CN218570504U - Electromagnetic wire coil assembly with high adaptability - Google Patents

Abstract

The utility model discloses a high adaptability's electromagnetic wire coil subassembly, including the support, its top surface is provided with interior wire winding groove and outer wire winding groove, and the outer wire winding groove encloses the outside of establishing including the wire winding groove, and interior wire winding inslot is provided with interior wire winding muscle, and the shape of interior wire winding muscle is circular, is provided with outer wire winding muscle in the outer wire winding groove, and the shape of outer wire winding muscle is square. Because interior wire winding muscle encloses establishes the formation circular form, then the solenoid that is located interior wire winding inslot can be around forming circle column structure, because outer wire winding muscle encloses establishes the formation irregular form, then the solenoid that is located outer wire winding inslot can be around forming irregular form, the solenoid of interior wire winding inslot mainly is that the bottom of the adaptation pot is circular shape electric boiler, and the solenoid of outer wire winding inslot mainly is that the bottom of the adaptation pot is the non-circular dish of frying in shallow oil, solenoid in interior wire winding inslot and the solenoid of outer wire winding inslot can independent control, heating area can be enlarged through the setting of the outer irregular form of interior circle, improve the suitability of household utensils.

Description

High-adaptability electromagnetic wire coil assembly

Technical Field

The utility model relates to a field of electromagnetic wire coil, especially an electromagnetic wire coil subassembly of high adaptability.

Background

The conventional IH heating wire coil on the market is limited by a winding process, is generally designed in a plane annular shape or a spherical annular shape, and has a single winding for a current popular commercial hot pot mode, such as an electric ceramic stove or a pot integrating baking and the like.

Application document CN107182142A discloses an electromagnetic heating wire coil, comprising: a wire coil body; the upper surface of the wire coil body is uneven, the distance between the upper surface of the wire coil body and the outer bottom wall of the kitchenware to be heated is non-equidistant, and the electromagnetic heating device is also disclosed. The magnetic field intensity acted on all parts of the bottom of the kitchen ware when the wire coil main body is electrified is not completely the same, so that a user can change the magnetic field intensity acted on all parts of the bottom of the kitchen ware by the electromagnetic heating wire coil without additionally configuring a magnetic strip, the production cost is reduced, and the social competitiveness of an enterprise is enhanced; the electromagnetic loading device of the invention adopts the electromagnetic heating wire coil, so that no additional magnetic strip is required to be configured, and the production cost is reduced.

However, the wire winding group of the wire coil main body is arranged in a circular shape, and the area formed by the wire winding group is surrounded to be matched with the circular pan bottom, however, the bottom of the frying pan is of a non-circular structure, and when the wire winding group wound in a circular shape and the frying pan are used together, uneven heating can be caused.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: a high-adaptability electromagnetic wire coil assembly is provided to solve one problem existing in the prior art.

The utility model provides a solution of its technical problem is:

the utility model provides a high adaptability's electromagnetic wire coil subassembly, includes the support, and its top surface is provided with interior wire winding groove and outer wire winding groove, outer wire winding groove encloses to be established the outside in interior wire winding groove, interior wire winding inslot is provided with interior wire winding muscle, the shape of interior wire winding muscle is circular, outer wire winding inslot is provided with outer wire winding muscle, outer wire winding muscle's shape is square.

The electromagnetic coil is sequentially wound in the inner winding groove and the outer winding groove, different shapes can be formed in a surrounding mode under the guiding of the inner winding rib and the outer winding rib, the circular shape is formed in a surrounding mode due to the fact that the inner winding rib is formed, then the electromagnetic coil located in the inner winding groove can form a circular structure in a surrounding mode, the square shape is formed in a surrounding mode due to the fact that the outer winding rib is formed in a surrounding mode, the electromagnetic coil located in the outer winding groove can form a square shape in a surrounding mode, the electromagnetic coil in the inner winding groove mainly comprises an adaptive bottom which is a circular electric boiler, the electromagnetic coil in the outer winding groove mainly comprises an adaptive bottom which is a non-circular frying pan, the electromagnetic coil in the inner winding groove and the electromagnetic coil in the outer winding groove can be independently controlled, the heating area can be enlarged through the arrangement of the irregular shape outside the inner winding groove, the adaptability of a vessel is improved, the electromagnetic coil is separated from the electromagnetic coil under the matching of the inner winding rib and the outer winding rib, and the mutual influence situation of the attached electromagnetic coils is reduced.

