CN111928225A - High energy-saving temperature efficiency converter for tableware disinfection - Google Patents

Abstract

The invention provides a high-energy-saving temperature efficiency converter for tableware disinfection, which comprises a device main body, a steam heating mechanism and a steam eliminating mechanism, wherein the device main body comprises a steam box, a steam water container, an electric heating disc and a steam container, the steam heating mechanism comprises a spiral spray head, a first gas pipe, a first connecting pipe, a first stop valve, a water filling port, a first high-heat-conductivity metal spiral pipe, a second connecting pipe, a second stop valve, a first heat-insulation layer, a water tank, a water outlet pipe, a third stop valve, a second heat-insulation layer, an electric heating ring, a second high-heat-conductivity metal spiral pipe, a third heat-insulation layer, a second gas pipe and a heat insulation plate, and the steam eliminating mechanism comprises a cooling fan, a semiconductor cooling sheet, a drain valve, a gas distribution pipe, a round hole, a water: the aim of disinfection and sterilization in a short time and in a state without any saturation pressure is achieved, and the aim of eliminating steam is also achieved.

Description

High energy-saving temperature efficiency converter for tableware disinfection

Technical Field

The invention relates to a high-energy-saving temperature-efficiency converter for tableware disinfection, belonging to the field of kitchen supplies.

Background

The disinfection and sterilization in the catering industry is necessary equipment, the steam disinfection and sterilization is the most effective method at present, but if the temperature is increased to more than 100 ℃, the disinfection and sterilization container needs to bear corresponding saturated steam, the pressure can realize the disinfection products used in the industry at present, the tableware disinfection is mostly carried out in several disinfection modes of infrared rays, ultraviolet rays, ozone and steam, but from the aspects of disinfection time and temperature, the defects of long temperature rise time and low temperature exist.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a high-energy-saving temperature-efficiency converter for tableware disinfection, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: a high energy-saving temperature-efficiency converter for tableware disinfection, which comprises a device main body, a steam heating mechanism and a steam eliminating mechanism, the device main body comprises a steam box, a steam water container, an electric heating disc and a steam container, the steam box is arranged on the upper side of the steam container, the steam liner is arranged at the middle position of the upper side of the outer surface of the steam water liner, the electric heating disc is arranged at the middle position of the lower side of the inner surface of the steam water liner, the steam heating mechanism comprises a spiral spray head, a first gas conveying pipe, a first connecting pipe, a first stop valve, a water filling port, a first high-heat-conductivity metal spiral pipe, a second connecting pipe, a second stop valve, a first heat-insulating layer, a water tank, a water outlet pipe, a third stop valve, a second heat-insulating layer, a second high-heat-conductivity metal spiral pipe, a third heat-insulating layer, a second gas conveying pipe and a heat insulating plate, the steam elimination mechanism comprises a cooling fan, a semiconductor refrigeration sheet, a drain valve, a gas distribution pipe, a round hole, a water storage box and a steam outlet pipe.

Further, in the steam heating mechanism, the heat-insulating layer II is wrapped on the outer surface of the steam liner, the heat-insulating layer III is arranged on the outer side of the heat-insulating layer II, the heat-insulating plate is arranged between the heat-insulating layer II and the heat-insulating layer III, the heat-insulating layer I is wrapped on the outer surface of the water tank, the water filling port is arranged on the upper side of the left end face of the water tank, the high-heat-conductivity metal spiral pipe I is arranged between the heat-insulating layer II and the heat-insulating layer III, the right end of the connecting pipe I is connected with the upper end of the high-heat-conductivity metal spiral pipe I, the left end of the connecting pipe I penetrates through the heat-insulating layer III and is provided with the stop valve I, the stop valve I is arranged on the upper side of the right end face of the water, and outlet pipe other end installation stop valve three, stop valve three is installed in steam water courage surface left side, high heat conduction metal spiral pipe second cover is established in two outsides of heat preservation, gas-supply pipe one is installed in two upper ends of high heat conduction metal spiral pipe, and the gas-supply pipe other end extends to in the steam ager and installs the spiral shower nozzle, gas-supply pipe two is installed in steam courage surface upside middle part position, and two other ends of gas-supply pipe run through heat preservation three and are connected with two lower extremes of high heat conduction metal spiral pipe.

