CN114403689B

CN114403689B - High-strength composite-bottom enamel non-stick pan

Info

Publication number: CN114403689B
Application number: CN202210145311.1A
Authority: CN
Inventors: 杨兴华
Original assignee: Zhejiang Yuxin Steel Co ltd
Current assignee: Zhejiang Yuxin Steel Co ltd
Priority date: 2022-02-17
Filing date: 2022-02-17
Publication date: 2022-11-15
Anticipated expiration: 2042-02-17
Also published as: CN114403689A

Abstract

The invention discloses a high-strength composite bottom enamel non-stick pan, which relates to the technical field of high-strength enamel non-stick pans and comprises a composite enamel non-stick pan body, wherein the composite enamel non-stick pan body comprises a composite pan bottom, a gas stove support lap joint device is arranged on the outer surface of the bottom of the composite pan bottom, and side waste heat recovery layers are arranged on the outer surfaces of the periphery of the bottom of the composite pan bottom. According to the invention, the heat collected by the side waste heat recovery layer is transferred through the honeycomb heat absorption layer, the heat is transmitted by matching with the hot gas diversion trench, the heat in the heat is diffused, the heat is transmitted by matching with the composite enamel layer, the heat persistence is increased, the characteristics of transmitting the surrounding temperature and increasing the heat persistence are provided, the problems of high heat conductivity and heat consumption speed and low heat conversion performance of the pot bottom are solved, and the effects of transmitting the surrounding temperature and increasing the heat persistence are achieved.

Description

High-strength composite-bottom enamel non-stick pan

Technical Field

The invention relates to the technical field of high-strength enamel non-stick pans, in particular to a high-strength enamel non-stick pan with a composite bottom.

Background

The non-stick pan in daily life has the non-stick effect in the cooking process, so that food is more complete and attractive, the non-stick pan is more and more important in the market of the existing pan, and is favored by consumers. The following problems exist in the prior art:

1. when the existing non-stick pan is used, as the bottom of the existing non-stick pan presents a semicircular arc shape, when a fire source contacts the bottom of the pan, the fire source can diffuse all around, only the fire source contacting the bottom of the pan can provide heat for the bottom of the pan, and a large amount of heat can be wasted on the outer layer of the fire source, so that the problems of large energy consumption and low heat conversion efficiency are caused;

2. because the arc degree of the pot bottom is larger, and the shape, the angle and the shape of the supporting frame on the cooking bench are different, the pot bottom is easy to deviate and incline when being placed in an overlapping way.

Disclosure of Invention

The invention provides a high-strength composite-bottom enamel non-stick pan, which has the characteristic of collecting heat dissipated around and solves the problems of large energy consumption and low heat conversion efficiency caused by the waste of a large amount of heat at the outer layer of a fire source; the other purpose is to solve the problems that the arc degree of the pot bottom is large, and the shape, the angle and the shape of a support frame on the cooking bench are different, so that the pot bottom is easy to deviate and incline when being placed in an overlapping manner, and the effect of increasing the contact force and the area between the pot bottom and the pot bottom is achieved.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

the utility model provides a high strength composite bottom enamel non-stick pan, includes composite enamel non-stick pan body, composite enamel non-stick pan body includes the composite bottom of a boiler, be provided with gas-cooker support overlap joint ware on the bottom surface of the composite bottom of a boiler, be provided with side waste heat recovery layer on the surface all around of the bottom of the composite bottom of a boiler, the detachable non-stick pan handle of installing on the right side surface of the composite bottom of a boiler.

The side waste heat recovery layer comprises an L-shaped flow guide block, an L-shaped cavity is formed in the L-shaped flow guide block, a heat insulation layer is detachably connected to the outer surface of the inner side of the L-shaped cavity, and a heat absorption strip is detachably connected to the outer surface of the left side of the L-shaped flow guide block.