As a further improvement of the above technical solution, a spacer is disposed on the bracket in an annular shape, and the spacer is located between the inner winding slot and the outer winding slot.

Add the separator to can inject the interval of the solenoid between interior wire winding groove and the outer wire winding groove, can the interior solenoid of wire winding inslot and the solenoid of outer wire winding inslot in the independent control, also can the interior solenoid of wire winding inslot and the solenoid of outer wire winding inslot of separate control.

As a further improvement of the above technical solution, the inner side of the separator has a circular shape, and the outer side of the separator has a square shape.

The shape of the inner side and the shape of the outer side of the separator are respectively matched with the shapes of the inner winding rib and the outer winding rib, so that the electromagnetic coil in the inner winding groove is wound to form a certain shape, and the electromagnetic coil in the outer winding groove is wound to form a certain shape.

As a further improvement of the technical scheme, a plurality of first temperature measurement mounting holes are arranged on the separator at intervals.

Set up first temperature measurement mounting hole on the separator to realize the multiple spot temperature measurement technique, hold the accuracy of household utensils temperature.

As a further improvement of the technical scheme, the inner winding groove is communicated with the outer winding groove.

The inner winding groove and the outer winding groove are communicated with each other, and one electromagnetic coil can be wound into the outer winding groove from the inner winding groove.

As a further improvement of the above technical solution, an annular spacer is disposed on the inner winding slot, the inner winding slot includes a first winding slot and a second winding slot, the inner side of the spacer is the first winding slot, the outer side of the spacer is the second winding slot, and the spacer is located between the second winding slot and the outer winding slot.

The inner winding groove is divided into the first winding groove and the second winding groove by the additionally arranged partition, so that the distance between the adjacent electromagnetic coils is better limited, and the electromagnetic coils in the first winding groove and the second winding groove can be controlled independently or synchronously.

As a further improvement of the above technical solution, the first winding groove and the second winding groove communicate with each other.

The first winding groove and the second winding groove are communicated with each other, and then an electromagnetic coil can be wound into the second winding groove from the first winding groove.

As a further improvement of the above technical solution, the inner winding rib includes a plurality of inner winding plates arranged at intervals, and the outer winding rib includes a plurality of outer winding plates arranged at intervals.

The inner winding plates form inner winding ribs so as to limit the surrounding shape of the electromagnetic coil, and the inner winding plates are arranged at intervals so as to improve the overall heat dissipation effect and reduce the overall materials; a plurality of outer winding boards constitute outer winding muscle to can inject the shape that solenoid encircleed, and a plurality of outer winding boards are the interval and set up, thereby improve holistic radiating effect.

As a further improvement of the technical scheme, the middle part of the inner winding groove is provided with an installation block, and the installation block is provided with a second temperature measurement installation hole.

And the temperature measuring component is arranged in the second temperature measuring mounting hole, so that the temperature of the center of the bottom of the utensil can be detected.

As a further improvement of the technical scheme, the mounting block is provided with a mounting groove at the outer side of the second temperature measurement mounting hole, and the bottom surface of the support is provided with a plurality of slots at intervals at the peripheral side of the mounting block.

Small magnetic particles are arranged in the mounting groove and used for shielding magnetic lines at the center to prevent a sensor in the temperature measuring probe in the second temperature measuring mounting hole from being interfered; the magnetic strips are inserted into the slots, and the larger the number of the magnetic strips is, the better the number of the magnetic strips is, so that a plurality of slots are arranged to meet the actual requirement; in addition, the magnetic strip is positioned below the electromagnetic coil, so that the distance between the magnetic strip and the electromagnetic coil is shortened, and magnetic lines of force generated by the electromagnetic coil are more concentrated on the heating vessel, thereby improving the heat efficiency.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures represent only some embodiments of the invention, not all embodiments, and that a person skilled in the art can also derive other designs and figures from these figures without inventive effort.