Furthermore, the steam heating mechanism also comprises an electric heating ring, the electric heating ring is arranged between the second heat-insulating layer and the third heat-insulating layer and is connected with an external power supply through a wire, when the electric heating disc and the electric heating ring are powered on, heat is generated, steam generated in the steam water container in unit time (about 3 minutes) enters the steam container, then the steam flows into the second high-heat-conductivity metal spiral pipe from the second gas conveying pipe, the heat generated by the electric heating ring is effectively absorbed by utilizing the high heat conductivity of the second high-heat-conductivity metal spiral pipe, when the steam passes through the second high-heat-conductivity metal spiral pipe, the high temperature generated by the electric heating ring is continuously carried out and enters the spiral nozzle through the first gas conveying pipe by utilizing the flow speed of the steam in the second high-heat-conductivity metal spiral pipe, so that the output steam rotates in the steam box at the highest speed to ensure that all parts in the steam box, the temperature in the steam box reaches 160 ℃ in a short time, so that viruses and bacteria are killed in the shortest time and dead-angle-free disinfection and sterilization are realized, in order to effectively achieve the purpose of high-efficiency high temperature, effective heat preservation measures are taken by adopting a second heat preservation layer and a third heat preservation layer to carry out secondary heating pipes, after a circuit of an electric heating disc, an electric heating ring and an external power supply is disconnected, more heat exists between the second heat preservation layer and the third heat preservation layer due to the action of the second heat preservation layer and the third heat preservation layer, at the moment, a first stop valve and a third stop valve are opened, further, water in the water box flows into a first high-heat-conducting metal spiral pipe through a first connecting pipe and a first connecting pipe, so that the purpose of heating the water in the water box by utilizing waste heat is achieved, the first heat preservation layer is wrapped on the outer surface of, and then the warm water in the water tank flows into the steam water container through the water outlet pipe, thereby further achieving the purpose of saving electric energy, finally realizing that the temperature in the steam box reaches about 160 ℃ in a short time and under the state without any saturated pressure, simultaneously needing no more water capacity, effectively overcoming the consumption of electric power due to the resistivity of water, fully achieving the effect of high efficiency and electricity saving, and also achieving the purpose of heating water by utilizing waste heat.

Furthermore, a plurality of groups of electric heating rings are installed between the second heat-insulating layer and the third heat-insulating layer in an annular equidistant mode, and the plurality of groups of electric heating rings are installed between the second heat-insulating layer and the third heat-insulating layer to achieve the effect of quickly raising the temperature.

Furthermore, the first heat insulation layer, the second heat insulation layer and the third heat insulation layer are all members made of polystyrene foam plastics, and the installation difficulty is reduced by utilizing the characteristics of the polystyrene foam plastics, such as strong temperature adaptability, good processability, easiness in molding and the like.

Further, among the steam elimination mechanism, the terminal surface right side under the steam ager is installed through the bolt to the water storage box, and the water storage box right-hand member extends to the steam ager right side, the terminal surface under the water storage box is installed to the semiconductor refrigeration piece, radiator fan installs at semiconductor refrigeration piece downside, and radiator fan passes through branch and water storage box fixed connection, the drain valve is installed at water storage box right-hand member face downside, the steam exit tube is installed at the steam ager up end, and the steam exit tube other end extends to in the water storage box, the gas distribution pipe is installed at steam exit tube lower extreme, the round hole is seted up at gas distribution pipe annular side upside.

