CN217471165U - Cotton candy machine sugar-sending device with all-in-one conveying function - Google Patents

Abstract

The utility model relates to a cotton candy machine sugar-sending device with all-in-one conveying function, which comprises a furnace end device, a heating component, a water supply system with humidifying and cleaning modes and a hollow shaft motor arranged on the cotton candy machine, wherein the output shaft of the hollow shaft motor is fixedly connected with the furnace end device, a hollow shaft cavity is arranged in the output shaft, a feeding pipe and a water feeding pipe used for being connected with the water supply system are arranged in the hollow shaft cavity in a penetrating way, and the water feeding pipe and the feeding pipe are fixed below the hollow shaft motor; the heating assembly is sleeved on the outer side of the output shaft and is positioned between the furnace end device and the hollow shaft motor; the furnace end device is provided with a sugar sending cavity and an evaporation cavity positioned below the sugar sending cavity, the water feeding pipe is communicated with the evaporation cavity and the sugar sending cavity, the evaporation cavity is communicated with the sugar sending cavity, and the feeding pipe is communicated with the sugar sending cavity. The utility model avoids the temperature of the sugar cavity from suddenly dropping to influence the preparation of the syrup; the water conveying structure is simple, the operation is convenient, the processing cost of the sugar sending device is reduced, and the use cost of a water supply system is also saved.

Description

Cotton candy machine sugar-sending device with all-in-one conveying function

Technical Field

The utility model relates to a cotton candy machine field, concretely relates to cotton candy machine that possesses many unifications and carry function sends out sugared device.

Background

The cotton candy is a sweets popular with the public, nowadays, the cotton candy is generally made through a wire drawing cotton candy machine, in the manufacturing process, the melted syrup is generally thrown out through a furnace end rotating at a high speed to form sugar shreds, and then the sugar shreds are wound by bamboo sticks to complete the manufacturing of the cotton candy.

In current cotton candy machine, the water jet of water supply pipe is sending the sugar intracavity, and water turns into the efficiency of steam at sending the sugar intracavity and is lower for send the sugar intracavity to remain unnecessary water droplet, lead to sending the temperature shock dip in sugar chamber, thereby make the saccharide raw materials can not fully be melted into syrup, thereby influence the preparation of syrup.

In addition, as disclosed in chinese patent publication No. CN113973960A, a steam-humidifying type cotton candy machine includes a cup housing, in which a candy making chamber, a controller, a detecting unit and a burner device are provided; the furnace end device is provided with a furnace end body, a heating assembly is arranged on the lower side of the furnace end body, a base is arranged on the lower side of the heating assembly, and a humidifying assembly and a motor assembly are arranged on the base; a sugar-generating cavity is arranged in the furnace end body, the feeding pipe is communicated with the sugar-generating cavity, the feeding pipe feeds sugar raw materials into the sugar-generating cavity, and the heating component heats the sugar-generating cavity to melt the sugar raw materials into syrup; the humidifying component is communicated with the sugar sending cavity through a water feeding pipe arranged in the feeding pipe and humidifies the sugar sending cavity; the feeding pipe downside still is equipped with the inlet tube, and when needs were washd, water supply system got into the feeding pipe with the water in the water tank through the inlet tube to send into and send out the sugar intracavity, wash sending out the sugar chamber. Although the patent can humidify the sugar sending cavity to quickly recover the optimal heating temperature and can also clean the sugar sending cavity, on one hand, the water inlet pipe is arranged for cleaning and the water delivery pipe is arranged for humidifying, and the water inlet pipe and the water delivery pipe are both required to be connected with a water supply system for water delivery, so that the number of used water supply systems is increased, the use cost is high, and the operation is complex; on the other hand, the water supply system delivers water to enter the sugar sending cavity through the humidifying component and the water delivery pipe, the delivery mode is complex, the structure is complex, and the processing cost of the furnace end device is greatly increased.

SUMMERY OF THE UTILITY MODEL

Aiming at the existing problems, the utility model provides a candy-foaming device of a cotton candy machine with a multi-in-one conveying function, which avoids the influence on the preparation of syrup caused by the sudden temperature drop of a candy-foaming cavity; the water conveying structure is simple, the operation is convenient, the processing cost of the sugar sending device is reduced, and the use cost of a water supply system is also saved.

