CN218001582U - Mounting frame and heating platform - Google Patents

Abstract

The utility model provides a mounting bracket and heating platform, wherein, the mounting bracket for the heating platform, include: a support plate having a carrier region; the supporting legs are connected with the supporting plate; the reinforcing ribs are arranged on the support plate, are positioned on the periphery of the carrier area, and have top surfaces on the end surfaces of the reinforcing ribs departing from the support plate; and the height from the middle part of the top surface to the carrier region is greater than the height from the edge of the top surface to the carrier region along the circumferential direction of the carrier region. The utility model discloses a rationally set up the structure of strengthening rib and backup pad, the backup pad is located to the strengthening rib, and the strengthening rib is located the week side of carrying object region, and this setting can strengthen the structural strength of mounting bracket, and when can effectively reduce mounting bracket and a plurality of coil pack assembly, the probability of deformation takes place for the mounting bracket, can guarantee to arrange the coil pack on the mounting bracket in and arrange the cooperation size of the pan on the heating platform in, and then can guarantee to eat the culinary art taste and the color and luster of material.

Description

Mounting frame and heating platform

Technical Field

The utility model relates to a heating platform technical field particularly, relates to a mounting bracket and a heating platform.

Background

In the correlation technique, the electromagnetism stove includes mounting bracket and a plurality of coil pack, and a plurality of coil pack arrays arrange on the mounting bracket, and the bearing capacity of mounting bracket is great, and the mounting bracket easily produces deformation, can't guarantee the cooperation size of the pan on coil pack and the electromagnetism stove, influences the culinary art effect.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least solving one of the technical problems existing in the prior art or the related art.

To this end, a first aspect of the present invention provides a mounting bracket.

The second aspect of the utility model provides a heating platform.

In view of this, the first aspect of the present invention provides a mounting rack for a heating platform, including: a support plate having a carrier region; the supporting legs are connected with the supporting plate; the reinforcing ribs are arranged on the support plate and positioned on the periphery of the carrier area, and the end faces of the reinforcing ribs, which face away from the support plate, on one side are top faces; and the height from the middle part of the top surface to the carrier region is greater than the height from the edge of the top surface to the carrier region along the circumferential direction of the carrier region.

The utility model provides a pair of mounting bracket, mounting bracket include backup pad, landing leg and strengthening rib. The landing leg is connected the backup pad, and the landing leg has the effect of support and fixed bolster.

The mounting bracket is used for mounting a plurality of coil assemblies of the heating platform. Through the structure of rationally setting up strengthening rib and backup pad, the backup pad is located to the strengthening rib, and the strengthening rib is located the week side in carrier region, this setting can strengthen the structural strength of mounting bracket, when can effectively reduce mounting bracket and a plurality of coil pack assembly, the probability of deformation takes place for the mounting bracket, can guarantee to arrange the coil pack on the mounting bracket in and arrange the cooperation size of the pan on the heating platform in, and then can guarantee the culinary art taste and the color and luster of eating the material, be favorable to promoting the performance and the market competition of heating platform.

In addition, the object carrying region of the supporting plate has the functions of installing and fixing the coil assembly, the reinforcing ribs are located on the periphery side of the object carrying region, and the reinforcing ribs can not interfere the assembly of the coil assembly on the object carrying region while ensuring the structural strength of the mounting frame to be improved.

Meanwhile, the height from the middle part of the top surface to the carrier region is greater than the height from the edge of the top surface to the carrier region along the circumferential direction of the carrier region. This setting has reduced the material input of strengthening rib when satisfying the requirement of the structural strength of reinforcing mounting bracket, is favorable to reducing the weight and the manufacturing cost of mounting bracket.

According to the utility model discloses foretell mounting bracket can also have following additional technical characterstic:

in the above technical solution, further, the reinforcing rib is located on the end face where the carrying area is located; the periphery wall of backup pad includes relative first wall and the second wall that sets up, and the strengthening rib extends along the direction of first wall to second wall.

In this technical scheme, further inject the cooperation structure of strengthening rib and backup pad, specifically, the strengthening rib is located the terminal surface that the year district belonged to, should set up rational utilization coil pack and mount frame at the ascending fitting space of direction of height, can not increase the mount frame at length direction and ascending size in width direction, and then can not increase the occupancy to heating platform inner space.

Specifically, the peripheral wall of the support plate comprises a first wall surface and a second wall surface which are arranged oppositely, the peripheral wall of the support plate further comprises a third wall surface and a fourth wall surface which are arranged oppositely, the third wall surface is connected between the first wall surface and the second wall surface, and the fourth wall surface is connected between the first wall surface and the second wall surface. The first wall surface and the second wall surface are wall surfaces in the width direction, and the third wall surface and the fourth wall surface are wall surfaces in the length direction. The reinforcing ribs extend in the direction from the first wall surface to the second wall surface, that is, the reinforcing ribs extend in the longitudinal direction of the support plate. This setting can increase the area of contact of strengthening rib and backup pad, and then is favorable to promoting the structural strength of product.

Specifically, a plurality of coil assemblies are arranged along the length direction of the support plate.

In any of the above technical solutions, further, the number of the reinforcing ribs is two, and the carrier region is located between the two reinforcing ribs.

In this technical scheme, the quantity of strengthening rib is two, rationally prescribes a limit to the cooperation relation in two strengthening ribs and year thing region for the thing region of carrying is located between two strengthening ribs, should be provided with and does benefit to the equilibrium and the uniformity that guarantee the structural strength of each position department of backup pad, but the probability that deformation takes place for greatly reduced mounting bracket.

