CN110006078B

CN110006078B - Energy-gathering pot support

Info

Publication number: CN110006078B
Application number: CN201810011901.9A
Authority: CN
Inventors: 王帅东
Original assignee: Ningbo Fotile Kitchen Ware Co Ltd
Current assignee: Ningbo Fotile Kitchen Ware Co Ltd
Priority date: 2018-01-05
Filing date: 2018-01-05
Publication date: 2024-01-16
Anticipated expiration: 2038-01-05
Also published as: CN110006078A

Abstract

The utility model relates to an energy-gathering pot support, which comprises a first energy-gathering ring and supporting legs, wherein the inner side edge of the first energy-gathering ring is lower than the outer side edge, connecting seats corresponding to the supporting legs one by one are arranged on the inner side of the first energy-gathering ring at intervals along the circumferential direction, each supporting leg is movably connected with the corresponding connecting seat, the inner side end of each supporting leg is used for supporting a pot, and when the pot is placed on the energy-gathering pot support, the inner side end of each supporting leg is stressed to move towards the inner side edge direction of the first energy-gathering ring and is always clung to the bottom surface of the pot. When the pot is placed on the energy-collecting pot support, the inner side ends of the support legs are stressed to move towards the inner side edge direction of the first energy-collecting ring and are always clung to the bottom surface of the pot, so that the pot support can be simultaneously applied to a pan and a tip pot, when the tip pot is used, the arc-shaped pot bottom of the tip pot presses the inner side ends of the support legs and can sink into the first energy-collecting ring along with the inner side ends, and accidents of a sliding pot can be avoided.

Description

Energy-gathering pot support

Technical Field

The utility model relates to the field of gas cookers, in particular to an energy-gathering pot support.

Background

The energy-collecting pot support is a pot support combining the energy-collecting ring with a common pot support, such as: the Chinese patent with the patent number ZL201720200159.7 (the authorized public number is CN 206600848U) discloses a pot support, which comprises a plurality of support legs, and further comprises a first support ring, a second support ring and a heat insulation pad, wherein the first support ring is formed with a first support ring conical surface part, the second support ring is formed with a second support ring conical surface part, the first support ring and the second support ring are fixedly connected together, the support legs are arranged on the upper surface of the first support ring conical surface part, and the heat insulation pad is positioned between the first support ring conical surface part and the second support ring conical surface part. Another example is a pan support structure disclosed in chinese patent No. ZL 2016048849. X (issued patent No. CN 205783118U), chinese patent No. ZL201320383919.4 (issued patent No. CN 203385050U), and the like.

The existing energy-gathering pot support is only suitable for pans, when a pointed pot is used on the pot support, the pot support and the pointed pot are not matched stably, the risk of sliding the pot exists, and the existing energy-gathering pot support is poor in heat efficiency improving effect.

Disclosure of Invention

The first technical problem to be solved by the utility model is to provide the energy-collecting pot support which is simultaneously applicable to the tip pot aiming at the prior art.

The utility model aims to provide an energy-collecting pot support which has good heat efficiency improving effect and is suitable for a tip pot, aiming at the prior art.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a gather can pot support, includes first energy collection circle and stabilizer blade, and the inboard border that this first energy collection was enclosed is less than outside border, its characterized in that, the inboard that gathers can the circle all be equipped with along circumference interval with above-mentioned stabilizer blade one-to-one connecting seat, each stabilizer blade and corresponding connecting seat swing joint, the inboard end of each stabilizer blade is used for supporting the pan to, when the pan is placed on this energy collection pot support, the inboard end atress of each stabilizer blade moves towards the inboard border direction of first energy collection circle and hugs closely with the bottom surface of pan all the time.

Preferably, the energy accumulating pot support further comprises a second energy accumulating ring, wherein the inner side edge of the second energy accumulating ring is higher than the outer side edge, or the inner side edge of the second energy accumulating ring is equal to the outer side edge in height, and the second energy accumulating ring is arranged on the periphery of the first energy accumulating ring in a surrounding mode; the middle part of each supporting leg is connected with the connecting seat, and the outer side ends of each supporting leg are respectively connected with the second energy gathering ring, and when the inner side ends of each supporting leg are stressed to move towards the inner side edge of the first energy gathering ring, the second energy gathering ring moves upwards. Under the use state, the bottom surface of the pan (especially the circular arc bottom of the pot) presses the inner side end of the support leg, and under the action of the lever principle, the second energy accumulating ring is lifted to move upwards, so that the smoke outlet is reduced, hot smoke is forced to flow through the bottom of the pan through the shape of the flow field, and the heat exchange intensity of the bottom of the pan is increased.

