Intelligent household cup cleaning equipment
Technical Field
The invention relates to the field of cup cleaning equipment, in particular to intelligent household cup cleaning equipment.
Background
Along with the development of science and technology, the manual cleaning cup has turned into mechanical self-cleaning cup, and the cup cleaning equipment has easy operation, comparatively clean advantage to the cup washing. However, the current cup cleaning equipment has the following disadvantages:
1. the cup can receive the impact force of water at the cup in the in-process of washing in the cup equipment, and makes the cup rock, can take place the striking with washing cup equipment inner wall rocking the in-process, causes the fracture of cup easily.
2. Meanwhile, the drainage channel in the cup cleaning equipment is manually and periodically treated, so that the drainage channel is easily blocked due to untimely treatment, and the work of the cup cleaning equipment is influenced.
Disclosure of Invention
Aiming at the defects in the prior art, the invention aims to provide intelligent household cup cleaning equipment, which aims to solve the problems that in the prior art, a cup is shaken due to the impact force of water when the cup is cleaned in the cup cleaning equipment, the cup is easy to break due to the collision with the inner wall of the cup cleaning equipment in the shaking process, and meanwhile, a drainage channel in the cup cleaning equipment is manually and periodically treated, so that the drainage channel is easy to block due to non-timely treatment, and the work of the cup cleaning equipment is influenced.
In order to achieve the purpose, the invention is realized by the following technical scheme:
an intelligent household cup cleaning device structurally comprises an anti-collision rotary adsorption type cup cleaning device, an operation panel, a cleaning device driving box, a starting button, a fixed connecting column, a linking supporting column and a fixed pasting plate, wherein the anti-collision rotary adsorption type cup cleaning device is arranged at the upper end of the cleaning device driving box and is connected in a fixed installation mode, the operation panel is arranged at the positive end face of the cleaning device driving box and is connected in a fixed installation mode, the starting button is electrically connected with the operation panel, the fixed connecting column is arranged at the lower end of the cleaning device driving box and is connected in a welding mode, the linking supporting column is arranged at the lower end of the fixed connecting column and is connected in a welding mode, the fixed pasting plate is arranged at the positive end face of the cleaning device driving box and is connected in a pasting mode, and the fixed pasting plate is positioned below the operation panel, the anti-collision rotary adsorption type cup cleaning device comprises a cleaning device opening mechanism, a cup positioning mechanism, a cleaning and sealing mechanism, a cup cleaning and drying mechanism, a cup rotary adsorption mechanism, a device drainage mechanism and an anti-drainage blocking mechanism, the cleaning device opening mechanism is arranged at the right end of the cup positioning mechanism and connected in an embedded installation mode, the cup positioning mechanism is arranged in the cleaning and sealing mechanism and is connected with the cleaning and sealing mechanism in a fixed mounting way, the cup cleaning and drying mechanism is arranged in the cleaning and sealing mechanism and is connected with the cleaning and sealing mechanism in a fixed mounting way, the cup rotating and adsorbing mechanism is arranged at the lower end of the cup positioning mechanism and is connected in a transmission matching way, the device drainage mechanism is arranged at the lower end of the cleaning sealing mechanism and is of an integrated structure, and the drainage blocking prevention mechanism is arranged at the right end of the device drainage mechanism and is connected in a sliding mode.
As a further scheme of the invention, the opening mechanism of the cleaning device comprises a connecting sealing block, a device door pulling block, a cleaning device door, an embedded groove, a hinge fixing shaft and a connecting hinge disc, the connecting sealing block is arranged at the left end of the cleaning device door and is connected in an embedding and mounting way, the device door pull block is arranged at the right end of the cleaning device door and is of an integrated structure, the embedded groove is arranged at the left end of the cleaning device door and is of an integrated structure, the hinge fixing shaft is arranged at the left end of the cleaning device door and is connected with the cleaning device door in a welding mode, the hinge fixing shaft is arranged below the embedded groove, the embedded groove is arranged below the connecting sealing block, the hinge fixing shaft is arranged in the connecting hinge disc and is connected in a hinge moving mode, the embedded groove is arranged at the right end of the cup positioning mechanism and is connected in an embedded installation mode.