The technical scheme of the utility model is realized like this:

a cotton candy machine candy-sending device with an all-in-one conveying function comprises a furnace end device, a heating assembly, a water supply system with humidifying and cleaning modes and a hollow shaft motor arranged on the cotton candy machine, wherein an output shaft of the hollow shaft motor is fixedly connected with the furnace end device, a hollow shaft cavity is arranged in the output shaft, a feeding pipe and a water feeding pipe used for being connected with the water supply system penetrate through the hollow shaft cavity, and the water feeding pipe and the feeding pipe are fixed below the hollow shaft motor; the heating assembly is sleeved on the outer side of the output shaft and is positioned between the furnace end device and the hollow shaft motor; the furnace end device is internally provided with a sugar sending cavity and an evaporation cavity positioned below the sugar sending cavity, the water delivery pipe is communicated with the evaporation cavity and the sugar sending cavity, the evaporation cavity is communicated with the sugar sending cavity, and the feeding pipe is communicated with the sugar sending cavity.

Preferably, the water supply pipe is bent to extend into the evaporation chamber.

Preferably, the water supply pipe is fixedly connected with the feeding pipe.

Preferably, there is the clearance between hollow shaft cavity and conveying pipe, the delivery pipe, and the bottom of hollow shaft motor is equipped with the waste water dish, and the clearance communicates with the waste water dish.

Preferably, the bottom of the waste water plate is provided with a fixing seat for fixing the feeding pipe and the water conveying pipe, and the feeding pipe and the water conveying pipe are fixedly arranged in the hollow shaft cavity through the fixing seat.

Preferably, the sugar sending device further comprises a supporting plate fixed on the cotton candy machine, the hollow shaft motor is fixed on the supporting plate, a through hole is formed in the supporting plate, and an output shaft of the hollow shaft motor penetrates through the through hole to be fixedly connected with the furnace end device; the bottom of the heating component is supported and fixed on the supporting plate through the supporting column.

Preferably, the burner device comprises a sugar burner and a sugar cap, the sugar cavity and the evaporation cavity are positioned in the sugar burner, and the sugar cap is arranged at the top of the sugar cavity.

Preferably, a plurality of air outlets are formed in the sugar sending cover, blocking pieces are arranged below the air outlets, and fan blades are arranged below the blocking pieces of the sugar sending cover.

Preferably, the heating assembly comprises a heating plate, a coil fixing plate and an electromagnetic coil located on the coil fixing plate, the heating plate is fixed at the bottom of the furnace end device, the coil fixing plate and the electromagnetic coil are located below the heating plate, and a heat insulation plate is arranged between the heating plate and the electromagnetic coil.

Preferably, the sugar-emitting device further comprises a conductive structure and a measuring device for measuring the temperature of the furnace end device, the conductive structure comprises an annular conductive ring and a conductive device, the annular conductive ring is sleeved outside an output shaft or a shaft sleeve of the hollow shaft motor, the conductive device is arranged on the coil fixing plate, and the conductive device is electrically connected with the annular conductive ring through an electric brush; the measuring device is positioned at the bottom of the furnace end device, and one end of the measuring device is connected with the electric conductor.

Compared with the prior art, the utility model has the advantages of it is following:

in the utility model, when the output shaft of the hollow spindle motor directly drives the furnace end device to operate, the fan on the cotton candy machine blows the sugar raw material from the feeding pipe to the candy sending cavity, the humidifying mode is started, the water supply system pumps a little water, the water enters the evaporation cavity and the candy sending cavity through the water feeding pipe to humidify the evaporation cavity and the candy sending cavity, when the manufacture is finished, the cleaning mode is started, the water supply system pumps a large amount of water, the water enters the evaporation cavity and the sugar sending cavity through the water delivery pipe, so as to flush the evaporation cavity and the sugar sending cavity, on one hand, the utility model is only provided with a water supply pipe, the furnace end device can be humidified and cleaned by supplying water through a water supply system, the all-in-one conveying function is realized, the operation is simple, the use cost of a water supply system is reduced, on the other hand, the operation structure and the water conveying structure are simplified, and the processing cost of the sugar-making device is reduced; in addition, set up the evaporation chamber in sugar sending chamber below, water becomes steam after the evaporation intracavity absorbs the heat fast for water turns into steam's efficiency higher, thereby avoids sending the temperature shock of sugar chamber and influences the abundant melting of sugar raw materials and become the syrup, and then avoids influencing the preparation of syrup.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is an explosion schematic view of a cotton candy machine candy-sending device in embodiment 1 of the present invention;

fig. 2 is a schematic perspective view of a candy-delivering device of a cotton candy machine according to embodiment 1 of the present invention;

FIG. 3 is a longitudinal section of the candy-sending device of the cotton candy machine according to the embodiment of the present invention;

fig. 4 is an enlarged schematic view of a portion a of fig. 3.

