CN217632188U - Multi-mode honeycomb curtain hollow glass - Google Patents

Abstract

A multi-mode cellular shade hollow glass comprises double-layer glass, a cellular shade arranged between the double-layer glass and a section frame body sealing the periphery of the double-layer glass, wherein the section frame body comprises an upper cross beam, a lower cross beam, a left side beam and a right side beam; the method is characterized in that: the honeycomb curtains are divided into two groups, namely a full-shading honeycomb curtain and a half-shading honeycomb curtain which are arranged up and down in a split mode, and the two groups of honeycomb curtains are respectively connected with corresponding cross beams; the upper cross beam and the lower cross beam are respectively internally provided with a driving mechanism so as to drive the corresponding cellular blinds to be unfolded or folded. The utility model has the advantages of simple and reasonable structure, the manufacturing is easy, both can realize the function of full shading, half shading, can realize the function of partial full shading, partial half shading again, can be according to the user demand, the state of the full shading honeycomb blind of nimble control respectively, half shading honeycomb blind.

Description

Multi-mode honeycomb blind hollow glass

Technical Field

The utility model relates to a structure of a honeycomb blind, in particular to a multi-mode honeycomb blind hollow glass.

Background

The honeycomb curtain is also called an organ curtain, and the unique honeycomb design ensures that air is stored in the hollow layer, so that the indoor temperature is kept constant, and the air-conditioning electricity charge can be saved; the household article is effectively protected to its ultraviolet protection and thermal-insulated function, and the outward appearance is perfect, lets the customer use more simple and practical than traditional device.

The honeycomb curtain is a style of honeycomb curtain, has heat insulation and sound insulation functions, and can effectively keep indoor constant temperature and space quiet. The full shading honeycomb curtain can effectively protect privacy; a semi-shading honeycomb curtain is mainly used on windows of restaurants, bathrooms and garages.

The shading form of the honeycomb blinds in the current market is a single-form structure, and the higher and higher requirements of customers cannot be met, so that the problem is urgently needed to be solved.

The invention discloses a multifunctional honeycomb curtain with an authorized publication number of CN105715189B, which can realize the functions of full shading and half shading as well as partial full shading and partial half shading. However, the full-shading honeycomb blind and the half-shading honeycomb blind in the technical scheme are fixedly connected together, and occupy too much space at the bottom of glass (when the full-shading honeycomb blind is applied to window glass) when being completely folded, so that the visual angle is influenced, and the integrated structure is not flexible enough in actual use.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the not enough of above-mentioned prior art, provide a multi-mode honeycomb blind cavity glass, both can realize the function of full shading, half shading, can be according to the user demand, the state of the full shading honeycomb blind of nimble control, half shading honeycomb blind respectively.

The technical scheme of the utility model as follows:

a multi-mode honeycomb blind hollow glass comprises double-layer glass, a honeycomb blind arranged between the double-layer glass and a section frame body sealing the periphery of the double-layer glass, wherein the section frame body comprises an upper cross beam, a lower cross beam, a left side beam and a right side beam; the method is characterized in that:

the honeycomb curtains are divided into two groups, namely a full-shading honeycomb curtain and a half-shading honeycomb curtain which are arranged up and down in a split mode, and the two groups of honeycomb curtains are respectively connected with corresponding cross beams; the upper cross beam and the lower cross beam are respectively internally provided with a driving mechanism so as to drive the corresponding cellular blinds to be unfolded or folded.

By adopting the scheme, the driving mechanism of the upper beam controls the full shading honeycomb blind to be unfolded or folded at any position; the driving mechanism of the lower beam controls the half shading honeycomb curtain to be unfolded or folded at any position; the two groups of honeycomb curtains adopt a split type structure, are separately controlled and are flexibly used. Especially, when the curtain is completely folded, only a little space at the upper part and a little space at the lower part of the glass are occupied, so that the visual angle is better and the sense is better.

