CN221991855U - Heat source protection part and cooking device provided with same - Google Patents

Abstract

The utility model discloses a heat source protection component and a cooking device provided with the same, wherein the heat source protection component comprises a lower convex part, an upper edge part and a plurality of connecting parts; the lower convex part is formed in a convex way along a downward direction, and the upper convex part is matched with the lower convex part in size and is convex along an upward direction; the connecting part connects the upper edge part and the upper convex part; the upper convex part is connected with the lower convex part, a space for containing water is arranged between the upper convex part and the lower convex part, a shell of the space for containing water is provided with a water vapor discharge opening, the effect is that foods such as meat, fish and the like are heated and cooked, oil drops generated in the cooking process are prevented from being dropped on heat sources such as gas fire or charcoal fire and the like, the indirect heat transfer effect of the heat source interacts with the water supplementing effect of the water vapor, so that food is cooked uniformly without drying, and the space for containing water further solves the problem of oil smoke caused by overhigh temperature due to the fact that oil drops fall on the upper convex part.

Description

Heat source protection part and cooking device provided with same

Technical Field

The present utility model relates to a cooking apparatus, and more particularly, to a cooking apparatus for heating and cooking food (e.g., meat, fish, etc.) on a heat source (e.g., a gas fire or a charcoal fire), which can uniformly cook the food without dripping oil generated during cooking on the heat source, thereby cooking delicious food.

Background

Meat, fish and other foods are usually cooked by heating in a frying pan, and in order to increase the flavor of the foods, a barbecue grill is sometimes used to roast the foods by placing a charcoal fire, and the charcoal fire can increase the flavor of the foods by emitting far infrared rays.

A disadvantage of using a barbecue oven to cook food is that the oil produced during cooking can fall onto a heat source (e.g., a charcoal fire). In this case, the oil burns and generates smoke, thereby reducing the taste of the food. In addition, harmful substances generated by incomplete combustion of oil may adhere to food through smoke, thereby adversely affecting the health of consumers.

Korean laid-open patent publication No. 10-2010-0074539 (published 7/2/2010; hereinafter referred to as "prior art 1") discloses a charcoal kiln type roast duck apparatus and a cooking method using the same. The disclosed roast duck device is based on the charcoal kiln principle, wherein heat and steam of charcoal fire circulate through convection, and duck meat is cooked uniformly and has excellent flavor.

Korean laid-open patent publication No. 10-2012-0009115 (published on 1 month and 2 2012; hereinafter referred to as "prior art 2") discloses a charcoal grill that can be used as a gas oven. The disclosed barbecue grill has a structure in which a water tray, a heat-conductive plate, a cooking cover, and a cooking tray with a central heat-passage hole are stacked one on top of the other, and the cooking cover is covered thereon. According to this type of grilling, when the water tray is filled with water, a heat source such as gas or charcoal fire is placed under the water tray, and then food to be cooked is placed in the cooking tray, and the heat of the heat source is transferred to the food through the central hole of the water tray, so that the food is cooked. At this time, the water in the water tray evaporates, and food is supplied. The heat conductor may also be filled with water, in which case the effect of cooking the food is expected to be better.

Korean laid-open patent publication No. 10-2016-0026169 (published on day 3 and 9 of 2016; hereinafter referred to as "prior art 3") discloses a charcoal cooking apparatus. The disclosed cooking device has the following structure: installing a carbon tank in the lower container; an oil disc with a peripheral opening for injecting water and a hole formed in the center is arranged on the carbon tank; a hot plate forming a central hole on the oil pan and a cutout for discharging oil on the edge; a cup-shaped steam cooking hole is arranged on the central hole of the hot plate; the upper container covers an upper portion of the lower container. In the cooking apparatus having such a structure, when the digester is filled with beer and the raw chicken is placed on the digester and heated with charcoal, the beer in the digester is evaporated by the heat of the charcoal, and the raw chicken is cooked. Thus, the so-called beer chicken can be cooked. On the other hand, if the steam pot and the upper container are removed, meat such as pork tripe can be roasted on open fire.

Korean registered patent document No. 10-2374036 (registered on 2022, 3, 8, hereinafter referred to as "prior art 4") discloses a multifunctional barbecue grill for camping. The disclosed oven has the following structure: the gas burner is located below the lower body, a cylindrical column for inducing the gas burner to generate a gas flame is located at the center of the lower body, a radial grill is arranged radially from the cylindrical column, and a cover covers the lower body. In such a barbecue oven, the gas fire is turned on, meat is placed on the radial barbecue grill, and then the cover is closed, and the heat of the gas fire is reflected by the cover and transferred to the meat on the radial barbecue grill, so that the meat is cooked.

Disclosure of utility model

Technical problem to be solved

In order to solve the problems that oil drops generated in the cooking process are prevented from falling on a heat source, the indirect transmission effect of the heat source interacts with the moisturizing effect of water vapor, so that food is cooked uniformly without drying, delicious food is cooked, and meanwhile, the problem of oil smoke reduction is solved. And further solves the problem of full utilization of heat, and can be steamed, boiled or rinsed while barbecue and cooking.

Technical proposal

In a first aspect, a heat source protection member according to some embodiments of the present application includes a lower convex portion, an upper edge portion, and a plurality of connection portions;

The lower convex part is formed in a convex way along a downward direction, and the upper convex part is matched with the lower convex part in size and is convex along an upward direction;

The connecting part connects the upper edge part and the upper convex part;

The upper convex part is connected with the lower convex part, a space for containing water is arranged between the upper convex part and the lower convex part, and a water vapor discharge opening is arranged on a shell of the space for containing water.

The heat source protecting member according to some embodiments of the present application further includes a first separator provided between the upper protrusion and the lower protrusion, the space for accommodating water being formed between the first separator and the upper protrusion, the upper protrusion being provided with the water vapor discharge opening.

