CN1973751A - Dishwasher and method of supplying water of dishwasher - Google Patents

Abstract

Provided are a dishwasher and a method of supplying water in the dishwasher. The dishwasher includes a tub enclosing a washing chamber, a sump holding washing water to be supplied to the tub, and an air brake assembly having a steam generating unit that heats the washing water to be supplied to the tub.

Description

The method of supplying water of dish-washing machine and dish-washing machine

The present invention requires the priority of korean patent application No.10-2005-0114253 that submits on November 28th, 2005 and the korean patent application No.10-2005-0123704 that submitted in 2005 12 years 15 days, by with reference to quoting its full content.

Technical field

The present invention relates to a kind of dish-washing machine, more particularly, relate to a kind of such dish-washing machine, wherein steam generator and air-lock assembly form, and the passage that is formed in this air-lock assembly by simplification can flow in the staving the remaining water that uses in the steaming effectively.

Background technology

Generally speaking, dish-washing machine is meant such machine: make the water of injection contact the bowl dish by the high-pressure wash water in the playpipe, to remove the exotic such as swill from the surface of bowl dish, washing and drying bowl dish thus.The swill that is eliminated is leached with the recycling washings by filter.Detergent dissolution makes swill to remove from the bowl dish effectively in washings.

Simultaneously, the various schemes of the detersive efficiency of dish-washing machine have been proposed to be used to improve.

For example, can so that being dissolved in better, washing agent improve detersive efficiency in the washings by heated scrub water.By spraying high-temperature water, can more effectively remove the swill of hardening from the bowl dish.

The pre-wash circulation can be added in the intrinsic circulation of dish-washing machine,, be improved the reliability of washing thus so that swill expands.

Yet although there are these schemes, still there is restriction in the detersive efficiency that improves dish-washing machine.Especially, when being attached to the swill hardening of bowl dish, wash a bowl dish effectively than difficulty.

Therefore, the expand device of swill of hardening can be included in the dish-washing machine with the expansion swill being used to such as steam raising plant and other associated components.

This steam raising plant can comprise vaporium and heater.This steam raising plant is installed in the following Machine Room of dish-washing machine usually.In this steam raising plant, washings are retained in the vaporium, and produce steam by the heater that is immersed in the washings that are retained.The steam that is produced by this steam raising plant sprays to bowl dish in the staving by steam channel, and this steam channel is connected to the staving that comprises the washing chamber.

This steam raising plant is designed to keep the water that remains in the vaporium.In the time of in remaining water stays in this steam raising plant for a long time, its variable corruption.

And, owing to the steam channel between steam raising plant and the steam injection portion forms independently, so manufacturing process complexity and manufacturing cost increase.In addition, because the steam channel between steam raising plant and the steam injection portion is very long, so the thermal losses that energy efficiency is understood in the time of crossing this steam channel owing to vapor stream reduces.

Summary of the invention

Therefore, the present invention aims to provide the method for supplying water of a kind of dish-washing machine and dish-washing machine, and it has been got rid of basically because the restriction of prior art and one or more problems that shortcoming is caused.

Advantage of the present invention provides a kind of dish-washing machine, and wherein the distance between steam raising plant and the steam injection equipment shortens, and washings do not remain in the vaporium after steam produces.

Another advantage of the present invention provides a kind of dish-washing machine, its can by steam raising plant is located at higher position in the dish-washing machine with the length that reduces steam channel improving the steam jet power, and reduce its manufacturing cost thus.

Supplementary features of the present invention and advantage will be illustrated in the following description, and can partly become apparent from this description, perhaps can know by putting into practice the present invention.The structure that purpose of the present invention and other advantages will pass through to specifically note in the specification write and claims and the accompanying drawing realizes and obtains.

In order to realize these and other advantages, and according to purpose of the present invention, as in this enforcement and broadly described, the invention provides a kind of dish-washing machine, this dish-washing machine comprises: staving, and it crosses (enclose) washing chamber; Storage tank, its preservation waits to be fed to the washings of this staving; And the air-lock assembly, it has the steam raising plant that heating waits to be fed to the washings of this staving.