The support leg can be movably connected with the connecting seat in various manners, for example, the support leg is slidably connected with the connecting seat, that is, the connecting seat is a chute, the support leg is a sliding block embedded in the chute, and when the support leg is driven by a driving force, the sliding block can slide along the chute.

Preferably, the outer ends of the support legs are hinged to corresponding positions of the second energy converging rings respectively, so that the support legs can be well transmitted to the second energy converging rings, influence on the inner structure of the pot support in the linkage process of the support legs and the second energy converging rings can be avoided, and the inner structure of the pot support can be stable.

Further, preferably, hinge seats corresponding to the supporting legs one to one are arranged on the second energy accumulating ring along the circumferential interval, hinge holes are respectively formed in the outer side ends of the supporting legs, hinge shafts are respectively arranged on the hinge holes in a penetrating mode and are respectively hinged with the corresponding hinge seats through the hinge shafts, and the hinge holes are kidney-shaped holes extending along the length direction of the supporting legs.

Preferably, the upper part of the second energy collecting ring is propped against the outer wall surface of the first energy collecting ring, and the lower part of the second energy collecting ring and the lower part of the first energy collecting ring are sealed by an annular sealing plate, so that the second energy collecting ring, the first energy collecting ring and the sealing plate enclose a sealed heat insulation space, and in the process that the second energy collecting ring acts along with the supporting legs, the heat insulation space is always kept in a sealed state, and the heat insulation space can play a role in certain heat insulation and heat insulation.

Preferably, the bottom of the first energy collecting ring is provided with a supporting leg for supporting the first energy collecting ring, and the second energy collecting ring can completely shield the supporting leg in the unstressed state of each supporting leg, so that the heat insulation space can be structurally and effectively ensured to be always kept in a closed state in the action process of the second energy collecting ring along with the supporting legs.

Preferably, the inner edge of the first energy collecting ring extends inwards along the circumferential direction to form an energy collecting annular wall, and a mounting hole for embedding the burner of the gas stove is formed in the center of the energy collecting annular wall.

Preferably, the top of the first energy collecting ring is provided with energy collecting fins at intervals along the circumferential direction, wherein the energy collecting fins are used for being in contact with the bottom surface of the pot. When the hot flue gas flows to the first energy collecting ring, the ring body of the first energy collecting ring is inevitably heated, and heat can be collected through the energy collecting fins and transferred to the bottom of the pot.

Preferably, the inner ends of the legs are always higher than the outer ends thereof, so that the stability of the inner structure of the pot support can be ensured in the use state, especially when a pot tip is used.

Compared with the prior art, the utility model has the advantages that: the inner side ends of the supporting legs are movably connected with the first energy collecting ring through the connecting seat, when the cooker is placed on the energy collecting cooker support, the inner side ends of the supporting legs are stressed to move towards the inner side edge direction of the first energy collecting ring and are always clung to the bottom surface of the cooker, so that the cooker support can be simultaneously applied to a pan and a tip cooker, when the tip cooker is used, the arc-shaped bottom of the tip cooker presses the inner side ends of the supporting legs, and the arc-shaped bottom of the tip cooker can sink into the first energy collecting ring along with the inner side ends, thereby avoiding accidents of a sliding cooker.

Drawings

FIG. 1 is a schematic view of a structure of a bracket of an energy accumulating pan in an embodiment of the utility model;

FIG. 2 is an enlarged view of section I of FIG. 1;

FIG. 3 is an exploded view of the energy concentrating pan bracket according to the embodiment of the present utility model;

FIG. 4 is an exploded view of a first energy concentrating ring according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a leg structure according to an embodiment of the present utility model;

fig. 6 is a cross-sectional view of a support for a energy concentrating pan in accordance with an embodiment of the present utility model.

Detailed Description

The utility model is described in further detail below with reference to the embodiments of the drawings.

As shown in fig. 1 to 6, the energy accumulating pot support comprises a first energy accumulating ring 1, a second energy accumulating ring 4 and supporting legs 2, wherein the inner side edge of the first energy accumulating ring 1 is lower than the outer side edge, the second energy accumulating ring 4 is arranged on the periphery of the first energy accumulating ring 1 in a surrounding mode, and the second energy accumulating ring 4 is a vertical annular wall.

