KR20140112938A - Cooling compartment offers additional electric roaster - Google Patents

Abstract

The present invention relates to an electric roaster with a cooling storage unit and, more specifically, to an electric roaster which includes an additional cooling storage unit integrated with the electric roaster for a user to have cool drinks receiving heat generated in the electric roaster. The present invention has a purpose of providing an electric roaster with a cooling storage unit which replaces an easily damaged halogen lamp with a carbon heater, detachably combines an insulator, which supports combination and weight of the carbon heater when both ends of the carbon heater are electrically contacted, with the outer side of the roaster body not to be exposed to a remaining substance of a roasted product taken in to the insulator, and have even an area difficult to be cleaned of the insulator to be easily cleaned to maintain the product clean to extend the service lifetime, and make the replacement of the carbon heater easy by the insulator attached and detached form the outer side.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electric ro-

The present invention relates to an electric roaster provided with a cooling water supply part, and more particularly, to an electric roaster in which a separate cooling water supply part is integrally formed so as to be able to drink a beverage cooled by heat generated in an electric roaster, The present invention relates to an electric roaster provided with a cooling water pouring part which is easy to replace, easy to maintain, easy to detach and attach a protective cover of a carbon heater, easy to clean, and easy to maintain cleanliness in hygiene.

Generally, an electric roaster is a roasting method using a halogen lamp as a heat source. The electric roaster has a halogen lamp at the center of the body of the electric roaster, a lamp protecting cover for protecting the halogen lamp at the upper part of the electric lamp, .

The heat reflecting plate is installed along the longitudinal direction of the halogen lamp so as to prevent radiant heat from being entirely diffused in the roaster in the electric roaster and to concentrate on the roasting plate to improve thermal efficiency.

In order to facilitate the replacement of the halogen lamp and the lifetime of the halogen lamp, the conventional electric roaster is contacted such that the connecting pin is attached to the end surface of the tubular halogen lamp or the end surface of both ends of the halogen lamp is connected to the insulator.

Further, in some cases, the ends of the halogen lamp are electrically connected to each other by electric wires.

However, the halogen lamp installed on the electric roaster as described above is fixed to the socket by the connection pin attached to the end surface of both ends, and the load of the halogen lamp is concentrated on the connection pin, .

In addition, when the halogen lamp is fixed by the insulator, the halogen lamp does not heat well, and the halogen lamp often blows. In addition, a halogen lamp is electrically connected and fixed to a part by a wire, but this also has a problem that a wire is easily short-circuited by the load of the halogen lamp.

Further, since the insulator and the halogen lamp which are applied to the conventional electric roaster are formed such that after the insulator is coupled inwardly, the one direction of the halogen lamp is coupled and then the other direction is fitted and then electrically coupled In the process of replacing the halogen lamp from the insulator, the carbon heater must be disengaged by pushing the carbon heater in either direction, thereby causing a problem of safety accidents due to the breakage of the halogen lamp or the like in the replacing process.

As described above, since the lamp protection cover for protecting the halogen lamp and the heat reflector are formed to be bolted to each other, the foreign matter generated in the cooking process of meat or other food can flow into the halogen lamp, The lamp protection cover and the heat reflector are not freely disassembled due to the characteristics of being kept clean at all times.

In order to solve such a problem, recently, a lamp protection cover and a heat reflecting plate are formed so as to facilitate disassembly and assembly, a heat reflecting plate is made to correspond to the insulator lower side, a lamp protecting cover is made to correspond to the upper side of the insulator, Both ends of the lamp protection cover are fitted to both ends of the lamp protection cover.

However, when the heat-reflecting plate and the lamp-protecting cover are detachably attached to each other, the lamp-protecting cover is made to correspond to the upper end of the fixing box, The clamping piece on one side of the heat reflecting plate is first pushed into the clamping step and the clamping piece on the opposite side is pushed back into the clamping step on the opposite side to join the clamping piece.

In such a case, since the heat reflecting plate and the lamp protecting cover can be coupled only when they are properly aligned, it is not easy to attach and detach, and when the latching piece of the heat reflecting plate is pushed to the fixing step, In this case, the heat reflecting plate may be damaged or damaged, thereby failing to perform the function of the heat reflecting plate.