The gas stove support overlap joint ware is provided with the bar dead slot on the surface of both sides around, the detachable side overlap joint buffering silk that is connected with on the both sides internal surface of bar dead slot, the slip overlap joint has the removal wheel on the internal surface of bar dead slot, one of the center axis of rotation of removing the wheel serves swing joint has spacing, one of the center axis of rotation of removing the wheel serves swing joint and connects the support strip, one of connecting the support strip serves and is provided with spacing.

The technical scheme of the invention is further improved as follows: the inside of spacing is provided with the triangle cavity, be provided with overlap joint ladder groove on the bottom surface of spacing, be provided with the overlap joint heat-resistant layer on the surface in overlap joint ladder groove.

The technical scheme of the invention is further improved as follows: the composite boiler bottom comprises a honeycomb heat-absorbing layer, a hot air diversion groove is formed in the outer surface of the top end of the honeycomb heat-absorbing layer, a composite enamel layer is arranged at the top of the hot air diversion groove, and the composite non-stick boiler layer is detachably connected to the outer surface of the top of the composite enamel layer.

The technical scheme of the invention is further improved as follows: the steam guiding gutter includes built-in heat-resistant layer, be provided with the gas port on the surface of built-in heat-resistant layer, the inside of steam guiding gutter is provided with high temperature resistant support bar, be provided with the heat conduction strip on the surface of high temperature resistant support bar.

The technical scheme of the invention is further improved as follows: the inboard top of steam guiding gutter is provided with the high temperature heat-conducting layer, be provided with the linking layer on the top surface of high temperature heat-conducting layer.

The technical scheme of the invention is further improved as follows: the inboard of honeycomb heat-sink shell is provided with the inner bag layer, be provided with steam cycle water conservancy diversion layer between the internal surface of inner bag layer and honeycomb heat-sink shell, the detachable horn heat absorption mouth that is connected with on the bottom surface of honeycomb heat-sink shell, be provided with the heat-resistant layer on the inboard surface of horn heat absorption mouth, the detachable connecting block that is connected with on the internal surface of inner bag layer, one of connecting block serves detachable being connected with waste heat storage layer.

The technical scheme of the invention is further improved as follows: the honeycomb heat absorption layer is characterized in that the outer surface of the residual heat storage layer is detachably connected with a lap joint block, and the outer surface of the top of the honeycomb heat absorption layer is provided with a gas outlet.

The technical scheme of the invention is further improved as follows: one end of the heat absorption strip penetrates through the outer surfaces of the L-shaped flow guide block and the heat insulation layer to extend into the L-shaped cavity, and a heat flow transfer port is formed in the top end of the L-shaped flow guide block.

Due to the adoption of the technical scheme, compared with the prior art, the invention has the technical progress that:

1. the invention provides a high-strength enamel non-stick pan with a composite bottom, which is characterized in that the combination of the composite pan bottom, an L-shaped flow guide block, an L-shaped cavity, a heat insulation layer, a heat flow transfer port and a heat absorption strip is adopted, radians at two sides of the composite pan bottom are matched to provide flowing radians for a fire source and heat flow, the L-shaped flow guide block is used for blocking the flowing fire source and heat flow, the heat absorption strip is contacted with the fire source and the heat flow to transmit the heat inside the L-shaped cavity, the heat flow transfer port is used for guiding the heat inside the pan, the heat insulation layer is used for insulating the heat inside, the dissipation of the heat is reduced, the characteristics of collecting the heat dissipated at the periphery are achieved, the problems that a large amount of heat is wasted at the outer layer of the fire source, the energy consumption is large, the heat conversion efficiency is low are solved, and the effect of collecting the heat at the periphery is achieved.

