WO2022061856A1 - 一种搭载有物联网控制的智能家居 - Google Patents
一种搭载有物联网控制的智能家居 Download PDFInfo
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- WO2022061856A1 WO2022061856A1 PCT/CN2020/118291 CN2020118291W WO2022061856A1 WO 2022061856 A1 WO2022061856 A1 WO 2022061856A1 CN 2020118291 W CN2020118291 W CN 2020118291W WO 2022061856 A1 WO2022061856 A1 WO 2022061856A1
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- fixedly connected
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- smart home
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- 238000001514 detection method Methods 0.000 claims abstract description 50
- 239000000428 dust Substances 0.000 claims abstract description 31
- 238000001816 cooling Methods 0.000 claims description 38
- 238000009795 derivation Methods 0.000 claims description 25
- 238000002309 gasification Methods 0.000 claims description 24
- 230000008016 vaporization Effects 0.000 claims description 23
- 238000006073 displacement reaction Methods 0.000 claims description 22
- 238000009834 vaporization Methods 0.000 claims description 19
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 17
- 239000004065 semiconductor Substances 0.000 claims description 15
- 239000007788 liquid Substances 0.000 claims description 13
- 238000005057 refrigeration Methods 0.000 claims description 12
- 238000005485 electric heating Methods 0.000 claims description 11
- 238000012545 processing Methods 0.000 claims description 11
- 238000000605 extraction Methods 0.000 claims description 10
- 230000005540 biological transmission Effects 0.000 claims description 9
- 238000003860 storage Methods 0.000 claims description 8
- 238000009826 distribution Methods 0.000 claims description 7
- 239000000463 material Substances 0.000 claims description 2
- 238000003466 welding Methods 0.000 claims description 2
- 229920001296 polysiloxane Polymers 0.000 claims 1
- 238000007667 floating Methods 0.000 abstract description 3
- 238000010586 diagram Methods 0.000 description 5
- 238000005516 engineering process Methods 0.000 description 5
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N Silicium dioxide Chemical compound O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 2
- 238000004364 calculation method Methods 0.000 description 2
- 238000013461 design Methods 0.000 description 2
- 238000011161 development Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 239000000741 silica gel Substances 0.000 description 2
- 229910002027 silica gel Inorganic materials 0.000 description 2
- 238000004891 communication Methods 0.000 description 1
- 239000006185 dispersion Substances 0.000 description 1
- 238000001704 evaporation Methods 0.000 description 1
- 230000008676 import Effects 0.000 description 1
- 239000012535 impurity Substances 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 230000005622 photoelectricity Effects 0.000 description 1
- 230000001360 synchronised effect Effects 0.000 description 1
- 238000012546 transfer Methods 0.000 description 1
Classifications
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47B—TABLES; DESKS; OFFICE FURNITURE; CABINETS; DRAWERS; GENERAL DETAILS OF FURNITURE
- A47B61/00—Wardrobes
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D50/00—Combinations of methods or devices for separating particles from gases or vapours
Definitions
- the invention relates to the technical field of Internet of Things furniture, in particular to a smart home equipped with Internet of Things control.
- Smart home is based on the residential platform, using integrated wiring technology, network communication technology, security technology, automatic control technology, audio and video technology to integrate the facilities related to home life. Equipped with Internet of Things control is another trend in the development of the post-intelligence era. In the process of development, smart home cabinets controlled by the Internet of Things appear. However, the existing devices are often inconvenient to automatically export the hung clothes under the control of the Internet of Things. Clothes, and lack of intelligent performance for indoor environment regulation.
- the purpose of the patent of the present invention is to provide a smart home equipped with Internet of Things control, so as to solve the existing problem: the existing devices are often inconvenient to automatically export clothes under the control of the Internet of Things.
- a smart home equipped with Internet of Things control including a smart home cabinet body, one end of the smart home cabinet body is fixed with an Internet of Things control module, and the smart home cabinet body is One end is also fixed with a guide sliding block, the guide sliding block is located on one side of the Internet of Things control module, one end of the guide sliding block is fixed with a first motor by screws, and the output end of the first motor is fixed with a threaded output rod
- the outer side of the threaded output rod is connected with a follow-up displacement guide block through a screw thread
- the follow-up displacement guide block is also slidably connected with a guide sliding block
- one side of the bottom end of the follow-up displacement guide block is connected with a movable closed door through a screw
- the inner side of the main body of the smart home cabinet is fixed with a distribution guide automatic clothes selection structure, and one side of the main body of the smart home cabinet is fixed with an intelligent detection and dust removal structure;
- the intelligent detection and dust removal structure includes a water storage tank, an auxiliary outlet tank, a gasification inlet pipe, an assembly positioning box, a gasification box, an electric heating pipe, an electromagnetic flow valve, a gasification outlet pipe, a cooling outlet box, a semiconductor refrigeration plate, and a contact cooling block.
- export fan residual liquid export pipe and indoor dust detection control structure
- one end of the water storage tank is welded and connected with the auxiliary export tank
- the top of the auxiliary export tank is fixedly connected with the gasification introduction pipe
- the gasification introduction pipe The top of the evaporating box is connected to the vaporizing box, the vaporizing box, the electromagnetic flow valve, the vaporizing lead-out pipe and the cooling lead-out box are all located inside the assembly positioning box, and a plurality of electric heating pipes are fixed inside the vaporizing box.