The attached drawings are as follows:

1. a burner unit; 11. a sugar-emitting cavity; 12. an evaporation chamber; 13. a sugar-producing furnace end; 132. a fan blade; 14. a sugar sending cover; 141. an air outlet; 142. a baffle plate; 143. a fan blade; 2. a heating assembly; 21. heating plates; 211. a heat insulation plate; 22. a coil fixing plate; 23. an electromagnetic coil; 4. a hollow shaft motor; 41. a hollow shaft cavity; 42. a gap; 43. a wastewater pan; 431. a seal ring; 44. a fixed seat; 45. an output shaft; 5. a water supply pipe; 6. a feed pipe; 7. a support plate; 71. a support column; 72. a through hole; 8. a conductive structure; 81. an annular conductive ring; 82. a conductive device; 9. and (4) a measuring device.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", "inner", "outer", and the like indicate orientations or positional relationships based on 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 and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," "fourth," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; 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.

As shown in fig. 1 and 4, the utility model provides a cotton candy machine with all-in-one conveying functionHair-like device Sugar deviceComprising a furnaceThe device comprises a head device 1, a heating component 2, a water supply system with humidification and cleaning modes and a hollow shaft motor 4 arranged on a cotton candy machine, wherein an output shaft 45 of the hollow shaft motor 4 is fixedly connected with the head device 1, a hollow shaft cavity 41 is arranged in the output shaft 45, a feeding pipe 6 and a water feeding pipe 5 used for being connected with the water supply system penetrate through the hollow shaft cavity 41, and the water feeding pipe 5 and the feeding pipe 6 are fixed below the hollow shaft motor 4; the heating component 2 is sleeved on the outer side of the output shaft 45 and is positioned between the furnace end device 1 and the hollow shaft motor 4; the furnace end device 1 is internally provided with a sugar sending cavity 11 and an evaporation cavity 12 positioned below the sugar sending cavity 11, the water feeding pipe 5 is communicated with the evaporation cavity 12 and the sugar sending cavity 11, the evaporation cavity 12 is communicated with the sugar sending cavity 11, and the material feeding pipe 6 is communicated with the sugar sending cavity 11.

Specifically, the output shaft 45 of the hollow shaft motor 4 is directly and fixedly connected with the burner device 1, so that when the sugar-making device is in operation, the output shaft 45 of the hollow shaft motor 4 directly drives the burner device 1 to rotate at a high speed;

the water feeding pipe 5 and the material feeding pipe 6 penetrate through a hollow shaft cavity 41 of an output shaft 45 of the hollow shaft motor 4, a gap 42 exists between the hollow shaft cavity 41 and the water feeding pipe 5 and the material feeding pipe 6, and the water feeding pipe 5 and the material feeding pipe 6 are fixed below the hollow shaft motor 4, namely the size of the gap 42 is fixed, so that when the output shaft 45 of the hollow shaft motor 4 rotates, the water feeding pipe 5 and the material feeding pipe 6 can be prevented from being driven to rotate, and the sugar sending device can be prevented from being damaged easily due to friction among the hollow shaft cavity 41, the water feeding pipe 5 and the material feeding pipe 6;

a sugar-producing cavity 11 and an evaporation cavity 12 are arranged in the furnace end device 1, wherein the sugar-producing cavity 11 is communicated with the feeding pipe 6, and sugar raw materials can enter the sugar-producing cavity 11 from the feeding pipe 6; the water supply pipe 5 is communicated with the evaporation cavity 12 and the sugar sending cavity 11, and the water supply pipe 5 is connected with a water supply system, so that water in the water supply system can be conveyed into the evaporation cavity 12 and the sugar sending cavity 11 through the water supply pipe 5;

a sleeving hole is formed in the middle of the heating assembly 2, and the heating assembly 2 is sleeved on the outer side of the output shaft 45 through the sleeving hole to be located between the furnace end device 1 and the hollow shaft motor 4, so that the furnace end device 1 is heated; an evaporation cavity 12 is arranged below the sugar sending cavity 11, water of a water supply system enters the evaporation cavity 12 through a water supply pipe 5, and the water absorbs heat and is converted into water vapor under the heating of the heating component 2; the evaporation cavity 12 is additionally provided, so that the conversion rate of water converted into water vapor is higher, and the conversion speed is higher, thereby preventing a large amount of water drops from remaining in the sugar-making cavity 11 to suddenly reduce the temperature in the sugar-making cavity 11, preventing the sugar raw materials from being fully melted into syrup, and further preventing the syrup from being influenced;

