CN211022236U - Water drinking device for water quality safety energy-saving and physical cooling multi-temperature section warm boiled water - Google Patents

Abstract

The utility model discloses a drinking water equipment of many warm section warm water of water quality safety energy-conservation and physics cooling, including equipment box, basin, tap mounting panel, its characterized in that, be equipped with the water purification inlet tube in the equipment box, the external delivery pipe of one end of water purification inlet tube, the other end of water purification inlet tube is connected with heat exchanger and third branch pipe, and the water purification inlet tube is close to the one end of heat exchanger and third branch pipe and installs the solenoid valve of intaking the one end that water purification inlet tube and third branch pipe were kept away from to heat exchanger is connected with first branch pipe and second branch pipe, the one end that heat exchanger and second branch pipe were kept away from to first branch pipe is connected with the. The warm boiled water outlet temperature of the drinking water equipment can be set according to requirements, the operation is simple, the safety is high, high-temperature disinfection and sterilization can be realized, the water quality safety is ensured, the warm boiled water is fully boiled water and is physically cooled, the water quality health and safety are ensured, and the energy is saved and the consumption is reduced.

Description

Water drinking device for water quality safety energy-saving and physical cooling multi-temperature section warm boiled water

Technical Field

The utility model relates to a drinking water equipment technical field especially relates to a drinking water equipment of many warm sections warm boiled water of quality of water safety energy-conservation and physics cooling.

Background

The water dispensers in various brands and models are summarized into three types of warm water dispensers, ice-hot water dispensers and ice-hot water dispensers, and the ice-hot water dispensers are divided into semiconductor refrigeration water dispensers and compressor type refrigeration water dispensers. The decision of what type of water dispenser to buy is mainly considered from the number of people drinking water and the refrigeration speed. In terms of refrigerating speed, under the condition of the same refrigerating time, the compressor type refrigerating drinking water is much faster than the semiconductor refrigerating drinking water machine, and the ice water supply amount is also larger than that of the semiconductor refrigerating drinking water machine. Therefore, the compressor type refrigeration water dispenser is suitable for occasions with a large number of drinking water.

The prior art drinking devices generally have the following disadvantages:

1. the conventional drinking water equipment only has one hot water temperature section, and can not meet the requirements of different scenes and different users on using warm boiled water with various temperatures.

2. The conventional water dispenser with water taken at different temperatures has the advantages that warm water is warm water which is not boiled, but is warm boiled water, the high-temperature disinfection and sterilization functions are not realized, and the problem of drinking water safety is solved.

3. The boiled water is cooled to warm boiled water, and the energy for cooling is wasted, thus causing high energy consumption.

Improvements are needed to address the above issues.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a drinking water device with safe and energy-saving water quality and physical cooling multi-temperature section warm boiled water.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a drinking water device for water quality safety energy saving and physical cooling multi-temperature section warm boiled water comprises a device box body, a water tank and a tap mounting plate, and is characterized in that a purified water inlet pipe is arranged in the device box body, one end of the purified water inlet pipe is externally connected with a water supply pipe, the other end of the purified water inlet pipe is connected with a heat exchanger and a third branch pipe, one end of the purified water inlet pipe, which is close to the heat exchanger and the third branch pipe, is provided with a water inlet electromagnetic valve, one end of the heat exchanger, which is far away from the purified water inlet pipe and the third branch pipe, is connected with a first branch pipe and a second branch pipe, one end of the first branch pipe, which is far away from the heat exchanger and the second branch pipe, is connected with a heater through a water inlet at one side, a heating wire is arranged inside, one end of the third branch pipe, which is far away from the purified water inlet pipe and the heat exchanger, is connected with a ceramic warm-boiling water tap, and one end of the fourth branch pipe, which is far away from the hot water outlet, is connected with a ceramic boiling water tap;

be connected with a plurality of connecting pipes between heat exchanger's the middle part and the middle part of third branch pipe, every the connecting pipe is from last to installing first multiple temperature section solenoid valve, second multiple temperature section solenoid valve, third multiple temperature section solenoid valve, fourth multiple temperature section solenoid valve and fifth multiple temperature section solenoid valve down in proper order, heat exchanger's bottom and the bottom of third branch pipe are connected with sixth multiple temperature section solenoid valve, install control panel on the chamber door of equipment box, water inlet solenoid valve, first multiple temperature section solenoid valve, second multiple temperature section solenoid valve, third multiple temperature section solenoid valve, fourth multiple temperature section solenoid valve, fifth multiple temperature section solenoid valve and sixth multiple temperature section solenoid valve all are connected with the control panel electricity.