Another scheme of the present invention provides a kind of dish-washing machine, and this dish-washing machine comprises: staving, and it limits a washing chamber; Storage tank, its preservation waits to be fed to the washings of this staving; And air-lock assembly, it has the steam raising plant that heating waits to be fed to the washings of this staving, wherein this steam raising plant is integrally formed in this air-lock assembly, wherein, this air-lock assembly comprises the staving passage, after steaming finished, the water that remains in this steam raising plant directly was fed to this staving by this staving passage.

Another scheme of the present invention provides a kind of dish-washing machine, and this dish-washing machine comprises: staving, and it limits a washing chamber; Storage tank, its preservation waits to be fed to the washings of this staving; And air-lock assembly, it has the steam raising plant that heating waits to be fed to the washings of this staving, wherein this steam raising plant is integrally formed in this air-lock assembly, wherein, this air-lock assembly comprises the staving passage, after steaming finished, the water that remains in this steam raising plant directly was fed to this storage tank by this staving passage.

Another scheme of the present invention provides a kind of method of supplying water of dish-washing machine, and this method may further comprise the steps: by the water service duct, and the steam raising plant supplying washing water from the water source in being formed at the air-lock assembly; In steaming cycle period, will be fed to staving by the steam that produces in this steam raising plant by steam channel; And, after this steaming finishes, the water that remains in this steam raising plant is fed to storage tank or this staving.

Should be appreciated that above general description and the following detailed description of the present invention all are exemplary and explanat, aim to provide the of the present invention further explanation to being asked.

Description of drawings

The accompanying drawing that is comprised is used to provide to further understanding of the present invention, and it is merged in and constitutes the part of this specification, and these accompanying drawings show embodiments of the invention, and is used from explanation principle of the present invention with specification one.

In the accompanying drawings:

Fig. 1 is the cutaway view according to the dish-washing machine of the embodiment of the invention, and wherein steam raising plant and air-lock assembly form;

Fig. 2 is the schematic diagram that illustrates according to the washings stream in the dish-washing machine of the embodiment of the invention;

Fig. 3 is the schematic diagram that has the syndeton of the air-lock assembly of steam raising plant and storage tank in the dish-washing machine that illustrates according to the embodiment of the invention;

Fig. 4 is the schematic diagram of the washings stream in the dish-washing machine according to another embodiment of the present invention; And

Fig. 5 is the schematic diagram that the syndeton of the air-lock assembly that has steam raising plant in the dish-washing machine according to another embodiment of the present invention and storage tank is shown.

The specific embodiment

Now will at length describe with reference to embodiments of the invention, the example is shown in the drawings.Yet the present invention may be embodied to multiple multi-form, should not be understood that to be subject to embodiment described here; On the contrary, provide these embodiment so that the present invention is openly abundant and complete, and pass on design of the present invention fully to those skilled in the art.

Fig. 1 is the cutaway view of dish-washing machine, and wherein steam raising plant and air-lock assembly form.

With reference to figure 1, dish-washing machine 1 comprises: staving 50, and it limits a washing chamber; And air-lock assembly 40, it has the steam raising plant 10 that is used to heat the washings that will be supplied to staving 50.

Dish-washing machine 1 also comprises the storage tank (60 among Fig. 3) that wherein keeps washings.Storage tank 60) can be installed in the bottom center of staving 50.

Air-lock assembly 40 is arranged on the side of dish-washing machine 1 to carry out various functions, for example adjusts and supplies water, and adjusts the pressure in the staving, and sucks extraneous air.

Fig. 2 is the schematic diagram of the washings stream in this dish-washing machine.

With reference to figure 2, the air-lock assembly 40 with steam raising plant 10 of one comprises: water channel 11, and washings are fed to steam raising plant 10 by this water channel 11 from external water source; Steam channel 12, the steam that is produced by steam raising plant 10 is fed to staving 50 by this steam channel 12; And storage tank passage 13, after steaming finished, the remaining water of steam raising plant 10 was fed to storage tank 60 by this storage tank passage 13.