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

FIG. 2 is a partially enlarged schematic view of portion A of FIG. 1;

FIG. 3 is an enlarged partial schematic view of portion B of FIG. 1;

FIG. 4 is an enlarged partial schematic view of portion C of FIG. 1;

fig. 5 is a schematic view of another aspect of the present invention;

FIG. 6 is an enlarged partial schematic view of portion D of FIG. 5;

fig. 7 is an exploded view after the usage of the present invention.

In the figure, 1, a stent; 11. an inner winding groove; 111. a first winding slot; 112. a second winding slot; 12. an outer winding groove; 2. an inner winding rib; 21. an inner wire winding plate; 3. an outer winding rib; 31. an outer wiring board; 4. a separator; 41. a round frame; 42. a transition plate; 43. reinforcing ribs; 44. a first temperature measurement mounting hole; 441. a raised rib; 442. hole site; 45. a first connecting groove; 5. a spacer; 51. a second communicating groove; 6. mounting blocks; 61. a second temperature measurement mounting hole; 62. mounting grooves; 621. small magnetic particles; 7. a slot; 71. a long trough body; 72. a short trough body; 73. a magnetic strip; 74. a limiting plate; 8. an electromagnetic coil.

Detailed Description

The conception, specific structure, and technical effects of the present invention will be clearly and completely described in conjunction with the embodiments and the accompanying drawings, so that the objects, features, and effects of the present invention can be fully understood. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the coupling/connection relationships mentioned herein do not mean that the components are directly connected, but mean that a better coupling structure can be formed by adding or reducing coupling accessories according to specific implementation conditions. The technical characteristics in the invention can be combined interactively on the premise of not conflicting with each other.

Referring to fig. 1 to 7, the present invention provides a high-adaptability electromagnetic wire coil assembly, which comprises the following embodiments:

an electromagnetic wire coil assembly with high adaptability comprises a bracket 1, wherein an inner wire winding groove 11 and an outer wire winding groove 12 are arranged on the top surface of the bracket 1, and the outer wire winding groove 12 is arranged on the outer side of the inner wire winding groove 11 in a surrounding manner.

Specifically, the horizontal section of the inner winding slot 11 is circular, the horizontal section of the outer winding slot 12 is annular, the shape formed by surrounding the outer side of the outer winding slot 12 is rectangular, and corners of the rectangular shape are in smooth transition.

In the present embodiment, the inner winding rib 2 is provided in the inner winding groove 11, and the inner winding rib 2 has a circular shape.

Specifically, the degree of depth of winding groove 11 in highly equals or being less than of interior wire winding muscle 2, and interior wire winding muscle 2 is provided with a plurality ofly, and a plurality of interior wire winding muscle 2 enclose establish and form circular shape diameter different in size, are equipped with the interval between wire winding muscle 2 in arbitrary two adjacent promptly, then solenoid 8 can twine between adjacent interior wire winding muscle 2, through interior wire winding muscle 2 in order to inject solenoid 8's position.

In this embodiment, the outer winding rib 3 is provided in the outer winding groove 12, and the outer winding rib 3 is square.

Specifically, the degree of depth that highly equals or is less than outer wire winding groove 12 of outer wire winding muscle 3, outer wire winding muscle 3 encloses the shape of establishing the formation and is the rectangle, and the corner of rectangle is rounding off, and outer wire winding muscle 3 is provided with a plurality ofly, a plurality of centers of outer wire winding muscle 3 are located same vertical line, a plurality of outer wire winding muscle 3 enclose the horizontal cross-section inequality of establishing the shape of formation, be equipped with the interval between arbitrary two adjacent outer wire winding muscle 3 promptly, then solenoid 8 can twine between adjacent outer wire winding muscle 3, through outer wire winding muscle 3 in order to inject solenoid 8's position.

