CN220379762U - Energy collecting ring, pot support and kitchen range - Google Patents

Abstract

The utility model provides an energy collecting ring, a pot support and a stove, and belongs to the technical field of stoves. The energy collecting ring comprises an annular cover body, a bottom and at least one partition part; the cover body is connected above the bottom, and an energy collecting cavity is formed between the cover body and the bottom; the partition part is positioned in the energy collecting cavity and extends along the up-down direction so that the energy collecting cavity forms a plurality of different heat insulation areas in the radial direction. By arranging the separation part in the cover body of the energy collecting ring, different heat insulation areas can be formed in the radial direction in the cover body, the radial outward diffusion of heat is reduced, and the heat insulation effect is improved; meanwhile, as the heat insulation area is arranged in the cover body, the dirty overflow liquid only remains on the outer surface of the cover body, so that dead angles are not easy to form, and only the outer surface of the cover body is required to be cleaned during cleaning, so that the operation is convenient.

Description

Energy collecting ring, pot support and kitchen range

Technical Field

The utility model relates to the technical field of cookers, in particular to an energy collecting ring, a pot support and a cooker.

Background

In order to improve the heat exchange efficiency of the cooker, an energy collecting ring can be arranged on the periphery of the burner of the cooker, when the cooker needs to be heated, the cooker is arranged above the energy collecting ring, and the flue gas generated by the burner is collected in the energy collecting ring, so that the heat dissipation is reduced, and the heat exchange efficiency between the flue gas and the bottom of the cooker can be improved.

In order to further enhance the heat insulation effect of the energy collecting ring, the energy collecting ring on the market at present often adopts a multi-layer stacked mode to reduce the radial outward diffusion of heat. However, the form of the energy accumulating rings stacked layer by layer is very easy to accumulate dirt and very inconvenient to clean.

Disclosure of Invention

The utility model aims to overcome the defect that an energy collecting ring is difficult to clean in the prior art, and provides the energy collecting ring, a pot support and a cooker which are convenient to clean while improving the heat insulation effect.

The utility model solves the technical problems by the following technical scheme:

an energy concentrating ring comprising an annular housing, a bottom and at least one partition; the cover body is connected above the bottom, and an energy collecting cavity is formed between the cover body and the bottom; the partition part is positioned in the energy collecting cavity, and extends along the up-down direction, so that the energy collecting cavity forms a plurality of different heat insulation areas in the radial direction.

In the scheme, the separation part is arranged in the cover body, so that different heat insulation areas can be formed in the radial direction in the cover body, the radial outward diffusion of heat is reduced, and the heat insulation effect is improved; meanwhile, as the heat insulation area is arranged in the cover body, the dirty overflow liquid only remains on the outer surface of the cover body, so that dead angles are not easy to form, and only the outer surface of the cover body is required to be cleaned during cleaning, so that the operation is convenient.

Preferably, the cover is detachably connected to the base.

In this scheme, through above-mentioned structural style, can dismantle the cover body and come alone to wash, it is more convenient.

Preferably, a plurality of clamping grooves are formed in one side, facing the cover body, of the bottom, a plurality of protrusions corresponding to the clamping grooves are formed in one side, facing the bottom, of the separation part, and the protrusions are clamped in the clamping grooves.

In this scheme, through seting up the draw-in groove on the bottom, set up the arch on the partition portion, make partition portion and bottom link together through the joint of protruding and draw-in groove, do not interfere the dismantlement of the cover body.

Preferably, the partition is a spacer ring extending in a circumferential direction of the energy collecting cavity, so that at least two heat insulation areas are formed in the energy collecting cavity in a radial direction.

In the scheme, the separation part forms a closed annular separation ring, so that a heat insulation area sleeved by the ring is formed in the energy collecting cavity along the radial direction, and the effect of reducing the radial outward diffusion of heat is further enhanced; in addition, the form structure of the separating ring is simple, and the separating ring is convenient to manufacture and install.