2. The invention provides a high-strength enamel non-stick pan with a composite bottom, which is characterized in that a side lapping buffer wire, a moving wheel, a connecting support strip, a limit strip, a lapping heat-resistant layer and a lapping stepped groove are combined, when the non-stick pan is blocked on the surface of a cooking bench, the surface of the lapping stepped groove is matched with the surface of the cooking bench to be in laminating contact with the cooking bench support, heat on the surface of the support is isolated in the using process through the lapping heat-resistant layer, different supports can generate different pushing forces on the contact surface and the force between the pan bottoms, the position and the angle between the moving wheels are limited through the limit strip, the connecting support strip is pushed on two sides through the limit strip, the pushing of one side is buffered through the side lapping buffer wire, the high-strength and high-area composite-bottom enamel non-stick pan has the characteristics of increasing the contact force and area between the pan bottoms, and the problems of deviation and inclination of the pan bottoms easily occur when the pan bottoms are placed in a lapping mode due to the inconsistent shapes and angles of the support frames on the pan bottoms are solved, so that the effects of increasing the contact force and the area between the pan bottoms and the pan bottoms.

3. The invention provides a high-strength composite-bottom enamel non-stick pan, which adopts the combination of a honeycomb heat-absorbing layer, a hot air flow guide groove, a composite enamel layer, a composite non-stick pan layer and a side waste heat recovery layer, transfers heat collected by the side waste heat recovery layer through the honeycomb heat-absorbing layer, transfers the heat by matching with the hot air flow guide groove, diffuses the heat inside, transfers the heat by matching with the composite enamel layer, increases the persistence of the heat, and then carries out non-stick pan on the inside through the composite non-stick pan layer.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic cross-sectional structural view of the side of the composite pan bottom of the present invention;

FIG. 3 is a schematic view of a side waste heat recovery layer according to the present invention;

FIG. 4 is a schematic view of the gas range stand overlapping device of the present invention;

FIG. 5 is an enlarged schematic view of the structure at A of the present invention;

FIG. 6 is a schematic view of a hot gas guiding slot structure according to the present invention;

FIG. 7 is a schematic perspective view of a honeycomb heat absorbing layer according to the present invention;

fig. 8 is a schematic view of the honeycomb heat absorbing layer structure of the present invention.

In the figure: 1. the composite enamel non-stick pan body; 2. compounding a pot bottom;

21. a honeycomb heat absorbing layer; a1, an inner container layer; a2, a hot gas circulation flow guiding layer; a3, a horn heat absorption port; a4, a heat-resistant layer; a5, connecting blocks; a6, a residual heat storage layer; a7, a lapping block; a8, an air outlet;

22. a hot gas diversion trench; 221. a heat-resistant layer is arranged inside; 222. a gas port; 223. a high temperature resistant support bar; 224. a heat conducting strip; 225. a high temperature heat conducting layer; 226. a tie layer;

23. a composite enamel layer; 24. compounding a non-stick pan layer;

3. a gas stove bracket lap joint device; 31. a strip-shaped empty slot; 32. the side surface is lapped with a buffer wire; 33. a moving wheel; 34. connecting the bracket strip; 35. a limiting strip; 36. a triangular cavity; 37. lapping the stepped groove; 38. overlapping the heat-resistant layer;

4. a side waste heat recovery layer; 41. an L-shaped flow guide block; 42. an L-shaped cavity; 43. a heat-insulating layer; 44. a heat absorbing strip; 45. a heat flow transfer port;

5. not stick to the pan handle.

Detailed Description

The present invention will be described in further detail with reference to the following examples:

example 1

As shown in fig. 1-8, the invention provides a high-strength composite-bottom enamel non-stick pan, which comprises a composite enamel non-stick pan body 1, wherein the composite enamel non-stick pan body 1 comprises a composite pan bottom 2, a gas stove support lap joint device 3 is arranged on the outer surface of the bottom of the composite pan bottom 2, a side waste heat recovery layer 4 is arranged on the outer surface of the periphery of the bottom of the composite pan bottom 2, and a non-stick pan handle 5 is detachably arranged on the upper outer surface of the right side of the composite pan bottom 2.

In this embodiment, can take compound bottom of a boiler 2 through on-stick pan handle 5, provide certain stability when cooperation gas-cooker support overlap joint ware 3 is placed on the top of a kitchen range to compound bottom of a boiler 2, cooperate side waste heat recovery layer 4 to compound bottom of a boiler 2 heat on the surface all around to retrieve and recycle.

