CN203531215U - Self-heat-preservation building block of net rack - Google Patents

Self-heat-preservation building block of net rack Download PDF

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Publication number
CN203531215U
CN203531215U CN201320569253.1U CN201320569253U CN203531215U CN 203531215 U CN203531215 U CN 203531215U CN 201320569253 U CN201320569253 U CN 201320569253U CN 203531215 U CN203531215 U CN 203531215U
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China
Prior art keywords
midfeather
building block
sidewall
heat
heat insulation
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Expired - Fee Related
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CN201320569253.1U
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Chinese (zh)
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许浒
许敬修
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许浒
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Priority to CN201320569253.1U priority Critical patent/CN203531215U/en
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Expired - Fee Related legal-status Critical Current
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Abstract

The utility model discloses a self-heat-preservation building block of a net rack. The self-heat-preservation building block comprises an outer wall, an inner wall and a side wall, wherein at least two layers of middle walls are arranged between the outer wall and the inner wall; two ends of the middle walls are connected with the side wall; at least one pair of adjacent middle walls are connected through a vertical column to form an I-shaped structure; heat preservation media are arranged in hollow interlayers formed on two sides of each vertical columns; each middle wall is a framework structure consisting of a beam and a side wall; due to the multiple layers of the middle walls, the cavity interlayers and the heat preservation media, the thickness of a wall body is increased; the middle walls adopt the framework structures, so that outdoor cold energy can be transmitted in a framework beam with an extremely small sectional area, and the cold bridge effect is greatly attenuated; by virtue of the I-shaped structures formed by connecting the vertical columns, the cold bridge effect is obviously attenuated; on the premise of meeting a requirement on the intensity, the weight is reduced and materials are saved to the maximum extent; after the self-heat-preservation building block is built into a wall, a closed air layer is formed in the cavity in the building block; the cost is reduced, and the building block is entitled with excellent heat preservation performance.

