CN115428676B

CN115428676B - Self-cleaning glass ceiling

Info

Publication number: CN115428676B
Application number: CN202211029387.4A
Authority: CN
Inventors: 彭二宝; 赵冉; 邰鑫; 王宏颖
Original assignee: Henan Polytechnic Institute
Current assignee: Henan Polytechnic Institute
Priority date: 2022-08-25
Filing date: 2022-08-25
Publication date: 2023-08-25
Anticipated expiration: 2042-08-25
Also published as: CN115428676A

Abstract

The invention particularly relates to a self-cleaning glass ceiling which comprises a glass ceiling component, wherein a plurality of glass ceiling components are combined and spliced to form a glass ceiling whole, the glass ceiling component is connected to a sliding rail in a sliding way, a cleaning component is arranged on the glass ceiling component, and the glass ceiling component cleans the glass surface on the glass ceiling component through the sliding triggering of the cleaning component. The device can avoid the risk of operation caused by climbing of personnel, and can automatically clean the glass ceiling through opening the ceiling, thereby being convenient and quick.

Description

Self-cleaning glass ceiling

Technical Field

The invention belongs to the field of glass ceiling cleaning, and particularly relates to a self-cleaning glass ceiling.

Background

At present, a plurality of glass sheds are used for cultivating vegetables, fruits and the like, the glass sheds provide sufficient illumination for the vegetables and the fruits, and the vegetables and the fruits can be prevented from being affected by external wind sand and rainwater, so that the yield of the vegetables and the fruits can be well improved, and the glass sheds are also suitable for various areas; however, due to the long-term use of the glass shed, when dust or dirt appears on the glass shed, the glass shed needs to be cleaned, so that the glass shed can provide enough illumination, but due to the design of the glass shed, the shed is usually higher, the glass shed is inconvenient to clean frequently, and the design of the glass shed also has a large risk for personnel to carry out high-place operation.

Disclosure of Invention

In order to solve the cleaning problem of the glass ceiling, the invention provides the self-cleaning glass ceiling, which can be automatically opened by motor drive and automatically cleaned by a cleaning component in the opening process, dirt, dust and the like on the outer surface of the glass ceiling can be cleaned, and the device can avoid the risk of operation caused by climbing up of personnel, and can automatically clean by opening the ceiling, thereby being convenient and quick.

In order to achieve the aim of the invention, the invention adopts the following technical scheme: the utility model provides a self-cleaning glass ceiling, includes glass ceiling subassembly, several glass ceiling subassembly combination concatenation constitutes the glass ceiling whole, glass ceiling subassembly sliding connection is on the slide rail, set up cleaning assembly on the glass ceiling subassembly, glass ceiling subassembly is through sliding triggering cleaning assembly to the glass surface on the glass ceiling subassembly.

Preferably, the glass ceiling component comprises a power layer, a sliding layer and a fixing layer, wherein the power layer, the sliding layer and the fixing layer are distributed in a pyramid shape from bottom to top, the power layer provides sliding power to drive the sliding layer to slide, and the sliding layer slides relative to the fixing layer.

Preferably, the power layer and the sliding layer respectively comprise two symmetrically arranged glass bodies, the glass bodies comprise glass and glass frames, the glass frames are wrapped around the glass, the fixed layer is formed by one glass body, and the two glass bodies of the power layer and the sliding layer are symmetrically arranged by taking the fixed layer as a center; the power layer and the sliding layer and the fixed layer are spliced by edge contact.

Preferably, the glass frame is provided with a roller, the roller is connected with the glass frame through a connecting rod, and the roller is in sliding fit with the sliding rail; the rack is arranged on the connecting rod of the power layer glass body and meshed with the gear, the racks on the two glass bodies of the power layer are arranged in opposite directions, and the gear drives the two glass bodies to move in opposite directions after rotating.

Preferably, the power layer and the glass body on the sliding layer are equal in size; the section width of the glass body on the fixed layer along the direction of the sliding rail is twice that of the glass body on the sliding layer; each glass body on the sliding layer is provided with two limiting blocks on one side surface close to the power layer, the two limiting blocks are respectively located at two ends in the sliding direction, and the glass body on the power layer slides between the two limiting blocks.

Preferably, the cleaning assembly includes a first cleaning member for cleaning the power layer and the sliding layer, and a second cleaning member for cleaning the stationary layer.

