CN109869977B - Intelligent multifunctional all-in-one machine - Google Patents
Intelligent multifunctional all-in-one machine Download PDFInfo
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- CN109869977B CN109869977B CN201711250533.5A CN201711250533A CN109869977B CN 109869977 B CN109869977 B CN 109869977B CN 201711250533 A CN201711250533 A CN 201711250533A CN 109869977 B CN109869977 B CN 109869977B
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B40/00—Technologies aiming at improving the efficiency of home appliances, e.g. induction cooking or efficient technologies for refrigerators, freezers or dish washers
Abstract
The invention provides an intelligent multifunctional all-in-one machine, which comprises a dish washer with a high-temperature water storage tank, a refrigerator with a refrigerating chamber and an air exhaust module arranged at the top of the all-in-one machine, wherein the air exhaust module utilizes heat generated by the high-temperature water storage tank and cold generated by the refrigerating chamber and converts the heat and the cold into hot air and cold air respectively to blow towards the outside of the all-in-one machine so as to realize the heating and refrigerating functions of an air conditioner, a human body sensor for sensing whether a human body is close to the all-in-one machine is arranged on the front surface of the all-in-one machine, a control unit of the all-in-one machine controls the strength of the hot air and the cold air according to signals sensed by the human body sensor, the limitation that the existing refrigerator and air conditioner all-in-one machine blows air unevenly and only can be used for refrigerating is solved, the human body sensor is arranged on the front surface of the all-in-one machine, the air supply quantity and the air speed are automatically reduced when the human body is close to ensure that the all-in-one machine, the structure is simple and the low cost, the intelligent design provides a more comfortable use experience for the user.
Description
Technical Field
The invention relates to intelligent home furnishing, in particular to an intelligent multifunctional all-in-one machine.
Background
Refrigerators and air conditioners have been introduced into thousands of households, and become household appliances necessary for life of people, each of which has a set of independent refrigeration system; with the improvement of living standard, many families also buy dish washing machines to enjoy more convenient life, generally, a refrigerator needs to be opened for 24 hours, and the aim is to refrigerate or freeze food or fruits and vegetables; the air conditioner adjusts the temperature of the closed space, and the closed space is opened immediately after being used; the dish washer cleans kitchen ware through high-temperature water in combination with dishwashing liquid or ultrasonic waves. Because of different purposes, the refrigerator, the air conditioner and the dish washing machine are independently designed and manufactured into products. At present, the common household kitchens are small in area, most of the kitchens in the south of China are not provided with air conditioners, and the kitchens in the south of China are extremely hot in summer and difficult to endure and are extremely cold in winter, so that a novel intelligent multifunctional integrated machine with a refrigerating function and a heating function is needed.
Disclosure of Invention
The invention aims to provide an intelligent multifunctional all-in-one machine.
In order to achieve the purpose, the invention provides an intelligent multifunctional all-in-one machine which comprises a dish washing machine with a high-temperature water storage tank, a refrigerator with a refrigerating chamber and an air exhaust module, wherein the air exhaust module utilizes heat generated by the high-temperature water storage tank and cold generated by the refrigerating chamber and converts the heat and the cold into hot air and cold air respectively to blow the hot air and the cold air to the outside of the all-in-one machine to achieve the heating and refrigerating functions of an air conditioner, a human body sensor for sensing whether a human body is close to the all-in-one machine is arranged on the front surface of the all-in-one machine, and a control unit of the all-in-one machine controls the strength of the hot air and the strength of the cold air according to signals sensed by the human body sensor.
Furthermore, the exhaust module comprises two nested annular water tanks, the two annular water tanks are respectively a cold water tank and a hot water tank, the exhaust module is also provided with an air deflector positioned at the top of the exhaust module and an annular water absorption unit which is arranged on the inner wall of the air deflector and can lift along the height direction, the water absorption unit comprises a cold water absorption unit and a hot water absorption unit which can respectively extend into the corresponding cold water tank and the corresponding hot water tank, and the cold water absorption unit and the hot water absorption unit can lift independently.
