CN208309985U - Without heat bridge heat-insulation wall plate and its connecting node - Google Patents

Abstract

The utility model provides a kind of no heat bridge heat-insulation wall plate and its connecting node, belongs to technical field of buildings.Including heat-insulation wall plate, reinforcing bar portion, concrete section and connecting node；Reinforcing bar portion is attached fixation to heat-insulation wall plate；The end junction of two the utility model has connecting node to be fixedly connected；Inside is filled with concrete section.The utility model has the beneficial effects that overall performance is good, assembling speed easy for construction is fast, reinforcing bar portion connects heat-insulation wall plate junction, and it is anchored, improve the bonding strength of anchorage effect and heat-insulation wall plate, connect it closely integral, improve anti-seismic performance, there is heat insulation cementing mortar that can keep the temperature under the premise of guaranteeing adhesion strength therebetween, horizontal joint mutually staggers when connection, entire wallboard is without lateral mortar joint after the connection of muti-piece wallboard, it can avoid non-heat preservation position without using other heat preserving modes, wallboard connects the heat bridge effect at the positions such as seam crossing, guarantee to eliminate heat bridge in wallboard while bonding strength, improve wallboard heat insulation effect.

Description

Without heat bridge heat-insulation wall plate and its connecting node

Technical field

The utility model relates to a kind of no heat bridge heat-insulation wall plate and its connecting nodes, belong to technical field of buildings.

Background technique

Building energy conservation is the policy that national government is advocated energetically, and one of major measure is to be kept the temperature, with The transmitting of heat is inside and outside this control room to achieve the effect that building energy conservation.Whether building being capable of cool in summer and warm in winter and building fire protection The superiority and inferiority of energy depends primarily in house for constituting the integral material on roof, wall and floor each section.

After the 1970s, the application of the development and thermal insulation material of external most attention thermal insulation material under construction, Heat insulating material is also constantly emerging in large numbers, and makes every effort to the consumption that the energy is greatly reduced, thus reduce environmental pollution and temperature Room effect.

However, China, before 1980, the development of thermal insulation material is very slow, and the connectivity of wall entirety is poor, Shock resistance is not high, affects and uses and promote, but by effort in more than 30 years, especially passes through nearly 20 years high speed developments, no Few product from scratch, from single to diversification, quality from low to high, formed with expanded perlite, mineral wool, mineral wool, The complete industry of variety protection based on foamed plastics, refractory fibre, heat-insulating calcium silicate product etc..Polyurethane material is current state Thermal insulation material most general and that performance is best on border.Hard polyaminoester has many excellent performances, as insulation material Material, is widely used in roof, wall, ceiling, floor, the door and window etc. of building in American-European countries.

According to statistics, similar in the weather compared with developed country, China's construction unit area energy consumption is still their 3~5 times. Building energy conservation is maximum, the most direct, the effective mode of potentiality in various energy saving ways, is to alleviate the most effective of energy shortage to arrange It applies.And in building energy consumption, because energy consumption accounts for about 50% or more of building total energy consumption caused by exterior wall, thus wall thermal insulating is to realize The key of building energy conservation.Clay brick production is well-known the harm of environment, and burning will expend a large amount of energy, and The exhaust gas of generation causes air pollution, greenhouse effects and acid rain, and there are heat insulation effects to keep excellent for a long time for existing building The problem of state, reason are that the heat-preservation cotton in wall can absorb and enter the intracorporal moisture of wall, wall after the long period in air Internal insulation cotton can decline due to quality of making moist increases, and insulating power weakens, and the level of comfort of inhabitation also decreases.

Utility model content

In order to solve above-mentioned technical problem, the utility model provides a kind of no heat bridge heat-insulation wall plate and its connection section Point can avoid the positions heat bridge effects such as the non-heat preservation position of wallboard, wallboard connection seam crossing without using other heat preserving modes, guarantee Wallboard bonding strength eliminates heat bridge in wallboard simultaneously, reduces energy consumption, improves heat insulation effect.