- the top end is connected with the gasification outlet pipe, the outer side of the gasification outlet pipe is connected with the electromagnetic flow valve through threads, the other end of the gasification outlet pipe is connected with the cooling outlet box, and the inner side of the cooling outlet box is connected with the semiconductor refrigeration plate It is fixedly connected with the contact cooling block, the semiconductor refrigeration plate is located at the bottom end of the contact cooling block, the top of the contact cooling block is fixedly connected with the export fan through screws, and one end of the cooling export box is also connected with the residual liquid export pipe, One end of the assembly positioning box is fixed with an indoor dust detection and control structure.
- the indoor dust detection control structure includes a detection carrying box, an extraction fan, a transparent detection light column, a light-shielding positioning frame, a laser output module, a first lens board, a second lens board, a photoelectric receiving board and a multi-circuit signal processing module , the top and bottom ends of the detection carrying box are fixedly connected to the extraction fan, the two extraction fans are fixedly connected to the transparent detection light column, and one end of the detection carrying box is connected to the laser output module through the shading positioning frame Fixed connection, one end of the laser output module is fixedly connected with the first lens board, the inside of the other end of the detection carrying box is clamped with the second lens board, and the other end of the detection carrying box is also fixedly connected with the photoelectric receiving board , one end of the photoelectric receiving board is fixedly connected with the multi-circuit signal processing module.
- the distribution and guide automatic clothes selection structure includes a support base, an auxiliary carrying frame, a second motor, a driving pulley, a driven pulley, a carrying transmission plate and a self-guided clothes hanger.
- the side is fixedly connected with the auxiliary carrying frame, one side of the auxiliary carrying frame is fixedly connected with the second motor by screws, the output end of the second motor is fixedly connected with the active pulley, and the other side of the auxiliary carrying frame is fixedly connected.
- the top end is rotatably connected with the driven pulley, the driving pulley and the driven pulley are connected by a carrying transmission plate, and the outer side of the carrying transmission plate is fixedly connected with a plurality of self-guided hangers.
- the self-derivation hanger includes a fitting and positioning plate, a guide and mounting block, a fitting and mounting plate, a third motor, an output shaft, a toggle gear, a follow-up derivation rack and a clothes hook.
- the fitting and positioning plate The top of the mounting plate is welded and connected to the mounting and mounting plate, the inner side of the mounting and mounting plate is fixedly connected to the guide mounting block by screws, and one side of the mounting and mounting plate is fixedly connected to the third motor by screws, and the third motor
- the output end of the output shaft is fixedly connected with the output shaft, the outer side of the output shaft is connected with the toggle gear by a flat key, the top of the toggle gear is meshed with the following derivation rack, and the following derivation rack is connected with the guide gear
- the blocks are slidably connected, and one end of the following derivation rack is fixedly connected with the clothes hook.
- a signal amplifying circuit, a microprocessor and a controller are fixed inside the multi-circuit signal processing module, and the signal amplifying circuit, the microprocessor and the controller are all electrically connected, and the signal amplifying circuit It is also electrically connected to the photoelectric receiving board, and the controller is also connected to the micro water pump at the gasification inlet pipe, electric heating pipe, electromagnetic flow valve, semiconductor refrigeration plate, export fan and the micro water pump at the residual liquid outlet pipe. Electrical connection.
- the model of the controller is SC-200 universal controller.
- the top and bottom ends of the following displacement guide blocks are provided with following sliding grooves
- the top and bottom ends of the inner side of the guiding sliding blocks are welded with limit guide strips
- the limit guide strips and the following sliding grooves are Clearance fit.
- a limit guide chute is provided inside the guide carrying block, a displacement slide rail is welded on both sides of the following derivation rack, and the displacement slide rail and the limit guide slot are in clearance fit.
- the bottom end of the contact cooling block and the top end of the semiconductor refrigeration plate are connected by a temperature conducting pad, and the material of the temperature conducting pad is silica gel.
- the present invention makes it easy for the device to complete the selection of inner clothes under the control of the Internet of Things through the coordinated design of the Internet of Things control structure, the self-opening door and the automatic clothing selection structure, so as to automatically export the selected clothes. Greatly improves the overall convenience of the device;
- the present invention makes it easy for the device to complete the detection of indoor air dust under the control of the Internet of Things through the design of the intelligent detection and dust removal structure.
- the indoor air is humidified through the automatic moisture production structure to complete the driving and falling of the dust. Treatment to reduce the amount of dust floating in the air.
- Fig. 1 is the overall structural representation of the present invention
- Fig. 2 is the overall work unfolding schematic diagram of the present invention
- Fig. 3 is the partial structure schematic diagram of the intelligent detection dust removal structure of the present invention.
- Fig. 4 is the partial structure schematic diagram of the indoor dust detection control structure of the present invention.
- Fig. 5 is the partial structure schematic diagram of the distribution guide automatic clothing selection structure of the present invention.
- FIG. 6 is a partial structural schematic diagram of the self-derivation hanger of the present invention.
- Support base 34. Auxiliary carrying frame; 35. Second motor; 36. Active pulley; 37. Driven pulley; Clothes hanger; 40. Fitting and positioning plate; 41. Guided carrying block; 42. Fitting and carrying plate; 43. Third motor; 44. Output shaft; 45. Toggle gear; 46. Follow-up derivation rack; hook up.
