CN205005143U - Glass device is wiped in complete intelligent numerical control - Google Patents

Glass device is wiped in complete intelligent numerical control Download PDF

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Publication number
CN205005143U
CN205005143U CN201520759004.8U CN201520759004U CN205005143U CN 205005143 U CN205005143 U CN 205005143U CN 201520759004 U CN201520759004 U CN 201520759004U CN 205005143 U CN205005143 U CN 205005143U
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CN
China
Prior art keywords
glass
motor
module
processing module
contact
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Expired - Fee Related
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CN201520759004.8U
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Chinese (zh)
Inventor
楊卫东
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Individual
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Individual
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Priority to CN201520759004.8U priority Critical patent/CN205005143U/en
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Publication of CN205005143U publication Critical patent/CN205005143U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model relates to a glass device is wiped in complete intelligent numerical control, it includes the window scanner, cleans the ware, clean the ware by the protective housing with install the big contact in the protective housing, little contact, carry out link mechanism, the forming of either -rotation motor, control chip, the window scanner comprises camera module, display screen, processing module, control module, camera module is used for acquireing the glass size data on the window to give processing module this size data transmission, processing module becomes received size data conversion glass's actual size to on showing the display screen to this actual size, simultaneously this data transmission to control chip, control module is used for control big contact, little contact, execution link mechanism, either -rotation motor's action. The utility model discloses a form of big or small contact combination, use little contact can make the glass turning clean, the convenience saves trouble very much.