In order to realize the driving of the upper full-shading curtain, an upper driving motor is arranged in the upper cross beam, and the driving motor is a double-output motor; the full shading honeycomb curtain is provided with two pull wires which are symmetrically arranged, and the two pull wires are respectively wound on two output shafts of the upper driving motor. Go up two output shafts of driving motor and be equipped with the reel that the winding closed light honeycomb blind was acted as go-between respectively, the bottom of acting as go-between with the bottom diaphragm rigid coupling of closed light honeycomb blind entirely, the head of acting as go-between twines in the reel of driving motor output shaft after passing inside, the top diaphragm of closed light honeycomb blind entirely in proper order.

By adopting the scheme, when the upper driving motor rotates forwards, the stay wire is wound on the winding wheel of the motor output shaft, and the stay wire pulls the bottom transverse plate of the full-shading honeycomb curtain to fold the full-shading honeycomb curtain; when the upper driving motor rotates reversely, the winding wheel loosens the stay wire, and the bottom transverse plate moves downwards to enable the full-shading honeycomb curtain to be unfolded.

In order to realize the driving of the lower half window shade, a lower driving motor is arranged in the lower cross beam, and the driving motor is a double-output motor; synchronous belts are respectively arranged in the left and right beams, synchronous wheels are respectively arranged at the two ends of the inner sides of the upper and lower beams, and the top and the bottom of each synchronous belt are respectively meshed with the corresponding synchronous wheels;

the two ends of the top transverse plate of the semi-shading honeycomb curtain are respectively provided with a lifting block meshed with the corresponding synchronous belt, and the lifting blocks are in sliding fit with the corresponding edge beams (the inner side walls of the left and right edge beams are respectively provided with a sliding groove arranged in the length direction, each lifting block is provided with a convex block matched with the corresponding sliding groove, and the corresponding convex block and the corresponding sliding groove are in sliding fit); two output shafts of the lower driving motor are meshed with corresponding synchronous wheels to drive the two synchronous belts to drive the lifting block to move upwards or downwards, so that the half-shading honeycomb blind is unfolded or folded.

By adopting the scheme, when the lower driving motor rotates forwards, the synchronous belt is driven, the lifting block moves upwards along the edge beam sliding groove, and the half shading honeycomb curtain is unfolded; when the lower driving motor rotates reversely, the synchronous belt is driven, so that the lifting block moves downwards along the edge beam sliding groove, and the half-shading honeycomb curtain is folded.

Furthermore, a magnet group A is arranged in a bottom transverse plate of the full-shading honeycomb blind, a magnet group B is arranged in a top transverse plate of the half-shading honeycomb blind, and the magnet groups A and B attract each other.

By adopting the scheme, the two groups of honeycomb curtains are convenient to connect, so that the built-in honeycomb curtain of the whole hollow glass is better closed.

The utility model has the advantages of simple and reasonable structure, the manufacturing is easy, both can realize the function of full shading, half shading, can realize the function of partial full shading, partial half shading again, can be according to the user demand, the state of the full shading honeycomb blind of nimble control respectively, half shading honeycomb blind.

Drawings

FIG. 1 is a schematic view of the structure of a multi-mode cellular shade insulating glass of example 1;

FIG. 2 is a schematic view showing the structure of a multi-mode cellular shade insulating glass according to example 2;

FIG. 3 is a schematic view showing the structure of a multi-mode cellular shade insulating glass according to example 3;

FIG. 4 is a partial cross-sectional view of the cellular shade of example 4;

in the figure: the upper beam 1, the lower beam 2, the left beam 3, the right beam 4, the full-shading honeycomb blind 5, the half-shading honeycomb blind 6, the upper driving motor 7, the stay wire 8, the reel 9, the bottom transverse plate 10 of the full-shading honeycomb blind, the top transverse plate 11 of the full-shading honeycomb blind, the lower driving motor 12, the synchronous belt 13, the synchronous wheel 14, the top transverse plate 15 of the half-shading honeycomb blind, the lifting block 16, the fixed shaft 17, the magnet group A18, the magnet group B19, the reflecting layer 20 and the shading cloth 21.