The technical solution adopted in the utility model is as follows:

Without heat bridge heat-insulation wall plate and its connecting node, including heat-insulation wall plate, reinforcing bar portion, concrete section and connecting node；Institute It states reinforcing bar portion and fixation is attached to the heat-insulation wall plate；The end of two no heat bridge heat-insulation wall plates and its connecting node connects The place of connecing has the connecting node to be fixedly connected；The inside of the no heat bridge heat-insulation wall plate and its connecting node is filled with the coagulation Native portion.

Wherein, the heat-insulation wall plate includes main insulation board and auxiliary insulation board, and main insulation board and auxiliary insulation board point are inside and outside two rows of Arrangement is arranged positioned at the main insulation board of same row and auxiliary insulation board using alternate intervals；Two no heat bridge heat-insulation wall plates and its The end junction of connecting node is respectively respectively arranged with protrusion and recess portion, a no heat bridge heat-insulation wall plate and its connecting node Protrusion and no heat bridge heat-insulation wall plate described in another and its recess portion of connecting node it is in mating connection；

The connecting node includes connection lengthwise rib, connection stirrup and heat insulation cementing mortar；Two no heat bridge heat preservations The junction end of wallboard and its connecting node is respectively arranged with several connection lengthwise ribs, and connection stirrup anchors connection lengthwise rib Connection, is arranged heat insulation cementing mortar between two no heat bridge heat-insulation wall plates and its protrusion and recess portion of connecting node.

Wherein, the reinforcing bar portion is formed by fixedly connecting by fixing part of heat insulation board and longitudinal reinforcement；Insulated wall described in adjacent row It is provided through fixing part of heat insulation board between plate, fixation is attached to main insulation board and auxiliary insulation board, several insulation boards are fixed Part is commonly connected on longitudinal reinforcement respectively.

Wherein, longitudinally separated by concrete rib between heat-insulation wall plate described in every row, the concrete rib of adjacent row mutually staggers Setting；Fill concrete intermediate interlayer between two rows of heat-insulation wall plates, and be provided between concrete intermediate interlayer described vertical To reinforcing bar；The outer layer of the heat-insulation wall plate is concrete outer layer, connects the described vertical of several fixing part of heat insulation board jointly It is located in concrete outer layer to reinforcing bar.

Wherein, the main insulation board and the auxiliary insulation board are made of styrofoam or hard polyurethane foam board.

Wherein, the thickness of the concrete outer layer is set as 60mm~70mm；The concrete intermediate interlayer and described mixed The thickness of solidifying soil rib is respectively set to 40mm~60mm；Lateral concrete intermediate interlayer with a thickness of 80mm between two rows of insulation boards More than.

Wherein, the connection lengthwise rib and the connection stirrup are to be welded to connect.

The beneficial effects of the utility model are:

The advantages of the utility model and beneficial effect are that overall performance is good, easy for construction, assembling speed is fast, using connecting hoop Muscle is attached two wallboard junctions, and carries out anchor connection to connection lengthwise rib, improves anchorage effect and connects with wallboard Intensity makes heat-insulation wall plate closely connect into an entirety, improves heat-insulation wall plate anti-seismic performance, and heat preservation is arranged between protrusion and recess portion Adhesive mortar can play the role of the heat preservation of wallboard junction, level when connection between wallboard under the premise of guaranteeing adhesion strength Seam mutually staggers, and entire wallboard can avoid without using other heat preserving modes without lateral mortar joint after the connection of muti-piece wallboard The non-heat preservation position of wallboard, wallboard connect the heat bridge effect at the positions such as seam crossing, guarantee to eliminate wall while wallboard bonding strength Heat bridge in plate reduces energy consumption, improves wallboard heat insulation effect, meets requirement of the China at this stage to insulation board energy saving, solves Determined material loss in architectural process the problems such as.