Also, since the detachable lamp protection cover and the heat reflecting plate of the conventional detachable lamp protection cover and the heat reflecting plate are coupled to each other with the insulator having the connecting portion therein, the halogen lamp can not be easily disassembled and can not be easily replaced and cleaned. The problem of frequent pollution remains a problem that remains.

Korean Registration Practice No. 20-0453453. Registration date April 25, 2011

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a halogen heater which is easy to break by replacing a halogen lamp with a carbon heater, Is detachably attached from the outside of the roaster main body, it is not exposed to the residue of the roasted water introduced into the insulator, and the portion where the insulator is difficult to clean can be easily cleaned. It is an object of the present invention to provide an electric roaster provided with a cooling water discharging portion which can be easily replaced by an insulator detached from the outside.

In addition, the present invention can protect the carbon heater and enable quick coupling and releasing of the combination of the lamp protection cover and the heat reflecting plate for effective use of the heat source generated from the carbon heater through the one-touch combination according to the up- Another object of the present invention is to provide an electric roaster provided with a cooling water pouring portion which is easy to clean and can provide a clean roaster in a sanitary manner.

Further, in order to solve the problem that a beverage placed in the vicinity of the roaster is not enjoyed by the heat source generated from the carbon heater, the cooling water supply part is provided at one side of the roaster body so that the user is always in direct contact with the heat source generated from the carbon heater An object of the present invention is to provide an electric roaster equipped with a cooling water supply portion capable of drinking cold drinks without food, and containing foods that can be consumed in a refrigerated state in addition to beverages.

In order to achieve the above object, an electric roaster according to the present invention is formed with a roughened portion 102 which is downwardly recessed, and a coupling portion 110 is formed symmetrically to both sides of the roughened portion 102 A roaster main body 100 having a control lever 104 for controlling power supply and a heating value to one side of the upper portion and a cooling housing coupling hole 106 formed at one side of the control lever 104; Shaped agitator means (200) provided in a symmetrical manner to be fitted into the joint portion (110) of the roaster main body (100) to be formed symmetrically from the outside of the roaster main body (100); A carbon heater 300 for inserting and fixing both ends of a glass tube in which wiring lines are exposed to the outside, horizontally, by inserting and fixing the insulator means 200 provided symmetrically; A lamp protecting cover 400 formed in a circular arc shape in the longitudinal direction of the carbon heater 300 so as to support both ends thereof on the upper portion of the coupling portion 110 and to protect the carbon heater 300; The length of the carbon heater 300 corresponds to the lower part of the coupling part 110 and is pushed into the lower side of the lamp protection cover 400 and is shaped as a concave circular plate so that the heat source of the carbon heater 300 is concentrated on the upper side. A heat reflecting plate 500 formed to correspond to the direction of the heat reflecting plate 500; And a cooling unit 600 fitted to the cooling housing coupling hole 106 and provided with a cooling vessel 610 provided with a cooling water supply unit 612 for cooling and storing a beverage bottle therein.

Here, the engaging portion 110 of the roaster main body 100 includes a fitting through-hole 112 formed to penetrate the inserting means 200 from the outside of the roaster main body 100 to be engaged therewith; A receiving protrusion 114 formed symmetrically on the upper surface of the upper surface of the fitting hole 112 penetrating the inside of the roving portion 102 of the roaster main body 100 and adapted to receive both ends of the lamp protecting cover 400; And is symmetrically provided.

The insulator 200 includes an inserting portion 210 for inserting and fixing both ends of the glass tube of the carbon heater 300 in a horizontal direction. A wiring hole 220 penetrating through the inserting unit 210 on the opposite side of the inserting unit 210 and penetrating the wiring of the carbon heater 300, .

