CN216893049U - Energy-conserving building curtain that can splice - Google Patents

Abstract

The utility model discloses a splicing energy-saving building curtain wall, which comprises a first curtain wall supporting frame and a second curtain wall supporting frame, wherein curtain wall energy-saving panels are arranged on the first curtain wall supporting frame and the second curtain wall supporting frame, and a middle reinforcing component for reinforcing connection between curtain walls is arranged in the middle of one side, close to the first curtain wall supporting frame and the second curtain wall supporting frame.

Description

Energy-conserving building curtain that can splice

Technical Field

The utility model relates to the technical field of building curtain walls, in particular to a splicing energy-saving building curtain wall.

Background

The building curtain wall is composed of a supporting structure system and a panel, can have certain displacement capacity relative to a main body structure, and does not bear the external protective structure or decorative structure of the building acted on the main body structure. The curtain wall is the outer wall protection of the building, does not bear the weight, hangs up like the curtain, so is also called as the suspension wall, is the common light wall with decorative effect of modern large-scale and high-rise building. The building envelope structure consists of a structural frame and embedded plates and does not bear the load and the effect of a main structure.

The utility model provides a fixed support plate of surface welding of supporting mechanism is usually at the in-process of installation to current building curtain, fixed connection between rethread special bolt and the wall body, because big curtain is formed by the concatenation of a plurality of fritter curtain, if all adopt special bolt and wall body fixed to each supporting mechanism, can greatly increased installation cost, and the curtain avoids the damage to appear in long-term use, still can lead to the dismantlement of fritter curtain to become difficult through the bolt mounting, thereby be unfavorable for installer to the dismantlement equipment of curtain, the use of giving people brings inconvenience.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a splicing energy-saving building curtain wall, which solves the problems that a support plate is usually welded and fixed on the surface of a supporting mechanism in the installation process of the existing building curtain wall, and then the support plate is fixedly connected with a wall body through a special bolt, because a large curtain wall is formed by splicing a plurality of small curtain walls, if each supporting mechanism is fixed with the wall body through the special bolt, the installation cost is greatly increased, the curtain wall is inevitably damaged in the long-term use process, the small curtain walls are difficult to disassemble through the bolt installation, so that the disassembly and the assembly of the curtain walls by installers are not facilitated, and the inconvenience is brought to the use of people.

In order to solve the technical problems, the utility model specifically provides the following technical scheme:

the utility model provides a spliced energy-saving building curtain wall, which comprises a first curtain wall supporting frame and a second curtain wall supporting frame which are arranged in parallel, wherein curtain wall energy-saving panels are arranged on the first curtain wall supporting frame and the second curtain wall supporting frame respectively, the first curtain wall supporting frame and the second curtain wall supporting frame respectively form each curtain wall main body with the curtain wall energy-saving panels, the upper end and the lower end of one side edge, close to the first curtain wall supporting frame and the second curtain wall supporting frame, of the first curtain wall supporting frame and the second curtain wall supporting frame are respectively provided with a quick splicing assembly for quickly assembling a curtain wall, and the middle part, close to one side edge, of the first curtain wall supporting frame and the second curtain wall supporting frame is provided with a middle reinforcing assembly for reinforcing connection between curtain walls;

the quick concatenation subassembly includes that the level sets up concatenation movable slot and concatenation inserted bar on the first curtain wall supporting frame, the activity of concatenation inserted bar sets up in the concatenation movable slot, the vertical concatenation jack of having seted up in the pole body of concatenation inserted bar, the vertical fixed slot and the fixed concatenation inserted bar of being provided with on the second curtain wall supporting frame, the activity of fixed concatenation inserted bar sets up in the fixed slot, be provided with the concatenation slot on the inner wall of fixed slot, the concatenation inserted bar is kept away from the one end of concatenation movable slot extends to in the concatenation slot.

