CN112523501B - Bay window aluminum mould - Google Patents

Abstract

The invention relates to a bay window aluminum die, which comprises an aluminum die component and an anti-floating device; the anti-floating device is detachably connected with the aluminum mould assembly, and the aluminum mould assembly is used for pouring concrete; the anti-floating device is used for preventing the aluminum die assembly from arching and downwarping; so set up, through setting up anti device that floats, improved the intensity of window aluminium mould that wafts, and then at the concrete vibration in-process, avoid the window aluminium mould that wafts to produce the mould that expands and the window roof arch that wafts arch, improved the aesthetic property of the window roof that wafts.

Description

Bay window aluminum mould

Technical Field

The invention relates to the technical field of floating window aluminum die anti-floating, in particular to a floating window aluminum die.

Background

At present, the aluminum alloy template is widely applied to the building engineering industry, is a new generation of novel building template, and has the advantages of modulization, high repeated use frequency and the like.

The aluminum alloy template comprises a bay window aluminum alloy template, which is called a bay window aluminum mold for short, and a vibrating bar is used for vibrating for a long time in the construction process, so that the bay window top plate formed by pouring concrete is ensured to be compact.

However, during the vibrating process, the bay window aluminum mold is stressed greatly, which may cause the bay window aluminum mold to expand, and further cause the bay window top plate to arch.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a bay window aluminum die, which has the advantage of solving the problems of bay window aluminum die expansion and bay window top plate arching.

The above object of the present invention is achieved by the following technical solutions: a bay window aluminum mould comprises an aluminum mould component and an anti-floating device; the anti-floating device is detachably connected with the aluminum film assembly, and the aluminum film assembly is used for pouring concrete; the anti-floating device is used for preventing the aluminum film assembly from expanding.

Preferably, the bay window aluminum film provided by the invention comprises a first bay window aluminum plate, a second bay window aluminum plate arranged corresponding to the first bay window aluminum plate, and a bay window connecting plate; first window aluminum plate that wafts with the second wafts window aluminum plate and all sets up with horizontal plane parallel arrangement, first window aluminum plate that wafts with the second wafts window aluminum plate and encloses and establishes into confined accommodation space, the one end of the window connecting plate that wafts with the second wafts window aluminum plate and connects towards the one end of room, the other end of the window connecting plate that wafts is connected with the window bottom plate that wafts that is formed by concrete placement.

Preferably, the floating window aluminum film provided by the invention comprises a counter-pulling screw rod, the first floating window aluminum plate is provided with a first via hole, the second floating window aluminum plate is provided with a second via hole, the floating window bottom plate is provided with a third via hole, the first via hole, the second via hole and the third via hole are correspondingly arranged, and the counter-pulling screw rod passes through the first via hole, the second via hole and the third via hole; the counter-pulling screw rod is used for counter-pulling the first bay window aluminum plate and the bay window bottom plate, so as to prevent the first bay window aluminum plate from arching.

Preferably, the bay window aluminum film provided by the invention further comprises a support assembly, the support assembly is arranged between the second bay window aluminum plate and the bay window bottom plate, the top end of the support assembly abuts against the second bay window aluminum plate, and the bottom end of the support assembly abuts against the bay window bottom plate.

Preferably, the support assembly of the bay window aluminum film provided by the invention comprises a sleeve and a threaded column, wherein a central axis of the sleeve is superposed with a central axis of the threaded column, an internal thread is arranged at one end of the sleeve facing the threaded column, and one end of the threaded column is screwed into the sleeve and is matched with the internal thread, so that the sleeve is connected with the threaded column; the threaded column deviates from one end of the sleeve abuts against the bay window bottom plate, and one end of the sleeve deviates from the threaded column abuts against the second bay window aluminum plate.

Preferably, in the bay window aluminum film provided by the invention, a base is arranged at one end of the threaded column, which is away from the sleeve, and one side of the base, which is away from the threaded column, abuts against the bay window bottom plate.

