CN217759459U - Heat preservation type cavity heating glass curtain wall - Google Patents

Abstract

The utility model discloses a heat preservation type cavity heating glass curtain wall belongs to the curtain field, including outer frame body, inner curtain and outer curtain wall have been inlayed respectively to outer frame body's inner wall both sides border, and the inner wall top of outer frame body has seted up U type groove, the inside in going up U type groove is equipped with the light power generation subassembly, U type groove has been seted up down to outer frame body's inner wall bottom, and the inside bottom fixedly connected with heating rod in U type groove down, the top of heating rod is equipped with the direction subassembly, the light power generation subassembly specifically includes: inlay in last U type groove one side, the inside first motor of outer frame body, go up U type inslot swing joint has first pivot, and first pivot one end inlays at last U type inslot wall movably, the output fixed connection of the first pivot other end and first motor, and the winding of first pivot lateral surface has thin-film solar cell panel. The utility model discloses can not rely on the quick simple and direct solution condensation problem of external energy.

Description

Heat preservation type cavity heating glass curtain wall

Technical Field

The utility model relates to a curtain technical field, concretely relates to heat preservation type cavity heating glass curtain wall.

Background

The glass curtain wall is a building outer protective structure or a decorative structure which has certain displacement capacity relative to a main structure and does not bear the action of the main structure. The glass curtain wall of modern high-rise building adopts hollow glass which is formed by combining mirror glass and common glass and filling dry air or inert gas into an interlayer. The hollow glass comprises two layers and three layers, wherein the two layers of hollow glass are sealed by the two layers of glass to form an interlayer space; the triple-layer glass is formed by two interlayer spaces formed by the triple-layer glass. The hollow glass has the advantages of sound insulation, heat insulation, frost prevention, moisture prevention, high wind pressure resistance and the like.

However, problems still exist in the design of existing curtain wall structures: firstly, the problem of condensation is that when the surface temperature of the solid (glass and frame) is lower than the dew point temperature of the circulating and near-humid air, water vapor in the air is changed into liquid water, and the liquid water is condensed on the surface of the cold solid, so that condensation phenomenon is generated, and when the condensation is serious or the water cannot be evaporated quickly, the water film forms water drops and flows down along the edge of the glass. Due to temperature difference, glass dewing is caused, water drops flow into the frame, solid wood veneering layers and wall surfaces on the surface of the frame and the like, so that the problems of mildew, deformation, peeling and the like of a curtain wall structure can be caused, and the performance of the curtain wall structure is finally damaged.

The existing hollow glass curtain wall often needs the outside to provide energy when solving the condensation problem, and the adopted means is relatively complex, inconvenient and practical. Therefore, the heat preservation type hollow heating glass curtain wall is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that: how to rapidly and simply solve the condensation problem without depending on external energy, and provides a heat-preservation hollow heating glass curtain wall.

The utility model discloses a solve above-mentioned technical problem through following technical scheme, the utility model discloses a: the utility model provides a heat preservation type cavity heating glass curtain wall, includes the outer frame body, the inner wall both sides border of outer frame body has inlayed interior curtain and outer curtain wall respectively, and the inner wall top of outer frame body has seted up U type groove, the inside in last U type groove is equipped with the photovoltaic module, U type groove has been seted up down to the inner wall bottom of outer frame body, and the inside bottom fixedly connected with heating rod in lower U type groove, the top of heating rod is equipped with guide assembly.

Under the sufficient condition of illumination, the light power generation subassembly turns into the electrical energy storage with light energy, and after the condensation situation appears, the electrical energy of storage is carried for the heating rod, and the heating rod operation produces the heat, and then leads to the gas temperature between interior curtain and the outer curtain wall to rise to solve the condensation problem.

