CN109924876B - Water dispenser capable of setting water quantity and separately boiling water - Google Patents

Abstract

The invention discloses a water dispenser capable of setting water quantity and separating boiled water, which structurally comprises a water dispenser body, a power interface, a positioning and metering water cup placing device, a heat dissipation plate, a separated boiled water setting panel, a water taking starting button, a water faucet, a dustproof cover plate and an sundries storage cover plate, wherein the power interface is arranged on the right surface of the water dispenser body and is connected with the power interface in an embedding mode, the heat dissipation plate and the power interface are arranged on the same horizontal plane, the heat dissipation plate is arranged on the right surface of the water dispenser body in a welding mode, the positioning and metering water cup placing device is arranged below the water taking starting button, and the separated boiled water setting panel is arranged on the front surface of the water. The positioning plate is started by placing the water cup to prevent the water cup from shaking and falling off when receiving water, and meanwhile, the weight of the water cup is increased by receiving water, the inflow amount of the water is detected, and the water is transmitted and stopped to avoid the phenomenon that the water overflows in the water cup and is difficult to take.

Description

Water dispenser capable of setting water quantity and separately boiling water

Technical Field

The invention relates to the field of water dispensers, in particular to a water dispenser capable of setting water quantity and separately boiling water.

Background

The drinking machine is a device which can respectively boil water or cool down by pumping water from the barreled water or the household drinking water, and the drinking machine can drink hot water, ice water or warm water at any time when being electrified. However, the prior water dispenser has the following defects:

1. when the water dispenser is used, the hot water is placed in the water cup, the hot water is connected with the position of the hot water, the cup mouth and the water outlet of the water faucet are prone to offset, when the hot water flows out, personnel are scalded, the cup body is placed under the inner side, the hot water flowing out of the water faucet impacts the cup body and offsets, and the cup is prone to shaking, gradually enlarges, falls and breaks.

2. When simultaneously the cup was placed and is carried out the water intaking, the water yield in the cup was difficult to observe in the outside, and it is big to let the error of range estimation water yield easily to see through from the top down to the condition that overflows for continuously get the water.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a water dispenser capable of setting water quantity and separating boiled water, so that the problems that when the water dispenser in the prior art is used, hot water is connected to a cup opening and a water outlet of a water faucet easily to deviate, personnel are scalded when the hot water flows out, the hot water flows out of the water faucet impacts the cup body to deviate when the cup body is placed under the inner side, the cup is easy to shake and gradually increase in amplitude to fall and break, meanwhile, when the cup is placed to take water, the water quantity in the cup is difficult to observe on the outer side, and the error of the water quantity is easy to observe through oblique observation from top to bottom, so that the water can be continuously taken to overflow.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a water dispenser capable of setting water quantity and separating boiled water structurally comprises a water dispenser body, a power interface, a positioning and metering water cup placing device, a heat dissipation plate, a separated boiled water setting panel, a water taking starting button, a water tap, a dustproof cover plate and an sundries storage cover plate, wherein the power interface is arranged on the right surface of the water dispenser body and is connected with the power interface in an embedding mode, the heat dissipation plate and the power interface are installed on the same horizontal plane, the heat dissipation plate is arranged on the right surface of the water dispenser body in a welding mode, the positioning and metering water cup placing device is arranged below the water taking starting button, the separated boiled water setting panel is installed on the front surface of the water dispenser body in an embedding mode and is electrically connected with the water taking starting button, the water taking starting button is positioned below the separated boiled water setting panel and is installed on the same horizontal plane, the, the dustproof cover plate is arranged on the front surface of the water dispenser body in a hinge mode and is movably connected, the back surface of the sundries storage cover plate is connected with the front surface of the water dispenser body in a fitting way, the positioning and metering cup placing device comprises a device body mechanism, a cup placing and pressing mechanism, a hot water cup starting electromagnetic mechanism, a friction transmission positioning mechanism, a reset fixing mechanism and an overflow diversion and drainage mechanism, the inner side of the device body mechanism is provided with a water cup placing and pressing mechanism which is connected in an electric welding way, the right side of the cup placing and pressing mechanism is provided with a hot water cup starting electromagnetic mechanism and is electrically connected with the hot water cup starting electromagnetic mechanism, the friction transmission positioning mechanism is positioned at the right upper end of the hot water cup starting electromagnetic mechanism and is connected with the hot water cup starting electromagnetic mechanism in a fitting way, the friction transmission positioning mechanism is installed on the left side of the reset fixing machine in an embedded mode, and the overflow water diversion drainage mechanism is installed below the water cup placing contact pressing mechanism.