These washings are fed to air-lock assembly 40 by water channel 11 from external water source.The inlet that is formed on the water channel 11 in the air-lock assembly 40 is provided with flowmeter 42.When washings flow through, flowmeter 42 rotated to measure output.

Steam raising plant 10 is positioned at the inner and upper of air-lock assembly 40.Steam raising plant 10 comprises the vaporium 15 with heater heating washing water 20.In addition, in steam raising plant 10, be provided with the level sensor 30 of the amount that is used to detect the washings in the vaporium 15.

When the water level of washings reaches scheduled volume or when above, steam raising plant 10 uses heaters 20 heated scrub water, and supplies steam in the staving 50 by steam channel 12.

Steam channel 12 is connected to staving intercommunicating pore 43 by the side of steam raising plant 10 and staving 50.Steam channel 12 plays tube connector, and the steam that produces in the steam raising plant 10 enters staving 50 by this steam channel 12.

Steam valve 18 is installed in downstream at steam channel 12.Steam valve 18 is only opened when steam is fed to vaporium 15.

When not carrying out steaming, steam valve 18 cuts out.Therefore, in the normal circulation such as cycles of washing and rinse cycle, wash water can't import in the steam raising plant 10 by steam channel 12.

Steam valve 18 prevents that wash water and exotic from entering and remaining in the steam channel 12, prevents to produce the microbial growth of stench thus, and therefore keeps the cleaning of dish-washing machine.

Storage tank passage 13 is an interface channel, and when steam supply circulation finished, high-temperature wash water was fed to storage tank (60 among Fig. 3) by this storage tank passage 13.One end of storage tank passage 13 is connected to vaporium 15, and the other end is connected to storage tank 60.The washings that import storage tank 60 by storage tank passage 13 are ejected in the staving 50 by the nozzle (not shown) that is connected to storage tank 60.Therefore, storage tank passage 13 also can be called the staving passage, and washings are fed in the staving by this storage tank passage 13.

Storage tank passage 13 comprises storage tank passage drain valve 14.In washings were fed to vaporium 15, the washings that are stored in the vaporium 15 were heated, and when perhaps producing steam during steaming, storage tank passage drain valve 14 cuts out.On the contrary, when washings were fed to storage tank 60, storage tank passage drain valve 14 was opened.

After steaming finished, the high-temperature wash water that remains in the vaporium 15 imported in the storage tank 60, made that high-temperature wash water can be repeated to use.

Fig. 3 is the schematic diagram that has the syndeton of the air-lock assembly of steam raising plant and storage tank in the dish-washing machine that illustrates according to the embodiment of the invention.

With reference to figure 3, water channel 11 is connected to external water source and steam raising plant 10.Steam channel 12 is connected to steam raising plant 10 and the staving intercommunicating pore 43 that is formed in the air-lock assembly 40.Storage tank passage 13 is connected to steam raising plant 10 and storage tank 60.

Steam channel 12 is formed in the air-lock assembly 40.Water channel 11 and storage tank passage 13 partly are formed in the air-lock assembly 40.Storage tank passage 13 is connected to storage tank 60 by lower channel 13a.

Steam valve 18 is positioned at steam channel 12.When steam was fed to staving 50, this steam valve 18 was opened.Storage tank passage drain valve 14 is positioned at storage tank passage 13, and when washings were fed to storage tank, this storage tank passage drain valve 14 was opened.

Steam production process and the remaining water discharge process implemented by said structure will be described now briefly.

When storage tank passage drain valve 14 cut out, washings were fed to and are retained in the vaporium 15 by water channel 11.Subsequently, the water of reservation is heated to produce steam by heater 30.Steam is fed to staving 50 by staving intercommunicating pore 43.

After steam produced end, storage tank passage drain valve 14 was opened, thereby by the lower channel 13a of storage tank passage 13 and storage tank passage 13 the high-temperature wash water in the vaporium 15 was fed to storage tank 60.

The high-temperature wash water that is fed to storage tank 60 arrives in the staving 50 by the nozzle ejection that is connected to storage tank 60.High-temperature wash water is recycled and reused for cycles of washing with other washings that directly are fed to storage tank 60 from the water source.Alternatively, the washings that are fed in the storage tank 60 can fully be fed in the storage tank 60 via steam raising plant 10.

