CN220869284U - Hollow built-in shutter with dust removal function - Google Patents

Abstract

The utility model relates to the technical field of blinds, in particular to a hollow built-in blind with a dust removing function. The shutter comprises a shutter body, wherein the top of the shutter body is fixedly connected with a support column, a moving assembly is movably communicated in the support column, and the end part of the moving assembly penetrating out of the support column is movably connected with a rotating assembly; the outer wall of the rotating assembly is fixedly connected with a fixing assembly, the fixing assembly is movably connected inside the moving assembly, the splicing assembly is movably connected inside the rotating assembly, and the end part of the splicing assembly is fixedly connected with a cleaning brush. According to the utility model, the plurality of cleaning brushes are connected through the splicing component, meanwhile, the splicing component at the top of the cleaning brush at the top is fixed in the rotating component, the rotating component is fixed on the moving component through the fixing component, the moving component drives the rotating component and the plurality of cleaning brushes to move left and right, and the rotating component drives the cleaning brushes to rotate so as to clean dust on the surface of the shutter body.

Description

Hollow built-in shutter with dust removal function

Technical Field

The utility model relates to the technical field of blinds, in particular to a hollow built-in blind with a dust removing function.

Background

The biggest charm of shutter lies in printing opacity opaque, not only can adjust indoor light and shade degree, also can reach good ventilation effect. The hollow shutter is also used as a quick-opening energy-saving door and window product, and the traditional shutter curtain and the hollow glass are combined into a whole. The heat-insulating sun-proof door has the advantages that the use space is saved, the heat-insulating sun-proof function of the door and window is realized, the door and window in a home can be decorated by using the window curtain, multiple door and window types can be matched, the personalized requirements can be met by multiple colors, the heat-insulating sun-proof door and window is widely applicable to villas, offices, houses, hotels and the like, the incident light can be simply and freely adjusted, the incident light can be controlled by adjusting the angle of the blade, and the blade can be randomly adjusted to the most suitable position.

For hollow built-in blinds, there are many prior art, such as:

Chinese patent publication No. CN206495625U discloses a hollow built-in shutter, including sealed hollow glass and the blind that sets up in hollow glass, hollow glass includes two toughened glass that are parallel to each other, is equipped with metal hollow frame between the toughened glass, toughened glass with the hollow portion that the metal hollow frame encloses is sealed with the sealant, and the outside of metal hollow frame is equipped with the interface of aerifing and is used for with the sealed sealing plug of interface of aerifing, is equipped with the air vent with hollow portion intercommunication on the inboard of metal hollow frame, wears to put upset stay cord and lift stay cord on the blind, and upset stay cord and lift stay cord are connected with upset elevating system, upset elevating system links to each other with the motor, the motor passes through control circuit and links to each other with solar cell. The utility model realizes the turning and lifting of the adjustable shutter, has simple structure, does not need to mechanically adjust the turning and lifting of the shutter, and reflects the advantage of electric control.

Because the existing shutter is exposed outside for a long time, a lot of dust is accumulated on the window leaves, the appearance is affected, the shutter is usually cleaned manually, and because part of window positions are higher, the shutter is more troublesome to clean, cleaning personnel are required to stand to the high place to clean the shutter, and the danger coefficient is higher.

In view of this, the present utility model provides a hollow built-in blind having a dust removing function.

Disclosure of utility model

The utility model provides a hollow built-in shutter with a dust removing function, which comprises a shutter body, wherein the top of the shutter body is fixedly connected with a pillar, the inside of the pillar is movably communicated with a moving assembly, and the end part of the moving assembly penetrating out of the pillar is movably connected with a rotating assembly;

The outer wall of the rotating component is fixedly connected with a fixed component which is movably connected with the inside of the moving component, the inside of the rotating component is movably connected with a splicing component, the end part of the splicing component is fixedly connected with a cleaning brush, and the splicing component at the top of the cleaning brush is movably connected with the bottom of the other cleaning brush.

As a further improvement of the technical scheme, the moving assembly comprises a sliding block, the sliding block is movably connected inside the pillar sliding groove, a screw is movably communicated inside the sliding block, the screw penetrates out of one end of the sliding block and is fixedly connected with a motor output shaft, the sliding block penetrates out of the pillar end and is movably connected with a rotating assembly, and the moving assembly is used for driving the rotating assembly to move left and right.