Solenoid 8 twines in proper order in interior wire winding groove 11 and outer wire winding groove 12, and can enclose under the direction of interior wire winding muscle 2 and outer wire winding muscle 3 and establish the shape that forms differently, because interior wire winding muscle 2 encloses and establishes the circular form, then solenoid 8 that is located interior wire winding groove 11 can enclose and form round structure, because outer wire winding muscle 3 encloses and establishes the form irregularity, then solenoid 8 that is located outer wire winding groove 12 can enclose and form irregularity, solenoid 8 in interior wire winding groove 11 mainly is the bottom of the adaptation pot for circular shape electric boiler, and solenoid 8 in outer wire winding groove 12 mainly is the bottom of the adaptation pot for the non-circular frying pan, solenoid 8 in interior wire winding groove 11 and solenoid 8 in outer wire winding groove 12 can the independent control, can enlarge the heating area through the setting of the outer irregularity of interior circle, improve the suitability of household utensils, and separate solenoid 8 under the cooperation of interior wire winding muscle 2 and outer wire winding muscle 3, reduce the condition that the solenoid 8 of laminating influences each other.

In the embodiment, a separator 4 is arranged on the bracket 1, the separator 4 is arranged in a ring shape, and the separator 4 is positioned between the outer winding slot 12 and the inner winding slot 11; the inner side of the separator 4 has a circular shape, and the outer side of the separator 4 has the same shape as the shape surrounded by the outer wire rib 3.

Specifically, the separator 4 includes a circular frame 41 and a transition plate 42, the horizontal section of the circular frame 41 is circularly arranged, the circular frame 41 is annular, and the axis of the circular frame 41 and the circular axis formed by the inner winding rib 2 in an enclosing manner coincide with each other; the transition plates 42 are provided with four transition plates 42, the four transition plates 42 are vertically arranged, the four transition plates 42 are arranged in an arc shape, two ends of each transition plate 42 are fixedly connected to the outer side wall of the round frame 41, a space is arranged between any two adjacent transition plates 42, the shape of a horizontal cross section formed by the connection between the outer side wall of each transition plate 42 and the outer side wall of the round frame 41 is the same as that formed by the surrounding of the outer winding ribs 3, but the horizontal cross section is different in size; a reinforcing rib 43 is connected between the inner side of the transition plate 42 and the outer side of the circular frame 41.

The separator 4 is additionally arranged, so that the distance between the electromagnetic coil 8 between the inner winding groove 11 and the outer winding groove 12 can be limited, the electromagnetic coil 8 in the inner winding groove 11 and the electromagnetic coil 8 in the outer winding groove 12 can be independently controlled, and the electromagnetic coil 8 in the inner winding groove 11 and the electromagnetic coil 8 in the outer winding groove 12 can also be separately controlled.

In the present embodiment, the spacer 4 is provided with a plurality of first thermometric mounting holes 44 at intervals.

Specifically, two of the transition plates 42 facing each other are correspondingly provided with a first temperature measurement mounting hole 44, the first temperature measurement mounting hole 44 extends in the vertical direction, a plurality of raised ribs 441 are arranged in the first temperature measurement mounting hole 44 at intervals, and a space is arranged between any two adjacent raised ribs 441; a hole 442 is formed in the circular frame 41 at a position corresponding to the first temperature measurement mounting hole 44, and the hole 442 is communicated with the first temperature measurement mounting hole 44.

In the present embodiment, the inner winding groove 11 and the outer winding groove 12 communicate.

Specifically, a first connecting groove 45 is provided at the top of the circular frame 41, and the inner winding groove 11 and the outer winding groove 12 are communicated through the first connecting groove 45.

In this embodiment, the inner winding groove 11 is provided with the annular spacer 5, the inner winding groove 11 includes a first winding groove 111 and a second winding groove 112, the inner side of the spacer 5 is the first winding groove 111, the outer side of the spacer 5 is the second winding groove 112, and the separator 4 is located between the second winding groove 112 and the outer winding groove 12.