Furthermore, an air duct extending along the height direction is arranged in the hollow position of the annular water tank on the inner side, the exhaust module further comprises a fan which is arranged at the bottom of the air duct and has adjustable air speed, an air inlet cavity arranged at the lower part of the fan and a support rod which is arranged in the center of the air duct and can lift, the support rod extends along the vertical direction until the support rod exceeds the upper edge of the air duct by a certain distance, the air deflector is fixed at the top of the support rod, and the human body sensor sends a signal to a control unit of the multifunctional all-in-one machine so as to control the gear of the fan and the lifting of the support rod; the fan has two at least gears, the bracing piece is descended to preset position or is got back to initial position by the control unit control.
Further, integrative equipment is still including the module of heating, the module of heating is located in the dish washer, include with the leading water pipe that the high temperature storage water tank is linked together, locate inside hot water power pack of high temperature storage water tank, upwards extend the setting and be in hot water power pack acts on down will hot water in the high temperature storage water tank pours into the hot-water line of hot-water tank with locate leading water valve on the leading water pipe, the leading water valve is electric valve, and its switching is controlled by the control unit of intelligent multifunctional integrated machine, is in the closed condition when not receiving the instruction.
Further, the high-temperature water storage tank is provided with a heater for quickly heating water in the high-temperature water storage tank, the bottom of the high-temperature water storage tank is provided with a temperature sensor and a pressure sensor, and a water injection valve for controlling the start and stop of water injection of the high-temperature water storage tank is arranged between the high-temperature water storage tank and the water diversion pipe; when the temperature sensor senses that the temperature is lower than a preset value, the heater heats, and when the temperature sensor senses that the temperature is higher than the preset value, the heater stops heating; when the pressure sensor senses that the water pressure is lower than a preset value, a signal is sent to the control unit, after the control unit receives the signal, the water diversion valve and the water injection valve are opened, the high-temperature water storage tank is used for injecting water, and after a preset time, the water diversion valve and the water injection valve are closed to finish water injection.
Furthermore, a flow divider is arranged at the rear side of the water diversion valve, the flow divider is provided with a single-joint end communicated with the water diversion pipe and double-joint ends respectively connected with the water injection valve and a cold water pipe, and a cold water power unit is arranged on the cold water pipe; the hot water pipe and the cold water pipe are respectively and correspondingly provided with a hot water valve and a cold water valve, and the cold water pipe is partially positioned in the refrigerating chamber, extends upwards to be communicated with the cold water tank and can inject cold water generated after cold energy exchange with the refrigerating chamber into the cold water tank under the action of the cold water power unit; the water injection valve, the hot water valve and the cold water valve are all electric valves and are in a closed state when not receiving an instruction.
Furthermore, the bottoms of the cold water tank and the hot water tank are respectively and correspondingly provided with a water pressure sensor, and when the water pressure sensors sense that the water pressure in the corresponding water tanks is lower than a set value, the water pressure sensors send signals to the control unit so that the control unit sends out instructions for injecting cold water or hot water to correspondingly inject the cold water or the hot water into the cold water tank or the hot water tank.
Furthermore, the cold water absorption unit and the hot water absorption unit respectively have two states of descending and ascending, the cold water absorption unit and the hot water absorption unit respectively correspondingly contact with the water surfaces in the cold water tank and the hot water tank in the descending state, and the cold water absorption unit and the hot water absorption unit are separated from the water surfaces in the cold water tank and the hot water tank in the ascending state.
Furthermore, the control unit can respectively send out a refrigeration instruction or heating and refrigeration according to the use requirement, when the refrigeration instruction is selected to be sent out, the fan is started, the water diversion valve and the cold water power unit are started, the cold water valve is opened, normal-temperature water passes through the cold water pipe and then becomes cold water and is injected into the cold water tank, after water injection is carried out for a preset time, the water diversion valve and the cold water power unit are closed, the cold water valve is closed, the cold water absorption unit is in a descending state, the hot water absorption unit is in a rising state, outside air passes through the air inlet cavity and the fan and then enters the air channel, and after the cold water absorption unit absorbing cold water is cooled, cold air is blown out along the inner wall of the air deflector; when a heating instruction is selected to be sent, the fan is started, the hot water power unit and the hot water valve are opened, hot water in the high-temperature water storage tank is injected into the hot water tank, after water injection is carried out for a preset time, the hot water power unit and the hot water valve are closed, the cold water absorption unit is in a rising state, the hot water absorption unit is in a falling state, outside air enters the air channel after passing through the air inlet cavity and the fan, and hot air is blown out along the inner wall of the air guide plate after being heated by the hot water absorption unit which absorbs hot water.