Preferably, the first cleaning piece is respectively arranged at the bottom edges of the sliding layer and the fixed layer, and comprises a silica gel brush plate and a brush, and the silica gel brush plate and the brush are arranged side by side; the silica gel brush plate and the brush of the first cleaning piece are fixed on the sliding layer and are attached to the glass surface of the power layer; the edge of the power layer, which is far away from the first cleaning piece, is fixedly connected with a drainage groove, and the upper surface of the drainage groove is lower than the upper surface of the glass on the power layer.

Preferably, the second cleaning piece comprises a brush head, the brush head is attached to the glass surface on the fixed layer, the two brush heads are attached to the center of the glass, and each brush head is connected with the glass frame of the glass body on the sliding layer through a linkage rod; when the two glass bodies on the sliding layer are relatively close, the two brush heads are relatively far away.

Preferably, a glass frame of each glass body is provided with a water spraying hole, the water spraying hole is arranged on one side close to the sliding rail, the water spraying direction of the water spraying hole faces to the glass, and the linkage rod is arranged on the opposite side face of the water spraying hole; the water spraying hole is communicated with a water spraying mechanism on the sliding rail.

Preferably, the water spraying mechanism comprises a water spraying ball, wherein the water spraying ball is arranged in a water spraying channel on the sliding rail, and the water spraying ball is arranged on the sliding rail. The water spraying ball is communicated with the inner wall of the water spraying channel through a spring; the part of the sphere of the water spraying ball protrudes out of the surface of the sliding rail, and the part of the water spraying ball protruding out of the surface of the sliding rail is matched with the water spraying hole; the spray ball is provided with a spray hole which is communicated with the spray hole.

The invention has the following beneficial effects:

1) The glass ceiling can be automatically opened, the outer glass surface of the glass ceiling is cleaned through the cleaning assembly in the automatic opening process, the cleaning of the glass surface can be completed in the opening process of the glass body, the risk of climbing of personnel is avoided, and meanwhile, the glass ceiling can be opened for ventilation;

2) The cleaning component consists of the silica gel brush plate and the brush, the silica gel brush plate is tightly attached to the surface of the glass below when the cleaning component is not in operation, so that sealing is formed, and rainwater can be prevented from entering the glass shed from gaps between glass bodies when the cleaning component is raining; when the silica gel brush plate works, water stains on the surface of the glass can be brushed off; the hairbrush positioned at the back of the silica gel brush plate can erase the water stains which are not cleaned up, and the cleaning is carried out for the second time;

3) The glass ceiling has a pyramid structure, when the motor works, the glass bodies at two sides can act simultaneously, and cleaning is completed when the motor acts, so that the cleaning efficiency is high; and because the glass ceiling is of a pyramid structure, when the glass body at the lower side moves, the glass body at the upper side can be driven layer by layer to act, and cleaning is completed, so that the driving mechanism can be only provided with one group, and the layer by layer driving of the glass ceiling can be completed.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of the structure of a power layer;

FIG. 3 is a schematic view of a nozzle structure;

FIG. 4 is a schematic view of the structure of the linkage rod and brush head;

FIG. 5 is a schematic view of the structure of the position of the water jet hole;

fig. 6 is a schematic structural view of the glass body.

In the figure: 1-glass; 2-glass frame; 3-rolling wheels; 4-sliding rails; 5-water spraying holes; 6-a dynamic layer; 7-a sliding layer; 8-a fixed layer; 9-limiting blocks; 10-a drainage tank; 11-a silica gel brush plate; 12-hairbrush; 13-a rack; 14-gear; 15-brushing head; 16-linkage rod; 17-a water spray channel; 18-spraying water balls; 19-a spring; 20-spraying holes; 21-a chute; 22-connecting rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. The technical means used in the examples are conventional means well known to those skilled in the art unless otherwise indicated.

In the description of the present invention, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present invention, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

As shown in fig. 1-6, a self-cleaning glass ceiling comprises a glass ceiling component, a plurality of glass ceiling components are combined and spliced to form a glass ceiling whole, a single glass ceiling component is used for a small-sized glass shed, and a plurality of glass ceiling components can be adopted for splicing to form a glass ceiling whole for a medium-sized or large-sized glass shed.

The glass ceiling component is slidably connected to the sliding rail 4, and the sliding rail 4 can be arranged on the wall side of the glass shed, so that the glass ceiling and the wall of the glass shed are guaranteed to form the whole glass shed in a unified way. The cleaning assembly is arranged on the glass ceiling assembly and is used for cleaning the outer surface of the glass ceiling, and the glass ceiling assembly is used for cleaning the glass surface on the glass ceiling assembly by sliding the triggering cleaning assembly, namely, when the glass ceiling assembly slides along the sliding rail 4, the cleaning assembly can be triggered to clean the outer surface of the glass ceiling, so that the glass ceiling can be kept in a cleaner state. When the glass shed is opened, the glass shed can be opened for ventilation, and for small-sized glass shed, the glass shed component can be manually opened, namely an operator holds a longer pull rod to pull the glass shed component, so that the cleaning effect is achieved, and for larger glass shed, the electric opening mode can be adopted.

