CN104895449B - A kind of door and window main body realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame - Google Patents

Abstract

The present invention relates to the connection structures that a kind of door and window main body and door window auxiliary frame realize bridge insulation thermal resistance, and including door and window main body, door window auxiliary frame, door window auxiliary frame is embedded in building hole in advance；Door and window main body is installed on by heat insulation connecting mechanism in the space that door window auxiliary frame surrounds, heat insulation connecting mechanism is by the space partition between door window auxiliary frame and door and window main body into two independent cavitys, outer chamber including outdoor one side, the inner chamber body of indoor one side, inject foaming agent in outer chamber and inner chamber body respectively.Door and window main body of the present invention realizes that the connection structure of bridge insulation thermal resistance can be effectively heat-insulated with door window auxiliary frame, and the security in security process is good.

Description

A kind of door and window main body realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame

Technical field

The present invention relates to a kind of door and window heat-insulating techniques, are realized more specifically to a kind of door and window main body and door window auxiliary frame The connection structure of bridge insulation thermal resistance.

Background technology

The door and window with framework of the prior art, the mounting means of door and window main body include two kinds：One kind is without secondary frame, directly It connects and door and window main body is embedded in wall；Another kind is the pre-buried pair frame in wall, and door and window main body and the connection mode of secondary frame use Formula screw is shot, by the locking of door and window main body on secondary frame.

Due to, there are heat transfer, and bringing heat into interior between the frame of door and window main body and secondary frame, heat-protecting glass is influenced Overall effect.Because the frame of door and window main body and secondary frame generally are good conductor, good heat conductivity, although heat-protecting glass Partial heat is blocked, but heat is directly oriented to wall by the door and window main body of the first mounting means, is got in；Second of peace Dress mode, the heat absorbed from frame is because door and window main body is contacted directly with secondary frame, and heat is reached secondary frame, and then takes wall to Body is got in.

The content of the invention

It is an object of the invention to overcome the deficiencies of the prior art and provide a kind of security, effectively heat-insulated door and window main bodys The connection structure of bridge insulation thermal resistance is realized with door window auxiliary frame.

Technical scheme is as follows：

A kind of door and window main body realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, including door and window main body, door window auxiliary frame, door Window pair frame is embedded in building hole in advance；Door and window main body is installed on by heat insulation connecting mechanism in the space that door window auxiliary frame surrounds, heat-insulated Space partition between door window auxiliary frame and door and window main body into two independent cavitys, is included the exocoel of outdoor one side by bindiny mechanism Body, the inner chamber body of indoor one side, inject foaming agent in outer chamber and inner chamber body respectively.

Preferably, be provided with support frame on the outside of door window auxiliary frame, support frame includes support wing and outside by support wing The holding tank along its length of extension；Support wing is vertically arranged on door window auxiliary frame.

Preferably, heat insulation connecting mechanism includes being arranged on the sash installation on the outside of door and window main body surrounding along its length The support wing of wing, support frame, sash are installed wing and are bonded with wing is supported to fold position, and at least one in sash installation wing or support wing A to be made of heat-barrier material, the heat transfer between door and window main body and door window auxiliary frame is ended by heat-barrier material, does not form heat conduction Passage, by the space partition between door window auxiliary frame and door and window main body into two independent heat-insulated cavitys.

Preferably, after door and window main body is arranged on door window auxiliary frame, the outer side edges of door and window main body are along beyond door window auxiliary frame Outside is covered in above the open surface of holding tank, surrounds outer chamber with holding tank, and leave outer slit aperture；From outer slit aperture to Outer chamber injects foaming agent.

Preferably, the inner side edge of door and window main body, along the inside for exceeding door window auxiliary frame, the inner side edge edge of door and window main body is set There is the retaining plate extended downwardly, retaining plate surrounds inner chamber body, and leave interior with door window auxiliary frame, sash installation wing, door and window main body Slit aperture；Foaming agent is injected from interior slit aperture to inner chamber body.

Preferably, support wing and the opposite face of sash installation wing are both provided with grinding tooth, support wing is installed with sash Wing is close and after being bonded, the intermeshing of the grinding tooth of opposite face.

Preferably, heat insulation connecting mechanism further includes the embedded locator that overturning is inlaid in door window auxiliary frame, it is embedded Locator includes locator pedestal and the overturning positioning wing for being articulated in locator pedestal one end, and cunning is offered on door window auxiliary frame Dynamic slot, locator pedestal insertion sliding groove, in door window auxiliary frame；During installation, sash installation wing clamp is mounted in embedded fixed Between position device and support frame, supported between door and window main body and door window auxiliary frame by horizontal vertical adjuster contact.

Preferably, being provided with jacking block at the top of overturning positioning wing, the horizontal stroke of sash installation wing is provided perpendicular on jacking block Screw hole is screwed with jackscrew on horizontal screw, the elastic of jackscrew is adjusted, for adjusting the front and back position of door and window main body.

Preferably, the top of sliding groove both sides respectively extends inwardly secondary frame rib, restrictor pedestal is from sliding groove Upper opening detach sliding groove.

Preferably, surrounding is equipped with door window auxiliary frame overturning installation wing, during installation, door and window along its length on the inside of door window auxiliary frame Secondary frame overturning installation wing overturning is opened to top, is bonded with support wing, is arranged between support wing and sash installation wing.

