CN218466819U - Energy-conserving glass curtain wall unit of formula of respiration - Google Patents

Abstract

The utility model discloses a breathing type energy-saving glass curtain wall unit, which comprises a frame seat, a clamping mechanism and an installation mechanism; frame seat: the number of the two frame bases is two, two pieces of glass which are symmetrically distributed are arranged between the two frame bases, the upper end and the lower end of the glass on the front side are both provided with breathing openings, the glass on the rear side is hollow glass, and the upper end and the lower end of the whole body formed by the two frame bases and the two pieces of glass are both connected with a fixed plate through bolts; a clamping mechanism: are respectively arranged in the middle of the outer side surfaces of the two frame bases which are opposite to each other; installation mechanism: set up respectively in the lateral surface middle part that faces away from of two fixed plates, this energy-conserving glass curtain wall unit of breathing type can splice between the production completion back of mill, need not again at the job site installing support, improves glass curtain wall's installation rate, has automatic heat dissipation and thermal-insulated effect, can reduce indoor air conditioner's energy consumption, realizes energy-conserving purpose.

Description

Energy-conserving glass curtain wall unit of formula of respiration

Technical Field

The utility model relates to a glass curtain wall technical field specifically is an energy-conserving glass curtain wall unit of formula of respiration.

Background

Glass curtain wall, it is by the supporting structure system can have certain displacement ability relatively to the major structure, do not divide the building that the major structure receives the effect and protect the structure or the decorative structure outside, the wall body has single-layer and double glazing two kinds, because the circulation of air can be realized between double glazing's the two-layer glass of curtain wall, therefore double glazing's curtain wall is also called respiratory glass curtain wall, respiratory glass curtain wall among the prior art usually is formed by two single-layer glass curtain wall combinations, need on-the-spot installation shelf when the installation, fix glass one by one inside the frame mouth of shelf, make glass curtain wall installation slow, simultaneously, traditional respiratory glass curtain wall usually needs to install the fan in the bottom, utilize the fan to guide the air flow to dispel the heat, do not possess automatic heat dissipation and thermal-insulated effect, for this reason, we propose a respiratory energy-saving glass curtain wall unit.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide an energy-conserving glass curtain wall unit of formula of breathing, can improve glass curtain wall's installation rate, can effectively solve the problem among the background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: a breathing type energy-saving glass curtain wall unit comprises a frame seat, a clamping mechanism and an installation mechanism;

frame seat: the number of the two frame bases is two, two pieces of symmetrically distributed glass are arranged between the two frame bases, the upper end and the lower end of the front side glass are both provided with breathing openings, the rear side glass is hollow glass, and the upper end and the lower end of the whole body formed by the two frame bases and the two pieces of glass are both connected with a fixing plate through bolts;

a clamping mechanism: are respectively arranged in the middle of the outer side surfaces of the two frame bases which are opposite to each other;

installation mechanism: set up respectively in the lateral surface middle part that keeps away from of two fixed plates, every glass curtain wall unit all is integrated into one piece, can splice between the production completion back of mill, need not again at the job site installing support, improves glass curtain wall's installation rate, has automatic heat dissipation and thermal-insulated effect, can reduce indoor air conditioner's energy consumption, realizes energy-conserving purpose.

Further, latch mechanism includes forked tail draw-in groove, dop and shell fragment, the forked tail draw-in groove is seted up in left side of the frame seat left surface middle part, and dop quantity is two, and two dops all articulate in frame seat right flank middle part on right side through the hinge, and the shell fragment sets up between two dops, and two dops coincide with the forked tail draw-in groove with the whole that the shell fragment is constituteed and correspond, can realize that two glass curtain wall units carry out mutual joint.

Further, the outside opening part of forked tail draw-in groove is equipped with outer hypotenuse, and the outside end department of dop all is equipped with interior hypotenuse, and outer hypotenuse sets up with interior hypotenuse cooperation, makes things convenient for two glass curtain wall units to carry out mutual joint.

Further, installation mechanism includes square plate and mounting hole, the square plate sets up respectively in the lateral surface middle part that keeps away from mutually of fixed plate, and the leading flank of square plate is evenly seted up in the mounting hole, can realize that the concatenation of two glass curtain wall units is fixed from top to bottom.

Further, installation mechanism still includes locating piece and constant head tank, the locating piece sets up respectively in the lateral surface middle part that leaves mutually of square plate, and the constant head tank is seted up respectively in the lateral surface middle part that leaves mutually of fixed plate, and the locating piece at upper and lower both ends sets up with the constant head tank cooperation, fixes a position when the concatenation of glass curtain wall unit, guarantees that the glass curtain wall unit can accurately splice.