The first energy collecting ring 1 comprises an annular top wall 10, the inner side edge of the top wall 10 extends inwards from top to bottom in an inclined manner to form the first energy collecting ring 1, and connecting seats 11 which are in one-to-one correspondence with the supporting legs 2 are arranged on the top wall 10 at intervals. Each supporting leg 2 is movably connected with the corresponding connecting seat 11, the inner side end 21 of each supporting leg 2 is used for supporting a cooker, and when the cooker is placed on the energy-collecting cooker support, the inner side end 21 of each supporting leg 2 is stressed to move towards the inner side edge direction of the first energy-collecting ring 1 and is always clung to the bottom surface of the cooker. The inner ends 21 of the support legs 2 are movably connected with the first energy collecting ring 1 through the connecting seat 11, when the cooker is placed on the energy collecting cooker support, the inner ends 21 of the support legs 2 are stressed to move towards the inner edge direction of the first energy collecting ring 1 and are always clung to the bottom surface of the cooker, so that the cooker support can be simultaneously applied to a pan and a tip cooker, and when the tip cooker is used, the arc-shaped bottom of the tip cooker presses the inner ends 21 of the support legs 2 and can sink into the first energy collecting ring 1 along with the inner ends 21, thereby avoiding accidents of a sliding cooker.

In this embodiment, the connection seat 11 is in a bump shape and is formed by extending the top wall 10 radially inward. The supporting leg 2 is in a rod shape bent upwards, the connecting seat 11 is provided with a connecting channel 110 penetrating inside and outside, the extending wall of the first energy collecting ring 1 is provided with a first opening 14 opposite to the connecting channel 110, the supporting leg 2 is penetrated in the connecting channel 110, and the bent part of the supporting leg 2 is hinged with the corresponding part of the connecting channel 110. Further, a second opening 32 is formed at a corresponding position of the second energy accumulating ring 4, a hinge seat 31 is provided at an outer side of the second opening 32, a hinge hole 221 is provided at an outer side end 22 of the leg 2, a hinge shaft 7 is provided on the hinge hole 221 in a penetrating manner, and the leg 2 is hinged with the hinge seat 31 through the hinge shaft 7. Namely, in the embodiment, the bending part of the support leg 2 is hinged with the first energy collecting ring 1, and the outer side end 22 of the support leg is hinged with the second energy collecting ring 4, so that in the use state, the bottom surface of the pot (especially the arc-shaped pot bottom of the pot) presses the inner side end 21 of the support leg 2, and under the action of the lever principle, the second energy collecting ring 4 is lifted to move upwards, thereby reducing a smoke outlet, forcing hot smoke to flow through the bottom of the pot through the shape of a flow field, and further increasing the heat exchange strength of the pot bottom.

The outer side ends 22 of the supporting legs 2 are hinged to corresponding positions of the second energy converging rings 4 respectively, so that the second energy converging rings 4 can be well transmitted, influence on the inner structure of the pot support in the linkage process of the supporting legs 2 and the second energy converging rings 4 can be avoided, and the inner structure of the pot support is stable. Further, the hinge hole 221 is a kidney-shaped hole extending in the longitudinal direction of the leg 2.

Under the unused state, the upper side edge of the second energy collecting ring 4 is propped against the outer side edge of the first energy collecting ring 1, and the lower side edge of the second energy collecting ring 4 is sealed with the inner side edge of the first energy collecting ring 1 through an annular sealing plate 5, so that the second energy collecting ring 4, the first energy collecting ring 1 and the sealing plate 5 enclose a sealed heat insulation space 8, and in the action process of the second energy collecting ring 4 along with the supporting leg 2, the heat insulation space 8 always keeps a sealed state, and the heat insulation space 8 can play a certain role in heat insulation and heat preservation. In addition, in the unused state, the inner side end 21 of the support leg 2 is in a horizontal state and is in a flush state with the top surface of the connecting seat 11, and the inner side end 21 of the support leg 2 is always higher than the outer side end 22 thereof, so that the stability of the internal structure of the pot support can be ensured in the use state, particularly when a tip pot is used. Further, the bottom of the first energy collecting ring 1 is provided with a supporting leg 13 for supporting the first energy collecting ring 1, and the second energy collecting ring 4 can completely shield the supporting leg 13 in the unstressed state of each supporting leg 2, so that the heat insulation space 8 can be structurally and effectively ensured to be always kept in a closed state in the action process of the second energy collecting ring 4 along with the supporting legs 2.