As a preferred scheme of the present invention, a splicing spring is disposed in the splicing movable groove, the splicing insertion rod is connected to the splicing movable groove through the splicing spring, an abutting spring and an ejecting plate are disposed on an innermost inner wall of the fixed slot, and the abutting spring is connected to the ejecting plate.

As a preferable scheme of the utility model, a sliding inner cavity is horizontally arranged on the inner wall of the opening of the fixed slot, a moving through hole communicated with the outer side of the second curtain wall supporting frame is arranged on the inner wall of the sliding inner cavity, an anti-falling fixed rod is movably arranged in the sliding inner cavity, a rod body of the anti-falling fixed rod is provided with a reset push rod, the reset push rod penetrates through the moving through hole and extends to the outer side of the second curtain wall supporting frame, an anti-falling spring is arranged on the inner wall of the sliding inner cavity, and the anti-falling fixed rod is connected with the inner wall of the sliding inner cavity through the anti-falling spring.

As a preferred scheme of the present invention, the middle reinforcing assembly includes a reinforcing inner cavity respectively disposed in the first curtain wall supporting frame and the second curtain wall supporting frame, a reinforcing groove is horizontally disposed on an inner wall of the reinforcing inner cavity, the reinforcing groove extends to an edge of the first curtain wall supporting frame and the second curtain wall supporting frame, a reinforcing push rod is movably disposed in the reinforcing groove, a reinforcing push plate is vertically disposed in the reinforcing inner cavity, the reinforcing push rod is connected with the reinforcing push plate, a middle moving groove is horizontally disposed in the reinforcing push rod, a reinforcing spring is disposed on an inner wall of the middle moving groove, a reinforcing connecting rod is horizontally disposed on one side of the reinforcing spring, and two ends of the reinforcing connecting rod are respectively inserted into the middle moving groove.

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, the fast splicing assembly is arranged, so that the first curtain wall supporting frame and the second curtain wall supporting frame are connected, splicing and fixing between the splicing inserted bar and the fixed splicing inserted bar in the fast splicing assembly are quickly completed, and the damaged curtain wall is more conveniently replaced in the connection mode of fast splicing and fixing between small curtain walls, and the condition that each curtain wall is connected with the wall body to consume a large number of special bolts is avoided, so that the installation cost of the curtain walls is saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

Fig. 1 is a schematic front view of the structure of the embodiment of the present invention.

Fig. 2 is a schematic sectional front view of the structure according to the embodiment of the present invention.

Fig. 3 is an enlarged schematic structural view of the quick-splice assembly of fig. 2 according to an embodiment of the present invention.

Fig. 4 is an enlarged schematic view of a structure shown in fig. 3 according to an embodiment of the present invention.

Fig. 5 is an enlarged view illustrating the structure of the middle reinforcement member of fig. 2 according to an embodiment of the present invention.

The reference numerals in the drawings denote the following, respectively:

1. a first curtain wall support frame; 2. a second curtain wall support frame; 3. a curtain wall energy-saving panel; 4. quickly splicing the components; 5. a middle reinforcement assembly;

401. splicing the movable grooves; 402. splicing the inserted rods; 403. splicing the jacks; 404. splicing the slots; 405. fixing the slot; 406. fixedly splicing the inserted rods; 407. against the spring; 408. ejecting the plate; 409. a sliding inner cavity; 410. moving the through hole; 411. an anti-drop fixing rod; 412. resetting the push rod; 413. an anti-drop spring; 414. splicing the springs;