As a further scheme of the invention, the device body mechanism comprises a device protection shell, a distinguishing built-in body, a sealing ring, a water tap embedded groove and a connecting rubber block, wherein the inner side of the device protection shell is connected with the distinguishing built-in body in an electric welding mode, the sealing ring is connected with the inner side of the device protection shell in an adhesion mode, the water tap embedded groove is formed in the upper surface of the device protection shell, and the connecting rubber block is installed on the right surface of the distinguishing built-in body in an embedding mode and is adhered to the right surface of the distinguishing built-in body.

As a further scheme of the invention, the cup placing and touching mechanism comprises a touching pad, a voltage stabilizing connector, a secondary touching pad, a pressure difference data module, a data line, a pressure difference metering and transmitting mechanism and an electric lead, wherein the lower surface of the touching pad is provided with the voltage stabilizing connector and is connected in a fitting manner, the voltage stabilizing connector is positioned on the upper surface of the pressure difference metering and transmitting mechanism and is electrically connected, the lower surface of the secondary touching pad is connected with the upper surface of the pressure difference data module in a welding manner, the data line is arranged on the right surface of the pressure difference data module and is electrically connected, the data line is arranged on the left surface of the pressure difference metering and transmitting mechanism in an embedding manner, and the electric lead is arranged on the right surface of the pressure difference metering and transmitting mechanism.

As a further aspect of the present invention, the differential pressure measurement transmission mechanism includes a pressure-actuated water accumulation calculation module, a transfer module, a transmission line, a conversion measurement module, a terminal connection module, and a wireless transmission module, the pressure-actuated water accumulation calculation module is located at the right side of the transfer module and is installed on the same horizontal plane, the conversion measurement module is installed below the pressure-actuated water accumulation calculation module and is electrically connected to the pressure-actuated water accumulation calculation module, the transmission line is installed on the left surface of the conversion measurement module, the terminal connection module is installed on the left surface of the conversion measurement module in an embedded manner, and the wireless transmission module is electrically connected to the terminal connection module.

As a further scheme of the present invention, the hot water cup starting electromagnetic mechanism includes an electromagnetic control module, an infrared sensing module, a connecting wire, an electromagnet block, a sliding iron piece, a limiting chute, a return spring, and a spring positioning block, wherein an upper surface of the electromagnetic control module is connected with a lower surface of the electromagnet block by welding, the lower surface of the infrared sensing module is provided with the connecting wire and is electrically connected, the other end of the connecting wire is installed on an upper surface of the electromagnetic control module by embedding, the upper surface of the sliding iron piece is provided with the return spring and is connected by welding, the inner side of the limiting chute is provided with the spring positioning block and is connected by electric welding, and a right surface of the sliding iron piece is connected with the friction transmission positioning mechanism.

As a further scheme of the present invention, the friction transmission positioning mechanism includes a friction turntable, a driving wheel, a positioning pin, a transmission belt, a driven wheel, and a limit baffle, wherein the left side of the friction turntable is connected with the right surface of the sliding iron sheet in an attaching manner, the front end of the friction turntable is connected with the rear end of the driving wheel in an electric welding manner and is coaxial, the positioning pin penetrates through the front end and the rear end of the friction turntable and is in clearance fit, the driven wheel is located above the left side of the driving wheel and is movably connected with the driving belt, and the driven wheel penetrates through the front surface and the rear surface of the limit baffle and is welded with the front surface and the rear surface of the limit.