Furthermore, the photovoltaic module specifically includes: inlay in the inside first motor of last U type groove one side, outer frame, go up U type inslot portion swing joint and have first pivot, and first pivot one end inlays at last U type inslot wall movably, the output fixed connection of the first pivot other end and first motor, and first pivot lateral surface winding has thin-film solar cell panel, dc-to-ac converter and battery have been inlayed to the inside one side of outer frame, and the dc-to-ac converter is located the battery top.

Under illumination sufficient condition, first motor operation drives first pivot and rotates, and then put down thin-film solar cell panel, the light energy that the thin-film solar cell panel that puts down will shine the coming is converted into the electric energy and is carried for the dc-to-ac converter, the variable direct current voltage that the dc-to-ac converter produced thin-film solar cell panel converts the commercial power frequency alternating current into, carry again and store for the battery, after the condensation situation appears, the battery carries the electric energy for the heating rod, the heating rod operation produces the heat, and then the gas temperature who leads to between interior curtain and the outer curtain wall rises, thereby solve the condensation problem. And under the condition of no illumination, the first motor runs reversely to drive the first rotating shaft to rotate reversely, and then the thin-film solar cell panel is folded.

Furthermore, one end of the thin-film solar cell panel is fixed on the outer side face of the first rotating shaft, and the other end of the thin-film solar cell panel is fixedly connected with the metal strip.

The arrangement of the metal strips ensures that one end of the thin-film solar cell panel has enough weight, and further ensures the stability of the process of taking up and paying off the thin-film solar cell panel.

Furthermore, the height of the horizontal plane where the bottom end of the thin-film solar cell panel is located when the thin-film solar cell panel is rolled is higher than that of the horizontal plane where the opening at the bottom end of the upper U-shaped groove is located.

The arrangement ensures that the thin-film solar cell panel can not block the view outside the window after the thin-film solar cell panel is folded.

Furthermore, the guide assembly specifically includes: inlay U type groove one side, the inside second motor of outer frame body under, U type inslot portion top is equipped with the second pivot down, and second pivot one end inlays U type inslot wall mobile under, the second pivot other end and second motor output fixed connection, and a plurality of evenly distributed's of fixedly connected with solid fixed ring on the lateral surface of second pivot, gu fixed ring's lateral surface top and the equal fixedly connected with bracing piece in bottom, adjacent two of same horizontal plane fixedly connected with guide vane between the bracing piece.

When the condensation condition appears, the second motor operates to drive the second rotating shaft to rotate for a certain angle, so as to drive the fixing ring to rotate, the supporting rod on the fixing ring rotates along with the guide piece, finally, the guide piece is changed from the original vertical state to an inclined state, and the inclined direction points to the inner curtain wall.

Furthermore, a middle cavity is formed among the outer frame body, the inner curtain wall and the outer curtain wall, and inert gas is filled in the middle cavity.

Compared with the common air, the heat transfer coefficient of the hollow glass filled with the inert gas is higher, the condensation of the indoor glass can be reduced, and in addition, the heat preservation capacity of the inert gas is better.

Furthermore, a controller is fixedly connected above the upper U-shaped groove, and optical sensors are embedded in one side of the controller and the top end of the outer side face of the outer frame body.

The light sensor can sense the intensity of illumination, and send information to the controller when the illumination is sufficient, and the controller receives the information and then controls the operation of the photovoltaic component to generate electric energy. In addition, the controller controls the operation of the heating rod, the first motor and the second motor when the condensation is generated, and the battery supplies electric energy to the heating rod, the first motor and the second motor.

Compared with the prior art, the utility model has the following advantages:

1) This application is under illumination sufficient condition, the light power generation subassembly turns into the electrical energy storage with light energy, specifically do, first motor operation drives first pivot and rotates, and then put down thin-film solar cell panel, the light energy that the thin-film solar cell panel that puts down will shine and come is converted into the electric energy and is carried for the dc-to-ac converter, the variable DC voltage conversion that the dc-to-ac converter produced thin-film solar cell panel is commercial power frequency alternating current, carry again and save for the battery, after the condensation situation appears, the battery carries the electric energy for the heating rod, the heating rod operation produces the heat, and then the gas temperature that leads to between interior curtain and the outer curtain wall rises, thereby solve the condensation problem.