Preferably, the floating window aluminum film provided by the invention further comprises at least two anti-floating assemblies, the two anti-floating assemblies are respectively arranged on the first floating window aluminum plate and the floating window connecting plate, one of the anti-floating assemblies is detachably connected with the first floating window aluminum plate, and the other anti-floating assembly is detachably connected with the floating window connecting plate.

Preferably, the floating window aluminum film provided by the invention comprises a back edge and a connecting screw rod, the back edge extends along the long side direction of the first floating window aluminum plate, the back edge is arranged on one side of the first floating window aluminum plate departing from the second floating window aluminum plate/one side of the floating window connecting plate departing from the room, and the connecting screw rod is used for connecting the back edge with the first floating window aluminum plate/the floating window connecting plate.

Preferably, the back edge of the bay window aluminum film provided by the invention comprises two square steels, the two square steels are arranged correspondingly, a plurality of connecting pipes are arranged between the two square steels and arranged at intervals along the extending direction of the square steels, two opposite sides of each connecting pipe are respectively connected with the two square steels, the connecting screw penetrates through the connecting pipes, and the connecting screw is detachably connected with the back edge.

Preferably, according to the bay window aluminum film provided by the invention, the first bay window aluminum plate is provided with a plurality of vent holes, and the vent holes are arranged at intervals along the long side direction of the bay window top plate.

In summary, the beneficial technical effects of the invention are as follows: the bay window aluminum film provided by the embodiment comprises an aluminum film assembly and an anti-floating device; the anti-floating device is detachably connected with the aluminum film assembly, and the aluminum film assembly is used for pouring concrete; the anti-floating device is used for preventing the aluminum film component from arching and downwarping; so set up, through setting up anti device that floats, improved the intensity of window aluminium mould that wafts, and then at the concrete vibration in-process, avoid the window aluminium mould that wafts to produce the mould that expands and the window roof arch camber that wafts, improved the aesthetic property of the window roof that wafts.

Drawings

Fig. 1 is a schematic structural diagram of a first bay window aluminum plate in the bay window aluminum mold according to the embodiment of the present invention.

Fig. 2 is a cross-sectional view of a bay window aluminum mold provided by an embodiment of the present invention.

In the figure, 1, a bay window aluminum mold; 10. an anti-float component; 101. back corrugation; 102. connecting a screw rod; 103. A backing plate; 20. a support assembly; 201. a sleeve; 202. a threaded post; 203. a base; 30. a first bay window aluminum plate; 40. a second bay window aluminum plate; 50. a bay window connecting plate; 501. an aluminum plate; 60. a bay window bottom plate; 70. a connecting member; 80. and (4) oppositely pulling the screw rod.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the bay window aluminum mold 1 disclosed by the invention comprises an aluminum mold assembly, wherein the aluminum mold assembly is determined according to mold matching, and concrete is poured into the aluminum mold assembly.

For convenience of explanation, the construction of the bay window on the second floor or above is taken as an example for explanation

The aluminum die assembly comprises a first bay window aluminum plate 30, a second bay window aluminum plate 40 and a bay window connecting plate 50, wherein the second bay window aluminum plate 40 corresponds to the first bay window aluminum plate 30; taking the orientation shown in fig. 2 as an example, the bay window connecting plate 50 is located below the second bay window aluminum plate 40, and the bay window connecting plate 50 is disposed perpendicular to the horizontal plane.

Specifically, the first bay window aluminum plate 30 and the second bay window aluminum plate 40 are both arranged parallel to the horizontal plane, the first bay window aluminum plate 30 and the second bay window aluminum plate 40 enclose a closed accommodating space, it should be noted that the accommodating space determines the size of the bay window roof formed by pouring concrete, wherein a plane parallel to the horizontal plane is used as a cross section, and the cross section of the accommodating space may be rectangular, semicircular or other polygons, which is not limited in this embodiment. One end of the bay window connecting plate 50 is connected to one end of the second bay window aluminum plate 40 facing the room, and the other end of the bay window connecting plate 50 is connected to the bay window bottom plate 60 formed by pouring concrete.