Further, after the refrigeration instruction or the heating instruction is sent, the human body sensor detects whether a human body approaches; if the human body is not sensed to approach, the existing working state is kept; if the human body is sensed to be close to the electric fan, the fan is adjusted to be lower by at least one gear, the supporting rod is lowered to a preset position, and the human body sensor detects whether the human body leaves; when the human body is not detected to leave, the existing working state is kept; when detecting that the human body leaves the fan resumes initial gear, the initial position is got back to the bracing piece.
The multifunctional all-in-one machine utilizes the heat of high-temperature water of the dish-washing machine to change normal-temperature water into hot water through heat exchange, converts the hot water into hot air through the air exhaust module arranged at the top of the refrigerator to heat, and utilizes cold air generated in a refrigerating chamber of the refrigerator to refrigerate in the same way, so that energy is reasonably utilized, refrigeration and heating of an air conditioner are realized on the premise of not influencing the original functions of the refrigerator and the dish-washing machine, the limitation that the air supply of the existing refrigerator and air-conditioner all-in-one machine is uneven and only can be used for refrigeration is solved, the human body sensor is arranged on the front side of the multifunctional all-in-one machine, the air supply quantity and the air speed are automatically reduced when a human body approaches, the multifunctional all-in-one machine is simple in structure and low in cost, and the intelligent design provides more comfortable use experience for users.
Drawings
FIG. 1 is a schematic structural diagram of an intelligent multifunction integrated machine according to a preferred embodiment of the present invention;
FIG. 2 is a schematic view of the heating module and the venting module of FIG. 1;
FIG. 3 is a schematic top view of the water cooling tube of FIG. 1;
FIG. 4 is a schematic view of the exhaust module of FIG. 1 under refrigeration conditions;
FIG. 5 is a schematic structural view of the exhaust module of FIG. 1 sensing approach of a human body under a refrigeration condition;
FIG. 6 is a schematic view of the exhaust module of FIG. 1 in a heating condition;
FIG. 7 is a schematic structural view of the air exhaust module in FIG. 1 when the cold water absorption unit and the hot water absorption unit are lifted simultaneously;
fig. 8 is a schematic top view of the exhaust module of fig. 1 with the air deflectors removed.
Detailed Description
Examples
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
As shown in fig. 1 to 8, the intelligent multifunctional all-in-one machine comprises a dishwasher with a high-temperature water storage tank 1, a heating module 2 arranged in the dishwasher and an exhaust module 3 arranged at the top of the integrated equipment, wherein the heating module 2 is arranged in the dishwasher and comprises a water conduit 21 communicated with the high-temperature water storage tank 1, a hot water power unit 22 arranged in the high-temperature water storage tank 1 and a hot water pipe 23 which extends upwards and injects hot water in the high-temperature water storage tank 1 upwards under the action of the hot water power unit 22; the exhaust module 3 comprises two annular water tanks which are nested, wherein the annular water tank positioned at the outer side is a cold water tank 31 in the embodiment, the annular water tank positioned at the inner side is a hot water tank 32 in the embodiment, in other embodiments, the positions of the cold water tank 31 and the hot water tank 32 can be interchanged, and the hot water pipe 23 is communicated with the hot water tank 32.
The air exhaust module 3 further comprises a fan 34 with adjustable air speed arranged at the bottom of the air channel 33, an air inlet cavity 35 arranged at the lower part of the fan 34, a support rod 36 and an air guide structure 37, wherein the support rod 36 is arranged at the center of the air channel 33 and can lift, the support rod 36 extends along the vertical direction until exceeding the upper edge of the air channel 33 by a certain distance, the air guide structure 37 is provided with an air guide plate 371 fixed at the top of the support rod 36 and an annular water absorption unit 373 arranged on the inner wall of the air guide plate 371 and can lift along the height direction, the annular water absorption unit comprises a cold water absorption unit 372 and a hot water absorption unit 373 which can respectively extend into the corresponding cold water channel 31 and hot water channel 32, and the cold water absorption unit 372 and the hot water absorption unit 373 lift independently.