Preferably, surrounding offers rotation slot, door window auxiliary frame overturning installation wing pivot along its length on the inside of door window auxiliary frame It is connected to rotation slot；When door window auxiliary frame, which overturns installation wing overturning, closes on earth, door window auxiliary frame overturning installation wing is not higher than door window auxiliary Frame surface.

Preferably, the two sides of door window auxiliary frame overturning installation wing is both provided with grinding tooth, door window auxiliary frame overturning installs the two of wing Face is fitted in sash installation wing respectively and after support wing, grinding tooth is intermeshed.

Preferably, heat insulation connecting mechanism includes being arranged on the sash installation on the outside of door and window main body surrounding along its length Wing, the door window auxiliary frame overturning installation wing for being arranged on surrounding on the inside of door window auxiliary frame along its length, sash installation wing and door window auxiliary Frame overturning installs wing and folds position fitting, and sash installation wing or door window auxiliary frame overturn at least one using heat-barrier material in installation wing It is made, by the space partition between door window auxiliary frame and door and window main body into two independent heat-insulated cavitys.

Preferably, after door and window main body is arranged on door window auxiliary frame, the outer side edges of door and window main body are along beyond door window auxiliary frame Outside, door and window main body surround outer chamber with door window auxiliary frame overturning installation wing, door window auxiliary frame, inject foaming agent to outer chamber.

Preferably, the inner side edge of door and window main body, along the inside for exceeding door window auxiliary frame, the inner side edge edge of door and window main body is set There is the retaining plate extended downwardly, retaining plate surrounds inner chamber body, and leave interior with door window auxiliary frame, sash installation wing, door and window main body Slit aperture；Foaming agent is injected from interior slit aperture to inner chamber body.

Preferably, door window auxiliary frame overturning installation wing and the opposite face of sash installation wing are both provided with grinding tooth, door window auxiliary Frame overturning installation wing and sash installation wing is close and after being bonded, and the grinding tooth of opposite face is intermeshed.

Preferably, heat insulation connecting mechanism further includes the embedded locator that overturning is inlaid in door window auxiliary frame, it is embedded Locator includes locator pedestal and the overturning positioning wing for being articulated in locator pedestal one end, and cunning is offered on door window auxiliary frame Dynamic slot, locator pedestal insertion sliding groove, in door window auxiliary frame；During installation, sash installation wing clamp is mounted in embedded fixed Between position device and door window auxiliary frame overturning installation wing, supported between door and window main body and door window auxiliary frame by horizontal vertical adjuster contact.

Preferably, being provided with jacking block at the top of overturning positioning wing, the horizontal stroke of sash installation wing is provided perpendicular on jacking block Screw hole is screwed with jackscrew on horizontal screw, the elastic of jackscrew is adjusted, for adjusting the front and back position of door and window main body.

Preferably, the top of sliding groove both sides respectively extends inwardly secondary frame rib, restrictor pedestal is from sliding groove Upper opening detach sliding groove.

Preferably, surrounding offers rotation slot, door window auxiliary frame overturning installation wing pivot along its length on the inside of door window auxiliary frame It is connected to rotation slot；When door window auxiliary frame, which overturns installation wing overturning, closes on earth, door window auxiliary frame overturning installation wing is not higher than door window auxiliary Frame surface.

Beneficial effects of the present invention are as follows：

In the present invention, the fit system of the support wing and sash installation wing of door window auxiliary frame overturning installation wing or support frame, Space between door and window main body and door window auxiliary frame is separated into two independent heat-insulated cavitys, by door window auxiliary frame overturn installation wing or At least one use heat-barrier material that the support wing of support frame is installed with sash in wing is made, you can blocks door and window main body and door Heat transfer between window pair frame.

The present invention heat insulation connecting mechanism, by door window auxiliary frame overturn installation wing or support frame support wing with it is embedded fixed /V of the position device to the carry out Z-direction of sash installation wing, by being arranged on the horizontal vertical adjuster of surrounding, is realized on the door The supporting role of window main body and up and down position of the door and window main body in door window auxiliary frame is adjusted.Entire connection machine Structure is shot without using screw, installs no complex operations, and step is simple, the experiment proved that, installation effectiveness is up to conventional mounting side Six times or more of formula, greatly improve the work efficiency of construction personnel, and recruitment cost obtains huge reduction.

The mechanical water blocking design of the cooperation present invention, realizes absolute water blocking effect.The sash installation wing and door of the present invention The support wing of window pair frame overturning installation wing or support frame spatially overlaps, and realizes mechanical absolute waterproof effect.

When the overturning positioning wing overturning of embedded locator is closed on earth, it is hidden in the sliding groove of door window auxiliary frame, does not account for It is pre-buried with door window auxiliary frame with the space of door window auxiliary frame in height, when the later stage carries out the installation of door and window main body, it is fixed to open overturning Position wing can be used.Embedded locator can slide in sliding groove, for adjusting the installation site of embedded locator.

