CN211432338U - Novel drinking water convenient to rapid heating device - Google Patents

Abstract

The utility model discloses a novel be convenient for rapid heating drinking water device, the pressure tap comprises a water inlet pipe, solenoid valve one, a main part, a pedestal, automatically controlled cold water pipe and automatically controlled hot-water line, the main part is equipped with the shell, shell cavity is through first baffle, the second baffle, the third baffle, the fourth baffle, the reservoir chamber is split into to fifth baffle and sixth baffle, the surge chamber, steam reflux room, preheating chamber and rapid heating chamber, the indoor wall mounting far infrared electric heat membrane of rapid heating, establish the lead screw in the rapid heating chamber, the lead screw top is through sealed bearing connection inverter motor, threaded connection sliding sleeve on the lead screw, the sliding sleeve both sides are equipped with the second installation pole, it is connected with the agitator jacket to rotate on the second installation pole. The utility model discloses utilize far infrared electric heat membrane to the drinking water heating, the sliding sleeve drives second installation pole and reciprocates simultaneously, and the stirring cover rotates, mixes the drinking water, sets up preheating chamber, heat preservation shell and heat preservation cotton, effectively accelerates rate of heating, improves heating efficiency.

Description

Novel drinking water convenient to rapid heating device

Technical Field

The utility model relates to a drinking water heating equipment technical field specifically is a novel rapid heating drinking water of being convenient for device.

Background

Along with the development of science and technology, people's life is convenient gradually, and the watering device that has the heating function is seen everywhere, application number 201720133248.4, and grant bulletin number CN 207202722U provides an electromagnetic induction heating water dispenser, and it includes: water supply installation, it includes the shell, the cold water jar, the cold water delivery port, the hot water delivery port, the boiling water jar, the shell top is equipped with the cold water inlet, the cold water jar sets up inside the shell, the cold water inlet links to each other with the cold water jar, the cold water jar is connected with the boiling water jar, cold water delivery port and hot water delivery port set up the one side at the casing, heating device, it includes the magnet body, cylindric insulating casing, heating coil, the support plate is fixed on the shell, the magnet body is fixed on the support plate, form the cavity chamber between casing and the magnet body, the insulating casing cover is established in the outside of magnet body, heating coil winding is outside the casing, the utility model discloses distinguish boiling water and non-boiling water, in order to avoid repeatedly boiling the drinking water, use the electromagnetic heating principle, rate is fast: the heating mode is single, and the heating speed is slow.

SUMMERY OF THE UTILITY MODEL

Problems to be solved

To the current problem that the heating mode is single, that rate of heating is slow of heating drinking device, the utility model aims to provide a novel rapid heating drinking device of being convenient for, through preheating chamber and rapid heating chamber cooperation, utilize far infrared electric heat membrane and stirring cover combined action in order to solve the problem that proposes in the above-mentioned background art.

Technical scheme

In order to achieve the above object, the utility model provides a following technical scheme:

a novel drinking water device convenient for rapid heating comprises a water inlet pipe, a first electromagnetic valve, a main body, a base, an electric control cold water pipe and an electric control hot water pipe, wherein the main body is provided with a shell, the top end of the shell is connected with the water inlet pipe, the first electromagnetic valve is installed on the water inlet pipe, the electric control cold water pipe is installed on the side surface of the shell, the outer part of the lower end of the shell is connected with a heat preservation shell, the electric control hot water pipe is installed on the heat preservation shell, a first partition plate, a second partition plate, a third partition plate, a fourth partition plate, a fifth partition plate and a sixth partition plate are installed in the inner cavity of the shell, the inner cavity of the shell is divided into a water storage chamber, a buffer chamber, a steam backflow chamber, a preheating chamber and a rapid heating chamber by the first partition plate, the second partition plate, the third partition plate, the utility model discloses a quick heating device, including lead screw, sealed bearing, third baffle, fourth baffle, sliding sleeve, temperature-sensing ware two, lead screw top is connected with sealed bearing, sealed bearing runs through and installs on the fourth baffle, install inverter motor between third baffle and the fourth baffle, inverter motor's output passes through sealed bearing and connects the lead screw, threaded connection sliding sleeve on the lead screw, sliding sleeve bilateral symmetry is connected with the second installation pole, it is connected with the agitator housing to rotate on the second installation pole, install water level sensing ware four and temperature-sensing ware two on the rapid heating room inner wall.