In any of the above technical solutions, further, the support plate, the leg and the reinforcing rib are integrally formed.

In the technical scheme, the supporting plate, the supporting legs and the reinforcing ribs are integrally formed, and the structure is provided with the assembling process of the supporting plate, the supporting legs and the reinforcing ribs, so that the forming process of the supporting plate, the supporting legs and the reinforcing ribs is simplified, and the processing efficiency of products is improved. In addition, the supporting plate, the supporting legs and the reinforcing ribs are integrally formed, so that the dimensional accuracy of the product can be guaranteed.

In addition, backup pad, landing leg and strengthening rib integrated into one piece, the strengthening rib has the effect of predeformation, prevents that the mount from producing deformation at the demolding in-process, can guarantee to coil the interval between coil pack and the pan, and then can guarantee heating platform's heating efficiency, and guarantees pan equilibrium and the uniformity that is heated.

In any of the above embodiments, further, the height of the bead gradually increases and then gradually decreases along the circumferential direction of the carrier region.

In this embodiment, the shape of the bead is further defined, and specifically, the height of the bead gradually increases and then gradually decreases in the circumferential direction of the carrier region. That is, the top surface of the reinforcing rib is an arc surface.

In any of the above technical solutions, further, a mounting groove is provided on the leg, a groove bottom of the mounting groove is bent to form a convex portion and a concave portion, and the convex portion is closer to the bottom of the leg than the concave portion; wherein the recess is used for connecting with the shell of the heating platform.

In this technical scheme, heating platform includes the casing, is equipped with protruding muscle in the casing. The groove bottom of the mounting groove is arranged in a bending mode to form a convex portion and a concave portion, and the convex portion is closer to the bottom of the supporting leg than the concave portion. That is, the height of the position of the convex portion is lower than the height of the position of the concave portion in the height direction of the leg.

During the assembly mounting bracket, arrange the mounting bracket in the casing, press the mounting bracket downwards, protruding muscle on the casing contacts the convex part earlier, and then protruding muscle is deformation under the effect of extrusion force to cross in the convex part card income concave part, in order to realize that mounting bracket and casing assembly are in the same place. After the mounting frame is assembled, the convex parts are matched with the object carrying plate of the shell to limit the displacement of the mounting frame in the height direction of the shell, and the side wall of the mounting frame can limit the displacement of the mounting frame in the height direction perpendicular to the shell. The mounting frame and the shell are stably and firmly assembled together, the mounting frame can be effectively prevented from loosening, and effective and reliable structural support is provided for ensuring the distance between the coil assembly and the pan of the pan.

It can be understood that when the mounting bracket is disassembled, the mounting bracket can be lifted upwards by force, and when the pulling force is greater than the elastic deformation of the interference part between the convex rib and the concave part, the mounting bracket can be taken out.

This setting is convenient for install and dismantle the mounting bracket, and it is low to have the dismouting degree of difficulty, the efficient advantage of dismouting.

In any one of the above technical solutions, further, the landing leg is provided with a first rib plate and a second rib plate, the first rib plate and the second rib plate both extend along the height direction of the landing leg, and the first rib plate and the second rib plate form a side wall of the mounting groove.

In the technical scheme, the support leg is provided with a first rib plate and a second rib plate, the first rib plate and the second rib plate form a side wall of the mounting groove, and the first rib plate and the second rib plate are matched with each other to limit the displacement of the mounting frame along the height direction perpendicular to the shell.

In addition, first gusset and second gusset all extend along the direction of height of landing leg, promptly, first gusset, second gusset and the landing leg that is located between first gusset and the second gusset form the mounting groove that link up, like this, arrange the mounting bracket in the casing after, through the mode of pressing the mounting bracket, can realize that the protruding muscle in the casing inserts in the mounting groove to along the mounting groove motion in order to block locating the concave part.

In any of the above technical solutions, further, the first rib plate and the second rib plate each include a guide section, and the guide section is closer to the bottom of the leg than the convex part; and along the direction from the bottom to the top of the supporting leg, the distance from the guide section of the first rib plate to the guide section of the second rib plate is gradually increased.

In this technical scheme, through the cooperation structure of reasonable first gusset and second gusset that sets up for the direction section is compared and is more close to the bottom of landing leg in the convex part, along the direction of the bottom to the top of landing leg, and the distance of the direction section of first gusset to the direction section of second gusset increases gradually. That is, the guide section of the first rib plate and the guide section of the second rib plate form a splayed shape, or the guide section of the first rib plate and the guide section of the second rib plate form a flared shape. The guide section of the first rib plate and the guide section of the second rib plate have a guiding effect, and are more beneficial to centering of the convex ribs in the shell, so that the convex ribs can be inserted into the concave parts more smoothly when the mounting frame is pressed downwards with force. This be provided with and do benefit to the convenience that promotes mounting bracket and casing assembly, be favorable to promoting the dismouting efficiency of product.

In any of the above technical solutions, further, the number of the legs is two, and the two legs are distributed at intervals on the peripheral side of the carrier region.

In the technical scheme, the number of the supporting legs is two, and the two supporting legs are distributed on the peripheral side of the carrier area at intervals. That is, the shape enclosed by the two legs and the support plate is "concave". One side of one support leg, which deviates from the other support leg, is provided with a mounting groove.

