CN210396097U - Exempt from to tear open heat preservation template anchor support piece and contain its exempt from to tear open heat preservation system - Google Patents

Abstract

The utility model discloses an exempt from to tear open insulation support piece and contain its exempt from to tear open insulation system, exempt from to tear open insulation support piece and include anchor cap and anchor body, the anchor body is including first anchor portion and first supporting part, the one end of first anchor portion is connected in the anchor cap, the anchor cap is used for connecting in exempting from to tear open insulation support piece's inside, first supporting part is connected in the other end of first anchor portion, and first supporting part outwards extends the arch along the radial direction of first anchor portion, first supporting part is used for leaning on the medial surface in the inner formword. The disassembly-free heat insulation system comprises a disassembly-free heat insulation template, a reinforced concrete layer and a plurality of above disassembly-free heat insulation template anchoring supporting pieces, wherein the anchor caps are connected in the disassembly-free heat insulation template, and the anchor bodies are connected in the reinforced concrete layer. The non-dismantling heat preservation template anchoring support piece can provide effective support between the non-dismantling heat preservation template and the inner template, and realizes double functions of anchoring and limiting support during construction; meanwhile, the structure is simple, construction operation is convenient, and the installation efficiency is high.

Description

Exempt from to tear open heat preservation template anchor support piece and contain its exempt from to tear open heat preservation system

Technical Field

The utility model relates to an exempt from to tear open heat preservation template anchor support piece and contain its exempt from to tear open heat preservation system.

Background

The technology of the building disassembly-free heat preservation template is widely popularized and applied under the large building energy-saving background and the building heat preservation structure integration concept. At present, more and more buildings begin to replace the template technology and the post-pasting heat-insulating layer technology in the original construction technology by the non-dismantling heat-insulating template technology. Exempt from to tear open heat preservation template in order to save construction process, do not have advantages such as heat preservation desquamation risk, insulation construction integration, greatly reduced construction intensity of labour, receive constructor and owner's favor.

The traditional non-dismantling heat preservation template technology is after steel bar binding is completed between the inner sides of the non-dismantling heat preservation template and the inner template, according to the concrete pouring standard requirement, between the inner sides of the non-dismantling heat preservation template and steel bars, a limiting device is required to be additionally arranged between the inner sides of the inner template and the steel bars, such as a cement cushion block and the like, inward pressure is applied to the outer sides of the non-dismantling heat preservation template and the inner template through a supporting system, the inner parts are abutted against the limiting device, so that the standard requirement interval between the steel bars and the non-dismantling heat preservation template and the inner template is reached, and the strength of a reinforced concrete structure is ensured. But in actual operation be used for playing stop device's material thickness, roughness be difficult to guarantee, simultaneously, the workman adds the operation of establishing stop device and has certain difficulty, often hardly reaches the effect of reserving the interval, has not only increased the construction degree of difficulty and engineering time, has increased construction cost simultaneously, has reduced the efficiency of construction.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the above-mentioned not enough of current existence, the utility model provides an exempt from to tear open heat preservation template anchor support piece and contain its exempt from to tear open heat preservation system.

The utility model discloses a realize through following technical scheme:

the utility model provides an exempt from to tear open insulation template anchor support piece, its includes anchor cap and anchor body, the anchor body is including first anchor portion and first supporting part, the one end of first anchor portion connect in the anchor cap, the anchor cap is used for connecting in exempting from to tear open insulation template's inside, first supporting part connect in the other end of first anchor portion, just first supporting part is followed the radial direction of first anchor portion outwards extends the arch, first supporting part is used for leaning on the medial surface in the inner formword.

Furthermore, first supporting part is including first butt ring and the first connecting piece of a plurality of, a plurality of first connecting piece all is located butt the intra-annular, and a plurality of the one end of first connecting piece all connect in first anchor portion, a plurality of the other end of first connecting piece all is followed the radial direction of first anchor portion outwards extends protruding and connect in first butt ring.