Furthermore, a plurality of vent holes are formed in the first bay window aluminum plate 30, and the vent holes are arranged at intervals along the long side direction of the bay window top plate; can produce the bubble at the concrete vibration in-process, through set up the exhaust hole on the first window aluminum plate 30 that wafts for the bubble is got rid of by the exhaust hole, avoids the bubble to support the top on the first window aluminum plate 30 that wafts, and then avoids the first window aluminum plate 30 that wafts to produce the deformation.

The bay window connecting plate 50, the first bay window aluminum plate 30 and the second bay window aluminum plate 40 are all determined by a die assembly method. The bay window connecting plate 50 comprises a plurality of aluminum plates 501, and the aluminum plates 501 are sequentially spliced; the aluminum plates 501 are matched along the short side direction of the bay window connecting plate 50, it should be noted that the aluminum plates 501 are aluminum plates 501 of different types, and the aluminum plates 501 are connected in sequence; then, a plurality of aluminum plates 501 with the same type are sequentially connected along the long side direction of the bay window connecting plate 50, and the bay window connecting plate 50 meeting the requirements is spliced.

The die matching method of the first bay window aluminum plate 30 and the die matching method of the second bay window aluminum plate 40 are the same as the die matching method of the bay window connecting plate 50, and are not described herein again.

With reference to fig. 1 and fig. 2, the floating window aluminum mold 1 provided in this embodiment further includes an anti-floating device, the anti-floating device is detachably connected to the aluminum mold assembly, the anti-floating device is used for preventing the aluminum mold assembly from expanding, and by providing the anti-floating device, the aluminum mold assembly is prevented from expanding during the concrete pouring process.

The anti-floating device and the aluminum film assembly can be connected through bolts, and can be clamped with each other, so that the embodiment is not limited.

The anti-floating device provided by the embodiment comprises at least two anti-floating components 10, wherein the two anti-floating components 10 are respectively arranged on a first bay window aluminum plate 30 and a bay window connecting plate 50, one anti-floating component 10 is detachably connected with the first bay window aluminum plate 30, and the other anti-floating component 10 is detachably connected with the bay window connecting plate 50; the anti-float assembly 10 is used to prevent arching of the bay window ceiling. Wherein, the extending direction of the anti-floating component 10 is parallel to the long side direction of the bay window top plate.

Of course, the anti-floating device may also comprise three anti-floating assemblies 10 or four anti-floating assemblies 10. In an implementation mode that the anti-floating device comprises two anti-floating assemblies 10, one of the anti-floating assemblies 10 is connected with one side of the first bay window aluminum plate 30, which is far away from the second bay window aluminum plate 40, and the other anti-floating assembly 10 is connected with one side of the bay window connecting plate 50, which is far away from the room; from this, the fastness of first bay window aluminum plate 30 and bay window connecting plate 50 has been improved, and then avoid first bay window aluminum plate 30 and bay window connecting plate 50 to produce and warp.

Further, in this embodiment, the anti-floating assembly 10 includes a back ridge 101 and a connecting screw 102, the back ridge 101 extends along a long side direction of the first bay window aluminum plate 30, the back ridge 101 is disposed on a side of the first bay window aluminum plate 30 away from the second bay window aluminum plate 40/a side of the bay window connecting plate 50 away from the room, the connecting screw 102 is inserted on the back ridge 101, the connecting screw 102 is detachably connected with the back ridge 101, and the connecting screw 102 is used for connecting the back ridge 101 with the first bay window aluminum plate 30/the bay window connecting plate 50; the connecting screw rod 102 is detachably connected with the back arris 101, so that the back arris 101 can be conveniently detached and installed.

