CN203609272U - Water dispenser - Google Patents

Abstract

The utility model discloses a water dispenser. The water dispenser comprises a water-inlet pipe, a heat-preserving body, a control plate and a water-outlet pipe, wherein the water-inlet pipe is provided with an electromagnetic valve controlled by the control plate; at least two heating inner containers which can be powered by grade and a high-temperature pump are arranged in the heat-preserving body; the high-temperature pump is arranged on the bottom of the inner cavity of the heating inner container which is preferentially powered; the high-temperature pump is electrically connected with the control plate; a water outlet of the high-temperature pump is communicated with the water-outlet pipe. The water dispenser can prevent drinking water in the heating inner containers from being repeatedly boiled, so that the water dispenser is relatively energy-saving, and hot water can be continuously supplied according to the actual needs of a user.

Description

Water dispenser

Technical field:

The utility model relates to a kind of water dispenser.

Background technology:

At present, known water dispenser is made up of bucket, heating inner liner, heater, temperature controller substantially, its operation principle is as follows: the water in bucket enters in heating inner liner, water temperature lower than when setting value heater start heating, when water temperature arrives when setting value, temperature controller contact disconnects, and heater stops heating and in keeping warm mode, when water time reheats lower than setting value again, so repeatedly.Meanwhile, because known water dispenser is taked successively water intake mode conventionally,, in the time that hot water part flows out, cold water will enter heating inner liner, so just causes the fusion of cold water and hot water, causes water temperature to decline, thus trigger heater heating.So just cause the water in heating inner liner repeatedly to heat, produce the hot water often boiling, thousand boiling water that are commonly called as, impair one's health and often drink thousand boiling water.Heating can consume mass energy repeatedly in addition.Be exactly a bit that current water dispenser generally only has the continuous hot water water yield of 1 liter will become warm water afterwards in addition, can not continuous and effective supplying high temperature hot water.

Utility model content:

Technical problem to be solved in the utility model is, provides a kind of and can prevent that the drinking water in heating inner liner from boiling repeatedly and relatively energy-conservation water dispenser, and this water dispenser can also continue hot-water supply according to user's actual needs.

Technical solution of the present utility model is, a kind of water dispenser with following structure is provided, and comprises water inlet pipe, thermal insulator, control panel and outlet pipe; Described water inlet pipe is provided with the magnetic valve of controlled making sheet control, it is characterized in that, in described thermal insulator, be provided with heating inner liner and a high-temperature pump of at least two gradable power supplies, described high-temperature pump is arranged on the heating inner liner intracavity bottom of preferential power supply, high-temperature pump is electrically connected with control panel, and high-temperature pump delivery port is communicated with outlet pipe.

Adopt after above structure compared with prior art, the utlity model has following advantage: owing to being provided with the heating inner liner of at least two gradable power supplies in thermal insulator, the drinking water that user can select to heat a heating inner liner according to actual needs still heats the drinking water of multiple heating inner liners.In addition, drinking water in heating inner liner just enters insulation pattern after heating completes, under the effect of magnetic valve and control panel, in the time that hot water part flows out, cold water can not enter in heating inner liner, the hot water heating just can not neutralized and need reheat by cold water, has so both prevented thousand boiling water, has also saved the energy.

As preferably, in described thermal insulator, be also provided with blast pipe, described blast pipe is arranged on and is provided with the heating inner liner top of high-temperature pump and is communicated with the cavity of this heating inner liner.Had blast pipe, the water level in water level and the heating inner liner in outlet pipe is consistent, the part outlet pipe that makes to exceed heating inner liner water level can residual drinking water.

