CN202945767U - Energy-conservation heat-preservation stone material - Google Patents
Energy-conservation heat-preservation stone material Download PDFInfo
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- CN202945767U CN202945767U CN 201220621112 CN201220621112U CN202945767U CN 202945767 U CN202945767 U CN 202945767U CN 201220621112 CN201220621112 CN 201220621112 CN 201220621112 U CN201220621112 U CN 201220621112U CN 202945767 U CN202945767 U CN 202945767U
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- stone material
- energy
- suspension member
- heat preserving
- saving heat
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Abstract
The utility model belongs to the field of building outer wall structures which is used for insulating, in particular to an energy-conservation heat-preservation stone material. The energy-conservation heat-preservation stone material comprises an ultrathin stone material layer, an insulating layer and a base layer. The insulating layer is arranged between the ultrathin stone material layer and the base layer. The ultrathin stone material layer is provided with pendants. The pendants are divided into a T-font pendant, a back bolt type pendant and an economic type pendant. The ultrathin stone material layer is small in thickness, light in weight, small in aggregate thickness, and saving in resources and energy consumption. The energy-conservation heat-preservation stone material comprises the insulating layer to have an obvious heat preservation and heat insulating effect. The pendants are plugged in the interior of the ultrathin stone material layer or pre-embedded in the ultrathin stone material layer. The energy-conservation heat-preservation stone material can be installed directly on a surface of an outer wall. The energy-conservation heat-preservation stone material is simple in process, convenient to install and saving in labor cost.
Description
Technical field
The invention belongs to for isolated outer wall structure of building field, be specifically related to a kind of energy-saving heat preserving stone material, described energy-saving heat preserving stone material comprises: superthin stone layer, insulation layer, basic unit, and described insulation layer is arranged between superthin stone layer and basic unit; Described superthin stone layer is provided with suspension member.
Background technology
At present, on market, traditional dry-hang stone has following defective: integral thickness is greater than 25mm, and the large every weight per square meter of weight is 75-100kg, and consumes resources is many; Do not contain heat insulating material, without insulation effect, performance is single; Construction sequence is complicated, comprises unwrapping wire, buried plate is installed, primary and secondary skeletal frame is installed, stone material is installed, plays glue, adds up to approximately 130 yuan/m of labour cost market price
2~160 yuan/m
2The left and right, cost is higher.
In order to overcome the above problems, Chinese utility model patent " a kind of ultrathin stone insulation decorating board of the built-in quick installed part " patent No.: 201010557440.9, Shen Qing Publication day: the ultrathin stone insulation decorating board that on April 6th, 2011 disclosed a kind of built-in quick installed part, the stone material surface layer is superthin stone, back face of stone is equipped with quick installed part, warming plate is totally-enclosed, interior cast polyurethane heat insulating material.But this heat insulating decorative board can't solve whole the problems referred to above: lithotome thickness is excessive, and consumes resources is more; Built-in quick suspension member kind is single, can not be common to the complex situations in actual finishing work.
Therefore, need on market that a kind of novel thickness is little, lightweight, good heat preservation performance, energy consumption resource are few, simple installation, built-in suspension member are various, save artificial energy-saving heat preserving stone material.
Summary of the invention
The invention provides a kind of energy-saving heat preserving stone material, described energy-saving heat preserving stone material comprises: superthin stone layer, insulation layer, basic unit, and described insulation layer is arranged between superthin stone layer and basic unit; Described superthin stone layer is provided with suspension member.
The objective of the invention is to be achieved through the following technical solutions:
Described energy-saving heat preserving stone material comprises: superthin stone layer 1, insulation layer 2, basic unit 3, and described insulation layer 2 is arranged between superthin stone layer 1 and basic unit 3; Described energy-saving heat preserving stone material inside is provided with suspension member.
Further, the thickness of described energy-saving heat preserving stone material is 30-60mm, and the thickness of described superthin stone layer 1 is 5-10mm.
Further, described suspension member is divided into: T font suspension member 5, back of the body bolt type suspension member 7, economical suspension member 13.