- a smart home equipped with IoT control including a smart home cabinet body 1, one end of the smart home cabinet body 1 is fixed with an IoT control module 2, and one end of the smart home cabinet body 1 is also fixed with a guide
- the sliding block 3 the guiding sliding block 3 is located on one side of the Internet of Things control module 2, one end of the guiding sliding block 3 is fixed with a first motor 4 by screws, and the output end of the first motor 4 is fixedly connected with the threaded output rod 5, and the threaded output
- the outer side of the rod 5 is connected with a follow-up displacement guide block 6 through a thread, and the follow-up displacement guide block 6 is also slidably connected with the guide sliding block 3.
- the top and bottom ends of the follow-up displacement guide block 6 are provided with follow-up sliding grooves, which guide the inner side of the sliding block 3. Both the top and bottom ends of the guide block are welded with limit guide strips, and the limit guide strip and the following sliding groove are in clearance fit.
- One side of the bottom end of the following displacement guide block 6 is connected with a movable closing door 7 by screws, and the inner side of the main body 1 of the smart home cabinet is fixed.
- There is a distribution guide automatic clothes selection structure 9, and an intelligent detection dust removal structure 8 is fixed on one side of the main body 1 of the smart home cabinet;
- the intelligent detection and dust removal structure 8 includes a water storage tank 10, an auxiliary outlet tank 11, a gasification inlet pipe 12, an assembly positioning box 13, a vaporization box 14, an electric heating pipe 15, an electromagnetic flow valve 16, a gasification outlet pipe 17, and a cooling outlet box 18. , semiconductor refrigeration plate 19, contact cooling block 20, export fan 21, residual liquid export pipe 22 and indoor dust detection control structure 23, one end of the water storage tank 10 is welded to the auxiliary export tank 11, and the top of the auxiliary export tank 11 is connected to the gas
- the vaporization introduction pipe 12 is fixedly connected, and the top of the vaporization introduction pipe 12 is connected to the vaporization box 14.
- the vaporization tank 14, the electromagnetic flow valve 16, the vaporization export pipe 17 and the cooling export box 18 are all located inside the assembly positioning box 13.
- the vaporization box The inside of 14 is fixed with a plurality of electric heating pipes 15, the top of the vaporization box 14 is connected with the vaporization outlet pipe 17, the outer side of the vaporization outlet pipe 17 is connected with the electromagnetic flow valve 16 by threads, and the other end of the vaporization outlet pipe 17 is connected with the cooling
- the lead-out box 18 is connected, and the inner side of the cooling lead-out box 18 is fixedly connected with the semiconductor refrigeration plate 19 and the contact cooling block 20.
- the top is connected by a temperature-conducting pad, which is made of silica gel, which facilitates the conduction of cooling, thereby expanding the contact cooling.
- Micro-water pumps are fixed on the outside of the gasification inlet pipe 12 and the residual liquid outlet pipe 22, which are in contact with the cooling block 20.
- the top is fixedly connected with the exporting fan 21 by screws, one end of the cooling exporting box 18 is also connected with the residual liquid exporting pipe 22, one end of the assembly positioning box 13 is fixed with an indoor dust detection control structure 23, and the interior of the multi-circuit signal processing module 32 is fixed with a
- the signal amplifying circuit, the microprocessor and the controller, the signal amplifying circuit, the microprocessor and the controller are all electrically connected, the signal amplifying circuit and the photoelectric receiving board 31 are also electrically connected, the controller and the gasification introduction tube
- the micro water pump at 12, the electric heating tube 15, the electromagnetic flow valve 16, the semiconductor refrigeration plate 19, the export fan 21 and the micro water pump at the residual liquid export pipe 22 are also electrically connected.
- the model of the controller is SC-200 universal controller, which is convenient to form the export control after detection, so as to complete the overall linkage control of the intelligent detection dust removal structure 8, so as to complete the detection of indoor dust and synchronous control of humidification;
- the indoor dust detection control structure 23 includes a detection carrying box 24, an extraction fan 25, a transparent detection light column 26, a light-shielding positioning frame 27, a laser output module 28, a first lens plate 29, a second lens plate 30, a photoelectric receiving plate 31 and many more.
- the top and bottom ends of the detection and carrying box 24 are fixedly connected with the extraction fan 25, the two extraction fans 25 are fixedly connected with the transparent detection light column 26, and one end of the detection and carrying box 24 passes through the light-shielding positioning frame 27 is fixedly connected to the laser output module 28, one end of the laser output module 28 is fixedly connected to the first lens plate 29, the inside of the other end of the detection carrying box 24 is clamped with the second lens plate 30, and the other end of the detection carrying box 24 is also connected to the second lens plate 30.