The solar heat collector further comprises a heat insulation adhesive film, wherein the heat insulation adhesive film is adhered to the rear side face of the glass on the front side and can absorb heat irradiated by external sun.

Furthermore, the solar heat collector further comprises an air guide plate, wherein the air guide plate is arranged in the middle between the glass on the rear side and the heat insulation film, and can guide the air flow direction and simultaneously connect and reinforce the device.

Compared with the prior art, the beneficial effects of the utility model are that: this energy-conserving glass curtain wall unit of breathing type has following benefit:

1. splice on two glass curtain wall units, make the locating piece card of top glass curtain wall unit go into in the constant head tank of below glass curtain wall unit, with this make two glass curtain wall units go up the square slab of inboard end and laminate each other, use the bolt to pass the mounting hole and fix two glass curtain wall units afterwards, when transversely splicing two glass curtain wall units, place two glass curtain wall units about, make dop on the right side glass curtain wall unit correspond with the forked tail draw-in groove on the glass curtain wall unit of left side, promote two glass curtain wall units and be close to, interior hypotenuse contacts with outer hypotenuse earlier, then under the effect of external thrust, the dop passes through the hinge and rotates inwards, shell fragment compression deformation, make the outer end of two dops close to each other, with this make two dops all block in the inside of forked tail draw-in groove, realize the joint of two glass curtain wall units, each glass curtain wall unit all is integrated into one piece, can splice between the factory's production completion, need not again at the construction scene installing support, improve the installation rate of glass curtain wall.

2. When the glass curtain wall unit is used, external sunlight can shine on glass on the front side, heat is absorbed by the heat insulation adhesive film through the glass on the front side, the heat released by the heat insulation adhesive film can heat air between two pieces of glass, the density of the expanded hot air is reduced, the hot air can rise, the air deflector can guide the flow of the hot air, meanwhile, the glass curtain wall unit is connected in a reinforcing mode, the rising hot air is discharged through a breathing hole in the upper portion, the external air can automatically enter between the two pieces of glass through the breathing hole in the lower portion of the line, the air circulation flow is achieved, the heat insulation adhesive film is cooled, the heat radiation of the heat insulation adhesive film on the glass on the rear side is reduced, the condition that the indoor air temperature rises rapidly in summer is avoided, the hollow glass on the rear side can reduce the dissipation of indoor heat in winter, the energy consumption of refrigeration or heating of an indoor air conditioner is reduced, the effects of automatic heat radiation and heat insulation are achieved, and the energy saving purpose is achieved.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view of a latching mechanism of the present invention;

FIG. 4 is a schematic view of the assembly structure of the frame base and the glass of the present invention;

FIG. 5 is an enlarged schematic view of the structure at the position A of the present invention;

fig. 6 is a schematic view of the enlarged structure at the position B of the present invention.

In the figure: 1 frame seat, 2 glass, 3 breathe mouthful, 4 fixed plates, 5 latch mechanisms, 51 forked tail draw-in groove, 52 dop, 53 shell fragment, 6 interior hypotenuses, 7 outer hypotenuses, 8 installation mechanisms, 81 square plates, 82 locating pieces, 83 mounting holes, 84 constant head tank, 9 thermal-insulated pad pasting, 10 aviation baffles.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-6, the present embodiment provides a technical solution: a breathing type energy-saving glass curtain wall unit comprises a frame seat 1, a clamping mechanism 5 and an installation mechanism 8;