As a further aspect of the present invention: first baffle, second baffle, third baffle and fourth baffle both ends all with shell fixed connection, fifth baffle upper end fixed connection fourth baffle, fifth baffle lower extreme fixed connection shell bottom, sixth baffle upper end fixed connection second baffle, sixth baffle lower extreme fixed connection third baffle.

As a further aspect of the present invention: the water level sensor comprises a water storage chamber, a water level sensor I, a water pipe I, a solenoid valve II, a steam exhaust pipe, a check valve, a steam backflow chamber, a water pipe II, a solenoid valve III, a preheating chamber, a heating wire, an electric heating wire one end fixedly connected with a shell, a fifth partition plate fixedly connected with the other end of the heating wire, a water level sensor III and a temperature sensor I, wherein the water level sensor I is arranged on the inner wall of the water storage chamber, the water pipe I is connected between the first partition plate and the second partition plate, the solenoid valve II is arranged on the side wall of the buffer chamber, the steam exhaust pipe is arranged on one side, close to the buffer chamber, of the sixth partition plate, the check valve is arranged in the steam exhaust pipe, the buffer chamber is communicated with the steam backflow chamber through the steam exhaust pipe, the water pipe II is arranged between the third partition plate and the fourth partition plate, and a third water pipe is hermetically arranged at the bottom end of the fifth partition plate, a fourth electromagnetic valve is arranged on the third water pipe, the preheating chamber is communicated with the rapid heating chamber through the third water pipe, and a steam outlet pipe is connected between the third partition plate and the fourth partition plate.

As a further aspect of the present invention: the cavity between the heat preservation shell and the shell is filled with heat preservation cotton, and the drinking water in the preheating chamber and the rapid heating chamber is preserved heat, so that the heating speed is increased.

As a further aspect of the present invention: the base comprises a first installation rod and a roller, the upper end of the first installation rod is fixedly connected with the heat preservation shell, and the lower end of the first installation rod is connected with the roller.

Has the beneficial effects of

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model discloses utilize far infrared electric heat membrane to drinking water heating, inverter motor operation drives the lead screw rotation simultaneously, and the sliding sleeve drives second installation pole and reciprocates, and the stirring cover rotates under rivers promotion in the removal process, further mixes the drinking water for rate of heating improves heating efficiency.

(2) The utility model discloses a set up the preheating chamber, effectively accelerate rate of heating, improve heating efficiency.

(3) The utility model discloses set up vapor and get into steam backward flow room from a steam pipe to finally return the preheating chamber through the steam extraction pipe, scalded by spun vapor when effectively avoiding the user to connect hot water greatly, retrieve vapor simultaneously, it is energy-concerving and environment-protective.

(4) The utility model discloses the setting sets up heat preservation shell and heat preservation cotton, keeps warm to the drinking water in preheating chamber and the rapid heating room for rate of heating.

Drawings

Fig. 1 is a schematic structural view of a novel device for heating water quickly.

Fig. 2 is a sectional view of a novel drinking water device convenient for rapid heating.

FIG. 3 is a schematic view of the connection between the screw and the stirring sleeve in a novel device for heating water quickly.