The heat source protection member according to some embodiments of the present application further includes a second separator provided between the first separator and the lower convex portion, and a heat insulation gap is provided between the second separator and the lower convex portion.

According to some embodiments of the application, the heat source protecting member further comprises a mounting hole for accommodating the container, the water vapor discharge opening along the upper protruding portion is formed to vertically penetrate through the upper protruding portion and the lower protruding portion and between them, the first partition plate is provided with a water baffle along an opening edge of the mounting hole thereon, the water baffle extends vertically upwards and protrudes out of the water vapor discharge opening of the upper protruding portion, and an unsealed gap in a horizontal direction is provided between an edge of the water vapor discharge opening of the upper protruding portion and the water baffle.

According to the heat source protecting member of some embodiments of the present application, the upper edge portion is formed in a circular or polygonal edge shape.

According to the heat source protecting member of some embodiments of the present application, the connecting portion is connected between the upper edge portion and the upper convex portion at an annular interval.

According to some embodiments of the application, the heat source protecting member includes an upper vertical or inclined portion connected to the upper edge portion, and a lower vertical or inclined portion connected to the upper protrusion portion.

According to some embodiments of the application, the heat source protecting member further includes a clamping portion formed between the upper vertical or inclined portion and the lower vertical or inclined portion.

In a second aspect, a cooking apparatus according to some embodiments of the present application includes a base member, an oil collecting member, an upper cylinder member, and a heat source protecting member;

the base part is a round or polygonal cylinder, the top of the base part is open, and the side wall of the base part is provided with a clamping groove;

The oil collecting component is arranged in the base component through a clamping groove arranged on the base component, the oil collecting component comprises an outer wall, an inner wall and a bottom surface, a space formed by the outer wall, the inner wall and the bottom surface is used as an oil collecting space, and the center of the inner side of the inner wall is not provided with the bottom surface to form a center opening;

The upper cylinder part is arranged at the top of the base part through a clamping groove arranged on the base part, the upper cylinder part comprises a side wall, the side wall is formed into a circular or polygonal cylinder with an open top and a closed bottom, and one or more clamping grooves are formed at the top of the side wall;

The heat source protection component is arranged in the upper cylinder component through one or more clamping grooves arranged on the upper cylinder component, and comprises a lower convex part, an upper edge part and a plurality of connecting parts;

the lower protruding part is formed protruding in a downward direction to cover the central opening of the oil collecting part, but not to contact with the side wall of the upper cylinder part, and a heat transfer channel is formed between the side wall of the upper cylinder part and the lower protruding part;

The upper convex part is matched with the lower convex part in size and protrudes in an upward direction; the upper edge part is formed into a round or polygonal edge shape and is mounted on the clamping groove of the upper cylinder part;

The connecting part connects the upper edge part and the upper convex part;

The upper convex part is connected with the lower convex part, a space for containing water is arranged between the upper convex part and the lower convex part, and a water vapor discharge opening is arranged on a shell of the space for containing water.

According to some embodiments of the application, the heat source protecting member further includes a first partition plate disposed between the upper protrusion and the lower protrusion, the space for accommodating water is formed between the first partition plate and the upper protrusion, and the upper protrusion is provided with the water vapor discharge opening.

According to some embodiments of the application, the heat source protecting member further includes a second partition plate disposed between the first partition plate and the lower protrusion, and a heat insulation gap is disposed between the second partition plate and the lower protrusion.

According to some embodiments of the present application, the cooking apparatus further comprises a grill member, a container, and a mounting opening for receiving the container, the grill member being snapped into the snap groove of the upper barrel member or mounted on the upper rim portion and disposed above the upper rim portion, the grill member providing an opening through which the container passes;

Forming the mounting holes along the water vapor discharge opening of the upper convex part and vertically penetrating through the upper convex part, the lower convex part and between the upper convex part and the lower convex part, wherein a water baffle is arranged along the opening edge of the mounting holes on the first baffle, extends upwards along the vertical direction and stretches out of the water vapor discharge opening of the upper convex part, and a non-closed gap in the horizontal direction is formed between the edge of the water vapor discharge opening of the upper convex part and the water baffle;

The container is loaded into the mounting aperture through the opening of the grill member.

According to some embodiments of the present application, the cooking apparatus further comprises a grill member and a container, the connection portion including an upper vertical or inclined portion connected to the upper edge portion, a lower vertical or inclined portion connected to the upper protrusion portion, and a clamping portion formed between the upper vertical or inclined portion and the lower vertical or inclined portion, the grill member being clamped to the clamping portion of the connection portion, the grill member providing an opening through which the container passes;

The water vapor discharge opening of the upper convex part is vertically penetrated through the upper convex part, the lower convex part and the space between the upper convex part and the lower convex part to form a mounting opening, a water baffle is arranged on the first baffle plate along the opening edge of the mounting opening on the first baffle plate, the water baffle extends upwards vertically and extends out of the water vapor discharge opening of the upper convex part, and an unsealed gap in the horizontal direction is arranged between the edge of the water vapor discharge opening of the upper convex part and the water baffle;

The container is loaded into the mounting aperture through the opening of the grill member.

According to some embodiments of the application, the cooking apparatus further comprises a cover member for covering the upper tube member.

According to some embodiments of the application, the lid member includes a thermal control plate having an aperture, the thermal control plate being rotatable relative to the lid member such that the aperture of the thermal control plate and the aperture of the lid member are brought into registration of different aperture areas by relative rotation.

According to some embodiments of the application, the cooking apparatus further comprises a cover member for covering the upper tube member;

The cover part is provided with a cover opening corresponding to the position of the container, the upper end opening of the container is smaller than the cover opening, and the upper end of the container vertically extends upwards out of the cover opening.

According to some embodiments of the application, the container is provided with a lid covering an upper opening thereof.