Preferably, the ceramic warm-boiling water tap and the ceramic boiling water tap are both mounted on the tap mounting plate.

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

the warm boiled water outlet temperature of the drinking water equipment can be set according to requirements, the operation is simple, the safety is high, high-temperature disinfection and sterilization can be realized, the water quality safety is ensured, the warm boiled water is fully boiled water and is physically cooled, the water quality health and safety are ensured, and the energy is saved and the consumption is reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of a drinking water apparatus with water quality safety, energy saving, and physical cooling for warm water in multiple temperature zones.

In the figure: 1 purified water inlet pipe, 2 water inlet solenoid valves, 3 heat exchangers, 4 water inlets, 5 hot water outlets, 6 first multi-temperature-section solenoid valves, 7 second multi-temperature-section solenoid valves, 8 third multi-temperature-section solenoid valves, 9 fourth multi-temperature-section solenoid valves, 10 fifth multi-temperature-section solenoid valves, 11 sixth multi-temperature-section solenoid valves, 12 first branch pipes, 121 second branch pipes, 122 third branch pipes, 123 fourth branch pipes, 13 ceramic warm-boiling water taps, 14 ceramic boiling water taps, 15 heaters, 151 heating wires and 16 control panels.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1, a drinking water apparatus for water quality safety, energy saving and physical cooling multi-temperature section warm boiled water, comprising an apparatus box, a water tank, a faucet mounting plate, a purified water inlet pipe 1 arranged in the apparatus box, one end of the purified water inlet pipe 1 externally connected with a water supply pipe, the other end of the purified water inlet pipe 1 connected with a heat exchanger 3 and a third branch pipe 122, and one end of the purified water inlet pipe 1 near the heat exchanger 3 and the third branch pipe 122 installed with a water inlet solenoid valve 2, one end of the heat exchanger 3 far away from the purified water inlet pipe 1 and the third branch pipe 122 connected with a first branch pipe 12 and a second branch pipe 121, one end of the first branch pipe 12 far away from the heat exchanger 3 and the second branch pipe 121 connected with a heater 15, and the heater 15 connected with the first branch pipe 12 through a water inlet 4 on one side, a, the hot water outlet 5 is also connected with a fourth branch pipe 123, one end of the third branch pipe 122 far away from the purified water inlet pipe 1 and the heat exchanger 3 is connected with a ceramic warm-boiling water tap 13, and one end of the fourth branch pipe 123 far away from the hot water outlet 5 is connected with a ceramic boiling water tap 14.

A plurality of connecting pipes are connected between the middle part of the heat exchanger 3 and the middle part of the third branch pipe 122, each connecting pipe is sequentially provided with a first multi-temperature solenoid valve 6, a second multi-temperature solenoid valve 7, a third multi-temperature solenoid valve 8, a fourth multi-temperature solenoid valve 9 and a fifth multi-temperature solenoid valve 10 from top to bottom, the bottom end of the heat exchanger 3 and the bottom end of the third branch pipe 122 are connected with a sixth multi-temperature solenoid valve 11, a control panel 16 is arranged on a box door of the equipment box body, the water inlet solenoid valve 2, the first multi-temperature solenoid valve 6, the second multi-temperature solenoid valve 7, the third multi-temperature solenoid valve 8, the fourth multi-temperature solenoid valve 9, the fifth multi-temperature solenoid valve 10 and the sixth multi-temperature solenoid valve 11 are electrically connected with the control panel 16.

The ceramic warm and hot water faucet 13 and the ceramic hot water faucet 14 are both mounted on the faucet mounting plate.

The control panel 16 is model number L X-S001.

In the utility model;

initial water injection dry-heating prevention starting state: purified water flows into the heat exchanger 3 from the purified water inlet pipe 1 through the water inlet electromagnetic valve 2, then flows into the heating liner 15 from the first branch pipe 12 and the water inlet 4, and is initially filled with water 5 minutes before the dry-heating-preventing machine starts, the first multi-temperature-stage electromagnetic valve 6, the second multi-temperature-stage electromagnetic valve 7, the third multi-temperature-stage electromagnetic valve 8, the fourth multi-temperature-stage electromagnetic valve 9, the fifth multi-temperature-stage electromagnetic valve 10, the sixth multi-temperature-stage electromagnetic valve 11 and the water inlet electromagnetic valve 2 are all fully opened, at the moment, the ceramic boiling water faucet 14 and the ceramic warm-opening faucet 13 are opened to exhaust and fill water, and when both the ceramic boiling water faucet 14 and the ceramic warm-opening faucet.

