CN205046697U - Compound energy -conserving antidetonation wall body - Google Patents

Abstract

The utility model belongs to the technical field of building structure, specific saying discloses a compound energy -conserving antidetonation wall body. Its technical scheme who constitutes above -mentioned wall body including: including the composite wall that several layers districts comprise clamp heat preservation in the middle of the inside and outside uniform thickness concrete layer, every layer district can design a plurality of floors, constitute the thickness of the upper strata district composite wall and the beam column body is less than the thickness of the district composite wall of lower floor and the beam column body. Wherein, composite wall be connected with the beam column that the is equipped with body and edge member, and with composite wall connects the beam column body that is T, L and (b) ten (b) type structure accompanied the heated board for the centre composite beam and composite columns. This compound energy -conserving antidetonation wall body has the characteristics of antidetonation, energy -conservation and fire prevention.

Description

A kind of composite energy-saving antidetonation body of wall

Technical field

The utility model belongs to building structure technology field, particularly relates to a kind of composite energy-saving antidetonation body of wall.

Background technology

Body of wall is the element forming various building, and the many employings of current construction wall are formed at the arranged outside adiabator plate of concrete or brick mix structure.There is following defect in the wall body structure of this structure: one, forms that the insulation layer of body of wall is as easy as rolling off a log to come off, and the slump of very easily hurting sb.'s feelings occurs the warming plate that there will be whole body of wall when coming off; Its two, insulation layer is easy to occur that hollowing and ghost split phenomenon under being exposed to the sun of accumulating over a long period and wind and rain are wrecked, and has buried hidden danger for breaking out of fire of being ignited by inside; Its three, the body of wall of this structure is difficult to meet the needs of internal and external ornament to body of wall.

Utility model content

The purpose of this utility model is just to provide a kind of composite energy-saving antidetonation body of wall with quake-resistant safety, energy-conservation and flameproof effect.

To achieve these goals, the technical solution adopted in the utility model is:

A kind of composite energy-saving antidetonation body of wall, is characterized in that:

The combined wall comprise upper and lower some floor districts, being made up of inside and outside uniform thickness layer of concrete, therebetween insulation layer; Wherein,

Described combined wall is connected with the composite beam be provided with, combined column and edge member;

The thickness forming described top regions combined wall and composite beam cylinder is less than the thickness of described lower floor district's combined wall and composite beam cylinder.

The additional technical feature forming above-mentioned a kind of composite energy-saving antidetonation body of wall also comprises:

---described combined wall connect in T, L and tenthe beam-column of type structure, this beam-column accompanies the composite beam of warming plate by centre and combined column is formed;

---described floor district can design some numbers of floor levels;

---the thickness of described top regions combined wall and beam-column is less than the thickness of described lower floor district's combined wall and beam-column.

A kind of composite energy-saving antidetonation body of wall provided by the utility model, compared with prior art have the following advantages: one, the combined wall formed by inside and outside uniform thickness layer of concrete therebetween insulation layer due to this composite energy-saving antidetonation body of wall is formed, therefore can effectively avoid insulation layer to come off, the generation of hollowing crack performance, make construction wall have the feature of antidetonation and safety; Its two, the thickness due to top regions combined wall and beam-column is less than the thickness of lower floor's district's combined wall and beam-column, greatly can reduce the bearing capacity for the lower lower body of wall of bearing requirements, the structure of body of wall is more rationally also saved material.

Accompanying drawing explanation

Fig. 1 is the structural representation of the first composite energy-saving antidetonation body of wall;

Fig. 2 is the structural representation of the second composite energy-saving antidetonation body of wall;

Fig. 3 is and the L-type composite beam of composite energy-saving antidetonation wall connecting, combined column structural representation;

Fig. 4 is and the T-shaped composite beam of composite energy-saving antidetonation wall connecting, combined column structural representation;

Fig. 5 is with composite energy-saving antidetonation wall connecting tentype composite beam, combined column structural representation.

Detailed description of the invention

Be described in further details below in conjunction with the structure of accompanying drawing to a kind of composite energy-saving antidetonation body of wall that the utility model provides.