As shown in fig. 1 to 8, in this embodiment, preferably, the hot air guiding groove 22 includes a built-in heat-resistant layer 221, a gas port 222 is provided on an outer surface of the built-in heat-resistant layer 221, a high-temperature-resistant support bar 223 is provided inside the hot air guiding groove 22, heat conducting bars 224 are provided on an outer surface of the high-temperature-resistant support bar 223, a high-temperature heat conducting layer 225 is provided on an inner top of the hot air guiding groove 22, a linking layer 226 is provided on an outer surface of a top of the high-temperature heat conducting layer 225, absorbed heat is transferred into the hot air guiding groove 22 through the gas port 222 through the honeycomb heat absorbing layer 21, and contacts with the heat conducting bars 224, the heat inside is conducted through the high-temperature heat conducting layer 225, and the heat conducting bars 224 are matched to perform secondary emission on residual heat of the heat.

As shown in fig. 1 to 8, preferably, an inner container layer a1 is disposed inside the honeycomb heat absorbing layer 21, a hot air circulation flow guiding layer a2 is disposed between the inner container layer a1 and an inner surface of the honeycomb heat absorbing layer 21, a horn heat absorbing port a3 is detachably connected to an outer surface of a bottom of the honeycomb heat absorbing layer 21, a heat-resistant layer a4 is disposed on an inner surface of the horn heat absorbing port a3, a connecting block a5 is detachably connected to an inner surface of the inner container layer a1, one end of the connecting block a5 is detachably connected to a residual heat storage layer a6, a lap joint block a7 is detachably connected to an outer surface of the residual heat storage layer a6, an air outlet a8 is disposed on an outer surface of a top of the honeycomb heat absorbing layer 21, heat from the outside is transferred through the horn heat absorbing port a3, the heat from the external is heat-resistant by matching with the heat-resistant layer a4, the residual heat storage layer a6 is lap-jointed by matching with the connecting block a5 and the lap joint block a7, the hot air circulation flow guiding layer a2 is matched with the hot air outlet a8 to transfer heat into the hot air flow guiding groove 22.

Example 2

As shown in fig. 1 to 8, on the basis of embodiment 1, the present invention provides a technical solution: preferably, the side waste heat recovery layer 4 includes an L-shaped flow guide block 41, an L-shaped cavity 42 is provided inside the L-shaped flow guide block 41, a heat insulation layer 43 is detachably connected to an inner outer surface of the L-shaped cavity 42, a heat absorption strip 44 is detachably connected to a left outer surface of the L-shaped flow guide block 41, one end of the heat absorption strip 44 passes through the outer surfaces of the L-shaped flow guide block 41 and the heat insulation layer 43 and extends into the L-shaped cavity 42, and a heat flow transfer port 45 is provided at a top end of the L-shaped flow guide block 41.

In this embodiment, the radian of 2 both sides at the bottom of the complex pot of cooperation provides the radian that flows to burning things which may cause a fire disaster and thermal current, rethread L type water conservancy diversion piece 41 is blocked the burning things which may cause a fire disaster and the thermal current that flow, rethread heat absorption strip 44 contacts with burning things which may cause a fire disaster and thermal current, transmit the inside of advancing L type cavity 42 with its inside and go, rethread thermal current transfer port 45 guides it into the inside of pot, utilize heat preservation 43 to keep warm to the heat of inside, reduce thermal dissipation, reached and carried out the effect of collecting to the heat that dissipates all around.

Example 3

As shown in fig. 1 to 8, on the basis of embodiment 1, the present invention provides a technical solution: preferably, be provided with bar dead slot 31 on the surface of the front and back both sides of gas-cooker support overlap joint ware 3, detachable side overlap joint buffer wire 32 that is connected with on the both sides internal surface of bar dead slot 31, it has removal wheel 33 to slide the overlap joint on the internal surface of bar dead slot 31, the one of the center axis of rotation of removal wheel 33 serves swing joint has spacing strip 35, the one of the center axis of rotation of removal wheel 33 serves swing joint and connects support strip 34, connect support strip 34 to serve and be provided with spacing strip 35, the inside of spacing strip 35 is provided with triangle cavity 36, be provided with overlap joint ladder groove 37 on the bottom surface of spacing strip 35, be provided with overlap joint heat-resistant layer 38 on the surface of overlap joint ladder groove 37.