2) This application puts down thin-film solar cell panel when illumination is sufficient not only can photovoltaic power generation, can also play the effect of (window) curtain, and when not having illumination, packs up thin-film solar cell panel, neither influences the sight, can not influence indoor daylighting yet and cause indoor dim.

3) Through the direction subassembly that sets up, when the condensation situation appears, the second motor operation drives the second pivot and rotates certain angle, and then drives solid fixed ring and rotate, and the bracing piece on the solid fixed ring is followed with the direction piece and is rotated, and finally, the direction piece becomes the tilt state by original vertical state, and the tilt direction points to interior curtain, and then with the hot gas guide interior curtain direction that the heating rod produced for the speed of removing the condensation.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is an internal view of the outer frame of the present invention;

FIG. 3 is a combination view of the second shaft, the fixing ring, the supporting rod and the guiding plate of the present invention;

fig. 4 is a combination view of the first rotating shaft, the thin-film solar cell panel and the metal strip of the present invention.

In the figure: 1. an outer frame body; 2. an inner curtain wall; 3. an outer curtain wall; 4. an upper U-shaped groove; 5. a photovoltaic module; 501. a first motor; 502. a first rotating shaft; 503. a thin film solar cell panel; 504. a metal strip; 505. an inverter; 506. a battery; 6. a lower U-shaped groove; 7. heating a rod; 8. a guide assembly; 801. a second motor; 802. a second rotating shaft; 803. a fixing ring; 804. a support bar; 805. a guide piece; 9. a controller; 10. a light sensor.

Detailed Description

The embodiments of the present invention will be described in detail below, and the present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

The embodiment provides a technical scheme: as shown in fig. 1 to 4, a heat preservation type hollow heating glass curtain wall comprises an outer frame body 1, wherein an inner curtain wall 2 and an outer curtain wall 3 are respectively embedded at two side edges of the inner wall of the outer frame body 1, an upper U-shaped groove 4 is formed in the top end of the inner wall of the outer frame body 1, a photovoltaic component 5 is arranged inside the upper U-shaped groove 4, a lower U-shaped groove 6 is formed in the bottom end of the inner wall of the outer frame body 1, a heating rod 7 is fixedly connected to the bottom end of the lower U-shaped groove 6, and a guide component 8 is arranged above the heating rod 7. Under the sufficient condition of illumination, light power generation component 5 changes light energy into electric energy storage, and after the condensation situation appears, the electric energy of storage is carried for heating rod 7, and heating rod 7 operation produces the heat, and then leads to the gas temperature between interior curtain 2 and the outer curtain wall 3 to rise to solve the condensation problem.

In this embodiment, the photovoltaic module 5 specifically includes: the solar energy power supply device comprises a first motor 501 embedded in one side of an upper U-shaped groove 4 and inside an outer frame body 1, wherein a first rotating shaft 502 is movably connected inside the upper U-shaped groove 4, one end of the first rotating shaft 502 is embedded in the inner wall of the upper U-shaped groove 4 and can move, the other end of the first rotating shaft 502 is fixedly connected with the output end of the first motor 501, a thin film solar cell panel 503 is wound on the outer side face of the first rotating shaft 502, an inverter 505 and a battery 506 are embedded in one side inside the outer frame body 1, and the inverter 505 is located above the battery 506. Under the condition of sufficient illumination, the first motor 501 operates to drive the first rotating shaft 502 to rotate, the thin-film solar cell panel 503 is placed down, the placed thin-film solar cell panel 503 converts irradiated light energy into electric energy and transmits the electric energy to the inverter 505, the inverter 505 converts variable direct-current voltage generated by the thin-film solar cell panel 503 into mains frequency alternating current and transmits the alternating current to the battery 506 for storage, after the condensation condition occurs, the battery 506 transmits the electric energy to the heating rod 7, the heating rod 7 operates to generate heat, and then the gas temperature between the inner curtain wall 2 and the outer curtain wall 3 is increased, so that the condensation problem is solved. Under the condition of no illumination, the first motor 501 runs reversely to drive the first rotating shaft 502 to rotate reversely, and then the thin-film solar cell panel 503 is retracted.

