CN221424928U

CN221424928U - Energy collecting disc and kitchen range

Info

Publication number: CN221424928U
Application number: CN202323115201.XU
Authority: CN
Inventors: 唐松茂; 纪会宾; 张书凯; 钟婷婷; 胡浩; 吴贤焘
Original assignee: Marssenger Kitchenware Co Ltd
Current assignee: Marssenger Kitchenware Co Ltd
Priority date: 2023-11-17
Filing date: 2023-11-17
Publication date: 2024-07-26
Anticipated expiration: 2033-11-17

Abstract

The utility model discloses an energy-gathering disc and a kitchen range, which comprise an inner disc and an outer disc, wherein the outer disc is positioned at the outer periphery side of the inner disc, the inner disc is provided with an inner ring furnace lug, and the outer disc is provided with an outer ring furnace lug; the lower part of outer dish is provided with elevation structure, elevation structure is used for making outer ring stove ear on outer dish upper portion possess the ability that the self-adaptation was close to the bottom of a boiler or butt bottom of a boiler in the direction of height that gathers the ability dish, elevation structure includes the first guide piece that supports in outer dish and the second guide piece that first guide piece was followed to gather ability dish direction of height sliding connection. The utility model provides an energy collecting disc and a stove which can be adapted to cookware in different forms and can improve the heat efficiency.

Description

Energy collecting disc and kitchen range

Technical Field

The utility model relates to the technical field of stoves, in particular to an energy collecting disc and a stove.

Background

In order to improve the heat efficiency, the prior kitchen range can isolate secondary air required by the kitchen range burner during combustion and high-temperature smoke generated during combustion through the energy collecting disc, so that the mutual influence is avoided, and the burner is enabled to burn more fully.

The existing energy-collecting tray is generally welded with the furnace lugs together in a fixed mode, the height of the energy-collecting tray is fixed, the shapes of cookware used by users are various, such as a pan and a pointed bottom frying pan, the high-fixed energy-collecting tray is difficult to be suitable for cookware with two different shapes, and the heat efficiency is reduced.

Disclosure of utility model

In a first aspect, the utility model provides an energy collecting disc which can be adapted to cookware in at least two forms, and heat efficiency is improved.

In order to achieve the above purpose, the utility model discloses an energy collecting disc, which comprises an inner disc and an outer disc, wherein the outer disc is positioned on the outer periphery side of the inner disc, the inner disc is provided with an inner ring furnace lug, and the outer disc is provided with an outer ring furnace lug; the lower part of outer dish is provided with elevation structure, elevation structure is used for making outer ring stove ear on outer dish upper portion possess the ability that the adaptation was close to the bottom of a boiler or butt bottom of a boiler in the direction of height that gathers the energy dish, elevation structure includes the first guide that supports outer dish, and the second guide that first guide followed the direction sliding connection that gathers energy dish direction of height.

Optionally, the lifting structure comprises an elastic member with deformation capability, one end of the elastic member is abutted against the first guide member, and the other end of the elastic member is abutted against the second guide member; in the natural state of the elastic piece, at least part of the outer ring furnace lug is higher than the top of the inner ring furnace lug in the height direction of the energy collecting disc.

Optionally, one of the first guide and the second guide comprises a slide bar, and the other comprises a slide rail with a slide groove, and a part of the slide bar extends into the slide groove and slides in the slide groove.

Optionally, the outside of slide bar is located to the elastic component cover, the slide rail is provided with the first spacing portion that is used for with elastic component one end butt in the opening part of spout, the slide bar is provided with the second spacing portion that is used for with elastic component other end butt in the one end department that stretches out the spout.

Optionally, a sleeve is arranged outside the elastic piece, and the sleeve is connected to one of the sliding rod or the sliding rail and is in sliding connection with the other.

Optionally, the edge of the inner disk is provided with a guide part extending along the height direction of the energy collecting disk, and the outer peripheral wall of the guide part is attached to the inner peripheral wall of the outer disk or a gap is formed between the outer peripheral wall of the guide part and the inner peripheral wall of the outer disk.

Optionally, the energy collecting disc further comprises a base, a central hole for penetrating through the stove burner is formed in the center of the base, the inner disc is supported on the base, and an energy collecting cavity is formed between the base and the inner disc.

Optionally, the base is provided with a positioning part, and one end of the second guide piece far away from the first guide piece is inserted into the positioning part.