- the photoelectric receiving board 31 is fixedly connected, and one end of the photoelectric receiving board 31 is fixedly connected with the multi-circuit signal processing module 32;
- the distribution guide automatic clothing selection structure 9 includes a support base 33, an auxiliary carrying frame 34, a second motor 35, a driving pulley 36, a driven pulley 37, a carrying transmission plate 38 and a self-derivation hanger 39, and the top of the support base 33
- the two sides are fixedly connected with the auxiliary carrying frame 34, one side of the auxiliary carrying frame 34 is fixedly connected with the second motor 35 by screws, the output end of the second motor 35 is fixedly connected with the driving pulley 36, and the other side is auxiliary
- the top end of the carrying frame 34 is rotatably connected with the driven pulley 37, the driving pulley 36 and the driven pulley 37 are connected by the carrying transmission plate 38, and the outer side of the carrying transmission plate 38 is fixedly connected with a plurality of self-guided hangers 39, It is convenient to complete the loading, placement and rotation conduction of multiple clothes, so as to complete the position selection of clothes;
- the self-derivation clothes hanger 39 includes a fitting positioning plate 40, a guide mounting block 41, a fitting mounting plate 42, a third motor 43, an output shaft 44, a toggle gear 45, a follow-up derivation rack 46 and a clothes hook 47.
- the top end of the positioning plate 40 is connected to the mounting plate 42 by welding, the inner side of the mounting plate 42 is fixedly connected to the guide mounting block 41 by screws, and one side of the mounting plate 42 is fixedly connected to the third motor 43 by screws.
- the output end of the three motors 43 is fixedly connected with the output shaft 44 , the outer side of the output shaft 44 is connected with the toggle gear 45 through a flat key, and the top of the toggle gear 45 is meshed with the following derivation rack 46 , and the following derivation rack 46 It is slidably connected with the guide carrying block 41.
- the guide carrying block 41 is provided with a limited guide chute, and the two sides of the derivation rack 46 are welded with displacement slide rails. The limit and travel are provided, so that it is convenient to quickly export the clothes hook 47, and one end of the derivation rack 46 is fixedly connected with the clothes hook 47, so as to facilitate the linkage deduction and extension of the clothes.
- the Internet of Things terminal can view the clothes hanging at each corresponding self-derivation hanger 39, and select the clothes that need to be selected.