Further, described T font suspension member 5, back of the body bolt type suspension member 7 all are fixed in the skin surface by L font connector 6; Described L font connector 6 comprises two orthogonal plates 61 and plates 62; The plates 61 of described L font connector 6 and plates 62 be respectively equipped with transverse holes 611 and longitudinal hole 621.
Further, described T font suspension member 5 comprises two orthogonal horizontal plates 51 and perpendicular plates 52, and described perpendicular plates 52 are provided with hole 521; One end of the horizontal plates 51 of described T font suspension member 5 and described superthin stone layer 3 are pegged graft by fluting.
Further, described back of the body bolt type suspension member 7 comprises bolt sleeve 8, junction plate 9 and chute 10, and an end on a surface of described junction plate 9 vertically is provided with bolt sleeve 8, and a relative end on another surface is connected with chute 10 by brace 11; The vertical connection of one end of one end of described brace 11 and described junction plate, the other end of described brace 11 is connected with described chute 10; Described chute 10 comprise two with the vertical face of described junction plate 9 and a face 91 parallel with described junction plate 9; Wherein, an end of described two faces vertical with described junction plate 9 is equipped with the interior along 12 of the inside stretching, extension that is parallel to described 91; Described back of the body bolt type suspension member 7 is embedded in described energy-saving heat preserving stone material, described interior along 12 with the outer surface of described energy-saving heat preserving stone material in same plane, described bolt sleeve 8 is plugged at described superthin stone layer 1, and described junction plate 9, chute 10, brace 11 are positioned at described insulation layer 2.
Further, described economical suspension member 13 comprises and contains a groove 14 and two outers 15; The edge of the both sides of described groove 14 is respectively equipped with 15, two of outers described outer 15 bilateral symmetry of the outside stretching, extension that is parallel to bottom portion of groove; Described bottom portion of groove and both sides are equipped with hole 17, are used for riveted joint; Described any one outer 15 1 end and described superthin stone layer 3 are pegged graft by fluting.
The present invention has following beneficial effect compared to existing technology:
1, because superthin stone layer thickness of the present invention is little, so gross weight of the present invention is light, gross thickness is little, saving resource and energy consumption.
2, because the present invention contains insulation layer, so the present invention can play obvious function of heat insulation.
3, because superthin stone layer of the present invention is inner pegs graft or be embedded with suspension member, can directly be installed on exterior wall surface so the present invention can need not steel joist, operation is simple, and is easy for installation, saves labour turnover.
Description of drawings
Fig. 1 is the plane layer aggregated(particle) structure schematic diagram of energy-saving heat preserving stone material.
Fig. 2 is T font suspension member 5 structural representations in embodiment 1.
Fig. 3 is L font connector 6 structural representations in embodiment 1 and embodiment 2.
Fig. 4 is that the fluting of energy-saving heat preserving stone material in embodiment 1 and L font connector 6, T font suspension member 5 are at the structural representation of connection status.
Fig. 5 is back of the body bolt type suspension member 7 structural representations in embodiment 2.
Fig. 6 be in embodiment 2 back bolt type suspension member 7 by adjusting bolt and L font connector 6 structural representation in connection status.
Fig. 7 be in embodiment 2 energy-saving heat preserving stone material and back of the body bolt type suspension member 7, L font connector 6 is in the cross-sectional view of connection status.
Fig. 8 is economical hanger structure 13 structural representations in embodiment 3.
Fig. 9 is that the fluting of energy-saving heat preserving stone material in embodiment 3 and economical 13 suspension members, riveting bolt are at the structural representation of connection status.
The specific embodiment
Embodiment 1:
The present embodiment is a kind of shaped grooved suspension member that is provided with, by being fixedly connected in the energy-saving heat preserving stone material on skin surface with L font connector.
Described energy-saving heat preserving stone material comprises: superthin stone layer 1, insulation layer 2, basic unit 3, and described insulation layer 2 is arranged between superthin stone layer 1 and basic unit 3; Described superthin stone layer inside is plugged with T font suspension member 5.