Furthermore, in the steam elimination mechanism, the steam elimination mechanism further comprises an electromagnetic valve and a drain pipe, the drain pipe is arranged on the upper side of the left end face of the water storage box, the electromagnetic valve is arranged on the other end of the drain pipe, the electromagnetic valve is arranged on the lower end face of the steam box, in the using process, the semiconductor refrigeration piece, the cooling fan and the electromagnetic valve are electrically connected with an external power supply through wires, then, a proper amount of water is added into the water storage box, the air distribution pipe is immersed in the water, then, the steam in the steam box flows into the air distribution pipe through the steam outlet pipe, then, the steam flows into the water in the water storage box through the round hole, the purpose of eliminating the steam is achieved, in order to prevent the water in the water storage box from being heated by the steam, the effect of eliminating the steam is poor, a circuit between the semiconductor refrigeration piece and the external power supply is switched on, the water storage box is used for maintaining the water in the water storage box to be in a lower-temperature state, the purpose of continuously eliminating steam is achieved, a circuit between a cooling fan and an external power supply is connected while a semiconductor refrigeration sheet works, the cooling fan accelerates the flowing speed of air around the semiconductor refrigeration sheet, the purpose of heat dissipation is achieved, condensed water is easy to remain in the steam box after the steam box is used, the circuit between an electromagnetic valve and the external power supply is connected, the electromagnetic valve is powered on and opened, the condensed water at the bottom in the steam box flows into the water storage box through a drainage pipe, the purpose of collecting the condensed water is achieved, a drainage valve is opened while the condensed water is collected, the water in the water storage box is drained to other containers, the water storage box is prevented from overflowing, the purpose of eliminating steam and preventing the steam from winding around the working environment to influence the sight is.

Furthermore, at least three groups of round holes are formed in the round holes, at least three groups of round holes are formed in the upper side of the annular side face of the air distribution pipe at equal intervals, and through the at least three groups of round holes formed in the air distribution pipe, steam can flow into the water in the water storage box conveniently and uniformly, and the effect of eliminating the steam is improved.

Furthermore, the box door is mounted on the front end face of the steam box through a hinge, tableware is conveniently placed in the steam box by opening the box door, and steam conveniently flows into the water storage box through the steam outlet pipe when the box door is closed.

The invention has the beneficial effects that: according to the high-energy-saving temperature-efficiency converter for tableware disinfection, the spiral spray head, the first gas conveying pipe, the first connecting pipe, the first stop valve, the water filling port, the first high-heat-conductivity metal spiral pipe, the second connecting pipe, the second stop valve, the first heat-insulation layer, the water tank, the water outlet pipe, the third stop valve, the second heat-insulation layer, the electric heating ring, the second high-heat-conductivity metal spiral pipe, the third heat-insulation layer, the second gas conveying pipe and the heat insulation plate are added.

Because the invention adds the cooling fan, the semiconductor refrigeration piece, the drain valve, the air distribution pipe, the round hole, the water storage box, the drain pipe, the electromagnetic valve and the steam outlet pipe, the design realizes the purpose of eliminating steam and also achieves the purpose of collecting condensed water.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a high energy-saving temperature-efficient converter for tableware disinfection according to the present invention;

in the figure: 1-steam box, 2-spiral nozzle, 3-first gas pipe, 4-first connecting pipe, 5-first stop valve, 6-water filling port, 7-first high heat conduction metal spiral pipe, 8-second connecting pipe, 9-second stop valve, 10-first heat preservation layer, 11-water tank, 12-water outlet pipe, 13-third stop valve, 14-steam water container, 15-electric heating disc, 16-steam container, 17-third heat preservation layer, 18-electric heating ring, 19-second high heat conduction metal spiral pipe, 20-second heat preservation layer, 21-second gas pipe, 22-heat insulation board, 23-cooling fan, 24-refrigeration semiconductor sheet, 25-drain valve, 26-gas distribution pipe, 27-round hole, 28-water storage box, 29-drain pipe, 30-electromagnetic valve, 31-steam outlet pipe.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1, the present invention provides a technical solution: a high-energy-saving temperature efficiency converter for tableware disinfection comprises a device main body, a steam heating mechanism and a steam eliminating mechanism, wherein the device main body comprises a steam box 1, a steam water container 14, an electric heating disc 15 and a steam container 16, the steam box 1 is arranged on the upper side of the steam container 16, the steam container 16 is arranged in the middle of the upper side of the outer surface of the steam water container 14, the electric heating disc 15 is arranged in the middle of the lower side of the inner surface of the steam water container 14, the steam heating mechanism comprises a spiral nozzle 2, a first gas conveying pipe 3, a first connecting pipe 4, a first stop valve 5, a water filling port 6, a first high-heat-conduction metal spiral pipe 7, a second connecting pipe 8, a second stop valve 9, a first heat-insulation layer 10, a water tank 11, a water outlet pipe 12, a third stop valve 13, a second heat-insulation layer 17, a second high-heat-, Drain valve 25, gas distribution pipe 26, round hole 27, water storage box 28 and steam outlet pipe 31.