In any one of the above technical solutions, further, the object carrying region is provided with a mounting hole, a first limiting rib and a second limiting rib are arranged on the hole wall of the mounting hole, and the first limiting rib and the second limiting rib are used for fixing the coil assembly of the heating platform.

In this technical scheme, heating platform includes the coil pack, and the coil pack includes support, coil and magnetic part, and the first side of support is located to the coil, and the second side of support is located to the magnetic part. Be equipped with two spinner of relative setting on the support, the support can stretch into in the mounting hole, and just first spacing muscle supports and leans on in the first side of a spinner, and the spacing muscle of second supports and leans on in the second side of another spinner.

The first limiting rib and the second limiting rib are arranged in a staggered mode.

When support and mounting bracket assembly, first spacing muscle supports and leans on in the first side of a spinner, and the spacing muscle of second supports and leans on in the second side of another spinner to realize support and mounting bracket assembly mesh together. This setting can guarantee the distance of coil pack and pan for coil pack can heat the pan and eat the material in order to cook.

In any of the above technical solutions, further, the object carrying area is further provided with a positioning groove, the positioning groove is located at one side of the mounting hole, and the positioning groove is used for fixing the elastic supporting member of the heating platform.

In this technical scheme, elastic support's partly is located the constant head tank, and elastic support stretches out the outside part of constant head tank and coil pack butt to play the effect that the year thing board that makes coil pack and casing leans on.

Specifically, when coil pack and casing assembly, elastic support piece jack-up coil pack under the effect of self elasticity, can adjust coil pack and carry the fit dimension of thing board, make coil pack laminate mutually with carrying the thing board all the time, in order to guarantee coil pack and the fit dimension of placing the pan on heating platform's the thing board that carries, temperature is controllable when can guaranteeing coil pack heating pan, and then can guarantee the culinary art taste and the color and luster of eating the material, be favorable to promoting heating platform's performance and market competition.

It can be understood that, the position of the year thing board of casing is fixed, during the assembly heating platform, even coil pack takes place the slope, elastic support spare jacking coil pack, after coil pack contacted year thing board, coil pack can be in its and carry the cooperation position of thing board of self-adaptation regulation under elastic support spare's the effect of jacking, and then can satisfy the coil pack and carry the user demand that the thing board leaned on.

Specifically, elastic support elements is located between coil pack and the constant head tank, and that is, elastic support elements is located one side that coil pack deviates from year thing board, can reduce the produced heat of coil pack during operation to elastic support elements's damage, that is to say, when guaranteeing that coil pack supports with year thing board and leans on, is favorable to prolonging elastic support elements's life, and then can guarantee heating platform's life.

In addition, a part of the elastic supporting piece is positioned in the positioning groove, and the part of the elastic supporting piece extending out of the positioning groove is abutted to the coil assembly. This setting has increased mounting bracket and elastic support's cooperation area and cooperation angle, is favorable to promoting the steadiness and the reliability of mounting bracket and elastic support assembly.

In any one of the above technical solutions, further, the number of the positioning grooves is plural, and the plurality of positioning grooves are arranged at intervals along the circumferential direction of the mounting hole.

In this technical scheme, the quantity of constant head tank is a plurality of, and a plurality of constant head tanks are arranged along the circumference interval of mounting hole. It will be appreciated that there are also a plurality of resilient support members which engage the detents, one resilient support member for each detent. This setting can guarantee the equilibrium and the uniformity of coil pack different positions department atress, avoids coil pack to take place the condition emergence of slope.

The second aspect of the utility model provides a heating platform, include: at least one mounting bracket according to any of the preceding claims.

The utility model provides a heating platform, because of including as in the first aspect arbitrary technical scheme's mounting bracket, consequently, have all beneficial effects of above-mentioned mounting bracket, do not state one by one here.

In the above technical solution, further, the heating platform further includes: the shell is internally provided with a convex rib; the mounting bracket is located the casing, and the protruding muscle can cross the convex part card of landing leg and go into the concave part of landing leg.

In this technical scheme, heating platform includes the casing, is equipped with protruding muscle in the casing. The groove bottom of the mounting groove on the leg is arranged in a bending way to form a convex part and a concave part, and the convex part is closer to the bottom of the leg than the concave part. That is, the height of the position of the convex portion is lower than the height of the position of the concave portion in the height direction of the leg.

During the assembly mounting bracket, arrange the mounting bracket in the casing, press the mounting bracket downwards, protruding muscle on the casing contacts the convex part earlier, and then protruding muscle is deformation under the effect of extrusion force to cross in the convex part card goes into the concave part, in order to realize that mounting bracket and casing assembly are in the same place. After the mounting frame is assembled, the convex parts are matched with the loading plate of the shell to limit the displacement of the mounting frame in the height direction of the shell, and the side wall of the mounting groove can limit the displacement of the mounting frame in the height direction perpendicular to the shell. The mounting frame and the shell are stably and firmly assembled together, the mounting frame can be effectively prevented from loosening, and effective and reliable structural support is provided for ensuring the distance between the coil assembly and the pan of the pan.

It will be appreciated that, when the mounting bracket is removed, the mounting bracket may be lifted upwardly by a force which is greater than the elastic deformation of the interference portion between the rib and the recess, at which point the mounting bracket may be removed.

This setting is convenient for install and dismantle the mounting bracket, and it is low to have the dismouting degree of difficulty, advantage that the dismouting is efficient.