- the carrying transfer plate 38 By operating and controlling the second motor 35 to complete the torque output, the carrying transfer plate 38 is driven to rotate, thereby driving the self-derivation hanger 39 with the clothes to be hung at the movable closed door 7, and the first control module 2 controls the first
- the motor 4 outputs torque, through the threaded connection between the threaded output rod 5 and the following displacement guide block 6, and the sliding connection between the following displacement guide block 6 and the guide sliding block 3, the torque limit derived from the threaded output rod 5 forms a driving force , so that the following displacement guide block 6 follows the stroke of the guide sliding block 3 to deduce the displacement, thereby driving the movable closing door 7 to open.
- the third motor 43 drives the toggle gear 45 through the output shaft 44 Rotate, so as to follow the derivation rack 46 to extend to one end, slide out to the outside, complete the automatic selection of clothes, and exhaust the air through the exhaust fan 25 into the transparent detection beam 26.
- the output module 28 completes the laser irradiation.
- the laser light passes through the first lens plate 29, it is enlarged and dispersed, and the irradiation area is enlarged by the dispersion.
- the ejected light is collected by the second lens plate 30 and then irradiated to the photoelectric receiving plate 31, and the received photoelectricity is converted into a photoelectric signal by the photoelectric receiving plate 31, and the photoelectric signal passes through the multi-circuit signal processing module 32.
- the internal amplifying circuit is amplified and imported into the microprocessor for calculation, and the obtained calculation data is compared with the calculated data.
- the water pump pumps the liquid stored in the water storage tank 10 into the inside of the vaporization tank 14, and boils to vaporize through the electric heating of the electric heating tube 15.
- the electromagnetic flow valve 16 is used to control the speed of the gas introduced into the cooling and export tank 18, and the semiconductor
- the cooling plate 19 and the contact cooling block 20 cooperate for cooling, and the steam is cooled and exported through the export fan 21 to humidify the air, complete the increase in the weight of dust and dust, and reduce the content of impurities floating in the air.
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Abstract
一种搭载有物联网控制的智能家居,涉及物联网家具技术领域。智能家居包括智能家居柜主体(1),智能家居柜主体(1)的一端固定有物联网控制模块(2),智能家居柜主体(1)一端还固定有导向滑动块(3),导向滑动块(3)位于物联网控制模块(2)的一侧。智能家居通过物联网控制结构、自开启门及配导自动选衣结构(9)的配合设计,使得装置便于在物联网的控制下完成内部衣服的配导选择,从而完成自动将选中的衣服导出,大大提高了装置整体的使用便捷度,且通过智能检测除尘结构(8)的设计,使得装置便于在物联网控制下完成对室内空气粉尘的检测,在检测不达标时通过自动化湿气生产结构向室内空气加湿,完成对粉尘的带动坠落处理,降低空气中粉尘的漂浮量。
Description
本发明涉及物联网家具技术领域,具体为一种搭载有物联网控制的智能家居。