In the steam heating mechanism, a second heat-insulating layer 17 is wrapped on the outer surface of a steam liner 16, a third heat-insulating layer 20 is arranged on the outer side of the second heat-insulating layer 17, a heat-insulating plate 22 is arranged between the second heat-insulating layer 17 and the third heat-insulating layer 20, a first heat-insulating layer 10 is wrapped on the outer surface of a water tank 11, a water filling port 6 is arranged on the upper side of the left end surface of the water tank 11, a first high-heat-conductivity metal spiral pipe 7 is arranged between the second heat-insulating layer 17 and the third heat-insulating layer 20, the right end of a first connecting pipe 4 is connected with the upper end of the first high-heat-conductivity metal spiral pipe 7, the left end of the first connecting pipe 4 penetrates through the third heat-insulating layer 20 and is provided with a first stop valve 5, the first stop valve 5 is arranged on the upper side of the right end, and the other end of the water outlet pipe 12 is provided with a stop valve III 13, the stop valve III 13 is arranged on the left side of the outer surface of the steam water liner 14, a second 19 high-heat-conductivity metal spiral pipe is sleeved on the outer side of a second 17 heat-insulating layer, a first 3 gas conveying pipe is arranged at the upper end of the second 19 high-heat-conductivity metal spiral pipe, the other end of the first 3 gas conveying pipe extends into the steam box 1 and is provided with a spiral spray head 2, a second 21 gas conveying pipe is arranged in the middle of the upper side of the outer surface of the steam liner 16, and the other end of.

In the steam elimination mechanism, the water storage box 28 is installed on the right side of the lower end face of the steam box 1 through a bolt, the right end of the water storage box 28 extends to the right side of the steam box 1, the semiconductor refrigeration sheet 24 is installed on the lower end face of the water storage box 28, the cooling fan 23 is installed on the lower side of the semiconductor refrigeration sheet 24, the cooling fan 23 is fixedly connected with the water storage box 28 through a support rod, the drain valve 25 is installed on the lower side of the right end face of the water storage box 28, the steam outlet pipe 31 is installed on the upper end face of the steam box 1, the other end of the steam outlet pipe 31 extends into the water storage box 28, the steam distribution pipe 26 is.

As an embodiment of the present invention: in the steam heating mechanism, the heating ring 18 is also included, the heating ring 18 is installed between the second heat-insulating layer 17 and the third heat-insulating layer 20, and the heating ring 18 is connected with an external power supply through a wire, when the electric heating disk 15 and the heating ring 18 are powered on, heat is generated, steam generated in the steam water container 14 in unit time (about 3 minutes) enters the steam container 16, then the steam flows into the second high heat-conducting metal spiral pipe 19 from the second air delivery pipe 21, the heat generated by the heating ring 18 is effectively absorbed by utilizing the high heat-conducting property of the second high heat-conducting metal spiral pipe 19, when the steam passes through the second high heat-conducting metal spiral pipe 19, the high temperature generated by the heating ring 18 is continuously carried out and enters the spiral spray nozzle 2 through the first air delivery pipe 3 by utilizing the flow velocity of the steam in the second high heat-conducting metal spiral pipe 19, so that the output steam rotates in the steam box 1 at the highest speed, and all parts in, so that the temperature in the steam box 1 reaches 160 ℃ in each part in a short time, and the aim of killing viruses and bacteria and sterilizing without dead angles is achieved in the fastest time, in order to effectively achieve the aim of high-efficiency and high-temperature, an effective heat preservation measure is taken for the second high-heat-conductivity metal spiral pipe 19 by adopting the second heat preservation layer 17 and the third heat preservation layer 20, after the electric heating disc 15, the electric heating ring 18 and a circuit of an external power supply are disconnected, more heat exists between the second heat preservation layer 17 and the third heat preservation layer 20 due to the action of the second heat preservation layer 17 and the third heat preservation layer 20, the first stop valve 5 and the third stop valve 13 are opened at the moment, and then the moisture in the water box 11 flows into the first high-heat-conductivity metal spiral pipe 7 through the first connecting pipe 4 and the second connecting pipe 8, so as to achieve the aim of heating the moisture in, when water needs to be supplemented into the steam water container 14, the third stop valve 13 is opened, and then warm water in the water tank 11 flows into the steam water container 14 through the water outlet pipe 12, so that the aim of saving electric energy is further fulfilled, finally, the temperature in the steam box 1 can reach about 160 ℃ in a short time and in a state without any saturated pressure, simultaneously, a large amount of water capacity is not needed, the consumption of electric power due to the resistivity of water is effectively overcome, the efficient electricity-saving effect is fully achieved, and the aim of heating the water by utilizing waste heat is also fulfilled.