Preferably, the number of the separation rings is one, and the longitudinal section of the cover body is in an inverted V shape.

In the scheme, the number of the separation rings is one, so that two sleeved heat insulation areas are formed in the energy accumulation cavity in the radial direction, and the balance of reducing the radial outward diffusion of heat and reducing the material cost is realized; in addition, because the spacer ring is only one, compare with the longitudinal section setting of the cover body to the shape of falling U, set up the longitudinal section of the cover body to the shape of falling V can reduce the materials of the cover body, and the shape of falling V makes the surface of the cover body form the slope moreover, and dirty overflow is difficult for piling up, more convenient washing.

Preferably, the number of the separating rings is at least two, and a plurality of separating rings are arranged at intervals along the radial direction of the energy collecting cavity, so that at least three heat insulation areas are formed in the radial direction in the energy collecting cavity; the longitudinal section of the cover body is in an inverted U shape.

In the scheme, the quantity of the separation rings is increased, so that a larger quantity of heat insulation areas are formed in the energy accumulation cavity in the radial direction, and the heat insulation effect is improved; when the number of the separating rings is increased, the longitudinal section of the cover body is arranged into an inverted U shape, so that the energy collecting cavity formed in the cover body can accommodate a plurality of separating rings without increasing the height of the cover body, and the inner surface of the cover body is not interfered with the separating rings.

The pot support comprises the energy collecting ring and a plurality of foot pieces extending in the up-down direction, one ends of the foot pieces are connected with the bottom, and the other ends of the foot pieces extend to the upper side of the cover body.

In the scheme, the pot can be placed on the foot piece by arranging the foot piece extending to the upper side of the cover body, so that the pot is prevented from directly contacting with the cover body to damage the cover body.

Preferably, a plurality of the leg pieces are arranged along a circumferential direction of a radially inner side of the cover body; the surface of the radial inner side of the cover body is provided with a plurality of abdication grooves so as to avoid the foot piece.

In the scheme, the foot pieces are arranged on the radial inner side of the cover body, so that the diameter of a supporting ring formed between the foot pieces is reduced, and the energy collecting ring can be suitable for cookers with smaller diameters; the surface of the radial inner side of the cover body is provided with the abdication groove, so that the foot piece is prevented from interfering with the cover body, the structure of the foot piece is not required to be further adjusted, and the batch production of the foot piece is facilitated.

A cooktop comprising a pot support as described above.

In the scheme, the pot support is arranged at the periphery of the burner of the cooker, and the heat exchange efficiency of the cooker is improved by virtue of the heat insulation effect of the energy collecting ring.

Preferably, the cooker further comprises a liquid containing disc, wherein the liquid containing disc is located below the pot support, and projections of the cover body on the liquid containing disc are located in the liquid containing disc.

In this scheme, through setting up flourishing liquid dish, the overflow liquid of splash on the cover body can take advantage of the situation landing on flourishing liquid dish, avoids the inner structure of stained cooking utensils, and the user of being convenient for unified cleanness.

The utility model has the positive progress effects that:

according to the energy-collecting ring, the separation part is arranged in the cover body of the energy-collecting ring, so that different heat insulation areas can be formed in the radial direction in the cover body, the radial outward diffusion of heat is reduced, and the heat insulation effect is improved; meanwhile, as the heat insulation area is arranged in the cover body, the dirty overflow liquid only remains on the outer surface of the cover body, so that dead angles are not easy to form, and only the outer surface of the cover body is required to be cleaned during cleaning, so that the operation is convenient.

Drawings

Fig. 1 is a schematic view of a part of a three-dimensional structure of a kitchen range according to embodiment 1 of the present utility model.

Fig. 2 is a schematic perspective view of a pan support according to embodiment 1 of the present utility model.

Fig. 3 is another perspective view of the pan support of embodiment 1 of the present utility model.

Fig. 4 is a schematic perspective view of the spacer ring and the bottom in the energy concentrating ring according to embodiment 1 of the present utility model.

