CN213921812U - Novel electromagnetic heating honey pot - Google Patents

Abstract

The utility model relates to a honey field of making especially relates to novel electromagnetic heating's change honeypot, a serial communication port, change honeypot is dissolving tank (4), dissolving tank (4) inside contains heating coil (3), first mouth of a river (6) and second mouth of a river (10) are being connected respectively at the both ends of heating coil (3), heating space (9) are being connected on the pipeline between first mouth of a river (6) and second mouth of a river (10), go up through electromagnetic heating coil (8) winding and electromagnetic heating coil (8) can heat heating space inside on heating space (9), contain water pump (5) on the pipeline between first mouth of a river (6) and second mouth of a river (10).

Description

Novel electromagnetic heating honey pot

Technical Field

The utility model relates to a honey field of making especially relates to novel electromagnetic heating's change honeypot.

Background

The heating mode used by domestic honey processing enterprises at the present stage is boiler, electric and gas heating mode, and the defects are large energy consumption, long heating time and low productivity

The traditional honey processing and transporting mode is pump type conveying, honey is driven to be transported by rotating a rotary vane, but heat is generated in the rotating process of the rotary vane, so that a pump generates heat, and the smell of a rubber ring enters the honey along with the rise of temperature, so that the taste and flavor of the honey are changed;

in the routine maintenance of the delivery pump, lubricating oil is added, so that the possibility of secondary pollution is caused in the production process.

SUMMERY OF THE UTILITY MODEL

The purpose of the utility model is that: in order to provide a novel electromagnetic heating honey pot with better effect, the specific purpose is seen in a plurality of substantial technical effects of the specific implementation part.

In order to achieve the purpose, the utility model adopts the following technical proposal:

the first scheme is as follows:

a method for preparing nectar, which is characterized in that,

honey is dissolved, the honey dissolving is completed through honey dissolving equipment, and the honey dissolving equipment is a wind-heating honey dissolving device or a hydrothermal honey dissolving structure;

the wind-heated honey dissolving device comprises a feeding overall structure B1, wherein the lower part of the feeding overall structure B1 is supported by a supporting leg B2, the wind-heated honey dissolving device also comprises a hot wind providing system, the hot wind providing system comprises a hot wind blower B8, an air inlet B10 and an air return opening B9 of the hot wind blower are communicated with the upper space of the feeding overall structure B1, the feeding overall structure B1 also comprises a feeding hole B3, and a relatively lower position in the feeding overall structure B1 comprises a discharging hole B4;

the hydrothermal honey dissolving structure is a novel electromagnetic heating honey dissolving tank, and is characterized in that the honey dissolving tank is a dissolving tank 4, the dissolving tank 4 internally comprises a heating coil 3, two ends of the heating coil 3 are respectively connected with a first water gap 6 and a second water gap 10, a heating space 9 is connected on a pipeline between the first water gap 6 and the second water gap 10, the heating space 9 is wound by an electromagnetic heating coil 8, the electromagnetic heating coil 8 can heat the inside of the heating space, and a water pump 5 is arranged on the pipeline between the first water gap 6 and the second water gap 10;

filtering the honey after melting the honey for more than one time, and temporarily storing the filtered honey in a finished product storage tank; the finished product storage tank series is a plurality of tank bodies;

then, after transferring, filtering, filling, packaging and labeling are carried out in batches.

The utility model has the further technical proposal that the material conveying among the plurality of tank bodies is realized by a vacuum negative pressure device material transferring system, the vacuum negative pressure device material transferring system comprises two tank bodies, the two tank bodies are respectively a tank body A2 and a tank body two A9, the tank body A2 and the tank body two A9 respectively comprise an air inlet and a vacuum communicating pipe A8, the vacuum communicating pipe A8 is connected with a vacuumizing structure, and the two tank bodies are connected by a material pipe A7; the two tanks each include a material inlet a 6.

The utility model adopts the further technical proposal that the wind-heating honey melting device adopts electric heating to form hot wind, continuously heats up in a closed environment, adopts peripheral heat preservation measures to keep the temperature basically constant, installs a temperature sensing probe, automatically controls the temperature and keeps the temperature in the honey melting room within a set range; an electric heating mode is adopted, the temperature is automatically controlled by an induction type probe, the melted part of the honey flows into the next procedure, and the non-melted part is continuously heated and melted; the temperature is controlled at 40-50 ℃.