Furthermore, the anchor cap comprises an anchor plate part and a second anchor part, wherein a first connecting end and a second connecting end are respectively arranged at two ends of the second anchor part, the first connecting end is connected to the first anchor part, the second connecting end is connected to the anchor plate part, the anchor plate part is arranged in the disassembly-free heat-insulating template, and the anchor plate part extends outwards along the radial direction of the second anchor part to form a bulge.

Furthermore, the anchor cap further comprises a second supporting portion, the second supporting portion is connected to the outer surface of the first connecting end and extends outwards along the radial direction of the second anchor portion to form a protrusion, and the second supporting portion is used for abutting against the inner side face of the non-dismantling heat preservation template.

Further, the second supporting part is including second support ring and a plurality of second connecting piece, and a plurality of the second connecting piece all is located the second supports to support the intra-annular, and a plurality of the one end of second connecting piece all connect in the second link, a plurality of the other end of second connecting piece all follows the radial direction of second anchor portion outwards extends protrudingly and connect in the second supports to the ring.

Furthermore, the anchor cap further comprises a plurality of barb portions, one ends of the barb portions are connected to the outer peripheral surface of the second anchor portion, and the other ends of the barb portions extend outwards in the radial direction of the second anchor portion to form bulges.

Furthermore, a split structure is arranged between the anchor cap and the anchor body, and the first anchor body part is detachably connected to the anchor cap.

Furthermore, the first connecting end is provided with a connecting cavity, the outer peripheral surface of the first anchor body part is provided with an external thread, and the external thread is connected into the connecting cavity.

Furthermore, a first reinforcing rib is arranged on the outer peripheral surface of the first anchor part;

and/or a second reinforcing rib is arranged on the outer peripheral surface of the second anchor part.

The utility model provides a non-dismantling heat preservation system, its includes non-dismantling insulation formwork, reinforced concrete layer and a plurality of as above non-dismantling insulation formwork anchor support piece, the anchor cap connect in the non-dismantling insulation formwork, the anchor body connect in reinforced concrete layer.

The beneficial effects of the utility model reside in that: the non-dismantling heat preservation template anchoring support piece can provide effective support between the non-dismantling heat preservation template and the inner template, and realizes double functions of anchoring and limiting support during construction; meanwhile, the structure is simple, construction operation is convenient, and the installation efficiency is high.

Drawings

Fig. 1 is the internal structure schematic diagram of the disassembly-free heat preservation system of the embodiment of the utility model during construction.

Fig. 2 is the schematic view of the internal structure of the non-dismantling insulation formwork anchoring support member of the non-dismantling insulation system of the embodiment of the present invention.

Fig. 3 is a schematic structural view of the anchor body of the non-dismantling insulation formwork anchoring support member of the non-dismantling insulation system of the embodiment of the present invention.

Fig. 4 is a schematic structural view of an anchor cap of an exempt-from insulation formwork anchoring support member of an exempt-from insulation system of the utility model.

Description of reference numerals:

anchor cap 1

Anchor plate part 11

Second anchor portion 12

First connection end 121

Second connection end 122

Connecting cavity 123

Second supporting part 13

Second abutment ring 131

Second connecting member 132

Barb 14

Anchor body 2

First anchor portion 21

External thread 211

First support part 22

First abutment ring 221

First connector 222

Non-dismantling heat preservation template anchoring support piece 10

Non-dismantling heat preservation formwork 20

Reinforced concrete layer 30

Inner formwork 40

Detailed Description

The following description of the embodiments refers to the accompanying drawings, which are included to illustrate specific embodiments in which the invention may be practiced.