The glass ceiling component comprises a power layer 6, a sliding layer 7 and a fixed layer 8, wherein the power layer 6, the sliding layer 7 and the fixed layer 8 are distributed in a pyramid shape from bottom to top, the power layer 6 provides sliding power to drive the sliding layer 7 to slide, and the sliding layer 7 slides relative to the fixed layer 8. As shown in fig. 1, the glass ceiling component is arranged in three layers from bottom to top, the lowest layer is a power layer 6, the power layer 6 is opened in an electric mode, a sliding layer 7 is in contact with the power layer 6, the power layer 6 pushes the sliding layer 7 to slide in the sliding process, a fixed layer 8 is in contact with the sliding layer 7, and the fixed layer 8 is fixed. The three layers are combined and spliced to form the finished glass ceiling component, namely, the glass bodies on the three layers are connected end to end.

The power layer 6 and the sliding layer 7 respectively comprise two symmetrically arranged glass bodies, the glass bodies comprise glass 1 and glass frames 2, the glass frames 2 are wrapped around the glass 1, the fixed layer 8 is formed by one glass body, and the two glass bodies of the power layer 6 and the sliding layer 7 are symmetrically arranged by taking the fixed layer 8 as a center; the power layer 6 and the sliding layer 7 and the fixed layer 8 are spliced by edge contact. When the glass body on the power layer 6 starts to slide, the glass body on the sliding layer 7 is kept still, and when the glass body on the power layer 6 slides from the head to the tail end, a limiting block of the glass body on the sliding layer 7 can be pushed, and at the moment, the glass body on the sliding layer 7 can be driven to move.

The glass frame 2 is provided with a roller 3, the roller 3 is connected with the glass frame 2 through a connecting rod 22, the roller 3 rotates relative to the connecting rod 22, and the roller 3 is in sliding fit with the sliding rail 4; the rack 13 is arranged on the connecting rod 22 of the glass bodies of the power layer 6, the connecting rod 22 is fixedly connected with the rack 13, the rack 13 is meshed with the gear 14, the racks 13 on the two glass bodies of the power layer 6 are arranged in opposite directions, and the gear 14 drives the two glass bodies to move in opposite directions after rotating. As shown in fig. 2, in the moving manner of the power layer 6, the motor may be disposed on one side of the sliding rail and protrudes out of the sliding rail, when the motor rotates, the gear 14 may be driven to rotate, so that the two racks 13 move in opposite directions, and the two racks 13 are respectively located on the upper and lower sides of the gear 14, that is, the two glass bodies on the power layer 6 may be driven to move in opposite directions and together move toward the direction of the fixed layer 8.

The power layer 6 and the sliding layer 7 are equal in size, and the glass 1 on the glass body can be comprehensively cleaned due to the fact that the cleaning component is in contact with the outer surface of the glass 1; the section width of the glass body on the fixed layer 8 along the direction of the sliding rail 4 is twice that of the glass body on the sliding layer 7; each glass body on the sliding layer 7 is provided with two limiting blocks 9 (only one is shown in fig. 1) on one side surface close to the power layer 6, the limiting blocks 9 are respectively located at two ends in the sliding direction, the glass body on the power layer 6 slides between the two limiting blocks 9, and the setting of the limiting blocks can enable the power layer 6 to push or pull the sliding layer 7 to move after moving to the position of the limiting blocks 9.

The cleaning assembly comprises a first cleaning member for cleaning the power layer 6 and the slip layer 7 and a second cleaning member for cleaning the fixed layer 8. The first cleaning member and the second cleaning member are in contact with the outer surface of the glass 1 to clean the glass 1.