According to some embodiments of the application, the opening edge of the cover opening and the outer wall of the upper end of the container are provided with a horizontally-directed non-closed gap.

According to some embodiments of the application, the oil collecting space of the oil collecting part contains water;

The cooking device further comprises a carbon containing component, the carbon containing component is clamped on the inner wall of the oil collecting component, the carbon containing component comprises a side wall and a bottom surface, the top of the carbon containing component is open, and a plurality of air passage holes are formed in the side wall and the bottom surface of the carbon containing component.

According to some embodiments of the present application, the cooking apparatus further comprises a meat mounting rim part including a plurality of mounting protrusions protruding from the meat mounting rim part in an inward upward direction for mounting meat, the meat mounting rim part being mounted on the clamping groove of the upper cylinder part;

According to some embodiments of the application, the upper edge portion of the heat source protecting member is provided with a plurality of mounting protrusions for meat mounting in an inward and upward direction thereof.

According to some embodiments of the application, the cooking apparatus further comprises a beer chicken mounting member having open top and bottom and formed with only side walls having an inclined structure with wide bottom and narrow top, the side walls being mounted in the receiving part of the heat source protecting member, the side walls having a height higher than that of the receiving part, and a plurality of holes being formed on the side walls at positions higher than that of the receiving part.

Advantageous effects

According to the cooker disclosed by the utility model, when foods such as meat, fish and the like are cooked by heating, oil drops generated in the cooking process can be prevented from being discharged onto heat sources such as gas fire or charcoal fire and the like, meanwhile, the heat of the heat sources is indirectly transferred to the foods, and the indirect transfer effect of the heat interacts with the moisturizing effect of water vapor, so that the foods are cooked uniformly and not dried, delicious foods are cooked, meanwhile, the temperature of the upper protruding part is reduced, the oil smoke is reduced, and the purposes of cooking, boiling or rinsing can be realized while barbecue cooking are further achieved.

Drawings

Fig. 1 is a perspective view of a cooker according to an embodiment of the utility model.

Fig. 2 is a cut-away perspective view of the kitchen utensil of fig. 1.

Fig. 3 is a cross-sectional view of the cooker of fig. 1.

Fig. 4 is a first sectional view illustrating a cooking process using the cooking apparatus of fig. 1.

Fig. 5 is a second sectional view illustrating a cooking process using the cooking apparatus of fig. 1.

Fig. 6 is a third sectional view illustrating a cooking process using the cooking apparatus of fig. 1.

Fig. 7 is a fourth cross-sectional view illustrating a cooking process using the cooking apparatus of fig. 1.

Fig. 8 is an assembly view of an upper and lower boss.

Fig. 9 is a sectional view of the assembly of the container, the upper boss and the lower boss.

FIG. 10 is an assembled view of a container, upper boss, lower boss and grill member.

FIG. 11 is an assembled view of another container, upper tab, lower tab and grill component.

Fig. 12 is a cover member assembly view.

10 Cooking device

20 Charcoal

30 Water

40 Meat parts

50 Raw chicken

60 Container

100 Base part

200 Oil collecting component

300 Upper cylinder part

400 Heat source protecting member

410 Lower convex part

411 Bolt

412 Nut

413 First separator

4131 Water baffle

414 Second separator

415 Space for containing water

416 Mounting openings

420 Upper convex part

421 Steam discharge opening

430 Containing part

440 Upper edge portion

450 Connecting portion

452 Upper vertical or inclined portion

454 Lower vertical or inclined portion

456 Clamping part

460 Beer chicken mounting part

500 Cover part

600 Water storage component

700 Charcoal holding component

800 Grill component

900 Meat mounting edge component

Detailed Description

The present utility model will now be described in detail with reference to the following drawings.

The barbecue apparatus according to prior art 1 has such limitations: there is no means to protect the charcoal on top of the charcoal, so duck or other meat cannot be placed on top of the charcoal. The barbecue apparatus of prior art 2 is limited in that the distance between the heat source and the food is too short, and the heat transfer effect of the heat source and the moisturizing effect of the water vapor are difficult to coordinate. The cooking apparatus according to prior art 3 has an advantage in that so-called chicken beer can be cooked, but has a limitation in that only meat such as streaky pork can be roasted by direct fire, and meat such as streaky pork cannot be roasted by indirect fire. The grilling device in prior art 4 has an advantage that meat can be grilled uniformly by indirect heat generated by reflection of the gas fire, but has a limitation that the water supplementing effect of water vapor cannot be obtained.

Accordingly, the present utility model is directed to overcoming the above-described limitations of the prior art. The cooking device is provided, when meat, fish or other foods are cooked by heating, heat of a heat source (such as gas fire or charcoal fire) is indirectly transferred to the foods, oil drops generated in the cooking process are prevented from falling on the heat source, and the indirect transfer effect of the heat source interacts with the moisturizing effect of water vapor, so that the foods are cooked uniformly and not dried, delicious foods are cooked, and the problem of reducing oil smoke is solved. The utility model also aims to further solve the problem of full utilization of heat, and can be used for steaming, boiling or rinsing while barbecue and cooking.

The cooking apparatus 10 according to the present utility model includes a base member 100, an oil collecting member 200, an upper cylinder member 300, a heat source protecting member 400, and a cover member 500, as shown in fig. 1 to 3. The cooking apparatus 10 of the present utility model may further include a water storage part 600, a charcoal containing part 700, a grill part 800, and a meat mounting rim part 900.

In the present utility model, the base member 100 may be formed in a circular or polygonal cylindrical shape with an open top. The base member 100 may include a sidewall 110 and a bottom 120, and an upper end of the sidewall 110 may form a clamping groove 112. The base member 100 may be provided with a handle 140 to facilitate movement of the base member 100 by a user. The figures illustrate an embodiment in which a charcoal containing member 700 is mounted in a base member 100 for use with charcoal fires. In order to continuously supply oxygen to the charcoal 20 in the charcoal containing section 700, the base section 100 is provided with a hole 130 and an adjusting knob 132 for adjusting the size of the hole 130, and the fire power of the charcoal can be adjusted after the hole 130 is opened.