In any of the above technical solutions, further, at least one of the rib and the mounting groove of the leg is an elastic member.

In this technical scheme, the at least one of the mounting groove of protruding muscle and landing leg is the elastic component, can cross the convex part card income landing leg for the protruding muscle under the exogenic action in the concave part of landing leg, provides reliable structural support.

In any of the above technical solutions, further, the heating platform further includes: the coil assembly is positioned in the shell, one part of the coil assembly is positioned in the mounting hole of the carrier area, and two turnbuckles which are oppositely arranged are arranged on the part of the coil assembly positioned in the mounting hole; the first spacing muscle in the mounting hole supports and leans on in the first side of a spiral shell, and the spacing muscle of second in the mounting hole supports and leans on in the second side of another spiral shell.

In this technical scheme, heating platform includes the coil pack, and the coil pack includes support, coil and magnetic part, and the first side of support is located to the coil, and the second side of support is located to the magnetic part. Be equipped with two spinner of relative setting on the support, the support can stretch into in the mounting hole, and just first spacing muscle supports and leans on in the first side of a spinner, and the spacing muscle of second supports and leans on in the second side of another spinner.

The first limiting rib and the second limiting rib are arranged in a staggered mode.

When support and mounting bracket assembly, first spacing muscle supports and leans on in the first side of a spinner, and the spacing muscle of second supports and leans on in the second side of another spinner to realize support and mounting bracket assembly mesh together. This setting can guarantee the distance of coil pack and pan for coil pack can heat the pan and eat the material in order to cook.

In any of the above technical solutions, further, the housing includes a loading plate, and the heating platform further includes: and the elastic supporting piece is positioned in the shell, connected between the coil assembly and the mounting frame and used for enabling the coil assembly to abut against the loading plate.

In this technical scheme, elastic support element connects between coil pack and mounting bracket, when coil pack and casing assembly, elastic support element jack-up coil pack under the effect of self elasticity, can adjust coil pack and carry the fit dimension of thing board, make coil pack laminate mutually with carrying the thing board all the time, with the fit dimension who guarantees coil pack and place the pan on heating platform's the thing board, temperature is controllable when can guaranteeing coil pack heating pan, and then can guarantee the culinary art taste and the color and luster of eating the material, be favorable to promoting heating platform's performance and market competition.

It can be understood that, the position of the year thing board of casing is fixed, during the assembly heating platform, even coil pack takes place the slope, elastic support spare jacking coil pack, after coil pack contacted year thing board, coil pack can be in its and carry the cooperation position of thing board of self-adaptation regulation under elastic support spare's the effect of jacking, and then can satisfy the coil pack and carry the user demand that the thing board leaned on.

Specifically, elastic support element is located between coil pack and the constant head tank, and that is to say, elastic support element is located one side that coil pack deviates from and carries the thing board, can reduce the produced heat of coil pack during operation to elastic support element's damage, that is to say, when guaranteeing that coil pack and year thing board support and lean on, is favorable to prolonging elastic support element's life, and then can guarantee heating platform's life.

Specifically, the year thing district of mounting bracket is equipped with the constant head tank, and elastic support element's partly is located the constant head tank, and elastic support element stretches out the outer part of constant head tank and coil pack butt to play the effect that the year thing board that makes coil pack and casing leaned on. This setting has increased mounting bracket and elastic support's cooperation area and cooperation angle, is favorable to promoting the steadiness and the reliability of mounting bracket and elastic support assembly.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 shows a schematic structural view of a first viewing angle of a mounting frame according to an embodiment of the invention;

FIG. 2 is an enlarged view of a portion of the mount shown in FIG. 1 at A;

fig. 3 shows a schematic structural view of a second viewing angle of a mounting frame of an embodiment of the invention;

FIG. 4 is an enlarged view of a portion of the mount shown in FIG. 3 at B;

fig. 5 shows a schematic structural view of a first viewing angle of a mounting bracket and coil assembly of an embodiment of the invention;

fig. 6 shows a schematic structural view of a second perspective of the mounting bracket and coil assembly of an embodiment of the present invention;

fig. 7 shows a schematic diagram of a third perspective of a mounting bracket and coil assembly of an embodiment of the invention;

FIG. 8 is an enlarged partial view of the mounting bracket and coil assembly of FIG. 7 at C;

figure 9 illustrates a cross-sectional view of a mounting bracket and coil assembly of an embodiment of the present invention;

FIG. 10 is an enlarged partial view of the mounting bracket and coil assembly shown in FIG. 9 at D;

fig. 11 shows a schematic partial structural view of a heating platform according to an embodiment of the present invention;

figure 12 illustrates a cross-sectional view of a heating platform of an embodiment of the present invention;

fig. 13 is an enlarged view of a portion of the heating platen shown in fig. 12 at E.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 13 is:

100 mounting frames, 110 supporting plates, 112 carrying areas, 114 first walls, 116 second walls, 118 mounting holes, 120 first limiting ribs, 122 second limiting ribs, 124 positioning grooves, 126 top surfaces, 130 supporting legs, 132 mounting grooves, 134 convex parts, 136 concave parts, 138 first rib plates, 140 second rib plates, 142 guide sections, 150 reinforcing ribs, 200 heating platforms, 210 shells, 212 convex ribs, 214 carrying plates, 220 coil assemblies, 222 turnbuckles, 224 supports, 226 coils, 227 mica sheets, 228 magnetic parts, 230 temperature measuring parts, 232 elastic parts and 240 elastic supporting parts.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The following describes a mounting block 100 and a heating platform 200 according to some embodiments of the present invention with reference to fig. 1 to 13.