As preferably, in described thermal insulator, be provided with the first heating inner liner and the second heating inner liner, described the first heating inner liner is communicated with water inlet pipe, and the first heating inner liner intracavity bottom is provided with the heating tube and the temperature sensor that are electrically connected with control panel respectively; Described the second heating inner liner was communicated with the first heating inner liner by communicating pipe, and the second heating inner liner intracavity bottom is provided with the heating tube and the high-temperature pump that are electrically connected with control panel respectively, and described high-temperature pump delivery port is communicated with outlet pipe; Described the second heating inner liner intracavity bottom is provided with temperature sensor, and the second heating inner liner top is provided with blast pipe, and described blast pipe is communicated with the second heating inner liner cavity; The second heating inner liner inner chamber is also provided with 3 sensed water level sensors, and described sensed water level sensor is electrically connected with control panel respectively.

As preferably, described 3 sensed water level sensors refer to the high-order level sensor, the critical groundwater table sensor that are located at respectively the second heating inner liner inwall one side roof part and bottom, and are located at the normal water level sensor in the middle of described high-order level sensor and critical groundwater table sensor.

As improvement, described control panel comprises power switch, one-level switch, secondary switch, three step switch, effluent switch and boiling water indicator lamp.Owing to there being classification that switch is set, user can, according to actual conditions water for heating amount, save the energy.

As further improvement, described one-level switch is that 1L water arranges switch, described secondary switch is that 2.5L water arranges switch, described three step switch is that 5L water arranges switch.According to the drinking water capacity of user's daily need reasonable arrangement heating, save the energy.

Accompanying drawing explanation:

Accompanying drawing is the structure principle chart of a kind of embodiment of the present utility model.

Shown in figure: 1, the first heating inner liner, 2, the second heating inner liner, 5, heating tube, 6, heating tube, 10, temperature sensor, 13, temperature sensor, 14, high-order level sensor, 15, normal water level sensor, 16, critical groundwater table sensor, 18, water inlet pipe, 20, outlet pipe, 21, magnetic valve, 22, high-temperature pump, 23, thermal insulator, 24, control panel, 25, power switch, 26,1L water arranges switch, 27,2.5L water arranges switch, 28,5L water arranges switch, 30, blast pipe, 31, effluent switch, 32, boiling water indicator lamp

The specific embodiment:

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail:

As shown in the figure, drinking water heating device of the present utility model, comprises water inlet pipe 18, thermal insulator 23, control panel 24 and outlet pipe 20; Described water inlet pipe 18 is provided with the magnetic valve 21 that controlled making sheet 24 is controlled, it is characterized in that, in described thermal insulator 23, be provided with heating inner liner and a high-temperature pump of at least two gradable power supplies, described high-temperature pump 22 is arranged on the heating inner liner intracavity bottom of preferential power supply, high-temperature pump 22 is electrically connected with control panel 24, and high-temperature pump 22 delivery ports are communicated with 20 with outlet pipe.Owing to being provided with the heating inner liner of at least two gradable power supplies in thermal insulator 23, user just can select according to actual needs the drinking water of a heating inner liner of heating or heat the drinking water of multiple heating inner liners.

In described thermal insulator 23, be also provided with blast pipe 30, described blast pipe 30 is arranged on and is provided with the heating inner liner top of high-temperature pump 22 and is communicated with the cavity of this heating inner liner.

In described thermal insulator 23, be provided with the first heating inner liner 1 and the second heating inner liner 2, described the first heating inner liner 1 is communicated with water inlet pipe 18, and the first heating inner liner 1 intracavity bottom is provided with the heating tube 5 and the temperature sensor 10 that are electrically connected with control panel 24 respectively; Described the second heating inner liner 2 was communicated with the first heating inner liner 1 by communicating pipe, and the second heating inner liner 2 intracavity bottoms are provided with the heating tube 6 and the high-temperature pump 22 that are electrically connected with control panel 24 respectively, and described high-temperature pump 22 delivery ports are communicated with outlet pipe 20; Described the second heating inner liner 2 intracavity bottoms are provided with temperature sensor 13, the second heating inner liner tops 2 and are provided with blast pipe 30, and described blast pipe 30 is communicated with the second heating inner liner 2 cavitys; The second heating inner liner 2 inner chambers are also provided with 3 sensed water level sensors, and described sensed water level sensor is electrically connected with control panel 24 respectively.