Description

Rack heat insulation building block
Technical field
The utility model relates to building material field, particularly a kind of heat insulation building block.
Background technology
Existing heat insulation building block mainly contains two kinds, structural formula heat insulation building block and composite thermal self-insulation building block.On the outer wall of structural formula heat insulation building block, be coated with insulation layer; on insulation layer, be coated with topping; on insulation layer, have more than one pin hole; in pin hole, be filled with pin; outer wall and the topping of pin and building block are connected as a single entity; between the outer wall of building block and inwall, be filled with heat insulation core material more than one deck, in inside or the outside of inner thermal insulating layer, have the interior pin hole connecting along its thickness direction, the abutment wall of the pin being filled with in each pin hole and inner thermal insulating layer both sides is connected as a single entity.The deficiency that this kind of building block exists is: 1, between building block inwall, outer wall, topping, must fill heat insulation core material and insulation layer, otherwise cannot moulding inwall, outer wall, topping, cause the waste of material; 2, when concreting, monolithic is fixed on the insulation layer in mould, can under the effect of concrete gravity, be out of shape, and after form removal, very easily between insulation layer and inwall, produces crack; 3, be arranged on the pin in insulation layer, when concreting, unreal even filling of Concrete Filled easily occur and do not enter and form the problem of cavity.Composite thermal self-insulation building block is that the side surface in hollow body building block is provided with insulation layer, is coated with topping on insulation layer, has more than one pin hole on insulation layer, is filled with pin in pin hole, and outer wall and the topping of pin and building block are connected as a single entity.The deficiency of this kind of building block existence is: 1, the sidewall of hollow body building block is tabular, and sectional area is large, and cold bridge effect is large, and heat-insulating property is had to considerable influence, and increases building block weight; 2, be arranged on the pin in insulation layer, while there is concreting equally, unreal even filling of Concrete Filled easily occur and do not enter and form the problem of cavity.
Utility model content
The purpose of this utility model is to provide a kind of heat insulating ability excellence, good combination property, production technology is easy, cost is lower rack heat insulation building block, by extending cold bridge length, reducing cold bridge sectional area, be aided with again the effect of thermal insulation medium, cold bridge effect is obviously decayed, significantly improve the heat-insulating property of product.
The purpose of this utility model is achieved by the following technical programs, rack heat insulation building block, comprise outer wall, inwall and sidewall, two-layer midfeather is at least set between outer wall and inwall, the two ends of midfeather are connected with sidewall, it is characterized in that, between at least one pair of adjacent midfeather, by column, are connected to form " work " word structure, in the formed hollow interlayer in column both sides, be provided with thermal insulation medium, the frame construction that described midfeather is comprised of beam and sidewall.
Further, between outer wall and adjacent midfeather, by sidewall, connect, middle part forms cavity interlayer, between inwall and adjacent midfeather, by sidewall, connects, and middle part forms cavity interlayer.
Further, the framework of described midfeather is provided with thermal insulation medium.
Further, between outer wall and adjacent midfeather, an end face of the cavity interlayer that forms is provided with flush joint groove.
Further, the external surface of described outer wall is provided with external thermal insulation and topping successively.
Further, the external surface of described outer wall is provided with decorative layer.
Further, four layers of midfeather are set between outer wall and inwall, from being followed successively by outside to inside the first midfeather, the second midfeather, the 3rd midfeather and the 4th midfeather, between the first midfeather and the second midfeather, be only connected by column between the 3rd midfeather and the 4th midfeather, form " work " character form structure; Between the second midfeather and the 3rd midfeather, by sidewall, be connected, middle part forms cavity interlayer.
Further, in described cavity interlayer, fill thermal insulation medium.
Further, described column is cavity structure, fills thermal insulation medium in cavity.
Further, connect the two ends sidewall of the second midfeather and the 3rd midfeather, one end concave side wall wherein, the corresponding evagination of other end sidewall, mortise structure when formation is built by laying bricks or stones.
Beneficial effect: by multilayer midfeather and cavity interlayer, thermal insulation medium are set, be equivalent to increase thickness of wall body, midfeather and sidewall adopt frame construction, outdoor cold energy transmits in the Vierendeel girder of small cross-sectional area very, cold bridge effect has greatly decayed, especially only by column, connect " work " character form structure forming, it is more obvious that cold bridge effect decays; Meeting under the prerequisite of requirement of strength, to greatest extent weight reduction and saving material; Build by laying bricks or stones into after wall, the cavity in building block forms airtight air layer, when reducing costs, gives the heat-insulating property of building block excellence; In the hollow interlayer of column both sides, in thermal insulation medium and midfeather framework, thermal insulation medium is connected as a single entity, for fixedly the providing convenience in mould of thermal insulation medium in midfeather, be beneficial to and enhance productivity, the conduction that has simultaneously completely cut off cold energy between midfeather, plays an important role to the raising of product heat-insulating property.The utlity model has heat insulating ability excellence, good combination property, production technology is easy, cost is lower advantage.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model embodiment;
Fig. 2 is the left view of Fig. 1;
Fig. 3 is the A-A sectional view of Fig. 1;
Fig. 4 is the B-B sectional view of Fig. 1;
Fig. 5 is the C-C sectional view of Fig. 1;
Fig. 6 is the E-E sectional view of Fig. 1;
Fig. 7 is the structural representation of embodiment bis-;
Fig. 8 is the structural representation of embodiment tri-;
Fig. 9 is the structural representation of embodiment tetra-.
The specific embodiment
Embodiment mono-:
As shown in Figures 1 to 6, the netted heat insulation building block that four layers of midfeather are set between a kind of outer wall and inwall is provided, comprise outer wall 1, inwall 2 and sidewall 3, four layers of midfeather are set between outer wall 1 and inwall 2, from being followed successively by outside to inside the first midfeather 4, the second midfeather 5, the 3rd midfeather 6 and the 4th midfeather 7, the frame construction that midfeather is comprised of beam and sidewall, the framework of midfeather is provided with thermal insulation medium, the two ends of each layer of midfeather are connected with sidewall, between the first midfeather 4 and the second midfeather 5, between the 3rd midfeather 6 and the 4th midfeather 7, pass through respectively column 8, 9 connect, form " work " character form structure, column 8, 9 both sides form hollow interlayer 10, 11, in hollow interlayer, fill thermal insulation medium 12, 13, hollow interlayer 10, 11 interior thermal insulation mediums 12, 13 with adjacent midfeather framework in thermal insulation medium be connected as a single entity, be beneficial to thermal insulation medium in production fixes in mould, between the first midfeather 4 and outer wall 1, between the second midfeather 5 and the 3rd midfeather 6, be connected by sidewall respectively between the 4th midfeather 7 and inwall 2, middle part forms cavity interlayer 14,15,16.Sidewall 3 is for establishing insulation plush copper 17 in platy structure or employing frame construction; An end face of the cavity interlayer 14 between the first midfeather 4 and outer wall 1 is provided with 18, two sides of flush joint groove and is provided with latasuture groove 19, and in work progress, insert plate seam heat preservation strip in the peaceful slot 18 of latasuture groove 19, can solve an insulation difficult problem of building seam by laying bricks or stones effectively.
Embodiment bis-:
As shown in Figure 7, on the basis of embodiment mono-, at the external surface of outer wall 1, set gradually external thermal insulation 20, topping 21, in external thermal insulation, be provided with and connect pin 22.
Embodiment tri-:
As shown in Figure 8, further improved 2 points on the basis of embodiment mono-, first is to set up decorative layer 23 at the external surface of outer wall 1; Second point is the two ends sidewall that connects the second midfeather 5 and the 3rd midfeather 6, wherein one end sidewall concaves, and the corresponding convex of other end sidewall, forms the mortise structure while building by laying bricks or stones, while building by laying bricks or stones, one end formation joggle of indent is inserted in one end of evagination, significantly improves shearing resistance, the impact strength of masonry.
Embodiment tetra-:
As shown in Figure 9, on the basis of embodiment mono-, between the first midfeather 4 and outer wall 1, between the 4th midfeather 7 and inwall 2, between the second midfeather 5 and the 3rd midfeather 6, be connected to form cavity interlayer by sidewall respectively, in cavity interlayer, fill thermal insulation medium 24.
Above-described embodiment is as better embodiment of the present utility model; describe technical conceive of the present utility model and essential implementation in detail; not that protection domain of the present utility model is limited; all any simple modification of doing according to the utility model Spirit Essence and equivalent structure transformation or modification, within all should being encompassed in protection domain of the present utility model.