Further, the lamp protection cover 400 is formed as an upwardly convex plate in the shape of an arc, and a plurality of fitting clip holes 412 formed at equal intervals on the lower surface of the convex circular arc plate are formed, An insulator cover 410 having a fitting groove 414 formed symmetrically and provided symmetrically; A plurality of protrusions 420 formed on both sides of the insulator cover 412 of the insulator cover 410 symmetrically and symmetrically provided at both ends thereof and corresponding to the length of the carbon heater 300; And a tension clip 430 that is fitted in tension insertion grooves 414 formed on the left and right sides of the insulator cover 410 and presses both ends of the heat reflection plate 500 to be engaged therewith.

Here, an arcuate locking protrusion 502 symmetrically formed on the right and left sides of the cross section of the heat reflector 500 is formed and press-fixed by the tension clip 430.

The cooling means 600 includes a cooling container 610 fitted to the cooling engagement hole 106 and provided with a cooling water supply portion 612 for cooling and storing the beverage bottle therein; A cool plate 620 coupled to a bottom surface of the cooling vessel 610; In order to cool the contents of the beverage bottle housed in the cooling container 610, two types of metal are connected to form a Peltier effect, which is a thermal transfer phenomenon in which heat is generated or absorbed at the junction of two metals when current flows. A thermoelectric module 630 to which a heat absorbing upper surface is coupled to the lower surface of the cool plate 620 so as to absorb the heat of the cool plate 620 coupled to the bottom surface of the cooling container when a current is applied to use the thermoelectric module 630; A heat sink 640 coupled to a lower surface of the thermoelectric module 630 to generate heat; And a cooling fan 650 for forcibly discharging the heat generated by the thermoelectric module 630 through the heat sink 640.

The present invention is characterized in that, when both ends of a carbon heater are electrically contacted, an insulator supporting a coupling and a load of the carbon heater is detachably coupled from the outside of the roster body so that it is not exposed to the residues of the roasted water flowing into the insulator, It is possible to easily clean the parts that are difficult to clean, and it is possible to increase the service life by keeping the clean product. Also, the carbon heater can be easily replaced by the insulator, The combination of the lamp protection cover and the heat reflector for effective use of the heat source generated from the carbon heater can be quickly combined and released through the one-touch combination of the up and down pressing methods, so that the carbon heater can be easily cleaned and the sanitary effect is clean .

In order to solve the problem that a beverage placed around a roaster is not heated and enjoys a cool taste due to a heat source generated from a carbon heater, the present invention is characterized in that a cooling water supply part is provided at one side of a roaster body, It is possible to drink cold beverages without food, and it is possible to contain foods that can be consumed in a refrigerated state in addition to beverages.

1 is an overall perspective view of an electric roaster equipped with a cooling water supply portion according to the present invention.
2 is an exploded perspective view of an electric roaster equipped with a cooling water supply portion according to the present invention.
FIG. 3 is an enlarged perspective view of a joint portion of an electric roaster provided with a cooling water supply portion according to the present invention.
4 is an enlarged perspective view of an insulator means of an electric roaster provided with a cooling water supply portion according to the present invention.
FIG. 5 is a plan view of the electric roaster of the present invention; FIG.
6 is an enlarged perspective view of a lamp protection cover of an electric roaster provided with a cooling water supply portion according to the present invention.
7 is an enlarged perspective view of a heat reflecting plate of an electric roaster equipped with a cooling water supply portion according to the present invention.
8 is a side cross-sectional view illustrating a state in which the lamp protecting cover and the heat reflecting plate of the electric roaster equipped with the cooling water pouring part according to the present invention are engaged and disengaged.
9 is an exploded perspective view of the cooling means of the electric roaster provided with the cooling water supply portion according to the present invention.
10 is a side sectional view of the cooling means of the electric roaster provided with the cooling water pouring portion according to the present invention.

An embodiment of an electric roaster provided with a cooling water pouring part according to the present invention will be described in detail below with reference to the accompanying drawings.