when the cotton candy is made, the output shaft 45 of the hollow shaft motor 4 directly drives the furnace end device 1 to rotate at a high speed, a fan on the cotton candy machine can blow the sugar raw materials into the candy making cavity 11 from the feeding pipe 6, then the humidifying mode of the water supply system is started, the water supply system pumps a small amount of water slowly, the water enters the evaporation cavity 12 and the candy making cavity 11 through the water feeding pipe 5, the water can fall into the evaporation cavity 12 to quickly absorb heat to form water vapor, and under the high-speed rotation of the furnace end device 1, the water vapor can be thrown into the candy making cavity 11 and the evaporation cavity 12 to humidify the candy making cavity 11 and the evaporation cavity 12, so that the evaporation cavity 12 and the candy making cavity 11 are in a constant humidity, and the cotton candy making is more favorable for the making of the cotton candy;

when the cotton candy making is finished and the candy sending cavity 11 needs to be cleaned, the cleaning mode of the water supply system is started, at the moment, a large amount of water is pumped by the water supply system, the water is rapidly conveyed into the candy sending cavity 11 and the evaporation cavity 12 through the water conveying pipe 5, and the candy sending cavity 11 and the evaporation cavity 12 are washed under the high-speed rotation of the furnace end device 1, so that residual candy threads can be prevented from remaining in the candy sending cavity 11 or blocking a gap 42 between the hollow shaft cavity 41 and the water conveying pipe 5 and the water conveying pipe 6 after the cotton candy making is finished, and further, the next use of the cotton candy machine is prevented from being influenced;

on one hand, the utility model can realize the humidification and cleaning of the furnace end device 1 by controlling the humidification and cleaning modes of a water supply system and connecting a water supply pipe 5 through the water supply system, thereby realizing the all-in-one conveying function, having simple operation and reducing the use cost of machines such as the water supply system; on the other hand, water pumped by the water supply system can enter the sugar sending cavity 11 and the evaporation cavity 12 through the water delivery pipe 5, and the conveying structure is simple, so that the processing cost of the sugar sending device is reduced;

in addition, the evaporation cavity 12 is additionally arranged, so that the conversion rate of water converted into water vapor is higher, and the conversion speed is higher, on one hand, a large amount of water vapor can humidify the sugar producing cavity 11 in a humidifying mode, and the conditions that the sugar producing cavity 11 is too high in temperature to cause burning of the sugar raw materials and the like are avoided; on the other hand, a large amount of water drops can be prevented from remaining in the sugar sending cavity 11 so as to ensure that the temperature in the sugar sending cavity 11 is suddenly reduced, thereby preventing the sugar raw materials from being fully melted into syrup and further preventing the syrup from being manufactured;

in addition, the output shaft 45 of the hollow shaft motor 4 is directly and fixedly connected with the burner device 1, so that the purpose of driving the burner device 1 to run at high speed can be realized without additionally designing a transmission device, the structure is simplified, and the processing cost of the sugar-making device is reduced.

In some prior art cotton candy machines, the outlet of the water pipe 5 is upward, which makes it very likely that the sugar granules in the sugar cavity 11 are blocked in the water pipe 5 through the outlet of the water pipe 5 in the humidifying or cleaning mode, therefore, further, in some embodiments, the water pipe 5 extends into the evaporation cavity 12 in a bending way, namely the outlet of the water pipe 5 faces to the side, thereby avoiding the sugar granules in the sugar cavity 11 from being blocked in the water pipe 5 through the outlet of the water pipe 5 while ensuring the humidifying and cleaning effects.

Further, water supply pipe 5 and conveying pipe 6 fixed connection, in this embodiment, water supply pipe 5 welds together through laser welding with conveying pipe 6, and water supply pipe 5 fixes in the below of hollow shaft motor 4 with the below of conveying pipe 6, consequently improves the stability of send out the sugar device at the pay-off with the in-process of delivery water to the practicality of sending out the sugar device has been improved.

