CN204260567U - A kind of anti-thousand boiling water energy-saving drinking machines - Google Patents

Abstract

The open a kind of anti-thousand boiling water energy-saving drinking machines of the utility model, comprise bucket, smart seat, cold water storage cistern and outlet valve, also comprise heater and attemperator, described heater comprises heating cylinder, heating tube and temperature detect switch (TDS), the import of described heating cylinder is connected with the outlet of described cold water storage cistern by the first magnetic valve, and described heating tube and temperature detect switch (TDS) are separately positioned in described heating cylinder; Described attemperator comprises cold wall tank, travel switch, elastic supporting member for supporting optical member and support, and described travel switch is arranged between described cold wall tank and described support; The import of described cold wall tank is connected with the outlet of described heating cylinder by the second magnetic valve, and outlet is connected with described outlet valve; The utility model is provided with two magnetic valves, connect with the dynamic circuit connector auxiliary contact of A.C. contactor and dynamic circuit breaker auxiliary contact respectively, ensure that the separation of cold water and hot water, water can not be produced, water simultaneously after heating is transferred in cold wall tank in time, can one-time heating be accomplished, not produce thousand boiling water.

Description

A kind of anti-thousand boiling water energy-saving drinking machines

Technical field

The utility model relates to a kind of energy-saving drinking machine, especially a kind of energy-saving drinking machine preventing thousand boiling water harmonizing yinyang water.

Background technology

Mostly structure is simple for existing similar water dispenser on the market, the circulating discontinuous operation of its heating system, and when namely temperature is lower than certain value, just start heating, be heated to uniform temperature, heater strip quits work.

There is larger deficiency in existing water dispenser: because heat insulation effect is poor, and heating times is too frequent, and waste electric energy, is unfavorable for energy-conserving and environment-protective; Often there is cold water to mix in hot water, hot and cold water can not be made to separate, can water be produced; The hydronic method of the many employings of existing water dispenser, although can provide hot water, circulating heating for multiple times can cause generation thousand boiling water, is unfavorable for health.

Summary of the invention

Goal of the invention: the utility model object is for the deficiencies in the prior art, provides a kind of high insulating effect, without the need to the anti-thousand boiling water energy-saving drinking machines that heating for multiple times also can make cold water and hot water separate.

Technical scheme: anti-thousand boiling water energy-saving drinking machines described in the utility model, comprise bucket, smart seat, cold water storage cistern and outlet valve, cold water in described bucket enters in described cold water storage cistern by smart seat, first outlet of described cold water storage cistern is connected with described outlet valve by pipeline, also comprise heater and attemperator, described heater comprises heating cylinder, heating tube and temperature detect switch (TDS), the import of described heating cylinder is exported with second of described cold water storage cistern by the first magnetic valve and is connected, and described heating tube and temperature detect switch (TDS) are separately positioned in described heating cylinder; Described attemperator comprises cold wall tank, travel switch, elastic supporting member for supporting optical member and support, described support is fixed on the shell of water dispenser, the bottom of described cold wall tank is fixing on the bracket by described elastic supporting member for supporting optical member, and described travel switch is arranged between described cold wall tank and described support; The import of described cold wall tank is connected with the outlet of described heating cylinder by the second magnetic valve, and outlet is connected with described outlet valve;

Described travel switch, temperature detect switch (TDS), heating tube are by the coils connected in series of circuit and A.C. contactor, and described first magnetic valve is connected with the dynamic circuit connector auxiliary contact of A.C. contactor, and described second magnetic valve is connected with the dynamic circuit breaker auxiliary contact of A.C. contactor; In described cold wall tank, the water yield is sufficient, and described cold wall tank is to bottom offset under gravity, and described travel switch disconnects, heating tube, A.C. contactor power-off, and described A.C. contactor controls described first closed electromagnetic valve, the second magnetic valve is opened; Water shortage in described cold wall tank, described elastic supporting member for supporting optical member supports described cold wall tank to top offset, described travel switch closes, heating tube, A.C. contactor are energized, described first magnetic valve of described A.C. contactor control is opened, the second closed electromagnetic valve, described cold water storage cistern inner cold water enters in heating cylinder, and is heated by described heating tube; In described heating cylinder, water temperature reaches design temperature, described temperature detect switch (TDS) disconnects, heating tube, A.C. contactor power-off, and described A.C. contactor controls described first closed electromagnetic valve, the second magnetic valve is opened, in heating cylinder, hot water enters in cold wall tank, and drives heating cylinder to bottom offset.