The utility model has the further technical proposal that the hydrothermal honey dissolving structure realizes water bath heating, ensures that the honey dissolving temperature is maintained between 40 ℃ and 50 ℃ from honey dissolving to filling, and keeps the fluid state not to crystallize; adopt electromagnetic heating equipment to carry out circulation heating to water, honey contact hot-water line, hot-water line transfer heat realizes that honey lasts the holding temperature.

The utility model discloses a further technical scheme lies in, adopts vacuum negative pressure transportation mode, and this equipment can not direct contact with honey, through negative pressure mode transportation honey, avoids secondary pollution, makes honey keep inherent flavor.

Scheme II:

wind-heated honey dissolving device, characterized in that, the device contains throws material overall structure B1, throws material overall structure B1 below and supports through supporting leg B2, still contains hot-blast providing system, and this hot-blast providing system contains air heater B8, and air intake B10 and return air inlet B9 of air heater communicate and throw the upper space of material overall structure B1, still contain feed inlet B3 on throwing material overall structure B1, contain discharge gate B4 in the lower position of the inside of throwing material overall structure B1 relatively.

The utility model discloses a further technical scheme lies in, and discharge gate B4 is located relative low point position B6.

The utility model discloses a further technical scheme lies in, relative low point position B6 is guided by inclined plane B5.

The utility model discloses a further technical scheme lies in, throws material overall structure B1's whole to be the structure that can seal.

The utility model discloses a further technical scheme lies in, throws material overall structure B1's whole and can cover through lid B7, and this lid B7 contains handle B12.

The utility model discloses a further technical scheme lies in, air heater B8 is fixed on the bearing structure B11 of throwing material overall structure B1 avris.

The utility model has the further technical proposal that the utility model also comprises a wind-distributing filtering structure, the wind-distributing filtering structure comprises a flat plate B13 and a perforated plate B14, one side of the flat plate B13 is lapped on the air inlet; one side of the perforated plate B14 is positioned below the feed inlet B3, hot air entering from the air inlet can be upwards distributed from the holes of the perforated plate B14, and materials going out from the feed inlet B3 can be melted by the hot air.

The utility model discloses a further technical scheme lies in, still contains a plurality of filter equipment, and a plurality of filter equipment all contain the casing, contain the filter screen in the casing, and honey can be followed and filtered in the filter screen.

The utility model discloses a further technical scheme lie in, foraminiferous plate B14 be the filter screen.

The third scheme is as follows:

the vacuum negative pressure device material transfer system is characterized by comprising two tank bodies, wherein the two tank bodies are respectively a tank body I A2 and a tank body II A9, the tank body I A2 and the tank body II A9 respectively comprise an air inlet and a vacuum communicating pipe A8, the vacuum communicating pipe A8 is connected with a vacuum pumping structure, and the two tank bodies are connected through a material pipe A7; the two tanks each include a material inlet a 6.

The utility model discloses a further technical scheme lie in, air intlet be aseptic air intlet A3.

The utility model discloses a further technical scheme lies in, air inlet, vacuum communicating pipe A8 and material pipe A7 on all contain the valve.

The utility model discloses a further technical scheme lie in, the valve be automatic valve.

The utility model discloses a further technical scheme lies in, two jar bodies on contain agitating unit separately.

The utility model discloses a further technical scheme lies in, material pipe A7 contain two sets ofly, two sets of pipelines incline respectively directional jar body A2 or jar body two A9.

The utility model discloses a further technical scheme lie in, material pipe A7 arrange the position lower relatively between two jar bodies.

The utility model discloses a further technical scheme lies in, two jar body tops contain vacuum communicating pipe A8, vacuum communicating pipe A8 can communicate two jar internal portions's air space.

The utility model discloses a further technical scheme lies in, two jar body below support through bottom support A1.

The utility model discloses a further technical scheme lie in, two jar body equipartitions put in basic supporting body A10, this basic supporting body A10 is the framework.