Exemplarily, back of the body is stupefied 101 can be two C types, and back of the body is stupefied 101 including two C type reinforcements that set up relatively, and it needs to explain that, the open end of two reinforcements sets up relatively, and the extending direction of two reinforcements is parallel, is provided with a plurality of connecting rods between two reinforcements, and the extending direction of connecting rod is perpendicular with the extending direction of reinforcement, has seted up the via hole on the connecting rod, and a plurality of connecting rods set up along the extending direction interval of reinforcement, through setting up the connecting rod, has improved the joint strength between two reinforcements.

In this embodiment, the stupefied 101 of back of the body includes two square steels, and two square steels correspond the setting, are provided with a plurality of connecting pipes between two square steels, and a plurality of connecting pipes set up along the extending direction interval of square steel, and the both sides that the connecting pipe is relative are connected with two square steels respectively, and connecting screw 102 passes the connecting pipe, and connecting screw 102 can dismantle with the stupefied 101 of the back of the body and be connected.

In the above embodiment, the side of the first bay window aluminum plate 30 deviating from the second bay window aluminum plate 40 and the side of the bay window connecting plate 50 deviating from the room are both provided with the back-carrying rib 101, and by setting the back-carrying rib 101, the firmness of the bay window connecting plate 50 and the first bay window aluminum plate 30 is enhanced, and the bay window connecting plate 50 and the first bay window aluminum plate 30 are prevented from being deformed.

Specifically, in the use, one side of one of them back of the body stupefied 101 is supported and is pushed up the first window aluminum plate 30 that wafts and deviate from the second one side of wafting window aluminum plate 40, first through-hole has been seted up on the first window aluminum plate 30 that wafts, the second has been wafted on the window aluminum plate 40 and has been seted up the second through-hole wherein first through-hole corresponds the setting with the second through-hole, and first through-hole and connecting pipe intercommunication, connecting screw 102's one end is passed through the connecting pipe, first through-hole and second through-hole, realize through connecting screw 102 that first window aluminum plate 30 that wafts is connected with back of the body stupefied 101, the first joint strength who wafts window aluminum plate 30 has been improved.

Another back of the body stupefied 101 is connected with one side that drifts away from the room with the window connecting plate 50 that drifts, has seted up the third through-hole wherein on the window connecting plate 50 that drifts, and the axis of third through-hole is parallel with the horizontal plane, and connecting pipe and third through-hole are passed through to connecting screw 102's one end, and then realize carrying the stupefied 101 of the body and being connected with the window connecting plate 50 that drifts, have improved the intensity that drifts window connecting plate 50, avoid the window connecting plate 50 that drifts to produce and warp.

With continued reference to fig. 1 and 2, further, the anti-floating assembly 10 further includes a plurality of backing plates 103, the backing plates 103 are provided with mounting holes, the backing plates 103 are arranged in one-to-one correspondence with the connecting pipes, the mounting holes are communicated with the connecting pipes, one end of the connecting screw 102 passes through the mounting holes and the connecting pipes, and the connecting screw 102 is detachably connected with the back ridge 101; by arranging the backing plate 103 on the back edge 101, one side of the gasket, which is far away from the back edge 101, is abutted against the nut of the connecting screw 102, so that the contact area between the nut of the connecting screw 102 and the back edge 101 is increased, and the pressure generated by the nut on the back edge 101 is reduced; while avoiding wear on the surface of the back edge 101.

Specifically, one side of the backing plate 103 abuts against one side of the back edge 101 departing from the first bay window aluminum plate 30/bay window connecting plate 50, and the cross-sectional shape of the gasket may be circular, rectangular or polygonal, which is not limited in this embodiment.

With continued reference to fig. 2, the anti-floating device provided in this embodiment further includes a supporting component 20, the extending direction of the supporting component 20 is perpendicular to the horizontal plane, the supporting component 20 is disposed between the second bay window aluminum plate 40 and the bay window bottom plate 60, the top end of the supporting component 20 abuts against the second bay window aluminum plate 40, and the bottom end of the supporting component 20 abuts against the bay window bottom plate 60; supporting component 20 is used for preventing to waft window roof downwarping, supports the top through supporting component 20 on the second wafts window aluminum plate 40, prevents that the second from wafting window aluminum plate 40 and producing the mould that expands, and then prevents to waft window roof downwarping.

