CN204071643U - Hollow Roman shade - Google Patents

Abstract

A kind of hollow Roman shade, comprises a pedestal, a curtain body and a control light unit.This curtain body is arranged on this pedestal, and comprises sheet glass, accommodation space, a driver element at two panels interval, and a casement.This driver element is positioned between described sheet glass.This casement is arranged on this driver element.This control light unit is arranged on this curtain body, and comprises most shading section and most printing opacity section.This control light unit draws this casement by this driver element, and changes the relative position of described printing opacity section and described shading section, and this curtain body is changed between a light transmission state and a light tight state.Described sheet glass can protect this casement, and becomes in this curtain structural reform in the process of light transmission state, can realize the state of part shading and complete shading.

Description

Hollow Roman shade

Technical field

The utility model relates to a kind of Roman shade, particularly relates to a kind of hollow Roman shade be located between two sheet glass.

Background technology

Roman shade is that a kind of outward appearance is elegant and have the curtain having ancient Roman's style, and it has a pedestal, a roller bearing being arranged on this pedestal, and a light tight casement being wound on this roller bearing.This kind of Roman shade is arranged on the top of window more, when to pull and to launch this casement, reaches the effect of sunshade by covering window downwards.

But in use, its cord is mostly launch completely or fold completely to this kind of Roman shade.When cord launches completely, although can fully keep the sun off, the degree of shading at random cannot be adjusted, use more restricted, moreover, outside the cord of this kind of abat vent is exposed to more, easily damage because of contact, therefore the design of above-mentioned abat vent still haves much room for improvement.

Summary of the invention

The purpose of this utility model is that providing a kind of can control the hollow Roman shade that shading degree also can protect casement.

The utility model hollow Roman shade, comprises a pedestal, a curtain body and a control light unit.

This pedestal comprises first pedestal separately and second pedestal.

This curtain body comprises two sheets, accommodation space, a driver element, and a casement.Separately, each sheets all connects this first pedestal and this second pedestal to described sheet glass.This accommodation space is surrounded by this first pedestal, this second pedestal and described sheet glass and defines.This driver element is positioned at this accommodation space.This casement is arranged on this driver element.

This control light unit is arranged on this curtain body, and comprises most shading section and most printing opacity section.This control light unit draws this casement by this driver element and moves, and changes the relative position of described printing opacity section and described shading section, and this curtain body is changed between a light transmission state and a light tight state.At this light transmission state, light can penetrate described sheet glass.In this light tight state, light can not penetrate described sheet glass.

Hollow Roman shade described in the utility model, this casement has the first facial and one second face that are respectively adjacent to described sheet glass, described printing opacity section and described shading section are the moving direction extensions along this casement vertical, and are be formed at this first facial and this second face interlacedly.

Hollow Roman shade described in the utility model, described printing opacity section and described shading section are the moving direction extensions along this casement vertical, and the shading section of part is the sheets be arranged on wherein separately, remaining shading section and described printing opacity section interlaced are formed at this casement.

Hollow Roman shade described in the utility model, this casement has the first facial and one second face that are respectively adjacent to described sheet glass, described printing opacity section and described shading section are the moving direction extensions along this casement vertical, described printing opacity section is this first facial and this second face, described shading section being formed between this first facial and this second face separately, and two end opposite of each shading section connect this first facial and this second face respectively.

Hollow Roman shade described in the utility model, this driver element has the cylinder that two are also close to this first pedestal separately, and one is placed on this casement hangs pipe from above, two end opposite of this casement are connected to described cylinder respectively, and by this hang from above pipe and described cylinder define this first facial and this second face.

Hollow Roman shade described in the utility model, described cylinder has a gear part respectively, and described gear part is engaged mutually, and this driver element also has one and connects the stay cord of one of them cylinder, pulls this stay cord to rotate described cylinder and draws this casement and move.

Hollow Roman shade described in the utility model, this driver element has two cylinders, and described cylinder is respectively adjacent to this first pedestal and this second pedestal, and two end opposite of this casement are connected to described cylinder respectively.

Hollow Roman shade described in the utility model, this driver element has two cylinders, and described cylinder is respectively adjacent to this first pedestal and this second pedestal, and this casement around described cylinder, and is defined this first facial and this second face by described cylinder.