As shown in fig. 1, the first cleaning members are respectively arranged at the bottom edges of the sliding layer 7 and the fixed layer 8, the first cleaning members comprise a silica gel brush plate 11 and a brush 12, and the silica gel brush plate 11 and the brush 12 are arranged side by side; the silica gel brush plate 11 and the brush 12 of the first cleaning piece fixed on the sliding layer 7 are attached to the surface of the glass 1 on the power layer 6, and the silica gel brush plate 11 and the brush 12 of the first cleaning piece fixed on the fixed layer 8 are attached to the surface of the glass 1 on the sliding layer 7; the edge of the power layer 6 far away from the first cleaning piece is fixedly connected with a water drainage groove 10, the water drainage groove 10 also moves along with the movement of the power layer 6, and the upper surface of the water drainage groove 10 is lower than the upper surface of the glass 1 on the power layer 6. Because silica gel brush board 11 is closely laminating state with glass 1, can play certain sealed effect, when outside rainwash, the rainwater can not enter into the inside of glass canopy from the gap, in order to guarantee the flow of rainwater, also can make the surface of glass 1 into the surface that has certain inclination for the rainwater can flow to water drainage tank 10 through the inclined plane, and water drainage tank 10's one end passes through hose connection, makes rainwater or sewage outflow. The brush 12 can perform a further wiping action, and when liquid remains on the surface of the glass 1, a further wiping action can be performed.

The second cleaning piece comprises brush heads 15, wherein the brush heads 15 are attached to the surface of the glass 1 on the fixed layer 8, the two brush heads 15 are attached to the center of the glass 1, and each brush head 15 is connected with the glass frame 2 of the glass body on the sliding layer 7 through a linkage rod 16; when the two glass bodies on the sliding layer 7 are relatively close, the two brush heads 15 are relatively far away. As shown in fig. 4, when the sliding layer 7 slides, the brush head 15 can be driven by the linkage rod 16 to move towards two ends of the fixed layer 8, so as to clean the fixed layer 8.

For cleaning the glass 1, cleaning can be performed after each rain, or cleaning can be performed by installing water spraying holes 5 in a water spraying mode in a region with less rain, the water spraying holes 5 are arranged on the glass frame 2 of each glass body, the water quantity sprayed by the water spraying holes 5 can be adjusted, water columns or water mist can be sprayed, the water spraying holes 5 are arranged on one side close to the sliding rail 4 according to the use requirement, the water spraying direction of the water spraying holes 5 faces the glass 1, and the linkage rods 16 are arranged on the opposite side faces of the water spraying holes 5; the water spraying hole 5 is communicated with a water spraying mechanism on the sliding rail 4, and the water spraying mechanism can be directly connected with a water pump, so that water spraying is ensured.

As shown in fig. 3, the water spraying mechanism comprises a water spraying ball 18, wherein the water spraying ball 18 is arranged in a water spraying channel 17 on the sliding rail 4, and the water spraying ball 18 is communicated with the inner wall of the water spraying channel 17 through a spring 19; the part of the sphere of the water spraying ball 18 protrudes out of the surface of the sliding rail 4, and a sealing gasket is arranged at the contact position of the water spraying ball 18 and the inner surface of the water spraying channel 17, so that when the water spraying ball 18 is positioned as shown in fig. 5, in a sealing state, water entering the water spraying channel 17 cannot flow out from a gap between the water spraying ball 18 and the water spraying channel 17; the part of the water spray ball 18 protruding out of the surface of the sliding rail 4 is matched with the water spray hole 5, namely, a part of the protruding sphere of the water spray ball 18 is positioned in the water spray hole 5; the spray ball 18 is provided with a spray hole 20, and the spray hole 20 is communicated with the spray hole 5. Since the water spray ball 18 is connected by the spring 19, the water spray ball 18 can be pushed to move in the water spray channel 17 in the moving process of the glass body, and the moving of the glass body is not affected.

The specific working mode is as follows: when the dust deposit on the outer surface of the glass 1 is more, the lighting of the glass ceiling can be affected, if rain wash exists at this moment, the motor can be directly started to work to drive the gear 14 to rotate, so that the glass body on the power layer 6 moves, when the power layer 6 moves, the first cleaning piece on the sliding layer can scrub the outer surface of the glass 1 on the power layer 6, and sewage is pushed into the drainage tank 10 to be drained; after the glass body on the power layer 6 moves to the position of the limiting block 9, the sliding layer 7 can be pushed to move, at the moment, the first cleaning room on the fixed layer 8 cleans the outer surface of the glass 1 on the sliding layer 7, and meanwhile, the linkage rod 16 can be driven to move in the moving process of the sliding layer 7, so that the second cleaning piece cleans the outer surface of the fixed layer 8.

If no rain wash is needed, the water pump can be started when the glass ceiling is required to be cleaned, so that the water spraying holes 5 spray water, the outer surface of the glass 1 is kept in a wet state, and the motor is started to work at the moment.

The above embodiments are only illustrative of the preferred embodiments of the present invention and are not intended to limit the scope of the present invention, and various modifications, variations, alterations, substitutions made by those skilled in the art to the technical solution of the present invention should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the design of the present invention.