As a further scheme of the present invention, the reset fixing mechanism includes a fixing block, a clamping groove, a hemispherical clamping block, a connecting guide rod, and a connecting spring, wherein the clamping groove is formed on the left surface of the fixing block, the hemispherical clamping block is mounted on the inner side of the fixing block and connected in a fitting manner, the connecting guide rod penetrates through the front and rear surfaces of the hemispherical clamping block and is perpendicular to each other, and the connecting spring is mounted on the front surface of the hemispherical clamping block and connected in a welding manner.

As a further scheme of the present invention, the overflow diversion drainage mechanism includes an overflow diversion trench, a connection pipe, a filtration water storage tank, a tank water level sensing module, a drainage pump valve body, a water pumping pipe and a water diversion pipe, wherein the connection pipe is arranged on the lower surface of the overflow diversion trench, the connection pipe is installed on the upper surface of the filtration water storage tank in an embedded manner, the water pumping pipe is located at the right side of the connection pipe and is installed on the same horizontal plane, the tank water level sensing module is installed on the right surface of the filtration water storage tank in an electric welding manner, the water pumping pipe is installed on the left surface of the drainage pump valve body, and the water diversion pipe is installed on the right surface of the drainage pump valve body in an embedded.

Advantageous effects of the invention

The invention relates to a water dispenser capable of setting water quantity and separating boiled water, wherein a water dispenser body is started to operate, when a water cup is placed above a touch pressure gasket, the gravity pressure of a water cup body is transferred to a pressure-operated water accumulation calculating module through a pressure-stabilizing connecting body to be reserved, an electromagnetic control module is started by an electric lead wire at the same time, the electromagnetic control module conducts current into an electromagnetic iron block through an infrared sensing module by virtue of a connecting wire after a hand leaves the water cup, the electromagnetic iron block generates downward adsorption force on a sliding iron sheet, a reset spring is pulled, the sliding iron sheet drives a right friction turntable to rotate in a friction mode, a driving runner rotates anticlockwise, a driven runner synchronously rotates through the transmission connection of a transmission belt to rotate a limit baffle around the axis of the driven runner, and a hemispherical clamping block embedded when the limit baffle rotates moves forwards along the edge of the clamping connecting spring to release the fixing of the limit baffle, the limit baffle rotates to be in contact with the connecting rubber block and stops when the limit baffle is horizontally horizontal, hot water flows downwards into the water cup through the water faucet by pressing the water taking starting button, the water cup shakes under water flow, the water cup moves and falls off in shaking due to the support of the limit baffle, the water cup increases weight when water is stored in the water cup and stops slowly shaking, the pressure of the touch pad is also increased, the pressure calculation water accumulation module calculates water accumulation through pressure difference and is processed by the conversion calculation module to form water quantity, data is converted to the separation water boiling setting panel through the terminal connection module by the wireless transmission module, the water faucet stops water outlet when the water quantity reaches a set point, the water cup is placed on the secondary touch pad for water holding when a cold water area receives water, the water cup is converted to the conversion machine filter module through the pressure difference data module, and the upper surface of the area built-in body flows into the overflow diversion groove along the edge when water overflows, water enters the filtering water storage tank through the connecting pipe, the water level in the tank is higher than the positioning value of the tank body water level sensing module, and the valve body of the drainage pump is pumped through the water pumping pipe and discharged through the water diversion pipe.

According to the water dispenser capable of setting water quantity and separately boiling water, the positioning plate is started by placing the water cup to prevent the water cup from shaking and falling off when receiving water, meanwhile, the weight of the water cup is increased by receiving water, the inflow water quantity is detected, and the water is transmitted and stopped to avoid overflow of the water in the water cup and difficulty in taking.

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 a water dispenser capable of setting water quantity and separately boiling water according to the invention.

FIG. 2 is a plan view of a positioning and measuring cup placing device according to the present invention.

FIG. 3 is a detailed structural diagram of a positioning and measuring cup placing device according to the present invention.

FIG. 4 is a detailed structural diagram of a differential pressure metering transmission mechanism according to the present invention.

