CN202751362U

CN202751362U - Energy-saving type ultrasonic wave dish washing machine

Info

Publication number: CN202751362U
Application number: CN2012204024158U
Authority: CN
Inventors: 苟仲武
Original assignee: Individual
Current assignee: Individual
Priority date: 2012-08-14
Filing date: 2012-08-14
Publication date: 2013-02-27
Anticipated expiration: 2022-08-14

Abstract

The utility model discloses an energy-saving type ultrasonic wave dish washing machine which comprises a cleaning device and a drying device, wherein cleaning device comprises a cleaning pool, an intermediate rinsing pool and a net rinsing pool, the cleaning pool, the intermediate rinsing pool and the net rinsing pool are arranged in sequence, and an ultrasonic wave generator is installed inside the cleaning pool. The energy-saving type ultrasonic wave dish washing machine further comprises a first heating device and a second heating device. The first heating device is a first heat pump supplying heat energy for the cleaning pool, and the second heating device is a second heat pump supplying heating energy for the drying device. According to the energy-saving type ultrasonic wave dish washing machine, existing electric heating devices of a cleaning pool and a drying device of an original ultrasonic wave dish washing machine are replaced by the first heat pump and the second heat pump. As special electric heating devices are not needed, when the energy-saving type ultrasonic wave dish washing machine is compared with the existing ultrasonic wave dish washing machine, three quarters of electricity can be saved in the whole drying process, so that energy consumption is greatly lowered, operating charges of the foodservice industry are greatly lowered simultaneously, and economic pressure of the foodservice industry is lightened.

Description

A kind of energy-saving ultrasonic wave dishwasher

Technical field

The utility model relates to field of energy-saving technology, relates in particular to a kind of energy-saving ultrasonic wave dishwasher that utilizes heat pump to heat and dry.

Background technology

Ultrasonic wave dishwasher is owing to can alleviate wash dishes personnel's labour intensity, increase work efficiency, and have water saving, power saving, noise little, do not need special purpose detergent just can remove the advantage at cleaning dead angle, accepted by increasing dining room, hotel and family.Existing ultrasonic wave dishwasher generally comprises three service sinks and a dryer, and then the tableware that need to clean is put in the dryer through the cleaning of three service sinks and dried.Wherein, service sink utilizes electric furnace or the heating of other heaters, and dryer utilizes infra-red radiation to add the oven dry that air agitation realizes tableware, so a large amount of energy of the whole need of work consumption of ultrasonic wave dishwasher comes in order to heating.And electric furnace or heater also can produce a large amount of heats when ultrasonic wave dishwasher was worked in the kitchen workplace, owing to can not allow staff's long-term work in hot environment, need to lower the temperature to ventilate to the kitchen workplace and process.Common cooling processing method has usually installs powerful air exhauster or refrigeration air-conditioner is installed, so consumption that also can related other energy during ultrasonic wave dishwasher work.Along with shortage and the rise in price of the energy, a large amount of energy resource consumptions not only is unfavorable for energy-saving and emission-reduction, also can bring very large economic pressures to catering industry.

Therefore be necessary to provide a kind of and reduce energy resource consumption, realize energy-saving and emission-reduction and can subtract energy-saving ultrasonic wave dishwasher through the catering industry economic pressures.

The utility model content

The utility model embodiment provides a kind of can reduce energy resource consumption, realize energy-saving and emission-reduction and can subtract energy-saving ultrasonic wave dishwasher through the catering industry economic pressures.

According to embodiment of the present utility model, a kind of energy-saving ultrasonic wave dishwasher is provided, comprise cleaning device and drying unit, described cleaning device comprise the service sink that sets gradually, in float Chi Hejing and float the pond, be provided with supersonic generator in the described service sink, it is characterized in that, described energy-saving ultrasonic wave dishwasher also comprises first heater and secondary heating mechanism, wherein

First heater is used to described service sink that heat energy is provided;

Secondary heating mechanism is used to described drying unit that heat energy is provided.

Wherein, first heater is the first heat pump, and secondary heating mechanism is the second heat pump.