Fig. 4 is the schematic diagram of the washings stream in the dish-washing machine according to another embodiment of the present invention.

With reference to figure 4, the air-lock assembly 40 that forms with steam raising plant 10 comprises: water channel 11, and washings are fed to steam raising plant 10 by this water channel 11 from external water source; Steam channel 12, the steam that is produced by steam raising plant 10 is fed to staving 50 by this steam channel 12; And staving passage 22, after steaming finished, the remaining water in the steam raising plant 10 was fed to staving 50 by this staving passage 22.

Water channel 11 is washings service ducts, and washings are fed to air-lock assembly 40 by this water channel 11 from external water source.The entrance side that is formed on the water channel 11 in the air-lock assembly 40 is provided with flowmeter 42.When washings flow through, flowmeter 42 rotated to measure output.

Steam raising plant 10 is positioned at the inner and upper of air-lock assembly 40.Steam raising plant 10 comprises the vaporium 15 with heater heating washing water 20.In addition, steam raising plant 10 comprises level sensor 30, and this level sensor 30 is used to detect the amount that is fed to the washings in the vaporium 15.The effect of level sensor 30 is: keep the water level in the vaporium 15 when heater 20 work equably.

When the water level of washings arrived predetermined water level, steam raising plant 10 used heaters 20) heated scrub water, and supply steam in the staving 50 by steam channel 12.

Steam channel 12 is connected to staving intercommunicating pore 43 by the side of steam raising plant 10 and staving 50.Steam channel 12 plays tube connector, and the steam that steam raising plant 10 produces enters staving 50 by this steam channel 12.

Steam valve 18 is positioned at steam channel 12.Steam valve 18 is only opened when vaporium 15 produces steam.

Simultaneously, do not carrying out the steaming circulation time, steam valve 18 cuts out.Therefore, in the normal circulation such as cycles of washing and rinse cycle, wash water can't enter in the steam raising plant 10 by steam channel 12.

Steam valve 18 can prevent that wash water and exotic from entering and remaining in the steam channel 12, prevents to produce the breeding of the microorganism of stench thus, and therefore keeps the cleaning of dish-washing machine.

Staving passage 22 is an interface channel, and high-temperature wash water residual after steam supply circulation finishes is by this staving passage 22, be fed to staving 50 via staving intercommunicating pore 43.One end of staving passage 22 is connected to vaporium 15, and the other end is connected to staving 50.The washings that import staving 50 by staving passage 22 are ejected in the staving 50 by the nozzle (not shown) that is connected to storage tank 60.

Vaporium water discharging valve 24 also is installed on the staving passage 22.In washings were fed to vaporium 15, the washings that are retained in the vaporium 15 were heated, and when perhaps producing steam during steaming, vaporium water discharging valve 24 is closed.On the contrary, in the time of in washings are fed to staving 50, vaporium water discharging valve 24 is opened.

After steaming finished, the high-temperature wash water that remains in the vaporium 15 entered in the staving 50 via staving passage 22, makes high-temperature wash water can be recycled and reused for cycles of washing.

Simultaneously, be provided with path (ambient path) 90 on every side in the downstream of steam channel 12 and steam valve 18.Path 90 has the zigzag structure on every side, thereby becomes the barrier of steam.

In steaming cycle period, the part of the steam that is produced by steam raising plant 10 is by path 90 on every side and be positioned at steam discharge hole 92 dischargings of path 90 far-ends on every side.Steam discharge hole 92 is covered by discharge closure 64, and this discharge closure 64 is opened by the pressure of the steam of discharging.

In addition, in high-temperature wash cycle period, there is the high temp/high pressure state in the inside of staving 50.At this moment, can produce steam (vapor) in the staving 50, and this steam imports air-lock assembly 40 by staving intercommunicating pore 43.This steam is discharged into the outside of dish-washing machine by path 90 and steam discharge hole 92 on every side.

Pressure when path 90 has reduced high temperature circulation on every side in the staving 50, thus can stably operate dish-washing machine.