Example 1:

as shown in fig. 1 and 2, an embodiment of the first aspect of the present invention provides a mounting block 100 for a heating platform 200, wherein the mounting block 100 includes a support plate 110, support legs 130 and reinforcing ribs 150.

The support plate 110 has a carrier region 112.

The legs 130 are connected to the support plate 110.

The ribs 150 are disposed on the support plate 110, the ribs 150 are disposed on the periphery of the carrier region 112, and an end surface of the rib 150 facing away from the support plate 110 is a top surface 126.

Wherein, along the circumference of the carrier region 112, the height from the middle of the top surface 126 to the carrier region 112 is greater than the height from the edge of the top surface 126 to the carrier region 112.

In detail, the mounting block 100 includes a support plate 110, legs 130, and reinforcing ribs 150. The legs 130 are connected to the support plate 110, and the legs 130 have a function of supporting and fixing the support plate 110.

The mounting block 100 is used to mount a plurality of coil assemblies 220 of the heating platform 200. Through the structure of rationally setting up strengthening rib 150 and backup pad 110, backup pad 110 is located to strengthening rib 150, and strengthening rib 150 is located the week side of carrier region 112, this setting can strengthen the structural strength of mounting bracket 100, when can effectively reduce mounting bracket 100 and the assembly of a plurality of coil pack 220, the probability of deformation takes place for mounting bracket 100, can guarantee to arrange coil pack 220 on mounting bracket 100 in and arrange the cooperation size of the pan on heating platform 200 in, and then can guarantee the culinary art taste and the color and luster of eating the material, be favorable to promoting heating platform 200's performance and market competition.

In addition, the carrier region 112 of the support plate 110 has a function of mounting and fixing the coil assembly 220, the reinforcing ribs 150 are located on the peripheral side of the carrier region 112, and the reinforcing ribs 150 do not interfere with the assembly of the coil assembly 220 on the carrier region 112 while ensuring the structural strength of the elevating mounting block 100.

Meanwhile, since the height from the middle of the top surface 126 to the carrier region 112 is greater than the height from the edge of the top surface 126 to the carrier region 112 in the circumferential direction of the carrier region 112. This setting has reduced the material input of strengthening rib 150 when satisfying the requirement of reinforcing mounting bracket 100's structural strength, is favorable to reducing mounting bracket 100's weight and manufacturing cost.

Specifically, the height of the top surface 126 from the carrier region 112 is 0mm along the circumference of the carrier region 112.

Specifically, the edge of the top surface 126 is positioned higher than the position of the carrier region 112 in the height direction of the legs 130.

Example 2:

as shown in fig. 1 and 2, in embodiment 1, embodiment 2 provides a mounting block 100 for a heating platform 200, and the mounting block 100 includes a support plate 110, legs 130, and reinforcing ribs 150.

The support plate 110 has a carrier region 112.

The legs 130 are connected to the support plate 110.

The ribs 150 are disposed on the support plate 110, the ribs 150 are located on the periphery of the carrier region 112, and an end surface of the rib 150 facing away from the support plate 110 is a top surface 126.

Further, as shown in fig. 1 and 2, the reinforcing ribs 150 are located on the end surface where the carrier region 112 is located.

The outer peripheral wall of the support plate 110 includes a first wall surface 114 and a second wall surface 116 which are disposed opposite to each other, and a reinforcing rib 150 extends in a direction from the first wall surface 114 to the second wall surface 116.

In detail, the arrangement of the reinforcing ribs 150 and the supporting plate 110 is further limited, and particularly, the reinforcing ribs 150 are located on the end surface where the carrier region 112 is located, so that the assembly gap between the coil assembly 220 and the mounting block 100 in the height direction is reasonably utilized, the dimensions of the mounting block 100 in the length direction and the width direction are not increased, and the occupancy rate of the internal space of the heating platform 200 is not increased.

Specifically, the outer peripheral wall of the support plate 110 includes a first wall surface 114 and a second wall surface 116 which are disposed opposite to each other, and the outer peripheral wall of the support plate 110 further includes a third wall surface and a fourth wall surface which are disposed opposite to each other, the third wall surface being connected between the first wall surface 114 and the second wall surface 116, and the fourth wall surface being connected between the first wall surface 114 and the second wall surface 116. The first wall surface 114 and the second wall surface 116 are wall surfaces in the width direction, and the third wall surface and the fourth wall surface are wall surfaces in the length direction. The reinforcing ribs 150 extend in the direction from the first wall surface 114 to the second wall surface 116, that is, the reinforcing ribs 150 extend in the lengthwise direction of the support plate 110. This setting can increase the area of contact of strengthening rib 150 and backup pad 110, and then is favorable to promoting the structural strength of product.

Specifically, the plurality of coil assemblies 220 are arranged along the length direction of the support plate 110.

Specifically, the rib 150 extends from the first wall 114 to the second wall 116.

Example 3:

as shown in fig. 1 and 2, based on embodiment 1 or embodiment 2, embodiment 3 provides a mounting block 100 for a heating platform 200, wherein the mounting block 100 comprises a support plate 110, legs 130 and reinforcing ribs 150.

