CN215412003U - Double-end electromagnetic oven - Google Patents

Abstract

The utility model discloses a double-end induction cooker, which belongs to the technical field of induction cookers and solves the technical problem that an upper cover of a double-end induction cooker in the prior art is poor in flat cable fixing effect.

Description

Double-end electromagnetic oven

[ technical field ] A method for producing a semiconductor device

The utility model relates to the technical field of electromagnetic cooking, in particular to a double-end electromagnetic stove.

[ background of the utility model ]

Double-end induction cooker among the prior art includes the casing and locates the casing and control two electromagnetic wire coils of interval distribution, the casing includes the upper cover and bonds the panel of fixing on the upper cover, the upper cover includes the rectangle frame and connects the tie-beam between two long limits of rectangle frame, the tie-beam is located between two electromagnetic wire coils, the electromagnetic wire coil is connected with the winding displacement, in order to can be to the fixed effect of realizing the reason line of winding displacement, current tie-beam back is equipped with a card wire casing, the winding displacement runs through the card wire casing, to longer winding displacement, the card wire casing can only simply fix the winding displacement, can't restrict the winding displacement in its trend or be located rocking or flagging of card wire casing outside portion, consequently can lead to the winding displacement to take place to interfere with other structures in the casing, lead to the equipment inconvenient.

[ Utility model ] content

The utility model aims to overcome the defects of the prior art and provide a double-end induction cooker which can effectively limit a flat cable so as to avoid the inconvenience in assembly caused by the interference of the flat cable and other structures in a shell.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a double-end induction cooker, includes base, upper cover and panel, two electromagnetic wire coils of interval distribution about the base is equipped with, electromagnetic wire coil is connected with the winding displacement, the upper cover includes rectangle frame and tie-beam, the tie-beam is connected two long limits of rectangle frame are located between two electromagnetic wire coils, the back of tie-beam is equipped with and is used for injecing the card wire casing of winding displacement and being used for the coiling the wire winding portion of winding displacement, card wire casing and wire winding portion along tie-beam length direction interval sets up.

Furthermore, the number of the wire clamping grooves is at least two, and the wire winding part is arranged between any two wire clamping grooves.

Furthermore, the winding part comprises at least two winding posts which are arranged at intervals along the length direction of the connecting beam.

Further, the cross section of the winding post is circular or oval.

Furthermore, the wire clamping groove is provided with an installation opening, and the flat cable passes through the installation opening and is clamped into the wire clamping groove.

Furthermore, the back of the connecting beam is provided with a buckle, the buckle and the back of the connecting beam are matched to form the wire clamping groove, one end of the buckle is fixed with the connecting beam, and the other end of the buckle and the connecting beam are limited to form the mounting opening.

Furthermore, the buckle and the connecting beam are integrally processed and formed.

Furthermore, the number of the wire clamping grooves is at least two, and the installation openings of the at least two wire clamping grooves face to the same side.

Further, the winding portion is arranged offset from the wire clamping groove.

Further, the distance between the winding part and the adjacent wire clamping groove is 3 cm-5 cm.

The utility model has the beneficial effects that:

according to the utility model, the back surface of the connecting beam is provided with the wire clamping grooves and the wire winding parts, and the wire clamping grooves and the wire winding parts are arranged at intervals along the length direction of the connecting beam, so that for a longer flat cable, one part of the flat cable can be clamped in the wire clamping grooves, and the part with the redundant length can be wound on the wire winding part to prevent the redundant flat cable from moving or drooping, thereby improving the limiting effect on the flat cable and avoiding the inconvenience in assembly caused by the interference of the flat cable and other structures on the base; in addition, the design of the wire clamping groove can also play a role in primarily fixing the flat cable so as to facilitate the flat cable to be wound on the winding part.

The number of the wire clamping grooves is at least two, and a wire winding part is arranged between any two wire clamping grooves. So design, the cell wall of accessible card wire casing plays the bearing limiting displacement to the both ends of winding displacement to make the winding displacement mid portion half wind on winding portion, need not the tensioning winding displacement, consequently can avoid excessively dragging the winding displacement and reduce its life.

The wire winding portion comprises at least two wire winding columns which are arranged at intervals along the length direction of the connecting beam. By the design, winding of the flat cable is facilitated, the flat cable with different lengths can be met by arranging at least two winding posts, namely, the flat cable can be selectively wound on the winding posts with different numbers according to the length of the flat cable, and accordingly the universality of the upper cover is improved.