2 is an exploded perspective view of an electric roaster provided with a cooling water pouring part according to the present invention, and Fig. 3 is an exploded perspective view of an electric roaster with a cooling water pouring part according to the present invention 4 is an enlarged perspective view of an agitator means of an electric roaster provided with a cooling water pouring portion according to the present invention. FIG. 5 is a perspective view showing an assembled state of the agitator means of the electric roaster equipped with the cooling water pouring portion according to the present invention 6 is an enlarged perspective view of a lamp protection cover of an electric roaster provided with a cooling water pouring part according to the present invention, FIG. 7 is an enlarged perspective view of a heat reflecting plate of an electric roaster provided with a cooling water pouring part according to the present invention, FIG. 8 is a side sectional view showing a combined state and a released state of the lamp protection cover and the heat reflecting plate of the electric roaster provided with the cooling water supply portion according to the present invention, FIG. 10 is a side sectional view of a cooling means of an electric roaster provided with a cooling water supply portion according to the present invention. FIG.

The electric roaster provided with the cooling water pouring portion according to the present invention can be used by the user in a cool state while the beverage is kept in a cool state, the carbon heater is protected, the service life is increased, and the inside of the carbon heater and the roaster body is cleaned As shown in FIGS. 1 and 2, the roaster main body 100, the insulator 200 (200), and the insulator 200 can be easily attached to and detached from the main body 100, A carbon heater 300, a lamp protecting cover 400, a heat reflecting plate 500, and a cooling means 600. [

The roaster main body 100 forms an ordinary roaster for heating and cooking meat, and forms a main body of an inner or outer roaster on a table. Here, the roaster main body 100 has a box shape in which the upper part is opened in a hexahedron shape. The upper part of the roaster main body 100 has a top plate (not shown) provided with an operating device such as an adjusting lever, . The roaster main body 100 is formed in a lower side so as to form a roasting portion 102 in which meat is heated and cooked. An engaging portion 110 is formed to engage both ends of a carbon heater, which will be described later, symmetrically to both sides of the roughening portion 102. Further, a control lever 104 for controlling the power supply and the heat generation amount is installed on an upper side of the upper part of the roasting part 102, and a cooling plate 104 (not shown) A cooling reception fitting hole 106 to which the means is coupled is formed.

As shown in FIG. 3, the engaging portion 110 of the roaster main body 100 is formed with a through hole 112 and a receiving protrusion 114. The fitting hole 112 is formed so that the insulator 200, which will be described later, is inserted from the outside of the roaster main body 100 and is engaged with the carbon heater without being energized.

The pedestal protrusion 114 protrudes from the bottom of the lamp protection cover 400, which will be described later, to protect the insulator 200, which will be described later, from foreign substances such as oil, The insulator cover 410 is formed to be horizontally symmetrical on one side of the upper surface of the fitting hole 112 penetrating the inside of the bulge portion 102 of the roaster main body 100, So as to support both ends.

The insulator 200 is formed to prevent the roaster body 100 from being energized by a carbon heater to be described later and to more safely cook meat through far infrared rays emitted from the carbon heater. Shaped cross-sectional shape fitted to the joint portion 110 formed symmetrically to the left and right of the roaster main body 100 from the outside of the roaster main body 100. As shown in FIG. 4, the insulator 200 is formed of an inserting portion 210 and a wiring through-hole 220.

5, the inserting portion 210 is formed so as to correspond to the shape of both ends of the carbon heater 300 so as to insert and fix both ends of the glass tube of the carbon heater 300, which will be described later, in the horizontal direction. Here, the insertion portion 210 is preferably formed to prevent the carbon heater 300 from rotating about the axial line.

The wiring hole 220 protrudes from both ends of the carbon heater and is electrically connected to the external power supply through a wiring line. The insulator 210 is disposed inside the insertion portion 210, (200), and the wiring of the carbon heater (300) is penetrated. Here, the wiring exposed through the wiring hole 220 can be easily connected and disconnected from the outside of the roster body, and the wiring can be prevented from being exposed to the heat source generated from the carbon heater in the interior of the roaster main body, The risk of accidents can be minimized. Further, even when the carbon heater is replaced, the electrically coupled wiring can be released from the outside of the roaster main body, so that it can be replaced more stably electrically.

