CN211851027U - Node construction device for energy-saving reconstruction of glass curtain wall - Google Patents

Abstract

The utility model relates to a node constructional device for glass curtain wall energy-conserving transformation, it is including setting up in former glass curtain wall towards the installed part of indoor one side and being used for thermal-insulated heat-proof mechanism, the installed part includes two installing frames that are located the heat-proof mechanism inside and outside respectively, heat-proof mechanism includes two by the glass board of centre gripping between two installing frames and sets up the thermal-insulated piece between two glass boards, the cross-section of installing frame is L form and its face is connected in the face of glass board, another face of installing frame is connected in wall body or curtain fossil fragments, thermal-insulated piece is network structure, the central axis perpendicular to glass board of the mesh of thermal-insulated piece. The utility model discloses can be comparatively simple and convenient do energy-conserving transformation to current glass curtain wall, promote glass curtain wall's thermal-insulated energy-conserving effect.

Description

Node construction device for energy-saving reconstruction of glass curtain wall

Technical Field

The utility model belongs to the technical field of the technique of curtain wall construction and specifically relates to a node constructional device that is used for glass curtain wall energy-saving to reform transform.

Background

Glass curtain wall (reflection glass curtainwall) refers to a building external enclosure structure or a decoration structure which has a certain displacement capacity relative to a main structure and does not bear the action of the main structure by a support structure system. The LED lamp is widely applied due to the advantages of large lighting area, beautiful appearance, good decorative performance and the like. However, the glass curtain wall is also an important part for energy consumption loss of buildings, the heat transfer coefficient of the glass curtain wall is larger, the energy consumption of the transparent curtain wall is about 3 times of that of a common wall body and accounts for 40% -50% of the total energy consumption of the building enclosure parts, and therefore, the energy-saving reconstruction of the existing building curtain wall becomes one of important breakthrough openings for building energy saving in China. The glass curtain wall reconstruction of the existing building generally affects the use effect of the glass curtain wall, and the heat insulation and energy saving effects are relatively poor; if the existing glass curtain wall is directly and completely transformed in an energy-saving way, the process is complex, the construction efficiency is low, and the transformation cost is high.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, one of the purposes of the utility model is to provide a node constructional device that is used for glass curtain wall energy-saving to reform transform, it can be comparatively simple and convenient do energy-conserving transformation to current glass curtain wall, promotes glass curtain wall's thermal-insulated energy-conserving effect.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a node constructional device for glass curtain wall energy-saving transformation, is including setting up in the installed part of former glass curtain wall towards indoor one side and being used for thermal-insulated heat-proof mechanism, the installed part includes two installing frames that are located heat-proof mechanism inside and outside respectively, heat-proof mechanism includes two by the glass board of centre gripping between two installing frames and set up the heat insulating part between two glass boards, the cross-section of installing frame is L form and its one face connects in the face of glass board, another face of installing frame is connected in wall body or curtain fossil fragments, the heat insulating part is network structure, the central axis perpendicular to glass board of the mesh of heat insulating part.

By adopting the technical scheme, when the heat insulation glass curtain wall is used, heat transferred to one side facing the indoor from the original glass curtain wall can be blocked by the heat insulation mechanism, a heat insulation cavity can be formed between the two glass plates through the two glass plates arranged on the double-layer glass, the heat conductivity coefficient of air is relatively low, and the heat transferred through the two glass plates can be effectively reduced so as to further reduce the generated heat exchange; meanwhile, the heat insulation piece is of a net structure, can separate the gap between the two glass plates to form a plurality of small heat insulation cavities, so that the air flow between the two glass plates is reduced, the generated heat exchange is further reduced, the two glass plates can be supported in an auxiliary way through the heat insulation piece, and the deformation of the two glass plates caused by the large area of the curtain wall unit in the using process is reduced; when the installation, can be earlier with the installing frame fixed connection in wall body or former glass curtain wall fossil fragments of outdoor one side, processing glass board, heat insulating part, another glass board in proper order and by the centre gripping between two installing frames to pass through bolt fixed connection with the installing frame of indoor one side in the wall body or the fossil fragments of former glass curtain wall can, it is comparatively convenient to use.