As an alternative, first heater comprises the first water tank and is used to the first heat pump of the first heating water tanks, secondary heating mechanism is the first heat exchanger, the first heat exchanger links to each other with the first water tank, and the first heat exchanger is used for that the hot water in the first water tank is become hot blast dries the tableware in the described drying unit.

As an alternative, secondary heating mechanism is the combination of the second heat pump, the second water tank and the second heat exchanger, the second heat pump is used for the water of heating the second water tank, the second heat exchanger is arranged in the described drying unit and with the second water tank and links to each other, and the second heat exchanger is converted to hot blast for the hot water with the second water tank the tableware in the described drying unit is dried.

Wherein, the first heat pump is the air source heat pump that comprises the first condenser, first throttle valve, the first compressor and the first evaporimeter, wherein,

The first compressor is to the pressurizes refrigerant in the first heat pump, enters the first condenser after making cold-producing medium become the gaseous state of HTHP;

The cold-producing medium that the first condenser is used in condensation liquefaction the first heat pump assembly becomes liquid, and the thermal release that described cold-producing medium liquefaction is discharged raises the water temperature of described service sink to service sink;

The first throttle valve is used for the liquid refrigerant that flows out from the first condenser is reduced pressure, and makes the liquid refrigerant that is flowed out by the first condenser become low-temp low-pressure liquid;

The first evaporimeter is used for absorbing the heat of outside air and makes liquid refrigerant evaporates.

The second heat pump is the water resource heat pump that comprises the second condenser, the second choke valve, the second compressor and the second evaporimeter, wherein,

The second compressor is to the pressurizes refrigerant in the second heat pump, enters the second condenser after making cold-producing medium become the gaseous state of HTHP;

The cold-producing medium that the second condenser is used in condensation liquefaction the second heat pump assembly becomes liquid, and the thermal release that described cold-producing medium liquefaction is discharged raises the water temperature of described service sink to service sink;

The second choke valve is used for the liquid refrigerant that flows out from the second condenser is reduced pressure, and makes the liquid refrigerant that is flowed out by the second condenser become low-temp low-pressure liquid;

The second evaporimeter is used for absorbing the heat at water source and makes liquid refrigerant evaporates.

Described drying unit comprises air knife and dryer, wherein,

Described air knife is arranged at the entrance front end of dryer, is used for the open fire on the tableware is blown off;

Described dryer inside is provided with the circulation air path that links to each other with the second heat pump, and the hot blast that described the second heat pump produces uses hot air circulation via circulation air path, so that tableware is dried thoroughly.

Further, also be provided with infrared radiation device in the described drying unit, be used for the tableware of oven dry is carried out disinfection.

As preferably, the bottom of described air knife is provided with block water plate, described block water plate cross section be shaped as semicircle or arc, described block water plate is used for the moisture filter that blows off on the tableware and the air-flow reverse flow that air knife is blown out, and improves air-dry efficient.

As preferably, the top of described service sink is provided be used to preventing that heat loss in the service sink is to keep the insulation cover of water temperature, described only floating is provided with the water purification water inlet on the pond, float the pond in described to be provided with overflow pipe, floats Chi Hejing in described and floats the pond and connect by linker.

By above technical scheme as can be known, in the utility model the heater of original ultrasonic wave dishwasher service sink and drying unit is replaced existing electric heater unit with heat pump.Because heat pump only need to obtain low grade heat energy from natural air, water or soil, through the electric power acting, just can provide can be by the used high-grade heat energy of people.Therefore the first heat pump of ultrasonic wave dishwasher only needs heat energy in the absorbing air just to obtain high efficiency heat just the water in the service sink can be heated in the utility model.The hot blast that the second condenser of the second heat pump produces is input in the circulation air path in the dryer, thereby realizes the oven dry to tableware.If the first heat exchanger is installed in the drying unit, then the heat of the first heat pump namely can be used for the service sink heating and also can be used for the drying unit oven dry.If the second heat exchanger is installed in the drying unit, then the heat of the second heat pump then can be used for drying unit by the second heat exchanger and dries.Owing to do not need special electric heater unit, therefore the utility model is compared with existing ultrasonic wave dishwasher, can save 3/4 electric weight in the whole drying course, thus the consumption of greatly saving the energy, and the operating charges of catering industry is reduced greatly, alleviated the economic pressures of catering industry.