Preferably, the heating module 2 further comprises a water diversion valve 211 arranged on the water diversion pipe 21, wherein the water diversion valve 211 is an electric valve, the opening and closing of the electric valve is controlled by a control unit of the intelligent multifunctional all-in-one machine, and the electric valve is in a closed state when an instruction is not received.
Preferably, the high-temperature water storage tank 1 is provided with a heater 11 for rapidly heating water in the high-temperature water storage tank 1, the bottom of the high-temperature water storage tank 1 is provided with a temperature sensor 12 and a pressure sensor 13, and a water injection valve 14 for controlling the start and stop of water injection of the high-temperature water storage tank 1 is arranged between the high-temperature water storage tank 1 and the water conduit 21; when the temperature sensor 12 senses that the temperature is lower than a preset value, the heater 11 heats, and when the temperature sensor 12 senses that the temperature is higher than the preset value, the heater 11 stops heating; when the pressure sensor 13 senses that the water pressure is lower than a preset value, a signal is sent to the control unit, after the control unit receives the signal, the water diversion valve 21 and the water injection valve 14 are opened, the high-temperature water storage tank 1 is used for water injection, after a preset time, the water diversion valve 21 is closed, the water injection valve 14 is closed, and water injection is completed.
Preferably, the intelligent multifunctional all-in-one machine further comprises a refrigerator with a refrigerating chamber 4, a flow divider 24 is arranged on the rear side of the water diversion valve 211, the flow divider 24 is provided with a single-joint end communicated with the water diversion pipe 21 and double-joint ends respectively connected with the water injection valve 14 and a cold water pipe 25, and a cold water power unit 26 is arranged on the cold water pipe 25; the hot water pipe 23 and the cold water pipe 25 are respectively and correspondingly provided with a hot water valve 231 and a cold water valve 251, and part of the cold water pipe 25 is positioned in the refrigerating compartment 4 and extends upwards to be communicated with the cold water tank 31; the water injection valve 14, the hot water valve 231 and the cold water valve 251 are all electrically operated valves, and are in a closed state when not receiving an instruction.
Preferably, the cold water pipe 25 has a cold water portion 252 and a lead-out portion 253, wherein the cold water portion 252 is formed in a winding shape and passes through the inside of the refrigerating compartment 4, and the lead-out portion 253 communicates with the cold water tank 31; since the final cooling effect is better as the temperature of the water injected into the cold water tank 31 is lower, the cold water portion 252 is formed in a zigzag shape in the present embodiment, and the time for exchanging the cooling energy between the water in the cold water pipe 25 and the cooling compartment 4 is increased, and actually, it is within the scope of the present invention that the cold water pipe 25 is designed in any other shape based on this principle.
Preferably, the cold water absorption unit 372 and the hot water absorption unit 373 have two states, i.e., a lowered state in which they are in contact with the bottoms of the cold water tank 31 and the hot water tank 32, respectively, and a raised state in which they are out of contact with the water levels in the cold water tank 31 and the hot water tank 32, respectively.
In this embodiment, in a descending state, the bottom ends of the cold water absorbing unit 372 and the hot water absorbing unit 373 respectively contact the bottoms of the cold water tank 31 and the hot water tank 32, so that when the water level in the cold water tank 31 or the hot water tank 32 is low, the cold water absorbing unit 372 and the hot water absorbing unit 373 can still absorb water, and the utilization rates of cold water and hot water are improved.
Preferably, the supporting rod 36 includes a fixing portion 361 and an expansion portion 362, the fixing portion 361 is fixed at the bottom of the air duct 33, the expansion portion 362 is slidably connected with the fixing portion 361 and can slide along the vertical direction, and an electric cylinder 363 capable of sliding along the inner wall of the fixing portion 361 is arranged inside the fixing portion 361; the expansion part 362 is partially received in the fixed part 361 and fixed to the top of the electric cylinder 363 to move up and down along with the up-and-down sliding of the electric cylinder 363, and the expansion part 362 has an initial position and a preset position below the initial position.