Description of the drawings

Fig. 1 is the installation effect figure of door and window main body and door window auxiliary frame；

Fig. 2 is the implementation result figure of door and window main body and door window auxiliary frame；

Fig. 3 is sash installation wing and the scheme of installation of door and window main body；

Fig. 4 is the schematic diagram of heat insulation connecting mechanism；

Fig. 5 is the schematic diagram of support frame；

Fig. 6 is sash installation wing and the scheme of installation of door and window main body；

Fig. 7 is sash installation wing and the installation effect figure of door and window main body；

Fig. 8 is the structure diagram of embedded locator；

Fig. 9 is the scheme of installation of embedded locator and door window auxiliary frame；

Figure 10 is the installation effect figure of embedded locator and door window auxiliary frame；

Figure 11 is the Structure explosion diagram of horizontal vertical adjuster；

Figure 12 is the state diagram that overturning positioning wing inserts the slot into horizontal vertical adjuster；

Figure 13 is horizontal vertical adjuster after installation is complete, and adjusting bolt is in the state diagram not screwed out；

Figure 14 is the schematic diagram that adjusting bolt is in back-out state；

Figure 15 is horizontal vertical adjuster and the schematic diagram of door and window main body and door window auxiliary frame difference contact state；

Figure 16 is the schematic diagram of the original state before horizontal vertical adjuster is adjusted；

Figure 17 is the structure diagram of supporting frame；

Figure 18 is the structure diagram for spelling corner fittings；

Figure 19 is that the installation condition of door and window main body and door window auxiliary frame is in the schematic diagram of gluing step；

Figure 20 is the splicing schematic diagram of door window auxiliary frame；

Figure 21 is the splicing effect figure of door window auxiliary frame；

Figure 22 is the scheme of installation of secondary frame sealed piece；

Figure 23 is the secondary frame sealed piece view that installation is complete；

Figure 24 is the scheme of installation of door window auxiliary frame overturning installation wing and door window auxiliary frame；

Figure 25 is the installation effect figure of door window auxiliary frame overturning installation wing and door window auxiliary frame；

Figure 26 is state diagram when door window auxiliary frame overturning installation wing is bonded with support wing；

Figure 27 is that door window auxiliary frame overturning installation wing is clamped in support wing and state diagram during sash installation wing；

In figure：10 be door and window main body, and 11 be sash installation wing, and 111 be installation wing assembling strips, and 12 be door and window main body card Slot, 13 be retaining plate, and 14 be inner chamber body, and 15 be interior slit aperture, and 20 be door window auxiliary frame, and 201 be sliding groove, and 202 be secondary frame rib, 203 be rotation slot, and 204 be vertical frame, and 205 be transverse frame, and 206 be secondary frame sealed piece, and 21 be door window auxiliary frame overturning installation wing, 22 It is embedded locator, 221 be locator pedestal, and 222 be overturning positioning wing, and 223 be jacking block, and 224 be horizontal screw, and 225 be perpendicular Screw hole, 226 be jackscrew, and 23 be horizontal vertical adjuster, and 231 be regulator base, and 232 be screw rod, and 233 be adjusting bolt, 234 It is slot, 24 be outer chamber, and 25 be outer slit aperture, and 26 be support frame, and 261 be support wing, and 262 be holding tank, and 263 be support edge Frame, 264 be to spell corner fittings, and 27 be foaming agent, and 28 be gluing, and 30 be building hole.

Specific embodiment

The present invention is further described in detail with reference to the accompanying drawings and embodiments.

As shown in Figure 1 and Figure 2, the technical scheme is that by cutting off the heat between door and window main body 10 and door window auxiliary frame 20 Based on conduction, and then realize the better heat-blocking action of effect.Specifically, the present invention provides a kind of door and window main body 10 and door window auxiliary Frame 20 realizes the connection structure of bridge insulation thermal resistance, and the connection structure is except realizing door and window main body 10 and the connection of door window auxiliary frame 20 Effect, while by the space partition between door window auxiliary frame 20 and door and window main body 10 into two independent cavitys, two independent chambers Almost without heat transfer between body, the effect of bridge insulation thermal resistance is realized.The present invention includes door and window main body 10, door window auxiliary frame 20, door Window pair frame 20 is embedded in building hole 30 in advance；Door and window main body 10 is installed on the space that door window auxiliary frame 20 surrounds by heat insulation connecting mechanism It is interior, heat insulation connecting mechanism by the space partition between door window auxiliary frame 20 and door and window main body 10 into two independent cavitys, including room The outer chamber 24 of outer one side, the inner chamber body 14 of indoor one side, the heat transfer between door and window main body 10 and door window auxiliary frame 20 is by heat-insulated material Material is ended, and does not form passage of heat, respectively the injection foaming agent 27 in outer chamber 24 and inner chamber body 14.Door and window main body 10 with Between door window auxiliary frame 20, installation fixation is carried out except through heat insulation connecting mechanism, is also acted on by the expanding support of foaming agent 27, into One step fixes door and window main body 10.

Embodiment one

As shown in Figure 3, Figure 4, the heat insulation connecting mechanism includes being arranged on along its length outside 10 surrounding of door and window main body Sash installation wing 11, the support wing 261 of support frame 26 of side, sash are installed wing 11 and are bonded with wing 261 is supported to fold position, door and window Frame wing 11 is installed or support in wing 261 it is at least one be made of heat-barrier material, by door window auxiliary frame 20 and door and window main body 10 it Between space partition into two independent heat-insulated cavitys.During implementation, support frame 26 can be made of metal material, sash installation Wing 11 can be made of the poor nonmetallic materials of not heat conduction or heat conductivility.