Description of drawings

Fig. 1 is the structural representation of energy-saving ultrasonic wave dishwasher among the embodiment 1;

Fig. 2 is the structural representation of energy-saving ultrasonic wave dishwasher among the embodiment 2;

Fig. 3 is the structural representation of energy-saving ultrasonic wave dishwasher among the embodiment 3.

The specific embodiment

For making the purpose of this utility model, technical scheme and advantage clearer, referring to accompanying drawing and enumerate embodiment, the utility model is further described.

Embodiment 1:

Fig. 1 shows the structural representation of energy-saving ultrasonic wave dishwasher among the embodiment 1.As shown in Figure 1, described energy-saving ultrasonic wave dishwasher comprises cleaning device, drying unit, is used to service sink that the first heater of heat energy is provided and the secondary heating mechanism of heat energy is provided for drying unit.

Cleaning device comprise the service sink 1 that sets gradually, in float pond 2 and only float pond 3.Be provided with supersonic generator 4 in the service sink 1.The top of service sink 1 is provided be used to the insulation cover 5 that prevents the heat loss in the service sink 1.Only float and be provided with water purification water inlet (not marking among the figure) on the pond 3, in float and be provided with overflow pipe (not marking among the figure) on the pond 2.In float pond 2 and float pond 3 and connect by linker 6 with being connected.

Drying unit comprises air knife 7 and dryer 8, and air knife 7 is arranged at the entrance front end of dryer 8.The bottom of air knife 7 is provided with block water plate 9, block water plate 9 cross sections be shaped as semicircle or arc, the air-flow reverse flow that the open fire that block water plate 9 is used for blowing off on the tableware filters and air knife 7 is blown out improves air-dry efficient.Dryer 8 inside are provided with the circulation air path 10 that links to each other with secondary heating mechanism, and the hot blast that secondary heating mechanism produces uses hot air circulation via circulation air path 10, so that tableware is dried thoroughly.Also be provided with the infrared radiation device (not shown) in the drying unit, be used for the tableware of oven dry is carried out disinfection.

First heater is the first heat pump 11.The first heat pump 11 is the air source heat pump that comprises the first condenser 110, first throttle valve 111, the first compressor 112 and the first evaporimeter 113.Secondary heating mechanism is the second heat pump 12.The second heat pump 12 is the water resource heat pump that comprises the second condenser 120, the second choke valve 121, the second compressor 122 and the second evaporimeter 123.

The below does the operation principle of energy-saving ultrasonic wave dishwasher in the present embodiment and the course of work and elaborates.

When using energy-saving ultrasonic wave dishwasher that tableware is cleaned, at first tableware is positioned in the service sink 1, the supersonic generator 4 of service sink 1 interior setting makes the spot on the tableware break away from from tableware, rinse water in the service sink 1 is because the heating of the first heat pump 11 can make the spot on the tableware remove fast and to purify simultaneously.To in the service sink 1 interior tableware of having removed spot is put into, float pond 2 and only float in the pond 3 and further purify, wherein, water purification enters at the water purification water inlet that only floats pond 3, washings by in float pond 2 overflow pipe flow out, so not only make the cleaner of wash dishes, also can owing in the water that floats in the pond 2 provide and save the water source by only floating pond 3.The clean tableware of rinsing at first must be put into air knife and carry out the removal of open fire 7 times, then puts into and carries out thorough dried disinfecting in the dryer 8.Tableware after the drying sterilization can reuse.