As shown in fig. 1, 2, 3 and 4, the present embodiment discloses a disassembly-free insulation system, which includes a disassembly-free insulation formwork anchoring support 10, a disassembly-free insulation formwork 20 and a reinforced concrete layer 30. Exempt from to tear open insulation template anchor support 10 includes anchor cap 1 and anchor body 2, anchor body 2 is including first anchor portion 21 and first supporting part 22, the one end of first anchor portion 21 is connected in anchor cap 1, anchor cap 1 is used for connecting in exempting from to tear open insulation template 20's inside, first supporting part 22 is connected in the other end of first anchor portion 21, and first supporting part 22 outwards extends the arch along the radial direction of first anchor portion 21, first supporting part 22 is used for leaning on the medial surface in inner formword 40.

Exempt from to tear open insulation template anchor support piece 10 and exempt from to tear open insulation template 20 through anchor cap 1 earlier and be connected, later anchor body 2 passes the reinforcing bar that the ligature is good and is connected with anchor cap 1 through first anchor portion 21, and first supporting portion 22 supports and leans on in the medial surface of inner formword 40, exempt from to tear open insulation template anchor support piece 10 supports and leans on respectively in exempting from to tear open insulation template 20 and inner formword 40 through anchor cap 1 and first supporting portion 22, make exempt from to tear open insulation template anchor support piece 10 and can provide exempt from to tear open effective support between insulation template 20 and the inner formword 40, thereby replace the stop device who uses in the current exempt from to tear open insulation template construction technology. And then, respectively erecting a supporting system at the outer sides of the non-dismantling heat preservation formwork 20 and the inner formwork 40, then pouring concrete and forming a reinforced concrete layer 30, so that the anchor cap 1 is connected into the non-dismantling heat preservation formwork 20, the anchor body 2 is connected into the reinforced concrete layer 30, the anchoring and supporting piece 10 of the non-dismantling heat preservation formwork plays an anchoring and connecting role, the anchoring and connecting tightness is strong, and the dual functions of anchoring and limiting supporting are realized during construction. Meanwhile, the non-dismantling heat preservation formwork anchoring support piece 10 is simple in structure, convenient to construct and operate and high in installation efficiency, so that application limitation of the non-dismantling heat preservation formwork is further reduced under the background of integration of heat preservation, energy conservation and a building structure, and technical development of a non-dismantling heat preservation system is promoted.

The first supporting portion 22 includes a first abutting ring 221 and a plurality of first connecting members 222, the plurality of first connecting members 222 are all located in the abutting ring, one end of each of the plurality of first connecting members 222 is connected to the first anchor portion 21, and the other end of each of the plurality of first connecting members 222 extends outward along the radial direction of the first anchor portion 21 to protrude and is connected to the first abutting ring 221. The first supporting part 22 is connected to the first anchor part 21 through a plurality of first connecting pieces 222, and the first abutting ring 221 abuts against the inner side surface of the inner template 40, so that the circular area formed by contact and abutment between the first abutting ring 221 and the inner template 40 is larger; the disassembly-free heat preservation system effectively avoids the problem that the first supporting part 22 generates a displacement phenomenon to influence the anchoring strength of the disassembly-free heat preservation template anchoring supporting part 10 due to the impact force during concrete pouring in the construction process, and greatly improves the safety and stability of the disassembly-free heat preservation system. Meanwhile, a gap exists between the first connecting pieces 222, so that a plurality of through holes are formed between the first connecting pieces 222 and the first abutting ring 221, the first supporting part 22 is coated by concrete when the concrete is poured, the connection strength between the non-dismantling heat preservation formwork anchoring supporting piece 10 and the reinforced concrete layer 30 is further enhanced, the anchoring effect is enhanced, and the safety stability of the non-dismantling heat preservation system is greatly improved. The number of the first connecting members 222 is not limited as long as the effective supporting strength of the first supporting portion 22 is ensured.