智能家居是以住宅为平台,利用综合布线技术、网络通信技术、安全防范技术、自动控制技术、音视频技术将家居生活有关的设施集成,在现代化物联网飞速发展的今天,通过在智能家居上搭载物联网控制是后智能时代发展的又一趋势,在发展过程中出现物联网控制的智能家居柜,但是,现有的装置往往不便于将挂入的衣服在物联网的控制下完成自动化导出衣物,且缺乏对室内环境调节的智能化性能。
本发明专利的目的在于提供一种搭载有物联网控制的智能家居,以解决了现有的问题:现有的装置往往不便于将挂入的衣服在物联网的控制下完成自动化导出衣物。
为实现上述目的,本发明提供如下技术方案:一种搭载有物联网控制的智能家居,包括智能家居柜主体,所述智能家居柜主体的一端固定有物联网控制模块,所述智能家居柜主体一端还固定有导向滑动块,所述导向滑动块位于物联网控制模块的一侧,所述导向滑动块的一端通过螺钉固定有第一电机,所述第一电机的输出端与螺纹输出杆固定连接,所述螺纹输出杆的外侧通过螺纹连接有跟随位移导块,所述跟随位移导块还与导向滑动块滑动连接,所述跟随位移导块底端的一侧通过螺钉连接有活动闭合门,所述智能家居柜主体的内侧固定有配导自动选衣结构,所述智能家居柜主体的一侧固定有智能检测除尘结构;
所述智能检测除尘结构包括蓄水罐、辅助导出罐、气化导入管、总装定位箱、汽化箱、电热管、电磁流量阀、气化导出管、冷却导出箱、半导体制冷板、接触降温块、导出风扇、余液导出管和室内粉尘检测控制结构,所述蓄水罐的一端与辅助导出罐焊接连接,所述辅助导出罐的顶端与气化导入管固定连接,所述气化导入管的顶端与汽化箱连接,所述汽化箱、电磁流量阀、气化导出管和冷却导出箱均位于总装定位箱的内侧,所述汽化箱的内部固定有多个电热管,所述汽化箱的顶端与气化导出管连接,所述气化导出管的外侧与电磁流量阀通过螺纹连接,所述气化导出管的另一端与冷却导出箱连接,所述冷却导出箱的内侧与半导体制冷板和接触降温块固定连接,所述半导体制冷板位于接触降温块的底端,所述接触降温块的顶端通过螺钉与导出风扇固定连接,所述冷却导出箱的一端还与余液导出管连接,所述总装定位箱的一端固定有室内粉尘检测控制结构。
优选的,所述室内粉尘检测控制结构包括检测搭载箱、抽排扇、透明检测光柱、遮光定位架、激光输出模块、第一透镜板、第二透镜板、光电接收板和多电路信号处理模块,所述检测搭载箱的顶端和底端均与抽排扇固定连接,两个所述抽排扇之间与透明检测光柱固定连接,所述检测搭载箱的一端通过遮光定位架与激光输出模块固定连接,所述激光输出模块的一端与第一透镜板固定连接,所述检测搭载箱另一端的内部与第二透镜板卡接,所述检测搭载箱的另一端还与光电接收板固定连接,所述光电接收板的一端与多电路信号处理模块固定连接。
优选的,所述配导自动选衣结构包括支撑基座、辅助搭载架、第二电机、主动带轮、从动带轮、搭载传输板和自推导挂衣架,所述支撑基座顶端的两侧与辅助搭载架固定连接,其中一个所述辅助搭载架一侧与第二电机通过螺钉固定连接,所述第二电机的输出端与主动带轮固定连接,另一侧所述辅助搭载架的顶端与从动带轮转动连接,所述主动带轮和从动带轮之间通过搭载传输板连接,所述搭载传输板的外侧与多个自推导挂衣架固定连接。
优选的,所述自推导挂衣架包括配装定位板、导向搭载块、配装搭载板、第三电机、输出轴杆、拨动齿轮、跟随推导齿条和衣服挂钩,所述配装定位板的顶端与配装搭载板焊接连接,所述配装搭载板的内侧与导向搭载块通过螺钉固定连接,所述配装搭载板的一侧通过螺钉与第三电机固定连接,所述第三电机的输出端与输出轴杆固定连接,所述输出轴杆的外侧与拨动齿轮通过平键连接,所述拨动齿轮的顶端与跟随推导齿条啮合连接,所述跟随推导齿条与导向搭载块滑动连接,所述跟随推导齿条的一端与衣服挂钩固定连接。
优选的,所述多电路信号处理模块的内部固定有信号放大电路、微型处理器和控制器,所述信号放大电路、微型处理器和控制器之间均为电性连接,所述信号放大电路与光电接收板也为电性连接,所述控制器与气化导入管处的微型水泵、电热管、电磁流量阀、半导体制冷板、导出风扇和余液导出管处的微型水泵之间也通过电性连接。
优选的,所述控制器的型号为SC-200通用型控制器。
优选的,所述跟随位移导块的顶端和底端均开设有跟随滑动槽,所述导向滑动块内侧的顶端和底端均焊接有限位导向条,所述限位导向条与跟随滑动槽为间隙配合。
优选的,所述导向搭载块的内部开设有限位导向滑槽,所述跟随推导齿条的两侧焊接有位移滑轨,所述位移滑轨与限位导向槽为间隙配合。
优选的,所述接触降温块的底端与半导体制冷板的顶端通过导温垫连接,所述导温垫的材质为硅胶。
与现有技术相比,本发明的有益效果是:
1、本发明通过物联网控制结构、自开启门及配导自动选衣结构的配合设计,使得装置便于在物联网的控制下完成内部衣服的配导选择,从而完成自动将选中的衣服导出,大大提高了装置整体的使用便捷度;
2、本发明通过智能检测除尘结构的设计,使得装置便于在物联网控制下完成对室内空气粉尘的检测,在检测不达标时通过自动化湿气生产结构向室内空气加湿,完成对粉尘的带动坠落处理,降低空气中粉尘的漂浮量。
为了更清楚地说明本发明专利实施例的技术方案,下面将对实施例描述所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明专利的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1为本发明整体的结构示意图;
图2为本发明整体的工作展开示意图;
图3为本发明智能检测除尘结构的局部结构示意图;
图4为本发明室内粉尘检测控制结构的局部结构示意图;
图5为本发明配导自动选衣结构的局部结构示意图;
图6为本发明自推导挂衣架的局部结构示意图。
图中:1、智能家居柜主体;2、物联网控制模块;3、导向滑动块;4、第一电机;5、螺纹输出杆;6、跟随位移导块;7、活动闭合门;8、智能检测除尘结构;9、配导自动选衣结构;10、蓄水罐;11、辅助导出罐;12、气化导入管;13、总装定位箱;14、汽化箱;15、电热管;16、电磁流量阀;17、气化导出管;18、冷却导出箱;19、半导体制冷板;20、接触降温块;21、导出风扇;22、余液导出管;23、室内粉尘检测控制结构;24、检测搭载箱;25、抽排扇;26、透明检测光柱;27、遮光定位架;28、激光输出模块;29、第一透镜板;30、第二透镜板;31、光电接收板;32、多电路信号处理模块;33、支撑基座;34、辅助搭载架;35、第二电机;36、主动带轮;37、从动带轮;38、搭载传输板;39、自推导挂衣架;40、配装定位板;41、导向搭载块;42、配装搭载板;43、第三电机;44、输出轴杆;45、拨动齿轮;46、跟随推导齿条;47、衣服挂钩。