Detailed Description

Example 1

As shown in fig. 1, a multi-mode cellular shade hollow glass comprises double-layer glass, a cellular shade arranged between the double-layer glass, and a profile frame body sealing the periphery of the double-layer glass, wherein the profile frame body comprises an upper cross beam 1, a lower cross beam 2, a left side beam 3 and a right side beam 4.

The honeycomb blinds are divided into two groups, namely a full-shading honeycomb blind 5 and a half-shading honeycomb blind 6 which are arranged in an up-and-down mode, and the two groups of honeycomb blinds are respectively connected with corresponding cross beams; the upper beam and the lower beam are respectively provided with a driving mechanism inside to drive the corresponding cellular shade to be unfolded or folded.

The driving mechanism of the upper beam controls the full shading honeycomb curtain to be unfolded or folded at any position; the driving mechanism of the lower beam controls the half shading honeycomb curtain to be unfolded or folded at any position; the two groups of honeycomb curtains adopt a split type structure, are separately controlled and are flexibly used. Especially when the window curtain is applied to window glass, when the window curtain is completely folded, only a little space at the upper part and a little space at the lower part of the glass are occupied, so that the visual angle is better, and the sense is better.

Example 2

On the basis of the embodiment 1, as shown in fig. 2, an upper driving motor 7 is arranged in the upper cross beam, and the driving motor is a double-output motor; the full shading honeycomb blind is provided with two pull wires 8 which are symmetrically arranged, and the two pull wires are respectively wound on two output shafts of the upper driving motor. Go up and be equipped with the reel 9 that the winding is drawn a line to full shading honeycomb blind on two output shafts of driving motor respectively, the bottom of drawing a line and the bottom diaphragm 10 rigid coupling of full shading honeycomb blind, the head of drawing a line twines in the reel of driving motor output shaft after passing inside full shading honeycomb blind, top diaphragm 11 in proper order.

A lower driving motor 12 is arranged in the lower cross beam, and the driving motor is a double-output motor; synchronous belts 13 are respectively arranged in the left and right beams, synchronous wheels 14 are respectively arranged at the two ends of the inner sides of the upper and lower beams, and the tops and the bottoms of the synchronous belts are respectively meshed with the corresponding synchronous wheels. The inner part of the upper cross beam is divided into a left cavity, a middle cavity and a right cavity which are respectively used for installing a synchronizing wheel, an upper driving motor and a synchronizing wheel.

A top transverse plate 15 of the half shading honeycomb blind, wherein two ends of the top transverse plate are respectively provided with a lifting block 16 meshed with the corresponding synchronous belts, and the lifting blocks are in sliding fit with the corresponding edge beams (the inner side walls of the left and right edge beams are both provided with sliding grooves arranged in the length direction, the lifting blocks are provided with convex blocks matched with the corresponding sliding grooves, and the corresponding convex blocks and the corresponding sliding grooves are in sliding fit); two output shafts of the lower driving motor are meshed with corresponding synchronous wheels to drive the two synchronous belts to drive the lifting block to move upwards or downwards, so that the half-shading honeycomb blind is unfolded or folded.

When the upper driving motor rotates forwards, the pull wire is wound on the winding wheel of the motor output shaft, and the pull wire pulls the bottom transverse plate of the full-shading honeycomb curtain to fold the full-shading honeycomb curtain; when the upper driving motor rotates reversely, the winding wheels loosen the stay wires, and the bottom transverse plate moves downwards to enable the full-shading honeycomb curtain to be unfolded.

When the lower driving motor rotates forwards, the synchronous belt is driven to enable the lifting block to move upwards along the edge beam sliding groove, and the half shading honeycomb curtain is unfolded; when the lower driving motor rotates reversely, the synchronous belt is driven to enable the lifting block to move downwards along the edge beam sliding groove, and the half shading honeycomb curtain is folded.