The anchor cap 1 comprises an anchor plate part 11 and a second anchor part 12, wherein a first connecting end 121 and a second connecting end 122 are respectively arranged at two ends of the second anchor part 12, the first connecting end 121 is connected to the first anchor part 21, the second connecting end 122 is connected to the anchor plate part 11, the anchor plate part 11 is arranged in the disassembly-free heat preservation template 20, and the anchor plate part 11 extends outwards along the radial direction of the second anchor part 12 to form a bulge. Anchor pan portion 11 outwards extends the arch along the radial direction of second anchor portion 12 for anchor pan portion 11 buckle is in the inside of exempting from to tear open insulation template 20, effectively prevents that anchor cap 1 from producing the obscission to installing in exempting from to tear open insulation template 20.

Wherein, when the insulation form 20 is exempted from to tear open in production, the inside of anchor cap 1 pre-buried entering insulation form 20 exempts from to tear open in the mill, inlays through anchor dish portion 11 and establishes in the insulation form 20 exempts from to tear open, has avoided exposing of anchor dish portion 11, and surface integration roughness degree is high, and anchor dish portion 11 inlays to establish promptly and exempts from to tear open the inboard of insulation form 20 and can not expose in the lateral surface of the insulation form 20 exempts from to tear open, has guaranteed that insulation form 20 exempts from to tear open can not cause the reduction of heat preservation effect. Of course, the anchor cap 1 may not be embedded into the non-detachable heat-insulating formwork 20 when the non-detachable heat-insulating formwork 20 is produced, the mounting hole for mounting the anchor cap 1 may be preset when the non-detachable heat-insulating formwork 20 is produced, and then the anchor cap 1 may be mounted in the mounting hole.

The anchor cap 1 further comprises a second supporting portion 13, the second supporting portion 13 is connected to the outer surface of the first connecting end 121 and extends and protrudes outwards along the radial direction of the second anchor portion 12, and the second supporting portion 13 is used for abutting against the inner side surface of the non-dismantling heat insulation formwork 20. Second supporting part 13 has limiting displacement, anchor cap 1 with exempt from to tear open insulation formwork 20 after being connected, anchor cap 1 hugs closely through second supporting part 13 and leans on in exempting from to tear open insulation formwork 20's inboard, connect in exempting from to tear open insulation formwork 20 through anchor dish portion 11, anchor cap 1 is under the combined action of second supporting part 13 and anchor dish portion 11, effectively avoided pouring concrete, it produces the skew dislocation phenomenon and influences exempt from to tear open insulation formwork anchor support piece 10's anchor and limiting displacement to arouse when vibrating the process and exempt from to tear open insulation formwork anchor support piece 10, the safety and stability who exempts from to tear open insulation system has been improved greatly.

The second supporting portion 13 includes a second abutting ring 131 and a plurality of second connecting members 132, the second abutting ring 131 is located by the second connecting members 132, one end of the second connecting members 132 is connected to the second connecting end 122, and the other end of the second connecting members 132 extends outward along the radial direction of the second anchor portion 12 to protrude and is connected to the second abutting ring 131. The second supporting portion 13 is connected to the second anchor portion 12 through a plurality of second connecting members 132, and the second abutting ring 131 abuts against the inner side surface of the non-dismantling heat preservation formwork 20, so that the circular area formed by the second abutting ring 131 and the non-dismantling heat preservation formwork 20 in an abutting mode is larger, and the stability and reliability of the non-dismantling heat preservation formwork anchoring supporting member 10 are improved. Simultaneously, there is the clearance between a plurality of second connecting piece 132 for a plurality of second connecting piece 132 and second support lean on and form a plurality of through-holes between the ring 131, the concrete will realize the cladding to second supporting part 13 when the pouring concrete, has further strengthened the joint strength between exempting from to tear open heat preservation template anchor support piece 10 and the reinforced concrete layer 30, reinforcing anchor effect has improved the safety and stability who exempts from to tear open heat preservation system greatly. The number of the second connecting members 132 is not limited as long as the second supporting portion 13 can ensure effective supporting force.