In other embodiments, the connection between the water feeding pipe 5 and the material feeding pipe 6 may also be in other fixed connection manners, for example, a fixed pipe is arranged outside the water feeding pipe 5 and the material feeding pipe 6, two pipelines are arranged in the fixed pipe, and the water feeding pipe 5 and the material feeding pipe 6 respectively penetrate through the two pipelines, so as to realize the fixed connection between the water feeding pipe 5 and the material feeding pipe 6.

Further, as shown in fig. 4, a gap 42 exists between the hollow shaft cavity 41 and the water feeding pipe 5 and the material feeding pipe 6, a waste water tray 43 is arranged at the bottom of the hollow shaft motor 4, and the gap 42 is communicated with the waste water tray 43; the bottom of the waste water tray 43 is provided with a fixed seat 44 for fixing the water feeding pipe 5 and the material feeding pipe 6, and the water feeding pipe 5 and the material feeding pipe 6 are fixedly arranged in the hollow shaft cavity 41 through the fixed seat 44;

specifically, the fixing seat 44 is provided with a fixing groove for the water feeding pipe 5 and the feeding pipe 6, the water feeding pipe 5 and the feeding pipe 6 are fixed in the fixing groove through penetrating from the lower part so as to be fixed in the hollow shaft cavity 41 through penetrating from the upper part, and a gap 42 exists between the hollow shaft cavity 41 and the water feeding pipe 5 and between the hollow shaft cavity 41 and the feeding pipe 6, so that the hollow shaft cavity 41 can be ensured not to directly interfere with the water feeding pipe 5 and the feeding pipe 6, the water feeding pipe 5 and the feeding pipe 6 can be prevented from rotating along with the rotation of the output shaft 45, and the sugar sending device can be prevented from being damaged due to friction generated between the hollow shaft cavity 41 and the water feeding pipe 5 and the feeding pipe 6;

the bottom of an output shaft 45 of the hollow shaft motor 4 is communicated with a waste water tray 43 at the bottom of the hollow shaft motor 4, so that a gap 42 between the hollow shaft cavity 41 and the water feeding pipe 5 and the water feeding pipe 6 is communicated with the waste water tray 43; and the top of the output shaft 45 of the hollow shaft motor 4 is communicated with the burner device 1, so when the sugar-producing chamber 11 of the burner device 1 is cleaned, the residue in the sugar-producing chamber 11 flows into the waste water tray 43 along with the waste water through the gap 42; the waste water tray 43 is convenient for treating the residues and waste water of the cotton candy machine, so that overdue or deteriorated and acidified syrup cannot be left in the candy sending cavity 11, and the taste and food safety of the cotton candy are guaranteed.

The water feeding pipe 5 and the material feeding pipe 6 extend out of the through hole of the waste water tray 43 to be fixed on the fixing seat 44, as shown in fig. 3, a sealing ring 431 is arranged on the outer side of the water feeding pipe 5 and the material feeding pipe 6 of the through hole at the bottom of the waste water tray 43 to prevent the residues and waste water in the waste water tray 43 from flowing out, and the sealing performance of the waste water tray 43 is improved.

Furthermore, the candy sending device of the cotton candy machine also comprises a supporting plate 7 fixed on the cotton candy machine, because the output shaft 45 of the hollow shaft motor 4 is fixedly connected with the furnace end device 1, and the furnace end device 1 is positioned at the free end of the output shaft 45 of the hollow shaft motor 4, when the hollow shaft motor 4 drives the furnace end device 1 to run at high speed, the furnace end device 1 at the free end is unstable, therefore, the utility model discloses a through hole 72 is arranged on the supporting plate 7, the output shaft 45 of the hollow shaft motor 4 is fixedly connected with the furnace end device 1 by passing through the through hole 72, and the top surface of the hollow shaft motor 4 is fixed at the bottom of the supporting plate 7 by a connecting piece, so as to be more favorable for ensuring the stability of the furnace end device 1 during running; the bottom of the heating assembly 2 is supported and fixed on the supporting plate 7 through a supporting column 71 to ensure the installation stability of the heating assembly 2.

Further, the burner device 1 comprises a sugar burner 13 and a sugar cap 14, the sugar cavity 11 and the evaporation cavity 12 are located in the sugar burner 13, and the sugar cap 14 is arranged on the top of the sugar cavity 11.

Furthermore, as shown in fig. 2, a plurality of air outlets 141 are formed on the candy cover 14, a blocking piece 142 is disposed below the plurality of air outlets 141, and a fan blade 143 is disposed below the blocking piece 142 of the candy cover 14.