The thickness of described energy-saving heat preserving stone material is 30-50mm, is preferably 40mm, and the thickness of described superthin stone layer 1 is 5-10mm, is preferably 8mm.
The material of described insulation layer 2 is polyurethane foam, also can be extruded sheet or benzene plate.
The material of described basic unit 3 is cement based;
As shown in Figure 1, described T font suspension member 5 comprises two orthogonal horizontal plates 51 and perpendicular plates 52, and described perpendicular plates 52 are provided with hole 521.As shown in Figure 4, an end of the horizontal plates 51 of described T font suspension member 5 and described superthin stone layer 3 are pegged graft by fluting.
As shown in Figure 3, described L font connector 6 comprises two orthogonal plates 61 and plates 62; Described plates 61 are provided with transverse holes 611, and described plates 62 are provided with longitudinal hole 621.
As shown in Figure 4, described T font suspension member 5 is connected with described L font connector by the riveting bolt that passes described hole 521 and are connected with the hole.
as shown in Figure 4, when using described energy-saving heat preserving stone material, described energy-saving heat preserving stone material first is installed, use again special-purpose clay that the exterior wall of described energy-saving heat preserving stone material and building is bonding, again described T font suspension member 5 is inserted in the fluting of described energy-saving heat preserving stone material, simultaneously adjusting bolt is passed hole on described T font suspension member 5 and the longitudinal hole 612 of L font suspension member, to connect as one with L font suspension member 6 on described T font suspension member 5, again the riveting bolt is passed the transverse holes 611 of described L font suspension member 6, can be with described energy-saving heat preserving stone material rivet clasp wall outside the building.
The every weight per square meter 23~25kg of the energy-saving heat preserving stone material of the present embodiment.
The energy-saving heat preserving stone material of the present embodiment is applicable to the middle level outer surface of building of 5-30 layer.
The energy-saving heat preserving stone material of the present embodiment detects through national building materials test center, and tensile bond strength meets the pertinent regulations of JGJ 144-2004 " external wall outer insulation engineering legislation ".Flammability reaches the A level of GB8624-1997 " Classification on burning behaviour for building materials " regulation.The energy-saving heat preserving stone material of the present embodiment is as follows in the assay at national building energy conservation quality supervision and test center:
| Interventions Requested | Assay |
| Thermal resistance/(m 2K)/and during W thickness 25mm, 25 degrees centigrade of average temperatures | 0.78 |
| Density/(kg/m 2) | 60 |
| Impact strength/(J), |
3 |
| Water absorption/(g/m 2) | 54. |
Embodiment 2:
The present embodiment is a kind of back of the body bolt type suspension member that is provided with, by being fixedly connected in the energy-saving heat preserving stone material on skin surface with L font connector.
The difference of the energy-saving heat preserving of the present embodiment and embodiment 1 is: adopt back of the body bolt type suspension member 7, described back of the body bolt type suspension member 7 is embedded into described energy-saving heat preserving stone material, then is connected 6 connections with described L font.
As shown in Figure 5, described back of the body bolt type suspension member 7 comprises bolt sleeve 8, junction plate 9 and chute 10, and an end on a surface of described junction plate 9 vertically is provided with bolt sleeve 8, and a relative end on another surface is connected with chute 10 by brace 11; The vertical connection of one end of one end of described brace 11 and described junction plate 9, the other end of described brace 11 is connected with described chute 10; Described chute 10 comprise two with the vertical face of described junction plate 9 and a face 91 parallel with described junction plate 9; Wherein, an end of described two faces vertical with described junction plate 9 is equipped with the interior along 12 of the inside stretching, extension that is parallel to described 91.
As shown in Figure 6, described back of the body bolt type suspension member 7 pass by adjusting bolt with described L font connector 6 in two of chute 10 of described back of the body bolt type suspension member 7 between 12 the space be connected the longitudinal hole 612 of L font connector 6 and be connected.
As shown in Figure 7, described back of the body bolt type suspension member 7 is embedded in described energy-saving heat preserving stone material, described interior along 12 with the outer surface of described energy-saving heat preserving stone material in same plane, described bolt sleeve 8 is plugged at described superthin stone layer 1, and described junction plate 9, chute 10, brace 11 are positioned at described insulation layer 2.