Wherein, support frame 26 is arranged on the outside of door window auxiliary frame 20, as shown in figure 5, support frame 26 includes support wing 261, And by the outwardly extending holding tank 262 along its length of support wing 261；Support wing 261 is vertically arranged in door window auxiliary frame 20 On.

In the present invention, as shown in Figure 6, Figure 7, sash installation wing is provided on the outside of 10 surrounding of door and window main body along its length 11,10 surrounding of door and window main body outside offers door and window main body card slot 12, and the one side of sash installation wing 11 is extended with installation wing and spells Item 111 is filled, installation wing assembling strips 111 are in door and window main body card slot 12.

The present invention also provides the structure of mechanical water blocking, sash installation wing 11 spatially has part with support wing 261 Sash is installed the gap between wing 11 and door window auxiliary frame 20 and stopped by overlapping, support wing 261, prevents water droplet directly from door and window The gap that frame is installed between wing 11 and door window auxiliary frame 20 is penetrated into, and realizes mechanical waterproof effect.

The present invention to be accomplished that door and window main body 10 in door window auxiliary frame 20 suspension installation, therefore, door and window main body 10 with There are a circle gap between door window auxiliary frame 20, pass through 23 contact branch of horizontal vertical adjuster between door and window main body 10 and door window auxiliary frame 20 Support, while for adjusting position up and down of the door and window main body 10 in door window auxiliary frame 20, carry out X-direction and Y direction Position adjust.

As shown in Fig. 8 to Figure 10, embedded locator 22 includes locator pedestal 221 and is articulated in locator pedestal The overturning of 221 one end positions wing 222, and sliding groove 201 is offered on door window auxiliary frame 20, and locator pedestal 221 is inserted into sliding groove 201, in door window auxiliary frame 20.In order to make full use of space, also for easy for installation, before use, will overturning positioning wing 222 It is hidden in door window auxiliary frame 20, sliding groove 201 is offered on door window auxiliary frame 20, overturning positioning wing 222 is articulated in locator pedestal 221 one end when overturning positioning wing 222 is turned to bottom, is located in sliding groove 201 together with locator pedestal 221, realizes that overturning is fixed Position wing 222 is hidden.

Locator pedestal 221 is dropped out with overturning positioning wing 222 out of sliding groove 201 in order to prevent, 201 both sides of sliding groove Top respectively extends inwardly secondary frame rib 202, the width for being smaller than locator pedestal 221 of two secondary frame ribs 202, limitation Locator pedestal 221 detaches sliding groove 201 from the top opening of sliding groove 201.The width of overturning positioning wing 222 is equally necessary It less than the spacing of two secondary frame ribs 202, could be routed up out of sliding groove 201, overturning positioning wing 222 stretches out door window auxiliary when routing up The surface of frame 20.

Embedded locator 22 is slided in sliding groove 201 in order to prevent, influences the limitation to door and window main body 10 Effect.In the present embodiment, locator pedestal 221 offers perpendicular screw hole 225, is screwed into jackscrew 226, jackscrew 226 and 201 bottom of sliding groove Face contact, the increase for the depth that the locator pedestal 221 of embedded locator 22 is screwed into jackscrew 226 and move upwards, directly Top surface and secondary 202 contact of frame rib to locator pedestal 221, locator pedestal 221 is locked in sliding groove 201, is not sent out It is raw to slide.

In order to facilitate producing and assembling, door window auxiliary frame 20 and the overturning of embedded locator 22 position wing 222, locator bottom Overturning positioning wing 222 is first mounted on locator pedestal 221 by the independent production of seat 221, then together with locator pedestal 221 It is pushed into sliding groove 201, according to the requirement of specific implementation, the embedded locator 22 of different number can be installed.It will be embedded Locator 22 is embedded in after door window auxiliary frame 20 is interior, then by door window auxiliary frame 20 in wall.

During installation, sash is installed into wing 11 and is bonded with support wing 261, since support wing 261 is fixedly installed, is prevented Door and window main body 10 is deviate from from door window auxiliary frame 20.Then, the overturning positioning wing 222 of embedded locator 22 is turned to top, overturns Positioning wing 222 grips sash installation wing 11 with wing 261 is supported to be arranged on the two sides of sash installation wing 11. In order to which more successfully sash installation wing 11 is mounted between overturning positioning wing 222 and support wing 261, embedded locator 22 Overturning positioning wing 222 and support wing 261 between interval not less than sash installation wing 11 thickness.Preferably, overturning is fixed Interval between position wing 222 and support wing 261 is exactly equal to the thickness of sash installation wing 11.

Due in actual installation process, it is impossible to by door and window main body 10 accurately and rightfully mounted on door window auxiliary frame 20 It is interior, it is therefore desirable to carry out the fine tuning of angle and position to door and window main body 10 by horizontal vertical adjuster 23.In the present embodiment, such as Shown in Figure 11 to Figure 16,201 top of sliding groove is additionally provided with horizontal vertical adjuster 23, and horizontal vertical adjuster 23 includes adjusting Device pedestal 231 and at least one screw rod 232 being provided in regulator base 231 are screwed with adjusting bolt on screw rod 232 233.Horizontal vertical adjuster 23 is corresponding with overturning positioning wing 222, and an overturning positioning wing 222 matches a horizontal vertical and adjusts Device 23 by the precession and back-out of adjusting bolt 233, realizes the angle and 10 surrounding of door and window main body and door to door and window main body 10 The spacing of window pair frame 20 is adjusted, and supports door and window main body 10 and door window auxiliary frame 20.Finally lock all horizontal vertical tune The adjusting bolt 233 of device 23 is saved, /V is carried out to door and window main body 10 on a vertical plane so that door and window main body 10 is in perpendicular On can not carry out displacement up and down.