Specifically, the spacer 5 is provided in a ring shape.

The additional spacers 5 divide the inner winding slots 11 into the first winding slots 111 and the second winding slots 112, so as to better define the spacing between the adjacent electromagnetic coils 8, and the electromagnetic coils 8 in the first winding slots 111 and the second winding slots 112 can be controlled independently or synchronously.

In the present embodiment, the first winding groove 111 and the second winding groove 112 communicate.

Specifically, the outside of the partition 5 is provided with a second communicating groove 51, the first winding groove 111 and the second winding groove 112 are communicated through the second communicating groove 51, and the second communicating groove 51 and the first communicating groove 45 are close to each other.

In the present embodiment, the inner winding rib 2 includes a plurality of inner winding plates 21 arranged at intervals, and the outer winding rib 3 includes a plurality of outer winding plates 31 arranged at intervals.

Specifically, the structure that a plurality of interior winder plates 21 on same interior wire winding muscle 2 enclose and establish formation is circular form, and the structure that a plurality of outer wire winding boards 31 on same outer wire winding muscle 3 enclose and establish formation is the rectangle form, and the corner of rectangle is rounding off.

The inner winding ribs 2 are formed by the inner winding plates 21, so that the surrounding shape of the electromagnetic coil 8 can be limited, and the inner winding plates 21 are arranged at intervals, so that the integral heat dissipation effect is improved, and the integral material consumption is reduced; a plurality of outer wire winding boards 31 constitute outer wire winding muscle 3 to can inject the shape that solenoid 8 encircleed, and a plurality of outer wire winding boards 31 are the interval setting, thereby improve holistic radiating effect.

In this embodiment, the middle of the inner winding slot 11 is provided with a mounting block 6, and the mounting block 6 is provided with a second temperature measurement mounting hole 61.

Specifically, the mounting block 6 is located in the first winding groove 111, the horizontal cross section of the mounting block 6 is circular, the axis of the mounting block 6 and the circular axis formed by the inner winding rib 2 in an enclosing manner coincide with each other, and the second temperature measurement mounting hole 61 is located in the middle of the mounting block 6.

In this embodiment, the mounting block 6 is provided with a mounting groove 62 at an outer side of the second temperature measurement mounting hole 61.

Specifically, a plurality of mounting grooves 62 are arranged on the mounting block 6 at intervals, the plurality of mounting grooves 62 are circumferentially arranged on the outer side of the second temperature measurement mounting hole 61, the mounting grooves 62 are mainly used for mounting small magnetic particles 621, and the horizontal cross section of each mounting groove 62 is in a structure similar to a convex shape.

In other embodiments, only one mounting groove 62 may be provided, so that the small magnetic particles 621 are directly mounted in one mounting groove 62 in a ring structure.

In the present embodiment, a plurality of slots 7 are provided at intervals on the bottom surface of the bracket 1 on the circumferential side of the mounting block 6.

Specifically, the slot 7 includes a long slot body 71 and a short slot body 72, the long slot bodies 71 are located on the periphery of the mounting block 6, and the end portions of any two adjacent long slot bodies 71 close to the mounting block 6 are connected with each other, the long slot bodies 71 are radially arranged with the mounting block 6 as the center, the other ends of the long slot bodies 71 extend to the side edge of the rack body, the side walls of the long slot bodies 71 and the short slot bodies 72, which are opposite to the top surface of the rack body, are provided with limit plates 74 extending along the horizontal direction, and the same long slot body 71 is provided with a plurality of limit plates 74 at intervals; the short groove bodies 72 are positioned between any two adjacent long groove bodies 71, the length of the short groove bodies 72 extending along the horizontal direction is smaller than that of the long groove bodies 71 extending along the horizontal direction, magnetic strips 73 with proper lengths are inserted into the long groove bodies 71 and the short groove bodies 72, and the magnetic strips 73 inserted into the long groove bodies 71 are abutted against corresponding limiting plates 74; the inner winding plates 21 in the first winding grooves 111 are all positioned right above the corresponding long grooves 71; the part of the inner winding plate 21 in the second winding groove 112 is positioned right above the long groove body 71, and the rest part is positioned right above the short groove body 72; the part of the external winding plate 31 positioned in the external winding slot 12 is positioned right above the long slot body 71, and the rest part is positioned right above the short slot body 72.