Fig. 5 is the schematic diagram that the syndeton of the air-lock assembly that has steam raising plant in the dish-washing machine according to another embodiment of the present invention and storage tank is shown.

Water channel 11 is connected to watering and steam raising plant 10.Steam channel 12 is connected to steam raising plant 10 and the staving intercommunicating pore 43 in the air-lock assembly 40, and staving passage 22 is connected to staving intercommunicating pore 43 and steam raising plant 10.

Steam channel 12 and staving passage 22 are positioned at air-lock assembly 40.Water channel 11 is positioned partially in the air-lock assembly 40.

Steam channel 12 comprises steam valve 18, and this steam valve 18 is opened in the time of in steam is fed to steam channel 12; And staving passage 22 comprises remaining water discharging valve, and promptly the vaporium water discharging valve 24, and this vaporium water discharging valve 24 is opened when washings are fed to storage tank.

Steam production process and the remaining water discharge process implemented by said structure will be described now briefly.

If vaporium water discharging valve 24 is closed, then washings are fed to and are retained in the vaporium 15 by water channel 11.Subsequently, the water of reservation is heated to produce steam by heater.Steam is fed to staving 50 by staving intercommunicating pore 43.

After steam produced end, vaporium water discharging valve 24 was opened, thereby the high-temperature wash water that will remain in the vaporium 15 are fed in the staving 50.

The high-temperature wash water that is fed to staving 50 is recycled and reused for cycles of washing with other washings that directly are fed to storage tank 60 from the water source.

Hereinafter the method for supplying water of dish-washing machine of the present invention will be described referring to figs. 2 to Fig. 5.

When the remaining water of steam raising plant 10 flows into storage tank 60, import steam raising plants 10 by water channel 11 from the washings of water source supply.In steaming cycle period, the steam that is produced by steam raising plant 10 imports stavings 50 by steam channel 12.After steaming finished, the high-temperature wash water that produces in the steam raising plant 10 imported storage tank 60 by storage tank passage 13.The washings that import storage tank 60 arrive in the staving 50 by the nozzle ejection that is connected to storage tank 60.

When the remaining water of steam raising plant 10 imports staving, import steam raising plants 10 by water channel 11 from the washings of water source supply.During vapor recycle, the steam that is produced by steam raising plant 10 imports staving 50 by steam channel 12.After steaming finished, the high-temperature water that remains in the vaporium 15 imported staving 50 by staving passage 22.

In the time of in steam raising plant is integrally formed in this air-lock assembly, can reduce the length of water channel, steam channel and remaining water discharge passage.Therefore, can be reduced in the thermal losses that produces between the washings flow periods.In addition, be located at the situation of the outside of air-lock assembly with steam raising plant and compare, can improve the utilization in space.In addition, because steam channel is formed in the air-lock assembly, therefore can reduce the manufacturing cost of steam channel.

Because the water that remains in the vaporium can be discharged into storage tank or staving up hill and dale, therefore can prevent the bacterial growth in the vaporium.In addition, when remaining hot water joins washings from external water source, can reduce the energy consumption that is used for the high-temperature wash circulation.

Those skilled in the art will be clear, can carry out various modifications and variations under the situation that does not break away from the spirit or scope of the present invention.Therefore, the present invention is intended to cover the various modifications and variations of the present invention that drop in claims and the equivalency range thereof.

Claims (22)

1. dish-washing machine, this dish-washing machine comprises:

Staving, it crosses a washing chamber;

Storage tank, its preservation waits to be fed to the washings of this staving; And

The air-lock assembly, it has the steam raising plant that heating waits to be fed to the washings of this staving.

2. dish-washing machine according to claim 1, wherein, this air-lock assembly comprises:

Water channel, it is fed to this steam raising plant with washings;

Steam channel, it will be fed to this staving by the steam that this steam raising plant produces; And

The staving passage, it is fed to this staving with the water that remains in this steam raising plant after steaming finishes.

3. dish-washing machine according to claim 1, wherein, this air-lock assembly comprises:

Water channel, it is fed to this steam raising plant with washings;

Steam channel, it will be fed to this staving by the steam that this steam raising plant produces; And

The storage tank passage, it is fed to this storage tank with the water that remains in this steam raising plant after steaming finishes.