Hollow Roman shade described in the utility model, this driver element also has one and connects the stay cord of described cylinder, pulls this stay cord to rotate described cylinder and draws this casement and move.

The beneficial effects of the utility model are: this control light unit can make this curtain body change between this light transmission state and this light tight state.Driven at this control light unit and changed in the process of light transmission state, the state of part shading and complete shading can be realized, user can adjust the area of shading whereby, reach the effect controlling shading degree, and, this Roman shade is mounted between described sheet glass, and user can be avoided directly to touch and damage.

Accompanying drawing explanation

Fig. 1 is a front elevational schematic, and first embodiment of the utility model hollow Roman shade is described;

Fig. 2 is a schematic side view, illustrates that this curtain body of this first embodiment is at a light transmission state;

Fig. 3 is a schematic side view, illustrates that this curtain body of this first embodiment is a light tight state;

Fig. 4 is a schematic side view, illustrates that this curtain body of this first embodiment is in this light tight state;

Fig. 5 is a front elevational schematic, and second embodiment of the utility model hollow Roman shade is described;

Fig. 6 is a schematic side view, illustrates that this curtain body of this second embodiment is at this light transmission state;

Fig. 7 is a schematic side view, illustrates that this curtain body of this second embodiment is in this light tight state;

Fig. 8 is a front elevational schematic, and the 3rd embodiment of the utility model hollow Roman shade is described;

Fig. 9 is a schematic side view, illustrates that this curtain body of the 3rd embodiment is at this light transmission state;

Figure 10 is a schematic side view, illustrates that this curtain body of the 3rd embodiment is in this light tight state.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described in detail.

Consult Fig. 1 and Fig. 2, the first embodiment of the utility model hollow Roman shade comprises a pedestal 2, curtain body 3, and a control light unit 4.

This pedestal 2 comprises first pedestal 21 separately and second pedestal 22.In the present embodiment, this first pedestal 21 and this second pedestal 22 are all in long strip type.

This curtain body 3 comprises two panels sheet glass separately 31, accommodation space 32, driver element 33, and a casement 34.Separately, each sheets 31 all connects this first pedestal 21 and this second pedestal 22 to described sheet glass 31.This accommodation space 32 is surrounded by this first pedestal 21, this second pedestal 22 and described sheet glass 31 and defines.This driver element 33 is positioned at this accommodation space 32, and this casement 34 is arranged on this driver element 33.

This driver element 33 has 331, one, two cylinders and hangs pipe 332, stay cord 333 from above.Described cylinder 331 is also close to this first pedestal 21 separately, and has a gear part 334 respectively, and described gear part 334 is engaged mutually.This hangs pipe 332 from above is be placed on this casement 34.This stay cord 333 connects one of them cylinder 331, pulls this stay cord 333 can rotate described cylinder 331.

Two end opposite of this casement 34 are connected to described cylinder 331 respectively, is a 8-shaped when side-looking.This casement 34 has the first facial 341 and second face 342 that are respectively adjacent to described sheet glass 31.This first facial 341 and this second face 342 by this hang from above pipe 332 and described cylinder 331 define.

This control light unit 4 is arranged on this curtain body 3, and comprises most shading section 41 and most printing opacity section 42.Described printing opacity section 42 and described shading section 41 are the moving direction extensions along this casement 34 vertical, and are be formed at this first facial 341 and this second face 342 interlacedly.

In the present embodiment, this casement 34 is moved by drawing up and down, and therefore described printing opacity section 42 and described shading section 41 laterally extend along left and right directions, and, described shading section 41 and described printing opacity section 42 are the some of this casement 34, are that integrated manufacture forms.

This control light unit 4 draws this casement 34 by this driver element 33, and changes described printing opacity section 42 and the relative position of described shading section 41, and this curtain body 3 is changed between a light transmission state and a light tight state.

Pull this stay cord 333 can rotate described cylinder 331 and draw this casement 34, make to be positioned at the described printing opacity section 42 on this casement 34 and the change of the relative position between described shading section 41.

Consult Fig. 2, when the described shading section 41 in this first facial 341 overlaps with the described shading section 41 on this second face 342, light can penetrate this curtain body 3 via described printing opacity section 42, and now namely this curtain body 3 is positioned at this light transmission state as shown in Figure 2.