The general cotton candy machine adopts a feeding mode of blowing by a fan, namely, the fan blows the sugar raw materials into the candy sending cavity 11 through the feeding pipe 6, because the sugar raw materials are conveyed by wind power, an air outlet 141 is designed at the top of the candy sending cover 14, so that the wind of the fan is guided to the candy sending furnace end 13 conveniently, a baffle 142 is arranged below the candy sending cover 14, so that the effect of preventing the sugar raw materials from being brought out of the air outlet 141 by the wind power can be achieved, the sugar raw materials can impact the baffle 142 when being blown into the candy sending cavity 11 by the wind power, the sugar raw materials can be fully dispersed, and the baffle 142 can also achieve the effect of uniformly dispersing the raw materials; when the sugar sending cavity 11 is cleaned, the blocking piece 142 can change the water flow direction, wash downwards and rotate at a high speed to throw out, so that a good cleaning effect is achieved;

send out sugared lid 14 and be equipped with flabellum 143 in separation blade 142 below, this flabellum 143 evenly distributed, when furnace end device 1 carries out high-speed operation, flabellum 143 can influence the air current of sending out sugared chamber 11, make the air current gathering in air outlet 141 department, in addition, send out sugared furnace end 13 outside and be equipped with fan blade 132, this fan blade 132 evenly distributed, when furnace end device 1 carries out high-speed operation, fan blade 132 can influence furnace end device 1 outlying air current, make the air current upwards, the gathering is in air outlet 141 outside department, this both sets up the candy stick winding sugar silk of all being convenient for, avoid the indiscriminate flightness of sugar silk, and make the sugar silk that the preparation came out more even fine and smooth.

Further, the heating assembly 2 comprises a heating plate 21, a coil fixing plate 22 and an electromagnetic coil 23 positioned on the coil fixing plate 22, the heating plate 21 is fixed at the bottom of the burner unit 1, and the coil fixing plate 22 and the electromagnetic coil 23 are positioned below the heating plate 21;

specifically, the heating plate 21 is fixed at the bottom of the burner device 1, the heating plate 21 rotates along with the burner device 1 driven by the hollow shaft motor 4, the coil fixing plate 22 and the electromagnetic coil 23 are located below the heating plate 21, the coil fixing plate 22 and the electromagnetic coil 23 are not in direct contact with the heating plate 21, a through hole is formed in the coil fixing plate 22, the inner diameter of the through hole is larger than the outer diameter of the output shaft 45, the through hole and the output shaft 45 are coaxially arranged, the output shaft 45 of the hollow shaft motor 4 penetrates through the through hole to be fixedly connected with the burner device 1, and therefore when the output shaft 45 drives the burner device 1 to rotate at a high speed, the coil fixing plate 22 and the electromagnetic coil 23 cannot be interfered;

the supporting column 71 is fixed at the bottom of the coil fixing plate 22, the coil fixing plate 22 is fixedly supported on the supporting plate 7 through the supporting column 71, for better heating effect, the heating plate 21 is fixed under the sugar-making burner 13, the electromagnetic coil 23 and the coil fixing plate 22 are fixed under the heating plate 21, in addition, the electromagnetic coil 23 is connected with a control system of the cotton candy machine, when in use, alternating current is controlled to be introduced into the electromagnetic coil 23 through the control system, so that the alternating magnetic field is generated, the alternating magnetic field can generate heat when passing through the heating plate 21, and further the purpose of heating the sugar-making burner 13 is realized; in addition, the electromagnetic coil 23 is fixed on the coil fixing plate 22, so that the installation stability of the electromagnetic coil 23 is high, the alternating magnetic field generated by the alternating current is stable, and the heating plate 21 can stably generate heat;

furthermore, a heat insulation plate 211 is arranged between the heating plate 21 and the electromagnetic coil 23, and the heat insulation plate 211 is made of high-temperature resistant insulating materials of ceramic fibers or mica materials; the arrangement of the heat insulation plate 211 can prevent a large amount of heat of the heating plate 21 from diffusing to components such as the electromagnetic coil 23 below the sugar-producing furnace head 13, further prevent the electromagnetic coil 23 from being damaged due to overheating, and improve the stability of the cotton candy machine.

In addition, for the heating scheme of heating the sugar-emitting burner 13, besides the heating mode of electromagnetic induction, an infrared heating mode can be adopted, and the specific heating component 2 is an electric heating wire or a heating pipe.