Example 3

As shown in fig. 3, unlike embodiment 2, the inner side of the upper beam is divided into an upper cavity and a lower cavity, and the upper cavity and the lower cavity are respectively used for installing a fixed shaft 17 and an upper driving motor, and two ends of the fixed shaft are respectively provided with a synchronous wheel meshed with a synchronous belt. Wherein, the lower cavity is narrower than the upper cavity so that the synchronous belt passes through.

Example 4

As shown in fig. 1 and 4, in embodiment 2 or 3, the magnet set a 18 is disposed inside the bottom horizontal plate of the full-shading cellular shade, the magnet set B19 is disposed inside the top horizontal plate of the half-shading cellular shade, and the magnet sets a and B attract each other, so that the connection between the two cellular shades is facilitated, and the entire hollow glass built-in cellular shade is closed better. The cloth curtain of the honeycomb curtain is of a double-layer structure and is respectively a reflecting layer 20 and shading cloth 21.

Claims (8)

1. A multi-mode honeycomb blind hollow glass comprises double-layer glass, a honeycomb blind arranged between the double-layer glass and a section frame body sealing the periphery of the double-layer glass, wherein the section frame body comprises an upper cross beam, a lower cross beam, a left side beam and a right side beam; the method is characterized in that:

the honeycomb curtains are divided into two groups, namely a full-shading honeycomb curtain and a half-shading honeycomb curtain which are arranged up and down in a split mode, and the two groups of honeycomb curtains are respectively connected with corresponding cross beams; the upper beam and the lower beam are respectively provided with a driving mechanism inside to drive the corresponding cellular shade to be unfolded or folded.

2. A multi-mode cellular shade insulating glass as recited in claim 1, wherein an upper drive motor is provided within the upper beam, the drive motor being a dual output motor; the full-shading honeycomb curtain is provided with two symmetrically arranged pull wires, and the two pull wires are respectively wound on two output shafts of the upper driving motor.

3. A multi-mode cellular shade insulating glass as recited in claim 1, wherein a lower driving motor is provided in the lower beam, the driving motor being a dual output motor; synchronous belts are respectively arranged in the left and right beams, synchronous wheels are respectively arranged at the two ends of the inner sides of the upper and lower beams, and the top and the bottom of each synchronous belt are respectively meshed with the corresponding synchronous wheels;

the semi-shading honeycomb curtain is provided with a top transverse plate, two ends of the top transverse plate of the semi-shading honeycomb curtain are respectively provided with a lifting block meshed with the corresponding synchronous belt, and the lifting blocks are in sliding fit with the corresponding side beams; two output shafts of the lower driving motor are meshed with corresponding synchronous wheels to drive the two synchronous belts to drive the lifting block to move upwards or downwards, so that the half-shading honeycomb blind is unfolded or folded.

4. A multi-mode cellular shade insulating glass as in claim 1, wherein the fully-opaque cellular shade has a bottom cross-piece, the fully-opaque cellular shade having a set of magnets a disposed in the bottom cross-piece, and the semi-opaque cellular shade having a set of magnets B disposed in the top cross-piece, the sets of magnets a, B attracting each other.

5. A multiple mode cellular shade insulating glass as defined in claim 2, wherein two output shafts of said upper driving motor are provided with reels for winding the pull wires of the completely opaque cellular shade, respectively.

6. A multi-mode cellular shade insulating glass as claimed in claim 3, wherein the left and right side beams have lengthwise-disposed runners, and the lifting blocks have projections mating with the corresponding runners, the corresponding projections and runners being slidably engaged.

7. A multi-mode cellular shade insulating glass as claimed in claim 2 or 5, wherein the bottom of the pulling wire is fixedly connected to the bottom cross plate of the full-shading cellular shade, and the head of the pulling wire sequentially passes through the inside of the full-shading cellular shade and the top cross plate of the full-shading cellular shade and then is wound around the output shaft of the driving motor.

8. A multi-mode cellular shade insulating glass as defined in claim 1, wherein the plies of the cellular shade are of a double-ply construction.

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