As shown in Figure 1, 2, the coaxial line provided for utility model and two kinds of composite energy-saving anti-seismic wall structure schematic diagrames of non-coaxial line.Namely the structure forming this body of wall comprises A, B, C floor district (requiring to set floor district number according to the height of building and structure stress); There is warming plate 1 respectively, be arranged at the steel mesh reinforcement 2 of its two sides and connect the oblique cutting dowel 3 of two steel mesh reinforcements and form composite reinforcing steel bar network frame plate 4; The concrete 5 of building uniform thickness in composite reinforcing steel bar network frame plate 4 both sides respectively forms composite energy-saving antidetonation body of wall 6; Wherein, be connected with the composite beam cylinder 7 be provided with respectively at the combined wall of each floor; The thickness A floor district thickness forming combined wall 6 is less than the thickness in B floor district, and the thickness in B floor district is less than the thickness in C floor district.In the structure of i.e. above-mentioned composite energy-saving antidetonation body of wall 6, because insulation layer 1 is sandwiched in the middle of the layer of concrete 5 of both sides setting, therefore this body of wall can effectively avoid insulation layer because of the generation causing fire phenomena of burning, and the thickness due to top regions body of wall is less than the thickness of adjacent lower district body of wall, the floor space usable floor area that top regions body of wall is formed therefore can also be increased.

In the structure forming above-mentioned a kind of composite energy-saving antidetonation body of wall:

---the contact that composite beam cylinder 7 and combined wall 6 connect and compose is for shown in T-shaped and Fig. 5 in L-type or shown in Fig. 4 as shown in Figure 3 tentype structure, and the composite beam cylinder 7 forming this structure is formed for inside and outside uniform thickness concrete 5 therebetween insulation layer 1;

---at combined wall as shown in Figure 1 owing to being coaxial line structure, B floor district and A floor district thickness of wall body reduce thickness L along axis both sides simultaneously, and comparatively C floor district increases B floor district to indoor usage space be respectively L, A floor district is 2L; At combined wall as shown in Figure 2 owing to being non-coaxial line structure, the outside forming combined wall is the structure that is leveled up and down, B floor district and A district thickness of wall body are only at interior surveys minimizing thickness H, and H is 2 times of L, and Fig. 2 also increases by 2 times than usage space in the B floor district of Fig. 1 and A floor compartment.Therefore this utility model can improve floor space usable floor area further;

---forming combined wall can according to its body height overall design level district, building number, and the sub-number of floor levels of one deck, two-layer or more floor is set in every one deck district---as being set with composite beam cylinder 71 and 72 on the body of wall in A floor district, make just to be provided with three floors A1, A2 and A3 in this floor district;

---in order to improve the heat-insulating property of body of wall further, in the above-mentioned beam-column 7 of formation, being provided with insulation layer 1, making whole building eliminate cold-heat bridge;

---in order to improve the anti-seismic performance of body of wall further, form the inside and outside layer of concrete of combined wall for waiting thick structure; Overcome when inside and outside layer of concrete not uniform thickness time, and the inside and outside layer of concrete occurred can not cooperative bearing, thus causes wall body structure stability to reduce the generation of phenomenon.

Claims (4)

1. a composite energy-saving antidetonation body of wall, is characterized in that:

The combined wall comprise upper and lower some floor districts, being made up of inside and outside uniform thickness layer of concrete, therebetween insulation layer; Wherein,

Described combined wall is connected with the composite beam be provided with, combined column and edge member;

The thickness forming described top regions combined wall and composite beam cylinder is less than the thickness of described lower floor district's combined wall and composite beam cylinder.

2. a kind of composite energy-saving antidetonation body of wall as claimed in claim 1, is characterized in that: described combined wall connect in T, L and tenthe beam-column of type structure, this beam-column accompanies the composite beam of warming plate by centre and combined column is formed.

3. a kind of composite energy-saving antidetonation body of wall as claimed in claim 1, is characterized in that: described floor district can design some numbers of floor levels.

4. a kind of composite energy-saving antidetonation body of wall as claimed in claim 1, is characterized in that: the thickness of described top regions combined wall and beam-column is less than the thickness of described lower floor district's combined wall and beam-column.