Optionally, the outer ring furnace lug comprises a vertical supporting part connected to the outer disc and extending upwards out of the top of the outer disc, and a transverse supporting part extending at least partially towards the inner side of the outer disc.

In a second aspect, the utility model provides a stove which can be suitable for cookers in at least two different forms and improves the thermal efficiency.

A stove comprises a burner and the energy collecting disc disclosed in the technical scheme, wherein the energy collecting disc is arranged on the outer periphery side of the burner.

Compared with the prior art, the utility model has the beneficial effects that: the lifting structure is utilized, so that the height of the outer ring furnace lugs of the outer disc can be changed, the pot can be suitable for cookers in different forms, and the heat efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of an energy concentrating disc of the present disclosure;

FIG. 2 is a cross-sectional view of the disclosed energy concentrating disk;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a cross-sectional view of one of the use conditions of the disclosed energy harvesting disc;

FIG. 5 is a cross-sectional view of another use of the disclosed energy concentrating disk;

FIG. 6 is a schematic structural view of the presently disclosed cooktop.

Reference numerals illustrate: 1. an inner disk; 10. an inner ring furnace ear; 101. a vertical portion; 102. a horizontal portion; 11. an inner buckle part; 12. a guide section; 13. an inner ring edge; 14. an outer ring edge; 2. an outer disk; 20. an outer ring furnace ear; 201. a vertical support portion; 202. a lateral support portion; 3. a base; 31. a positioning part; 41. a first guide; 411. a slide bar; 4110. a second limit part; 42. a second guide; 421. a slide rail; 4210. a chute; 4211. a first limit part; 43. an elastic member; 44. a sleeve; 5. energy-gathering cavity; 6. a burner.

Detailed Description

The embodiment of the application discloses an energy collecting disc.

Referring to fig. 1, an energy collecting disc comprises an inner disc 1, an outer disc 2 and a base 3, wherein the outer disc 2 is positioned on the outer periphery side of the inner disc 1, the inner disc 1 is provided with an inner ring furnace lug 10, and the outer disc 2 is provided with an outer ring furnace lug 20. The lower part of the outer disc 2 is provided with a lifting structure which is used for enabling the outer ring furnace lugs 20 at the upper part of the outer disc 2 to have the self-adaptive capacity of approaching or abutting against the bottom of the pot in the height direction of the energy collecting disc.

Referring to fig. 1 and 2, the base 3 is in a ring shape, the bottom of the base 3 is a plane which can be placed on a kitchen range, a central hole for the kitchen range burner 6 to pass through is formed in the center of the base 3, a concave groove which is concave downwards is formed in the top of the base 3, the groove enables the upper surface of the base 3 to form an inner ring edge 13 and an outer ring edge 14, and the height of the outer ring edge 14 is higher than that of the inner ring edge 13.

The inner disc 1 is located above the base 3, the inner disc 1 is annular and has a certain width in the radial direction of the base 3, an inner buckling part 11 extending downwards along the height direction of the energy collecting disc is integrally formed at the inner ring edge of the inner disc 1, and a guiding part 12 extending downwards along the height direction of the energy collecting disc is integrally formed at the outer ring edge of the inner disc 1. The inner fastening portion 11 is located inside the inner circumferential rim 13, and the guide portion 12 is located outside the outer circumferential rim 14. In order to better improve the heat efficiency, the outer peripheral wall of the guide portion 12 is attached to the inner peripheral wall of the outer disk 2 or a gap is provided between the outer peripheral wall of the guide portion 12 and the inner peripheral wall of the outer disk 2.

The inner disc 1 is inclined at a portion between the guide portion 12 and the inner fastening portion 11. The height between the surface of the inner tray 1 and the bottom surface of the base 3 gradually decreases from the guide portion 12 to the inner fastening portion 11, and an energy collecting cavity 5 is formed between the bottom of the inner tray 1 and the groove.

The inner ring lugs 10 are provided in plurality and are uniformly distributed on the upper surface of the inclined portion of the inner disc 1 in the circumferential direction of the inner disc 1. The inner ring furnace ear 10 includes a vertical portion 101 extending in the height direction of the energy collecting tray, and a horizontal portion 102 extending perpendicular to the top end of the vertical portion 101 and toward the center direction of the base 3.

The outer disc 2 is arranged around the circumference of the inner disc 1, the outer disc 2 extending in the height direction of the energy collecting disc.