Described 3 sensed water level sensors refer to the high-order level sensor 14, the critical groundwater table sensor 16 that are located at respectively the second heating inner liner 2 inwall one side roof parts and bottom, and are located at the normal water level sensor 15 in the middle of described high-order level sensor 14 and critical groundwater table sensor 16.

Described control panel 24 comprises power switch 25, one-level switch, secondary switch, three step switch, effluent switch 31 and boiling water indicator lamp 32.

Described one-level switch is that 1L water arranges switch 26, described secondary switch is that 2.5L water arranges switch 27, described three step switch is that 5L water arranges switch 28.

The operation principle of the utility model embodiment is as follows:

After power-on switch 25, control panel 24 can be selected to add water capacity according to arranging of switch is set, as following two kinds:

Capacity setting one adds water: if the water consumption of 1L is set, control panel 24 can be controlled the add water position of normal water level sensor 15 of magnetic valves 21 and stop.

Capacity setting two adds water: if the water consumption of 2,5L, 5L is set, control panel 24 can be controlled the add water position of high-order level sensor 14 of magnetic valves 21 and stop.

The rear control plate 24 of having moved when adding water can arrange selection heating mode according to what switch was set, has following three kinds of heating modes and a kind of keeping warm mode pattern, is described as follows:

Heating mode one: the temperature that control panel 24 detects according to temperature sensor 13 in the time that user selects 1L water consumption judges whether heating.If temperature, lower than critical boiling point (approximately 98 degree), is opened the power supply of heating tube 6, the water of the second heating inner liner 2 is heated to critical boiling point and then enters keeping warm mode and close the power supply of heating tube 6, and boiling water indicator lamp 32 is lighted; If temperature equals critical boiling point, directly enter keeping warm mode, boiling water indicator lamp 32 is lighted.In the time that user triggers effluent switch 31, control panel 24 will start high-temperature pump 22 to delivery port pump hot water, in the time that water level is down to critical groundwater table sensor 16, boiling water indicator lamp 32 extinguishes and enters capacity setting one pattern that adds water, and then enters heating mode one, so periodic duty.

Heating mode two: in the time that user selects 2.5L water consumption, the temperature that control panel 24 detects according to temperature sensor 13 judges whether heating.If temperature, lower than critical boiling point, is opened the power supply of heating tube 6, the water of the second heating inner liner 2 is heated to critical boiling point, then enter keeping warm mode and close the power supply of heating tube 6, and boiling water indicator lamp 32 is lighted; If temperature equals critical boiling point, directly enter keeping warm mode, boiling water indicator lamp 32 is lighted.In the time that user triggers effluent switch 31, control panel 24 will start high-temperature pump 22 to delivery port pump hot water, and in the time that water level is down to critical groundwater table sensor 16, boiling water indicator lamp extinguishes to enter and adds aqueous mode 2, then enters heating mode two, so periodic duty.

Heating mode three: in the time that user selects 5L water consumption, the temperature that control panel 24 detects according to temperature sensor 13 judges whether heating.If temperature, lower than critical boiling point, is opened the power supply of heating tube 6, the water of the second heating inner liner 2 is heated to critical boiling point, then enter keeping warm mode and close the power supply of heating tube 6, and boiling water indicator lamp 32 is lighted.If temperature equals critical boiling point, directly enter keeping warm mode, boiling water indicator lamp 32 is lighted.In the time that the water of the second heating inner liner 2 enters keeping warm mode, the temperature that control panel 24 detects according to temperature sensor 10 judges whether heating.If temperature, lower than critical boiling point, is opened the power supply of heating tube 5, the water of the first heating inner liner 1 is heated to critical boiling point 1, then enter keeping warm mode and close the power supply of heating tube 5, if temperature equals critical boiling point 1, directly enter keeping warm mode.In the time that user triggers effluent switch 31, control panel 24 will start high-temperature pump 22 to delivery port pump hot water, in the time that water level is down to critical groundwater table sensor 16, enters and add aqueous mode two, then close the power supply of heating tube 5 and enter and when heating mode two, the second heating inner liner 2 temperature equal critical boiling point, enter heating mode three.In the time that water level is down to critical groundwater table sensor 16 again, boiling water indicator lamp 32 extinguishes.In the time that the water of the second heating inner liner 2 is heated to critical boiling point and then enters keeping warm mode, boiling water indicator lamp 32 is just lighted, so periodic duty.

