CN207934218U

CN207934218U - Composite beam

Info

Publication number: CN207934218U
Application number: CN201721603350.2U
Authority: CN
Inventors: 张剑
Original assignee: Chenzhou Yuanda Residence Industry Co Ltd
Current assignee: Chenzhou Yuanda Residence Industry Co Ltd
Priority date: 2017-11-24
Filing date: 2017-11-24
Publication date: 2018-10-02
Anticipated expiration: 2027-11-24

Abstract

The utility model discloses a kind of composite beam, and the first insulating layer to extend along composite beam longitudinal cross-section direction is embedded in the composite beam, and first insulating layer is extended in the part of the composite beam along the longitudinal cross-section direction, and the composite beam is pre-formed.Composite beam provided by the utility model, the first insulating layer is embedded in composite beam, first insulating layer ensure that the heat insulation effect of composite beam, due to being embedded with the first insulating layer in composite beam, the Side fascia with insulating layer need not be then hung on the outside of beam, when in use, composite beam can be directly assemblied between prefabricated panel and lower prefabricated panel, it need not be connected by external component, connection is simple.Meanwhile first insulating layer along longitudinal direction cross-wise direction be extended in the part of composite beam, be suitable for winter less cryogenic region.

Description

Composite beam

Technical field

The utility model is related to construction engineering technical fields, more particularly to a kind of composite beam.

Background technology

In construction engineering technical field, assembled architecture is more and more welcomed by the people, in traditional prefabricated outer wall panel It is equipped with insulating layer, precast beam is provided separately with prefabricated outer wall panel, to ensure heat insulation effect, when assembled in situ, it is often necessary to Side fascia is hung on the outside of precast beam.

Traditional Side fascia be equipped with hook base, precast beam be equipped with sleeve, assembly when, by attachment screw by hook base with To there is sleeve connection the Side fascia of insulating layer to be assemblied in precast beam, and component used is more when site operation, and connection is cumbersome.

Utility model content

Based on this, it is necessary to more so as to cause connecting for conventional outer wall plate and component used when precast beam site operation Cumbersome problem, providing one kind having heat insulation effect and the simple composite beam of connection.

A kind of composite beam is embedded with the first heat preservation extended along composite beam longitudinal cross-section direction in the composite beam Layer, first insulating layer are extended in the part of the composite beam along the longitudinal cross-section direction, and the composite beam is pre-formed.

Composite beam provided by the utility model is embedded with the first insulating layer in composite beam, and the first insulating layer ensure that overlapping The heat insulation effect of beam need not then hang the exterior wall with insulating layer due to being embedded with the first insulating layer in composite beam on the outside of beam Plate, when in use, composite beam can be directly assemblied between prefabricated panel and lower prefabricated panel, need not be connected by external component It connects, connection is simple.Meanwhile first insulating layer along longitudinal direction cross-wise direction be extended in the part of composite beam, it is not too cold to be suitable for winter Area.

The first reinforcing member is also embedded in the composite beam in one of the embodiments, first reinforcing member is set to The both sides of first insulating layer.

First reinforcing member includes the longitudinal reinforcement along the longitudinal cross-section directional spreding in one of the embodiments, And the transverse steel for the transversely cross-wise direction distribution being connect with the longitudinal reinforcement, wherein the longitudinal reinforcement and the transverse direction The perpendicular setting of reinforcing bar.

The first connector is also embedded in the composite beam in one of the embodiments, first connector is worn In first insulating layer and with the first end and second end for respectively stretching out first insulating layer both sides, the first end with The second end is located between first insulating layer and first reinforcing member or the first end and/or described Two ends are connected with corresponding first reinforcing member.

The composite beam further includes the second connector in one of the embodiments, and one end of second connector is pre- It is embedded in the composite beam, the other end of second connector stretches out the composite beam.

It is also embedded with grout sleeve along the longitudinal cross-section direction in the composite beam in one of the embodiments, institute The one end for stating the second connector is anchored in the grout sleeve, and the other end of second connector stretches out the composite beam.

Multiple grout sleeves, the grout sleeve edge are embedded in the composite beam in one of the embodiments, Lateral cross section direction uniform intervals are set in the composite beam, and the composite beam includes multiple second connectors, Duo Gesuo It states the second connector along lateral cross section direction uniform intervals to be arranged, multiple second connectors are anchored in corresponding respectively The grout sleeve in.