Furthermore, the candy sending device of the cotton candy machine further comprises a conductive structure 8 for supplying power to the candy sending device, the conductive structure 8 comprises an annular conductive ring 81 and a conductive device 82, the annular conductive ring 81 is sleeved on the outer side of the output shaft 45 or the shaft sleeve of the hollow shaft motor 4, the conductive device 82 is arranged on the coil fixing plate 22, the conductive device 82 is electrically connected with a control system of the cotton candy machine, and the conductive device 82 is electrically connected with the annular conductive ring 81 through an electric brush; in addition, the conductor 82 may be fixed to the support plate 7.

Furthermore, the candy maker device of the cotton candy machine further comprises a measuring device 9 for measuring the temperature of the burner device 1, the measuring device 9 is a thermocouple, in this embodiment, as shown in fig. 3, one end of the thermocouple is located between the heating plate 21 and the heat insulation plate 211, and the other end of the thermocouple penetrates through the heat insulation plate 211 to be connected with the electric conductor 82, so that the measuring device 9 can be installed at the bottom of the candy burner 13 to measure the temperature of the candy burner 13, and the thermocouple and the annular electric conductor 81 are conveniently connected by an electric wire; in addition, the measuring device 9 can also adopt an infrared thermometer to perform induction temperature measurement on the sugar-emitting furnace head 13.

When the cotton candy maker is operated, the hollow shaft motor 4 is driven, the output shaft 45 of the hollow shaft motor 4 can directly drive the candy maker head 13 to operate, then the sugar raw materials are blown into the candy making cavity 11 from the feeding pipe 6 by the fan on the cotton candy maker, the alternating magnetic field is generated by the electromagnetic coil 23 by introducing alternating current, the alternating magnetic field generates heat when passing through the heating plate 21, so that the candy maker head 13 is heated, therefore, the sugar raw materials in the candy making cavity 11 are quickly melted into syrup when being heated, the syrup is thrown out of the candy maker head 13 through the air outlet 141 at the top of the candy maker cover 14 under the action of centrifugal force to become candy filaments, and then the cotton candy can be made by winding the candy filaments through the candy stick; during the running process of the sugar sending device, the humidifying mode of the water supply system is started through the control system on the cotton candy machine, the water supply system pumps a small amount of water slowly, and the evaporation cavity 12 and the sugar sending cavity 11 are humidified through the water delivery pipe 5.

To sum up, in the utility model, the water supply pipe 5 is connected with the evaporation cavity 12 and the sugar-sending cavity 11, the evaporation cavity 12 is connected with the sugar-sending cavity 11, the feeding pipe 6 is connected with the sugar-sending cavity 11, when the output shaft 45 of the hollow spindle motor 4 directly drives the furnace end device 1 to operate, the fan on the cotton candy machine blows the sugar raw material from the feeding pipe 6 to the sugar-sending cavity 11, and starts the humidifying mode, the water supply system pumps a little water slowly, the water enters the evaporation cavity 12 and the sugar-sending cavity 11 through the water supply pipe 5, under the high-speed rotation of the furnace end device 1, so as to humidify the evaporation cavity 12 and the sugar-sending cavity 11, when the manufacture is finished, the cleaning mode is started, the water supply system pumps a large amount of water, the water enters the evaporation cavity 12 and the sugar-sending cavity 11 through the water supply pipe 5, under the high-speed rotation of the furnace end device 1, so as to wash the evaporation cavity 12 and the sugar-sending cavity 11, on one hand, the utility model only sets up a water supply pipe 5, the furnace end device 1 can be humidified and cleaned through a water supply system, so that an all-in-one conveying function is realized, the operation is simple, the use cost of the water supply system is reduced, and on the other hand, the operation structure and the water conveying structure are simplified, and the processing cost of the sugar sending device is reduced; in addition, set up evaporation chamber 12 in send out sugared chamber 11 below, water becomes steam behind the quick absorbed heat in evaporation chamber 12 for water turns into steam's efficiency higher, thereby avoids sending out sugared chamber 11 the sudden temperature drop and influences the abundant melting of sugar raw materials and become the syrup, and then avoids influencing the preparation of syrup.