In this embodiment, one end of the thin-film solar cell panel 503 is fixed on the outer side surface of the first rotating shaft 502, and the other end of the thin-film solar cell panel 503 is fixedly connected with the metal strip 504. The arrangement of the metal strip 504 ensures that one end of the thin-film solar cell panel 503 has enough weight, and further ensures the stability of the process of taking in and taking off the thin-film solar cell panel 503.

In this embodiment, the height of the horizontal plane of the bottom end of the thin-film solar cell panel 503 when being rolled is higher than the height of the horizontal plane of the bottom end opening of the upper U-shaped groove 4. This arrangement ensures that the thin film solar cell panel 503 does not block the view outside the window after the thin film solar cell panel 503 is retracted.

In this embodiment, the guiding component 8 specifically includes: inlay U type groove 6 one side down, the inside second motor 801 of outer frame 1, the inside top of U type groove 6 is equipped with second pivot 802 down, and second pivot 802 one end inlays at U type groove 6 inner wall mobilizable down, the second pivot 802 other end and second motor 801 output end fixed connection, and the solid fixed ring 803 of a plurality of evenly distributed of fixedly connected with on the lateral surface of second pivot 802, the equal fixedly connected with bracing piece 804 in lateral surface top and the bottom of solid fixed ring 803, fixedly connected with direction piece 805 between two adjacent bracing pieces 804 of same horizontal plane. When condensation occurs, the second motor 801 operates to drive the second rotating shaft 802 to rotate by a certain angle, so as to drive the fixing ring 803 to rotate, the supporting rod 804 on the fixing ring 803 rotates along with the guiding plate 805, and finally, the guiding plate 805 is changed from the original vertical state to an inclined state, and the inclined direction is directed to the inner curtain wall 2.

In this embodiment, an intermediate chamber is formed between the outer frame 1, the inner curtain wall 2 and the outer curtain wall 3, and the inside of the intermediate chamber is filled with an inert gas. Compared with the common air, the heat transfer coefficient of the hollow glass filled with the inert gas is higher, the condensation of the indoor glass can be reduced, and in addition, the heat preservation capability of the inert gas is better.

In this embodiment, a controller 9 is fixedly connected to the upper side of the upper U-shaped groove 4, and an optical sensor 10 is embedded in the controller 9 side and the top end of the outer side surface of the outer frame 1. The light sensor 10 can sense the intensity of light and send information to the controller 9 when the light is sufficient, the controller 9 receives the information and then controls the operation of the photovoltaic module 5 to generate electric energy, in addition, the controller 9 controls the operation of the heating rod 7, the first motor 501 and the second motor 801 when condensation is generated, and the battery 506 provides electric energy for the electric energy. The model of the controller 9 is WS-M100-13.8V, the model of the optical sensor 10 is S2386-44K, the model of the inverter 505 is PGM-500W, the model of the battery 506 is UFX105080, the model of the heating rod 7 is SLM3, the models of the first motor 501 and the second motor 801 are both 37GB3625WS, and the model of the thin-film solar cell panel 503 is WS-USPV72.