As shown in FIG. 2, the carbon heater 300 radiates ordinary far-infrared rays to cook meat or the like. In the insulator 200, which is symmetrically provided, both ends of the glass tube, And is inserted and fixed in the insertion portion 210 described above. The carbon heater 300 is preferably formed to have a length corresponding to the width of the engaging portion 110 formed inside the roasting portion 102 of the roaster main body 100 so as to easily cook meat in the roaster main body 100 Do.

The lamp protection cover 400 is formed to prevent the carbon heater 300 from being damaged by an external impact due to a cooking tool or the like during the cooking process of the meat, 114). In order to protect the carbon heater 300, the carbon heater 300 is formed as an arc-shaped plate in the longitudinal direction. As shown in FIGS. 2 and 6, the lamp protection cover 400 is formed of an insulator cover 410, a protection rod 420, and a tension clip 430.

The insulator cover 410 prevents the oil or foreign matter generated in the meat cooking process from flowing into the insulator 200 and shorts the electrical connection and prevents the insulator 200 from being damaged by an external impact So that the insulator means 200, which is symmetrically provided on both sides, is opposed to each other.

The insulator cover 410 is formed in an upward convex circular arc, and is coupled to the above-described support protrusion 114 by being hung on the base. A locking protrusion (not shown) is protruded downward to prevent the arc-shaped insulator cover 410 from slipping off from the left and right of the receiving protrusion 114 when the receiving protrusion 114 is coupled to the receiving protrusion 114, 0.0 > 114 < / RTI >

As described above, the insulator cover 410 is formed in a plate shape having an upward convex shape in the shape of an arc, and a plurality of fitting clip holes 412 formed at equal intervals on the lower surface of the convex circular arc plate are formed, And a tension fitting groove 414 in which a tension clip 430 to be described later is fitted is formed symmetrically on both left and right ends formed by a locking protrusion (not shown) so as to be symmetrical.

8, the engaging portion 110 of the engaging portion 110 formed on the left and right of the roving portion 102 is provided on the outer circumferential side on the upper side of the receiving projection 114, The insulator cover 410 corresponds to the lower surface of the insulator cover 410 and the insulator cover 410 is pressed against the outer peripheral side of the insulator protrusion 114 by a locking protrusion While holding it. Therefore, an elastic force is applied to the central side by a shape having an upward convex cross-sectional structure on the circular arc of the insulator cover 410, so that it is firmly coupled to the support projection 114.

As shown in FIGS. 2 and 6, the protection rod 420 is provided with a plurality of protrusions 420, and both ends of the protection rod 420 are coupled to the fitting clip holes 412 of the insulator cover 410, (300). Since the plurality of protection rods 420 serve as screens (hooks) as they are coupled to the insertion clip holes 412, the carbon heaters 300 can be used to hold tools or other objects in the meat cooking process So that it is prevented from dropping to the side of the roasting part 102 to be damaged by impact.

The tension clip 430 is formed such that a heat reflector 500 to be described later is coupled to the insulator cover 410 by the same action as that of the insulator cover 410 described above. Fit into the tension fitting grooves 414 formed on the left and right sides of the insulator cover 410 and presses both ends of the heat reflecting plate 500 to be engaged. Here, the tension clip 430 is bent toward the center on the arc of the insulator cover 410, and the heat reflecting plate 500, which will be described later, is formed to be engaged by the elastic force to prevent downward deviation.

As shown in FIGS. 2 and 7, the heat reflecting plate 500 reflects the far-infrared rays generated from the carbon heater 300 so as to upwardly concentrate and quickly cooks the meat to be heated and cooked. 110 and is pushed into the bent lower side of the tension clip 430 coupled to the tension fitting groove 414 of the insulator cover 410 of the lamp protection cover 400. [ As shown in FIG. 8, the heat reflecting plate 500 is formed in a concave circular plate shape so that the heat source of the carbon heater 300 is concentrated on the upper side, and is formed to correspond to the longitudinal direction of the carbon heater 300 And both ends are coupled to the lower side of the insulator cover 410 which is installed to face each other. Here, an arcuate locking protrusion 502 symmetrically formed on the right and left sides of the cross section of the heat reflector 500 is formed to be pressed and fixed by the tension clip 430.