Keeping warm mode pattern:

1, when heating inner liner is heated to after critical boiling point, can enter insulation pattern, only have and in the time that control panel 24 detects that the temperature of temperature sensor is in below 95 degree, just can enter again heated condition.

2, under insulation pattern, heating tube 6 has the preferential right of electricity consumption, and in the time that it needs electricity consumption, the power supply of heating tube 5 will be closed, and that is to say by the heating inner liner of high-temperature pump 22 water outlets and preferentially powers.

Below be only described with regard to the utility model preferred embodiment, but can not be interpreted as it is limitations on claims.The utility model is not limited to above embodiment, and its concrete structure allows to change, such as, heating inner liner is increased to three by two.All various variations of doing in the protection domain of the utility model independent claims are all in protection domain of the present utility model.

Claims (6)

1. a water dispenser, comprises water inlet pipe (18), thermal insulator (23), control panel (24) and outlet pipe (20); Described water inlet pipe (18) is provided with the magnetic valve (21) that controlled making sheet (24) is controlled, it is characterized in that, in described thermal insulator (23), be provided with heating inner liner and a high-temperature pump of at least two gradable power supplies, described high-temperature pump (22) is arranged on the heating inner liner intracavity bottom of preferential power supply, high-temperature pump (22) is electrically connected with control panel (24), and high-temperature pump (22) delivery port is communicated with outlet pipe (20).

2. water dispenser according to claim 1, is characterized in that, is also provided with blast pipe (30) in described thermal insulator (23), and described blast pipe (30) is arranged on and is provided with the heating inner liner top of high-temperature pump and is communicated with the cavity of this heating inner liner.

3. water dispenser according to claim 1, it is characterized in that, in described thermal insulator (23), be provided with the first heating inner liner (1) and the second heating inner liner (2), described the first heating inner liner (1) is communicated with water inlet pipe (18), and the first heating inner liner (1) intracavity bottom is provided with the heating tube (5) and the temperature sensor (10) that are electrically connected with control panel (24) respectively; Described the second heating inner liner (2) was communicated with the first heating inner liner (1) by communicating pipe, the second heating inner liner (2) intracavity bottom is provided with the heating tube (6) and the high-temperature pump (22) that are electrically connected with control panel (24) respectively, and described high-temperature pump (22) delivery port is communicated with outlet pipe (20); Described the second heating inner liner (2) intracavity bottom is provided with temperature sensor (13), and the second heating inner liner (2) top is provided with blast pipe (30), and described blast pipe (30) is communicated with the second heating inner liner (2) cavity; The second heating inner liner (2) inner chamber is also provided with 3 sensed water level sensors, and described sensed water level sensor is electrically connected with control panel (24) respectively.

4. water dispenser according to claim 3, it is characterized in that, described 3 sensed water level sensors refer to the high-order level sensor (14), the critical groundwater table sensor (16) that are located at respectively the second heating inner liner (2) inwall one side roof part and bottom, and are located at the normal water level sensor (15) in the middle of described high-order level sensor (14) and critical groundwater table sensor (16).

5. water dispenser according to claim 3, is characterized in that, described control panel (24) comprises power switch (25), one-level switch, secondary switch, three step switch, effluent switch (31) and boiling water indicator lamp (32).

6. water dispenser according to claim 5, is characterized in that, described one-level switch is that 1L water arranges switch (26), described secondary switch is that 2.5L water arranges switch (27), described three step switch is that 5L water arranges switch (28).

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