buried ventilation duct of claim 7, characterized in that: mounting holes (48) are uniformly formed in the outer side of the connecting frame (46), and the inner surfaces of the mounting holes (48) are assembled at the outer side ends of the opening and closing fan blades (49).

9. The energy-saving building internal embedded type ventilation duct according to claim 8, characterized in that: the top and the bottom of the opening and closing fan blade (49) are both propped against the inner surface of the connecting frame (46), and the sealing strip is pasted at the outer edge of the opening and closing fan blade (49) which is positioned at the topmost end and the lowest end.