Fig. 5 is a schematic cross-sectional view of a focusing ring according to embodiment 1 of the present utility model.

Fig. 6 is a schematic perspective view of a pan support according to embodiment 2 of the present utility model.

Fig. 7 is a schematic cross-sectional view of a focusing ring according to embodiment 2 of the present utility model.

Reference numerals illustrate:

burner 100

Pot support 200

Foot piece 201

Energy collection ring 202

Cover 210

Yield groove 211

Bottom 220

Card slot 221

Spacer ring 230

Projections 231

Energy concentrating cavity 240

Insulation region 250

Liquid tray 300

Detailed Description

The present utility model will now be more fully described by way of examples with reference to the accompanying drawings.

Example 1

As shown in fig. 1, the present embodiment provides a cooking appliance including a burner 100 and a pot holder 200, the pot holder 200 being disposed at the periphery of the burner 100.

As shown in fig. 2 and 3, the pot holder 200 includes an energy collecting ring 202 and a plurality of leg pieces 201 extending in the up-down direction.

As shown in fig. 2-5, the energy concentrating ring 202 includes an annular housing 210, a bottom 220, and at least one divider; wherein, the cover 210 is connected to the upper portion of the bottom 220, and an energy collecting cavity 240 is formed between the cover 210 and the bottom 220; the partitions are located within the energy concentrating cavity 240, and the partitions extend in an up-down direction so that the energy concentrating cavity 240 forms a plurality of different insulating regions 250 in a radial direction.

Thus, when the burner 100 burns, the generated heat is blocked by the energy collecting ring 202, and by arranging the partition part in the cover body 210, different heat insulation areas 250 can be formed in the radial direction of the cover body 210, so that the radial outward diffusion of the heat is reduced, and the heat insulation effect is improved; meanwhile, as the heat insulation area 250 is arranged in the cover body 210, the dirty overflow liquid only remains on the outer surface of the cover body 210, so that dead angles are not easy to form, and only the outer surface of the cover body 210 is required to be cleaned during cleaning, so that the operation is convenient.

Specifically, the partition is a spacer ring 230, and the spacer ring 230 extends along the circumferential direction of the energy collecting cavity 240, so that at least two heat insulation areas 250 are formed in the radial direction in the energy collecting cavity 240.

The partition forms a closed annular separation ring 230, so that a heat insulation area 250 sleeved by the ring is formed in the energy collecting cavity 240 along the radial direction, and the effect of reducing the radial outward diffusion of heat is further enhanced; in addition, the spacer ring 230 is simple in form and structure and convenient to manufacture and install.

In other alternative embodiments, the partition may be comprised of a plurality of separate plates that are not connected to each other, such that the space within the energy concentrating cavity 240 forms separate insulating regions 250 in the radial direction, and the insulating regions 250 do not have to be completely separated.

In this embodiment, the number of spacer rings 230 is one, and the longitudinal section of the cover 210 is inverted V-shaped.

Through the structure, two sleeved heat insulation areas 250 are formed in the energy collection cavity 240 in the radial direction, so that balance of reducing heat from diffusing outwards in the radial direction and reducing material cost is realized; in addition, since there is only one spacer ring 230, compared with the case 210 with the inverted U-shaped longitudinal section, the case 210 with the inverted V-shaped longitudinal section can reduce the material consumption of the case 210, and the inverted V-shaped shape forms a slope on the surface of the case 210, so that dirt and overflow is not easy to accumulate, and cleaning is more convenient.

It should be noted that, the "inverted V-shape" in the present embodiment is not limited to the shape that the top of the longitudinal section of the cover 210 forms an absolute tip, but refers to the shape that the longitudinal section of the cover 210 is narrow in top and wide in bottom, and the radially inner surface and the radially outer surface of the cover 210 are close to each other on the side far from the bottom 220, so that the rounded ends formed with radians are attached between the surfaces on both sides, or the connection section formed with a certain width is the "inverted V-shape" in the present embodiment.