As an embodiment of the present invention: and a plurality of groups of electric heating rings 18 are annularly and equidistantly arranged between the second heat-insulating layer 17 and the third heat-insulating layer 20, and the plurality of groups of electric heating rings 18 are arranged between the second heat-insulating layer 17 and the third heat-insulating layer 20 to play a role of quickly raising the temperature.

As an embodiment of the present invention: the first heat-insulating layer 10, the second heat-insulating layer 17 and the third heat-insulating layer 20 are all members made of polystyrene foam, and the installation difficulty is reduced by utilizing the characteristics of strong temperature adaptability, good processability, easiness in molding and the like of the polystyrene foam.

As an embodiment of the present invention: in the steam eliminating mechanism, the steam eliminating mechanism further comprises an electromagnetic valve 30 and a drain pipe 29, the drain pipe 29 is installed on the upper side of the left end face of the water storage box 28, the electromagnetic valve 30 is installed on the other end face of the drain pipe 29, in the using process, the semiconductor refrigeration piece 24, the heat dissipation fan 23 and the electromagnetic valve 30 are electrically connected with an external power supply through conducting wires, then, a proper amount of moisture is added into the water storage box 28, the air distribution pipe 26 is immersed in the moisture, then, the steam in the steam box 1 flows into the air distribution pipe 26 through a steam outlet pipe 31, then, the steam flows into the moisture in the water storage box 28 through the round hole 27, so that the purpose of eliminating the steam is achieved, in order to prevent the moisture in the water storage box 28 from being heated by the steam and then eliminate the steam, the effect is poor, the circuit between the semiconductor refrigeration piece 24 and the external power supply is switched, the moisture in the water storage box 28 is cooled through a heat transfer mode to maintain the moisture in the water storage box 28 in a lower temperature state, so as to achieve the purpose of continuously eliminating steam, a circuit between the cooling fan 23 and an external power supply is switched on while the semiconductor refrigeration piece 24 works, further the cooling fan 23 accelerates the circulation speed of air around the semiconductor refrigeration piece 24, so as to achieve the purpose of heat dissipation, condensed water is easy to remain in the steam box 1 after the steam box 1 is used, the circuit between the electromagnetic valve 30 and the external power supply is switched on, the electromagnetic valve 30 is switched on, further the condensed water at the bottom in the steam box 1 flows into the water storage box 28 through the drain pipe 29, so as to achieve the purpose of collecting the condensed water, the drain valve 25 is switched on while the condensed water is collected, the moisture in the water storage box 28 is drained into other containers, the water storage box 28 is prevented from overflowing, and the purpose of eliminating influence of steam on sight when the steam, the purpose of collecting the condensed water is also achieved.

As an embodiment of the present invention: at least three groups of round holes 27 are formed in the round holes 27, the round holes 27 in the three groups are equidistantly formed in the upper side of the annular side face of the air distribution pipe 26, and the round holes 27 in the three groups are formed in the air distribution pipe 26, so that steam can uniformly flow into moisture in the water storage box 28, and the effect of eliminating the steam is improved.