On the other hand, although not shown in the drawings, a portable gas range may be provided under the base member 100 so that a gas fire may be used instead of a charcoal fire. For this purpose, an inner wall concentric with the side wall 110 of the base member 100 may be installed at the center of the base member 100, and the base member 100 may be configured to have an opening in the inner wall. The heat of the gas fire may be transferred upward through an opening formed in the inner wall of the base member 100.

The oil collecting member 200 is mounted inside the base member 100 through the clamping groove 112 provided at the base member 100. The oil collecting member 200 includes an outer wall 210, an inner wall 220, and a bottom surface 230. The space formed by the outer wall 210, the inner wall 220 and the bottom surface 230 serves as an oil collecting space, which is filled with water for use. On the other hand, the inner side (i.e., center) of the inner wall 220 is not formed with the bottom surface 230, and thus, a center opening 240 is formed.

The carbon containing component 700 includes side walls 710 and a bottom surface 720 and has an open top. The side wall 710 and the bottom surface 720 of the charcoal containing portion 700 are formed with a plurality of air passage holes, including air passage holes 712 and 722. The carbon containing member 700 is clamped to the inner wall 220 of the oil collecting member 200. Thus, the carbon containing component 700 is disposed below opposite the lower protrusion 410, and for this purpose, a hanging rim 714 may extend outwardly from the top of the side wall 710 of the carbon containing component 700.

The upper cylinder part 300 is mounted on top of the base part 100 through the clamping groove 112 provided on the base part 100. The upper cylinder part 300 is formed in a circular or polygonal cylinder shape with open top and bottom, i.e., without top and bottom surfaces, only the sidewall 310. At the top of the sidewall 310, a plurality of slots may be formed, instead of one slot, such as slots 312 and/or 314 may be formed. Fig. 3 shows an example of forming the card slots 312 and 314, but only one card slot may be installed. If a single clamping groove is provided on the upper cylinder part 300, the upper edge portion 440 of the heat source protecting part 400 and the meat installation edge part 900 are placed in the same clamping groove. If two clamping grooves 312 and 314 are provided on the upper drum part 300, the meat installation rim part 900 is provided on the clamping groove 312, and the upper rim part 440 of the heat source protection part 400 is provided on the clamping groove 314. The upper barrel part may be provided with a handle 320 to facilitate movement of the upper barrel part 300 by a user.

The heat source protection member 400 is mounted inside the upper cylinder member 300 by a snap or a catching groove 314 provided in the upper cylinder member 300. The heat source protecting member 400 includes a lower protrusion 410, an upper protrusion 420, a receiving portion 430, an upper edge portion 440, and a plurality of connection portions 450.

The lower protrusion 410 is formed to protrude in a downward direction, covering (meaning herein that upper non-contact shielding) the central opening 240 of the oil collecting member 200, but not contacting the sidewall 310 of the upper cylinder member 300. Thus, a heat transfer channel is formed between the sidewall 310 and the lower protrusion 410 of the upper cylinder member 300. The lower convex portion 410 may be formed in various shapes, but is preferably formed in a convex plate shape.

The upper protrusion 420 has a size matching that of the lower protrusion 410 and protrudes in an upward direction. Like the lower convex part 410, the upper convex part 420 is preferably formed in a convex circular plate shape. The lower protrusion 410 and the upper protrusion 420 are connected, which may be integrally connected by welding, with edges adjacent to each other, or may be detachably connected. There are various ways of detachably connecting the lower protrusion 410 and the upper protrusion 420, including connection with bolts and nuts.

The receiving part 430 is mounted on the upper protrusion 420. The holding portion 430 includes a side wall 432 and a bottom surface 434, but has an open top, and can be used to hold water. The holding part 430 may be integrally connected to the upper protrusion 420 by welding or the like, or may be detachably connected. In this case, the connection part 436 of the receiving part 430 may include one or more legs, which may be welded or screwed to the upper protrusion 420, or may extend through the upper protrusion 420 and be supported on the lower protrusion 410.

The upper edge portion 440 is formed in a circular or polygonal edge shape. The upper edge portion 440 is mounted to the catch 314 of the upper barrel member 300. Although not shown, the upper edge portion 440 may be provided with a plurality of mounting protrusions for mounting meats, such as the mounting protrusions 910 of the meat mounting edge member 900 described below (for mounting meats), provided in an inward upward direction of the upper edge portion 440. In this case, the upper edge portion 440 is substantially identical to the meat mounting edge member 900. Accordingly, as described below, the cooking apparatus of the present utility model can simultaneously perform a roast method of hanging down the meat 40 by the heat source protecting part 400, a method of roasting other foods such as the meat 40 or pizza on the grill part 800, and a method of cooking a beer chicken, and thus is very convenient.

The connection portion 450 connects the upper edge portion 440 and the upper protrusion 420. The connection portion 450 may be formed to integrally connect the upper edge portion 440 and the upper protrusion 420, or may be formed to be detachably connected. The connection portion 450 includes an upper vertical or inclined portion 452 connected to the upper edge portion 440, a lower vertical or inclined portion 454 connected to the upper protrusion 420, and a snap-fit portion 456 formed between the upper vertical or inclined portion 452 and the lower vertical or inclined portion 452. A plurality of (e.g., four) connection portions 450 may be mounted on the heat source protection member 400, and the snap-fit portions 456 of the connection portions 450 are configured to have the same height. Thus, the clamping portion 456 of the connection portion 450 may be installed so that the grill member 800 may be clamped.