Consult Fig. 3 and Fig. 4, when the described shading section 41 in this first facial 341 overlaps with the described printing opacity section 42 on this second face 342, light all can be stopped by described shading section 41 and can not penetrate this curtain body 3, and now namely this curtain body 3 is positioned at this light tight state as shown in Figure 4.

When oppositely pulling this stay cord 333 also can change relative position between described shading section 41 and described printing opacity section 42, this curtain body 3 can be controlled equally and change between this light transmission state or this light tight state.

The present embodiment this curtain body 3 can be changed between this light transmission state and this light tight state by this driver element 33 by this control light unit 4.In the process changing light transmission state, can realize the state of part shading and complete shading, user can adjust the area of shading whereby, reach the effect controlling shading degree, further, this Roman shade is mounted between described sheet glass 31, and user can be avoided directly to touch and damage.

Consult Fig. 5 and Fig. 6, the second embodiment of the present utility model is roughly identical with this first embodiment, and difference is:

This driver element 33 has two cylinders 331, and the stay cord 333 of a described cylinder 331 of connection.Described cylinder 331 is respectively adjacent to this first pedestal 21 and this second pedestal 22.This stay cord 333 connects described cylinder 331.

Two end opposite of this casement 34 are connected to described cylinder 331 respectively.This casement 34 can be pulled via pulling this stay cord 333 to rotate described cylinder 331.

Described printing opacity section 42 and described shading section 41 are the moving direction extensions along this casement 34 vertical, and the shading section 41 of part is the sheets 31 be arranged on wherein separately, remaining shading section 41 and described printing opacity section 42 interlaced are formed at this casement 34.In the present embodiment, this casement 34 is moved by drawing up and down, and therefore described printing opacity section 42 and described shading section 41 laterally extend along left and right directions.

Consult Fig. 6 and Fig. 7, when user pulls this stay cord 333 to rotate described cylinder 331 downwards and draws this casement 34, in Fig. 6, the cylinder 331 of top can be rolled up and put this casement 34, in Fig. 6, the cylinder 331 of below can furl this casement 34, now, the described shading section 41 be positioned on this casement 34 can be moved by affecting down with described printing opacity section 42, and the described shading section 41 be positioned on this sheet glass 31 is fixed and do not move, therefore, when this casement 34 is pulled, namely described printing opacity section 42 changes with the relative position of described shading section 41.

When described shading section 41 overlaps with described shading section 41, that is, described shading section 41 can not hide described printing opacity section 42, and therefore light can be worn injection via described printing opacity section 42 and can penetrate this curtain body 3, and now namely this curtain body 3 is in this light transmission state as shown in Figure 6.

When described shading section 41 overlaps with described printing opacity section 42, that is, described shading section 41 hides described printing opacity section 42, and therefore light all can be stopped by described shading section 41 and can not penetrate this curtain body 3, and now namely this curtain body 3 is in this light tight state as shown in Figure 7.

So, this second embodiment is except reaching the object identical with above-mentioned first embodiment and effect, and the present embodiment provides the set-up mode of this control light unit 4 another kind of, and this curtain body 3 architectural feature matched with it.

Consult Fig. 8 and Fig. 9, the 3rd embodiment of the present utility model is roughly identical with this second embodiment, and difference is:

This driver element 33 has two cylinders 331, and described cylinder 331 is respectively adjacent to this first pedestal 21 and this second pedestal 22.This casement 34 around described cylinder 331, and is defined a first facial 341 and second face 342 by described cylinder 331.

Described printing opacity section 42 is first facial 341 and second face 342 of this casement 34.Described shading section 41 being formed between this first facial 341 and this second face 342 separately, and two end opposite of each shading section 41 connect this first facial 341 and this second face 342 respectively.

In the present embodiment, this casement 34 is moved by drawing up and down, therefore described printing opacity section 42 and described shading section 41 laterally extend along left and right directions, and, described printing opacity section 42 and described shading section 41 are the some of this casement 34, and it is and the integrated manufacture of this casement 34.