Preferably, the control unit can respectively send out a refrigeration instruction or heating and refrigeration according to the use requirement, when the refrigeration instruction is selected to be sent out, the fan 34 is opened, the water diversion valve 211 and the cold water power unit 26 are opened, the cold water valve 251 is opened, at this time, normal-temperature water passes through the cold water pipe 25 and then is changed into cold water and is injected into the cold water tank 31, after the water injection preset time, the water diversion valve 211 and the cold water power unit 26 are closed, the cold water valve 251 is closed, the cold water suction unit 372 is in a descending state and the hot water suction unit 373 is in a rising state, external air passes through the air inlet cavity 35 and passes through the fan 34 and then enters the air channel 33, and after the cold water suction unit 372 sucking cold water is cooled, cold air is blown out along the inner wall of the air deflector 371; when a heating instruction is selected to be sent, the fan 34 is started, the hot water power unit 22 and the hot water valve 231 are opened, at this time, hot water in the high-temperature water storage tank 1 is injected into the hot water tank 32, after water injection is carried out for a preset time, the hot water power unit 22 and the hot water valve 231 are closed, the cold water absorption unit 372 is in a rising state, the hot water absorption unit 373 is in a falling state, outside air enters the air duct 33 through the air inlet cavity 35 and the fan 34, and hot air is blown out along the inner wall of the air deflector 371 after the temperature of the hot water absorption unit 373 sucking hot water is raised.
Preferably, the human body sensor sends a signal to a control unit of the multifunctional all-in-one machine so as to control the gear of the fan 34 and the lifting of the support rod 36; the fan 34 has at least two gears, and the support rod 36 is controlled by the control unit to descend to the preset position or return to the initial position.
After the refrigerating instruction or the heating instruction is sent out, the human body sensor detects whether a human body approaches; the existing working state is kept when a human body approach signal is not sensed; when a human body approaching signal is sensed, the fan 34 is turned down to at least one gear, the supporting rod 36 is lowered to a preset position, and the human body sensor detects whether a human body leaves; when the human body is not detected to leave, the existing working state is kept; when the human body is detected to leave, the fan 34 restores to the initial gear, and the support rod 36 returns to the initial position.
Preferably, the cold water tank 31 and the hot water tank 32 are respectively and correspondingly provided with a cold water pressure sensor 311 and a hot water pressure sensor 321 at the bottom, and under a refrigeration condition, when the water pressure sensed by the cold water pressure sensor 311 is lower than a set value, a signal is sent to the control unit of the multifunctional integrated device so that the control unit of the multifunctional integrated device correspondingly sends a cold water injection instruction to correspondingly inject cold water into the cold water tank 31, and the hot water pressure sensor 321 and the cold water pressure sensor 311 are the same, and are not described again.
Preferably, the air deflector 371 is umbrella-shaped, so that cold air and hot air generated by the air exhaust module 3 are uniformly guided to the periphery of the intelligent multifunctional all-in-one machine through the inner wall of the air deflector 371, and the effect of uniform air outlet is achieved.
Preferably, the air exhaust module 3 is arranged at the top of the intelligent multifunctional all-in-one machine, so that on one hand, the room area occupied by the intelligent multifunctional all-in-one machine can be reduced, and on the other hand, air is uniformly exhausted from the top of the intelligent multifunctional all-in-one machine to the periphery, so that cold or heat can be more rapidly released to a room.
Preferably, the cold water tank 31 and the hot water tank 32 are both made of heat insulation materials, so that the heat insulation time of cold water and hot water in the tanks is prolonged, and the refrigerating and heating efficiency is improved.
Preferably, the water level of the water injected into the cold water tank 31 and the hot water tank 32 is not higher than the water level of the water injected into the cold water pipe 25 and the hot water pipe 23, so that the water is prevented from flowing back into the cold water pipe 25 or the hot water pipe 23 after the water injection is completed, and the water quantity and the water temperature in the cold water tank 31 or the hot water tank 32 are not affected.
As shown in fig. 8, the projections of the cold water absorption unit 372 and the hot water absorption unit 373 in the horizontal plane fall into the cold water tank 31 and the hot water tank 32, respectively, and in this embodiment, the cold water absorption unit 372 and the hot water absorption unit 373 are in a continuous annular structure and are rectangular when unfolded; in other embodiments, the cold and hot water absorption units 372 and 373 may be respectively spirally retractable.