The cover member 500 covers the upper cylinder member 300. The cover member 500 is installed at the upper portion of the upper cylinder member 300. The cover member 500 may be attached to the rim of the upper cylinder member 300 or may be engaged with a locking groove of the upper cylinder member 300. The cover member 500 may mount a handle 510, a temperature sensor 520, and a thermal control plate 530. The thermal control plate 530 is, for example, disk-shaped and covers the cover member 500. For example, the thermal control plate 530 has three holes. The cover member 500 also has three apertures therein. The degree of alignment of the holes in the thermal control plate 530 with the holes in the cover member 500 determines the size of the holes that are open so that heat can be regulated.

The meat mounting rim member 900 may be mounted on the catch 312 of the upper cartridge member 300. A plurality of mounting protrusions 910 may be mounted for mounting the meat so that the meat mounting may protrude in an inward upward direction from the meat mounting rim member 900. These meat mounting protrusions 910 can mount meat, such as a thin and long pig tripe.

Meanwhile, the water storage part 600 may be installed below the charcoal containing part 700 and inside the base part 100.

Referring to fig. 4, a method of using the cooking apparatus 10 of the present utility model having such a structure will be described as follows.

The water storage part 600 disposed under the charcoal containing part 700 may be filled with an appropriate amount of water. The water storage part 600 is not necessarily used, but may be used to prevent a table or the like on which the base part 100 is placed from burning by transferring heat of charcoal to the bottom surface 120 of the base part 100, and may be used to evaporate water contained in the water storage part 600 by heat of charcoal, thereby further increasing the amount of water vapor. If necessary, in order to prevent the table or the like on which the base member 100 is placed from burning, a base may be placed on the table first, and then the base member 100 may be placed on such a base.

The space in the oil collecting member 200 is filled with an appropriate amount of water 30, and the charcoal containing member 700 is filled with charcoal 20 and can ignite the charcoal.

The beer chicken mounting member 460 may be mounted in the accommodating part 430 of the heat source protecting member 400. The beer chicken mounting part 460 is open at both the top and bottom and is formed with only the side walls 462. The side walls 462 may have a sloped structure with a wide bottom and a narrow top. The side wall 462 has a height higher than that of the receiving portion 430, and a plurality of holes 464 may be formed in the side wall 462 at positions higher than that of the receiving portion 430. The beer chicken mounting member 460 may be filled with an appropriate amount of beer 32, and then the raw chicken 50 is mounted on the beer chicken mounting member 460.

On the other hand, the grill member 800 may be mounted on the catching portion 456 of the connection portion 450 of the heat source protection member 400. Meat 40 such as pork tripe may be placed on the grill member 800. Meat 40 such as pork tripe may not be placed on the grill member 800, but other food such as pizza may be placed thereon.

And then the cover member 500 is covered. The opening degree of the hole 130 of the base member 100 and the Kong Zhang opening degree of the thermal control plate 530 of the cover member 500 are properly adjusted while being placed for a proper time according to the amount of charcoal. In this case, the appropriate time depends to some extent on the amount of charcoal and the opening degree of the holes of the base member 100 and the holes of the cover member 500, but may be generally set to about 15 minutes.

In the cooking device 10 of the present utility model, the heat of the charcoal fire 20 rises from the charcoal containing portion 700, but is blocked by the lower protrusion 410 of the heat source protection portion 400, and cannot rise further. Accordingly, the heat of the charcoal fire 20 is laterally spread along the lower protrusion 410 and transferred to the top through the heat transfer channel formed between the lower protrusion 410 and the sidewall 310 of the upper cylinder member 300. Through this heat transfer process, the heat of the charcoal fire 20 can be uniformly transferred to the raw chicken 50 placed on the beer chicken installation part 460 and the meat 40 placed on the grill part 800. In addition to the heat transfer, water filled in the oil collecting member 200, water filled in the water storage member 600, water filled in the containing portion 430, or beer filled in the beer chicken mounting member 460 is evaporated to form water vapor, which is also transferred to the raw chicken 50 and the meat 40. Accordingly, since the raw chicken 50 and the meat 40 are roasted under the interaction of the indirect heat transfer effect of the charcoal fire 20 and the water supplementing effect of the water vapor, the raw chicken 50 and the meat 40 are uniformly roasted without drying. In other words, the heat of the charcoal fire and the water vapor circulate inside the upper drum part 300 by convection, and since this circulation is smooth, the interfacial heat transfer effect of the charcoal fire 20 and the water supplementing effect of the water vapor are coordinated, the raw chicken 50 and the meat 40 are roasted, and the raw chicken 50 and the meat 40 are uniformly cooked without drying. Therefore, when the cover member 500 is opened after an appropriate time, the meat 40 and the raw chicken 50 are uniformly roasted in a state of containing an appropriate moisture and good taste. On the other hand, since the lower and upper protrusions 410 and 420 of the heat source protecting member 400 are disposed on top of the charcoal fire 20, oil generated from the raw chicken 50 and the meat 40 does not fall on the charcoal fire 20 but falls on the upper protrusion 420 and then flows to one side, and by the above, the oil collecting member 200 is disposed around the corresponding lower side of the upper protrusion 420, and oil drops fall off by the upper protrusion 420 and fall on the oil collecting member 200 and are collected. Since the oil collecting member 200 is filled with an appropriate amount of water, the oil collected in the oil collecting member 200 is not burned by the heat of the charcoal fire 20 until the water is completely evaporated.