The present invention may be further configured in a preferred embodiment as: the meshes of the heat insulation piece are in a regular hexagon structure.

Through adopting above-mentioned technical scheme, can effectual increase heat insulating part intensity itself, optimize its auxiliary stay effect to the glass board.

The present invention may be further configured in a preferred embodiment as: the heat insulation piece is a transparent heat insulation screen plate.

Through adopting above-mentioned technical scheme, can effectually reduce the influence that heat insulating part produced daylighting.

The present invention may be further configured in a preferred embodiment as: the outer ring of the heat insulation piece is fixedly connected with a fixing frame, and the frame edge of the fixing frame is clamped by the edges of the two glass plates.

Through adopting above-mentioned technical scheme, when two glass boards were by two installing frame centre grippings, can do the support to the border of two glass boards through fixed frame to when making the use, two glass boards are relatively more stable, optimize the result of use.

The present invention may be further configured in a preferred embodiment as: the glass plate positioned at one outdoor side is coated with a heat insulation layer made of heat insulation materials.

Through adopting above-mentioned technical scheme for increase the thermal-insulated effect of the glass board towards outdoor one side.

The present invention may be further configured in a preferred embodiment as: two glass plate deviates from one side and is provided with a plurality of connecting rods that connect it in the installing frame, the sheet frame and the threaded connection of installing frame are worn out to the one end of connecting rod have coupling nut.

Through adopting above-mentioned technical scheme, because two glass boards are by direct centre gripping between two installing frames, relatively comparatively unstable during the use, through connecting rod and coupling nut, can make when using, the glass board can be connected in the installing frame through the connecting rod, further increases the stability of the relative installing frame of glass board when using.

The present invention may be further configured in a preferred embodiment as: the bayonet socket has been seted up respectively to the wall surface of fixed frame towards indoor and outdoor one side, the bayonet socket opening is towards deviating from heat insulating part one side, the bayonet socket extends along the frame limit of fixed frame, glass board and fixedly connected with card strip are passed to the other end of connecting rod, the card strip card is located in the bayonet socket.

Through adopting above-mentioned technical scheme, when using, because fixed frame integrated into one piece is in the heat insulating part, its material is softer relatively, locates in the bayonet socket through the card strip card, can do supplementary fixed effect to fixed frame to do supplementary fixed to the heat insulating part through fixed frame, reduce the use in, the heat insulating part produces the possibility of deformation.

The present invention may be further configured in a preferred embodiment as: the installation frame is a high-strength PVC frame.

Through adopting above-mentioned technical scheme, compare in metal crate, adopt the coefficient of heat conductivity that the PVC frame can effectual reduction installing frame to reduce the heat exchange that produces through the installing frame.

To sum up, the utility model discloses a following at least one useful technological effect:

when the glass curtain wall is used, heat transferred to one side facing the indoor from the original glass curtain wall can be blocked by the heat insulation mechanism, a heat insulation cavity can be formed between the two glass plates through the two glass plates arranged by the double-layer glass, the heat conductivity coefficient of air is relatively low, the heat transferred through the two glass plates can be effectively reduced, and the generated heat exchange is further reduced; meanwhile, the heat insulation piece is of a net structure, can separate the gap between the two glass plates to form a plurality of small heat insulation cavities, so that the air flow between the two glass plates is reduced, the generated heat exchange is further reduced, the two glass plates can be supported in an auxiliary way through the heat insulation piece, and the deformation of the two glass plates caused by the large area of the curtain wall unit in the using process is reduced; when the installation, can be earlier with the installing frame fixed connection in wall body or former glass curtain wall fossil fragments of outdoor one side, processing glass board, heat insulating part, another glass board in proper order and by the centre gripping between two installing frames to pass through bolt fixed connection with the installing frame of indoor one side in the wall body or the fossil fragments of former glass curtain wall can, it is comparatively convenient to use.

Drawings

Fig. 1 is a cross-sectional view schematically showing the structure of the present embodiment.

Fig. 2 is a partially enlarged schematic view of a portion a in fig. 1, and is mainly used for showing the structures of the connecting rod and the clamping strip.

Fig. 3 is a partial schematic structural view of the present embodiment, which is mainly used for showing the structures of the heat insulation member, the fixing frame and the bayonet.