The composite beam includes the interior preformed layer for being located at first insulating layer both sides in one of the embodiments, And outer preformed layer, the second reinforcing member and third reinforcing member are also embedded in the composite beam, second reinforcing member is along described vertical It is embedded in the interior preformed layer of the composite beam in advance to cross-wise direction, the third reinforcing member is bypassed from the interior preformed layer of the composite beam The end of first insulating layer and the outer preformed layer for extending the composite beam.

In one of the embodiments, one end of second reinforcing member be embedded in advance the composite beam interior preformed layer it is separate The other end of the side of first insulating layer, second reinforcing member stretches out the composite beam, and the third reinforcing member is close One end of second reinforcing member is connect with one end that second reinforcing member is embedded in the composite beam in advance, the third reinforcing member The other end around the end of first insulating layer and extend the outer of the composite beam from the interior preformed layer of the composite beam Preformed layer.

Description of the drawings

Fig. 1 is the structural schematic diagram for the assembling type outer wall system that one embodiment of the utility model provides；

Fig. 2 is the structural schematic diagram for the assembling type outer wall system that another embodiment of the utility model provides.

Specific implementation mode

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The preferred embodiment of the utility model is given in attached drawing.But the utility model can in many different forms come in fact It is existing, however it is not limited to embodiment described herein.Make public affairs to the utility model on the contrary, purpose of providing these embodiments is The understanding for opening content is more thorough and comprehensive.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement are for illustrative purposes only.

Unless otherwise defined, all of technologies and scientific terms used here by the article is led with the technology for belonging to the utility model The normally understood meaning of technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein includes Any and all combinations of one or more relevant Listed Items.

Refering to fig. 1, one embodiment of the utility model provides a kind of composite beam 10, is embedded with along composite beam 10 in composite beam 10 The first insulating layer 11 that longitudinal cross-section direction is extended, cross-wise direction is extended in the office of composite beam 10 to the first insulating layer 11 along longitudinal direction Portion, composite beam 10 are pre-formed.

The composite beam 10 that the utility model embodiment provides is embedded with the first insulating layer 11, the first heat preservation in composite beam 10 Layer 11 ensure that the heat insulation effect of composite beam 10, and due to being embedded with the first insulating layer 11 in composite beam 10, then need not be outside beam Pendant sets Side fascia, and when in use, composite beam 10 can be directly assemblied between prefabricated panel and lower prefabricated panel, need not be borrowed External component is helped to connect, connection is simple.Meanwhile first insulating layer 11 along longitudinal direction cross-wise direction be extended in the part of composite beam, fit For winter less cryogenic region.

Specifically, above-mentioned longitudinal cross-section direction is the upper and lower directions of composite beam 10 after mounting.

Referring to Fig.2, being also embedded with the first connector 12 and the first reinforcing member in another embodiment, in composite beam 10 13, the first reinforcing member 13 is set to the both sides of the first insulating layer 11, and the first connector 12, which is arranged in the first insulating layer 11 and has, to be divided Do not stretch out the first end and second end of 11 both sides of the first insulating layer, first end and second end are located at the first insulating layer 11 and the Between one reinforcing member 13 or first end and/or second end are connected with corresponding first reinforcing member 13.That is the first connector 12 Both ends can be located between the first reinforcing member 13 and the first insulating layer 11 or the first connector 12 wherein one end and phase The corresponding connection of first reinforcing member 13 or both ends are connected with corresponding first reinforcing member 13.

First reinforcing member 13 can increase stability of first insulating layer 11 in composite beam 10, and the first connector 12 with First reinforcing member 13, which is combined, to be firmly fixed at the first insulating layer 11 in composite beam 10.

Specifically, the first connector 12 is glass fibre connector, glass fibre have that heat resistance is strong, corrosion resistance is good and The advantages of high mechanical strength.More specifically, the first reinforcing member 13 is reinforcing bar.

More specifically, the first reinforcing member 13 includes the longitudinal reinforcement and connect with longitudinal reinforcement that cross-wise direction is distributed along longitudinal direction The distribution of transversely cross-wise direction transverse steel, wherein longitudinal reinforcement and the perpendicular setting of transverse steel.

Further, composite beam 10 further includes the second connector 40, and one end of the second connector 40 is embedded in advance in composite beam 10, The other end of second connector 40 stretches out composite beam 10.One end that second connector 40 stretches out composite beam 10 can be with exterior pre-cast Wallboard connects.Specifically, the second connector 40 is reinforcing bar.

Specifically, composite beam 10 includes being located at the interior preformed layer of 11 both sides of the first insulating layer and outer preformed layer, and second Connector 40 is anchored in the interior preformed layer of composite beam 10, and the second connector 40 is by the inside of composite beam 10 and exterior pre-cast wall panel It is connected and fixed, so that composite beam 10 is connected and fixed with exterior pre-cast wall panel.