The working principle is as follows: when the condensation-preventing solar curtain wall is used, under the condition of sufficient illumination, the first motor 501 operates to drive the first rotating shaft 502 to rotate, the thin-film solar cell panel 503 is placed down, the placed thin-film solar cell panel 503 converts irradiated light energy into electric energy and transmits the electric energy to the inverter 505, the inverter 505 converts variable direct-current voltage generated by the thin-film solar cell panel 503 into alternating current with commercial power frequency and transmits the alternating current to the battery 506 for storage, after the condensation condition occurs, the battery 506 transmits the electric energy to the heating rod 7, the heating rod 7 operates to generate heat, and then the temperature of gas between the inner curtain wall 2 and the outer curtain wall 3 is increased, so that the condensation problem is solved. Under the condition of no illumination, the first motor 501 runs reversely to drive the first rotating shaft 502 to rotate reversely, and then the thin-film solar cell panel 503 is retracted. It should be noted that, in the process of generating heat by the operation of the heating rod 7, the second motor 801 operates to drive the second rotating shaft 802 to rotate by a certain angle, and further drive the fixing ring 803 to rotate, the supporting rod 804 on the fixing ring 803 rotates along with the guiding plate 805, and finally, the guiding plate 805 is changed from the original vertical state to an inclined state, and the inclined direction is directed to the inner curtain wall 2, so that the hot gas generated by the heating rod 7 is guided to the inner curtain wall 2, and the speed of removing condensation is accelerated.

In conclusion, the heat-preservation hollow heating glass curtain wall can quickly and simply solve the condensation problem without depending on external energy.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

While embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations of the above embodiments may be made by those of ordinary skill in the art without departing from the scope of the present invention.

Claims (7)

1. The utility model provides a heat preservation type cavity heating glass curtain wall, a serial communication port, including the outer frame body, the inner wall both sides border of outer frame body has inlayed interior curtain wall and outer curtain wall respectively, and the inner wall top of outer frame body has seted up U type groove, the inside in going up U type groove is equipped with the photovoltaic module, U type groove has been seted up down to the inner wall bottom of outer frame body, and the inside bottom fixedly connected with heating rod in U type groove down, the top of heating rod is equipped with the direction subassembly.

2. The heat-preservation type hollow heating glass curtain wall as claimed in claim 1, wherein the photovoltaic module comprises: inlay in the inside first motor of last U type groove one side, outer frame, go up U type inslot portion swing joint and have first pivot, and first pivot one end inlays at last U type inslot wall movably, the output fixed connection of the first pivot other end and first motor, and first pivot lateral surface winding has thin-film solar cell panel, dc-to-ac converter and battery have been inlayed to the inside one side of outer frame, and the dc-to-ac converter is located the battery top.

3. The heat preservation type hollow heating glass curtain wall as claimed in claim 2, wherein one end of the thin-film solar cell panel is fixed on the outer side surface of the first rotating shaft, and the other end of the thin-film solar cell panel is fixedly connected with a metal strip.

4. The heat-preservation type hollow heating glass curtain wall as claimed in claim 2, wherein the height of the horizontal plane of the bottom end of the thin-film solar cell panel is higher than the height of the horizontal plane of the opening at the bottom end of the upper U-shaped groove when the thin-film solar cell panel is rolled.

5. The insulated hollow heating glass curtain wall as claimed in claim 1, wherein the guiding assembly comprises: inlay U type groove one side, the inside second motor of outer frame body down, U type inslot portion top is equipped with the second pivot down, and second pivot one end inlays U type inslot wall mobile down, the second pivot other end and second motor output fixed connection, and a plurality of evenly distributed's of fixedly connected with solid fixed ring on the lateral surface of second pivot, gu fixed ring's lateral surface top and the equal fixedly connected with bracing piece in bottom, adjacent two of same horizontal plane fixedly connected with guide plate between the bracing piece.

6. The insulated hollow heating glass curtain wall as claimed in claim 1, wherein an intermediate chamber is formed between the outer frame, the inner curtain wall and the outer curtain wall, and inert gas is filled in the intermediate chamber.

7. The heat preservation type hollow heating glass curtain wall as claimed in claim 1, wherein a controller is fixedly connected to the upper portion of the upper U-shaped groove, and an optical sensor is embedded in one side of the controller and the top end of the outer side face of the outer frame body.

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