The support plate 110 has a carrier region 112.

The legs 130 are connected to the support plate 110.

The ribs 150 are disposed on the support plate 110, the ribs 150 are disposed on the periphery of the carrier region 112, and an end surface of the rib 150 facing away from the support plate 110 is a top surface 126.

Further, the number of ribs 150 is two, and the carrier region 112 is located between the two ribs 150.

In detail, the number of the reinforcing ribs 150 is two, so that the matching relationship between the two reinforcing ribs 150 and the carrier region 112 is reasonably limited, the carrier region 112 is located between the two reinforcing ribs 150, the arrangement is favorable for ensuring the balance and consistency of the structural strength of each position of the support plate 110, and the probability of deformation of the mounting frame 100 can be greatly reduced.

Further, the support plate 110, the leg 130 and the reinforcing bar 150 are integrally formed.

The support plate 110, the support legs 130 and the reinforcing ribs 150 are integrally formed, and the structural arrangement omits the assembling process of the support plate 110, the support legs 130 and the reinforcing ribs 150, so that the forming process of the support plate 110, the support legs 130 and the reinforcing ribs 150 is simplified, and the processing efficiency of products is improved. In addition, the support plate 110, the legs 130 and the reinforcing bars 150 are integrally formed to ensure the dimensional accuracy of the product.

In addition, backup pad 110, landing leg 130 and strengthening rib 150 an organic whole are formed, and strengthening rib 150 has the effect of predeformation, prevents that mounting bracket 100 from producing deformation at the demolding in-process, can guarantee to coil assembly 220 and pan between the pan interval, and then can guarantee heating platform 200's heating efficiency, and guarantee pan heated equilibrium and uniformity.

Specifically, the support plate 110, the legs 130, and the reinforcing ribs 150 are integrally injection molded.

Further, the height of the rib 150 gradually increases and then gradually decreases along the circumferential direction of the carrier region 112.

In this case, the shape of the reinforcing rib 150 is further defined, and specifically, the height of the reinforcing rib 150 is gradually increased and then gradually decreased along the circumferential direction of the carrier region 112. That is, the top surface 126 of the rib 150 is a curved surface.

Example 4:

as shown in fig. 1 and 2, based on any of the above embodiments, embodiment 4 provides a mounting block 100 for a heating platform 200, where the mounting block 100 includes a support plate 110, legs 130, and reinforcing ribs 150.

The support plate 110 has a carrier region 112.

The legs 130 are connected to the support plate 110.

The ribs 150 are disposed on the support plate 110, the ribs 150 are located on the periphery of the carrier region 112, and an end surface of the rib 150 facing away from the support plate 110 is a top surface 126.

Further, as shown in fig. 1, 2, 12 and 13, the leg 130 is provided with a mounting groove 132, a groove bottom of the mounting groove 132 is bent to form a convex portion 134 and a concave portion 136, and the convex portion 134 is closer to the bottom of the leg 130 than the concave portion 136.

Wherein the recess 136 is adapted to be coupled to the housing 210 of the heating platform 200.

In detail, the heating platform 200 includes a housing 210, and a rib 212 is disposed in the housing 210. The groove bottom of the mounting groove 132 is bent to form a convex portion 134 and a concave portion 136, and the convex portion 134 is closer to the bottom of the leg 130 than the concave portion 136. That is, the height of the position of the convex portion 134 is lower than that of the concave portion 136 in the height direction of the leg 130.

When the mounting block 100 is assembled, the mounting block 100 is placed in the housing 210, the mounting block 100 is pressed downwards, the rib 212 on the housing 210 contacts the convex part 134 first, and then the rib 212 is deformed under the action of the pressing force and goes over the convex part 134 to be clamped into the concave part 136, so that the mounting block 100 and the housing 210 are assembled together. After the mounting block 100 is assembled, the convex portion 134 and the carrier plate 214 of the housing 210 cooperate to limit the displacement of the mounting block 100 in the height direction of the housing 210, and the side wall of the mounting groove 132 can limit the displacement of the mounting block 100 in the height direction perpendicular to the housing 210. So that the mounting bracket 100 and the housing 210 are stably and firmly assembled together, the mounting bracket 100 can be effectively prevented from being loosened, and an effective and reliable structural support is provided for ensuring the distance between the coil assembly 220 and the pan of the cookware.

It will be appreciated that upon removal of the mount 100, the mount 100 may be lifted upwardly with a force that causes the mount 100 to be removed when a pulling force greater than the elastic deformation of the interference between the ribs 212 and the recesses 136 is applied.

This setting is convenient for install and dismantle mounting bracket 100, has the dismouting degree of difficulty and hangs down, the efficient advantage of dismouting.

Specifically, the ribs 212 in the housing 210 are elastic members.

Specifically, the mounting groove 132 is an elastic member.

Specifically, the rib 212 and the mounting groove 132 in the housing 210 are both elastic members.

Example 5:

as shown in fig. 1 and 2, embodiment 5 provides a mounting block 100 for a heating platform 200 based on embodiment 4, wherein the mounting block 100 comprises a support plate 110, legs 130 and reinforcing ribs 150.

The support plate 110 has a carrier region 112.

The legs 130 are connected to the support plate 110.

The ribs 150 are disposed on the support plate 110, the ribs 150 are disposed on the periphery of the carrier region 112, and an end surface of the rib 150 facing away from the support plate 110 is a top surface 126.