The state of warm water to be supplied: after water is successfully injected, the ceramic water taps are closed, all the electromagnetic valves are automatically closed, the heating wire 151 is started to heat water in the heating liner 15 to 100-degree boiling water, the water inlet electromagnetic valve 2 is opened, and when the return difference is 8-92 degrees, the water inlet electromagnetic valve 2 is closed, so that water cannot be discharged when water quality is safe.

The state of warm water to be supplied: the temperature of warm boiled water in a required temperature section is selected and set through a control panel 16, the warm boiled water can respectively select a first multi-temperature-section electromagnetic valve 6, a second multi-temperature-section electromagnetic valve 7, a third multi-temperature-section electromagnetic valve 8, a fourth multi-temperature-section electromagnetic valve 9, a fifth multi-temperature-section electromagnetic valve 10 and a sixth multi-temperature-section electromagnetic valve 11 corresponding to the temperature sections from high to low, the physical cooling multi-temperature-section warm boiled water supply is realized through a heat exchanger 3, when water is supplied, purified water flows into the heat exchanger 3 from a purified water inlet pipe 1 through a water inlet electromagnetic valve 2, then the purified water is injected into a heating liner 15 from a first branch pipe 12 and a water inlet 4, and then boiled water enters the heat exchanger 3 again from a hot water outlet 5 and a second branch pipe 121 at the top of the heating liner 15 for physical cooling heat exchange, meanwhile, the heat energy of the boiled water is recovered to inflow cold water, the energy conservation and consumption, The third multi-temperature-section electromagnetic valve 8, the fourth multi-temperature-section electromagnetic valve 9, the fifth multi-temperature-section electromagnetic valve 10 and the sixth multi-temperature-section electromagnetic valve 11 can be selectively reduced or increased according to actual requirements, so that warm boiled water in multiple temperature sections can be expanded, and the control panel 16 controls the multi-temperature-section electromagnetic valves to flow to the ceramic warm boiled water faucet 13 to take water.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (2)

1. The drinking water equipment comprises an equipment box body, a water tank and a water tap mounting plate, and is characterized in that a water purification inlet pipe (1) is arranged in the equipment box body, one end of the water purification inlet pipe (1) is externally connected with a water supply pipe, the other end of the water purification inlet pipe (1) is connected with a heat exchanger (3) and a third branch pipe (122), one end, close to the heat exchanger (3) and the third branch pipe (122), of the water purification inlet pipe (1) is provided with a water inlet electromagnetic valve (2), one end, far away from the water purification inlet pipe (1) and the third branch pipe (122), of the heat exchanger (3) is connected with a first branch pipe (12) and a second branch pipe (121), one end, far away from the heat exchanger (3) and the second branch pipe (121), of the first branch pipe (12) is connected with a heater (15), and the heater (15) is connected with the first branch pipe (12), a heating wire (151) is arranged in the heater (15), the top of the heater (15) is connected with the second branch pipe (121) through a hot water outlet (5), the hot water outlet (5) is simultaneously connected with a fourth branch pipe (123), one end, far away from the purified water inlet pipe (1) and the heat exchanger (3), of the third branch pipe (122) is connected with a ceramic warm-boiling water faucet (13), and one end, far away from the hot water outlet (5), of the fourth branch pipe (123) is connected with a ceramic boiling water faucet (14);

a plurality of connecting pipes are connected between the middle part of the heat exchanger (3) and the middle part of the third branch pipe (122), each connecting pipe is sequentially provided with a first multi-temperature-section electromagnetic valve (6), a second multi-temperature-section electromagnetic valve (7), a third multi-temperature-section electromagnetic valve (8), a fourth multi-temperature-section electromagnetic valve (9) and a fifth multi-temperature-section electromagnetic valve (10) from top to bottom, the bottom end of the heat exchanger (3) and the bottom end of the third branch pipe (122) are connected with a sixth multi-temperature-section electromagnetic valve (11), a control panel (16) is installed on a box door of the equipment box body, and the water inlet electromagnetic valve (2), the first multi-temperature section electromagnetic valve (6), the second multi-temperature section electromagnetic valve (7), the third multi-temperature section electromagnetic valve (8), the fourth multi-temperature section electromagnetic valve (9), the fifth multi-temperature section electromagnetic valve (10) and the sixth multi-temperature section electromagnetic valve (11) are all electrically connected with the control panel (16).

2. The drinking water equipment for warm boiled water with safe water quality, energy conservation and physical temperature reduction and multiple temperature sections as claimed in claim 1, wherein the ceramic warm boiled water faucet (13) and the ceramic boiled water faucet (14) are both mounted on a faucet mounting plate.

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