In the figure: 1. a water inlet pipe; 2. a first electromagnetic valve; 3. a main body; 4. a base; 5. an electrically controlled cold water pipe; 6. an electrically controlled hot water pipe; 7. a housing; 8. a first separator; 9. a second separator; 10. a third partition plate; 11. a fourth separator; 12. a fifth partition plate; 13. a first water level sensor; 14. a water storage chamber; 15. a buffer chamber; 16. a sixth partition plate; 17. a vapor return chamber; 18. a steam exhaust pipe; 19. a second water level sensor; 20. a first water pipe; 21. a water pipe II; 22. a steam outlet pipe; 23. a preheating chamber; 24. an electric heating wire; 25. a third water level sensor; 26. a first temperature sensor; 27. a water pipe III; 28. a far infrared electrothermal film; 29. a variable frequency motor; 30. sealing the bearing; 31. a first mounting bar; 32. a lead screw; 33. a sliding sleeve; 34. a second mounting bar; 35. a stirring sleeve; 36. a rapid heating chamber; 37. a heat preservation shell; 38. and (5) heat preservation cotton.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1-3, in the embodiment of the present invention, a novel drinking water dispenser convenient for rapid heating includes a water inlet pipe 1, a first solenoid valve 2, a main body 3, a base 4, an electric control cold water pipe 5 and an electric control hot water pipe 6, the model of the first solenoid valve 2 is 2W-160-15, the main body 3 is provided with a housing 7, the housing 7 is provided with a control panel, the inside of the housing 7 is provided with a single chip microcomputer, the model of the single chip microcomputer is AT89C51, the control panel is in communication connection with the single chip microcomputer, the top end of the housing 7 is connected with the water inlet pipe 1, the water inlet pipe 1 is provided with the first solenoid valve 2, the first solenoid valve 2 is in communication connection with the control panel, the inner cavity of the housing 7 is provided with a first partition plate 8, a second partition plate 9, a third partition plate 10, a fourth partition plate 11, a fifth partition, Both ends of a third partition plate 10 and a fourth partition plate 11 are fixedly connected with a shell 7, the upper end of a fifth partition plate 12 is fixedly connected with the fourth partition plate 11, the lower end of the fifth partition plate 12 is fixedly connected with the bottom end of the shell 7, the upper end of a sixth partition plate 16 is fixedly connected with a second partition plate 9, the lower end of the sixth partition plate 16 is fixedly connected with the third partition plate 10, the inner cavity of the shell 7 is divided into a water storage chamber 14, a buffer chamber 15, a steam reflux chamber 17, a preheating chamber 23 and a rapid heating chamber 36 by the first partition plate 8, the second partition plate 9, the third partition plate 10, the fourth partition plate 11, the fifth partition plate 12 and the sixth partition plate 16, a first water level sensor 13 is installed on the inner wall of the water storage chamber 14, the model of the first water level sensor 13 is DF-96D, the first water level sensor 13 is respectively communicated with a first electromagnetic valve 2 and a single chip microcomputer, and an, and is communicated with a water storage chamber 14, a first water pipe 20 is connected between the first partition plate 8 and the second partition plate 9, a second electromagnetic valve is installed on the first water pipe 20, the type of the second electromagnetic valve is 2W-160-15, the second electromagnetic valve is in communication connection with a single chip microcomputer, the water storage chamber 14 is communicated with a buffer chamber 15 through the first water pipe 20, a second water level sensor 19 is installed on the side wall of the buffer chamber 15, the type of the second water level sensor 19 is DF-96D, the second water level sensor 19 is respectively in communication connection with the second electromagnetic valve and the single chip microcomputer, a steam exhaust pipe 18 is installed on one side, close to the buffer chamber 15, of the sixth partition plate 16, a check valve is installed in the steam exhaust pipe 18, the type of the check valve is H12W-16P, the buffer chamber 15 is communicated with a steam return chamber 17 through the steam exhaust pipe 18, a second water pipe 21 is installed between the third partition plate 10 and the fourth partition, a third electromagnetic valve is mounted on the second water pipe 21, the type of the third electromagnetic valve is 2W-160-15, the third electromagnetic valve is respectively in communication connection with a second water level sensor 19 and a single chip microcomputer, the buffer chamber 15 is communicated with the preheating chamber 23 through the second water pipe 21, an electric heating wire 24 is mounted in the preheating chamber 23, the electric heating wire 24 is in communication connection with the single chip microcomputer, one end of the electric heating wire 24 is fixedly connected with the shell 7, the other end of the electric heating wire 24 is fixedly connected with the fifth partition plate 12, a third water level sensor 25 and a first temperature sensor 26 are mounted on the inner wall of the preheating chamber 23, the type of the third water level sensor 25 is DF-96D, the third water level sensor 25 is respectively in communication connection with the third electromagnetic valve and the single chip microcomputer, the first temperature sensor 26 is respectively in communication connection with the electric heating wire 24 and the single chip microcomputer, and, when the third water level sensor 25 detects that the water amount is insufficient, the third electromagnetic valve is opened, drinking water in the buffer chamber 15 enters the preheating chamber 23 from the second water pipe 21, the electric heating wire 24 is electrified to preheat the water, the first temperature sensor 26 senses that the water temperature reaches a set maximum value, the electric heating wire 24 stops working, the first temperature sensor 26 senses that the water temperature is lower than a set minimum value, the electric heating wire 24 starts working, the third water pipe 27 is hermetically installed at the bottom end of the fifth partition plate 12, the fourth electromagnetic valve is installed on the third water pipe 27 and is in 2W-160-15 model number, the fourth electromagnetic valve is in communication connection with the single chip microcomputer, the preheating chamber 23 is communicated with the rapid heating chamber 36 through the third water pipe 27, the far infrared electrothermal film 28 is installed on the inner wall of the rapid heating chamber 36, the far infrared electrothermal film 28 is in communication connection with the single chip, the top end of the screw rod 32 is connected with a sealing bearing 30, the sealing bearing 30 is installed on a fourth partition plate 11 in a penetrating mode, a variable frequency motor 29 is installed between a third partition plate 10 and the fourth partition plate 11, the type of the variable frequency motor 29 is YE2VP, the variable frequency motor 29 is in communication connection with a single chip microcomputer, the output end of the variable frequency motor 29 is connected with the screw rod 32 through the sealing bearing 30, the screw rod 32 is in threaded connection with a sliding sleeve 33, two sides of the sliding sleeve 33 are symmetrically connected with second installation rods 34, the second installation rods 34 are rotatably connected with a stirring sleeve 35, the inner wall of the rapid heating chamber 36 is provided with a water level sensor IV and a temperature sensor II, the water level sensor IV is DF-96D in type, the electrothermal film water level sensor IV is in communication connection with a solenoid valve IV and the single chip microcomputer, and the temperature sensor II is in, a steam outlet pipe 22 is connected between the third partition plate 10 and the fourth partition plate 11, preheated water enters a rapid heating chamber 36 from a water pipe III 27, the far infrared electrothermal film 28 is electrified to continuously heat drinking water, meanwhile, the variable frequency motor 29 operates to drive the screw rod 32 to rotate, the rotating direction of the variable frequency motor 29 is continuously changed, so that the sliding sleeve 33 drives the second mounting rod 34 to move up and down to disturb water flow, the stirring sleeve 35 rotates under the pushing of the water flow in the moving process to further mix the drinking water, the heating speed is increased, the heating efficiency is improved, steam generated by heating enters the steam return chamber 17 from the steam outlet pipe 22 and finally returns to the preheating chamber 23 through the steam exhaust pipe 18, the scalding of the steam sprayed when a user receives hot water is effectively avoided, the steam is recovered, the energy is saved, the environment is protected, a heat preservation shell 37 is connected to the outer part of the lower end of the shell 7, and heat preservation cotton 38 is filled in a cavity between the, the heat preservation shell 37 is provided with an electric control hot water pipe 6, the electric control hot water pipe 6 is communicated with the rapid heating chamber 36, the base 4 comprises a first installation rod 31 and a roller, the upper end of the first installation rod 31 is fixedly connected with the heat preservation shell 37, and the lower end of the first installation rod 31 is connected with the roller.