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。
请参阅图1-6,一种搭载有物联网控制的智能家居,包括智能家居柜主体1,智能家居柜主体1的一端固定有物联网控制模块2,智能家居柜主体1一端还固定有导向滑动块3,导向滑动块3位于物联网控制模块2的一侧,导向滑动块3的一端通过螺钉固定有第一电机4,第一电机4的输出端与螺纹输出杆5固定连接,螺纹输出杆5的外侧通过螺纹连接有跟随位移导块6,跟随位移导块6还与导向滑动块3滑动连接,跟随位移导块6的顶端和底端均开设有跟随滑动槽,导向滑动块3内侧的顶端和底端均焊接有限位导向条,限位导向条与跟随滑动槽为间隙配合,跟随位移导块6底端的一侧通过螺钉连接有活动闭合门7,智能家居柜主体1的内侧固定有配导自动选衣结构9,智能家居柜主体1的一侧固定有智能检测除尘结构8;
智能检测除尘结构8包括蓄水罐10、辅助导出罐11、气化导入管12、总装定位箱13、汽化箱14、电热管15、电磁流量阀16、气化导出管17、冷却导出箱18、半导体制冷板19、接触降温块20、导出风扇21、余液导出管22和室内粉尘检测控制结构23,蓄水罐10的一端与辅助导出罐11焊接连接,辅助导出罐11的顶端与气化导入管12固定连接,气化导入管12的顶端与汽化箱14连接,汽化箱14、电磁流量阀16、气化导出管17和冷却导出箱18均位于总装定位箱13的内侧,汽化箱14的内部固定有多个电热管15,汽化箱14的顶端与气化导出管17连接,气化导出管17的外侧与电磁流量阀16通过螺纹连接,气化导出管17的另一端与冷却导出箱18连接,冷却导出箱18的内侧与半导体制冷板19和接触降温块20固定连接,半导体制冷板19位于接触降温块20的底端,接触降温块20的底端与半导体制冷板19的顶端通过导温垫连接,导温垫的材质为硅胶,便于完成降温的传导,从而扩大接触冷却,气化导入管12和余液导出管22的外侧均固定有微型水泵,接触降温块20的顶端通过螺钉与导出风扇21固定连接,冷却导出箱18的一端还与余液导出管22连接,总装定位箱13的一端固定有室内粉尘检测控制结构23,多电路信号处理模块32的内部固定有信号放大电路、微型处理器和控制器,信号放大电路、微型处理器和控制器之间均为电性连接,信号放大电路与光电接收板31也为电性连接,控制器与气化导入管12处的微型水泵、电热管15、电磁流量阀16、半导体制冷板19、导出风扇21和余液导出管22处的微型水泵之间也通过电性连接。
在此,所述控制器的型号为SC-200通用型控制器,便于形成检测后的导出控制,从而完成智能检测除尘结构8整体的联动控制,从而完成室内粉尘的检测和同步控制加湿;
室内粉尘检测控制结构23包括检测搭载箱24、抽排扇25、透明检测光柱26、遮光定位架27、激光输出模块28、第一透镜板29、第二透镜板30、光电接收板31和多电路信号处理模块32,检测搭载箱24的顶端和底端均与抽排扇25固定连接,两个抽排扇25之间与透明检测光柱26固定连接,检测搭载箱24的一端通过遮光定位架27与激光输出模块28固定连接,激光输出模块28的一端与第一透镜板29固定连接,检测搭载箱24另一端的内部与第二透镜板30卡接,检测搭载箱24的另一端还与光电接收板31固定连接,光电接收板31的一端与多电路信号处理模块32固定连接;
配导自动选衣结构9包括支撑基座33、辅助搭载架34、第二电机35、主动带轮36、从动带轮37、搭载传输板38和自推导挂衣架39,支撑基座33顶端的两侧与辅助搭载架34固定连接,其中一侧的辅助搭载架34一侧与第二电机35通过螺钉固定连接,第二电机35的输出端与主动带轮36固定连接,另一侧辅助搭载架34的顶端与从动带轮37转动连接,主动带轮36和从动带轮37之间通过搭载传输板38连接,搭载传输板38的外侧与多个自推导挂衣架39固定连接,便于完成多个衣服的搭载放置和转动传导,从而完成衣服的位置选择;
自推导挂衣架39包括配装定位板40、导向搭载块41、配装搭载板42、第三电机43、输出轴杆44、拨动齿轮45、跟随推导齿条46和衣服挂钩47,配装定位板40的顶端与配装搭载板42焊接连接,配装搭载板42的内侧与导向搭载块41通过螺钉固定连接,配装搭载板42的一侧通过螺钉与第三电机43固定连接,第三电机43的输出端与输出轴杆44固定连接,输出轴杆44的外侧与拨动齿轮45通过平键连接,拨动齿轮45的顶端与跟随推导齿条46啮合连接,跟随推导齿条46与导向搭载块41滑动连接,导向搭载块41的内部开设有限位导向滑槽,跟随推导齿条46的两侧焊接有位移滑轨,位移滑轨与限位导向槽为间隙配合,便于完成推导限位和行程提供,从而使得其便于将衣服挂钩47快速导出,跟随推导齿条46的一端与衣服挂钩47固定连接,便于完成对衣服的联动推导伸出。
工作原理:通过物联网控制模块2的接收物联网的远程控制,根据挂人衣服数据的导入,使得物联网端可以查看每个对应自推导挂衣架39处所搭挂的衣服,将需要选择的衣服通过操作控制第二电机35完成转矩输出,从而带动使得搭载传输板38进行转动,从而带动挂有需要衣服的自推导挂衣架39处于活动闭合门7处,通过物联网控制模块2控制第一电机4输出转矩,通过螺纹输出杆5和跟随位移导块6的螺纹连接,配合跟随位移导块6与导向滑动块3的滑动连接,将螺纹输出杆5导出的转矩限位形成推动动力,使得跟随位移导块6跟随导向滑动块3的行程进行推导位移,从而带动活动闭合门7开启,此时通过控制第三电机43,使得第三电机43通过输出轴杆44带动拨动齿轮45进行转动,从而拨动跟随推导齿条46向一端延伸,向外侧滑动导出,完成衣服的自动化选出,且通过抽排扇25将的空气抽排进入透明检测光柱26的内部,此时通过激光输出模块28完成激光照射,当激光经过第一透镜板29后,被放大分散,利用该分散扩大照射面积,当激光照射至透明检测光柱26内部空气中混杂的粉尘和灰尘时,利用接触产生光能的弹射,该弹射后的光线经过第二透镜板30的聚拢后照射至光电接收板31处,利用光电接收板31将接收到的光电转换出光电信号,光电信号经过多电路信号处理模块32内部的放大电路放大后导入微型处理器进行运算,得到的运算数据数据,将运算后的数据通过对比,在室内空气的粉尘和灰尘较高时,利用控制器控制气化导入管12处的微型水泵将蓄水罐10内部存储的液体抽入进入汽化箱14的内部,经过电热管15的通电加热沸腾至气化,利用电磁流量阀16控制导入冷却导出箱18内部的气体的速度,利用半导体制冷板19和接触降温块20的配合制冷,将蒸汽冷却后通过导出风扇21导出,加湿空气,完成对粉尘和灰尘的重量增加,降低空气中漂浮的杂质含量。