As a further scheme of the present invention, the cup positioning mechanism includes an embedded connecting block, a connecting block positioning rod, a cup positioning cavity, a water permeable mesh, a cup positioning frame, an air pumping cavity, and a rotary adsorption block, the embedded connecting block and the connecting block positioning rod are located on the same axis and are connected by a fixed installation manner, the embedded connecting block is located at the right end of the cup positioning frame and is connected by a welding manner, the cup positioning cavity is located inside the cup positioning frame and is an integrated structure, the water permeable mesh is located at the left end of the positioning frame and is an integrated structure, and the air pumping cavity is located inside the rotary adsorption block and is connected by a transmission fit manner.
As a further scheme of the invention, the cleaning and sealing mechanism comprises a cleaning device cavity, a flowing landslide and a cleaning device shell, wherein the cleaning device cavity is arranged inside the cleaning device shell and is of an integrated structure, the flowing landslide is arranged inside the cleaning device cavity and is connected in a fixed installation mode, and the flowing landslide is arranged below the cup cleaning and drying mechanism.
As a further scheme of the invention, the cup cleaning and drying mechanism comprises a longitudinal sprinkler head positioning block, a longitudinal sprinkler head, a water pipe fixing frame, a transverse sprinkler head positioning block, a connecting water pipe, a water pipe sealing ring and a transverse sprinkler head, wherein the longitudinal sprinkler head positioning block is arranged at the upper end of the longitudinal sprinkler head and is connected in a fixed mounting mode, the connecting water pipe penetrates through the water pipe fixing frame and is connected in a fixed mounting mode, the transverse sprinkler head positioning block is arranged at the left end of the transverse sprinkler head and is connected in a sealing mounting mode, and the connecting water pipe and the water pipe sealing ring are positioned on the same axis.
As a further scheme of the invention, the cup rotating adsorption mechanism comprises a terminal controller, a motor base, a driving motor, a speed reducing ring, an output rotating shaft, a suction channel, an extension spring, a piston plate, a piston cavity, an electromagnet, a cup rotating adsorption mechanism shell and a conductive device, the terminal controller is electrically connected with the driving motor, the motor base is arranged at the lower end of the driving motor and is connected with the driving motor in a welding way, the speed reducing ring and the output rotating shaft are positioned on the same axle center and are connected in a rotating mode, the suction channel is arranged in the output rotating shaft and is of an integrated structure, the extension spring is arranged in the piston plate and is connected with the piston plate in a transmission fit mode, the piston plate is arranged in the piston cavity and is in transition fit, the electromagnet is electrically connected with the electric conductor, and the output rotating shaft penetrates through the upper end of the shell of the cup rotating and adsorbing mechanism and is connected in a rotating mode.
As a further scheme of the invention, the drainage mechanism of the device comprises a drainage channel and a filter mesh, wherein the filter mesh is arranged in the drainage channel and connected in a fixed installation mode, and the filter mesh is arranged at the left end of the drainage blocking prevention mechanism and connected in a sliding mode.
As a further scheme of the invention, the anti-drainage blocking mechanism comprises a timer, a cylinder controller, a welding handle, a collecting groove door, a hinge block, a particle collecting groove, an anti-drainage blocking mechanism shell, a linkage scraper, a sliding track, a connecting sliding plate, a telescopic air pipe and a driving cylinder, the timer is electrically connected with the cylinder controller, the welding handle is arranged at the lower end of the collecting tank door and is connected with the collecting tank door in a welding way, the hinge block is arranged at the left end of the collecting tank door and is movably connected through a hinge, the particle collecting tank is arranged in the shell of the anti-drainage blocking mechanism and is connected through a fixed mounting mode, the linkage scraper blade is located the positive terminal surface of slip track and is connected through gliding mode, the linkage scraper blade is located and is linked up the sliding plate left end and be connected through the welded mode, flexible trachea is located and is driven actuating cylinder left end and be connected through transmission fit's mode.