In other alternative embodiments, the longitudinal section of the cover 210 may be configured as an inverted U, so as to reduce the material cost and control the width of the cover 210.

Further, the cover 210 is detachably connected to the bottom 220. Therefore, the cover body 210 can be separated from the bottom 220 and detached for cleaning independently, which is more convenient.

In this embodiment, the bottom 220 is an annular bottom plate, and since the longitudinal section of the cover 210 is in an inverted V shape, that is, the top is narrow and the bottom is wide, the bottom plate can be clamped in the cover 210 by setting the width of the bottom plate to a proper size, so that the detachable connection between the cover 210 and the bottom 220 can be realized without other connecting pieces; to facilitate the separation of the bottom 220 from the cover 210, a handle may be provided at the bottom 220, so that the handle may be held, the bottom 220 may be fixed, and an external force may be applied to the cover 210 away from the bottom 220 to separate the two. In alternative embodiments, other removable connections, such as threaded connections, may be used between the cover 210 and the base 220.

Further, a plurality of clamping grooves 221 are formed on a side of the bottom 220 facing the cover 210, a plurality of protrusions 231 corresponding to the clamping grooves 221 are formed on a side of the partition portion facing the bottom 220, and the protrusions 231 are clamped in the clamping grooves 221.

Thus, the partition is connected to the bottom 220 by the engagement of the projection 231 with the engagement groove 221, and the cover 210 is not interfered with the removal.

Further, in the pan support 200, one end of the leg piece 201 is connected to the bottom 220 of the energy collecting ring 202, and the other end of the leg piece 201 extends above the cover 210.

By providing the leg piece 201 extending above the cover 210, the pot can be placed on the leg piece 201, so that the pot is prevented from directly contacting the cover 210 and damaging the cover 210.

In order to connect the foot piece 201 with the bottom 220, in this embodiment, grooves extending along the radial direction of the energy collecting ring 202 are selectively provided on the foot piece 201, so that the foot piece 201 is clamped on the bottom 220 through the grooves; in alternative embodiments, other connections between foot 201 and base 220 may be made by threading, bonding, etc.

Specifically, the plurality of leg pieces 201 are arranged along the circumferential direction of the radially inner side of the cover 210; the radially inner surface of the cover 210 is provided with a plurality of relief grooves 211 to avoid the foot piece 201.

The foot pieces 201 are arranged on the radial inner side of the cover body 210, so that the diameter of a supporting ring formed between the foot pieces 201 is reduced, and the pot support 200 can be suitable for a pot with smaller diameter; the surface of the radial inner side of the cover 210 is provided with the abdication groove 211, so that the interference between the foot piece 201 and the cover 210 is avoided, the structure of the foot piece 201 is not required to be further adjusted, and the batch production of the foot piece 201 is facilitated.

In this embodiment, the number of the leg pieces 201 is four, and the leg pieces 201 are uniformly distributed on the radially inner surface of the cover 210, and in other alternative embodiments, the number of the leg pieces 201 and the distance between them can be properly adjusted according to the bearing requirements. Furthermore, in alternative embodiments, the fins 201 may also be circumferentially disposed along the radially outer side of the cover 210 to expand the diameter of the support ring formed between the fins 201, so that the pan support 200 is adapted to a larger diameter pan and provides more stable support for a larger diameter pan.

Further, the kitchen range further comprises a liquid containing disc 300, the liquid containing disc 300 is located below the pot support 200, and projections of the cover body 210 on the liquid containing disc 300 are located in the liquid containing disc 300.

By arranging the liquid containing disc 300, the spilled liquid splashed on the cover body 210 can slide on the liquid containing disc 300 in a proper direction, so that the internal structure of the kitchen range is prevented from being polluted, and the kitchen range is convenient for a user to clean uniformly.