frame seat 1: the frame bases 1 provide an installation place for other components, the number is two, two pieces of glass 2 are symmetrically distributed between the two frame bases 1, the upper end and the lower end of the glass 2 on the front side are both provided with breathing openings 3, the breathing openings 3 facilitate the circulation of air, the glass 2 on the rear side is hollow glass, the upper end and the lower end of the whole body formed by the two frame bases 1 and the two pieces of glass 2 are both connected with fixing plates 4 through bolts, the glass curtain wall unit further comprises a heat insulation sticking film 9, the heat insulation sticking film 9 is pasted on the rear side surface of the glass 2 on the front side, the glass curtain wall unit further comprises an air deflector 10, the air deflector 10 is arranged in the middle between the glass 2 on the rear side and the heat insulation sticking film 9, when the glass curtain wall unit is used, external sunlight can shine on the glass 2 on the front side, and heat is absorbed by the heat insulation sticking film 9 through the glass 2 on the front side, the heat released by the heat insulation film 9 can heat the air between the two glasses 2, the density of the expanded hot air is reduced, the hot air can rise, the air deflector 10 can guide the flow of the hot air, meanwhile, the glass curtain wall unit is reinforced and connected, the rising hot air is discharged through the breathing port 3 above, the external air can automatically enter between the two glasses 2 through the breathing port 3 below the line, so that the air can circularly flow, the heat insulation film 9 is further cooled, the heat radiation of the heat insulation film 9 on the glass 2 at the rear side is reduced, the rapid rise of the indoor air temperature in summer is avoided, the glass 2 at the rear side adopts hollow glass, the loss of the indoor heat can be reduced in winter, and the energy consumption of the refrigeration or heating of an indoor air conditioner is reduced;

the clamping mechanism 5: the clamping mechanism 5 can realize mutual clamping of two glass curtain wall units, the clamping mechanism 5 is respectively arranged in the middle of the outer side surfaces, opposite to each other, of the two frame bases 1, the clamping mechanism 5 comprises a dovetail clamping groove 51, clamping heads 52 and an elastic sheet 53, the dovetail clamping groove 51 is arranged in the middle of the left side surface of the left frame base 1, the number of the clamping heads 52 is two, the two clamping heads 52 are hinged to the middle of the right side surface of the right frame base 1 through hinges, the elastic sheet 53 is arranged between the two clamping heads 52, the whole formed by the two clamping heads 52 and the elastic sheet 53 is matched and corresponds to the dovetail clamping groove 51, an outer oblique edge 7 is arranged at an outer side opening of the dovetail clamping groove 51, an inner oblique edge 6 is arranged at an outer side end of the clamping head 52, the outer oblique edge 7 is matched and arranged with the inner oblique edge 6, when the two glass curtain wall units are transversely spliced, the two glass curtain wall units are placed left and right, the clamping heads 52 on the right glass curtain wall unit correspond to the clamping head 51 on the left glass curtain wall unit, the two glass curtain walls are pushed to approach, the two glass curtain wall units, the inner oblique edges 6 are firstly contacted with the outer oblique edge 7, and then under the action of external thrust, the clamping heads 52 rotate inwards through the hinges, the outer ends of the two glass curtain walls 52 are compressed and deformed, so that the two glass curtain wall units are clamped into the clamping heads 52, and the two glass curtain walls 51, and the clamping heads are clamped into the two glass curtain wall units;

mounting mechanism 8: installation mechanism 8 can carry out the concatenation from top to bottom fixedly to two glass curtain wall units, set up respectively in two fixed plate 4's the lateral surface middle part that deviates from each other, installation mechanism 8 includes square plate 81 and mounting hole 83, square plate 81 sets up respectively in fixed plate 4's the lateral surface middle part that deviates from each other, the leading flank of square plate 81 is evenly seted up to mounting hole 83, installation mechanism 8 still includes locating piece 82 and constant head tank 84, locating piece 82 sets up respectively in square plate 81's the lateral surface middle part that deviates from each other, constant head tank 84 sets up respectively in fixed plate 4's the lateral surface middle part that deviates from each other, the locating piece 82 and the constant head tank 84 cooperation setting at upper and lower both ends, splice on two glass curtain wall units, make the locating piece 82 card of top glass curtain wall unit go into in the constant head tank 84 of below glass curtain wall unit, so that two glass curtain wall units are gone up the square plate 81 of interior side and are laminated each other, use the bolt to pass mounting hole 83 to fix two glass curtain wall units afterwards.