As an embodiment of the present invention: the front end surface of the steam box 1 is provided with a box door through a hinge, tableware can be conveniently placed in the steam box 1 by opening the box door, and steam conveniently flows into the water storage box 28 through the steam outlet pipe 31 when the box door is closed.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. The utility model provides a high energy-conserving temperature efficiency converter of tableware disinfection, includes device main part, steam heating mechanism and steam elimination mechanism, its characterized in that: the device main part includes steam ager, steam water courage, electric hot tray and steam courage, the steam ager sets up at steam courage upside, the steam courage is installed at steam water courage surface upside middle part position, the electric hot tray is installed at steam water courage internal surface downside middle part position, steam heating mechanism includes spiral nozzle, gas-supply pipe one, connecting pipe one, stop valve one, filler, high heat conduction metal spiral pipe one, connecting pipe two, stop valve two, heat preservation one, water tank, outlet pipe, stop valve three, heat preservation two, high heat conduction metal spiral pipe two, heat preservation three, gas-supply pipe two and heat insulating board, steam elimination mechanism includes radiator fan, semiconductor refrigeration piece, drain valve, gas distribution pipe, round hole, retaining box and steam outlet pipe.

2. The energy-saving temperature-efficient converter for tableware decontamination as set forth in claim 1, wherein: in the steam heating mechanism, the second heat-insulating layer is wrapped on the outer surface of the steam liner, the third heat-insulating layer is arranged on the outer side of the second heat-insulating layer, the heat-insulating plate is arranged between the second heat-insulating layer and the third heat-insulating layer, the first heat-insulating layer is wrapped on the outer surface of the water tank, the water filling port is arranged on the upper side of the left end surface of the water tank, the first high-heat-conductivity metal spiral pipe is arranged between the second heat-insulating layer and the third heat-insulating layer, the right end of the first connecting pipe is connected with the upper end of the first high-heat-conductivity metal spiral pipe, the left end of the first connecting pipe penetrates through the third heat-insulating layer and is provided with the first stop valve, the first stop valve is arranged on the upper side of the right end surface of, and outlet pipe other end installation stop valve three, stop valve three is installed in steam water courage surface left side, high heat conduction metal spiral pipe second cover is established in two outsides of heat preservation, gas-supply pipe one is installed in two upper ends of high heat conduction metal spiral pipe, and the gas-supply pipe other end extends to in the steam ager and installs the spiral shower nozzle, gas-supply pipe two is installed in steam courage surface upside middle part position, and two other ends of gas-supply pipe run through heat preservation three and are connected with two lower extremes of high heat conduction metal spiral pipe.

3. The energy-saving temperature-efficient converter for tableware decontamination as set forth in claim 2, wherein: the steam heating mechanism also comprises an electric heating ring, the electric heating ring is arranged between the second heat-insulating layer and the third heat-insulating layer and is connected with an external power supply through a wire, when the electric heating disc and the electric heating ring are powered on, heat is generated, steam generated in the steam water container in unit time (about 3 minutes) enters the steam container, then the steam flows into the second high-heat-conductivity metal spiral pipe from the second gas conveying pipe, the heat generated by the electric heating ring is effectively absorbed by utilizing the high heat conductivity of the second high-heat-conductivity metal spiral pipe, when the steam passes through the second high-heat-conductivity metal spiral pipe, the high temperature generated by the electric heating ring is continuously carried out by utilizing the flow velocity of the steam in the second high-heat-conductivity metal spiral pipe and enters the spiral nozzle through the first gas conveying pipe, the output steam rotates in the steam box at the highest speed, all parts in the steam box are heated uniformly, and all the parts in the steam box reach the temperature of 160 ℃ in a, in order to kill viruses and bacteria and sterilize without dead angles in the fastest time, in order to effectively achieve the purpose of high-efficiency high temperature, effective heat preservation measures are taken by adopting a second heat preservation layer and a third heat preservation layer pair of secondary heating pipes, after a circuit of an electric heating disc, an electric heating ring and an external power supply is disconnected, more heat exists between the second heat preservation layer and the third heat preservation layer due to the action of the second heat preservation layer and the third heat preservation layer, a first stop valve and a third stop valve are opened at the moment, then, water in a water tank flows into a high-heat-conducting metal spiral pipe through a first connecting pipe and a first connecting pipe, so that the purpose of heating the water in the water tank by using waste heat is achieved, the heat preservation effect is achieved by wrapping the first heat preservation layer on the outer surface of the water tank, when water needs to be supplemented into the steam water tank, the third stop valve is, finally, the temperature in the steam box reaches about 160 ℃ in a short time and in a state without any saturation pressure, and meanwhile, the steam box does not need much water capacity, effectively overcomes the consumption of electric power caused by the resistivity of water, fully achieves the effect of high efficiency and electricity saving, and also achieves the purpose of heating water by utilizing waste heat.