Fig. 5 is a detailed structural schematic diagram of a hot water cup starting electromagnetic mechanism of the present invention.

Fig. 6 is a detailed structural diagram of a top view of a reduction fixation mechanism according to the present invention.

In the figure: a water dispenser body-1, a power interface-2, a positioning and metering cup placing device-3, a heat radiation plate-4, a separated water boiling setting panel-5, a water taking starting button-6, a water tap-7, a dustproof cover plate-8, a sundries storage cover plate-9, a device body mechanism-31, a cup placing contact pressure mechanism-32, a hot water cup starting electromagnetic mechanism-33, a friction transmission positioning mechanism-34, a reset fixing mechanism-35, an overflow diversion drainage mechanism-36, a device protection shell-311, a distinguishing built-in body-312, a sealing ring-313, a water tap embedded groove-314, a connecting rubber block-315, a contact pressure gasket-321, a voltage stabilizing connecting body-322, a secondary contact pressure gasket-323, a differential pressure data module-324, a water dispenser, a water, A data line-325, a differential pressure metering transmission mechanism-326, an electric lead-327, a pressure-driven water volume calculating module-32601, a switching module-32602, a transmission line-32603, a switching metering module-32604, a terminal connection module-32605, a wireless transmission module-32606, an electromagnetic control module-331, an infrared sensing module-332, a connection line-333, an electromagnet block-334, a sliding iron sheet-335, a limit chute-336, a return spring-337, a spring positioning block-338, a friction rotating disc-341, a driving rotating wheel-342, a positioning pin-343, a transmission belt-344, a driven rotating wheel-345, a limit baffle-346, a fixed block-351, a clamping groove-352, a hemisphere clamping block-353, a connecting guide rod-354, a connecting spring-355, An overflow diversion trench-361, a connecting pipe-362, a filtering water storage tank-363, a tank body water level sensing module-364, a drainage pump valve body-365, a water suction pipe-366 and a water diversion pipe-367.

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. 1-6, the present invention provides a technical scheme of a water dispenser capable of setting water quantity and separately boiling water:

a drinking machine capable of setting water quantity and separating boiled water structurally comprises a drinking machine body 1, a power supply interface 2, a positioning and metering water cup placing device 3, a heat dissipation plate 4, a separated boiled water setting panel 5, a water taking starting button 6, a faucet 7, a dustproof cover plate 8 and an sundries storage cover plate 9, wherein the power supply interface 2 is arranged on the right surface of the drinking machine body 1 and connected in an embedding mode, the heat dissipation plate 4 and the power supply interface 2 are installed on the same horizontal plane, the heat dissipation plate 4 is arranged on the right surface of the drinking machine body 1 in a welding mode, the positioning and metering water cup placing device 3 is arranged below the water taking starting button 6, the separated boiled water setting panel 5 is installed on the front surface of the drinking machine body 1 in an embedding mode and is electrically connected, the water taking starting button 6 is positioned below the separated boiled water setting panel 5 and is installed, the water faucet 7 is installed on the upper surface of the positioning and metering water cup placing device 3 in an embedded mode, the dustproof cover plate 8 is installed on the front surface of the water dispenser body 1 in a hinge mode and is movably connected with the front surface of the water dispenser body 1 in a joint mode, the rear surface of the sundries storage cover plate 9 is connected with the front surface of the water dispenser body 1 in a joint mode, the positioning and metering water cup placing device 3 comprises a device body mechanism 31, a water cup placing touch and press mechanism 32, a hot water cup starting electromagnetic mechanism 33, a friction transmission positioning mechanism 34, a reset fixing mechanism 35 and an overflow flow guide drainage mechanism 36, the water cup placing touch and press mechanism 32 is arranged on the inner side of the device body mechanism 31 and is connected with the device body mechanism in a joint mode, the hot water cup starting electromagnetic mechanism 33 is arranged on the right side of the water cup placing touch and press mechanism 32 and is electrically connected with the hot water cup starting, the friction transmission positioning mechanism 34 is installed on the left side of the reset fixing machine 35 in an embedded mode, the overflow diversion drainage mechanism 36 is installed below the water cup placing contact pressure mechanism 32, the device body mechanism 31 comprises a device protection shell 311, a distinguishing built-in body 312, a sealing ring 313, a water faucet embedded groove 314 and a connecting rubber block 315, the inner side of the device protection shell 311 is connected with the distinguishing built-in body 312 in an electric welding mode, the sealing ring 313 is connected with the inner side of the device protection shell 311 in an adhesion mode, the water faucet embedded groove 314 is arranged on the upper surface of the device protection shell 311, the connecting rubber block 315 is installed on the right surface of the distinguishing built-in body 312 in an embedded mode and is adhered to the distinguishing built-in body 312, the water cup placing contact pressure mechanism 32 comprises a contact pressure pad 321, a pressure stabilizing connecting body 322, a secondary contact pressure pad 323, a pressure difference data module 324, The pressure measuring and transmitting mechanism comprises a data line 325, a pressure difference measuring and transmitting mechanism 326 and an electric lead 327, wherein the lower surface of a touch pad 321 is provided with a pressure stabilizing connecting body 322 which is connected in a bonding mode, the pressure stabilizing connecting body 322 is positioned on the upper surface of the pressure difference measuring and transmitting mechanism 326 and is electrically connected, the lower surface of a secondary touch pad 323 is connected with the upper surface of a pressure difference data module 324 in a welding mode, the data line 325 is arranged on the right surface of the pressure difference data module 324 and is electrically connected, the data line 325 is installed on the left surface of the pressure difference measuring and transmitting mechanism 326 in an embedding mode, the electric lead 327 is arranged on the right surface of the pressure difference measuring and transmitting mechanism 326, the pressure difference measuring and transmitting mechanism 326 comprises a pressure calculation water deposit module 32601, a switching module 32602, a transmission line 32603, a conversion measuring module 32604, a terminal connecting module 32605 and a wireless transmission module 32606, the pressure calculation water deposit module 32601 is positioned on the right, a conversion metering module 32604 is arranged below the pressure-actuated water accumulation calculating module 32601 and is electrically connected with the same, the transmission line 32603 is arranged on the left surface of the conversion metering module 32604, the terminal connecting module 32605 is arranged on the left surface of the conversion metering module 32604 in an embedded manner, the wireless transmission module 32606 is electrically connected with the terminal connecting module 32605, the hot water cup starting electromagnetic mechanism 33 comprises an electromagnetic control module 331, an infrared sensing module 332, a connecting line 333, an electromagnetic iron block 334, a sliding iron sheet 335, a limit sliding groove 336, a return spring 337 and a spring positioning block 338, the upper surface of the electromagnetic control module 331 is connected with the lower surface of the electromagnetic iron block 334 in a welding manner, the lower surface of the infrared sensing module 332 is provided with the connecting line 333 and is electrically connected with the same, the other end of the connecting line 333 is arranged on the upper surface of the electromagnetic control module 331, the upper surface of the sliding iron sheet 335 is provided with a return spring 337 and is connected by welding, the inner side of the limit sliding groove 336 is provided with a spring positioning block 338 and is connected by electric welding, the right surface of the sliding iron sheet 335 is connected with the friction transmission positioning mechanism 34, the friction transmission positioning mechanism 34 comprises a friction rotating disc 341, a driving rotating disc 342, a positioning pin 343, a transmission belt 344, a driven rotating disc 345 and a limit baffle 346, the left side of the friction rotating disc 341 is connected with the right surface of the sliding iron sheet 335 by fitting, the front end of the friction rotating disc 341 is connected with the rear end of the driving rotating disc 342 by electric welding and is the same axis, the positioning pin 343 penetrates through the front and rear ends of the friction rotating disc 341 and is in clearance fit, the driven rotating disc 345 is positioned above the left side of the driving rotating disc 342 and is movably connected by the transmission belt 344, the driven wheel 345 penetrates through the front and rear surfaces of the limit baffle 346 and is welded, the reset fixing mechanism 35 comprises a fixing block 351, a clamping groove 352, a hemispherical clamping block 353, a connecting guide rod 354 and a connecting spring 355, the left surface of the fixing block 351 is provided with the clamping groove 352, the hemispherical clamping block 353 is installed on the inner side of the fixing block 351 and is connected in a fitting manner, the connecting guide rod 354 penetrates through the front and rear surfaces of the hemispherical clamping block 353 and is perpendicular to each other, the connecting spring 355 is installed on the front surface of the hemispherical clamping block 353 and is connected in a welding manner, the overflow diversion drainage mechanism 36 comprises an overflow diversion groove 361, a connecting pipe 362, a filtering water storage tank 363, a tank water level sensing module 364, a drainage pump valve body 365, a water pumping pipe 366 and a water guiding pipe 367, the lower surface of the overflow diversion groove 361 is provided with the connecting pipe 362, and the connecting pipe 362 is installed on the upper surface of, the pumping pipe 366 is located at the right side of the connection pipe 362 and installed at the same level, the tank water level sensing module 364 is installed at the right surface of the filtered water reservoir 363 by electric welding, the pumping pipe 366 is installed at the left surface of the drain pump valve body 365, and the water conduit 367 is installed at the right surface of the drain pump valve body 365 by embedding.