As shown in Figure 7, described back of the body bolt type suspension member 7 is connected with described L font connector 6 by passing in two of described chute 10 space between 12 and the adjusting bolt of longitudinal hole.
As shown in Figure 7, when using described energy-saving heat preserving stone material, described energy-saving heat preserving stone material first is installed, use again special-purpose clay that the exterior wall of described energy-saving heat preserving stone material and building is bonding, the riveting bolt is passed the transverse holes of described L font connector, can be with described energy-saving heat preserving stone material rivet clasp wall outside the building.
The every weight per square meter 23~25kg of the energy-saving heat preserving stone material of the present embodiment.
The energy-saving heat preserving stone material of the present embodiment is applicable to the highrise building external surface of 30-50 layer.
The energy-saving heat preserving stone material of the present embodiment detects through national building materials test center, and tensile bond strength meets the pertinent regulations of JGJ 144-2004 " external wall outer insulation engineering legislation "; Flammability reaches the A level of GB8624-1997 " Classification on burning behaviour for building materials " regulation.The energy-saving heat preserving stone material of the present embodiment is as follows in the assay at national building energy conservation quality supervision and test center:
| Interventions Requested | Assay |
| Thermal resistance/(m 2K)/and during W thickness 25mm, 25 degrees centigrade of average temperatures | 0.78 |
| Density/(kg/m 2) | 60 |
| Impact strength/(J), |
3 |
| Water absorption/(g/m 2) | 54. |
Embodiment 3:
The present embodiment is not directly fixed on the energy-saving heat preserving stone material on skin surface for being provided with economical suspension member by connector.
The difference of the present embodiment and embodiment 1 is: adopt economical suspension member 13, described economical suspension member 13 fluting grafting enter described energy-saving heat preserving stone material, and are riveted on external surface of buildings.
As shown in Figure 8, described economical suspension member 13 comprises and contains a groove 14 and two outers 15; The edge of the both sides of described groove 14 is respectively equipped with 15, two of outers described outer 15 bilateral symmetry of the outside stretching, extension that is parallel to bottom portion of groove; Described bottom portion of groove and both sides are equipped with hole 17, are used for riveted joint.As shown in Figure 9, described any one outer 15 1 end and described superthin stone layer 3 are pegged graft by fluting.
As shown in Figure 9, when using described energy-saving heat preserving stone material, described energy-saving heat preserving stone material first is installed, use again special-purpose clay that the exterior wall of described energy-saving heat preserving stone material and building is bonding, again any one outer 15 of described economical suspension member 13 is inserted in the fluting of described energy-saving heat preserving stone material, simultaneously the riveting bolt passes the hole of the bottom of the groove on described economical suspension member 13, can be with described energy-saving heat preserving stone material rivet clasp wall outside the building.
The every weight per square meter 23~25kg of the energy-saving heat preserving stone material of the present embodiment.
The energy-saving heat preserving stone material of the present embodiment is applicable to the low-rise building external surface of 3-5 layer, or is used for furred ceiling.
The energy-saving heat preserving stone material of the present embodiment detects through national building materials test center, and tensile bond strength meets the pertinent regulations of JGJ 144-2004 " external wall outer insulation engineering legislation "; Flammability reaches the A level of GB8624-1997 " Classification on burning behaviour for building materials " regulation.The energy-saving heat preserving stone material of the present embodiment is as follows in the assay at national building energy conservation quality supervision and test center:
| Interventions Requested | Assay |
| Thermal resistance/(m 2K)/and during W thickness 25mm, 25 degrees centigrade of average temperatures | 0.78 |
| Density/(kg/m 2) | 60 |
| Impact strength/(J), |
3 |
| Water absorption/(g/m 2) | 54. |
Claims (7)
1. energy-saving heat preserving stone material, it is characterized in that: described energy-saving heat preserving stone material comprises: superthin stone layer (1), insulation layer (2), basic unit (3), described insulation layer (2) is arranged between superthin stone layer (1) and basic unit (3); Described energy-saving heat preserving stone material inside is provided with suspension member.