For example, the supporting assembly 20 may include a first supporting plate, a second supporting plate disposed opposite to the first supporting plate, and a column disposed between the first supporting plate and the second supporting plate, both the first supporting plate and the second supporting plate are parallel to a horizontal plane, a central axis of the column is perpendicular to the horizontal plane, one end of the column is connected to the first supporting plate, one end of the column facing away from the first supporting plate is connected to the second supporting plate, one side of the first supporting plate facing away from the column abuts against the bay window bottom plate 60, and one side of the second supporting plate facing away from the column abuts against the second bay window aluminum plate 40; through setting up first backup pad and second backup pad, increased the area of contact of supporting component 20 and second bay window aluminum plate 40 and bay window bottom plate 60, and then avoided floating window aluminum plate 40 to the second and the surface production wearing and tearing of bay window bottom plate 60.

In this embodiment, the support assembly 20 includes a sleeve 201 and a threaded column 202, a central axis of the sleeve 201 is perpendicular to a horizontal plane, the central axis of the sleeve 201 is overlapped with the central axis of the threaded column 202, an internal thread is provided at one end of the sleeve 201 facing the threaded column 202, one end of the threaded column 202 is screwed into the sleeve 201 and is matched with the internal thread, so that the sleeve 201 is connected with the threaded column 202; is detachably connected with the sleeve 201 through the threaded column 202, thereby facilitating the maintenance of the sleeve 201; meanwhile, the threaded column 202 and the sleeve 201 are connected in a threaded manner.

One end of the threaded column 202, which is far away from the sleeve 201, abuts against the bay window bottom plate 60, and one end of the sleeve 201, which is far away from the threaded column 202, abuts against the second bay window aluminum plate 40; the second bay window aluminum plate 40 is prevented from bulging by abutting the top end of the sleeve 201 with the second bay window aluminum plate 40.

Further, a base 203 is arranged at one end, away from the sleeve 201, of the threaded column 202, the base 203 is arranged in parallel with the horizontal plane, one side, away from the threaded column 202, of the base 203 abuts against a bay window bottom plate 60 formed by pouring concrete, one end, away from the base 203, of the threaded column 202 is screwed into the sleeve 201, the sleeve 201 is in threaded connection with the threaded column 202, and one end, away from the threaded column 202, of the sleeve 201 abuts against a second bay window aluminum plate 40; according to the distance between the second bay window aluminum plate 40 and the bay window bottom plate 60, the length of the threaded column 202 screwed into the sleeve 201 is adjusted, that is, the length of the support assembly 20 is changed, so that the bay window aluminum plate support device can be applied to the situation that the distance between the second bay window aluminum plate 40 and the bay window bottom plate 60 is different.

With continued reference to fig. 1 and fig. 2, in the present embodiment, the anti-floating device includes a counter screw 80, an extending direction of the counter screw 80 is perpendicular to a horizontal plane, the first bay window aluminum plate 30 is provided with a first via hole, the second bay window aluminum plate 40 is provided with a second via hole, the bay window bottom plate 60 is provided with a third via hole, the first via hole, the second via hole and the third via hole are correspondingly arranged, and the counter screw 80 passes through the first via hole, the second via hole and the third via hole; the counter-pulling screw 80 is used for counter-pulling the first bay window aluminum plate 30 and the bay window bottom plate 60 to prevent the first bay window aluminum plate 30 from arching; thereby avoiding the bay window roof from arching.