501. reinforcing the inner cavity; 502. reinforcing the groove; 503. reinforcing the push rod; 504. reinforcing the push plate; 505. a middle moving groove; 506. reinforcing the spring; 507. and (5) reinforcing the connecting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 5, the utility model provides a splicing energy-saving building curtain wall, which comprises a first curtain wall supporting frame 1 and a second curtain wall supporting frame 2 which are arranged in parallel, wherein curtain wall energy-saving panels 3 are respectively arranged on the first curtain wall supporting frame 1 and the second curtain wall supporting frame 2, the first curtain wall supporting frame 1 and the second curtain wall supporting frame 2 respectively form each curtain wall main body together with the curtain wall energy-saving panels 3, the upper end and the lower end of one side edge of the first curtain wall supporting frame 1, which is close to the second curtain wall supporting frame 2, are respectively provided with a quick splicing assembly 4 for quickly assembling a curtain wall, and the middle part of one side edge of the first curtain wall supporting frame 1, which is close to the second curtain wall supporting frame 2, is provided with a middle reinforcing assembly 5 for reinforcing connection between curtain walls.

Through installing curtain energy-saving panel 3 on first curtain bearing frame 1 and second curtain bearing frame 2 respectively, thereby constitute two curtains, in order to avoid making a large amount of special screw increase installation cost, thereby through setting up quick concatenation subassembly 4 and middle part reinforcement assembly 5 between to two curtains, it connects to adopt the mode of concatenation between two curtains through middle part reinforcement assembly 5, make the dismantlement between curtain and the curtain change convenience more, and only need to be connected through a small amount of special bolted connection between the strong point of curtain and wall body, just can fix curtain whole, thereby utilize fewest bolt to reach firm fixed effect to the curtain, still use energy-saving material through using curtain energy-saving panel 3, make the energy-concerving and environment-protective more of building curtain's outward appearance.

As shown in fig. 1 to 4, in this embodiment, the quick splicing component 4 includes a splicing movable groove 401 and a splicing insertion rod 402 horizontally disposed on the first curtain wall supporting frame 1, the splicing insertion rod 402 is movably disposed in the splicing movable groove 401, a splicing insertion hole 403 is vertically disposed on a rod body of the splicing insertion rod 402, a fixed insertion groove 405 and a fixed splicing insertion rod 406 are vertically disposed on the second curtain wall supporting frame 2, the fixed splicing insertion rod 406 is movably disposed in the fixed insertion groove 405, a splicing insertion groove 404 is disposed on an inner wall of the fixed insertion groove 405, one end of the splicing insertion rod 402 away from the splicing movable groove 401 extends into the splicing insertion groove 404, a splicing spring 414 is disposed in the splicing movable groove 401, the splicing insertion rod 402 is connected with the splicing movable groove 401 through the splicing spring 414, an innermost inner wall of the fixed insertion groove 405 is provided with a collision spring 407 and an ejection plate 408, and the collision spring 407 is connected with the ejection plate 408.

In this embodiment, firstly, two curtain wall edges formed by the first curtain wall supporting frame 1, the curtain wall energy-saving panel 3, the second curtain wall supporting frame 2 and the curtain wall energy-saving panel 3 need to be close to each other, so that the splicing insertion rod 402 located inside the splicing movable groove 401 enters the splicing insertion groove 404 under the elastic force action of the splicing spring 414, then the fixed splicing insertion rod 406 is inserted into the fixed insertion groove 405, and the splicing insertion rod 402 and the second curtain wall supporting frame 2 are fixed by inserting the fixed splicing insertion rod 406 into the splicing insertion hole 403, so that the first curtain wall supporting frame 1 and the second curtain wall supporting frame 2 are fixedly connected with each other.

The inner wall of the opening of the fixed slot 405 is horizontally provided with a sliding inner cavity 409, the inner wall of the sliding inner cavity 409 is provided with a moving through hole 410 communicated with the outer side of the second curtain wall supporting frame 2, an anti-falling fixed rod 411 is movably arranged in the sliding inner cavity 409, a reset push rod 412 is arranged on the rod body of the anti-falling fixed rod 411, the reset push rod 412 penetrates out of the moving through hole 410 and extends to the outer side of the second curtain wall supporting frame 2, the inner wall of the sliding inner cavity 409 is provided with an anti-falling spring 413, and the anti-falling fixed rod 411 is connected with the inner wall of the sliding inner cavity 409 through the anti-falling spring 413.