The above description is only for the preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A cotton candy machine candy-sending device with all-in-one conveying function, which is characterized in that,

the cotton candy machine comprises a furnace end device (1), a heating assembly (2), a water supply system with humidifying and cleaning modes and a hollow shaft motor (4) arranged on the cotton candy machine, wherein an output shaft (45) of the hollow shaft motor (4) is fixedly connected with the furnace end device (1), a hollow shaft cavity (41) is arranged in the output shaft (45), a feeding pipe (6) and a water feeding pipe (5) used for being connected with the water supply system penetrate through the hollow shaft cavity (41), and the water feeding pipe (5) and the feeding pipe (6) are fixed below the hollow shaft motor (4); the heating assembly (2) is sleeved on the outer side of the output shaft (45) and is positioned between the furnace end device (1) and the hollow shaft motor (4); the sugar sending device is characterized in that a sugar sending cavity (11) and an evaporation cavity (12) located below the sugar sending cavity (11) are arranged in the furnace end device (1), the water feeding pipe (5) is communicated with the evaporation cavity (12) and the sugar sending cavity (11), the evaporation cavity (12) is communicated with the sugar sending cavity (11), and the feeding pipe (6) is communicated with the sugar sending cavity (11).

2. The device for delivering candy through cotton candy machine with all-in-one delivery function according to claim 1,

the water supply pipe (5) is bent and extends into the evaporation cavity (12).

3. The device for delivering candy with cotton candy machine having all-in-one delivering function according to claim 1,

the water feeding pipe (5) is fixedly connected with the feeding pipe (6).

4. The device for delivering candy through cotton candy machine with all-in-one delivery function according to claim 1,

a gap (42) exists between the hollow shaft cavity (41) and the feeding pipe (6) and between the hollow shaft cavity and the water feeding pipe (5), a waste water tray (43) is arranged at the bottom of the hollow shaft motor (4), and the gap (42) is communicated with the waste water tray (43).

5. The device for delivering candy through cotton candy machine with all-in-one delivery function according to claim 4,

the bottom of the waste water tray (43) is provided with a fixing seat (44) for fixing the feeding pipe (6) and the water feeding pipe (5), and the feeding pipe (6) and the water feeding pipe (5) are fixedly arranged in the hollow shaft cavity (41) through the fixing seat (44).

6. The device for delivering candy through cotton candy machine with all-in-one delivery function according to claim 1,

the cotton candy machine is characterized by further comprising a supporting plate (7) fixed on the cotton candy machine, the hollow shaft motor (4) is fixed on the supporting plate (7), a through hole (72) is formed in the supporting plate (7), and an output shaft (45) of the hollow shaft motor (4) penetrates through the through hole (72) to be fixedly connected with the furnace end device (1); the bottom of the heating component (2) is supported and fixed on the supporting plate (7) through a supporting column (71).

7. The device for delivering candy with cotton candy machine having all-in-one delivering function according to claim 1,

the sugar-producing furnace head device (1) comprises a sugar-producing furnace head (13) and a sugar-producing cover (14), wherein the sugar-producing cavity (11) and the evaporation cavity (12) are positioned in the sugar-producing furnace head (13), and the sugar-producing cover (14) is arranged at the top of the sugar-producing cavity (11).

8. The device for delivering candy by cotton candy machine with all-in-one delivery function according to claim 7,

the candy sending cover (14) is provided with a plurality of air outlets (141), a blocking piece (142) is arranged below the plurality of air outlets (141), and fan blades (143) are arranged below the blocking piece (142) of the candy sending cover (14).

9. The device for delivering candy through cotton candy machine with all-in-one delivery function according to claim 1,

heating element (2) include hot plate (21), coil fixed plate (22) and be located solenoid (23) on coil fixed plate (22), hot plate (21) are fixed the bottom of furnace end device (1), coil fixed plate (22) with solenoid (23) are located the below of hot plate (21), hot plate (21) with be equipped with heat insulating board (211) between solenoid (23).

10. The device for delivering candy through cotton candy machine with all-in-one delivery function according to claim 9,

the electric stove is characterized by further comprising a conductive structure (8) and a measuring device (9) for measuring the temperature of the stove head device (1), wherein the conductive structure (8) comprises an annular conductive ring (81) and a conductive device (82), the annular conductive ring (81) is sleeved on the outer side of an output shaft (45) or a shaft sleeve of the hollow shaft motor (4), the conductive device (82) is arranged on the coil fixing plate (22), and the conductive device (82) is electrically connected with the annular conductive ring (81) through an electric brush; the measuring device (9) is positioned at the bottom of the furnace end device (1), and one end of the measuring device (9) is connected with the electric conductor (82).

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