In the above-described scheme, the roast installation means is disposed above the heat source-protecting means and within the upper cylinder means 300, such as by being fitted in a clamping groove or on the upper edge portion 440 of the heat source-protecting means, the oil generated from the meat 40 does not fall on the charcoal fire 20 but falls on the upper protrusion 420, and then flows to one side, falls on the oil-collecting means 200 and is collected. In practical application, the inventor found that oil droplets falling on the upper protruding part 420 generate oil smoke due to high temperature, and in a preferred example, as shown in fig. 8, a space 415 for containing water is provided between the upper protruding part 420 and the lower protruding part 410, and a water vapor discharge opening 421 is provided on a housing of the space 415 for containing water, and meanwhile, the water vapor discharge opening 421 can also be used as a water injection hole. More preferably, the upper protrusion 420 belongs to a housing of the space 415 containing water, and the upper protrusion 420 is provided with a water vapor discharge opening 421. Oil generated by the meat 40 falls on the upper convex part 420, the oil drops are cooled by the water in the space 415 containing water between the upper convex part 420 and the lower convex part 410, the oil smoke amount can be reduced, and the contained water can be evaporated into water vapor to be transferred to the meat 40.

In the first example, the edges of the upper protrusion 420 and the lower protrusion 410 form a hollow sealing structure by welding, the housing of the space 415 for accommodating water is the upper protrusion 420 and the lower protrusion 410, and the upper protrusion 420 is used as the housing for accommodating water to directly contact with oil drops, so that the cooling effect on the oil drops is improved.

As shown in fig. 8, in the second example, the heat source protecting member 400 further includes a first separator 413 disposed between the upper and lower protrusions 420 and 410, the first separator 413 being connected to the upper protrusion 420 in a hollow and sealed manner, the first separator 413 and the upper protrusion 420 forming a hollow and sealed structure by connection (e.g., welding), the hollow space between the first separator 413 and the upper protrusion 420 being formed into a space 415 for receiving water, and a heat insulation gap being provided between the first separator 413 and the lower protrusion 410. More preferably, the heat source protecting member 400 further includes a second separator 414, the second separator 414 being disposed between the first separator 413 and the lower protrusion 410, and a heat insulation gap being disposed between the second separator 414 and the lower protrusion 410. On the other hand, the upper convex part 420 is used as a shell for containing water and is in direct contact with oil drops, so that the cooling effect on the oil drops is improved. On the other hand, the lower convex portion 410 is adjacent to the charcoal fire, and the provision of the heat insulation gap and the second partition 414 can reduce the speed of evaporation of water in the space 415 containing water caused by the charcoal fire, compared to the first example. Preferably, the upper protrusion 420 and the lower protrusion 410 are connected, but the edges of the upper protrusion 420 and the lower protrusion 410 are not sealed, the edge is not sealed, and the edge is not sealed, so that the air gap between the lower protrusion 410 and the water in the accommodating space is reduced as much as possible, and the water evaporation speed is reduced. In this case, for example, the upper protruding portion 420 is welded to the edge of the first partition 413 with a space 415 for accommodating water being formed therebetween, the second partition 414 is fixed to the first partition 413 by spot welding at the edge, the nut 412 is attached to the second partition 414, the screw hole is provided in the lower protruding portion 410, and the bolt 411 is fixed to the nut of the second partition 414 through the screw hole of the lower protruding portion 410, thereby fixing the above members. In the first and second examples, the heat source protection component preferably fits the cover component 500 shown in FIG. 1, i.e., the cover component 500 having apertures, more preferably the fitted cover component has a thermal control plate 530 with three apertures in the thermal control plate 5. The cover member 500 also has three apertures therein. The degree of alignment of the holes in the thermal control plate 530 with the holes in the cover member 500 determines the size of the holes that are open so that heat can be regulated.

In a third example, as shown in fig. 9-11, the grill member 800 is snapped into a snap groove of the upper barrel member 300 or mounted to the upper rim portion 440, and disposed above the upper rim portion 440, the grill member 800 provides an opening through which the container 60 passes. The water vapor discharge opening 421 of the upper protrusion 420 is formed to vertically penetrate the upper and lower protrusions 420 and 410 and the mounting hole 416 therebetween, wherein the mounting member penetrating between the upper and lower protrusions 420 and 41, such as the first and second partition plates 413 and 414 (if any), is provided with the water baffle 4131 along the opening edge of the mounting hole 416 thereon by the first partition plate 413, the water baffle 4131 extends vertically upward and protrudes out of the water vapor discharge opening 421 of the upper protrusion 420, and the edge of the water vapor discharge opening 421 of the upper protrusion 420 and the water baffle 4131 are provided with a non-closed gap in the horizontal direction. The container 60 is loaded into the mounting aperture 416 through the opening of the grill member 800.

In a fourth example, as shown in fig. 9-11, the grill member card 800 is snapped onto the snap-fit portion 456 of the connection portion 450. The grill member 800 provides an opening through which the container 60 passes. Along the water vapor discharge opening 421 of the upper convex portion 420, a mounting opening 416 is formed vertically penetrating the upper convex portion 420 and the lower convex portion 410 and therebetween, wherein the therebetween means that mounting members such as the first partition 413 and the second partition 414 (if any) penetrating between the upper convex portion 420 and the lower convex portion 41 are provided along the opening edge of the mounting opening 416 thereon, the first partition 413 is provided with a water baffle 4131, the water baffle 4131 extends vertically upward and protrudes beyond the water vapor discharge opening 421 of the upper convex portion, and the edge of the water vapor discharge opening 421 of the upper convex portion 420 and the water baffle 4131 are provided with a non-closed gap in the horizontal direction. The container 60 is loaded into the mounting aperture 416 through the opening of the grill member.

In the third and fourth examples described above, the water vapor discharge opening 421 of the upper protrusion 420 and the water baffle 4131 are provided with a horizontally-directed non-closed gap as an evaporation opening for discharging water vapor in the space 415 for receiving water, and of course as a water injection hole, so that water in the space 415 for receiving water does not substantially leak because the water baffle 4131 is higher than the edge of the water vapor discharge opening 421.