The cross section of the winding post is circular or oval. By the design, sharp edges can be prevented from being generated on the peripheral side of the winding post, so that the insulating layer on the outer side of the winding post is prevented from being damaged when the winding wire is tightly wound on the winding post.

The wire clamping groove is provided with an installation opening, and the flat cable is clamped into the wire clamping groove through the installation opening. Compare with the mode of wearing to establish the card wire casing with the winding displacement so that the winding displacement is injectd at the card wire casing, the degree of difficulty that the winding displacement card was gone into the card wire casing has been simplified greatly to this scheme, and then has promoted the packaging efficiency.

The back of tie-beam is equipped with the buckle, and the buckle forms the card wire casing with the back cooperation of tie-beam, and the one end and the tie-beam of buckle are fixed, and the other end is injectd with the tie-beam and is formed the installing port. Due to the design, the buckle can have certain elastic deformation, and the size of the mounting opening can be adjusted through the elastic deformation, so that the flat cables with different sizes can be clamped into the wire clamping groove through the mounting opening; in addition, after the flat cable is clamped into the cable clamping groove, the flat cable can be effectively prevented from being separated from the cable clamping groove due to the resilience of the buckle.

The buckle and the connecting beam are integrally processed and formed. By the design, the assembling steps of the buckles can be omitted, and the assembling efficiency is improved.

The quantity of card wire casing is two at least, and the installing port of two at least card wire casings is towards same one side. By the design, the flat cable can be further conveniently clamped in the wire clamping groove.

The winding part is arranged deviating from the wire clamping groove. For a short flat cable, the flat cable does not need to be wound, so that the design can avoid the condition that the flat cable cannot be connected with the main control board in the shell due to the interference of the flat cable by the winding part.

The distance between the winding part and the adjacent wire clamping groove is 3 cm-5 cm. Due to the design, the winding wire can be wound on the winding part adjacent to the wire clamping groove conveniently, the distance between the wire clamping groove and the edge of the rectangular frame can be ensured, and the difficulty in winding the wire is avoided.

These features and advantages of the present invention will be disclosed in more detail in the following detailed description and the accompanying drawings.

[ description of the drawings ]

The utility model is further described below with reference to the accompanying drawings:

FIG. 1 is an exploded view of the top cover, faceplate and flex cable of the preferred embodiment of the utility model;

FIG. 2 is an assembly view of the cover, the faceplate and the flat cable in the preferred embodiment of the utility model;

fig. 3 is a partially enlarged view of a in fig. 2.

Reference numerals:

100. an upper cover; 110. a rectangular frame; 120. a connecting beam; 121. buckling; 200. a panel; 300. arranging wires; 400. a wire clamping groove; 410. an installation port; 500. a winding part; 510. and (4) winding the wire column.

[ detailed description ] embodiments

The utility model provides a double-end induction cooker which comprises a base, an upper cover and a panel, wherein the base is provided with two electromagnetic wire coils which are distributed at intervals at the left side and the right side, the electromagnetic wire coils are connected with a flat cable, the upper cover comprises a rectangular frame and a connecting beam, the connecting beam is connected with two long sides of the rectangular frame and is positioned between the two electromagnetic wire coils, the back of the connecting beam is provided with a wire clamping groove for limiting the flat cable and a wire winding part for winding the flat cable, and the wire clamping groove and the wire winding part are arranged at intervals along the length direction of the connecting beam.

According to the utility model, the back surface of the connecting beam is provided with the wire clamping grooves and the wire winding parts, and the wire clamping grooves and the wire winding parts are arranged at intervals along the length direction of the connecting beam, so that for a longer flat cable, one part of the flat cable can be clamped in the wire clamping grooves, and the part with the redundant length can be wound on the wire winding part to prevent the redundant flat cable from moving or drooping, thereby improving the limiting effect on the flat cable and avoiding the inconvenience in assembly caused by the interference of the flat cable and other structures on the base; in addition, the design of the wire clamping groove can also play a role in primarily fixing the flat cable so as to facilitate the flat cable to be wound on the winding part.

The technical solutions of the embodiments of the present invention are explained and illustrated below with reference to the drawings of the embodiments of the present invention, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative effort belong to the protection scope of the present invention.