Under the working condition of refrigeration or heating, the external air passes through the air inlet cavity 35, passes through the fan 34, enters the air channel 33, enters the space formed by the cold water absorbing unit 372 or the hot water absorbing unit 373, the water surface and the air guide plate 371, and is cooled or heated by the cold water absorbing unit 372 or the hot water absorbing unit 373 and then blown out, so that the possibility that the external air is directly blown out is avoided, and the refrigeration and heating efficiency is improved.
Preferably, as shown in fig. 7, the control unit may send a command to raise the cold water absorbing unit 372 and the hot water absorbing unit 373 at the same time, and at this time, the external air enters the air duct 33 through the air inlet cavity 35 and the fan 34, and blows out normal temperature air along the inner wall of the air deflector 371.
Preferably, a filtering device 351 is arranged in the air inlet cavity 35, and the filtering device 351 is located below the fan 34 and is used for filtering dust and other impurities in the outside air.
The invention utilizes the heat of the high-temperature water of the dish washer to change the normal-temperature water into hot water through heat exchange, and converts the hot water into hot air through the air exhaust module 3 arranged at the top of the refrigerator to heat, and similarly, the refrigeration chamber 4 of the refrigerator is utilized to generate cold air to refrigerate, thereby reasonably utilizing energy sources, realizing the refrigeration and heating of the air conditioner on the premise of not influencing the original functions of the dish washer of the refrigerator, solving the limitation that the existing integrated machine of the refrigerator and the air conditioner has uneven air supply and can only be used for refrigeration, and the front side of the integrated machine of the refrigerator and the air conditioner is provided with the human body sensor, automatically reducing the air supply amount and the air speed when a human body approaches, having simple structure and low cost, and providing more comfortable use experience for users through intelligent design.
Claims (9)
1. An intelligent multifunctional all-in-one machine comprises a dish washing machine with a high-temperature water storage tank, a refrigerator with a refrigerating chamber and an exhaust module, wherein the exhaust module utilizes heat generated by the high-temperature water storage tank and cold generated by the refrigerating chamber and converts the heat and the cold into hot air and cold air respectively to blow the hot air and the cold air to the outside of the integrated equipment to realize the heating and refrigerating functions of an air conditioner, the exhaust module comprises two annular water tanks which are nested, the two annular water tanks are respectively a cold water tank and a hot water tank, the exhaust module also comprises an air deflector positioned at the top of the exhaust module and an annular water suction unit which is arranged on the inner wall of the air deflector and can lift along the height direction, the water suction unit comprises a cold water suction unit and a hot water suction unit which can respectively extend into the corresponding cold water tank and the corresponding hot water tank, and the cold water suction unit and the hot water suction unit can lift independently, the front of the all-in-one machine is provided with a human body sensor for sensing whether a human body is close to the all-in-one machine, and a control unit of the all-in-one machine controls the strength of the hot air and the cold air according to a signal sensed by the human body sensor.
2. The intelligent multifunctional all-in-one machine is characterized in that an air channel extending along the height direction is arranged in the hollow position of the annular water tank on the inner side, the exhaust module further comprises a fan which is arranged at the bottom of the air channel and has adjustable air speed, an air inlet cavity body arranged at the lower part of the fan and a support rod which is arranged in the center of the air channel and can lift, the support rod extends along the vertical direction until the support rod exceeds the upper edge of the air channel by a certain distance, the air deflector is fixed at the top of the support rod, and the human body sensor sends a signal to a control unit of the multifunctional all-in-one machine so as to control the gear of the fan and the lifting of the support rod; the fan has two at least gears, the bracing piece is descended to preset position or is got back to initial position by the control unit control.
3. The intelligent multifunctional all-in-one machine according to claim 2, wherein the integrated equipment further comprises a heating module, the heating module is arranged in the dishwasher and comprises a water conduit communicated with the high-temperature water storage tank, a hot water power unit arranged in the high-temperature water storage tank, a hot water pipe extending upwards and used for injecting hot water in the high-temperature water storage tank into the hot water tank under the action of the hot water power unit, and a water conduit valve arranged on the water conduit, the water conduit valve is an electric valve, the opening and closing of the water conduit valve is controlled by a control unit of the intelligent multifunctional all-in-one machine, and the water conduit valve is in a closed state when an instruction is not received.