With continued reference to fig. 1 and fig. 2, in the present embodiment, the supporting assembly 20 further includes a supporting mechanism 70, the extending direction of the supporting mechanism 70 is perpendicular to the horizontal plane, and during the construction process, the bay window aluminum mold 1 is disposed on each floor, and for convenience of description, the bay window aluminum molds 1 of the second floor and the third floor are taken as an example for description; the supporting mechanism 70 is arranged between the first bay window aluminum plate 30 of the second floor and the bay window bottom plate 60 of the third floor, the top end of the supporting mechanism 70 is abutted against the bay window bottom plate 60 of the third floor, and the bottom end of the supporting mechanism 70 is connected with the first bay window aluminum plate 30 of the second floor.

The supporting mechanism 70 comprises a connecting piece 70 and a sleeve, the connecting piece 70 comprises a base plate and a boss, the boss extends along the direction perpendicular to the horizontal plane, one end of the boss is connected with the base plate, one end of the boss departing from the base plate is inserted into the sleeve, the bottom wall of the base plate is connected with the first bay window aluminum plate 30, and one end of the sleeve departing from the base plate abuts against the bay window base plate 60 of the third floor; the support mechanism 70 supports the bay window aluminum plate of the third floor.

The construction process of the bay window aluminum mould 1 provided by the embodiment is as follows: firstly, the first bay window aluminum plate 30, the second bay window aluminum plate 40 and the bay window connecting plate 50 are matched according to the size of the bay window, the first bay window aluminum plate 30, the second bay window aluminum plate 40 and the bay window connecting plate 50 are spliced and then subjected to back ridge 101 installation, back ridges 101 are installed on the first bay window aluminum plate 30 and the bay window connecting plate 50, therefore, the strength of the first bay window aluminum plate 30 and the bay window connecting plate 50 is improved, then the opposite-pulling screw 80 penetrates through the first through hole, the second through hole and the third through hole, the pulling connection between the first bay window aluminum plate 30 and the bay window bottom plate 60 is realized, then one end of the threaded column 202 deviating from the base 203 is screwed into one end of the sleeve 201 deviating from the second bay window aluminum plate 40, one side of the base 203 deviating from the threaded column 202 is abutted against the bay window bottom plate 60, and the installation of the bay window aluminum mold 1 is completed.

The bay window aluminum mould 1 provided by the embodiment comprises an aluminum mould assembly and an anti-floating device; the anti-floating device is detachably connected with the aluminum film assembly, and the aluminum film assembly is used for pouring concrete; the anti-floating device is used for preventing the aluminum film component from arching and downwarping; so set up, through setting up anti device that floats, improved the intensity of window aluminium mould 1 that wafts, and then at the concrete vibration in-process, avoid window aluminium mould 1 that wafts to produce the mould that expands and the window roof arch camber that wafts, improved the aesthetic property of window roof that wafts.

The bay window aluminum mould 1 provided by the invention has the following advantages: the device has simple structure, easy manufacture and simple operation.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Finally, it should be noted that: it should be understood that the above examples are only for clearly illustrating the present invention and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. This need not be, nor should it be exhaustive of all embodiments. And obvious variations or modifications are intended to be within the scope of the present invention.

Claims (6)

1. The utility model provides a window aluminium mould wafts which characterized in that: comprises an aluminum die assembly and an anti-floating device;

the anti-floating device is detachably connected with the aluminum mould assembly, and the aluminum mould assembly is used for pouring concrete;

the anti-floating device is used for preventing the aluminum die assembly from expanding;

the aluminum die assembly comprises a first bay window aluminum plate, a second bay window aluminum plate arranged corresponding to the first bay window aluminum plate and a bay window connecting plate;

the first bay window aluminum plate and the second bay window aluminum plate are both arranged in parallel with the horizontal plane, the first bay window aluminum plate and the second bay window aluminum plate enclose a closed accommodating space, one end of the bay window connecting plate is connected with one end, facing the room, of the second bay window aluminum plate, and the other end of the bay window connecting plate is connected with a bay window bottom plate formed by pouring concrete;