The cooling means 600 prevents the beverage in the vicinity of the roster body from being heated during the heating and cooking of the meat, And includes a cooling container 610, a cool plate 620, a thermoelectric module 630, a heat sink 640, and a cooling fan 650, as shown in FIGS. 9 and 10.

The cooling container 610 is provided with a cooling water supply portion 612 which is fitted in an upper end of the cooling storage engagement hole 106 and accommodates a beverage bottle therein. Here, the cooling vessel 610 is preferably formed of aluminum having excellent heat radiation effect.

The cool plate 620 corresponds to a portion of the thermoelectric module, which will be described later, to which heat is to be applied. The cool plate 620 is a portion to be cooled by contacting the temperature of the beverage stored in the cooling container. It is preferable that the cool plate 620 is formed in a shape corresponding to the bottom shape of the cooling water supply part 612.

In order to cool the contents of the beverage bottle housed in the cooling container 610, the thermoelectric module 630 connects the two types of metal as a mode, and generates a heat transfer phenomenon in which heat is generated or absorbed at the junction of the two metals When the current is applied to use the Peltier effect, the upper surface of the cool plate 620, which absorbs heat, is correspondingly coupled to absorb the heat of the cool plate 620 coupled to the bottom surface of the cooling container . A lower surface of the thermoelectric module 630 through which heat is dissipated is coupled to an upper surface of a heat sink 640 described later.

The heat sink 640 is formed of an aluminum plate for normal heat dissipation and is connected to the lower portion of the cooling fan 650 to forcibly dissipate the heat generated by the thermoelectric module 630 through the heat sink 640 .

5, the electric roaster having the cooling water pouring portion of the present invention can be detachably attached to the outside of the roaster body 100 by electrically connecting and disconnecting the carbon heater, It is possible to reduce the occurrence of electric safety accidents and to replace the carbon heater according to the possibility from the outside.

That is, both ends of the carbon heater 300 are positioned on the side of the fitting hole 112 of the coupling part 110 when the carbon heater is to be joined, and the inserting means 200 So that the insulator 210 of the insulator means is fitted and fixed to both ends of the carbon heater 300 so that the wiring of the carbon heater 300 is exposed to the outside of the roster body through the wiring hole 220, And electrically connected to supply external power, thereby performing the function of the carbon heater.

Therefore, it is possible to prevent the electrical safety accident from occurring due to the coupling of the carbon heater in the connection part in the state where the wiring state is already connected as in the conventional case, The detachment of the insulator means 200 from the outside of the roster main body 100 allows the user to remove the engaging means 200 from the roaster body 100 without the need for the user to forcefully release the coupling of the carbon heater 300 from the inside of the roasting portion 102. [ It is clear that the one side engagement of the carbon heater 300 is easily released by the disengagement, thereby facilitating the replacement and maintenance.

8, the lamp protection cover 400 can also be coupled and disengaged by a one-touch operation by an elastic force, and it is possible to simply and horizontally The heat reflecting plate 500 can be properly coupled with the first and second heat sinks 100 and 200, so that the carbon heater can be cleaned and protected more easily. In addition, prior to the cleaning of the entire burner unit 102, It is easy with the ease of unbonding of the carbon heater.

9 and 10, it is possible to provide a separate cooling means 600 to eliminate a portion of the beverage heated by the heat source radiating from the carbon heater 300, It is obvious that it is possible to provide a multi-functional electric roaster capable of cooking meat roast while drinking it.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined in the appended claims. Is within the scope of the description.