The leg 130 is provided with a mounting groove 132, the groove bottom of the mounting groove 132 is bent to form a convex portion 134 and a concave portion 136, and the convex portion 134 is closer to the bottom of the leg 130 than the concave portion 136.

Wherein the recess 136 is adapted to be coupled to the housing 210 of the heating platform 200.

Further, as shown in fig. 1 and 2, the leg 130 is provided with a first rib 138 and a second rib 140.

First web 138 and second web 140 each extend along the height of leg 130.

First web 138 and second web 140 form the side walls of mounting slot 132.

In detail, the leg 130 is provided with a first rib plate 138 and a second rib plate 140, the first rib plate 138 and the second rib plate 140 form a side wall of the mounting groove 132, and the first rib plate 138 and the second rib plate 140 cooperate to limit the displacement of the mounting bracket 100 in a direction perpendicular to the height direction of the housing 210.

In addition, the first rib plate 138 and the second rib plate 140 both extend along the height direction of the leg 130, that is, the first rib plate 138, the second rib plate 140 and the leg 130 between the first rib plate 138 and the second rib plate 140 form a through mounting groove 132, so that after the mounting block 100 is placed in the housing 210, the rib 212 in the housing 210 can be inserted into the mounting groove 132 by pressing the mounting block 100, and moves along the mounting groove 132 to be clamped in the recess 136.

Further, as shown in fig. 1 and 2, first web 138 and second web 140 each include a guide section 142, guide section 142 being closer to the bottom of leg 130 than projection 134.

The distance from the guide section 142 of the first web 138 to the guide section 142 of the second web 140 increases progressively in the bottom to top direction of the leg 130.

By reasonably arranging the matching structures of the first rib plate 138 and the second rib plate 140, the distance from the guide section 142 of the first rib plate 138 to the guide section 142 of the second rib plate 140 is gradually increased along the direction from the bottom to the top of the supporting leg 130. That is, the guide section 142 of the first rib plate 138 and the guide section 142 of the second rib plate 140 form a figure of "eight", or the guide section 142 of the first rib plate 138 and the guide section 142 of the second rib plate 140 form a bell mouth. The guiding sections 142 of the first rib plate 138 and the second rib plate 140 have a guiding function, which is more beneficial for centering the ribs 212 in the housing 210, so that the ribs 212 can be inserted into the concave parts 136 more smoothly when the mounting frame 100 is pressed downwards by force. This be provided with and be favorable to promoting the convenience of mounting bracket 100 and casing 210 assembly, be favorable to promoting the dismouting efficiency of product.

Specifically, the groove bottom of the mounting groove 132 includes a mating section, the protrusion 134 is located between the recess 136 and the mating section, and the mating section is located between the guide section 142 of the first rib 138 and the guide section 142 of the second rib 140. The mating segment is angled toward the middle of the bracket 224. This arrangement further facilitates the rib 212 to slide into the mounting groove 132, enhancing the guiding effect.

Example 6:

as shown in fig. 1 and 2, based on any of the above embodiments, embodiment 6 provides a mounting block 100 for a heating platform 200, where the mounting block 100 includes a support plate 110, legs 130, and reinforcing ribs 150.

The support plate 110 has a carrier region 112.

The legs 130 are connected to the support plate 110.

The ribs 150 are disposed on the support plate 110, the ribs 150 are located on the periphery of the carrier region 112, and an end surface of the rib 150 facing away from the support plate 110 is a top surface 126.

Further, the number of the legs 130 is two, and the two legs 130 are spaced apart from the periphery of the carrier region 112.

In detail, the number of the legs 130 is two, and the two legs 130 are spaced apart from each other on the peripheral side of the carrier region 112. That is, the shape enclosed by the two legs 130 and the support plate 110 is "concave". The side of one leg 130 facing away from the other leg 130 is provided with a mounting slot 132.

Example 7:

as shown in fig. 1 and 2, embodiment 7 provides a mounting block 100 for a heating platform 200 based on any of the above embodiments, where the mounting block 100 includes a support plate 110, legs 130, and reinforcing ribs 150.

The support plate 110 has a carrier region 112.

The legs 130 are connected to the support plate 110.

The ribs 150 are disposed on the support plate 110, the ribs 150 are disposed on the periphery of the carrier region 112, and an end surface of the rib 150 facing away from the support plate 110 is a top surface 126.

Further, as shown in fig. 1, 2, 3, 4, 5, 6, 7, 9 and 10, the carrier region 112 is provided with mounting holes 118.

The wall of the mounting hole 118 has a first limiting rib 120 and a second limiting rib 122.

The first and second limiting ribs 120 and 122 are used to fix the coil assembly 220 of the heating platform 200.

In detail, the heating platform 200 includes a coil assembly 220, the coil assembly 220 includes a support 224, a coil 226, and a magnetic member 228, the coil 226 is disposed on a first side of the support 224, and the magnetic member 228 is disposed on a second side of the support 224. Two turnbuckles 222 which are oppositely arranged are arranged on the support 224, the support 224 can extend into the mounting hole 118, the first limiting rib 120 abuts against the first side of one turnbuckle 222, and the second limiting rib 122 abuts against the second side of the other turnbuckle 222.

The first limiting rib 120 and the second limiting rib 122 are arranged in a staggered manner.