Overturning positioning wing 222 swings in order to prevent, and in the present invention, regulator base 231 offers slot 234, overturning positioning wing 222 is inserted into slot 234, the swing of positioning wing 222 is overturn by 234 /V of slot.It is moreover, secondary Frame rib 202 with 20 surface of door window auxiliary frame there are difference in height, not less than the thickness supported, horizontal vertical adjuster 23 pacify by difference in height On door window auxiliary frame 20, regulator base 231 is inlaid in the top of sliding groove 201, is affiliated on secondary frame rib 202.Installation After in place, the sedimentation of regulator base 231 of horizontal vertical adjuster 23 is absorbed in sliding groove 201, and the lock of modulated bolt 233 Tight active force, just can not be from sliding laterally off., it is necessary to first loosen adjusting bolt 233 when needing to remove horizontal vertical adjuster 23, obtain To enough spaces regulator base 231 is allowed to give up the throne, depart from sliding groove 201, horizontal vertical adjuster 23 could be taken out.

222 top of overturning positioning wing is provided with jacking block 223, and sash installation wing 11 is provided perpendicular on jacking block 223 Horizontal screw 224 is screwed with jackscrew 226 on horizontal screw 224, adjusts the elastic of jackscrew 226, before and after adjusting door and window main body 10 Position, angle, and door and window main body 10 is locked in the Z-axis direction.So far, door and window main body 10 is in embedded locator 22 and level Under the collective effect of vertical adjusting device 23, the displacement limitation of the six direction of three dimensions is realized, is stabilized in and is connected to door and window On secondary frame 20.

After door and window main body 10 is mounted on door window auxiliary frame 20, it is also necessary to further fixed door and window main body 10, i.e., in wall Expanding support is carried out by foaming agent 27 between door and window main body 10.

As shown in figure 4, for outdoor one side, a kind of relatively straightforward embodiment, door and window main body 10 is set the present embodiment After on door window auxiliary frame 20, the outer side edges of door and window main body 10 are covered in the spacious of holding tank 262 along the outside for exceeding door window auxiliary frame 20 It opens above face, surrounds outer chamber 24 with holding tank 262, and leave outer slit aperture 25；It is injected from outer slit aperture 25 to outer chamber 24 Foaming agent 27.By the limitation of holding tank 262, during injecting foaming agent 27, foaming agent 27 is limited to outer chamber 24 It is interior, foaming agent 27 is not only saved, the finishing in later stage is simple, and the encapsulation of holding tank 262, makes foaming agent 27 to door and window master Body 10 has more firm expanding support effect.

Support frame 26 includes four supporting frames, 263, four spelling corner fittings 264, as shown in Figure 17, Figure 18.During installation, first will Four corners that corner fittings 264 is mounted on 20 outside of door window auxiliary frame are spelled, the both ends of supporting frame 263 are connected with spelling corner fittings 264.Branch Supportting frame 263 includes support wing and by the outwardly extending holding tank 262 along its length of supporting frame 263；Door window auxiliary frame 20 inside surroundings offer secondary frame card slot along its length, and the bottom surface of supporting frame 263 is extended with 26 assembling strips of support frame, support Frame 26 splices item and is flush-mounted in secondary frame card slot.

In order to which sash installation wing 11 is made to be bonded more close and firm with support wing 261, the present embodiment is by increasing door and window Frame installs wing 11 and the frictional force between wing 261 is supported to realize, is specially：Support wing 261 opposite with sash installation wing 11 Face is both provided with grinding tooth, after supporting wing 261 close with sash installation wing 11 and being bonded, the grinding tooth intermeshing of opposite face.

For indoor one side, the inner side edge edge of door and window main body 10 exceeds the inside of door window auxiliary frame 20, door and window main body 10 Inner side edge installs wing 11, door and window main body along the retaining plate 13 extended downwardly, retaining plate 13 is provided with door window auxiliary frame 20, sash 10 surround inner chamber body 14, and leave interior slit aperture 15；Foaming agent 27 is injected from interior slit aperture 15 to inner chamber body 14.Pass through retaining plate 13 limitation, during injecting foaming agent 27, foaming agent 27 is limited in inner chamber body 14, not only saves foaming agent 27, The finishing in later stage is simple, and the encapsulation of retaining plate 13, and foaming agent 27 is made to have more firm expansion to door and window main body 10 Support effect.

Support frame 26 is assembled on door window auxiliary frame 20, in order to which the position of support frame 26 is more firm, in the present embodiment, is also being propped up Gluing 28 between support frame 26 and outdoor wall surface, the installation of further reinforcing brace frame 26, as shown in figure 19.

Rainwater is directly beaten on foaming agent 27 or support frame 26 in order to prevent, influences waterproof effect, also for preventing sunlight Direct projection is on foaming agent 27 or support frame 26, the problem of bringing accelerated ageing, in the present embodiment, the installation of 26 outer surface of support frame There is decoration sealing strip 29, the lower part of decoration sealing strip 29 is connected with support frame 26, decorates the top of sealing strip 29 and door and window main body 10 connections all block outer slit aperture 25.Rainwater cannot be contacted directly with support frame 26 or foaming agent 27, also isolate sun The direct projection of light.And make door and window more beautiful in outdoor one side.