And the scheme is as follows:

novel electromagnetic heating's change honeypot, its characterized in that, change honeypot for dissolving tank 4, dissolving tank 4 is inside to contain heating coil 3, and first mouth of a river 6 and second mouth of a river 10 are being connected respectively at heating coil 3's both ends, are being connected heating space 9 on the pipeline between first mouth of a river 6 and the second mouth of a river 10, through the winding of electromagnetic heating coil 8 on heating space 9 and electromagnetic heating coil 8 can heat heating space inside, contain water pump 5 on the pipeline between first mouth of a river 6 and the second mouth of a river 10.

The utility model discloses a further technical scheme lies in, 4 inside stirring parts of dissolving tank, the stirring part contain the motor 2 of arranging above, motor 2's power shaft is the (mixing) shaft, the (mixing) shaft is located inside dissolving tank 4.

The utility model discloses a further technical scheme lies in, contains opening 11 on the pipeline between first mouth of a river 6 and the second mouth of a river 10, can carry out the moisturizing in the pipeline through the opening.

The utility model discloses a further technical scheme lies in, heating coil 3 is food level stainless steel pipe or food level copper pipe.

The utility model discloses a further technical scheme lies in, contains into honey mouth and play honey mouth on the dissolving tank 4.

Adopt above technical scheme the utility model discloses, for prior art have following beneficial effect: the problems that the traditional water bath type honey melting time is long and the honey melting is not thorough are solved; the productivity is enlarged; has no peculiar smell, and provides a diversified honey-melting mode.

Drawings

For further explanation of the present invention, reference is made to the following description taken in conjunction with the accompanying drawings:

FIG. 1 is a schematic view of a heating section

FIG. 2 is a schematic view of a further modification of the heating section;

wherein: 1. a stirring shaft; 2. a motor; 3. a heating coil; 4. a dissolving tank; 5. a water pump; 6. a first nozzle; 7. a control section; 8. an electromagnetic heating coil; 9. heating the space; 10. a second water gap; 11. an opening;

FIG. 3 is a schematic diagram of a two-tank system;

FIG. 4 is a schematic view of a further modification of the two-tank system;

wherein: a1 bottom bracket; a2 tank I; a3 sterile air inlet; a4 vacuum-pumping pipeline; a5 power section; a6 material inlet; a7 material tube; a8 vacuum communicating tube; a9 tank II; A10. a base carrier;

FIG. 5 is a schematic view of a feeding structure;

FIG. 6 is a schematic view of a further modification of the feeding structure;

wherein: b1 feeding integral structure; b2 supporting leg; b3 feed inlet; b4 discharge port; b5 inclined plane; b6 low; a B7 cover; b8 hot air blower; b9 return air inlet; b10 air inlet; b11 support structure; a B12 handle; b13 flat panel; b14 perforated plate.

Fig. 7 is a flow chart of this patent.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings and embodiments, which are to be understood as illustrative only and not limiting the scope of the invention. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The patent provides a plurality of parallel schemes, and different expressions belong to an improved scheme based on a basic scheme or a parallel scheme. Each solution has its own unique features. Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other. The fixing means, which is not described herein, may be any one of screw fixing, bolt fixing, or glue bonding.

1. The first embodiment is as follows: combine fig. 5 and fig. 6; wind-heated honey dissolving device, characterized in that, the device contains throws material overall structure B1, throws material overall structure B1 below and supports through supporting leg B2, still contains hot-blast providing system, and this hot-blast providing system contains air heater B8, and air intake B10 and return air inlet B9 of air heater communicate and throw the upper space of material overall structure B1, still contain feed inlet B3 on throwing material overall structure B1, contain discharge gate B4 in the lower position of the inside of throwing material overall structure B1 relatively. The technical scheme of the invention has the following substantial technical effects and the realization process: the wind-heating type honey dissolving device adopts electric heating to form hot wind, continuously heats in a closed environment, adopts peripheral heat preservation measures to keep the temperature basically constant, is provided with a temperature sensing probe, automatically controls the temperature and keeps the temperature in a honey dissolving room within a set range; an electric heating mode is adopted, the temperature is automatically controlled by an induction type probe, the melted part of the honey flows into the next procedure, and the non-melted part is continuously heated and melted; the temperature is controlled at 40-50 ℃.