100: Roaster main body 102:
104: Control lever 106: Cooling compartment coupling ball
110: engaging portion 112: engaging hole
114: pedestal projection 200: insulator means
210: inserting section 220: wiring passage hole
300: Carbon heater 400: Lamp protection cover
410: insulator cover 412: inserting clip ball
414: Tension fitting groove 420: Protective rod
430: tension clip 500: heat reflector
502: latching jaw 600: cooling means
610: Cooling vessel 612: Cooling water supply part
620: Cool plate 630: Thermoelectric module
640: Heatsink 650: Cooling fan

Claims (6)

A coupling part 110 is formed symmetrically to both sides of the roving part 102 and an adjusting lever 104 for controlling power supply and heat generation amount is installed on an upper side of the roving part 102 A roaster main body 100 having a cooling housing coupling hole 106 formed at one side of the control lever 104;
Shaped agitator means (200) provided in a symmetrical manner to be fitted into the joint portion (110) of the roaster main body (100) to be formed symmetrically from the outside of the roaster main body (100);
A carbon heater 300 for inserting and fixing both ends of a glass tube in which wiring lines are exposed to the outside, horizontally, by inserting and fixing the insulator means 200 provided symmetrically;
A lamp protecting cover 400 formed in a circular arc shape in the longitudinal direction of the carbon heater 300 so as to support both ends thereof on the upper portion of the coupling portion 110 and to protect the carbon heater 300;
The length of the carbon heater 300 corresponds to the lower part of the coupling part 110 and is pushed into the lower side of the lamp protection cover 400 and is shaped as a concave circular plate so that the heat source of the carbon heater 300 is concentrated on the upper side. A heat reflecting plate 500 formed to correspond to the direction of the heat reflecting plate 500;
And a cooling means (600) fitted to the cooling housing coupling hole (106) and provided with a cooling vessel (610) provided with a cooling water supply portion (612) Electric roaster equipped with payment.
The method according to claim 1,
The engaging portion 110 of the roaster main body 100 includes a fitting through-hole 112 formed to penetrate the inserting means 200 from the outside of the roaster main body 100 to be engaged therewith;
A receiving protrusion 114 formed symmetrically on the upper surface of the upper surface of the fitting hole 112 penetrating the inside of the roving portion 102 of the roaster main body 100 and adapted to receive both ends of the lamp protecting cover 400; Wherein the cooling water supply part is provided with a cooling water supply part.
The method according to claim 1,
The insulator means 200 includes an inserting portion 210 for inserting and fixing both ends of the glass tube of the carbon heater 300 in a horizontal direction;
A wiring hole 220 penetrating through the inserting unit 210 on the opposite side of the inserting unit 210 and penetrating the wiring of the carbon heater 300, And a cooling water supply unit for supplying the cooling water to the cooling water supply unit.
The method according to claim 1,
The lamp protection cover 400 is formed as a plate having a convex shape in the shape of an arc in the shape of an arc, and a plurality of fitting clip holes 412 are formed at equal intervals on the lower surface of the convex circular arc, (414) symmetrically formed and provided symmetrically with respect to the insulator cover (410);
A plurality of protrusions 420 formed on both sides of the insulator cover 412 of the insulator cover 410 symmetrically and symmetrically provided at both ends thereof and corresponding to the length of the carbon heater 300;
And a tension clip 430 which is fitted in the tension fitting grooves 414 formed on the left and right sides of the insulator cover 410 and is adapted to press both ends of the heat reflecting plate 500 to be engaged therewith. Electric roaster equipped with payment.
5. The method of claim 4,
Wherein an arc-shaped locking protrusion (502) is formed symmetrically on the right and left sides of the heat reflecting plate (500) so as to be pressed and fixed by the tension clip (430).
The method according to claim 1,
The cooling unit 600 includes a cooling container 610 fitted to the cooling engagement hole 106 and provided with a cooling water supply unit 612 for cooling and storing a beverage bottle therein;
A cool plate 620 coupled to a bottom surface of the cooling vessel 610;
In order to cool the contents of the beverage bottle housed in the cooling container 610, two types of metal are connected to form a Peltier effect, which is a thermal transfer phenomenon in which heat is generated or absorbed at the junction of two metals when current flows. A thermoelectric module 630 to which a heat absorbing upper surface is coupled to the lower surface of the cool plate 620 so as to absorb the heat of the cool plate 620 coupled to the bottom surface of the cooling container when a current is applied to use the thermoelectric module 630;
A heat sink 640 coupled to a lower surface of the thermoelectric module 630 to generate heat;
And a cooling fan 650 for forcibly discharging the heat generated by the thermoelectric module 630 through the heat sink 640. [

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