4. The intelligent multifunctional all-in-one machine as claimed in claim 3, wherein the high-temperature water storage tank is provided with a heater for rapidly heating water in the high-temperature water storage tank, the bottom of the high-temperature water storage tank is provided with a temperature sensor and a pressure sensor, and a water injection valve for controlling the start and stop of water injection of the high-temperature water storage tank is arranged between the high-temperature water storage tank and the water conduit; when the temperature sensor senses that the temperature is lower than a preset value, the heater heats, and when the temperature sensor senses that the temperature is higher than the preset value, the heater stops heating; when the pressure sensor senses that the water pressure is lower than a preset value, a signal is sent to the control unit, after the control unit receives the signal, the water diversion valve and the water injection valve are opened, the high-temperature water storage tank is used for injecting water, and after a preset time, the water diversion valve and the water injection valve are closed to finish water injection.
5. The intelligent multifunctional all-in-one machine as claimed in claim 4, wherein a diverter is arranged on the rear side of the water diversion valve, the diverter is provided with a single-joint end communicated with the water diversion pipe and double-joint ends respectively connected with the water injection valve and a cold water pipe, and a cold water power unit is arranged on the cold water pipe; the hot water pipe and the cold water pipe are respectively and correspondingly provided with a hot water valve and a cold water valve, and the cold water pipe is partially positioned in the refrigerating chamber, extends upwards to be communicated with the cold water tank and can inject cold water generated after cold energy exchange with the refrigerating chamber into the cold water tank under the action of the cold water power unit; the water injection valve, the hot water valve and the cold water valve are all electric valves and are in a closed state when not receiving an instruction.
6. The intelligent multifunctional all-in-one machine as claimed in claim 5, wherein water pressure sensors are correspondingly arranged at the bottoms of the cold water tank and the hot water tank respectively, and when the water pressure sensors sense that the water pressure in the corresponding water tanks is lower than a set value, the water pressure sensors send signals to the control unit so that the control unit sends out cold water or hot water injection instructions to correspondingly inject cold water or hot water into the cold water tank or the hot water tank.
7. The intelligent multifunctional all-in-one machine as claimed in claim 3, wherein the cold water absorption unit and the hot water absorption unit respectively have two states of descending and ascending, and respectively correspondingly contact with the water surfaces in the cold water tank and the hot water tank in the descending state, and are separated from the water surfaces in the cold water tank and the hot water tank in the ascending state.
8. The intelligent multifunctional all-in-one machine is characterized in that the control unit can respectively send out a refrigeration instruction or heating and refrigeration according to the use requirement, when the refrigeration instruction is selected to be sent out, the fan is started, the water diversion valve and the cold water power unit are started, the cold water valve is started, normal-temperature water is changed into cold water after passing through the cold water pipe and is injected into the cold water tank, after water is injected for preset time, the water diversion valve and the cold water power unit are closed, the cold water absorption unit is in a descending state, the hot water absorption unit is in a rising state, outside air enters the air channel after passing through the air inlet cavity and the fan, and after being cooled by the cold water absorption unit absorbing cold water, cold air is blown out along the inner wall of the air guide plate; when a heating instruction is selected to be sent, the fan is started, the hot water power unit and the hot water valve are opened, hot water in the high-temperature water storage tank is injected into the hot water tank, after water injection is carried out for a preset time, the hot water power unit and the hot water valve are closed, the cold water absorption unit is in a rising state, the hot water absorption unit is in a falling state, outside air enters the air channel after passing through the air inlet cavity and the fan, and hot air is blown out along the inner wall of the air guide plate after being heated by the hot water absorption unit which absorbs hot water.
9. The intelligent multifunctional all-in-one machine according to claim 8, wherein after the cooling instruction or the heating instruction is sent, the human body sensor detects whether a human body approaches; if the human body is not sensed to approach, the existing working state is kept; if the human body is sensed to be close to the electric fan, the fan is turned down to at least one gear, the supporting rod is lowered to a preset position, and the human body sensor detects whether the human body leaves; when the human body is not detected to leave, the existing working state is kept; when the human body is detected to leave, the fan restores to the initial gear, and the supporting rod returns to the initial position.
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CN201711250533.5A CN109869977B (en) | 2017-12-01 | 2017-12-01 | Intelligent multifunctional all-in-one machine |
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