In the third and fourth examples described above, the heat source protecting member is preferably adapted to the lid member 500 shown in fig. 12, that is, a lid opening is provided at a position of the lid member 500 corresponding to the container, more preferably, an upper end opening of the container is smaller than the lid opening, and an upper end of the container vertically protrudes upward from the lid opening, and an opening rim of the lid opening is provided with a horizontally non-closing gap with an outer wall of the upper end of the container. From the above, the upper end of the container is vertically higher than the cap opening and is formed with a gap in the horizontal direction, so that the excessive heat is discharged from the gap through the upper cylinder part 300, which is advantageous for the heat generation stabilization of the fire source, and the cap part 500 shown in fig. 12 may be a planar cap part 500 or an upwardly convex cap part 500 as shown in fig. 1, to increase the inner capacity of the cylinder. The container 60 can hold water for steaming, boiling or rinsing, and further utilize the heat in the cooking device. For example, the container 60 may be used to rinse a hot pot while the meat is being roasted. Preferably, the container has a separate adapted lid, by which the container can be covered during steaming, boiling or rinsing.

Although the above description describes the raw chicken 50 and the meat 40 being roasted simultaneously, only the raw chicken 50 or only the meat 40 may be roasted as desired. In this case, the grill member 800 is not required to be installed when only the raw chicken 50 is grilled. On the other hand, when only the roast meat 40 is to be roasted, the beer chicken mounting part 460 is not required to be mounted, and the water 30 may be properly filled in the accommodating part 430.

On the other hand, as shown in fig. 5, in the case where the heat source protection member 400 is not mounted, only the meat mounting edge member 900 may be mounted to the locking groove 312 of the upper cylinder member 300, so that the meat 40 may be roasted. In this case, when the meat installation rim member 900 is installed, the meat 40 is installed in the meat installation protrusions 910 of the meat installation rim member 900. In fig. 5, since the meat 40 is mounted at a boundary area inside the upper cylinder part 300, not directly on the charcoal fire 20, there is little concern that oil generated from the meat 40 may drip onto the charcoal fire 20.

However, as shown in fig. 6, even when the meat 40 is mounted on the meat mounting rim member 900, the heat source protecting member 400 may be mounted, thereby eliminating the possibility of dripping of the meat 40 onto the charcoal fire 20. Further, the beer chicken mounting member 460 may be mounted on the mounted heat source protection member 400, and the roast cooking of the raw chicken 50 may be performed together with the meat 40 as described above.

On the other hand, as shown in fig. 7, a grill member 800 may be installed on the heat source protection member 400, and food such as meat or pizza may be roasted on the grill member 800, and the meat 40 may be hung and roasted together by the meat installation rim member 900. In this case, when the meat mounting protrusion is provided on the upper edge portion 440 of the heat source protecting member 400, the meat mounting edge member 900 may not be mounted, and the meat 40 may be baked in a hanging state by mounting the meat 40 on the meat mounting protrusion provided on the upper edge portion 440 of the heat source protecting member 400. For this, the heat source protecting member 400 should be designed such that a certain gap is formed between the upper edge portion 440 of the heat source protecting member 400 and the grill member 800, through which the meat 40 can pass.

On the other hand, although not shown in the drawings, in the cooking apparatus 10 of the present utility model, the upper cylinder part 300, the heat source protecting part 400, and the cover part 500 are not installed, i.e., only the oil collecting part 200 and the charcoal containing part 700 are installed on the base part 100, and an appropriate amount of water is injected into the oil collecting part 200, and an appropriate amount of charcoal is injected into the charcoal containing part 700, and the charcoal is ignited. Then, the grill member 800 is placed on the catching groove 112 of the base member 100, and meats such as pork tripe are roasted on the grill member 800 by means of open flame roasting.

As described above, the cooking apparatus 10 of the present utility model is extremely versatile and allows a user to roast meat in a variety of ways.

Claims (20)

1. A heat source protection component, which is characterized by comprising a lower convex part, an upper edge part and a plurality of connecting parts;

The lower convex part is formed in a convex way along a downward direction, and the upper convex part is matched with the lower convex part in size and is convex along an upward direction;

The connecting part connects the upper edge part and the upper convex part;

The upper convex part is connected with the lower convex part, a space for containing water is arranged between the upper convex part and the lower convex part, and a water vapor discharge opening is arranged on a shell of the space for containing water.

2. The heat source protecting member according to claim 1, further comprising a first separator provided between the upper convex portion and the lower convex portion, the space for accommodating water being formed between the first separator and the upper convex portion, the upper convex portion being provided with the water vapor discharge opening.

3. The heat source protecting member according to claim 2, further comprising a second separator provided between the first separator and the lower convex portion, a heat insulating gap being provided between the second separator and the lower convex portion.

4. A heat source protecting member according to claim 3, further comprising a mounting opening for receiving a container, said water vapor discharge opening along said upper projection being formed so as to vertically penetrate said upper projection and said lower projection therebetween, said first partition being provided with a water baffle along an opening edge of the mounting opening thereon, said water baffle extending vertically upward and extending beyond the water vapor discharge opening of said upper projection, said water vapor discharge opening edge of said upper projection being provided with a horizontally unsealed gap with said water baffle.

5. The heat source protecting member according to claim 1, wherein the upper edge portion is formed in a circular or polygonal edge shape;

The connecting part is connected between the upper edge part and the upper convex part in an annular interval manner;

The connecting portion includes an upper vertical or inclined portion connected to the upper edge portion, and a lower vertical or inclined portion connected to the upper protruding portion.

6. The heat source protecting member according to claim 5, wherein the connecting portion further includes a snap-fit portion formed between the upper vertical or inclined portion and the lower vertical or inclined portion.