Advantageous effects of the invention
The invention relates to an intelligent household cup cleaning device, which is characterized in that a device door pull block is buckled, a cleaning device door is opened, a cup to be cleaned is placed in a cup positioning cavity, the bottom of the cup is contacted with a rotary adsorption block, then the cleaning device door is closed, a sealed space is formed in the cleaning device cavity, a start button is pressed, clean water is sprayed out from a longitudinal water spray head and a transverse water spray head through a connecting water pipe to clean the cup, meanwhile, a terminal controller firstly controls a conductive device to start running, the conductive device outputs current to an electromagnet, the electromagnet generates suction to a piston plate made of metal materials, so that the gas in a suction channel is extracted in the process that the piston plate moves in a piston cavity, the rotary adsorption block connected with the suction channel and the gas at the bottom of the cup enter the suction channel along with the rotary adsorption block, and the cup is adsorbed and fixed by the rotary adsorption block, prevent that the cup from rocking, terminal controller then control driving motor and begin the operation, driving motor passes through the output pivot transmission with pivoted mechanical energy and gives and rotates the adsorption block, it rotates the adsorption block drive cup, make the cup carry out all-round washing, the water that washs the production is discharged by drainage channel, filter the net and filter and wash and produce solid particle, in drainage channel's drainage process, the time-recorder times, when the timing finishes, cylinder controller control drives actuating cylinder and fills the suction motion, at the inflation in-process, flexible trachea receives atmospheric pressure effort and stretches, it links up the sliding plate to drive, it drives the linkage scraper blade to link up the sliding plate, the linkage scraper blade stretches out and strikes off the solid particle on filtering the net, scrape into the collecting vat in the granule with the solid particle and retrieve.
The intelligent household cup cleaning equipment is provided with a structure for adsorbing and fixing the bottom of a cup in the cup cleaning process, is beneficial to preventing the cup from shaking due to the impact force of water and colliding with the inner wall of the cup cleaning equipment, so that the cup is broken, and is also provided with a structure for automatically treating a drainage channel at regular time, so that the blockage of the drainage channel due to untimely treatment is effectively prevented.
Drawings
Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.
In the drawings:
fig. 1 is a schematic structural diagram of an intelligent household cup cleaning device.
Fig. 2 is a structural plan view of an anti-collision rotary adsorption type cup cleaning device of the invention.
Fig. 3 is a working state diagram of the anti-collision rotary adsorption type cup cleaning device.
Fig. 4 is a detailed structural schematic diagram of a cup rotating adsorption mechanism of the present invention.
FIG. 5 is a diagram illustrating the operation of a cup rotation suction mechanism according to the present invention.
Fig. 6 is a detailed structural diagram of a water blocking and draining mechanism according to the present invention.
FIG. 7 is a diagram illustrating the operation of a water blocking mechanism according to the present invention.