Description

Full intelligent numerical control glass cleaning device
Technical field
The utility model belongs to glass cleaning equipment, is specifically related to a kind of full intelligent numerical control glass cleaning device.
Background technology
Along with rapid development of economy, the living standard of people generally improves, so people are also developed to intellectuality, automation and convenient purification the requirement of daily life equipment.What require living environment along with people improves constantly, and people want the glass of family clean and clean and tidy, and this just needs to change tradition and to clean the windows mode, and people cleaned the windows in the past wastes time and energy.Afterwards, market has some automatic and automanual machine and full automatic glass-cleaning robots of cleaning the windows, but these equipment are all because structure is too complicated or design unreasonable, problem is continuous, has had a strong impact on the mood that people clean the windows.
Summary of the invention
The purpose of this utility model is to provide a kind of full intelligent numerical control glass cleaning device.This apparatus structure is simple, makes whole automation that cleans the windows, simple to operate, makes to clean the windows more free and relaxed.
The technical solution adopted in the utility model: a kind of full intelligent numerical control glass cleaning device; it comprises window scanner, scrubber; described scrubber is by containment vessel and be arranged on big contact in containment vessel, small contact, execution linkage, either-rotation motor, the forming of control chip, wherein:
Described window scanner is made up of photographing module, display screen, processing module, control module; Described photographing module for obtaining the glass size data on window, and is transferred to processing module this sized data; Described processing module converts the sized data received the actual size of glass to, and this actual size is shown on display screen, simultaneously this transfer of data to control chip; Described control module is for controlling the action of described big contact, small contact, execution linkage, either-rotation motor; Described display screen is for showing big contact and the particular location coordinate of small contact on glass in real time; Wherein, photographing module is connected with processing module, and processing module is connected with display screen, control chip and control module respectively, control module and control chip;
Described big contact comprises the first housing and is arranged on the first mounting disc in the first housing, the first cleaning brush, the first motor, the first rotating shaft and the first sucking disc mechanism, wherein, first cleaning brush is arranged in the first mounting disc, and the first motor is connected by the first rotating shaft with the first mounting disc; Described first sucking disc mechanism is made up of the first sucker, the first tube connector and the first vacuum pump, and the first vacuum pump is connected by the first tube connector with the first sucker;
Described small contact comprises the second housing and is arranged on the second mounting disc in the second housing, the second cleaning brush, the second motor, the second rotating shaft and the second sucking disc mechanism, wherein, second cleaning brush is arranged in the second mounting disc, and the second motor is connected by the second rotating shaft with the second mounting disc; Described second sucking disc mechanism is made up of the second sucker, the second tube connector and the second vacuum pump, and the second vacuum pump is connected by the second tube connector with the second sucker;
Described execution linkage is made up of long connecting rod, short connecting rod, fixed lever, gear wheel, pinion and power transmission shaft, wherein, gear wheel is connected on the first housing by short connecting rod is rotating, pinion by the rotating connection of long connecting rod on the second housing, long connecting rod and short connecting rod link together by fixed lever is rotating, gear wheel engages with pinion, and gear wheel is connected with either-rotation motor by power transmission shaft;
Wherein, the first motor, the second motor, the first vacuum pump, the second vacuum pump are connected with control chip respectively with either-rotation motor.
The utility model compared with prior art its beneficial effect is: the utility model can carry out wiped clean to window-glass automatically, alleviates manpower, solves the problem of glass higher position inconvenience wiping simultaneously; The utility model have employed the form of size contact combinations, uses small contact that glass turning can be made clean clean, saves trouble very much conveniently; The utility model is rational in infrastructure, easy to operate, has good market prospects; Meanwhile, what the utility model solved that artificial high-altitude cleaning glass exists has high input, dangerous high, difficulty problem.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the side structure cutaway view of window scanner.
Embodiment
As shown in Figure 1; a kind of full intelligent numerical control glass cleaning device; it comprises window scanner 1, scrubber 2, and described scrubber 2 is by containment vessel 3 and be arranged on big contact in containment vessel 3, small contact, execution linkage, either-rotation motor 4, the forming of control chip 5, wherein:
As Fig. 2, window scanner 1 is made up of photographing module 6, display screen 7, processing module 8, control module 9; Described photographing module 6 for obtaining the glass size data on window, and is transferred to processing module 8 this sized data; The sized data received is converted to the actual size of glass by described processing module 8, and this actual size is shown on display screen 7, simultaneously this transfer of data to control chip 5; Described control module 9 is for controlling the action of described big contact, small contact, execution linkage, either-rotation motor 4; Described display screen 7 is for showing big contact and the particular location coordinate of small contact on glass in real time; Wherein, photographing module 6 is connected with processing module 8, and processing module 8 is connected with display screen 7, control chip 5 and control module 9 respectively, control module 9 and control chip 5;
Described big contact comprises the first housing 10 and is arranged on the first mounting disc 11, first cleaning brush 12, first motor 13, first rotating shaft 14 and the first sucker 15 mechanism in the first housing 10, wherein, first cleaning brush 12 is arranged in the first mounting disc 11, and the first motor 13 is connected by the first rotating shaft 14 with the first mounting disc 11; Described first sucker 15 mechanism is made up of the first sucker 15, first tube connector 16 and the first vacuum pump 17, and the first vacuum pump 17 is connected by the first tube connector 16 with the first sucker 15;
Described small contact comprises the second housing 18 and is arranged on the second mounting disc 19, second cleaning brush 20, second motor 21, second rotating shaft 22 and the second sucker 23 mechanism in the second housing 18, wherein, second cleaning brush 20 is arranged in the second mounting disc 19, and the second motor 21 is connected by the second rotating shaft 22 with the second mounting disc 19; Described second sucker 23 mechanism is made up of the second sucker 23, second tube connector 24 and the second vacuum pump 25, and the second vacuum pump 25 is connected by the second tube connector 24 with the second sucker 23;
Described execution linkage is made up of long connecting rod, short connecting rod, fixed lever, gear wheel, pinion and power transmission shaft, wherein, gear wheel is connected on the first housing 10 by short connecting rod is rotating, pinion is connected on the second housing 18 by long connecting rod is rotating, long connecting rod and short connecting rod link together by fixed lever is rotating, gear wheel engages with pinion, and gear wheel is connected with either-rotation motor 4 by power transmission shaft;
Wherein, the first motor 13, second motor 21, first vacuum pump 17, second vacuum pump 25 is connected with control chip 5 respectively with either-rotation motor 4.
The method of operation of the utility model device: before cleaning the windows, first aim at glass with window scanner and take a photo, after the processing module process of window scanner, taken pictures by the glass photo that obtains of processing module converts the actual size of glass to, and be shown on display screen, now, by the control module on action pane scanner, by big contact or small contact, one of them is adsorbed on glass, carries out the cleaning of glass.When action pane scanner, control module on it has the operation push-button of control first sucking disc mechanism and the second sucking disc mechanism adhesive and disconnection, also have the button of control first motor and the second motor positive and inverse, be also provided with control either-rotation motor and turn to and turn round the button of angle.
Operation principle: this device is adsorbed onto after on glass, clean a place, the local time in of the clean next one, by action pane scanner, make the adsorbing mechanism adhesive on big contact, adsorbing mechanism on small contact disconnects, then by operation, the rotation of either-rotation motor being made, the large gear turn the small gear rotates, and then drive small contact to rotate, and then on small contact is displaced to glass that next block needs cleaning.When small contact adhesive, when big contact disconnects, reason is identical.