A small magnetic particle 621 is arranged in the mounting groove 62 and used for shielding a magnetic line at the center to prevent a sensor in the temperature measuring probe in the second temperature measuring mounting hole 61 from being interfered; the magnetic strips 73 are inserted into the slots 7, and in principle, the larger the number of the magnetic strips 73 is, the better the number is, so that a plurality of slots 7 are arranged to meet the actual requirement; in addition, the magnetic strip 73 is positioned below the electromagnetic coil 8, so that the distance between the magnetic strip 73 and the electromagnetic coil 8 is shortened, magnetic lines of force generated by the electromagnetic coil 8 are more concentrated on the heating vessel, and the heat efficiency is improved.

In other embodiments, the slot 7 and the magnetic strip 73 may be connected by gluing.

While the preferred embodiments of the present invention have been described in detail, it will be understood by those skilled in the art that the invention is not limited to the details of the embodiments shown, but is capable of various modifications and substitutions without departing from the spirit of the invention.

Claims (10)

1. The utility model provides a high adaptability's electromagnetic wire coil subassembly, its characterized in that, includes support (1), and its top surface is provided with interior wire winding groove (11) and outer wire winding groove (12), outer wire winding groove (12) enclose to be established the outside of interior wire winding groove (11), be provided with interior wire winding muscle (2) in interior wire winding groove (11), the shape of interior wire winding muscle (2) is circular, be provided with outer wire winding muscle (3) in outer wire winding groove (12), the shape of outer wire winding muscle (3) is square.

2. A high-flexibility solenoid coil assembly according to claim 1, wherein said support (1) is provided with a spacer (4) in an annular arrangement, said spacer (4) being located between said inner winding groove (11) and said outer winding groove (12).

3. A high flexibility solenoid coil assembly according to claim 2, wherein the inner side of said separator (4) is circular in shape and the outer side of said separator (4) is square in shape.

4. The high-adaptability electromagnetic wire coil assembly according to claim 2, wherein a plurality of first temperature measuring mounting holes (44) are arranged on the separating element (4) at intervals.

5. A high flexibility solenoid coil assembly according to claim 2 wherein said inner winding groove (11) and said outer winding groove (12) are in communication.

6. A high adaptability solenoid coil assembly according to claim 2, wherein said inner winding slot (11) is provided with a ring-shaped spacer (5), said inner winding slot (11) comprises a first winding slot (111) and a second winding slot (112), the inner side of said spacer (5) is said first winding slot (111), the outer side of said spacer (5) is said second winding slot (112), and said spacer (4) is located between said second winding slot (112) and said outer winding slot (12).

7. The high compliance electromagnetic wire reel assembly of claim 6, wherein said first winding slot (111) and said second winding slot (112) are in communication.

8. A highly adaptable solenoid coil assembly as claimed in claim 7 wherein said inner winding bar (2) includes a plurality of spaced apart inner winding plates (21) and said outer winding bar (3) includes a plurality of spaced apart outer winding plates (31).

9. The high-adaptability electromagnetic wire coil assembly according to claim 1, wherein a mounting block (6) is arranged in the middle of the inner winding groove (11), and a second temperature measuring mounting hole (61) is formed in the mounting block (6).

10. The high-adaptability electromagnetic wire coil assembly according to claim 9, wherein a mounting groove (62) is formed in the mounting block (6) and located outside the second temperature measurement mounting hole (61), and a plurality of slots (7) are formed in the bottom surface of the bracket (1) and located at intervals on the peripheral side of the mounting block (6).

Images