The lifting structure comprises a first guide piece 41 for supporting the bottom of the outer disc 2, a second guide piece 42 which is connected with the first guide piece 41 in a sliding way along the height direction of the energy collecting disc, and an elastic piece 43, one end of which is abutted against the first guide piece 41, and the other end of which is abutted against the second guide piece 42. The outer disc 2 may abut against the first guide member 41, or may be connected to the first guide member 41 to support the outer disc 2.

In other embodiments, the sliding direction of the first guide 41 is not completely parallel to the central axis of the base 3, as long as it has a component in the height direction of the energy collecting tray, which may be referred to as sliding in the height direction of the energy collecting tray.

In this embodiment, the first guide member 41 comprises a sliding bar 411 parallel to the height direction of the energy collecting tray, and the second guide member 42 comprises a sliding rail 421 having a sliding groove 4210. The top end of the sliding rod 411 is connected or abutted to the bottom of the outer disc 2, and the sliding rail 421 is connected or abutted to the base 3. In other embodiments, the sliding rod 411 may be connected to or abutted against the base 3, and the sliding rail 421 is connected to or abutted against the bottom of the outer disc 2.

The sliding groove 4210 in the sliding rail 421 is opened along the height direction of the energy collecting disc, and a part of the sliding rod 411 extends into the sliding groove 4210 and slides in the sliding groove 4210.

Referring to fig. 2 and 3, in the present embodiment, the elastic member 43 is a spring, the elastic member 43 is vertically disposed, the elastic member 43 is sleeved outside the sliding rod 411, the sliding rail 421 is provided with a first limiting portion 4211 at an opening of the sliding slot 4210 for abutting against a bottom end of the elastic member 43, and the sliding rod 411 is provided with a second limiting portion 4110 at a top end extending out of the sliding slot 4210 for abutting against a top end of the elastic member 43. In other embodiments, the elastic member 43 may be made of other elastic materials such as rubber.

In order to protect the elastic member 43, a sleeve 44 is disposed outside the elastic member 43, and the sleeve 44 is connected to one of the slide bar 411 and the slide rail 421 and slidably connected to the other. In this embodiment, the sleeve 44 is integrally formed on the sliding rod 411, and the inner diameter of the sleeve 44 is larger than the diameter of the sliding rod 411, the sleeve 44 extends to the sliding rail 421 along the height direction of the energy collecting disc, and the bottom opening of the sleeve 44 is located below the first limiting portion 4211, and the sleeve 44 is in sliding fit with the outer sidewall of the sliding rail 421.

The lifting structure is uniformly provided with a plurality of groups along the circumferential direction of the base 3, the base 3 is provided with a positioning part 31, and one end, far away from the first guide piece 41, of the second guide piece 42 is spliced in the positioning part 31. In this embodiment, the positioning portions 31 are integrally formed at the peripheral edge of the base 3 and extend along the radial direction of the base 3, and each positioning portion 31 is provided with a positioning hole for inserting the sliding rail 421.

In order to discharge smoke when a pan with a diameter smaller than the inner diameter of the outer pan 2 is placed, the outer-ring furnace lugs 20 are uniformly provided in plurality along the circumferential direction of the outer pan 2, and the outer-ring furnace lugs 20 comprise vertical supporting parts 201 connected to the outer pan 2 and extending upwards out of the top of the outer pan 2 and transverse supporting parts 202 extending at least partially towards the inner side of the outer pan 2. In this embodiment, the vertical supporting portion 201 is integrally formed on the top surface of the outer disc 2, and the lateral supporting portion 202 and the vertical supporting portion 201 are vertically disposed. One end of the lateral support 202 remote from the vertical support 201 is closer to the center of the base 3 with respect to the inner wall of the outer disc 2. A certain smoke discharging gap can be reserved between the inner wall of the outer disc 2 and the outer wall of the pan. In other embodiments, the vertical support 201 and the lateral support 202 may be separately and independently disposed, and when a pan with a larger diameter is used, the bottom of the pan may be directly erected on the top of the vertical support 201 or on the top of the lateral support 202.