The utility model discloses a theory of operation is: after the external power supply of the device is powered on, drinking water is connected with the water inlet pipe 1 through the external pipeline, when the water level sensor I13 senses that the water in the water storage chamber 14 is insufficient, water level information is transmitted to the single chip microcomputer in the form of an electric signal, the single chip microcomputer processes and converts the water, and finally the water is displayed on the control panel, the single chip microcomputer controls the electromagnetic valve I2 to be opened, the drinking water enters the water storage chamber 14, similarly, when the water level sensor II 19 senses that the water in the buffer chamber 15 is insufficient, the drinking water enters the buffer chamber 15 from the water pipe I20, when the water level sensor III 25 detects that the water in the preheating chamber 23 is insufficient, the electromagnetic valve III is opened, the drinking water in the buffer chamber 15 enters the preheating chamber 23 from the water pipe II 21, the heating wire 24 is powered on to preheat the water, after the temperature sensed by the temperature sensor I26 reaches the set maximum, the heating wire 24 starts to work, the preheated water enters the rapid heating chamber 36 from the third water pipe 27, the drinking water is continuously heated after the far infrared electrothermal film 28 is electrified, meanwhile, the variable frequency motor 29 operates to drive the screw rod 32 to rotate, the sliding sleeve 33 drives the second mounting rod 34 to move, water flow is disturbed, the stirring sleeve 35 rotates under the pushing of the water flow in the moving process, the drinking water is further mixed, the heating speed is accelerated, the heating efficiency is improved, the steam generated by heating enters the steam return chamber 17 from the steam outlet pipe 22 and finally returns to the preheating chamber 23 through the steam exhaust pipe 18, the phenomenon that a user is scalded by the sprayed steam when receiving hot water is effectively avoided, the steam is recovered, energy conservation and environmental protection are achieved, and after the heating is completed, the drinking water flows out from the electric control hot water pipe.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. 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 (5)