Claims (10)

1. rack heat insulation building block, comprise outer wall, inwall and sidewall, two-layer midfeather is at least set between outer wall and inwall, the two ends of midfeather are connected with sidewall, it is characterized in that, between at least one pair of adjacent midfeather, by column, be connected to form " work " word structure, in the formed hollow interlayer in column both sides, be provided with thermal insulation medium, the frame construction that described midfeather is comprised of beam and sidewall.
2. rack heat insulation building block according to claim 1, is characterized in that, between outer wall and adjacent midfeather, by sidewall, connects, and middle part forms cavity interlayer, between inwall and adjacent midfeather, by sidewall, connects, and middle part forms cavity interlayer.
3. rack heat insulation building block according to claim 1, is characterized in that, in the framework of described midfeather, is provided with thermal insulation medium.
4. rack heat insulation building block according to claim 2, is characterized in that, between outer wall and adjacent midfeather, an end face of the cavity interlayer that forms is provided with flush joint groove.
5. according to the rack heat insulation building block described in claim 1,2,3 or 4, it is characterized in that, the external surface of described outer wall is provided with external thermal insulation and topping successively.
6. according to the rack heat insulation building block described in claim 1,2,3 or 4, it is characterized in that, the external surface of described outer wall is provided with decorative layer.
7. rack heat insulation building block according to claim 2, it is characterized in that, four layers of midfeather are set between outer wall and inwall, from being followed successively by outside to inside the first midfeather, the second midfeather, the 3rd midfeather and the 4th midfeather, between the first midfeather and the second midfeather, be connected by column between the 3rd midfeather and the 4th midfeather, form " work " character form structure; Between the second midfeather and the 3rd midfeather, by sidewall, be connected, middle part forms cavity interlayer.
8. rack heat insulation building block according to claim 7, is characterized in that, in described cavity interlayer, fills thermal insulation medium.
9. according to the rack heat insulation building block described in claim 1 or 7, it is characterized in that, described column is cavity structure, fills thermal insulation medium in cavity.
10. rack heat insulation building block according to claim 7, is characterized in that, connects the two ends sidewall of the second midfeather and the 3rd midfeather, one end concave side wall wherein, the corresponding evagination of other end sidewall, mortise structure when formation is built by laying bricks or stones.
CN201320569253.1U 2013-09-14 2013-09-14 Self-heat-preservation building block of net rack Expired - Fee Related CN203531215U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201320569253.1U CN203531215U (en) 2013-09-14 2013-09-14 Self-heat-preservation building block of net rack

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201320569253.1U CN203531215U (en) 2013-09-14 2013-09-14 Self-heat-preservation building block of net rack

Publications (1)

Publication Number Publication Date
CN203531215U true CN203531215U (en) 2014-04-09

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104234261A (en) * 2014-09-02 2014-12-24 绿建科技集团新型建材高技术有限公司 Self-insulation system for semi-inner-wrapped double-row combination building type wall

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104234261A (en) * 2014-09-02 2014-12-24 绿建科技集团新型建材高技术有限公司 Self-insulation system for semi-inner-wrapped double-row combination building type wall

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20140409

Termination date: 20190914

CF01 Termination of patent right due to non-payment of annual fee