2. energy-saving heat preserving stone material according to claim 1, it is characterized in that: the thickness of described energy-saving heat preserving stone material is 30-60mm, the thickness of described superthin stone layer (1) is 5-10mm.
3. follow according to the described energy-saving heat preserving stone material of claim 1 or 2, it is characterized in that: described suspension member is divided into: T font suspension member (5), back of the body bolt type suspension member (7), economical suspension member (13).
4. energy-saving heat preserving stone material according to claim 1 and 2 is characterized in that: described T font suspension member (5), back of the body bolt type suspension member (7) all are fixed in the skin surface by L font connector (6); Described L font connector (6) comprises two orthogonal plates (61) and plates (62); Described plates (61) are provided with transverse holes (611), and described plates (62) are provided with longitudinal hole (621).
5. energy-saving heat preserving stone material according to claim 4, it is characterized in that: described T font suspension member (5) comprises two orthogonal horizontal plates (51) and perpendicular plates (52), and described perpendicular plates (52) are provided with hole (521); One end and the described superthin stone layer (3) of the horizontal plates (51) of described T font suspension member (5) are pegged graft by fluting.
6. energy-saving heat preserving stone material according to claim 4, it is characterized in that: described back of the body bolt type suspension member (7) comprises bolt sleeve (8), junction plate (9) and chute (10), one end on a surface of described junction plate (9) vertically is provided with bolt sleeve (8), and a relative end on another surface is connected with chute (10) by brace (11); The vertical connection of one end of one end of described brace (11) and described junction plate, the other end of described brace (11) is connected with described chute (10); Described chute (10) comprise two with the vertical face of described junction plate (9) and a face (91) parallel with described junction plate (9); Wherein, an end of described two faces vertical with described junction plate (9) is equipped with the interior edge (12) of the inside stretching, extension that is parallel to described (91); Described back of the body bolt type suspension member (7) is embedded in described energy-saving heat preserving stone material, the outer surface of described interior edge (12) and described energy-saving heat preserving stone material is in same plane, described bolt sleeve (8) is plugged at described superthin stone layer (1), and described junction plate (9), chute (10), brace (11) are positioned at described insulation layer (2).
7. energy-saving heat preserving stone material according to claim 4 is characterized in that: described economical suspension member (13) comprises and contains a groove (14) and two outers (15); The edge of the both sides of described groove (14) is respectively equipped with the outer (15) of the outside stretching, extension that is parallel to bottom portion of groove, two described outers (15) bilateral symmetry; Described bottom portion of groove and both sides are equipped with hole (17), are used for riveted joint; Described any one outer (15) one end and described superthin stone layer (3) are pegged graft by fluting.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220621112 CN202945767U (en) | 2012-11-22 | 2012-11-22 | Energy-conservation heat-preservation stone material |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220621112 CN202945767U (en) | 2012-11-22 | 2012-11-22 | Energy-conservation heat-preservation stone material |
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| Publication Number | Publication Date |
|---|---|
| CN202945767U true CN202945767U (en) | 2013-05-22 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 201220621112 Expired - Fee Related CN202945767U (en) | 2012-11-22 | 2012-11-22 | Energy-conservation heat-preservation stone material |
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| CN (1) | CN202945767U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107268803A (en) * | 2017-07-18 | 2017-10-20 | 吉林建筑大学 | Only there is the connection method of flat out of plane constraint a kind of out-hung panel bottom to wallboard |
-
2012
- 2012-11-22 CN CN 201220621112 patent/CN202945767U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107268803A (en) * | 2017-07-18 | 2017-10-20 | 吉林建筑大学 | Only there is the connection method of flat out of plane constraint a kind of out-hung panel bottom to wallboard |
| CN107268803B (en) * | 2017-07-18 | 2023-03-14 | 吉林建筑大学 | Connecting method for external wall board with out-of-plane constraint on wall board only at bottom end |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130522 Termination date: 20181122 |