Example two: as a further improvement or in a side-by-side or alternative independent solution, the outlet B4 is located at a relative low point B6. The technical scheme of the invention has the following substantial technical effects and the realization process: the melted honey is able to flow out from the low point position B6.

Example three: as a further development or in a side-by-side or alternatively independent solution, the relative low point position B6 is guided by an inclined surface B5. The technical scheme of the invention has the following substantial technical effects and the realization process: the inclined surface B5 can make the honey flow more smoothly.

Example four: as a further development or in a side-by-side or alternatively independent solution, the entirety of the dosing monolith B1 is a closable structure. The technical scheme of the invention has the following substantial technical effects and the realization process: the closed structure can fully utilize the energy of hot air.

Example five: as a further development or in a side-by-side or alternatively independent solution, the entirety of the dosing block B1 can be covered by a lid B7, which lid B7 comprises a handle B12. The technical scheme of the invention has the following substantial technical effects and the realization process: thus, when the lid is opened, maintenance such as a jam or the like can be performed on the inside. The lid B7 was placed in an airtight arrangement over the dosing block B1.

Example six: as a further development or in parallel or alternatively independently, the heat blower B8 is fixed to the support structure B11 on the side of the feeding aggregate B1. The technical scheme of the invention has the following substantial technical effects and the realization process: this embodiment provides a fixing means, and similar fixing means are all within the scope of this patent.

Example seven: as a further improved scheme or a parallel scheme or an optional independent scheme, the air distribution filter structure also comprises a flat plate B13 and a perforated plate B14, wherein one side of the flat plate B13 is lapped on the air inlet; one side of the perforated plate B14 is positioned below the feed inlet B3, hot air entering from the air inlet can be upwards distributed from the holes of the perforated plate B14, and materials going out from the feed inlet B3 can be melted by the hot air. The technical scheme of the invention has the following substantial technical effects and the realization process: the embodiment creatively provides a structure and a method for melting and filtering, hot air entering from an air inlet can be upwards separated from holes of a perforated plate B14, materials coming out from a feed inlet B3 can be melted by the hot air, the first hot air cannot mix with each other and can only be upwards separated from holes of a perforated plate B14, and therefore honey can be directly heated; and melting and filtering the second time.

Example eight: as a further development or in a side-by-side or alternatively independent solution, a plurality of filter devices are also included, each comprising a housing containing a sieve from which the honey can be filtered. The technical scheme of the invention has the following substantial technical effects and the realization process: this patent is a parallel arrangement of example seven.

Example nine: as a further improvement or a parallel scheme or an alternative independent scheme, the perforated plate B14 is a filter screen.

The third scheme is as follows:

example ten: as a further improved scheme or a parallel scheme or a selectable independent scheme, the material transfer system of the vacuum negative pressure device is characterized by comprising two tank bodies, wherein the two tank bodies are respectively a tank body I A2 and a tank body II A9, the tank body I A2 and the tank body II A9 respectively comprise an air inlet and a vacuum communicating pipe A8, the vacuum communicating pipe A8 is connected with a vacuum-pumping structure, and the two tank bodies are connected through a material pipe A7; the two tanks each include a material inlet a 6. The technical scheme of the invention has the following substantial technical effects and the realization process: the vacuum negative pressure transportation mode is adopted, the equipment can not be in direct contact with the honey, the honey is transported in the negative pressure mode, secondary pollution is avoided, and the honey keeps inherent flavor.

Example eleven: as a further modification or in parallel or alternatively independently, the air inlet is a sterile air inlet a 3. The technical scheme of the invention has the following substantial technical effects and the realization process: the sterile air inlet A3 can allow the introduction of sterile air to avoid the infection of the bacteria inside.

Example twelve: as a further improvement, or in parallel or alternatively independently, the air inlet, the vacuum connection tube A8 and the material tube a7 all include valves. The technical scheme of the invention has the following substantial technical effects and the realization process: automation can be realized through valve comprehensive control.

Example thirteen: as a further development or in parallel or alternatively independently, the valve is an automatic valve.

Example fourteen: as a further development or in parallel or alternatively independently, the two tanks each comprise a stirring device.