In order to facilitate door window auxiliary frame 20 production with moving, door window auxiliary frame 20 facilitates packing, with zero using assembled structure Part form is stacked, and occupied space is few, and space availability ratio is high.As shown in figure 20, door window auxiliary frame 20 includes two vertical frames 204, two A transverse frame 205, the top surface of one of 204 one end of vertical frame are connected with the side of next 205 one end of transverse frame, transverse frame The top surface of 205 other ends is connected with the side of next 204 one end of vertical frame, the top surface of 204 other end of vertical frame with it is next The side connection of 205 one end of transverse frame, the top surface of 205 other end of transverse frame are connected with the side of first 204 one end of vertical frame. After the completion of assembly, each vertical frame 204 has one end from blocking with transverse frame 205, when facilitating later maintenance, embedded positioning Device 22 takes out with door window auxiliary frame overturning installation wing 21 from one end of vertical frame 204 and the unobstructed sliding groove 201 of transverse frame 205, And each vertical frame 204 and the other end of transverse frame 205 are blocked, and are prevented in installation process, embedded locator 22 from It is skidded off in sliding groove 201.Then, as shown in Figure 22, Figure 23, secondary frame sealed piece 206 is being set from the end cap blocked, is preventing from pacifying During dress, silt enters from door window auxiliary frame 20 from the one end blocked, and influences the slip of embedded locator 22.

The present invention can be used for the installation of window, can be used for the installation of door, particularly antitheft door, after tested, this hair Bright door and window main body 10 can reach the power of resistance tonne under the action of foaming agent 27.When the present invention is implemented on the installation of door, door Window main body 10 is door body, including doorframe and the door-plate being arranged in doorframe；Door window auxiliary frame 20 is to be embedded in building hole 30 Door accessory frame.When the present invention is implemented on the installation of window, door and window main body 10 is forms, including window frame and is arranged in doorframe Window unit；Door window auxiliary frame 20 is the window pair frame for being embedded in building hole 30.

Embodiment two

In the present embodiment, one layer of installation wing is set between support wing 261 and sash installation wing 11, i.e. door window auxiliary frame turns over Turn installation wing 21 so that the connection between support wing 261 and sash installation wing 11 is closer.

Specifically, as shown in Figure 24, Figure 25,20 inside surrounding of door window auxiliary frame offers rotation slot 203, door along its length Window pair frame overturning installation wing 21 is articulated in rotation slot 203；When door window auxiliary frame, which overturns the installation overturning of wing 21, closes on earth, door window auxiliary Frame overturning installation wing 21 is not higher than 20 surface of door window auxiliary frame.In the present embodiment, rotation slot is offered on the outside of 20 surrounding of door window auxiliary frame 203, a side of door window auxiliary frame overturning installation wing 21 is circular shaft, and the main body of door window auxiliary frame overturning installation wing 21 extends from circular shaft Go out；Rotation slot 203 corresponds to circular groove with circular shaft, and the rotation for making door window auxiliary frame overturning installation wing 21 is more smooth.Rotation slot 203 Openings of sizes limits the flip angle of door window auxiliary frame overturning installation wing 21.In the present embodiment, the opening direction of rotation slot 203 is water Flat inside, the horizontal edge of opening is horizontally toward, and the vertical edge of opening is vertically, the both sides form right angle of opening, door window auxiliary frame Overturning installation wing 21 realizes 90 degree of angles of rotation in rotation slot 203.Door window auxiliary frame is overturn in work progress in order to prevent and is installed Wing 21 causes to damage, and when door window auxiliary frame, which overturns installation wing 21, is turned to bottom, door window auxiliary frame overturning installation wing 21 is not higher than door and window Secondary 20 surface of frame, can also be completely contour equal with 20 surface of door window auxiliary frame.

As shown in Figure 26, Figure 27, support frame 26 is fixed at door window auxiliary frame 20 and is beaten in door window auxiliary frame overturning installation wing 21 The outside in the direction opened, after the door window auxiliary frame overturning installation overturning of wing 21 is opened, with 26 contact of support frame, support frame 26 is to door window auxiliary The flip angle of frame overturning installation wing 21 is limited.After door and window main body 10 is arranged on door window auxiliary frame 20, outside door and window main body 10 Side is covered in above the open surface of holding tank 262 along the outside for exceeding door window auxiliary frame 20, outer chamber is surrounded with holding tank 262 24, and leave outer slit aperture 25；Foaming agent 27 is injected from outer slit aperture 25 to outer chamber 24.Support frame 26 overturns door window auxiliary frame Install wing 21 have further position-limiting action, prevent push-in door and window main body 10 when it is firmly excessive, cause door window auxiliary frame overturning peace It fills 21 deformed damaged of wing and overturns excessively so that door window auxiliary frame overturning installation wing 21 is subject to shadow to the contact effect of door and window main body 10 It rings.