In the figure, 1, a mounting part; 11. installing a frame; 2. a heat insulation mechanism; 21. a glass plate; 211. a thermal insulation layer; 212. a connecting rod; 213. a connecting nut; 214. clamping the strip; 22. a thermal insulation member; 221. a fixing frame; 222. and (4) a bayonet.

Detailed Description

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

Referring to fig. 1, for the utility model discloses a node constructional device for glass curtain wall energy-saving transformation, including set up in original glass curtain wall towards the installed part 1 of indoor one side and be used for thermal-insulated heat-proof mechanism 2. The mounting piece 1 comprises two parallel mounting frames 11, and the two mounting frames 11 are respectively arranged on the indoor side and the outdoor side of the heat insulation mechanism 2; the heat insulating mechanism 2 includes two glass plates 21 sandwiched between the two mounting frames 11, and a heat insulator 22 provided between the two glass plates 21.

The heat insulator 22 has a mesh structure, the central axis of the mesh of the heat insulator 22 is perpendicular to the glass plates 21, and the surfaces of the heat insulator 22 facing the indoor and outdoor sides are respectively bonded to the two glass plates 21. Wherein, the surface of the glass plate 21 positioned at the outdoor side is coated with a heat insulation layer 211 made of heat insulation material for increasing the heat insulation effect of the glass plate 21; the thermal insulation member 22 is a transparent thermal insulation mesh plate to reduce the influence of the thermal insulation member 22 on lighting.

The L form is personally submitted in the transversal of installing frame 11, and the face of one side in opposite directions of two installing frames 11 is laminated in the face of two glass boards 21 back to one side, and the face that installing frame 11 deviates from its center one side is laminated in wall body surface or former glass curtain wall fossil fragments, and installing frame 11 passes through bolt fixed connection in wall body or former glass curtain wall's fossil fragments. Wherein, the mounting frame 11 is a high-strength PVC frame for reducing the thermal conductivity of the mounting frame 11 and reducing the heat exchange generated by the mounting frame 11.

When the glass curtain wall is used, heat transferred to one side facing the indoor from the original glass curtain wall can be blocked by the heat insulation mechanism 2, a heat insulation cavity can be formed between the two glass plates 21 through the two glass plates 21 arranged by the double-layer glass, the heat conductivity coefficient of air is relatively low, and the heat transferred through the two glass plates 21 can be effectively reduced so as to further reduce generated heat exchange; meanwhile, the heat insulation piece 22 is of a net structure, can separate the gap between the two glass plates 21 to form a plurality of small heat insulation cavities, so as to reduce the air flow between the two glass plates 21, further reduce the generated heat exchange, and can be used for assisting the two glass plates 21 to support through the heat insulation piece 22, so as to reduce the deformation of the two glass plates 21 caused by the larger area of the curtain wall unit in the using process; simultaneously when the installation, can be earlier with installing frame 11 fixed connection in wall body or former glass curtain wall fossil fragments of outdoor one side, processing glass board 21 in proper order, heat insulating part 22, another glass board 21 is by the centre gripping between two installing frames 11 to with installing frame 11 of indoor one side through bolt fixed connection in wall body or former glass curtain wall fossil fragments can, it is comparatively convenient to use.

The meshes of the thermal insulator 22 are in a regular hexagonal structure for increasing the strength of the thermal insulator 22 itself and optimizing its auxiliary supporting function for the glass sheet 21.

The outer ring of the heat insulator 22 is integrally formed with a fixing frame 221, the frame edge of the fixing frame 221 is held between the edges of the two glass plates 21, and the outer edge of the fixing frame 221 is flush with the outer edge of the glass plate 21. When using, do the support through heat insulating part 22 between two glass boards 21, its stability is relatively not good enough, and fixed frame 221 can be when two glass boards 21 are by two installing frame 11 centre grippings, supports the border of two glass boards 21 to when making the use, two glass boards 21 are relatively more stable, optimize the result of use.