Further, cross-wise direction is also embedded with grout sleeve 14, one end anchor of the second connector 40 to composite beam 10 along longitudinal direction It is fixed in grout sleeve 14, the other end of the second connector 40 stretches out composite beam 10 to be anchored with exterior pre-cast wall panel.Specifically, Grout sleeve 14 is anchored in the interior preformed layer of composite beam 10.

Further, multiple grout sleeves 14 are embedded in composite beam 10, grout sleeve 14 is between transversely cross-wise direction is uniform Every in composite beam 10, composite beam 10 includes multiple second connectors 40, the transversely cross-wise direction of multiple second connectors 40 Uniform intervals are arranged, and multiple second connectors 40 are anchored in respectively in corresponding grout sleeve 14.

Specifically, above-mentioned lateral cross section is the left and right directions or front-rear direction of composite beam 10 after mounting, transverse cutting Face direction and longitudinal cross-section direction are perpendicular.

Further, the second reinforcing member 15 and third reinforcing member 16 are also embedded in composite beam 10, the second reinforcing member 15 is along vertical It is embedded in the interior preformed layer of composite beam 10 in advance to cross-wise direction, third reinforcing member 16 is protected from the interior preformed layer of composite beam 10 around first The end of warm layer 11 and the outer preformed layer for extending composite beam 10.

Specifically, the second reinforcing member 15 is located at the first reinforcing member 13 of the inside of the first insulating layer 11 far from the first insulating layer 11 side, one end of third reinforcing member 16 are connect with the transverse steel of the first reinforcing member 13, the other end of third reinforcing member 16 It is connect with the second reinforcing member 15.

More specifically, the second reinforcing member 15 is stirrup, third reinforcing member 16 is the reinforcing bar of bending.More specifically, second adds The shape of firmware 15 is square type, and the both ends of third reinforcing member 16 are equipped with crotch, and the connection to ensure third reinforcing member 16 is strong Degree.

One embodiment of the utility model also provides a kind of assembling type outer wall system, including above-mentioned composite beam 10 and fills respectively Upper prefabricated panel 20 assigned in 10 top and bottom of composite beam and lower prefabricated panel 30.

Assembling type outer wall system provided by the utility model is embedded with the first insulating layer 11, the first heat preservation in composite beam 10 Layer 11 ensure that the heat insulation effect of composite beam 10 then need not be on the outside of beam due to being embedded with the first insulating layer 11 in composite beam 10 The Side fascia with insulating layer is hung, composite beam 10 can be directly assemblied between prefabricated panel 20 and lower prefabricated panel 30, no It needs to connect by external component, connection is simple.Meanwhile first insulating layer 11 along longitudinal direction cross-wise direction be extended in composite beam 10 Part is suitable for winter less cryogenic region.

Further, cross-wise direction is embedded with the second insulating layer 21 along longitudinal direction in upper prefabricated panel 20, in lower prefabricated panel 30 Cross-wise direction is embedded with third insulating layer 31 along longitudinal direction, the second insulating layer 21 and third insulating layer 31 with 11 phase of the first insulating layer To setting.

Specifically, cross-wise direction is arranged the second insulating layer 21 through upper prefabricated panel 20 along longitudinal direction, 31 edge of third insulating layer Longitudinal cross-section direction is arranged through lower prefabricated panel 30, to increase the heat insulation effect of upper prefabricated panel 20 and lower prefabricated panel 30.

Further, the medial surface of upper prefabricated panel 20 and lower prefabricated panel 30 is concordant with the medial surface of composite beam 10, on The lateral surface of prefabricated panel 20 and lower prefabricated panel 30 is concordant with the lateral surface of composite beam 10.Above-mentioned upper prefabricated panel 20 and under The medial surface of prefabricated panel 30 is that upper prefabricated panel 20 is located at indoor side with lower prefabricated panel 30, above-mentioned composite beam 10 Medial surface is that composite beam 10 is located at indoor side；The lateral surface of above-mentioned upper prefabricated panel 20 and lower prefabricated panel 30 be on The side that prefabricated panel 20 is located outside with lower prefabricated panel 30, the lateral surface of above-mentioned composite beam 10 is that composite beam 10 is located at room Outer side.

Further, one end of the second connector 40 stretching composite beam 10 of composite beam 10 is stretched into lower prefabricated panel 30 In the wallboard in-situ layer of side, so that composite beam 10 is connected and fixed with lower prefabricated panel 30.