The invention relates to a water dispenser capable of setting water quantity and separately boiling water, which has the working principle that: when the drinking machine body 1 is started to operate, when a water cup is placed above the touch pad 321, the gravity pressure of the water cup body is transferred into a pressure-operated water accumulation calculating module 32601 through the voltage-stabilizing connecting body 322 to be reserved as a foundation, meanwhile, the electromagnetic control module 331 is started through the electric lead 327, the infrared sensing module 332 is used for detecting transversely, after a hand leaves the water cup, the electromagnetic control module 331 leads current into the electromagnetic iron block 334 through the connecting wire 333, the electromagnetic iron block 334 generates downward adsorption force on the sliding iron sheet 335, the sliding iron sheet 335 is driven to rotate in a friction mode to the right friction turntable 341 while the return spring 337 is pulled, the driving rotating wheel 342 rotates anticlockwise, the driven rotating wheel 342 synchronously rotates through the transmission connection of the transmission belt 344 to rotate the limit baffle 346 around the axis of the driven rotating wheel 342, the hemispherical clamping block 353 embedded when the limit baffle 346 rotates moves the pressure-operated connecting spring 355 forwards along the edge to release the fixation of the limit baffle 346, the limit baffle 346 rotates to be in contact with the connecting rubber block 315 and stops when the limit baffle is horizontally horizontal, hot water flows into a water cup downwards through a water tap 7 by pressing a water taking starting button 6, the water cup shakes under water flow, the water cup moves and falls in shaking due to the support of the limit baffle 346, the water cup increases weight when water is stored in the water cup and stops shaking slowly, the pressure of a touch gasket 321 is also increased, a pressure calculation water accumulation module 32601 calculates water accumulation through pressure difference and is processed by a conversion calculation module 32604 to form water quantity, data is transferred to a separation boiling water setting panel 5 through a wireless transmission module 32606 through a terminal connection module 32605, the water outlet of the water tap stops when the water quantity reaches a set point, the water cup is placed on a secondary touch gasket 323 for use when a cold water area receives water, the water cup is transferred to a converter filter module 32604 through a pressure difference data module 324, and the upper surface of the area built-in body 312 flows into a diversion trench 361 along the edge when water overflows by holding the hand, water enters the filtering water storage tank 363 through the connecting pipe 362, the water level in the tank is higher than the positioning value of the tank body water level sensing module 364, and the drainage pump valve body 365 is sucked through the water suction pipe 366 and is drained through the water guide pipe 367.