Referring to fig. 1 to 3, the double-ended induction cooker in this embodiment includes a base (not shown), an upper cover 100 and a panel 200, the upper cover 100 is fixed on the base, the panel 200 is fixed on the upper cover 100 by bonding, the base, the upper cover 100 and the panel 200 are all rectangular, two induction coils (not shown) are arranged on the base and symmetrically distributed along a central line of two long sides of the base at left and right intervals, the induction coils are connected with a flat cable 300, the upper cover 100 includes a rectangular frame 110 and a connecting beam 120, the connecting beam 120 connects the two long sides of the rectangular frame 110, and the connecting beam 120 is located between the two induction coils, namely, the connecting beam 120 divides the inside of the rectangular frame 110 into two avoiding holes, the two avoiding holes are respectively positioned above the two electromagnetic wire coils, the back of the connecting beam 120 is provided with a wire clamping groove 400 for limiting the flat cable and a wire winding part 500 for winding the flat cable 300, and the wire clamping groove 400 and the wire winding part 500 are arranged at intervals along the length direction of the connecting beam 120. Therefore, for the longer flat cable 300, a part of the flat cable can be clamped in the wire clamping groove 400, and the part with the excessive length can be wound on the winding part 500 to prevent the excessive flat cable 300 from moving or drooping, so that the limiting effect on the flat cable 300 is improved, and the inconvenience in assembly caused by the interference of the flat cable 300 and other structures on the base is avoided; in addition, the design of the wire clamping groove 400 can also play a role in primarily fixing the flat cable 300 so as to facilitate the flat cable 300 to be wound on the winding part 500.

Specifically, the number of the wire clamping grooves 400 is at least two in the embodiment, and the wire winding portion 500 is arranged between any two wire clamping grooves 400, so that the groove wall of the wire clamping groove 400 can support and limit the two ends of the flat cable 300, the middle portion of the flat cable can be wound on the wire winding portion 500, the flat cable 300 does not need to be tensioned, and the flat cable 300 can be prevented from being pulled excessively to reduce the service life of the flat cable 300. Preferably, the number of the wire clamping grooves 400 is two in the embodiment, and the wire winding part 500 is arranged between the two wire clamping grooves 400, so that the two ends of the flat cable 300 can be limited and supported through the two wire clamping grooves 400, and the redundant flat cable 300 can be wound on the wire winding part 500 subsequently, so that the material cost and the processing difficulty are reduced.

In order to effectively limit the flat cable 300 with different lengths, the winding portion 500 in this embodiment includes at least two winding posts 510, for example, two, three, four or more, which are spaced along the length direction of the connecting beam 120, the at least two winding posts 510 are spaced to facilitate the flat cable 300 to be wound on each winding post 510, and the number of the winding posts 510 is set to at least two winding posts 510 which can satisfy the winding of the flat cable 300 with different lengths, that is, the flat cable 300 is spirally wound on one, two or more winding posts 510 according to the length of the flat cable 300 to limit a part of the flat cable between the two wire clamping slots 400, thereby improving the general performance of the upper cover 100. In addition, for the flat cable 300 with a general length, a part of the flat cable located between the two wire clamping grooves 400 can be optionally inserted and wound on the plurality of winding posts 510, and the design can also improve the limiting effect on the flat cable 300.

In this embodiment, the distance H between the winding part 500 and the adjacent wire clamping groove 400 is 3cm to 5cm, and when H is less than 3cm, the flat cable 300 is inconvenient to wind on the winding post 510 adjacent to the wire clamping groove 400, which increases the winding difficulty; when the H is larger than 5cm, the wire clamping groove 400 is too close to the edge of the rectangular frame 110, and the wiring 300 is not easy to run; therefore, the H in this embodiment is preferably 4cm, and with such a design, the flat cable 300 can be conveniently wound on the winding post 510 adjacent to the wire clamping groove 400, and the distance between the wire clamping groove 400 and the edge of the rectangular frame 110 can be ensured, so as to avoid the difficulty in routing the flat cable 300. Of course, H can alternatively be, but is not limited to, 3cm, 3.5cm, 4.5cm, 5cm, etc.

In order to avoid the damage of the insulating layer outside the flat cable 300, the cross section of the winding post 510 in this embodiment is circular or elliptical, so as to avoid the sharp edge generated on the outer periphery of the winding post 510, and further avoid the damage of the insulating layer outside the flat cable 300 when it is tightly wound on the winding post 510.

In order to facilitate the flat cable 300 to penetrate through the wire clamping groove 400, the wire clamping groove 400 in the embodiment is provided with the mounting opening 410, the mounting opening 410 is open towards one side of the connecting beam 120 in the width direction, and the flat cable 300 is clamped into the wire clamping groove 400 through the mounting opening 410, so that the assembly mode that the flat cable 300 penetrates through the wire clamping groove 400 is avoided, the difficulty of clamping the flat cable 300 into the wire clamping groove 400 is greatly simplified, and the assembly efficiency is improved.