the bay window connecting plate, the first bay window aluminum plate and the second bay window aluminum plate are all determined by a die matching method, the bay window connecting plate comprises a plurality of aluminum plates, and the aluminum plates are sequentially spliced; the aluminum plates are matched with the dies along the short side direction of the bay window connecting plate, and are of different types and connected in sequence; then, a plurality of aluminum plates with the same type are sequentially connected along the long edge direction of the bay window connecting plate, and the bay window connecting plate meeting the requirements is spliced;

the anti-floating device further comprises a supporting assembly, the supporting assembly is arranged between the second bay window aluminum plate and the bay window bottom plate, the top end of the supporting assembly abuts against the second bay window aluminum plate, and the bottom end of the supporting assembly abuts against the bay window bottom plate;

the supporting assembly comprises a sleeve and a threaded column, the central axis of the sleeve is superposed with the central axis of the threaded column, an internal thread is arranged at one end of the sleeve, which faces the threaded column, and one end of the threaded column is screwed into the sleeve and is matched with the internal thread, so that the sleeve is connected with the threaded column;

one end of the threaded column, which is far away from the sleeve, abuts against the bay window bottom plate, and one end of the sleeve, which is far away from the threaded column, abuts against the second bay window aluminum plate;

one end of the threaded column, which is far away from the sleeve, is provided with a base, and one side of the base, which is far away from the threaded column, abuts against the bay window bottom plate;

the support mechanism comprises a connecting piece and a sleeve, the connecting piece comprises a bottom plate and a boss, the boss extends along the direction perpendicular to the horizontal plane, one end of the boss is connected with the bottom plate, one end, away from the bottom plate, of the boss is inserted into the sleeve, the bottom wall of the bottom plate is connected with a first bay window aluminum plate, and one end, away from the bottom plate, of the sleeve abuts against the bay window bottom plate of the third floor; the support mechanism supports the bay window aluminum plate of the third floor.

2. A bay window aluminum mold as in claim 1, wherein: the anti-floating device comprises a counter-pull screw rod, a first through hole is formed in the first bay window aluminum plate, a second through hole is formed in the second bay window aluminum plate, a third through hole is formed in the bay window bottom plate, the first through hole, the second through hole and the third through hole are correspondingly arranged, and the counter-pull screw rod passes through the first through hole, the second through hole and the third through hole;

the counter-pulling screw rod is used for counter-pulling the first bay window aluminum plate and the bay window bottom plate, so as to prevent the first bay window aluminum plate from arching.

3. A bay window aluminum mold as in claim 1, wherein: the anti-floating device further comprises at least two anti-floating components, wherein the anti-floating components are arranged on the first floating window aluminum plate and the floating window connecting plate respectively, one of the anti-floating components is detachably connected with the first floating window aluminum plate, and the other anti-floating component is detachably connected with the floating window connecting plate.

4. A bay window aluminum mold as claimed in claim 3, wherein: anti subassembly of floating is including carrying on the back stupefied and connecting screw, carry on the back stupefied along the first long limit direction of window aluminum plate that wafts extends, carry on the back stupefied setting and be in first window aluminum plate that wafts deviates from one side of window aluminum plate is wafted to the second one side of wafing the window connecting plate and deviating from the room, connecting screw is used for carry on the back stupefied with first window aluminum plate that wafts/the window connecting plate that wafts is connected.

5. A bay window aluminum mold as claimed in claim 4, wherein: the stupefied two square steels that include of back of the body the square steel corresponds the setting, two be provided with a plurality of connecting pipes between the square steel, it is a plurality of the connecting pipe along the extending direction interval of square steel sets up, the both sides that the connecting pipe is relative respectively with two the square steel is connected, connecting screw passes the connecting pipe, connecting screw with the stupefied connection of dismantling of the back of the body.

6. A bay window aluminum mold as in claim 1, wherein: a plurality of exhaust holes are formed in the first bay window aluminum plate and are arranged at intervals along the long edge direction of the bay window top plate.

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