Example fifteen: as a further improvement or a parallel solution or an alternative independent solution, the material pipe a7 comprises two groups, and the two groups of pipes are respectively obliquely directed to the tank a2 or the tank b a 9. The technical scheme of the invention has the following substantial technical effects and the realization process: the oblique orientation enables the use of potential energy.

Example sixteen: as a further development or in parallel or alternatively independently, the material pipe a7 is arranged at a relatively low position between the two tanks.

Example seventeen: as a further improvement or a parallel scheme or an alternative independent scheme, a vacuum communicating pipe A8 is arranged above the two tanks, and the vacuum communicating pipe A8 can communicate the air spaces in the two tanks. The technical scheme of the invention has the following substantial technical effects and the realization process: in addition to the possibility of air being let in from the outside, pressure adjustment between the tanks is also possible.

Example eighteen: as a further development or in a side-by-side or alternatively independent solution, the two tanks are supported underneath by means of a bottom support a 1.

Example nineteenth: as a further improvement, or a parallel scheme or an optional independent scheme, both of the two tanks are arranged in a basic carrier a10, and the basic carrier a10 is a frame.

And the scheme is as follows:

example twenty: as a further improved scheme or a parallel scheme or an optional independent scheme, the novel electromagnetic heating honey melting pot is characterized in that the honey melting pot is a dissolving pot 4, the dissolving pot 4 internally comprises a heating coil 3, two ends of the heating coil 3 are respectively connected with a first water gap 6 and a second water gap 10, a heating space 9 is connected on a pipeline between the first water gap 6 and the second water gap 10, the heating space 9 is wound by an electromagnetic heating coil 8, the electromagnetic heating coil 8 can heat the inside of the heating space, and the pipeline between the first water gap 6 and the second water gap 10 comprises a water pump 5. The technical scheme of the invention has the following substantial technical effects and the realization process: the hydrothermal honey dissolving structure realizes water bath heating, ensures that the temperature of honey from honey dissolving to filling is maintained at 40-50 ℃, and keeps a fluid state from crystallization; and (3) circularly heating the water by adopting electromagnetic heating equipment, and contacting the honey with the water.

Example twenty one: as a further development or in parallel or alternatively independently, the dissolving tank 4 is internally provided with a stirring part, said stirring part comprises a motor 2 arranged above, the power shaft of the motor 2 is a stirring shaft, and the stirring shaft is positioned inside the dissolving tank 4.

Example twenty two: as a further development or in parallel or alternatively independently, the conduit between the first nozzle 6 and the second nozzle 10 comprises an opening 11 through which the conduit can be refilled.

Example twenty three: as a further development or in parallel or alternatively independently, the heating coil 3 is a food grade stainless steel tube or a food grade copper tube.

Example twenty-four: as a further development or a parallel solution or an alternative independent solution, the dissolving tank 4 comprises a honey inlet and a honey outlet.

Example twenty-five: as a further development or a side-by-side development or alternatively an independent development, a method for producing nectar is characterized in that,

honey is dissolved, the honey dissolving is completed through honey dissolving equipment, and the honey dissolving equipment is a wind-heating honey dissolving device or a hydrothermal honey dissolving structure;

the wind-heated honey dissolving device comprises a feeding overall structure B1, wherein the lower part of the feeding overall structure B1 is supported by a supporting leg B2, the wind-heated honey dissolving device also comprises a hot wind providing system, the hot wind providing system comprises a hot wind blower B8, an air inlet B10 and an air return opening B9 of the hot wind blower are communicated with the upper space of the feeding overall structure B1, the feeding overall structure B1 also comprises a feeding hole B3, and a relatively lower position in the feeding overall structure B1 comprises a discharging hole B4;

the hydrothermal honey dissolving structure is a novel electromagnetic heating honey dissolving tank, and is characterized in that the honey dissolving tank is a dissolving tank 4, the dissolving tank 4 internally comprises a heating coil 3, two ends of the heating coil 3 are respectively connected with a first water gap 6 and a second water gap 10, a heating space 9 is connected on a pipeline between the first water gap 6 and the second water gap 10, the heating space 9 is wound by an electromagnetic heating coil 8, the electromagnetic heating coil 8 can heat the inside of the heating space, and a water pump 5 is arranged on the pipeline between the first water gap 6 and the second water gap 10;

filtering the honey after melting the honey for more than one time, and temporarily storing the filtered honey in a finished product storage tank; the finished product storage tank series is a plurality of tank bodies;

then, after transferring, filtering, filling, packaging and labeling are carried out in batches.