4. dish-washing machine according to claim 1, wherein, this steam raising plant comprises steam valve, this steam valve is opened to this staving supply steam the time.

5. dish-washing machine according to claim 1, wherein, this air-lock assembly comprises the steam raising plant drain valve, thus this steam raising plant drain valve is opened the water that will remain in this steam raising plant and is fed to this storage tank or this staving.

6. dish-washing machine according to claim 1, wherein, this air-lock assembly comprises level sensor, this level sensor detects the water yield that is fed to this steam raising plant.

7. dish-washing machine according to claim 1 wherein, is adjacent to be provided with the staving intercommunicating pore with this steam raising plant, and steam is fed to this staving by this staving intercommunicating pore.

8. dish-washing machine, this dish-washing machine comprises:

Staving, it limits a washing chamber;

Storage tank, its preservation waits to be fed to the washings of this staving; And

The air-lock assembly, it has the steam raising plant that heating waits to be fed to the washings of this staving, and wherein this steam raising plant is integrally formed in this air-lock assembly,

Wherein, this air-lock assembly comprises the staving passage, and after steaming finished, the water that remains in this steam raising plant directly was fed to this staving by this staving passage.

9. dish-washing machine according to claim 8, wherein, this steam raising plant comprises steam valve, this steam valve is opened to this staving supply steam the time.

10. dish-washing machine according to claim 8, wherein, this air-lock assembly comprises the steam raising plant drain valve that is positioned at this staving passage, thus this steam raising plant drain valve is opened the water that will remain in this steam raising plant and is fed to this staving.

11. dish-washing machine according to claim 8, wherein, this air-lock assembly comprises level sensor, and this level sensor detects the water yield that is fed to this steam raising plant.

12. dish-washing machine according to claim 8 wherein, is adjacent to be provided with the staving intercommunicating pore with this steam raising plant, steam is fed to this staving by this staving intercommunicating pore.

13. dish-washing machine according to claim 8, wherein, this air-lock assembly comprises steam channel and path on every side, and the steam that is produced by this steam raising plant is fed to this staving by this steam channel, should around path be positioned at the downstream of this steam channel.

14. a dish-washing machine, this dish-washing machine comprises:

Staving, it limits a washing chamber;

Storage tank, its preservation waits to be fed to the washings of this staving; And

The air-lock assembly, it has the steam raising plant that heating waits to be fed to the washings of this staving, and wherein this steam raising plant is integrally formed in this air-lock assembly,

Wherein, this air-lock assembly comprises the staving passage, and after steaming finished, the water that remains in this steam raising plant directly was fed to this storage tank by this staving passage.

15. dish-washing machine according to claim 14, wherein, this steam raising plant comprises steam valve, and this steam valve is opened to this staving supply steam the time.

16. dish-washing machine according to claim 14, wherein, this air-lock assembly comprises the steam raising plant drain valve that is positioned at this staving passage, thereby this steam raising plant drain valve is opened the water that will remain in this steam raising plant and is fed to this storage tank.

17. dish-washing machine according to claim 14, wherein, this air-lock assembly comprises level sensor, and this level sensor detects the water yield that is fed to this steam raising plant.

18. the method for supplying water of a dish-washing machine, this method may further comprise the steps:

By water channel, the steam raising plant supplying washing water from the water source in being formed at the air-lock assembly;

In steaming cycle period, the steam that produces in this steam raising plant is fed to staving by steam channel; And

After this steaming finishes, the water that remains in this steam raising plant is fed to storage tank or this staving.

19. method according to claim 18, wherein, the water that remains in this steam raising plant is fed to this staving by the staving passage.

20. method according to claim 18, wherein, the water that remains in this steam raising plant is fed to this storage tank by the storage tank passage.

21. method according to claim 18 wherein, is supplied steam by opening the steam valve of being located at this steam channel downstream.

22. method according to claim 18, wherein, the water that remains in this steam raising plant is supplied to this staving or this storage tank by opening the steam raising plant drain valve.

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