The anchor cap 1 further comprises a plurality of barb portions 14, one ends of the barb portions 14 are connected to the outer peripheral surface of the second anchor portion 12, and the other ends of the barb portions 14 extend outwards along the radial direction of the second anchor portion 12 to form protrusions. The barb part 14 can tightly lean on in the inside of exempting from to tear open insulation template 20, has strengthened anchor cap 1 and exempted from to tear open the joint strength between insulation template 20, effectively prevents that anchor cap 1 from producing the displacement in the inside of exempting from to tear open insulation template 20, has strengthened the anchor effect of exempting from to tear open insulation template anchor support piece 10 greatly. Wherein, also can set up barb portion on the outer peripheral face of first anchor portion 21, anchor portion 2 can strengthen and reinforced concrete layer 30 between joint strength through barb portion on the first anchor portion 21, has further improved the anchor effect of exempting from to tear open heat preservation template anchor support piece 10.

Be equipped with first strengthening rib on the outer peripheral face of first anchor portion 21, can effectively strengthen anchor 2's self structural strength through first strengthening rib, improved the stability of exempting from to tear open heat preservation template anchor support piece 10.

The second anchor portion 12 is provided with second reinforcing ribs on its outer peripheral surface. Can effectively strengthen the self structural strength of anchor cap 1 through the second strengthening rib, improve the stability of exempting from to tear open insulation formwork anchor support 10.

The anchor cap 1 and the anchor body 2 are of a split structure, and the first anchor body part 21 is detachably connected to the anchor cap 1. When the non-dismantling heat preservation formwork 20 is produced, the anchor cap 1 is pre-embedded into the non-dismantling heat preservation formwork 20, after the bound steel bars and the non-dismantling heat preservation formwork 20 are erected, the first anchor part 21 of the anchor body 2 penetrates through the steel bars and is connected to the first connecting end 121 of the anchor cap 1, so that the assembly of the non-dismantling heat preservation formwork anchoring support piece 10 is completed, and the anchoring and limiting effects of the non-dismantling heat preservation formwork anchoring support piece 10 are achieved. Meanwhile, the structure is simple, construction operation is convenient, and the installation efficiency is high.

The first connection end 121 is provided with a connection cavity 123, and the outer circumferential surface of the first anchor portion 21 is provided with an external thread 211, and the external thread 211 is connected in the connection cavity 123. The second supporting part 13 is abutted against the inner side face of the disassembly-free heat preservation formwork 20, the first supporting part 22 is abutted against the inner side face of the inner formwork 40, the distance between the second supporting part 13 and the first supporting part 22 needs to be the same as the thickness of concrete to be poured, the distance between the second supporting part 13 and the first supporting part 22 can be adjusted through the connection of the rotary external thread 211 and the connection cavity 123, and therefore the requirement that the distance between the second supporting part 13 and the first supporting part 22 meets and is the same as the thickness of the reinforced concrete layer 30 is met.

In the construction process of the non-dismantling heat preservation system, firstly, an anchor cap 1 is pre-buried in the inner side surface of a non-dismantling heat preservation formwork 20 or the anchor cap 1 is installed after a mounting hole is preset, then, the non-dismantling heat preservation formwork 20 provided with the anchor cap 1 is erected on the outer side of the erected reinforcement cage and is temporarily fixed, then an anchor body 2 penetrates through the reinforcement cage from the inner side of the reinforcement cage through a first anchor body part 21 and is connected to the anchor cap 1, the anchor body 2 is rotationally adjusted, so that the distance between a first supporting part 22 and a second supporting part 13 is the same as the thickness of a reinforced concrete layer 30, then an inner formwork 40 is installed, and the inner side of the inner formwork 40 abuts against the first supporting part 22; and respectively erecting support systems on the outer sides of the non-dismantling heat preservation formwork 20 and the inner formwork 40, then pouring concrete to form a reinforced concrete layer 30, dismantling the support systems on the two sides and the inner formwork 40 after the reinforced concrete layer 30 is cured, and then carrying out exterior finish decoration and interior finish decoration, thereby realizing the completion of the construction of the non-dismantling heat preservation system. The non-dismantling heat insulation template 20 can be an organic-inorganic composite A-grade fireproof heat insulation material containing polystyrene particles, and the fireproof performance of the non-dismantling heat insulation system is improved.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (10)