Further, above-mentioned assembling type outer wall system further includes between upper prefabricated panel 20 and composite beam 10 or under being located at Cushion block 50 between prefabricated panel 30 and composite beam 10.

Further, it is also filled out between upper prefabricated panel 20 and composite beam 10 or between lower prefabricated panel 30 and composite beam 10 Filled with cement mortar a, upper prefabricated panel 20 is connected and fixed with composite beam 10 or by lower prefabricated panel 30 and composite beam 10.Tool Body, close to the position in outside or between lower prefabricated panel 30 and composite beam 10 between upper prefabricated panel 20 and composite beam 10 Position close to outside is equipped with marine glue b.

Further, above-mentioned assembling type outer wall system further includes floor preformed layer 60 and floor in-situ layer 70, floor preformed layer 60 are overlapped in 10 top of composite beam, and floor in-situ layer 70 is poured in 60 top of floor preformed layer.

Further, one end of the second reinforcing member 15 extend out to composite beam 10 and docks region 80 with floor in-situ layer 70, and with The gluten of floor in-situ layer 70 connects, and the bottom muscle of floor preformed layer 60 extend out to composite beam 10 and docks region with floor in-situ layer 70 80, which is integrally formed with floor in-situ layer 70 by casting concrete.

Each technical characteristic of embodiment described above can be combined arbitrarily, to keep description succinct, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, it is all considered to be the range of this specification record.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it should not be understood as limiting the scope of the patent of the utility model.It should be pointed out that for the common of this field For technical staff, without departing from the concept of the premise utility, various modifications and improvements can be made, these all belong to In the scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims

1. a kind of composite beam, which is characterized in that be embedded in the composite beam and extend along composite beam longitudinal cross-section direction First insulating layer, first insulating layer are extended in the part of the composite beam, the composite beam along the longitudinal cross-section direction It is pre-formed.

2. composite beam according to claim 1, which is characterized in that be also embedded with the first reinforcing member, institute in the composite beam State the both sides that the first reinforcing member is set to first insulating layer.

3. composite beam according to claim 2, which is characterized in that first reinforcing member includes along the longitudinal cross-section side To the longitudinal reinforcement of distribution and the transverse steel for the transversely cross-wise direction distribution being connect with the longitudinal reinforcement, wherein described vertical To reinforcing bar and the perpendicular setting of the transverse steel.

4. composite beam according to claim 2, which is characterized in that be also embedded with the first connector, institute in the composite beam It states the first connector and is arranged in first insulating layer and with stretching out the first end of first insulating layer both sides and the respectively Two ends, the first end and the second end are located between first insulating layer and first reinforcing member or described First end and/or the second end are connected with corresponding first reinforcing member.

5. composite beam according to claim 1, which is characterized in that the composite beam further includes the second connector, and described One end of two connectors is embedded in advance in the composite beam, and the other end of second connector stretches out the composite beam.

6. composite beam according to claim 5, which is characterized in that also pre- along the longitudinal cross-section direction in the composite beam It is embedded with grout sleeve, one end of second connector is anchored in the grout sleeve, the other end of second connector Stretch out the composite beam.

7. composite beam according to claim 6, which is characterized in that be embedded with multiple grouting sets in the composite beam Cylinder, transversely cross-wise direction uniform intervals are set in the composite beam grout sleeve, and the composite beam includes multiple described Second connector, multiple second connectors are arranged along lateral cross section direction uniform intervals, multiple second connections Part is anchored in respectively in the corresponding grout sleeve.

8. according to claim 1-7 any one of them composite beams, which is characterized in that the composite beam is described including being located at The interior preformed layer and outer preformed layer of first insulating layer both sides, the second reinforcing member is also embedded in the composite beam and third is reinforced Part, second reinforcing member are embedded in the interior preformed layer of the composite beam, the third reinforcing member along the longitudinal cross-section direction in advance The end of first insulating layer is bypassed from the interior preformed layer of the composite beam and extends the outer preformed layer of the composite beam.

9. composite beam according to claim 8, which is characterized in that one end of second reinforcing member is embedded in the overlapping in advance The other end of side of the interior preformed layer of beam far from first insulating layer, second reinforcing member stretches out the composite beam, institute State one end company that third reinforcing member is embedded in the composite beam close to one end of second reinforcing member and second reinforcing member in advance It connects, the other end of the third reinforcing member bypasses end and the extension of first insulating layer from the interior preformed layer of the composite beam In the outer preformed layer of the composite beam.