In this embodiment, keep off the non-stick pan when the top of a kitchen range is on the surface, the contact of laminating is carried out with the top of a kitchen range support on the surface of cooperation overlap joint ladder groove 37, rethread overlap joint heat-resistant layer 38 is to the use, the support is insulating on the surface, different supports can produce different driving forces to the contact surface and the dynamics between the bottom of a boiler, the position of cooperation spacing strip 35 between to the removal wheel 33, the angle is injectd, spacing strip 35 of rethread carries out both sides to connecting support strip 34 and promotes, cooperation side overlap joint buffering silk 32 cushions the promotion of one side, in order to reach the contact dynamics between increase and the bottom of a boiler, the effect of area.

Example 4

As shown in fig. 1 to 8, on the basis of embodiment 1, the present invention provides a technical solution: preferably, the composite pan bottom 2 comprises a honeycomb heat-absorbing layer 21, a hot air diversion groove 22 is formed in the outer surface of the top end of the honeycomb heat-absorbing layer 21, a composite enamel layer 23 is arranged at the top of the hot air diversion groove 22, and a composite non-stick pan layer 24 is detachably connected to the outer surface of the top of the composite enamel layer 23.

In this embodiment, collect the heat that comes through honeycomb heat-sink shell 21 to side waste heat recovery layer 4 and transmit, cooperate steam guiding gutter 22 to transmit for its heat, the inside heat of diffusion, cooperation compound enamel layer 23 transmits its heat, increases thermal persistence, and rethread compound non-stick pan layer 24 carries out the non-stick pan to inside, has reached and has transmitted thermal persistence's effect to temperature all around.

The working principle of the high-strength composite-bottom enamel non-stick pan is described in detail below.

As shown in fig. 1-8, the non-stick pan handle 5 can be used for taking the composite pan bottom 2, when the non-stick pan is blocked on the surface of a cooking bench, the surface of the lapping stepped groove 37 is matched to be in contact with the support of the cooking bench in a laminating way, the heat on the surface of the support is isolated in the using process through the lapping heat-resistant layer 38, different supports can generate different driving forces on the contact surface and force between the pan bottoms, the position and the angle between the moving wheels 33 are limited through the limiting strip 35, the connecting support strip 34 is driven by two sides through the limiting strip 35, the lateral lapping buffer wire 32 is matched to buffer the driving of one side, the radians on two sides of the composite pan bottom 2 are matched to provide flowing radians for a fire source and heat flow, the L-shaped flow guide block 41 is used for blocking the flowing fire source and heat flow, the heat absorption strips 44 are in contact with the fire source and the heat flow, the heat inside the heat absorption strips is transmitted into the L-shaped cavity 42, the heat is guided into the pot through the heat flow transmission openings 45, the heat is transmitted by matching with the hot gas flow guide grooves 22, the heat inside the heat is diffused, the heat is transmitted by matching with the composite enamel layer 23, the persistence of the heat is increased, the non-stick pot is conducted on the inside of the pot through the composite non-stick pot layer 24, the effect of transmitting the temperature around and increasing the persistence of the heat is achieved, the heat inside is insulated by using the heat insulation layer 43, and the dissipation of the heat is reduced.

The present invention has been described in general terms in the foregoing, but it will be apparent to those skilled in the art that modifications and improvements can be made thereto based on the present invention. Therefore, it is possible to modify or improve the optical characteristics of the optical fiber without departing from the spirit of the present invention.