In order to form the wire clamping groove 400, in this embodiment, the back surface of the connecting beam 120 is provided with the buckle 121, the buckle 121 is matched with the back surface of the connecting beam 120 to form the wire clamping groove 400, one end of the buckle 121 is fixed with the connecting beam 120 and can generate certain elastic deformation, and the other end of the buckle 121 and the connecting beam 120 define the mounting opening 410, so that the buckle 121 can have certain elastic deformation and the size of the mounting opening 410 can be adjusted through elastic deformation, so that the flat cables 300 with different sizes can be clamped into the wire clamping groove 400 through the mounting opening 410; in addition, after the flat cable 300 is clamped in the wire clamping groove 400, the buckle 121 rebounds to effectively prevent the flat cable 300 from falling out of the wire clamping groove 400. Preferably, buckle 121 and tie-beam 120 integrated into one piece machine-shaping, so the design can save the equipment step of buckle 121, promotes the packaging efficiency.

To further facilitate the snap-fitting of the flex cable 300 into the snap groove 400. The mounting openings 410 of all the wire clamping grooves 400 face the same side in the present embodiment.

Finally, in order to further improve the general performance of the upper cover 100, the winding portion 500 is disposed to deviate from the wire-clamping slot 400, so that the flat cable 300 located between the two wire-clamping slots 400 can be straightened, which is because, for some short flat cables 300, the two ends of the flat cable 300 are only required to be clamped into the wire-clamping slot 400, and then the flat cable 300 is straightened, so that the limiting effect can be achieved, and the winding is not required, therefore, the winding portion 500 is disposed to deviate from the wire-clamping slot 400, and it can be avoided that the flat cable 300 cannot be connected with the main control board in the housing due to the interference of the winding portion 500 with the flat cable 300.

It is understood that in other embodiments of the present invention, the winding portion may include only one winding post, and thus the limiting effect on the flat cable can be improved.

It is understood that in other embodiments of the present invention, the wire clamping groove may also be a through groove penetrating along the length direction of the connecting beam, and the flat cable penetrates through the through groove in a penetrating manner.

While the utility model has been described with reference to specific embodiments thereof, it will be understood by those skilled in the art that the utility model is not limited thereto, and may be embodied in many different forms without departing from the spirit and scope of the utility model as set forth in the following claims. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (10)

1. The utility model provides a double-end induction cooker, includes base, upper cover and panel, two electromagnetic wire coils of interval distribution about the base is equipped with, electromagnetic wire coil is connected with the winding displacement, the upper cover includes rectangle frame and tie-beam, the tie-beam is connected two long limits of rectangle frame are located between two electromagnetic wire coils, a serial communication port, the back of tie-beam is equipped with and is used for injecing the card wire casing of winding displacement and being used for the coiling the wire winding portion of winding displacement, card wire casing and wire winding portion along tie-beam length direction interval sets up.

2. The double-ended induction cooker according to claim 1, wherein the number of said wire-clamping slots is at least two, and said wire-winding portion is disposed between any two of said wire-clamping slots.

3. The double-ended induction cooker according to claim 2, wherein said wire winding portion comprises at least two wire winding posts spaced apart along a length of said connecting beam.

4. A double-ended induction cooker according to claim 3, wherein said winding posts are circular or elliptical in cross-section.

5. The double-ended induction cooker according to claim 1, wherein said wire clamping groove has a mounting opening, and said flat cable is clamped into said wire clamping groove through said mounting opening.

6. The double-ended induction cooker according to claim 5, wherein a buckle is provided on the back of said connection beam, said buckle cooperates with the back of said connection beam to form said wire-clamping groove, one end of said buckle is fixed to said connection beam, and the other end of said buckle and said connection beam define said mounting opening.

7. The double-ended induction cooker according to claim 6, wherein said snap is integrally formed with said connecting beam.

8. The double-ended induction cooker according to claim 5, wherein the number of said wire clamping grooves is at least two, and the mounting openings of at least two of said wire clamping grooves face the same side.

9. The double-ended induction cooker according to any one of claims 1 to 8, wherein said wire winding portion is disposed offset from said wire clipping groove.

10. The double-ended induction cooker according to any one of claims 1 to 8, wherein the distance between said wire winding portion and the adjacent wire clamping groove is 3 cm-5 cm.

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