After in described cold water storage cistern, cold water heats in heating cylinder, temperature detect switch (TDS) disconnects, the heating tube of connecting with temperature detect switch (TDS), A.C. contactor power-off, now heating cylinder no longer heats, and in addition because described first magnetic valve is connected with the dynamic circuit connector auxiliary contact of A.C. contactor, described second magnetic valve is connected with the dynamic circuit breaker auxiliary contact of A.C. contactor, under the state of A.C. contactor power-off, first closed electromagnetic valve, the first magnetic valve is opened, and hot water enters in cold wall tank;

After in heating cylinder, hot water enters incubator, under gravity, incubator progressively presses down, and travel switch is disconnected, and travel switch and temperature detect switch (TDS), heating tube and A.C. contactor are series connection, now, even if temperature detect switch (TDS) is closed because temperature reduces, heating tube and A.C. contactor are also in off-position, hot water in heating cylinder can be transferred in cold wall tank completely, because the hot water in cold wall tank can not be heated again, the generation of thousand boiling water can be avoided;

After in cold wall tank, hot water is drunk, elastic supporting member for supporting optical member bottom cold wall tank supports cold wall tank to top offset, and cause travel switch to close, now travel switch, temperature detect switch (TDS) are all in closure state, the heating tube of connecting with it and A.C. contactor energising, heating tube heats, and the first magnetic valve is opened simultaneously, and in cold water storage cistern, cold water enters in heating cylinder, second closed electromagnetic valve, water in heating cylinder can not enter in cold wall tank, thus make cold water and hot water completely isolated, avoid occurring water.

Preferably, described heating cylinder top is also provided with gas outlet, and described gas outlet is connected with described cold water storage cistern by pipeline.Hot cylinder top is provided with gas outlet, and when cold water in cold water storage cistern enters in heating cylinder, after water level exceedes gas outlet, under atmospheric pressure, in cold water storage cistern, cold water can not enter in heating cylinder again, thus cold water and hot water is completely cut off.

Preferably, disconnect when described temperature detect switch (TDS) water temperature in heating cylinder reaches 100 DEG C, water temperature is lower than closed when 95 DEG C.

Preferably, described elastic supporting member for supporting optical member is support spring.

Preferably, the internal layer of described cold wall tank is nontoxic heat-insulation layer.

Beneficial effect: (1) the utility model is provided with cold wall tank, cold water is transferred in cold wall tank after heating in heating cylinder timely, to extend temperature retention time, compared with the circulating heating of traditional water dispenser, greatly reduce heating times, save a large amount of electric energy; The utility model is provided with two magnetic valves, connects respectively, ensure that the strict separation of cold water and hot water, can not produce water, do not harm healthy with the dynamic circuit connector auxiliary contact of A.C. contactor and dynamic circuit breaker auxiliary contact; Water simultaneously after heating is transferred in cold wall tank in time, can accomplish one-time heating, and temperature retention time is longer, does not produce thousand boiling water; (2) the utility model is also provided with gas outlet at heating cylinder top, gas outlet is connected with cold water storage cistern by pipeline, when cold water in cold water storage cistern enters in heating cylinder, after water level exceedes gas outlet, under atmospheric pressure, in cold water storage cistern, cold water can not enter in heating cylinder again, thus can make cold water and hot water completely isolated.

Accompanying drawing explanation

Fig. 1 is the structural representation of anti-thousand boiling water energy-saving drinking machines described in the utility model.

Detailed description of the invention

Below by accompanying drawing, technical solutions of the utility model are described in detail, but protection domain of the present utility model is not limited to described embodiment.

Embodiment 1: a kind of anti-thousand boiling water energy-saving drinking machines, comprise bucket 1, smart seat 2, cold water storage cistern 3 and outlet valve 4, cold water in described bucket 1 enters in described cold water storage cistern 3 by smart seat 2, first outlet of described cold water storage cistern 3 is connected with described outlet valve 4 by pipeline, also comprise heater 5 and attemperator 6, described heater 5 comprises heating cylinder 51, heating tube 52 and temperature detect switch (TDS) 53, the import of described heating cylinder 51 is exported with second of described cold water storage cistern 3 by the first magnetic valve 7 and is connected, described heating tube 52 and temperature detect switch (TDS) 53 are separately positioned in described heating cylinder 51, described heating cylinder 51 top is also provided with gas outlet, described gas outlet is connected with described cold water storage cistern 3 by pipeline, described attemperator 6 comprises cold wall tank 61, travel switch 63, support spring 62 and support 64, described support 64 is fixed on the shell of water dispenser, the bottom of described cold wall tank 61 is fixed on described support 64 by institute's support spring 62, and described travel switch 63 is arranged between described cold wall tank 61 and described support 64, the import of described cold wall tank 61 is connected with the outlet of described heating cylinder 51 by the second magnetic valve 8, and cold wall tank 61 outlet is connected with described outlet valve 4,