In this embodiment, referring to fig. 2, when the pointed frying pan is used, the bottom of the pointed frying pan is erected at the top of the inner ring stove ear 10, at this time, the outer plate 2 is stabilized at the highest height under the elastic action of the elastic element 43, so that the top of the outer plate 2 can be close to the bottom of the pointed frying pan or the outer ring stove ear 20 can be abutted to the bottom of the pointed frying pan, thereby reducing heat energy dissipation and improving heat efficiency. Referring to fig. 4, when a pan having a diameter smaller than the vertical distance between the lateral support 202 and the central axis of the base 3 is used, the bottom of the pan is erected on the inner ring lugs 10, and at this time, a smoke discharge gap is left between the inner wall of the outer pan 2 and the outer wall of the pan due to the presence of the lateral support 202. Referring to fig. 5, when using a pan having a diameter greater than the vertical distance between the lateral support 202 and the central axis of the base 3, the bottom of the pan is first placed on top of the outer rim lugs 20, gradually forcing the outer rim 2 downward, retracting the portion of the slide bar 411 into the slide groove 4210 until the top of the lateral support 202 and the top of the inner rim lugs 10 are kept at the same height, or until the elastic member 43 is compressed to a minimum state, the pan is finally stabilized and the dissipation of heat energy can be reduced.

The embodiment of the application also discloses a kitchen range, which comprises a burner 6 and the energy collecting disc disclosed in the embodiment, wherein the energy collecting disc is arranged on the outer peripheral side of the burner 6, and the central hole of the base 3 penetrates through the burner 6.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims

1. The energy collecting disc is characterized by comprising an inner disc (1) and an outer disc (2), wherein the outer disc (2) is positioned on the outer periphery side of the inner disc (1), the inner disc (1) is provided with an inner ring furnace lug (10), and the outer disc (2) is provided with an outer ring furnace lug (20); the lower part of outer dish (2) is provided with elevation structure, elevation structure is used for making outer ring stove ear (20) on outer dish (2) upper portion possess the ability of self-adaptation near the bottom of a boiler or butt bottom of a boiler in the direction of height that gathers the energy dish, elevation structure includes first guide (41) that support outer dish (2) and first guide (41) follow second guide (42) that gathers energy dish direction of height sliding connection.

2. A dish according to claim 1, characterized in that the lifting structure comprises an elastic member (43) with deformation capability, one end of the elastic member (43) being in abutment with the first guide member (41) and the other end being in abutment with the second guide member (42); in the natural state of the elastic piece (43), at least part of the outer ring furnace lug (20) is higher than the top of the inner ring furnace lug (10) in the height direction of the energy collecting disc.

3. A disc according to claim 2, wherein one of the first and second guide members (41, 42) comprises a slide bar (411) and the other comprises a slide rail (421) having a slide groove (4210), a portion of the slide bar (411) extending into the slide groove (4210) and sliding in the slide groove (4210).

4. A disc according to claim 3, wherein the elastic member (43) is sleeved outside the sliding rod (411), the sliding rod (421) is provided with a first limiting portion (4211) for abutting against one end of the elastic member (43) at the opening of the sliding slot (4210), and the sliding rod (411) is provided with a second limiting portion (4110) for abutting against the other end of the elastic member (43) at the end extending out of the sliding slot (4210).

5. A disc according to claim 3, characterized in that the outer part of the elastic member (43) is provided with a sleeve (44), the sleeve (44) being connected to one of the slide bars (411) or slide rails (421) and being in sliding connection with the other.

6. A disc according to any one of claims 1-5, characterized in that the edge of the inner disc (1) is provided with a guide portion (12) extending in the direction of the height of the disc, the outer circumferential wall of the guide portion (12) being attached to the inner circumferential wall of the outer disc (2) or a gap being provided between the outer circumferential wall of the guide portion (12) and the inner circumferential wall of the outer disc (2).

7. A dish according to any one of claims 1-5, further comprising a base (3), wherein the center of the base (3) is provided with a central hole for passing through a burner of a kitchen range, the inner dish (1) is supported on the base (3), and an energy collecting cavity (5) is formed between the base (3) and the inner dish (1).

8. A dish according to claim 7, characterized in that the base (3) is provided with a positioning portion (31), and the end of the second guide member (42) remote from the first guide member (41) is inserted into the positioning portion (31).

9. A disc according to any one of claims 1-5, characterized in that the outer collar (20) comprises a vertical support (201) connected to the outer disc (2) and extending upwards from the top of the outer disc (2) and a transverse support (202) extending at least partly in the direction of the inner side of the outer disc (2).

10. A hob, characterized in that it comprises a burner (6) and an energy-gathering disc according to any one of the preceding claims 1-9, said energy-gathering disc being arranged on the outer peripheral side of the burner (6).