During installation, door window auxiliary frame overturning installation wing 21 is turned to top, and sash then is installed wing 11 and door window auxiliary frame Overturning installation wing 21 is bonded, when being turned to top due to door window auxiliary frame overturning installation wing 21, in the position-limiting action of rotation slot 203 Under, it can not be further continued for overturning, avoid the danger that door and window main body 10 is deviate from from door window auxiliary frame 20 caused by excessively overturning.Then, The overturning positioning wing 222 of embedded locator 22 is turned to top, and overturning positioning wing 222 overturns installation wing 21 with door window auxiliary frame and sets On the two sides of sash installation wing 11, sash installation wing 11 is gripped.In order to which more successfully sash is installed Wing 11 is mounted between overturning positioning wing 222 and embedded locator 22, the overturning positioning wing 222 and door of embedded locator 22 Interval between window pair frame overturning installation wing 21 is installed by the thickness of wing 11 not less than sash.Preferably, overturning positioning wing 222 with Interval between door window auxiliary frame overturning installation wing 21 is exactly equal to the thickness of sash installation wing 11.

After door window auxiliary frame overturning installation wing 21 is opened in order to prevent, during door and window main body 10 is installed, generation can not The vibration avoided and other factors that there may be cause the door window auxiliary frame overturning installation overturning of wing 21 to close, cause installation It is difficult.In the present embodiment, door window auxiliary frame overturning installation wing 21 is bonded after opening with support frame 26.It can be with 26 direction of support frame Window pair frame overturning installation wing is provided with adhesive tape on one side, before use, adhesive tape is covered with film paper, in use, film paper is torn, For being bonded support frame 26 and window pair frame overturning installation wing.

In order to make what sash installation wing 11 and door window auxiliary frame overturning installed wing 21 to be bonded more close and firm, the present embodiment leads to The frictional force that crossing increases between sash installation wing 11 and door window auxiliary frame overturning installation wing 21 is realized, is specially：Door window auxiliary frame turns over The two sides for turning installation wing 21 is both provided with grinding tooth, and the two sides of door window auxiliary frame overturning installation wing 21 is fitted in sash installation wing respectively 11 with support wing 261 after, grinding tooth intermeshing.

Other parts are identical with embodiment one.

Embodiment three

Being distinguished as of the present embodiment and embodiment two is not provided with support frame, is only provided with door window auxiliary frame overturning installation wing 21, Space between door and window main body 10 and wall is directly injected into foaming agent 27, by door and window main body 10, door window auxiliary frame overturning installation wing 21 cavitys surrounded jointly with wall, as the space for accommodating foaming agent 27.

Other parts are identical with embodiment two.

In order to be reinforced to the connection of door and window main body and door window auxiliary frame, can the support wing 261 in embodiment one with On sash installation wing 11, wing 21 is installed in the overturning of the support wing 261 in embodiment two, door window auxiliary frame and sash installs wing 11 Door window auxiliary frame overturning installation wing 21 upper, in embodiment three by screw on sash installation wing 11, being locked, being reached more Firm connection effect.

Above-described embodiment is intended merely to illustrate the present invention, and is not used as limitation of the invention.As long as according to this hair Bright technical spirit is changed above-described embodiment, modification etc. will all fall in the range of the claim of the present invention.

Claims (19)

1. a kind of door and window main body realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, including door and window main body, door window auxiliary frame, door and window Secondary frame is embedded in building hole in advance；It is characterized in that, door and window main body is installed on the sky that door window auxiliary frame surrounds by heat insulation connecting mechanism In, heat insulation connecting mechanism by the space partition between door window auxiliary frame and door and window main body into two independent cavitys, including outdoor The outer chamber of one side, the inner chamber body of indoor one side, inject foaming agent in outer chamber and inner chamber body respectively；The outside of door window auxiliary frame Support frame is provided with, support frame includes support wing and by the outwardly extending holding tank along its length of support wing；Support wing It is vertically arranged on door window auxiliary frame.

2. door and window main body according to claim 1 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, which is characterized in that Heat insulation connecting mechanism includes being arranged on the support of sash the installation wing, support frame on the outside of door and window main body surrounding along its length Wing, sash are installed wing and are bonded with wing is supported to fold position, at least one using heat-barrier material in sash installation wing or support wing It is made, the heat transfer between door and window main body and door window auxiliary frame is ended by heat-barrier material, does not form passage of heat, by door window auxiliary frame Space partition between door and window main body is into two independent heat-insulated cavitys.

3. door and window main body according to claim 1 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, which is characterized in that After door and window main body is arranged on door window auxiliary frame, the outer side edges of door and window main body are covered in holding tank along the outside for exceeding door window auxiliary frame Open surface above, surround outer chamber with holding tank, and leave outer slit aperture；Foaming agent is injected from outer slit aperture to outer chamber.

4. door and window main body according to claim 2 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, which is characterized in that The inner side edge of door and window main body is provided with the gear glue extended downwardly along the inside for exceeding door window auxiliary frame, the inner side edge edge of door and window main body Plate, retaining plate surround inner chamber body, and leave interior slit aperture with door window auxiliary frame, sash installation wing, door and window main body；From interior slit aperture Foaming agent is injected to inner chamber body.

5. door and window main body according to claim 2 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, which is characterized in that Support wing and the opposite face of sash installation wing are both provided with grinding tooth, after supporting wing close with sash installation wing and being bonded, phase The grinding tooth intermeshing on opposite.