Described travel switch 63, temperature detect switch (TDS) 53, heating tube 52 are by the coils connected in series of circuit and A.C. contactor, described first magnetic valve 7 is connected with the dynamic circuit connector auxiliary contact of A.C. contactor, and described second magnetic valve 8 is connected with the dynamic circuit breaker auxiliary contact of A.C. contactor; In described cold wall tank 61, the water yield is sufficient, and described cold wall tank 61 is to bottom offset under gravity, and described travel switch 63 disconnects, heating tube 52, A.C. contactor power-off, and described first magnetic valve 7 of described A.C. contactor control cuts out, the second magnetic valve 8 is opened; Water shortage in described cold wall tank 61, described support spring 62 supports described cold wall tank 61 to top offset, described travel switch 63 closes, heating tube 52, A.C. contactor are energized, described first magnetic valve 7 of described A.C. contactor control is opened, the second magnetic valve 8 cuts out, described cold water storage cistern 3 inner cold water enters in heating cylinder 51, and is heated by described heating tube 52; In described heating cylinder 51, water temperature reaches 100 DEG C, described temperature detect switch (TDS) 53 disconnects, heating tube 52, A.C. contactor power-off, described first magnetic valve 7 of described A.C. contactor control cuts out, the second magnetic valve 8 is opened, in heating cylinder 51, hot water enters in cold wall tank 61, and drives heating cylinder 61 to bottom offset.

As mentioned above, although represented with reference to specific preferred embodiment and described the utility model, it shall not be construed as the restriction to the utility model self.Under the spirit and scope prerequisite of the present utility model not departing from claims definition, various change can be made in the form and details to it.

Claims (5)

1. anti-thousand boiling water energy-saving drinking machines, comprise bucket, smart seat, cold water storage cistern and outlet valve, cold water in described bucket enters in described cold water storage cistern by smart seat, first outlet of described cold water storage cistern is connected with described outlet valve by pipeline, it is characterized in that, also comprise heater and attemperator, described heater comprises heating cylinder, heating tube and temperature detect switch (TDS), the import of described heating cylinder is exported with second of described cold water storage cistern by the first magnetic valve and is connected, and described heating tube and temperature detect switch (TDS) are separately positioned in described heating cylinder; Described attemperator comprises cold wall tank, travel switch, elastic supporting member for supporting optical member and support, described support is fixed on the shell of water dispenser, the bottom of described cold wall tank is fixing on the bracket by described elastic supporting member for supporting optical member, and described travel switch is arranged between described cold wall tank and described support; The import of described cold wall tank is connected with the outlet of described heating cylinder by the second magnetic valve, and outlet is connected with described outlet valve;

Described travel switch, temperature detect switch (TDS), heating tube are by the coils connected in series of circuit and A.C. contactor, and described first magnetic valve is connected with the dynamic circuit connector auxiliary contact of A.C. contactor, and described second magnetic valve is connected with the dynamic circuit breaker auxiliary contact of A.C. contactor; In described cold wall tank, the water yield is sufficient, and described cold wall tank is to bottom offset under gravity, and described travel switch disconnects, heating tube, A.C. contactor power-off, and described A.C. contactor controls described first closed electromagnetic valve, the second magnetic valve is opened; Water shortage in described cold wall tank, described elastic supporting member for supporting optical member supports described cold wall tank to top offset, described travel switch closes, heating tube, A.C. contactor are energized, described first magnetic valve of described A.C. contactor control is opened, the second closed electromagnetic valve, described cold water storage cistern inner cold water enters in heating cylinder, and is heated by described heating tube; In described heating cylinder, water temperature reaches design temperature, described temperature detect switch (TDS) disconnects, heating tube, A.C. contactor power-off, and described A.C. contactor controls described first closed electromagnetic valve, the second magnetic valve is opened, in heating cylinder, hot water enters in cold wall tank, and drives heating cylinder to bottom offset.

2. anti-thousand boiling water energy-saving drinking machines according to claim 1, it is characterized in that, described heating cylinder top is also provided with gas outlet, and described gas outlet is connected with described cold water storage cistern by pipeline.

3. anti-thousand boiling water energy-saving drinking machines according to claim 1, is characterized in that, disconnect when described temperature detect switch (TDS) water temperature in heating cylinder reaches 100 DEG C, and water temperature is lower than closed when 95 DEG C.

4. anti-thousand boiling water energy-saving drinking machines according to claim 1, it is characterized in that, described elastic supporting member for supporting optical member is support spring.

5. anti-thousand boiling water energy-saving drinking machines according to claim 1, it is characterized in that, the internal layer of described cold wall tank is nontoxic heat-insulation layer.