1. The utility model provides an exempt from to tear open insulation formwork anchor support piece, its characterized in that, it includes anchor cap and anchor body, the anchor body is including first anchor body portion and first supporting part, the one end of first anchor body portion connect in the anchor cap, the anchor cap is used for connecting in exempting from to tear open insulation formwork's inside, first supporting part connect in the other end of first anchor body portion, just first supporting part is followed the radial direction of first anchor body portion outwards extends the arch, first supporting part is used for leaning on the medial surface in the inner formword.

2. The non-dismantling heat-insulating formwork anchoring support member as claimed in claim 1, wherein the first supporting portion includes a first abutting ring and a plurality of first connecting members, the plurality of first connecting members are located in the abutting ring, one end of each of the plurality of first connecting members is connected to the first anchoring portion, and the other end of each of the plurality of first connecting members extends outwards along a radial direction of the first anchoring portion and is connected to the first abutting ring.

3. The non-dismantling insulation formwork anchoring support member as recited in claim 1, wherein the anchor cap includes an anchor plate portion and a second anchor portion, both ends of the second anchor portion respectively have a first connecting end and a second connecting end, the first connecting end is connected to the first anchor portion, the second connecting end is connected to the anchor plate portion, the anchor plate portion is disposed in the non-dismantling insulation formwork, and the anchor plate portion extends and protrudes outward along a radial direction of the second anchor portion.

4. The non-dismantling insulation formwork anchoring support member as recited in claim 3, wherein the anchor cap further comprises a second support portion, the second support portion is connected to an outer surface of the first connecting end and extends outward along a radial direction of the second anchor portion, and the second support portion is configured to abut against an inner side surface of the non-dismantling insulation formwork.

5. The non-dismantling insulation formwork anchoring support member as recited in claim 4, wherein said second supporting portion includes a second abutting ring and a plurality of second connecting members, wherein said plurality of second connecting members are all located in said second abutting ring, and one end of said plurality of second connecting members is connected to said second connecting end, and the other end of said plurality of second connecting members is extended and protruded outwardly along the radial direction of said second anchoring portion and is connected to said second abutting ring.

6. The non-dismantling insulation formwork anchoring support member as recited in claim 3, wherein said anchor cap further comprises a plurality of barb portions, one ends of said barb portions are connected to the outer circumferential surface of said second anchor portion, and the other ends of said barb portions are protruded outwardly in the radial direction of said second anchor portion.

7. The non-dismantling insulation formwork anchoring support member as recited in claim 3, wherein a split structure is provided between the anchor cap and the anchor body, and the first anchor body portion is detachably connected to the anchor cap.

8. The non-dismantling heat preservation formwork anchoring support member as claimed in claim 7, wherein the first connecting end is provided with a connecting cavity, and an outer circumferential surface of the first anchor portion is provided with an outer thread, and the outer thread is connected in the connecting cavity.

9. The non-dismantling heat preservation formwork anchoring support member as claimed in claim 3, wherein a first reinforcing rib is provided on an outer circumferential surface of the first anchor portion;

and/or a second reinforcing rib is arranged on the outer peripheral surface of the second anchor part.

10. A disassembly-free insulation system, comprising a disassembly-free insulation form, a reinforced concrete layer and a plurality of the disassembly-free insulation form anchoring support pieces of any one of claims 1 to 9, wherein the anchor caps are connected in the disassembly-free insulation form, and the anchor bodies are connected in the reinforced concrete layer.

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