6. door and window main body according to claim 2 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, which is characterized in that Heat insulation connecting mechanism further includes the embedded locator that overturning is inlaid in door window auxiliary frame, and embedded locator includes locator bottom Seat and the overturning positioning wing for being articulated in locator pedestal one end, sliding groove, the insertion of locator pedestal are offered on door window auxiliary frame Sliding groove, in door window auxiliary frame；During installation, sash installation wing clamp is mounted between embedded locator and support frame, door It is supported between window main body and door window auxiliary frame by horizontal vertical adjuster contact.

7. door and window main body according to claim 6 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, which is characterized in that Jacking block is provided at the top of overturning positioning wing, the horizontal screw of sash installation wing is provided perpendicular on jacking block, is screwed on horizontal screw There is jackscrew, adjust the elastic of jackscrew, for adjusting the front and back position of door and window main body.

8. door and window main body according to claim 6 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, which is characterized in that The top of sliding groove both sides respectively extends inwardly secondary frame rib, and restrictor pedestal detaches cunning from the upper opening of sliding groove Dynamic slot.

9. door and window main body according to claim 2 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, which is characterized in that Surrounding is equipped with door window auxiliary frame overturning installation wing along its length on the inside of door window auxiliary frame, and during installation, door window auxiliary frame overturning installation wing turns over Turn to be opened to top, be bonded with support wing, is arranged between support wing and sash installation wing.

10. door and window main body according to claim 9 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, feature exists In surrounding offers rotation slot along its length on the inside of door window auxiliary frame, and door window auxiliary frame overturning installation wing is articulated in rotation slot；Work as door When the overturning installation wing overturning of window pair frame is closed on earth, door window auxiliary frame overturning installation wing is not higher than door window auxiliary frame surface.

11. door and window main body according to claim 9 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, feature exists In the two sides of door window auxiliary frame overturning installation wing is both provided with grinding tooth, and the two sides of door window auxiliary frame overturning installation wing is fitted in door respectively Window frame installs wing and after support wing, grinding tooth is intermeshed.

12. a kind of door and window main body realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, including door and window main body, door window auxiliary frame, door Window pair frame is embedded in building hole in advance；It is characterized in that, door and window main body is installed on what door window auxiliary frame surrounded by heat insulation connecting mechanism In space, heat insulation connecting mechanism by the space partition between door window auxiliary frame and door and window main body into two independent cavitys, including room The outer chamber of outer one side, the inner chamber body of indoor one side, inject foaming agent in outer chamber and inner chamber body respectively；Heat insulation connecting mechanism Wing is installed including being arranged on the sash on the outside of door and window main body surrounding along its length, is arranged on along its length in door window auxiliary frame The door window auxiliary frame overturning installation wing of side surrounding, sash installation wing are folded position with door window auxiliary frame overturning installation wing and are bonded, sash peace At least one use heat-barrier material in dress wing or door window auxiliary frame overturning installation wing is made, will be between door window auxiliary frame and door and window main body Space partition into two independent heat-insulated cavitys.

13. door and window main body according to claim 12 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, feature exists In, after door and window main body is arranged on door window auxiliary frame, the outer side edges of door and window main body along the outside for exceeding door window auxiliary frame, door and window main body with Door window auxiliary frame overturning installation wing, door window auxiliary frame surround outer chamber, inject foaming agent to outer chamber.

14. door and window main body according to claim 12 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, feature exists In for the inner side edge of door and window main body along the inside for exceeding door window auxiliary frame, the inner side edge edge of door and window main body is provided with the gear extended downwardly Offset plate, retaining plate surround inner chamber body, and leave interior slit aperture with door window auxiliary frame, sash installation wing, door and window main body；From interior gap Mouth injects foaming agent to inner chamber body.

15. door and window main body according to claim 12 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, feature exists Be both provided with grinding tooth in the opposite face of, door window auxiliary frame overturning installation wing and sash installation wing, door window auxiliary frame overturning installation wing with Sash installation wing is close and after being bonded, the intermeshing of the grinding tooth of opposite face.

16. door and window main body according to claim 12 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, feature exists In heat insulation connecting mechanism further includes the embedded locator that overturning is inlaid in door window auxiliary frame, and embedded locator includes positioning Device pedestal and the overturning positioning wing for being articulated in locator pedestal one end, offer sliding groove, locator pedestal on door window auxiliary frame Sliding groove is inserted into, in door window auxiliary frame；During installation, sash installation wing clamp is turned over mounted in embedded locator with door window auxiliary frame Between turning installation wing, supported between door and window main body and door window auxiliary frame by horizontal vertical adjuster contact.

17. door and window main body according to claim 16 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, feature exists In overturning positioning wing top is provided with jacking block, and the horizontal screw of sash installation wing is provided perpendicular on jacking block, is revolved on horizontal screw Jackscrew is connected to, adjusts the elastic of jackscrew, for adjusting the front and back position of door and window main body.

18. door and window main body according to claim 16 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, feature exists In the top of sliding groove both sides respectively extends inwardly secondary frame rib, and restrictor pedestal departs from from the upper opening of sliding groove Go out sliding groove.

19. door and window main body according to claim 12 realizes the connection structure of bridge insulation thermal resistance with door window auxiliary frame, feature exists In surrounding offers rotation slot along its length on the inside of door window auxiliary frame, and door window auxiliary frame overturning installation wing is articulated in rotation slot；Work as door When the overturning installation wing overturning of window pair frame is closed on earth, door window auxiliary frame overturning installation wing is not higher than door window auxiliary frame surface.