Detailed description of the invention

Fig. 1 is the cross section of heat-insulation wall plate and its tie point of the utility model without heat bridge heat-insulation wall plate and its connecting node Schematic diagram.

Fig. 2 is the schematic cross-sectional view of heat-insulation wall plate of the utility model without heat bridge heat-insulation wall plate and its connecting node.

Fig. 3 is that the cross section of heat-insulation wall plate end point of the utility model without heat bridge heat-insulation wall plate and its connecting node is illustrated Figure.

In figure, 1 is connection lengthwise rib；2 be connection stirrup；3 be fixing part of heat insulation board；4 be concrete outer layer；5 be concrete Intermediate interlayer；6 be concrete rib；7 be main insulation board；Insulation board supplemented by 8；9 be heat insulation cementing mortar；10 be protrusion；11 be recessed Portion；12 be longitudinal reinforcement.

Specific embodiment

In order to further illustrate the utility model, the utility model is retouched in detail with reference to the accompanying drawings and embodiments It states, but they cannot be interpreted as to the restriction to scope of protection of the utility model.

As shown in FIG. 1 to 3, no heat bridge heat-insulation wall plate and its connecting node mainly include connection lengthwise rib 1, connection stirrup 2, fixing part of heat insulation board 3, concrete outer layer 4, concrete intermediate interlayer 5, concrete rib 6, main insulation board 7, auxiliary insulation board 8, guarantor Warm adhesive mortar 9, protrusion 10, recess portion 11 and longitudinal reinforcement 12 etc..

For the utility model without in heat bridge heat-insulation wall plate and its connecting node, main insulation board 7 and auxiliary insulation board 8 divide inside and outside two rows Arrangement, main insulation board 7 and auxiliary insulation board 8 positioned at same row are arranged using alternate intervals, the main insulation board 7 of every row and auxiliary insulation board 8 Between longitudinally separated by concrete rib 6, the concrete rib 6 of adjacent row mutually staggers setting；Positioned at the main insulation board 7 of same row and auxiliary Insulation board 8 and the therebetween concrete rib 6 for separating are known as row's insulation board, are provided through heat preservation between adjacent row insulation board 3 pairs of plate fixing piece main insulation boards 7 and auxiliary insulation board 8 are attached fixation, and the both ends of several fixing part of heat insulation board 3 are total respectively It is same to be connected on longitudinal reinforcement 12, fill concrete intermediate interlayer 5 between two rows of insulation boards, and between concrete intermediate interlayer 5 It is provided with the longitudinal reinforcement 12 being fixedly connected with several fixing part of heat insulation board 3；Heat-insulation wall plate outer layer is concrete outer layer 4, altogether It is located in concrete outer layer 4 with the longitudinal reinforcement 12 for connecting several fixing part of heat insulation board 3；

The end junction of two heat-insulation wall plates is respectively respectively arranged with protrusion 10 and recess portion 11, when connection, an insulated wall The protrusion 10 of plate and the recess portion 11 of another heat-insulation wall plate are in mating connection；It is respectively set in two heat-insulation wall plate junctions end There are several connection lengthwise ribs 1, heat insulation cementing mortar 9 is set between the protrusion 10 and recess portion 11 for two wallboards being attached, When carrying out wallboard connection, two heat-insulation wall plate junctions are attached using connection stirrup 2, and at the same time playing vertical to connection The effect that muscle 1 surrounds and carries out anchor connection, improves anchorage effect and wallboard bonding strength.

Horizontal joint when two heat-insulation wall plates are attached between wallboard mutually staggers, level when connection between wallboard Seam refers to: the protrusion 10 of one of wallboard is plugged in the recess portion 11 of another wallboard.

Main insulation board 7 and auxiliary insulation board 8 are made of styrofoam or hard polyurethane foam board.

The thickness of concrete outer layer 4 is set as 60mm~70mm.

Concrete intermediate interlayer 5 and the thickness of concrete rib 6 are respectively set to 40mm~60mm.