Claims

1. The utility model provides a non-stick pot of compound end enamel of high strength, includes non-stick pot body of compound enamel (1), its characterized in that: the composite enamel non-stick pan body (1) comprises a composite pan bottom (2), a gas stove support lap joint device (3) is arranged on the outer surface of the bottom of the composite pan bottom (2), a side waste heat recovery layer (4) is arranged on the outer surface of the periphery of the bottom of the composite pan bottom (2), and a non-stick pan handle (5) is detachably arranged on the outer surface of the right side of the composite pan bottom (2) above the upper side;

the side waste heat recovery layer (4) comprises an L-shaped flow guide block (41), an L-shaped cavity (42) is arranged inside the L-shaped flow guide block (41), the outer surface of the inner side of the L-shaped cavity (42) is detachably connected with a heat insulation layer (43), and the outer surface of the left side of the L-shaped flow guide block (41) is detachably connected with a heat absorption strip (44);

be provided with bar dead slot (31) on the surface of both sides around gas-cooker support overlap joint ware (3), detachable side overlap joint buffering silk (32) of being connected with on the both sides internal surface of bar dead slot (31), the overlap joint that slides on the internal surface of bar dead slot (31) has removal wheel (33), it has spacing (35) to move one of the center axis of rotation of wheel (33) to serve swing joint, it has connecting support strip (34) to move one of the center axis of rotation of wheel (33) to serve swing joint, connecting support strip (34) serve and be provided with spacing (35).

2. The high-strength enamel non-stick pan with composite bottom as claimed in claim 1, characterized in that: the inside of spacing (35) is provided with triangle cavity (36), be provided with overlap joint ladder groove (37) on the bottom surface of spacing (35), be provided with overlap joint heat-resistant layer (38) on the surface of overlap joint ladder groove (37).

3. The enamel non-stick pan with high-strength composite bottom as claimed in claim 1, is characterized in that: the composite pan bottom (2) comprises a honeycomb heat-absorbing layer (21), a hot air guide groove (22) is formed in the outer surface of the top end of the honeycomb heat-absorbing layer (21), a composite enamel layer (23) is arranged at the top of the hot air guide groove (22), and a composite non-stick pan layer (24) is detachably connected to the outer surface of the top of the composite enamel layer (23).

4. The enamel non-stick pan with the high-strength composite bottom as claimed in claim 3, is characterized in that: steam guiding gutter (22) is including built-in heat-resistant layer (221), be provided with gas port (222) on the surface of built-in heat-resistant layer (221), the inside of steam guiding gutter (22) is provided with high temperature resistant support bar (223), be provided with heat conduction strip (224) on the surface of high temperature resistant support bar (223).

5. The high-strength enamel non-stick pan with composite bottom as claimed in claim 3, characterized in that: the inside top of steam guiding gutter (22) is provided with high temperature heat-conducting layer (225), be provided with linking layer (226) on the top surface of high temperature heat-conducting layer (225).

6. The high-strength enamel non-stick pan with composite bottom as claimed in claim 3, characterized in that: the inboard of honeycomb heat-sink shell (21) is provided with inner bag layer (a 1), be provided with steam circulation diversion layer (a 2) between the internal surface of inner bag layer (a 1) and honeycomb heat-sink shell (21), detachably be connected with loudspeaker heat absorption mouth (a 3) on the bottom surface of honeycomb heat-sink shell (21), be provided with heat-resistant layer (a 4) on the inboard surface of loudspeaker heat absorption mouth (a 3), detachably be connected with connecting block (a 5) on the internal surface of inner bag layer (a 1), one of connecting block (a 5) is served detachably and is connected with waste heat storage layer (a 6).

7. The enamel non-stick pan with the high-strength composite bottom as claimed in claim 6, is characterized in that: the heat-insulation and heat-storage honeycomb heat-absorption heat-storage device is characterized in that the outer surface of the residual heat-storage layer (a 6) is detachably connected with a lapping block (a 7), and the outer surface of the top of the honeycomb heat-absorption layer (21) is provided with an air outlet (a 8).

8. The high-strength enamel non-stick pan with composite bottom as claimed in claim 1, characterized in that: one end of the heat absorption strip (44) penetrates through the outer surfaces of the L-shaped flow guide block (41) and the heat insulation layer (43) and extends into the L-shaped cavity (42), and a heat flow transfer port (45) is formed in the top end of the L-shaped flow guide block (41).