Furthermore, the inner edge of the first energy collecting ring 1 extends inward in the circumferential direction to form an energy collecting annular wall 14, and a mounting hole 10 for the burner of the gas stove to be embedded is formed at the center of the energy collecting annular wall 14. Preferably, the top of the first energy collecting ring 1 is provided with energy collecting fins 12 which are used for contacting with the bottom surface of the pot at intervals along the circumferential direction. When the hot flue gas flows to the first energy collecting ring 1, the ring body of the first energy collecting ring 1 is inevitably heated, and heat can be collected through the energy collecting fins 12 and transferred to the bottom of the pot.

Claims

1. The energy-collecting pot bracket comprises a first energy-collecting ring (1) and supporting legs (2), wherein the inner side edge of the first energy-collecting ring (1) is lower than the outer side edge, and is characterized in that,

the inner side of the first energy gathering ring (1) is provided with connecting seats (11) corresponding to the supporting feet (2) one by one along the circumferential interval, each supporting foot (2) is movably connected with the corresponding connecting seat (11), the inner side end (21) of each supporting foot (2) is used for supporting a cooker, and when the cooker is placed on the energy gathering cooker support, the inner side end (21) of each supporting foot (2) is stressed to move towards the inner side edge direction of the first energy gathering ring (1) and can be always clung to the bottom surface of the cooker.

2. The energy accumulating pot support according to claim 1, further comprising a second energy accumulating ring (4), wherein the inner side edge of the second energy accumulating ring (4) is higher than the outer side edge, or the inner side edge of the second energy accumulating ring is equal to the outer side edge, and the second energy accumulating ring (4) is arranged around the periphery of the first energy accumulating ring (1);

the middle part of each supporting leg (2) is connected with the connecting seat (11), and the outer side ends (22) of each supporting leg (2) are respectively connected with the second energy gathering ring (4), and when the inner side ends (21) of each supporting leg (2) are stressed to move towards the inner side edge direction of the first energy gathering ring (1), the second energy gathering ring (4) moves upwards.

3. Energy concentrating pan support according to claim 2, characterized in that the middle part of each leg (2) is hinged with the corresponding connection seat (11).

4. A support as claimed in claim 3, characterized in that the outer end (22) of each leg (2) is hinged in correspondence of the second energy accumulating ring (4).

5. The energy-gathering pot support as claimed in claim 4, wherein hinge seats (31) corresponding to the supporting legs (2) one by one are respectively arranged on the second energy gathering ring (4) along the circumferential interval, hinge holes (221) are respectively formed in the outer side ends (22) of the supporting legs (2), hinge shafts (7) are respectively arranged on the hinge holes (221) in a penetrating mode, the hinge shafts (7) are respectively hinged with the corresponding hinge seats (31), and the hinge holes (221) are kidney-shaped holes extending along the length direction of the supporting legs (2).

6. The energy accumulating pot support according to any one of claims 2-5, characterized in that the upper part of the second energy accumulating ring (4) is abutted against the outer wall surface of the first energy accumulating ring (1), and the lower part of the second energy accumulating ring (4) and the lower part of the first energy accumulating ring (1) are sealed by an annular sealing plate (5), so that the second energy accumulating ring (4), the first energy accumulating ring (1) and the sealing plate (5) enclose a sealed heat insulating space (8), and the heat insulating space (8) is kept in a sealed state all the time during the action of the second energy accumulating ring (4) along with the support leg (2).

7. A support for a solar energy collecting pot according to claim 6, characterized in that the bottom of the first solar energy collecting ring (1) is provided with a supporting foot (13) for supporting the first solar energy collecting ring (1), and that the second solar energy collecting ring (4) can completely shield the supporting foot (13) in the unstressed state of each leg (2).

8. The energy accumulating pan support according to any of claims 1 to 5, characterized in that the inner edge of the first energy accumulating ring (1) extends inwards along the circumferential direction to form an energy accumulating annular wall (14), and a mounting hole (10) for embedding a burner of a gas stove is formed in the center of the energy accumulating annular wall (14).

9. The energy accumulating pot support according to any one of claims 1 to 5, characterized in that the top of the first energy accumulating ring (1) is provided with energy accumulating fins (12) which can be contacted with the bottom surface of the pot at intervals along the circumferential direction.

10. A support for a solar energy collecting pan according to any one of claims 1-5, characterised in that the inner end (21) of the foot (2) is always higher than the outer end (22) thereof.