Example twenty-six: as a further improvement scheme or a parallel scheme or a selectable independent scheme, material conveying among the plurality of tank bodies is realized by a vacuum negative pressure device material conveying system, the vacuum negative pressure device material conveying system comprises two tank bodies, the two tank bodies are respectively a tank body I A2 and a tank body II A9, the tank body I A2 and the tank body II A9 respectively comprise an air inlet and a vacuum communicating pipe A8, the vacuum communicating pipe A8 is connected with a vacuum-pumping structure, and the two tank bodies are connected through a material pipe A7; the two tanks each include a material inlet a 6.

Example twenty-seven: as a further improved scheme or a parallel scheme or a selectable independent scheme, the wind heating type honey dissolving device adopts electric heating to form hot wind, continuously raises the temperature in a closed environment, adopts peripheral heat preservation measures to keep the temperature basically constant, is provided with a temperature sensing probe, automatically controls the temperature, and keeps the temperature in a honey dissolving room within a set range; an electric heating mode is adopted, the temperature is automatically controlled by an induction type probe, the melted part of the honey flows into the next procedure, and the non-melted part is continuously heated and melted; the temperature is controlled at 40-50 ℃.

Example twenty-eight: as a further improved scheme or a parallel scheme or an optional independent scheme, the water bath heating is realized by the hydrothermal honey dissolving structure, the honey dissolving temperature is kept between 40 and 50 ℃ from the honey dissolving to the filling temperature, and the liquid state is kept not to be crystallized; adopt electromagnetic heating equipment to carry out circulation heating to water, honey contact hot-water line, hot-water line transfer heat realizes that honey lasts the holding temperature.

Example twenty-nine: as a further improved scheme or a parallel scheme or an optional independent scheme, a vacuum negative pressure transportation mode is adopted, the device is not directly contacted with the honey, the honey is transported by the negative pressure mode, secondary pollution is avoided, and the inherent flavor of the honey is kept.

Creatively, the above effects exist independently, and the combination of the above results can be completed by a set of structure.

It should be noted that the plurality of schemes provided in this patent include their own basic schemes, which are independent of each other and are not restricted to each other, but they may be combined with each other without conflict, so as to achieve a plurality of effects.

The electrical components in the document are all electrically connected with an external main controller and 220V mains supply, and the main controller can be a conventional known device controlled by a computer and the like.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, all of which are intended to be covered by the appended claims.

Claims (5)

1. Novel electromagnetic heating's change honeypot, a serial communication port, change honeypot is dissolving tank (4), dissolving tank (4) inside contains heating coil (3), first mouth of a river (6) and second mouth of a river (10) are being connected respectively at the both ends of heating coil (3), be connected heating space (9) on the pipeline between first mouth of a river (6) and second mouth of a river (10), on heating space (9) through electromagnetic heating coil (8) winding and electromagnetic heating coil (8) can heat heating space inside, contain water pump (5) on the pipeline between first mouth of a river (6) and second mouth of a river (10).

2. A new type of electromagnetic heating honey pot according to claim 1, characterized by that, the dissolving pot (4) is internally equipped with a stirring part, said stirring part comprises a motor (2) arranged above, the power shaft of the motor (2) is a stirring shaft, and the stirring shaft is located inside the dissolving pot (4).

3. A new type of electromagnetic heating honeypot according to claim 1 characterized in that the pipe between the first nozzle (6) and the second nozzle (10) contains an opening (11) through which the water can be replenished in the pipe.

4. A new type of electromagnetic heating honeypot according to claim 1 where the heating coil (3) is a food grade stainless steel tube or a food grade copper tube.

5. A new type of electromagnetic heating honey pot as claimed in claim 1, characterized in that the dissolving pot (4) comprises a honey inlet and a honey outlet.

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