As a further improvement of this technical scheme, rotating assembly includes a piece, a piece swing joint is worn out the tip department of pillar at the slider, a piece outer wall fixedly connected with fixed subassembly, fixed subassembly swing joint is inside the slider, the inside movable intercommunication of a piece has the bull stick, bull stick top fixedly connected with motor output shaft, the inside movable intercommunication of bull stick has splice assembly, rotating assembly is used for driving splice assembly and rotates.

As a further improvement of the technical scheme, the fixing component comprises a protruding block, the protruding block is fixedly connected to the outer wall of the supporting block, two protruding rods are movably communicated with the inside of the protruding block, an elastic piece is fixedly connected between the protruding rods, the protruding rods penetrate through the protruding block and are movably communicated with the inside of the sliding block, and the fixing component is used for driving the rotating component to be installed and detached on the sliding block.

As the further improvement of this technical scheme, splice assembly includes branch, branch outer wall fixedly connected with bolt, bolt and branch swing joint are inside the bull stick, the bull stick bottom fixedly connected with cleaning brush is worn out to the branch, the activity intercommunication of cleaning brush bottom has another cleaning brush top's branch and bolt, splice assembly is used for connecting a plurality of cleaning brushes.

Compared with the prior art, the utility model has the beneficial effects that:

Connect a plurality of cleaning brushes through the concatenation subassembly, fix the concatenation subassembly at top cleaning brush top at the same time inside rotating the subassembly, fix rotating the subassembly on moving the subassembly through fixed subassembly, drive rotating the subassembly and remove about a plurality of cleaning brushes through moving the subassembly, drive the cleaning brush through rotating the subassembly and rotate, clear up the dust on shutter body surface.

Drawings

The utility model is described in more detail below, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of a mobile structure according to the present utility model;

FIG. 3 is a schematic view of a rotating structure according to the present utility model;

FIG. 4 is a schematic view of a splice structure according to the present utility model;

Fig. 5 is a schematic view of a fixing structure of the present utility model.

The meaning of each reference sign in the figure is: 1. a shutter body; 11. a support post; 12. a moving assembly; 120. a screw; 121. a slide block; 13. a rotating assembly; 130. a support block; 131. a rotating rod; 14. a fixing assembly; 140. a bump; 141. a protruding rod; 142. an elastic member; 15. a splice assembly; 150. a support rod; 151. a bolt; 16. a cleaning brush.

Detailed Description

As shown in fig. 1-5, the device comprises a shutter body 1, wherein the top of the shutter body 1 is fixedly connected with a pillar 11, a moving component 12 is movably communicated in the pillar 11, and the end part of the moving component 12 penetrating out of the pillar 11 is movably connected with a rotating component 13;

The outer wall of the rotating assembly 13 is fixedly connected with a fixing assembly 14, the fixing assembly 14 is movably connected inside the moving assembly 12, a splicing assembly 15 is movably connected inside the rotating assembly 13, the end part of the splicing assembly 15 is fixedly connected with a cleaning brush 16, and the splicing assembly 15 at the top of the cleaning brush 16 is movably connected at the bottom of the other cleaning brush 16;

Firstly, a specific structure of a moving assembly 12 is disclosed, the moving assembly 12 comprises a sliding block 121, the sliding block 121 is movably connected inside a chute of a supporting column 11, a screw 120 is movably communicated inside the sliding block 121, one end part of the screw 120, which penetrates out of the sliding block 121, is fixedly connected with a motor output shaft, the end part of the sliding block 121, which penetrates out of the supporting column 11, is movably connected with a rotating assembly 13, the moving assembly 12 is used for driving the rotating assembly 13 to move left and right, the screw 120 is driven to rotate through the motor output shaft, the sliding block 121 is driven to move left and right inside the chute of the supporting column 11, and the rotating assembly 13 is driven to move left and right through the movement of the sliding block 121, so that a cleaning brush 16 moves on the outer wall of a shutter body 1, and dust on the surface of the shutter body is cleaned;

According to the above disclosure of the specific structure of the rotating assembly 13, the rotating assembly 13 includes a supporting block 130, the supporting block 130 is movably connected to the end portion of the sliding block 121 penetrating out of the supporting column 11, the outer wall of the supporting block 130 is fixedly connected with a fixing assembly 14, the fixing assembly 14 is movably connected to the inside of the sliding block 121, the inside of the supporting block 130 is movably communicated with a rotating rod 131, the top of the rotating rod 131 is fixedly connected with a motor output shaft, the inside of the rotating rod 131 is movably communicated with a splicing assembly 15, the rotating assembly 13 is used for driving the splicing assembly 15 to rotate, the rotating rod 131 is driven to rotate in the inside of the supporting block 130 by the motor output shaft, the splicing assembly 15 and the cleaning brush 16 are driven to rotate simultaneously, and dust on the outer wall of the shutter body 1 is brushed by the rotation of the cleaning brush 16;