The invention solves the problems that when the water dispenser in the prior art is used, hot water is easily received at a position where hot water is placed on a water cup, the cup mouth and a water outlet of a water faucet deviate, a person is scalded when the hot water flows out, the cup body is placed under the inner side, the hot water flowing out of the water faucet impacts the cup body to deviate, the cup is easy to shake, gradually enlarges in amplitude, falls and breaks, the water quantity in the cup is difficult to observe at the outer side when the cup is placed for taking water, and the error of visual measurement of the water quantity is easy to be large when the cup is obliquely seen from top to bottom, so that the water is continuously taken till the water overflows.

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.

Claims (1)

1. The utility model provides a can set up water yield and water dispenser of separation boiling water, its structure includes drinking water organism (1), power source (2), location measurement drinking cup placer (3), heating panel (4), separation boiling water set up panel (5), water intaking start button (6), tap (7), dustproof apron (8), debris storage apron (9), its characterized in that:

the water dispenser comprises a water dispenser body (1), a power interface (2) is arranged on the right surface of the water dispenser body (1) and connected in an embedded mode, a heat dissipation plate (4) and the power interface (2) are arranged on the same horizontal plane, the heat dissipation plate (4) is arranged on the right surface of the water dispenser body (1) in a welding mode, a positioning and metering water cup placing device (3) is arranged below a water taking starting button (6), a separated boiled water setting panel (5) is arranged on the front surface of the water dispenser body (1) in an embedded mode and is electrically connected with the front surface, the water taking starting button (6) is arranged below the separated boiled water setting panel (5) and is arranged on the same horizontal plane, a water faucet (7) is arranged on the upper surface of the positioning and metering water cup placing device (3) in an embedded mode, and a dustproof cover plate (8) is arranged on the front surface of the, the rear surface of the sundries storage cover plate (9) is connected with the front surface of the water dispenser body (1) in a fitting mode;

the positioning and metering cup placing device (3) comprises a device body mechanism (31), a cup placing and pressing mechanism (32), a hot water cup starting electromagnetic mechanism (33), a friction transmission positioning mechanism (34), a reset fixing mechanism (35) and an overflow diversion drainage mechanism (36), the inner side of the device body mechanism (31) is provided with a water cup placing and pressing mechanism (32) which is connected in an electric welding way, a hot water cup starting electromagnetic mechanism (33) is arranged on the right side of the cup placing pressing mechanism (32) and is electrically connected with the hot water cup starting electromagnetic mechanism, the friction transmission positioning mechanism (34) is positioned at the right upper end of the hot water cup starting electromagnetic machine (33) and is connected in a fitting way, the friction transmission positioning mechanism (34) is arranged on the left side of the reset fixing machine (35) in an embedded mode, the overflow diversion drainage mechanism (36) is arranged below the cup placing pressing mechanism (32);

the device body mechanism (31) comprises a device protection shell (311), a distinguishing built-in body (312), a sealing ring (313), a water faucet embedded groove (314) and a connecting rubber block (315), wherein the inner side of the device protection shell (311) is connected with the distinguishing built-in body (312) in an electric welding mode, the sealing ring (313) is connected with the inner side of the device protection shell (311) in an adhesion mode, the water faucet embedded groove (314) is formed in the upper surface of the device protection shell (311), and the connecting rubber block (315) is installed on the right surface of the distinguishing built-in body (312) in an embedding mode and is adhered to the right surface of the distinguishing built-in body (312);

the cup placing touch mechanism (32) comprises a touch gasket (321), a voltage stabilizing connecting body (322), a secondary touch gasket (323), a differential pressure data module (324), a data line (325), a differential pressure metering transmission mechanism (326) and an electric lead (327), the lower surface of the contact pressure pad (321) is provided with a pressure stabilizing connecting body (322) and connected in a fitting way, the pressure stabilizing connecting body (322) is positioned on the upper surface of the differential pressure metering transmission mechanism (326) and is electrically connected, the lower surface of the secondary contact pressure gasket (323) is connected with the upper surface of the differential pressure data module (324) in a welding way, the data line (325) is provided on the right surface of the differential pressure data module (324) and is electrically connected, the data line (325) is mounted on the left surface of the differential pressure metering transmission mechanism (326) in an embedded mode, the electric lead (327) is arranged on the right surface of the differential pressure metering transmission mechanism (326);