1. The utility model provides a novel be convenient for rapid heating drinking water device, includes inlet tube (1), solenoid valve (2), main part (3), base (4), automatically controlled cold water pipe (5) and automatically controlled hot-water line (6), main part (3) are equipped with shell (7), inlet tube (1) is connected on shell (7) top, install solenoid valve (2) on inlet tube (1), install in shell (7) side automatically controlled cold water pipe (5), shell (7) lower extreme external connection has heat preservation shell (37), install automatically controlled hot-water line (6) on heat preservation shell (37), a serial communication port, first baffle (8), second baffle (9), third baffle (10), fourth baffle (11), fifth baffle (12) and sixth baffle (16) are installed to shell (7) inner chamber, first baffle (8), second baffle (9), The inner cavity of the shell (7) is divided into a water storage chamber (14), a buffer chamber (15), a steam reflux chamber (17), a preheating chamber (23) and a rapid heating chamber (36) by a third partition plate (10), a fourth partition plate (11), a fifth partition plate (12) and a sixth partition plate (16), a far infrared electrothermal film (28) is installed on the inner wall of the rapid heating chamber (36), a lead screw (32) is arranged in the rapid heating chamber (36), the top end of the lead screw (32) is connected with a sealing bearing (30), the sealing bearing (30) is installed on the fourth partition plate (11) in a penetrating manner, a variable frequency motor (29) is installed between the third partition plate (10) and the fourth partition plate (11), the output end of the variable frequency motor (29) is connected with the lead screw (32) through the sealing bearing (30), a sliding sleeve (33) is in threaded connection with the lead screw (32), and second installation rods (34) are, the second mounting rod (34) is rotatably connected with a stirring sleeve (35), and the inner wall of the rapid heating chamber (36) is provided with a water level sensor IV and a temperature sensor II.

2. The novel drinking water heating device convenient to heat rapidly as claimed in claim 1, wherein both ends of the first partition plate (8), the second partition plate (9), the third partition plate (10) and the fourth partition plate (11) are fixedly connected with the casing (7), the upper end of the fifth partition plate (12) is fixedly connected with the fourth partition plate (11), the lower end of the fifth partition plate (12) is fixedly connected with the bottom end of the casing (7), the upper end of the sixth partition plate (16) is fixedly connected with the second partition plate (9), and the lower end of the sixth partition plate (16) is fixedly connected with the third partition plate (10).

3. The novel drinking water device convenient to heat rapidly as claimed in claim 1, wherein a first water level sensor (13) is installed on the inner wall of the water storage chamber (14), a first water pipe (20) is connected between the first partition plate (8) and the second partition plate (9), a second electromagnetic valve is installed on the first water pipe (20), the water storage chamber (14) is communicated with the buffer chamber (15) through the first water pipe (20), a second water level sensor (19) is installed on the side wall of the buffer chamber (15), a steam exhaust pipe (18) is installed on one side, close to the buffer chamber (15), of the sixth partition plate (16), a check valve is installed in the steam exhaust pipe (18), the buffer chamber (15) is communicated with the reflux steam chamber (17) through the steam exhaust pipe (18), and a second water pipe (21) is installed between the third partition plate (10) and the fourth partition plate (11), install solenoid valve three on water pipe two (21), buffer chamber (15) and preheating chamber (23) lead to pipe two (21) intercommunication, install heating wire (24) in preheating chamber (23), heating wire (24) one end fixed connection shell (7), heating wire (24) other end fixed connection fifth baffle (12), install water level inductor three (25) and temperature-sensing ware (26) on preheating chamber (23) inner wall, water pipe three (27) are installed to fifth baffle (12) bottom seal, install solenoid valve four on water pipe three (27), preheating chamber (23) and quick heating chamber (36) lead to pipe three (27) intercommunication, be connected with steam outlet pipe (22) between third baffle (10) and fourth baffle (11).

4. A novel drinking water device convenient for rapid heating as claimed in claim 1, characterized in that the cavity between the heat-insulating shell (37) and the outer shell (7) is filled with heat-insulating cotton (38).

5. The novel drinking water heating device convenient to heat rapidly as claimed in claim 1, wherein the base (4) comprises a first mounting rod (31) and a roller, the upper end of the first mounting rod (31) is fixedly connected with a heat preservation shell (37), and the lower end of the first mounting rod (31) is connected with the roller.

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