According to the above disclosure for the specific structure of the fixing component 14, the fixing component 14 includes a bump 140, the bump 140 is fixedly connected to the outer wall of the supporting block 130, two protruding rods 141 are movably connected in the bump 140, an elastic member 142 is fixedly connected between the two protruding rods 141, the protruding rods 141 penetrate through the bump 140 and are movably connected in the slider 121, the fixing component 14 is used for driving the rotating component 13 to be mounted and dismounted on the slider 121, the protruding rods 141 are pressed to drive the elastic member 142 to shrink, so that the two protruding rods 141 shrink into the bump 140, the bump 140 is conveniently placed into a groove at the end of the slider 121, the protruding rods 141 are driven to move into the slider 121 by elastic resilience of the elastic member 142, so that the position between the bump 140 and the slider 121 is fixed, and the rotating component 13 is conveniently fixed on the slider 121;

According to the above-mentioned concrete structure to concatenation subassembly 15 is disclosed, concatenation subassembly 15 includes branch 150, branch 150 outer wall fixedly connected with bolt 151, bolt 151 and branch 150 activity intercommunication are inside bull stick 131, branch 150 wears out bull stick 131 bottom fixedly connected with cleaning brush 16, the activity intercommunication of cleaning brush 16 bottom has another cleaning brush 16 top's branch 150 and bolt 151, concatenation subassembly 15 is used for being connected a plurality of cleaning brushes 16, drive branch 150 through rotating cleaning brush 16 and rotate, thereby penetrate bull stick 131 inside or cleaning brush 16 bottom with the bolt 151 of branch 150 outer wall, conveniently splice a plurality of cleaning brushes 16 each other, simultaneously with cleaning brush 16 fixed inside bull stick 131, make things convenient for bull stick 131 to drive cleaning brush 16 rotation.

The improvement of the embodiment is that: the cleaning brush 16 is rotated to drive the supporting rod 150 to rotate, so that bolts 151 on the outer wall of the supporting rod 150 penetrate into the rotating rod 131 or the bottom of the cleaning brush 16, a plurality of cleaning brushes 16 are conveniently spliced with each other, meanwhile, the cleaning brushes 16 are fixed in the rotating rod 131, the rotating rod 131 is convenient to drive the cleaning brushes 16 to rotate, the elastic piece 142 is driven to contract by pressing the protruding rods 141, the two protruding rods 141 are contracted into the protruding blocks 140, the protruding blocks 140 are conveniently placed into grooves at the end parts of the sliding blocks 121, the elastic piece 142 is elastically rebounded to drive the protruding rods 141 to move into the sliding blocks 121, the positions between the protruding blocks 140 and the sliding blocks 121 are conveniently fixed, the rotating assembly 13 is conveniently fixed on the sliding blocks 121, the motor output shaft drives the screw 120 to rotate, the sliding blocks 121 to move left and right in the sliding grooves 11, the sliding blocks 13 are driven to move left and right through the sliding blocks 121, the cleaning brushes 16 move on the outer wall of the shutter body 1, dust on the surface of the shutter body is cleaned, the rotating assembly 13 drives the rotating rod 131 to rotate in the inner parts of the sliding blocks 130 through the motor output shaft, and the rotating assembly 15 and the cleaning brushes 16 rotate through the outer wall of the cleaning brushes 1;

to sum up, the working principle of the scheme is as follows:

The plurality of cleaning brushes 16 are connected through the splicing component 15, and the splicing component 15 at the top of the topmost cleaning brush 16 is fixed in the rotating component 13, wherein the splicing component 15 drives the supporting rod 150 to rotate through rotating the cleaning brush 16, so that bolts 151 on the outer wall of the supporting rod 150 penetrate into the rotating rod 131 or the bottom of the cleaning brush 16, the plurality of cleaning brushes 16 are conveniently spliced with each other, and meanwhile, the cleaning brush 16 is fixed in the rotating rod 131, the rotating component 13 is conveniently fixed on the moving component 12 through the fixing component 14, wherein the fixing component 14 drives the elastic piece 142 to shrink through pressing the protruding rod 141, thereby shrinking the two protruding rods 141 into the protruding blocks 140, facilitating the protruding blocks 140 to be placed into grooves at the end parts of the sliding blocks 121, driving the protruding rods 141 to move into the sliding blocks 121 through elastic resilience of the elastic piece 142, thereby fixing the position between the convex block 140 and the sliding block 121, conveniently fixing the rotating component 13 on the sliding block 121, driving the rotating component 13 and the cleaning brushes 16 to move left and right through the moving component 12, driving the screw 120 to rotate through the motor output shaft, driving the sliding block 121 to move left and right in the sliding groove of the supporting column 11 through the rotation of the screw 120, driving the rotating component 13 to move left and right through the movement of the sliding block 121, thereby enabling the cleaning brush 16 to move left and right, enabling the cleaning brush 16 to move on the outer wall of the shutter body 1, cleaning dust on the surface of the shutter body, driving the cleaning brush 16 to rotate through the rotating component 13, cleaning dust on the surface of the shutter body 1, driving the rotating rod 131 to rotate in the supporting block 130 through the motor output shaft, driving the splicing component 15 and the cleaning brush 16 to rotate simultaneously through the rotating rod 131, the dust on the outer wall of the shutter body 1 is brushed by the rotation of the cleaning brush 16.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a cavity embeds shutter with dust removal function, includes shutter body (1), its characterized in that: the top of the shutter body (1) is fixedly connected with a support column (11), a moving assembly (12) is movably communicated inside the support column (11), and a rotating assembly (13) is movably connected to the end part of the moving assembly (12) penetrating out of the support column (11);

The cleaning brush comprises a rotating assembly (13), wherein the outer wall of the rotating assembly is fixedly connected with a fixing assembly (14), the fixing assembly (14) is movably connected inside a moving assembly (12), a splicing assembly (15) is movably connected inside the rotating assembly (13), a cleaning brush (16) is fixedly connected to the end part of the splicing assembly (15), and the splicing assembly (15) at the top of the cleaning brush (16) is movably connected to the bottom of another cleaning brush (16).

2. The hollow built-in blind with dust removing function according to claim 1, wherein: the movable assembly (12) comprises a sliding block (121), the sliding block (121) is movably connected inside a sliding groove of the support column (11), a screw (120) is movably communicated inside the sliding block (121), one end of the screw (120) penetrates out of the sliding block (121) and is fixedly connected with a motor output shaft, the sliding block (121) penetrates out of the end of the support column (11) and is movably connected with a rotating assembly (13), and the movable assembly (12) is used for driving the rotating assembly (13) to move left and right.

3. The hollow built-in blind with dust removing function according to claim 1, wherein: the rotating assembly (13) comprises a supporting block (130), the supporting block (130) is movably connected to the end portion of the sliding block (121) penetrating out of the supporting column (11), the outer wall of the supporting block (130) is fixedly connected with a fixing assembly (14), the fixing assembly (14) is movably connected to the inside of the sliding block (121), a rotating rod (131) is movably communicated to the inside of the supporting block (130), a motor output shaft is fixedly connected to the top of the rotating rod (131), a splicing assembly (15) is movably communicated to the inside of the rotating rod (131), and the rotating assembly (13) is used for driving the splicing assembly (15) to rotate.

4. A hollow built-in blind with dust removal function as set forth in claim 3, wherein: the fixing assembly (14) comprises a protruding block (140), the protruding block (140) is fixedly connected to the outer wall of the supporting block (130), two protruding rods (141) are movably connected to the inside of the protruding block (140), an elastic piece (142) is fixedly connected between the two protruding rods (141), the protruding rods (141) penetrate through the protruding block (140) to be movably connected to the inside of the sliding block (121), and the fixing assembly (14) is used for driving the rotating assembly (13) to be installed and detached on the sliding block (121).

5. A hollow built-in blind with dust removal function as set forth in claim 3, wherein: the splicing assembly (15) comprises a supporting rod (150), a bolt (151) is fixedly connected to the outer wall of the supporting rod (150), the bolt (151) is movably communicated with the supporting rod (150) inside a rotating rod (131), the supporting rod (150) penetrates out of the bottom of the rotating rod (131) and is fixedly connected with a cleaning brush (16), the bottom of the cleaning brush (16) is movably communicated with the supporting rod (150) at the top of another cleaning brush (16) and the bolt (151), and the splicing assembly (15) is used for connecting a plurality of cleaning brushes (16).