The principle of 11 pairs of service sinks of the first heat pump 1 heating is: the pressurizes refrigerant in 112 pairs of the first heat pumps 11 of the first compressor of the first heat pump 11 enters the first condenser 110 after making cold-producing medium become the gaseous state of HTHP; The cold-producing medium that the first condenser 110 is used in condensation liquefaction the first heat pump 11 devices becomes liquid, and the thermal release that cold-producing medium liquefaction is discharged to service sink 1 so that the water temperature of service sink 1 raise; First throttle valve 111 is used for the liquid refrigerant that flows out from the first condenser 110 is reduced pressure, and makes the liquid refrigerant that is flowed out by the first condenser 110 become low-temp low-pressure liquid; The first evaporimeter 113 is used for absorbing the heat of outside air and makes liquid refrigerant evaporates become gas refrigerant.The first compressor 112 is by to the pressurization of the gas refrigerant in the evaporimeter, again enters the first condenser 110 after making cold-producing medium become the gaseous state of HTHP, thereby realizes that the first heat pump 11 ceaselessly provides heat to service sink 1.

The principle of 12 pairs of service sinks of the second heat pump 1 heating is: the pressurizes refrigerant in 122 pairs of the second heat pumps 12 of the second compressor in the second heat pump 12 enters the second condenser 120 after making cold-producing medium become the gaseous state of HTHP; The cold-producing medium that the second condenser 120 is used in condensation liquefaction the second heat pump 12 devices becomes liquid, and the thermal release that cold-producing medium liquefaction is discharged to service sink 1 so that the water temperature of service sink 1 raise; The second choke valve 121 is used for the liquid refrigerant that flows out from the second condenser 120 is reduced pressure, and makes the liquid refrigerant that is flowed out by the second condenser 120 become low-temp low-pressure liquid; The second evaporimeter 123 is used for absorbing the heat at water source and makes liquid refrigerant evaporates become gas refrigerant.The second compressor 122 is by to the pressurization of the gas refrigerant in the evaporimeter, again enters the second condenser 120 after making cold-producing medium become the gaseous state of HTHP, thereby realizes that the second heat pump 12 ceaselessly provides heat to drying unit.

Embodiment 2:

The structure basic simlarity of energy-saving ultrasonic wave dishwasher among the structure of energy-saving ultrasonic wave dishwasher and the embodiment 1 among the embodiment 2, its difference are that the structure of the first heater in the first heater and secondary heating mechanism and embodiment 1 and secondary heating mechanism is different in the present embodiment.In the present embodiment, first heater is the first heat pump 11 and the first water tank 13, and secondary heating mechanism is the first heat exchanger 14.The first heat pump 11 is air source heat pump or the water source type heat pump that comprises the first condenser 110, first throttle valve 111, the first compressor 112 and the first evaporimeter 113 in the present embodiment.The condenser of the first heat pump 11 is arranged at the first water tank 13 bottoms, and the high temperature and high pressure gas on the first water tank 13 tops is used for the heating of service sink 1.Simultaneously the interior hot water of the first heat exchanger 14 of dryer 8 and the first water tank 13 is connected.The hot water of the first water tank 13 is transformed into hot blast to hot water by the first heat exchanger 14 and is input in the circulation air path 10 in the dryer 8, thereby realizes the thorough oven dry to tableware.

In the present embodiment, the first heat pump 11 only need to be set just can realize the heating of service sink 1 and the oven dry in the dryer 8, greatly save electric energy, realize good energy-saving and emission-reduction.

Embodiment 3:

The structure basic simlarity of energy-saving ultrasonic wave dishwasher among the structure of energy-saving ultrasonic wave dishwasher and the embodiment 1 among the embodiment 3, its difference are that the structure of the secondary heating mechanism in the first heater and secondary heating mechanism and embodiment 1 in the present embodiment is different.In the present embodiment, secondary heating mechanism is the combination of the second heat pump 12, the second water tank 15 and the second heat exchanger 16.Wherein the structure of the second heat pump 12 is identical with the structure of the second heat pump 12 among the embodiment 1, namely comprises the water resource heat pump of the second condenser 120, the second choke valve 121, the second compressor 122 and the second evaporimeter 123.Wherein, the second condenser 120 is positioned in the second water tank 15, be used for the water heating with the second water tank 15, the hot water of the second water tank 15 is transformed into hot blast to hot water by the second heat exchanger 16 and is input in the circulation air path 10 in the dryer 8, thereby realizes the oven dry to tableware.