Claims (1)

1. full intelligent numerical control glass cleaning device, it comprises window scanner, scrubber, and described scrubber is by containment vessel and be arranged on big contact in containment vessel, small contact, execution linkage, either-rotation motor, the forming of control chip, and it is characterized in that,
Described window scanner is made up of photographing module, display screen, processing module, control module; Described photographing module for obtaining the glass size data on window, and is transferred to processing module this sized data; Described processing module converts the sized data received the actual size of glass to, and this actual size is shown on display screen, simultaneously this transfer of data to control chip; Described control module is for controlling the action of described big contact, small contact, execution linkage, either-rotation motor; Described display screen is for showing big contact and the particular location coordinate of small contact on glass in real time; Wherein, photographing module is connected with processing module, and processing module is connected with display screen, control chip and control module respectively, control module and control chip;
Described big contact comprises the first housing and is arranged on the first mounting disc in the first housing, the first cleaning brush, the first motor, the first rotating shaft and the first sucking disc mechanism, wherein, first cleaning brush is arranged in the first mounting disc, and the first motor is connected by the first rotating shaft with the first mounting disc; Described first sucking disc mechanism is made up of the first sucker, the first tube connector and the first vacuum pump, and the first vacuum pump is connected by the first tube connector with the first sucker;
Described small contact comprises the second housing and is arranged on the second mounting disc in the second housing, the second cleaning brush, the second motor, the second rotating shaft and the second sucking disc mechanism, wherein, second cleaning brush is arranged in the second mounting disc, and the second motor is connected by the second rotating shaft with the second mounting disc; Described second sucking disc mechanism is made up of the second sucker, the second tube connector and the second vacuum pump, and the second vacuum pump is connected by the second tube connector with the second sucker;
Described execution linkage is made up of long connecting rod, short connecting rod, fixed lever, gear wheel, pinion and power transmission shaft, wherein, gear wheel is connected on the first housing by short connecting rod is rotating, pinion by the rotating connection of long connecting rod on the second housing, long connecting rod and short connecting rod link together by fixed lever is rotating, gear wheel engages with pinion, and gear wheel is connected with either-rotation motor by power transmission shaft;
Wherein, the first motor, the second motor, the first vacuum pump, the second vacuum pump are connected with control chip respectively with either-rotation motor.
CN201520759004.8U 2015-09-29 2015-09-29 Glass device is wiped in complete intelligent numerical control Expired - Fee Related CN205005143U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520759004.8U CN205005143U (en) 2015-09-29 2015-09-29 Glass device is wiped in complete intelligent numerical control

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520759004.8U CN205005143U (en) 2015-09-29 2015-09-29 Glass device is wiped in complete intelligent numerical control

Publications (1)

Publication Number Publication Date
CN205005143U true CN205005143U (en) 2016-01-27

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201520759004.8U Expired - Fee Related CN205005143U (en) 2015-09-29 2015-09-29 Glass device is wiped in complete intelligent numerical control

Country Status (1)

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CN (1) CN205005143U (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105120140A (en) * 2015-09-29 2015-12-02 楊卫东 Full-intelligent numerical control window cleaning device
CN105877627A (en) * 2016-04-11 2016-08-24 安徽康成工业产品设计有限公司 Fulcrum spacing regulation control device for horizontal rail window cleaning machine

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105120140A (en) * 2015-09-29 2015-12-02 楊卫东 Full-intelligent numerical control window cleaning device
CN105877627A (en) * 2016-04-11 2016-08-24 安徽康成工业产品设计有限公司 Fulcrum spacing regulation control device for horizontal rail window cleaning machine

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C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20160127

Termination date: 20170929

CF01 Termination of patent right due to non-payment of annual fee