In the figure: an anti-collision rotary adsorption type cup cleaning device-1, an operation panel-2, a cleaning device driving box-3, a starting button-4, a fixed connecting column-5, an engagement supporting column-6, a fixed pasting plate-7, a cleaning device opening mechanism-11, a cup positioning mechanism-12, a cleaning and sealing mechanism-13, a cup cleaning and drying mechanism-14, a cup rotary adsorption mechanism-15, a device drainage mechanism-16, a drainage blockage prevention mechanism-17, an engagement sealing block-1101, a device door pull block-1102, a cleaning device door-1103, an embedded groove-1104, a hinge fixing shaft-1105, an engagement hinge disc-1106, an embedded connecting block-1201, a connecting block positioning rod-1202, a cup positioning cavity-1203, a grid water-permeable-1204, a grid, Cup positioning frame-1205, air pumping cavity-1206, rotary adsorption block-1207, cleaning device cavity-1301, flow landslide-1302, cleaning device shell-1303, longitudinal water spray head positioning block-1401, longitudinal water spray head-1402, water pipe fixing frame-1403, transverse water spray head positioning block-1404, connecting water pipe-1405, water pipe sealing ring-1406, transverse water spray head-1407, terminal controller-1501, motor base-1502, driving motor-1503, speed reducing ring-1504, output rotating shaft-1505, suction channel-1506, tension spring-1507, piston plate-1508, piston cavity-1509, electromagnet-1510, cup rotary adsorption mechanism shell-1511, electric conductor-1512, water discharge channel-1601, filter grid-1602, The device comprises a timer-1701, a cylinder controller-1702, a welding handle-1703, a collection slot door-1704, a hinge block-1705, a particle collection slot-1706, a drainage blockage prevention mechanism shell-1707, a linkage scraper-1708, a sliding track-1709, an engagement sliding plate-1710, a telescopic air pipe-1711 and a driving cylinder-1712.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
As shown in fig. 1-7, the invention provides a technical scheme of an intelligent household cup cleaning device:
an intelligent household cup cleaning device structurally comprises an anti-collision rotary adsorption type cup cleaning device 1, an operation panel 2, a cleaning device driving box 3, a starting button 4, a fixed connecting column 5, a linking supporting column 6 and a fixed pasting plate 7, wherein the anti-collision rotary adsorption type cup cleaning device 1 is arranged at the upper end of the cleaning device driving box 3 and is connected in a fixed installation mode, the operation panel 2 is arranged at the positive end face of the cleaning device driving box 3 and is connected in a fixed installation mode, the starting button 4 is electrically connected with the operation panel 2, the fixed connecting column 5 is arranged at the lower end of the cleaning device driving box 3 and is connected in a welding mode, the linking supporting column 6 is arranged at the lower end of the fixed connecting column 5 and is connected in a welding mode, the fixed pasting plate 7 is arranged at the positive end face of the cleaning device driving box 3 and is connected in a laminating mode, the fixed pasting plate 7 is positioned below the operation panel 2, the anti-collision rotary adsorption type cup cleaning device 1 comprises a cleaning device opening mechanism 11, a cup positioning mechanism 12, a cleaning and sealing mechanism 13, a cup cleaning and drying mechanism 14, a cup rotary adsorption mechanism 15, a device water discharging mechanism 16 and an anti-water discharging and blocking mechanism 17, the cleaning device opening mechanism 11 is arranged at the right end of the cup positioning mechanism 12 and connected in an embedding installation mode, the cup positioning mechanism 12 is arranged in the cleaning and sealing mechanism 13 and connected in a fixed installation mode, the cup cleaning and drying mechanism 14 is arranged in the cleaning and sealing mechanism 13 and connected in a fixed installation mode, the cup rotary adsorption mechanism 15 is arranged at the lower end of the cup positioning mechanism 12 and connected in a transmission matching mode, the device water discharging mechanism 16 is arranged at the lower end of the cleaning and sealing mechanism 13 and is of an integrated structure, the drainage blockage preventing mechanism 17 is arranged at the right end of the device drainage mechanism 16 and connected in a sliding manner, the cleaning device opening mechanism 11 comprises an engagement sealing block 1101, a device door pull block 1102, a cleaning device door 1103, an embedded groove 1104, a hinge fixing shaft 1105 and an engagement hinge disc 1106, the engagement sealing block 1101 is arranged at the left end of the cleaning device door 1103 and connected in an embedded installation manner, the device door pull block 1102 is arranged at the right end of the cleaning device door 1103 and is of an integrated structure, the embedded groove 1104 is arranged at the left end of the cleaning device door 1103 and is of an integrated structure, the hinge fixing shaft 1105 is arranged at the left end of the cleaning device door 1103 and is connected in a welding manner, the hinge fixing shaft 1105 is arranged below the embedded groove 1104, the embedded groove 1104 is arranged below the engagement sealing block 1101, and the hinge fixing shaft 1105 is arranged