7. The cooking device is characterized by comprising a base part, an oil collecting part, an upper cylinder part and a heat source protecting part;

the base part is a round or polygonal cylinder, the top of the base part is open, and the side wall of the base part is provided with a clamping groove;

The oil collecting component is arranged in the base component through a clamping groove arranged on the base component, the oil collecting component comprises an outer wall, an inner wall and a bottom surface, a space formed by the outer wall, the inner wall and the bottom surface is used as an oil collecting space, and the center of the inner side of the inner wall is not provided with the bottom surface to form a center opening;

The upper cylinder part is arranged at the top of the base part through a clamping groove arranged on the base part, the upper cylinder part comprises a side wall, the side wall is formed into a circular or polygonal cylinder with an open top and a closed bottom, and one or more clamping grooves are formed at the top of the side wall;

The heat source protection component is arranged in the upper cylinder component through one or more clamping grooves arranged on the upper cylinder component, and comprises a lower convex part, an upper edge part and a plurality of connecting parts;

the lower protruding part is formed protruding in a downward direction to cover the central opening of the oil collecting part, but not to contact with the side wall of the upper cylinder part, and a heat transfer channel is formed between the side wall of the upper cylinder part and the lower protruding part;

The upper convex part is matched with the lower convex part in size and protrudes in an upward direction;

The upper edge part is formed into a round or polygonal edge shape and is mounted on the clamping groove of the upper cylinder part;

The connecting part connects the upper edge part and the upper convex part;

The upper convex part is connected with the lower convex part, a space for containing water is arranged between the upper convex part and the lower convex part, and a water vapor discharge opening is arranged on a shell of the space for containing water.

8. The cooking device of claim 7, wherein the heat source protecting member further comprises a first partition plate disposed between the upper protruding portion and the lower protruding portion, the space for accommodating water is formed between the first partition plate and the upper protruding portion, and the upper protruding portion is provided with the water vapor discharge opening.

9. The cooking device of claim 8, wherein the heat source protecting member further comprises a second partition plate disposed between the first partition plate and the lower protruding portion, and a heat insulation gap is disposed between the second partition plate and the lower protruding portion.

10. The cooking device of claim 8, further comprising a grill member, a container, and a mounting aperture for receiving the container, the grill member being snapped into a snap-in slot of the upper barrel member or mounted to the upper rim portion and disposed above the upper rim portion, the grill member providing an opening through which the container passes;

Forming the mounting holes along the water vapor discharge opening of the upper convex part and vertically penetrating through the upper convex part, the lower convex part and between the upper convex part and the lower convex part, wherein a water baffle is arranged along the opening edge of the mounting holes on the first baffle, extends upwards along the vertical direction and stretches out of the water vapor discharge opening of the upper convex part, and a non-closed gap in the horizontal direction is formed between the edge of the water vapor discharge opening of the upper convex part and the water baffle;

The container is loaded into the mounting aperture through the opening of the grill member.

11. The cooking apparatus of claim 8 further comprising a grill member and a container, the connection portion including an upper vertical or inclined portion connected to the upper edge portion, a lower vertical or inclined portion connected to the upper protrusion, and a snap-fit portion formed between the upper vertical or inclined portion and the lower vertical or inclined portion, the grill member being snapped onto the snap-fit portion of the connection portion, the grill member providing an opening through which the container passes;

The water vapor discharge opening of the upper convex part is vertically penetrated through the upper convex part, the lower convex part and the space between the upper convex part and the lower convex part to form a mounting opening, a water baffle is arranged on the first baffle plate along the opening edge of the mounting opening on the first baffle plate, the water baffle extends upwards vertically and extends out of the water vapor discharge opening of the upper convex part, and an unsealed gap in the horizontal direction is arranged between the edge of the water vapor discharge opening of the upper convex part and the water baffle;

The container is loaded into the mounting aperture through the opening of the grill member.

12. Cooking apparatus according to any of claims 7-9, further comprising a cover member for covering the upper barrel member.

13. The cooking apparatus of claim 12 wherein the cover member includes a thermal control plate, the cover member having apertures, the thermal control plate being rotatable relative to the cover member such that the apertures of the thermal control plate and the cover member apertures are brought into registration of different aperture areas by relative rotation.

14. The cooking apparatus according to any one of claims 10 to 11, further comprising a cover member for covering the upper tube member;

The cover part is provided with a cover opening corresponding to the position of the container, the upper end opening of the container is smaller than the cover opening, and the upper end of the container vertically extends upwards out of the cover opening.

15. Cooking apparatus according to claim 14, wherein the opening rim of the lid opening and the outer wall of the upper end of the container are provided with a horizontally directed non-closing gap.

16. Cooking apparatus according to claim 14, wherein the container is provided with a lid covering an upper opening thereof.

17. The cooking device of claim 7, wherein the cooking device comprises a cooking chamber,

The oil collecting space of the oil collecting part contains water;

The cooking device further comprises a carbon containing component, the carbon containing component is clamped on the inner wall of the oil collecting component, the carbon containing component comprises a side wall and a bottom surface, the top of the carbon containing component is open, and a plurality of air passage holes are formed in the side wall and the bottom surface of the carbon containing component.

18. The cooking device of claim 7, further comprising a meat mounting rim member comprising a plurality of mounting protrusions protruding inwardly and upwardly from the meat mounting rim member for mounting the meat, the meat mounting rim member being mounted on the clamping groove of the upper barrel member.

19. The cooking apparatus according to claim 7, wherein the upper edge portion of the heat source protecting member is provided at an inward upward direction thereof with a plurality of mounting protrusions for meat mounting.

20. The cooking device of claim 7, further comprising a beer chicken mounting member open at the top and bottom and formed with only side walls having an inclined structure with a wide bottom and a narrow top, the side walls being mounted in the receiving portion of the heat source protecting member, the side walls having a height higher than the receiving portion, and a plurality of holes being formed in the side walls at positions higher than the receiving portion.