4. The energy-saving temperature-efficient converter for tableware decontamination as set forth in claim 2, wherein: and a plurality of groups of electric heating rings are arranged between the second heat-insulating layer and the third heat-insulating layer in an annular equidistant manner, and the plurality of groups of electric heating rings are arranged between the second heat-insulating layer and the third heat-insulating layer to play a role of quickly raising the temperature.

5. The energy-saving temperature-efficient converter for tableware decontamination as set forth in claim 2, wherein: the first heat-insulating layer, the second heat-insulating layer and the third heat-insulating layer are all members made of polystyrene foam, and the installation difficulty is reduced by utilizing the characteristics of strong temperature adaptability, good processability, easiness in molding and the like of the polystyrene foam.

6. The energy-saving temperature-efficient converter for tableware decontamination as set forth in claim 1, wherein: among the steam elimination mechanism, the terminal surface right side under the steam ager is installed through the bolt to the water storage box, and the water storage box right-hand member extends to the steam ager right side, the terminal surface under the water storage box is installed to the semiconductor refrigeration piece, radiator fan installs at semiconductor refrigeration piece downside, and radiator fan passes through branch and water storage box fixed connection, the drain valve is installed at water storage box right-hand member face downside, the steam exit tube is installed at the steam ager up end, and the steam exit tube other end extends to in the water storage box, the gas distribution pipe is installed at steam exit tube lower extreme, the round hole is seted up at gas distribution pipe annular side upside.

7. The energy-saving temperature-efficient converter for tableware decontamination as set forth in claim 6, wherein: the steam eliminating mechanism also comprises an electromagnetic valve and a drain pipe, the drain pipe is arranged on the upper side of the left end face of the water storage box, the electromagnetic valve is arranged at the other end of the drain pipe, the electromagnetic valve is arranged on the lower end face of the steam box, in the using process, the semiconductor refrigeration piece, the cooling fan and the electromagnetic valve are all electrically connected with an external power supply through wires, then, a proper amount of moisture is added into the water storage box, the air distribution pipe is immersed in the moisture, then, the steam in the steam box flows into the air distribution pipe through the steam outlet pipe, then, the steam flows into the moisture in the water storage box through the round hole, the purpose of eliminating the steam is achieved, in order to prevent the moisture in the water storage box from being heated by the steam and then, the steam eliminating effect is poor, a circuit between the refrigeration piece and the external power supply is switched on, then, the temperature, the water storage box is used for maintaining the water in the water storage box to be in a lower-temperature state, the purpose of continuously eliminating steam is achieved, a circuit between a cooling fan and an external power supply is connected while a semiconductor refrigeration sheet works, the cooling fan accelerates the flowing speed of air around the semiconductor refrigeration sheet, the purpose of heat dissipation is achieved, condensed water is easy to remain in the steam box after the steam box is used, the circuit between an electromagnetic valve and the external power supply is connected, the electromagnetic valve is powered on and opened, the condensed water at the bottom in the steam box flows into the water storage box through a drainage pipe, the purpose of collecting the condensed water is achieved, a drainage valve is opened while the condensed water is collected, the water in the water storage box is drained to other containers, the water storage box is prevented from overflowing, the purpose of eliminating steam and preventing the steam from winding around the working environment to influence the sight is.

8. The energy-saving temperature-efficient converter for tableware decontamination as set forth in claim 6, wherein: at least three groups have been seted up to the round hole, at least three groups the round hole equidistance is seted up at gas distribution pipe annular side upside, through set up at least three groups of round holes on the gas distribution pipe, during steam evenly flows into the moisture in the retaining box of being convenient for, improves the effect of eliminating steam.

9. The energy-saving temperature-efficient converter for tableware decontamination as set forth in claim 1, wherein: the box door is mounted on the front end face of the steam box through the hinge, tableware is conveniently placed in the steam box by opening the box door, and steam conveniently flows into the water storage box through the steam outlet pipe when the box door is closed.

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