The technical scheme of three kinds of embodiment is the heater of original ultrasonic wave dishwasher service sink 1 and drying unit is replaced existing electric heater unit with heat pump or heat pump and heat exchanger combination.Because heat pump only need to obtain low grade heat energy from natural air, water or soil, through the electric power acting, just can provide can be by the used high-grade heat energy of people.Therefore the ultrasonic wave dishwasher in the utility model only utilizes the heat energy at existing airborne heat energy or water source just can obtain high efficiency heat just can provide service sink 1 and dryer 8 required heat energy.Owing to do not need special electric heater unit, therefore the technical solution of the utility model is compared with existing ultrasonic wave dishwasher, all can save about 3/4 electric weight in the whole drying course, thereby greatly save the consumption of the energy, and the operating charges of catering industry is reduced greatly, alleviated the economic pressures of catering industry.

The above only is preferred embodiment of the present utility model; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims

1. energy-saving ultrasonic wave dishwasher, comprise cleaning device and drying unit, described cleaning device comprise the service sink that sets gradually, in float Chi Hejing and float the pond, be provided with supersonic generator in the described service sink, it is characterized in that, described energy-saving ultrasonic wave dishwasher also comprises first heater and secondary heating mechanism, wherein

First heater is used to described service sink that heat energy is provided;

2. energy-saving ultrasonic wave dishwasher as claimed in claim 1 is characterized in that, first heater is the first heat pump, and secondary heating mechanism is the second heat pump.

3. energy-saving ultrasonic wave dishwasher as claimed in claim 1, it is characterized in that, first heater comprises the first water tank and is used to the first heat pump of the first heating water tanks, secondary heating mechanism is the first heat exchanger, the first heat exchanger links to each other with the first water tank, and the first heat exchanger is used for that the hot water in the first water tank is become hot blast dries the tableware in the described drying unit.

4. energy-saving ultrasonic wave dishwasher as claimed in claim 1, it is characterized in that, first heater is the first heat pump, secondary heating mechanism is the combination of the second heat pump, the second water tank and the second heat exchanger, the second heat pump is used for the water of heating the second water tank, the second heat exchanger is arranged in the described drying unit and with the second water tank and links to each other, and the second heat exchanger is converted to hot blast for the hot water with the second water tank the tableware in the described drying unit is dried.

5. such as the described energy-saving ultrasonic wave dishwasher of one of claim 2 to 4, it is characterized in that the first heat pump is the air source heat pump that comprises the first condenser, first throttle valve, the first compressor and the first evaporimeter, wherein,

6. such as the described energy-saving ultrasonic wave dishwasher of one of claim 2 to 4, it is characterized in that the second heat pump is the water resource heat pump that comprises the second condenser, the second choke valve, the second compressor and the second evaporimeter, wherein,

7. such as the described energy-saving ultrasonic wave dishwasher of one of claim 1 to 4, it is characterized in that described drying unit comprises air knife and dryer, wherein,

8. energy-saving ultrasonic wave dishwasher as claimed in claim 7 is characterized in that, also is provided with infrared radiation device in the described drying unit, is used for the tableware of oven dry is carried out disinfection.

9. energy-saving ultrasonic wave dishwasher as claimed in claim 7, it is characterized in that, the bottom of described air knife is provided with block water plate, described block water plate cross section be shaped as semicircle or arc, described block water plate is used for the moisture filter that blows off on the tableware and the air-flow reverse flow that air knife is blown out, and improves air-dry efficient.

10. energy-saving ultrasonic wave dishwasher as claimed in claim 1, it is characterized in that, the top of described service sink is provided be used to preventing that heat loss in the service sink is to keep the insulation cover of water temperature, described only floating is provided with the water purification water inlet on the pond, float the pond in described and be provided with overflow pipe, float Chi Hejing in described and float the pond and connect by linker.