Pull this stay cord 333, when making the rough in fact vertical described printing opacity section 42 of described shading section 41, light can penetrate described printing opacity section 42 and penetrate this curtain body 3, and now namely this curtain body 3 is positioned at this light transmission state as shown in Figure 9.

Continue this stay cord 333 dynamic, described shading section 41 is pullled by described printing opacity section 42, and and when presenting heeling condition between described printing opacity section 42, light is stopped by described shading section 41 and can not penetrate this curtain body 3, now namely this curtain body 3 is positioned at this light tight state as shown in Figure 10.

It is worth mentioning that, oppositely pull this stay cord 333 that described shading section 41 still can be made to be pullled by described printing opacity section 42 and present heeling condition, reach the effect of shading.

So, 3rd embodiment is except reaching the object identical with above-mentioned first embodiment and effect, the present embodiment provides another kind of and this first embodiment above-mentioned and the diverse casement 34 of the second embodiment, and the structure of this kind of casement 34 can have higher light transmittance.

In sum, this control light unit 4 can make this curtain body 3 change between this light transmission state and this light tight state, and in the process changing light transmission state, the state of part shading and complete shading can be realized, can control shading degree whereby, and this casement 34 is mounted between described sheet glass 31, can avoid by directly touching and damage, so really can the purpose of this utility model be reached.

Claims (9)

1. a hollow Roman shade, is characterized in that comprising:

A pedestal, comprises first pedestal separately and second pedestal;

A curtain body, comprise two sheets, accommodation space, a driver element, and a casement, described sheet glass separately, each sheets all connects this first pedestal and this second pedestal, this accommodation space is surrounded by this first pedestal, this second pedestal and described sheet glass and defines, and this driver element is positioned at this accommodation space, and this casement is arranged on this driver element; And

A control light unit, be arranged on this curtain body, and comprise most shading section and most printing opacity section, this control light unit draws this casement by this driver element and moves, and changes the relative position of described printing opacity section and described shading section, and this curtain body is changed between a light transmission state and a light tight state, at this light transmission state, light can penetrate this curtain body, and in this light tight state, light can not penetrate this curtain body.

2. hollow Roman shade as claimed in claim 1, it is characterized in that: this casement has the first facial and one second face that are respectively adjacent to described sheet glass, described printing opacity section and described shading section are the moving direction extensions along this casement vertical, and are be formed at this first facial and this second face interlacedly.

3. hollow Roman shade as claimed in claim 1, it is characterized in that: described printing opacity section and described shading section are the moving direction extensions along this casement vertical, and the shading section of part is the sheets be arranged on wherein separately, remaining shading section and described printing opacity section interlaced are formed at this casement.

4. hollow Roman shade as claimed in claim 1, it is characterized in that: this casement has the first facial and one second face that are respectively adjacent to described sheet glass, described printing opacity section and described shading section are the moving direction extensions along this casement vertical, described printing opacity section is this first facial and this second face, described shading section being formed between this first facial and this second face separately, and two end opposite of each shading section connect this first facial and this second face respectively.

5. hollow Roman shade as claimed in claim 2, it is characterized in that: this driver element has the cylinder that two are also close to this first pedestal separately, and one is placed on this casement hangs pipe from above, two end opposite of this casement are connected to described cylinder respectively, and by this hang from above pipe and described cylinder define this first facial and this second face.

6. hollow Roman shade as claimed in claim 5, it is characterized in that: described cylinder has a gear part respectively, described gear part is engaged mutually, and this driver element also has one and connects the stay cord of one of them cylinder, pulls this stay cord to rotate described cylinder and draws this casement and move.

7. hollow Roman shade as claimed in claim 3, it is characterized in that: this driver element has two cylinders, described cylinder is respectively adjacent to this first pedestal and this second pedestal, and two end opposite of this casement are connected to described cylinder respectively.

8. hollow Roman shade as claimed in claim 4, it is characterized in that: this driver element has two cylinders, described cylinder is respectively adjacent to this first pedestal and this second pedestal, and this casement around described cylinder, and is defined this first facial and this second face by described cylinder.

9. as claimed in claim 7 or 8 hollow Roman shade, is characterized in that: this driver element also has the stay cord that connects described cylinder, pulls this stay cord to rotate described cylinder and draws this casement and move.