Claims

1. The utility model provides a self-cleaning glass ceiling which characterized in that: the glass ceiling assembly is combined and spliced to form a glass ceiling whole, the glass ceiling assembly is connected to a sliding rail (4) in a sliding manner, a cleaning assembly is arranged on the glass ceiling assembly, and the glass ceiling assembly cleans the glass surface on the glass ceiling assembly through the sliding triggering cleaning assembly;

the glass ceiling component comprises a power layer (6), a sliding layer (7) and a fixed layer (8), wherein the power layer (6), the sliding layer (7) and the fixed layer (8) are distributed in a pyramid shape from bottom to top, the power layer (6) provides sliding power to drive the sliding layer (7) to slide, and the sliding layer (7) slides relative to the fixed layer (8);

the power layer (6) and the sliding layer (7) respectively comprise two symmetrically arranged glass bodies, the glass bodies comprise glass (1) and glass frames (2), the glass frames (2) are wrapped around the glass (1), the fixed layer (8) is formed by one glass body, and the two glass bodies of the power layer (6) and the sliding layer (7) are symmetrically arranged by taking the fixed layer (8) as a center; the power layer (6) and the sliding layer (7) and the fixed layer (8) are connected and spliced through edge parts;

the glass frame (2) is provided with a roller (3), the roller (3) is connected with the glass frame (2) through a connecting rod (22), and the roller (3) is in sliding fit with the sliding rail (4); a rack (13) is arranged on a connecting rod (22) of the glass bodies of the power layer (6), the rack (13) is meshed with a gear (14), the racks (13) on the two glass bodies of the power layer (6) are arranged in opposite directions, and the gear (14) drives the two glass bodies to move in opposite directions after rotating;

the power layer (6) and the sliding layer (7) are equal in size to the glass body; the section width of the glass body on the fixed layer (8) along the direction of the sliding rail (4) is twice the section width of the glass body on the sliding layer (7); each glass body on the sliding layer (7) is provided with two limiting blocks (9) on one side surface close to the power layer (6), the two limiting blocks (9) are respectively positioned at two ends in the sliding direction, and the glass body on the power layer (6) slides between the two limiting blocks (9);

the cleaning assembly comprises a first cleaning member and a second cleaning member, wherein the first cleaning member is used for cleaning the power layer (6) and the sliding layer (7), and the second cleaning member is used for cleaning the fixed layer (8);

the first cleaning piece is arranged at the bottom edges of the sliding layer (7) and the fixed layer (8) respectively, and comprises a silica gel brush plate (11) and a brush (12), and the silica gel brush plate (11) and the brush (12) are arranged side by side; the silica gel brush plate (11) and the brush (12) of the first cleaning piece are fixed on the sliding layer (7) and are adhered to the surface of the glass (1) on the power layer (6), and the silica gel brush plate (11) and the brush (12) of the first cleaning piece are fixed on the fixed layer (8) and are adhered to the surface of the glass (1) on the sliding layer (7); the edge of the power layer (6) far away from the first cleaning piece is fixedly connected with a drainage groove (10), and the upper surface of the drainage groove (10) is lower than the upper surface of the glass (1) on the power layer (6);

the second cleaning piece comprises brush heads (15), the brush heads (15) are attached to the surface of the glass (1) on the fixed layer (8), the two brush heads (15) are attached to the center of the glass (1), and each brush head (15) is connected with the glass frame (2) of the glass body on the sliding layer (7) through a linkage rod (16); when the two glass bodies on the sliding layer (7) are relatively close, the two brush heads (15) are relatively far away.

2. The self-cleaning glass ceiling of claim 1, wherein: a water spraying hole (5) is formed in the glass frame (2) of each glass body, the water spraying hole (5) is formed in one side close to the sliding rail (4), the water spraying direction of the water spraying hole (5) faces the glass (1), and the linkage rod (16) is arranged on the opposite side face of the water spraying hole (5); the water spraying hole (5) is communicated with a water spraying mechanism on the sliding rail (4).

3. The self-cleaning glass ceiling of claim 2, wherein: the water spraying mechanism comprises a water spraying ball (18), the water spraying ball (18) is arranged in a water spraying channel (17) on the sliding rail (4), and the water spraying ball (18) is communicated with the inner wall of the water spraying channel (17) through a spring (19); the part of the sphere of the water spraying ball (18) protrudes out of the surface of the sliding rail (4), and the part of the water spraying ball (18) protruding out of the surface of the sliding rail (4) is matched with the water spraying hole (5); the water spray ball (18) is provided with a spray hole (20), and the spray hole (20) is communicated with the water spray hole (5).