Two glass boards 21 are provided with a plurality of connecting rods 212 that connect two glass boards 21 respectively in two installing frames 11 on one side of keeping away from respectively, and connecting rod 212 on same glass board 21 distributes along the border of glass board 21, and connecting rod 212 wears out the sheet frame that its place glass board 21 deviates from installing frame 11 on one side of heat insulating part 22, and the one end threaded connection that connecting rod 212 wore out installing frame 11 has coupling nut 213. Because two glass sheets 21 are directly clamped between the two mounting frames 11, the glass sheets 21 are relatively unstable during use, and the connecting rods 212 and the connecting nuts 213 can enable the glass sheets 21 to be connected to the mounting frames 11 through the connecting rods 212 during use, so that the stability of the glass sheets 21 during use is further improved.

Bayonets 222 are respectively formed in the wall surface of the fixing frame 221 facing the indoor side and the outdoor side, the two bayonets 222 are respectively open facing away from the heat insulating part 22, the bayonets 222 extend along the frame edge of the fixing frame 221, one end of the connecting rod 212 facing the heat insulating part 22 penetrates through the glass plate 21 adjacent to the connecting rod 212 and is provided with a clamping strip 214, the clamping strip 214 is fixedly connected to the connecting rod 212, the clamping strip 214 is adapted to the bayonets 222, and the clamping strip 214 is clamped in the bayonets 222.

When the fixing frame 221 is used, the fixing frame 221 is integrally formed on the heat insulation piece 22 and made of relatively soft materials, the fixing frame 221 can be clamped in the clamping opening 222 through the clamping strip 214, the fixing frame 221 can be assisted and fixed, the heat insulation piece 22 is assisted and fixed through the fixing frame 221, and the possibility that the heat insulation piece 22 deforms in the using process is reduced.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a node constructional device for glass curtain wall energy-conserving transformation, is including setting up in original glass curtain wall mounting part (1) towards indoor one side and being used for thermal-insulated heat-proof mechanism (2), its characterized in that: installation component (1) includes two installing frames (11) that are located thermal-insulated mechanism (2) inside and outside respectively, thermal-insulated mechanism (2) include two by centre gripping glass board (21) between two installing frames (11) and set up heat insulating part (22) between two glass boards (21), the cross-section of installing frame (11) is L form and its face connects in the face of glass board (21), another face of installing frame (11) is connected in wall body or curtain fossil fragments, heat insulating part (22) are network structure, the central axis perpendicular to glass board (21) of the mesh of heat insulating part (22).

2. The nodal construction device for the energy-saving reconstruction of glass curtain walls according to claim 1, characterized in that: the meshes of the heat insulation piece (22) are in a regular hexagon structure.

3. The nodal construction device for the energy-saving reconstruction of glass curtain walls according to claim 2, characterized in that: the heat insulation piece (22) is a transparent heat insulation screen plate.

4. The nodal construction device for the energy-saving reconstruction of glass curtain walls according to claim 3, characterized in that: the fixed frame (221) is fixedly connected to the outer ring of the heat insulation piece (22), and the frame edge of the fixed frame (221) is clamped by the edges of the two glass plates (21).

5. The nodal construction device for the energy-saving reconstruction of glass curtain walls according to claim 1, characterized in that: the glass plate (21) positioned at the outdoor side is coated with a heat insulation layer (211) made of heat insulation materials.

6. The nodal construction device for the energy-saving reconstruction of glass curtain walls according to claim 4, characterized in that: two glass board (21) are provided with a plurality of connecting rods (212) of connecting it in installing frame (11) apart from one side mutually, the sheet frame and threaded connection that the installing frame (11) was worn out to the one end of connecting rod (212) have coupling nut (213).

7. The nodal construction device for the energy-saving reconstruction of glass curtain walls according to claim 6, characterized in that: bayonet socket (222) have been seted up respectively to fixed frame (221) towards the wall surface of indoor and outdoor one side, bayonet socket (222) opening orientation deviates from heat insulating part (22) one side, the frame limit extension of fixed frame (221) is followed in bayonet socket (222), the other end of connecting rod (212) passes glass board (21) and fixedly connected with card strip (214), card strip (214) card is located in bayonet socket (222).

8. The nodal construction device for the energy-saving reconstruction of glass curtain walls according to claim 7, characterized in that: the mounting frame (11) is a high-strength PVC frame.

Images