The utility model provides a pair of energy-conserving glass curtain wall unit of type of respiration's theory of operation as follows: splicing two glass curtain wall units, clamping a positioning block 82 of an upper glass curtain wall unit into a positioning groove 84 of a lower glass curtain wall unit, so that square plates 81 at the inner side ends of the two glass curtain wall units are mutually attached, then fixing the two glass curtain wall units by using bolts to penetrate through mounting holes 83, when the two glass curtain wall units are transversely spliced, placing the two glass curtain wall units left and right, enabling a clamping head 52 on the right glass curtain wall unit to correspond to a dovetail clamping groove 51 on the left glass curtain wall unit, pushing the two glass curtain wall units to approach, enabling an inner bevel edge 6 to be firstly contacted with an outer bevel edge 7, then enabling the clamping head 52 to inwards rotate through a hinge under the action of external thrust, compressing and deforming a spring plate 53, enabling the outer ends of the two clamping heads 52 to approach each other, and accordingly enabling the two clamping heads 52 to be clamped into the dovetail clamping groove 51, realize the joint of two glass curtain wall units, when the glass curtain wall unit is in use, outside sunlight can shine on the glass 2 of the front side, heat is absorbed by the heat-insulating pad pasting 9 through the glass 2 of the front side, the heat that the heat-insulating pad pasting 9 releases can make the air between two glasses 2 heat up, the density reduces after the hot air expands, make the hot air rise, aviation baffle 10 can guide the flow of hot air, simultaneously, carry out reinforcement connection to the glass curtain wall unit, the hot air that rises is discharged through the breathing mouth 3 of top, outside air can automatically enter between two glasses 2 through the breathing mouth 3 of line below, so as to realize the circulation flow of air, and then cool down the heat-insulating pad pasting 9, so as to reduce the heat radiation of the glass 2 of the rear side by the heat-insulating pad pasting 9, and further avoid the condition that the indoor temperature rises sharply in summer, the glass 2 of the rear side adopts hollow glass, the loss of indoor heat can be reduced in winter, and the energy consumption of indoor air conditioner refrigeration or heating is further reduced.

The above is only the embodiment of the present invention, and the patent scope of the present invention is not limited thereby, and all the equivalent structures or equivalent processes made by the contents of the specification and the drawings are utilized, or directly or indirectly applied to other related technical fields, and all the same principles are included in the patent protection scope of the present invention.

Claims (7)

1. The utility model provides an energy-conserving glass curtain wall unit of breathing type which characterized in that: comprises a frame seat (1), a clamping mechanism (5) and an installation mechanism (8);

frame seat (1): the number of the two glass frames is two, two pieces of glass (2) are symmetrically distributed between the two frame bases (1), the upper end and the lower end of the glass (2) on the front side are both provided with breathing openings (3), the glass (2) on the rear side is hollow glass, and the upper end and the lower end of an integral body formed by the two frame bases (1) and the two pieces of glass (2) are both connected with fixing plates (4) through bolts;

clamping mechanism (5): are respectively arranged in the middle of the outer side surfaces of the two frame bases (1) which are opposite to each other;

mounting mechanism (8): are respectively arranged in the middle parts of the back outer side surfaces of the two fixing plates (4).

2. A respiratory energy saving glass curtain wall unit according to claim 1, characterized in that: clamping mechanism (5) include forked tail draw-in groove (51), dop (52) and shell fragment (53), forked tail draw-in groove (51) are seted up in left frame foundation (1) left surface middle part, and dop (52) quantity is two, and two dop (52) all articulate in frame foundation (1) right flank middle part on right side through the hinge, and shell fragment (53) set up between two dop (52), and the whole that two dop (52) and shell fragment (53) are constituteed coincide with forked tail draw-in groove (51) and correspond.

3. A respiratory energy saving glass curtain wall unit according to claim 2, characterized in that: the outer side opening part of the dovetail clamping groove (51) is provided with an outer bevel edge (7), the outer side end of the clamping head (52) is provided with an inner bevel edge (6), and the outer bevel edge (7) is matched with the inner bevel edge (6).

4. A respiratory energy saving glass curtain wall unit according to claim 1, characterized in that: installation mechanism (8) include square plate (81) and mounting hole (83), square plate (81) set up respectively in the lateral surface middle part that keeps away from mutually of fixed plate (4), and the leading flank of square plate (81) is evenly seted up in mounting hole (83).

5. A respiratory energy saving glass curtain wall unit according to claim 4, characterized in that: installation mechanism (8) still include locating piece (82) and constant head tank (84), locating piece (82) set up respectively in the lateral surface middle part that keeps away from mutually of square plate (81), and constant head tank (84) are seted up respectively in the lateral surface middle part that keeps away from mutually of fixed plate (4), and locating piece (82) and constant head tank (84) cooperation at upper and lower both ends set up.

6. A respiratory energy saving glass curtain wall unit according to claim 1, characterized in that: the glass is characterized by further comprising a heat insulation film (9), wherein the heat insulation film (9) is adhered to the back side face of the glass (2) on the front side.

7. A respiratory energy saving glass curtain wall unit according to claim 6, characterized in that: the solar water heater further comprises an air guide plate (10), wherein the air guide plate (10) is arranged in the middle between the glass (2) on the rear side and the heat insulation film (9).

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