the pressure difference metering transmission mechanism (326) comprises a pressure-driven water volume calculating module (32601), a switching module (32602), a transmission line (32603), a conversion metering module (32604), a terminal connection module (32605) and a wireless transmission module (32606), wherein the pressure-driven water volume calculating module (32601) is positioned at the right side of the switching module (32602) and is arranged on the same horizontal plane, the conversion metering module (32604) is arranged below the pressure-driven water volume calculating module (32601) and is electrically connected with the same, the transmission line (32603) is arranged on the left surface of the conversion metering module (32604), the terminal connection module (32605) is arranged on the left surface of the conversion metering module (32604) in an embedded mode, and the wireless transmission module (32606) is electrically connected with the terminal connection module (32605);

the hot water cup starting electromagnetic mechanism (33) comprises an electromagnetic control module (331), an infrared sensing module (332), a connecting wire (333), an electromagnet block (334), a sliding iron sheet (335), a limiting sliding groove (336), a return spring (337) and a spring positioning block (338), wherein the upper surface of the electromagnetic control module (331) is connected with the lower surface of the electromagnet block (334) in a welding mode, the lower surface of the infrared sensing module (332) is provided with the connecting wire (333) and is electrically connected with the connecting wire, the other end of the connecting wire (333) is installed on the upper surface of the electromagnetic control module (331) in an embedded mode, the upper surface of the sliding iron sheet (335) is provided with the return spring (337) and is connected with the return spring in a welding mode, the inner side of the limiting sliding groove (336) is provided with the spring positioning block (338) and is connected with the, the right surface of the sliding iron sheet (335) is connected with a friction transmission positioning mechanism (34);

the friction transmission positioning mechanism (34) comprises a friction turntable (341), a driving rotating wheel (342), a positioning pin (343), a transmission belt (344), a driven rotating wheel (345) and a limit baffle (346), wherein the left side of the friction turntable (341) is connected with the right surface of a sliding iron sheet (335) in a fitting manner, the front end of the friction turntable (341) is connected with the rear end of the driving rotating wheel (342) in an electric welding manner and is in the same axis center, the positioning pin (343) penetrates through the front end and the rear end of the friction turntable (341) and is in clearance fit, the driven rotating wheel (345) is positioned above the left side of the driving rotating wheel (342) and is movably connected through the transmission belt (344), and the driven rotating wheel (345) penetrates through the front surface and the rear surface of the limit baffle (346) and is welded;

the reset fixing mechanism (35) comprises a fixing block (351), a clamping groove (352), a hemispherical clamping block (353), a connecting guide rod (354) and a connecting spring (355), wherein the clamping groove (352) is formed in the left surface of the fixing block (351), the hemispherical clamping block (353) is installed on the inner side of the fixing block (351) and connected in a fitting mode, the connecting guide rod (354) penetrates through the front surface and the rear surface of the hemispherical clamping block (353) and is perpendicular to the front surface and the rear surface of the hemispherical clamping block (353), and the connecting spring (355) is installed on the front surface of the hemispherical clamping block (353) and connected in a welding mode;

the overflow diversion and drainage mechanism (36) comprises an overflow diversion groove (361), a connecting pipe (362), a filtering water storage tank (363), a tank water level sensing module (364), a drainage pump valve body (365), a water pumping pipe (366) and a water guiding pipe (367), wherein the connecting pipe (362) is arranged on the lower surface of the overflow diversion groove (361), the connecting pipe (362) is installed on the upper surface of the filtering water storage tank (363) in an embedded mode, the water pumping pipe (366) is located on the right side of the connecting pipe (362) and is installed on the same horizontal plane, the tank water level sensing module (364) is installed on the right surface of the filtering water storage tank (363) in an electric welding mode, the water pumping pipe (366) is installed on the left surface of the drainage pump valve body (365), and the water guiding pipe (367) is installed on the right surface of the drainage pump valve body (365).

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