对于本领域技术人员而言,显然本发明不限于上述示范性实施例的细节,而且在不背离本发明的精神或基本特征的情况下,能够以其他的具体形式实现本发明。因此,无论从哪一点来看,均应将实施例看作是示范性的,而且是非限制性的,本发明的范围由所附权利要求而不是上述说明限定,因此旨在将落在权利要求的等同要件的含义和范围内的所有变化囊括在本发明内。不应将权利要求中的任何附图标记视为限制所涉及的权利要求。
Claims (9)
- 一种搭载有物联网控制的智能家居,包括智能家居柜主体(1),其特征在于:所述智能家居柜主体(1)的一端固定有物联网控制模块(2),所述智能家居柜主体(1)一端还固定有导向滑动块(3),所述导向滑动块(3)位于物联网控制模块(2)的一侧,所述导向滑动块(3)的一端通过螺钉固定有第一电机(4),所述第一电机(4)的输出端与螺纹输出杆(5)固定连接,所述螺纹输出杆(5)的外侧通过螺纹连接有跟随位移导块(6),所述跟随位移导块(6)还与导向滑动块(3)滑动连接,所述跟随位移导块(6)底端的一侧通过螺钉连接有活动闭合门(7),所述智能家居柜主体(1)的内侧固定有配导自动选衣结构(9),所述智能家居柜主体(1)的一侧固定有智能检测除尘结构(8);所述智能检测除尘结构(8)包括蓄水罐(10)、辅助导出罐(11)、气化导入管(12)、总装定位箱(13)、汽化箱(14)、电热管(15)、电磁流量阀(16)、气化导出管(17)、冷却导出箱(18)、半导体制冷板(19)、接触降温块(20)、导出风扇(21)、余液导出管(22)和室内粉尘检测控制结构(23),所述蓄水罐(10)的一端与辅助导出罐(11)焊接连接,所述辅助导出罐(11)的顶端与气化导入管(12)固定连接,所述气化导入管(12)的顶端与汽化箱(14)连接,所述汽化箱(14)、电磁流量阀(16)、气化导出管(17)和冷却导出箱(18)均位于总装定位箱(13)的内侧,所述汽化箱(14)的内部固定有多个电热管(15),所述汽化箱(14)的顶端与气化导出管(17)连接,所述气化导出管(17)的外侧与电磁流量阀(16)通过螺纹连接,所述气化导出管(17)的另一端与冷却导出箱(18)连接,所述冷却导出箱(18)的内侧与半导体制冷板(19)和接触降温块(20)固定连接,所述半导体制冷板(19)位于接触降温块(20)的底端,所述接触降温块(20)的顶端通过螺钉与导出风扇(21)固定连接,所述冷却导出箱(18)的一端还与余液导出管(22)连接,所述总装定位箱(13)的一端固定有室内粉尘检测控制结构(23),所述气化导入管(12)和余液导出管(22)的外侧均通过螺纹固定有微型水泵。
- 根据权利要求1所述的一种搭载有物联网控制的智能家居,其特征在于:所述室内粉尘检测控制结构(23)包括检测搭载箱(24)、抽排扇(25)、透明检测光柱(26)、遮光定位架(27)、激光输出模块(28)、第一透镜板(29)、第二透镜板(30)、光电接收板(31)和多电路信号处理模块(32),所述检测搭载箱(24)的顶端和底端均与抽排扇(25)固定连接,两个所述抽排扇(25)之间与透明检测光柱(26)固定连接,所述检测搭载箱(24)的一端通过遮光定位架(27)与激光输出模块(28)固定连接,所述激光输出模块(28)的一端与第一透镜板(29)固定连接,所述检测搭载箱(24)另一端的内部与第二透镜板(30)卡接,所述检测搭载箱(24)的另一端还与光电接收板(31)固定连接,所述光电接收板(31)的一端与多电路信号处理模块(32)固定连接。
- 根据权利要求1所述的一种搭载有物联网控制的智能家居,其特征在于:所述配导自动选衣结构(9)包括支撑基座(33)、辅助搭载架(34)、第二电机(35)、主动带轮(36)、从动带轮(37)、搭载传输板(38)和自推导挂衣架(39),所述支撑基座(33)顶端的两侧与辅助搭载架(34)固定连接,其中一个所述辅助搭载架(34)一侧与第二电机(35)通过螺钉固定连接,所述第二电机(35)的输出端与主动带轮(36)固定连接,另一侧所述辅助搭载架(34)的顶端与从动带轮(37)转动连接,所述主动带轮(36)和从动带轮(37)之间通过搭载传输板(38)连接,所述搭载传输板(38)的外侧与多个自推导挂衣架(39)固定连接。
- 根据权利要求3所述的一种搭载有物联网控制的智能家居,其特征在于:所述自推导挂衣架(39)包括配装定位板(40)、导向搭载块(41)、配装搭载板(42)、第三电机(43)、输出轴杆(44)、拨动齿轮(45)、跟随推导齿条(46)和衣服挂钩(47),所述配装定位板(40)的顶端与配装搭载板(42)焊接连接,所述配装搭载板(42)的内侧与导向搭载块(41)通过螺钉固定连接,所述配装搭载板(42)的一侧通过螺钉与第三电机(43)固定连接,所述第三电机(43)的输出端与输出轴杆(44)固定连接,所述输出轴杆(44)的外侧与拨动齿轮(45)通过平键连接,所述拨动齿轮(45)的顶端与跟随推导齿条(46)啮合连接,所述跟随推导齿条(46)与导向搭载块(41)滑动连接,所述跟随推导齿条(46)的一端与衣服挂钩(47)固定连接。
- 根据权利要求2所述的一种搭载有物联网控制的智能家居,其特征在于:所述多电路信号处理模块(32)的内部固定有信号放大电路、微型处理器和控制器,所述信号放大电路、微型处理器和控制器之间均为电性连接,所述信号放大电路与光电接收板(31)也为电性连接,所述控制器与气化导入管(12)处的微型水泵、电热管(15)、电磁流量阀(16)、半导体制冷板(19)、导出风扇(21)和余液导出管(22)处的微型水泵之间也通过电性连接。
- 根据权利要求5所述的一种搭载有物联网控制的智能家居,其特征在于:所述控制器的型号为SC-200通用型控制器。
- 根据权利要求1所述的一种搭载有物联网控制的智能家居,其特征在于:所述跟随位移导块(6)的顶端和底端均开设有跟随滑动槽,所述导向滑动块(3)内侧的顶端和底端均焊接有限位导向条,所述限位导向条与跟随滑动槽为间隙配合。
- 根据权利要求4所述的一种搭载有物联网控制的智能家居,其特征在于:所述导向搭载块(41)的内部开设有限位导向滑槽,所述跟随推导齿条(46)的两侧焊接有位移滑轨,所述位移滑轨与限位导向槽为间隙配合。
- 根据权利要求1所述的一种搭载有物联网控制的智能家居,其特征在于:所述接触降温块(20)的底端与半导体制冷板(19)的顶端通过导温垫连接,所述导温垫的材质为硅胶。
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