Then, in order to prevent the fixed splicing insertion rod 406 from falling off from the inside of the fixed slot 405, the fixed splicing insertion rod 406 is fixed again, the fixed splicing insertion rod 406 is completely inserted into the fixed slot 405, the anti-falling spring 413 is in a compressed state at the moment, when the fixed splicing insertion rod 406 does not block the anti-falling fixed rod 411 any more, the anti-falling fixed rod 411 is driven by resilience of the anti-falling spring 413, the anti-falling fixed rod 411 is moved to the top end of the fixed splicing insertion rod 406 and inserted into a groove located on an extension line of the sliding inner cavity 409, one end of the fixed splicing insertion rod 406 is fixed, the fixed splicing insertion rod 406 is fixedly inserted into the inside of the fixed slot 405, the fixed splicing insertion rod 406 is more firmly fixed to the splicing insertion rod 402, and the connection between the first curtain wall supporting frame 1 and the second curtain wall supporting frame 2 is more firm.

In order to reinforce the connection firmness degree of the middle parts of the first curtain wall supporting frame 1 and the second curtain wall supporting frame 2, the middle parts of the sides, close to the first curtain wall supporting frame 1 and the second curtain wall supporting frame 2, of the first curtain wall supporting frame 1 and the second curtain wall supporting frame 2 are also firmly connected under the reinsertion and fixation of the middle reinforcing assemblies 5 by arranging the middle reinforcing assemblies 5 in the middle parts, close to the sides of the first curtain wall supporting frame 1 and the second curtain wall supporting frame 2.

As shown in fig. 1 to 4, in the present embodiment, the middle reinforcing component 5 includes a reinforcing inner cavity 501 respectively disposed in the first curtain wall supporting frame 1 and the second curtain wall supporting frame 2, a reinforcing groove 502 is horizontally disposed on an inner wall of the reinforcing inner cavity 501, the reinforcing groove 502 extends to an edge portion of the first curtain wall supporting frame 1 and the second curtain wall supporting frame 2, a reinforcing push rod 503 is movably disposed in the reinforcing groove 502, a reinforcing push plate 504 is vertically disposed in the reinforcing inner cavity 501, the reinforcing push rod 503 is connected to the reinforcing push plate 504, a middle moving groove 505 is horizontally disposed in the reinforcing push rod 503, a reinforcing spring 506 is disposed on an inner wall of the middle moving groove 505, a reinforcing connecting rod 507 is horizontally disposed on one side of the reinforcing spring 506, and two ends of the reinforcing connecting rod 507 are respectively inserted into the middle moving groove 505.

Finally, specifically, by inserting the reinforcing connecting rod 507 into the middle moving groove 505, when the quick splicing assembly 4 is firmly fixed between the first curtain wall supporting frame 1 and the second curtain wall supporting frame 2, the two ends of the reinforcing connecting rod 507 are driven to compress the reinforcing spring 506 respectively, so that the reinforcing spring 506 pushes the reinforcing push rod 503 to drive the reinforcing push plate 504 to move close to one side of the curtain wall energy-saving panel 3, and the installation of the curtain wall energy-saving panel 3 in the first curtain wall supporting frame 1 and the second curtain wall supporting frame 2 is more stable.

In conclusion, through setting up quick concatenation subassembly 4, make the connection between first curtain wall supporting frame 1 and the second curtain wall supporting frame 2 under the grafting of the inside concatenation inserted bar 402 of quick concatenation subassembly 4 and fixed concatenation inserted bar 406 is fixed, the completion is fixed to the concatenation between first curtain wall supporting frame 1 and the second curtain wall supporting frame 2, it is more convenient to change when the curtain is damaged to make through the concatenation between the fritter curtain through the concatenation is fixed between the fritter curtain, and avoid needing every curtain to link to each other with the wall body and consume a large amount of special bolt, thereby practice thrift the installation cost of curtain, through setting up middle part reinforcement assembly 5, make the middle part of first curtain wall supporting frame 1 and second curtain wall supporting frame 2 be connected also more stably.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims (4)