In the embodiment, the liquid tray 300 is placed on the panel of the kitchen range, and can be lifted from the panel for cleaning; the upper surface of the liquid containing disc 300 is provided with a limit groove, and the foot piece 201 of the pan bracket 200 is abutted in the limit groove, so that the pan bracket 200 is not easy to move.

Example 2

As shown in fig. 6 and 7, the present embodiment provides a stove, which has the same basic structure as the stove in embodiment 1, except that:

the number of the separating rings 230 is at least two, and the plurality of separating rings 230 are arranged at intervals along the radial direction of the energy collecting cavity 240, so that at least three heat insulation areas 250 are formed in the radial direction in the energy collecting cavity 240; the longitudinal cross section of the cover 210 is inverted U-shaped.

By increasing the number of spacer rings 230, a greater number of insulating regions 250 are formed in the radial direction within the energy concentrating cavity 240, enhancing the insulating effect; when the number of spacer rings 230 is increased, the provision of the cover 210 in an inverted U-shape in longitudinal section enables the energy concentrating cavity 240 formed in the cover 210 to accommodate the lower plurality of spacer rings 230 without increasing the height of the cover 210, and the inner surface of the cover 210 does not interfere with the spacer rings 230.

In this embodiment, the number of spacer rings 230 is two, so that three layers of insulating regions 250 are formed in the radial direction in the energy collecting chamber 240. In other alternative embodiments, the spacer ring 230 may be selected in other numbers depending on the need for an insulating effect.

In addition, the longitudinal section of the cover 210 may be provided in a trapezoid or other shape.

In the description of the present utility model, it should be understood that the terms "upper", "lower", "radial", "longitudinal", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate an azimuth or positional relationship based on a conventional positional relationship when the cooktop and pot support are mounted, put in a conventional manner of use.

While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and the scope of the utility model is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the principles and spirit of the utility model, but such changes and modifications fall within the scope of the utility model.

Claims (10)

1. An energy concentrating ring, characterized in that it comprises an annular cover, a bottom and at least one partition;

the cover body is connected above the bottom, and an energy collecting cavity is formed between the cover body and the bottom;

the partition part is positioned in the energy collecting cavity, and extends along the up-down direction, so that the energy collecting cavity forms a plurality of different heat insulation areas in the radial direction.

2. The energy concentrating ring of claim 1 wherein said housing is removably connected to said base.

3. The energy collecting ring as claimed in claim 2, wherein a plurality of clamping grooves are formed in one side of the bottom facing the cover body, a plurality of protrusions corresponding to the clamping grooves are formed in one side of the separation part facing the bottom, and the protrusions are clamped in the clamping grooves.

4. The energy concentrating ring of claim 1 wherein the divider is a spacer ring extending in a circumferential direction of the energy concentrating cavity such that at least two thermally insulating regions are formed in a radial direction within the energy concentrating cavity.

5. The energy concentrating ring of claim 4 wherein said spacer ring is one in number and said housing has an inverted V-shaped longitudinal cross-section.

6. The energy concentrating ring of claim 4 wherein the number of spacer rings is at least two and a plurality of spacer rings are spaced apart along the radial direction of the energy concentrating cavity such that at least three thermally isolated regions are formed within the energy concentrating cavity in the radial direction;

the longitudinal section of the cover body is in an inverted U shape.

7. A pan support, characterized in that it comprises the energy collecting ring as claimed in any one of claims 1-6 and a plurality of foot pieces extending in the up-down direction, one end of each foot piece is connected with the bottom, and the other end of each foot piece extends above the cover.

8. The pan support according to claim 7, wherein a plurality of the leg pieces are arranged along a circumferential direction of a radially inner side of the cover body;

the surface of the radial inner side of the cover body is provided with a plurality of abdication grooves so as to avoid the foot piece.

9. A hob, characterized in, that it comprises a pot support according to any one of the claims 7 or 8.

10. The cooktop of claim 9, further comprising a liquid tray located below the pan support, wherein projections of the hood onto the liquid tray are located within the liquid tray.