inside the engagement hinge disc 1106 and is connected in a hinge movable manner, the embedded groove 1104 is arranged at the right end of the cup positioning mechanism 12 and connected in an embedded installation mode, the cup positioning mechanism 12 comprises an embedded connecting block 1201, a connecting block positioning rod 1202, a cup positioning cavity 1203, a permeable mesh 1204, a cup positioning frame 1205, an air pumping cavity 1206 and a rotary adsorption block 1207, the embedded connecting block 1201 and the connecting block positioning rod 1202 are located on the same axis and connected in a fixed installation mode, the embedded connecting block 1201 is arranged at the right end of the cup positioning frame 1205 and connected in a welding mode, the cup positioning cavity 1203 is arranged inside the cup positioning frame 1205 and is of an integrated structure, the permeable mesh 1204 is arranged at the left end of the positioning frame 1205 and is of an integrated structure, the air pumping cavity 1206 is arranged inside the rotary adsorption block 1207 and is connected in a transmission fit mode, and the cleaning sealing mechanism 13 comprises a cleaning device cavity 1301, a cleaning device, The cup washing and drying mechanism 14 comprises a flowing landslide 1302 and a washing device shell 1303, wherein the washing device cavity 1301 is arranged inside the washing device shell 1303 and is of an integrated structure, the flowing landslide 1302 is arranged inside the washing device cavity 1301 and is connected in a fixed installation mode, the flowing landslide 1302 is arranged below the cup washing and drying mechanism 14, the cup washing and drying mechanism 14 comprises a longitudinal water spray head positioning block 1401, a longitudinal water spray head 1402, a water pipe fixing frame 1403, a transverse water spray head positioning block 1404, a connecting water pipe 1405, a water pipe sealing ring 1406 and a transverse water spray head 1407, the longitudinal water spray head positioning block 1401 is arranged at the upper end of the longitudinal water spray head 1402 and is connected in a fixed installation mode, the connecting water pipe 1405 penetrates through the water pipe fixing frame 1403 and is connected in a fixed installation mode, the transverse water spray head positioning block 1404 is arranged at the left end of the transverse water spray head, the connection water pipe 1405 and the water pipe sealing ring 1406 are located on the same axis, the cup rotation adsorption mechanism 15 comprises a terminal controller 1501, a motor base 1502, a driving motor 1503, a speed reducing ring 1504, an output rotating shaft 1505, a suction channel 1506, an extension spring 1507, a piston plate 1508, a piston cavity 1509, an electromagnet 1510, a cup rotation adsorption mechanism housing 1511 and an electric conductor 1512, the terminal controller 1501 is electrically connected with the driving motor 1503, the motor base 1502 is arranged at the lower end of the driving motor 1503 and connected with the driving motor 1503 in a welding manner, the speed reducing ring 1504 and the output rotating shaft 1505 are located on the same axis and connected with the output rotating shaft 1505 in a rotating manner, the suction channel 1506 is arranged inside the output rotating shaft 1505 and is of an integrated structure, the extension spring 1507 is arranged inside the piston plate 1508 and connected with a transmission fit manner, the piston plate 1508 is arranged inside the piston cavity 1509 and is in, the electromagnet 1510 is electrically connected with an electric conductor 1512, the output rotating shaft 1505 penetrates through the upper end of the cup rotation adsorption mechanism housing 1511 and is connected in a rotating manner, the device drainage mechanism 16 comprises a drainage channel 1601 and a filter grid 1602, the filter grid 1602 is arranged inside the drainage channel 1601 and is connected in a fixed installation manner, the filter grid 1602 is arranged at the left end of the drainage blockage preventing mechanism 17 and is connected in a sliding manner, the drainage blockage preventing mechanism 17 comprises a timer 1701, a cylinder controller 1702, a welding handle 1703, a collecting tank door 1704, a hinge block 1705, a granule collecting tank 1706, a drainage blockage preventing mechanism housing 1707, a linkage scraper 1708, a sliding track 1709, an engagement sliding plate 1710, an expansion air pipe 1711 and a driving cylinder 1712, the timer 1701 is electrically connected with the cylinder controller 1702, the welding handle 1703 is arranged at the lower end of the collecting tank door 1704 and is connected in a welding manner, the hinge block 1705 is arranged at the left end of the collection groove door 1704 and is movably connected through a hinge, the particle collection groove 1706 is arranged inside the waterproof and drainage blocking mechanism shell 1707 and is connected through a fixed mounting mode, the linkage scraper 1708 is arranged on the front end face of the sliding rail 1709 and is connected through a sliding mode, the linkage scraper 1708 is arranged at the left end of the connecting sliding plate 1710 and is connected through a welding mode, and the telescopic air pipe 1711 is arranged at the left end of the driving air cylinder 1712 and is connected through a transmission matching mode.