1. The utility model provides an energy-conserving building curtain that can splice, is including first curtain wall braced frame (1) and second curtain wall braced frame (2) that set up side by side, first curtain wall braced frame (1) with all be provided with energy-conserving panel of curtain (3) on second curtain wall braced frame (2), first curtain wall braced frame (1) with second curtain wall braced frame (2) respectively with every curtain main part is constituteed to energy-conserving panel of curtain (3), its characterized in that: the upper end and the lower end of one side edge, close to the first curtain wall supporting frame (1) and the second curtain wall supporting frame (2), are respectively provided with a quick splicing assembly (4) for quickly assembling a curtain wall, and the middle part, close to one side edge, of the first curtain wall supporting frame (1) and the second curtain wall supporting frame (2) is provided with a middle reinforcing assembly (5) for reinforcing connection between curtain walls;

quick concatenation subassembly (4) set up including the level concatenation activity groove (401) and concatenation inserted bar (402) on first curtain wall braced frame (1), concatenation inserted bar (402) activity sets up in concatenation activity groove (401), the vertical concatenation jack (403) of having seted up on the pole body of concatenation inserted bar (402), second curtain wall braced frame (2) are gone up the vertical fixed slot (405) and are provided with fixed concatenation inserted bar (406), fixed concatenation inserted bar (406) activity sets up in fixed slot (405), be provided with concatenation slot (404) on the inner wall of fixed slot (405), concatenation inserted bar (402) are kept away from the one end of concatenation activity groove (401) extends to in concatenation slot (404).

2. The energy-saving building curtain wall capable of being spliced according to claim 1, is characterized in that: be provided with concatenation spring (414) in concatenation activity groove (401), concatenation inserted bar (402) with pass through between concatenation activity groove (401) concatenation spring (414) link to each other, be provided with conflict spring (407) and pop-up plate (408) on the innermost inner wall of fixed slot (405), conflict spring (407) with link to each other between pop-up plate (408).

3. The energy-saving building curtain wall capable of being spliced according to claim 2, is characterized in that: fixed slot (405) opening part inner wall is improved level and is provided with slip inner chamber (409), be provided with on the inner wall of slip inner chamber (409) with removal through-hole (410) that second curtain wall supporting frame (2) outside is linked together, slip inner chamber (409) internalization is provided with anticreep dead lever (411), be provided with reset push rod (412) on the pole body of anticreep dead lever (411), reset push rod (412) are worn out removal through-hole (410) extend to the outside of second curtain wall supporting frame (2), be provided with anticreep spring (413) on the inner wall of slip inner chamber (409), anticreep dead lever (411) with pass through between slip inner chamber (409) inner wall anticreep spring (413) links to each other.

4. The energy-saving building curtain wall capable of being spliced according to claim 1, is characterized in that: the middle reinforcing component (5) comprises a reinforcing inner cavity (501) which is respectively arranged in the first curtain wall supporting frame (1) and the second curtain wall supporting frame (2), a reinforcing groove (502) is horizontally arranged on the inner wall of the reinforcing inner cavity (501), the reinforcing groove (502) extends to the edge of the first curtain wall supporting frame (1) and the second curtain wall supporting frame (2), a reinforcing push rod (503) is movably arranged in the reinforcing groove (502), a reinforcing push plate (504) is vertically arranged in the reinforcing inner cavity (501), the reinforcing push rod (503) is connected with the reinforcing push plate (504), a middle moving groove (505) is horizontally arranged in the reinforcing push rod (503), a reinforcing spring (506) is arranged on the inner wall of the middle moving groove (505), a reinforcing connecting rod (507) is horizontally arranged on one side of the reinforcing spring (506), and two ends of the reinforcing connecting rod (507) are respectively inserted into the middle moving groove (505).

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