Connection lengthwise rib 1, connection stirrup 2 are connected using welding manner and are guaranteed to anchor enough.

The thickness of lateral concrete intermediate interlayer 5 will be 80mm or more between two rows of insulation boards.

The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art For art personnel, without departing from the principle of this utility model, several improvements and modifications can also be made, these improve and Retouching also should be regarded as the protection scope of the utility model.

Claims (7)

1. without heat bridge heat-insulation wall plate and its connecting node, it is characterised in that: including heat-insulation wall plate, reinforcing bar portion, concrete section and company Connect node；The reinforcing bar portion is attached fixation to the heat-insulation wall plate；Two no heat bridge heat-insulation wall plates and its connection section The end junction of point has the connecting node to be fixedly connected；The filling of the inside of the no heat bridge heat-insulation wall plate and its connecting node There is the concrete section.

2. no heat bridge heat-insulation wall plate according to claim 1 and its connecting node, it is characterised in that: the heat-insulation wall plate packet Main insulation board (7) and auxiliary insulation board (8), main insulation board (7) and the inside and outside two rows of arrangements of auxiliary insulation board (8) point are included, positioned at same row's Main insulation board (7) and auxiliary insulation board (8) are arranged using alternate intervals；Two no heat bridge heat-insulation wall plates and its connecting node End junction is respectively respectively arranged with protrusion (10) and recess portion (11), a no heat bridge heat-insulation wall plate and its connecting node Protrusion (10) and the recess portion (11) of no heat bridge heat-insulation wall plate described in another and its connecting node are in mating connection；

The connecting node includes connection lengthwise rib (1), connection stirrup (2) and heat insulation cementing mortar (9)；Two no heat bridges The junction end of heat-insulation wall plate and its connecting node is respectively arranged with several connection lengthwise ribs (1), and connection stirrup (2) is vertical to connection Muscle (1) carries out anchor connection, between two no heat bridge heat-insulation wall plates and its protrusion (10) and recess portion (11) of connecting node It is arranged heat insulation cementing mortar (9).

3. no heat bridge heat-insulation wall plate according to claim 1 and its connecting node, it is characterised in that: the reinforcing bar portion is by protecting Warm plate fixing piece (3) and longitudinal reinforcement (12) are formed by fixedly connecting；Heat preservation is provided through between heat-insulation wall plate described in adjacent row Plate fixing piece (3) is attached fixation to main insulation board (7) and auxiliary insulation board (8), several fixing part of heat insulation board (3) are total respectively It is same to be connected on longitudinal reinforcement (12).

4. no heat bridge heat-insulation wall plate according to claim 3 and its connecting node, it is characterised in that: insulated wall described in every row Longitudinally separated by concrete rib (6) between plate, the concrete rib (6) of adjacent row mutually staggers setting；Two rows of heat-insulation wall plates Between fill concrete intermediate interlayer (5), and the longitudinal reinforcement (12) are provided between concrete intermediate interlayer (5)；It is described The outer layer of heat-insulation wall plate is concrete outer layer (4), connects the longitudinal reinforcement of several fixing part of heat insulation board (3) jointly (12) it is located in concrete outer layer (4).

5. no heat bridge heat-insulation wall plate according to claim 2 and its connecting node, it is characterised in that: the main insulation board (7) it is made with the auxiliary insulation board (8) of styrofoam or hard polyurethane foam board.

6. no heat bridge heat-insulation wall plate according to claim 4 and its connecting node, it is characterised in that: the concrete outer layer (4) thickness is set as 60mm~70mm；The thickness of the concrete intermediate interlayer (5) and the concrete rib (6) is set respectively It is set to 40mm~60mm；Lateral concrete intermediate interlayer (5) with a thickness of 80mm or more between two rows of insulation boards.

7. no heat bridge heat-insulation wall plate according to claim 2 and its connecting node, it is characterised in that: the connection lengthwise rib (1) and the connection stirrup (2) is to be welded to connect.