The intelligent household cup cleaning equipment disclosed by the invention has the working principle that: the device door pull block 1102 is buckled, the cleaning device door 1103 is opened, a cup to be cleaned is placed in the cup positioning cavity 1203, the bottom of the cup is in contact with the rotary adsorption block 1207, then the cleaning device door 1103 is closed, the cleaning device cavity 1301 forms a sealed space, the starting button 4 is pressed, clean water is sprayed out from the longitudinal water spray head 1402 and the transverse water spray head 1407 through the connecting water pipe 1405 to clean the cup, meanwhile, the terminal controller 1501 controls the electric conductor 1512 to start running, the electric conductor 1512 outputs current to the electromagnet 1510, the electromagnet 1510 generates suction force on the piston plate 1508 made of metal, so that in the process that the piston plate 1508 moves in the piston cavity 1509, gas in the suction channel 1506 is extracted, the rotary adsorption block 1207 connected with the suction channel 1506 and the gas at the bottom of the cup enter the suction channel 1506 along with the electric conductor, the rotary adsorption block 1207 adsorbs and fixes the cup, the terminal controller 1501 then controls the driving motor 1503 to start running, the driving motor 1503 transmits the rotating mechanical energy to the rotating adsorption block 1207 through the output rotating shaft 1505, the rotating adsorption block 1207 drives the cup to rotate, so that the cup can be cleaned in all directions, water generated by cleaning is discharged from the drainage channel 1601, the filtering grids 1602 can be filtered and cleaned to generate solid particles, when the timer 1701 counts time during the drainage of the drainage passage 1601 and the counting time is finished, the cylinder controller 1702 controls the driving cylinder 1712 to perform the air-charging and air-sucking motion, in the inflation process, flexible trachea 1711 receives the atmospheric pressure effort to stretch, drives and is connected linking sliding plate 1710, links sliding plate 1710 and drives linkage scraper 1708, and linkage scraper 1708 stretches out and strikes off the solid particle on filtering grid 1602, scrapes solid particle into granule collecting vat 1706 and retrieves.
The invention solves the problem that in the process of cleaning the cup in the cup cleaning equipment in the prior art, the cup can be impacted by water to shake, can collide with the inner wall of the cup cleaning equipment in the shaking process, easily cause the breakage of the cup, meanwhile, the drainage channel in the cup cleaning equipment is treated manually at regular intervals, so that the drainage channel is easy to be blocked due to untimely treatment, the invention has influence on the work of the cup cleaning equipment, and through the mutual combination of the components, in the cup cleaning process, the structure for adsorbing and fixing the bottom of the cup is helpful for preventing the cup from shaking caused by the impact force of water and colliding with the inner wall of the cup cleaning device, thereby make the cup break, be equipped with simultaneously regularly carry out the structure of handling to the drainage channel automatically, the effectual drainage channel that prevents to cause because of not handling in time blocks up.
While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.