When the bracket 224 is assembled with the mounting bracket 100, the first limiting rib 120 abuts against a first side of one of the turnbuckles 222, and the second limiting rib 122 abuts against a second side of the other turnbuckle 222, so as to achieve the purpose of assembling the bracket 224 with the mounting bracket 100. This setting can guarantee the distance of coil pack 220 and pan for coil pack 220 can heat the pan and eat the material in order to cook.

Example 8:

as shown in fig. 1 and 2, in addition to the above embodiment 7, embodiment 8 provides a mounting block 100 for a heating platform 200, wherein the mounting block 100 includes a support plate 110, legs 130 and reinforcing ribs 150.

The support plate 110 has a carrier region 112.

The legs 130 are connected to the support plate 110.

The ribs 150 are disposed on the support plate 110, the ribs 150 are located on the periphery of the carrier region 112, and an end surface of the rib 150 facing away from the support plate 110 is a top surface 126.

The carrier region 112 is provided with mounting holes 118.

The wall of the mounting hole 118 has a first limiting rib 120 and a second limiting rib 122.

The first and second limiting ribs 120 and 122 are used to fix the coil assembly 220 of the heating platform 200.

Further, as shown in fig. 1, 2, 9 and 10, the carrier region 112 is further provided with a positioning groove 124, the positioning groove 124 is located at one side of the mounting hole 118, and the positioning groove 124 is used for fixing the elastic supporting member 240 of the heating platform 200.

In detail, a portion of the elastic support 240 is located in the positioning slot 124, and a portion of the elastic support 240 extending out of the positioning slot 124 abuts against the coil assembly 220, so as to make the coil assembly 220 abut against the carrier plate 214 of the housing 210.

Specifically, when coil pack 220 and casing 210 assemble, elastic support element 240 jack-up coil pack 220 under the effect of self elasticity, can adjust coil pack 220 and carry the cooperation size of thing board 214, make coil pack 220 laminate mutually with carrying thing board 214 all the time, in order to guarantee coil pack 220 and the cooperation size of placing the pan on the thing board 214 of heating platform 200, temperature is controllable when can guaranteeing coil pack 220 heating pan, and then can guarantee the culinary art taste and the color and luster of eating the material, be favorable to promoting heating platform 200's performance and market competition.

It can be understood that, the position of the loading plate 214 of the housing 210 is fixed, and when the heating platform 200 is assembled, even if the coil assembly 220 tilts, the coil assembly 220 is lifted by the elastic support 240, and after the coil assembly 220 contacts the loading plate 214, the coil assembly 220 can adaptively adjust the matching position of the coil assembly 220 and the loading plate 214 under the action of the lifting force of the elastic support 240, so as to meet the use requirement that the coil assembly 220 abuts against the loading plate 214.

Specifically, elastic support 240 is located between coil assembly 220 and positioning groove 124, that is, elastic support 240 is located on one side of coil assembly 220 departing from carrying board 214, and can reduce the damage of heat generated during the operation of coil assembly 220 to elastic support 240, that is, while ensuring that coil assembly 220 abuts against carrying board 214, it is favorable to prolonging the service life of elastic support 240, and then can guarantee the service life of heating platform 200.

In addition, a portion of the elastic supporting member 240 is located in the positioning slot 124, and a portion of the elastic supporting member 240 extending out of the positioning slot 124 abuts against the coil assembly 220. This arrangement increases the fitting area and the fitting angle between the mounting bracket 100 and the elastic supporting member 240, which is beneficial to improving the assembling stability and reliability of the mounting bracket 100 and the elastic supporting member 240.

Further, the number of the positioning grooves 124 is plural, and the plural positioning grooves 124 are arranged at intervals along the circumferential direction of the mounting hole 118.

The number of the positioning grooves 124 is plural, and the plural positioning grooves 124 are arranged at intervals along the circumferential direction of the mounting hole 118. It is understood that there are a plurality of elastic supports 240 engaged with the positioning grooves 124, and each positioning groove 124 is engaged with one elastic support 240. This setting can guarantee the equilibrium and the uniformity of coil pack 220 different position department atress, avoids coil pack 220 to take place the condition emergence of slope.

Example 9:

as shown in fig. 11, an embodiment of the second aspect of the present invention provides a heating platform 200, including: at least one mounting block 100 as in any of the embodiments of the first aspect.

In detail, since the heating platform 200 includes the mounting block 100 according to any one of the embodiments of the first aspect, all the advantages of the mounting block 100 are provided, which is not described herein.

Further, as shown in fig. 12 and 13, the heating platform 200 further includes a housing 210, and a rib 212 is disposed in the housing 210.

The mounting bracket 100 is positioned within the housing 210 and the rib 212 is able to snap over the protrusion 134 of the leg 130 and into the recess 136 of the leg 130.

In detail, the heating platform 200 includes a housing 210, and a rib 212 is disposed in the housing 210. The groove bottom of the mounting groove 132 on the leg 130 is bent to form a protrusion 134 and a recess 136, the protrusion 134 being closer to the bottom of the leg 130 than the recess 136. That is, the height of the position of the convex portion 134 is lower than that of the concave portion 136 in the height direction of the leg 130.

When the mounting block 100 is assembled, the mounting block 100 is placed in the casing 210, the mounting block 100 is pressed downwards, the convex rib 212 on the casing 210 contacts the convex part 134 first, then the convex rib 212 deforms under the action of the pressing force and goes over the convex part 134 to be clamped into the concave part 136, and therefore the mounting block 100 and the casing 210 are assembled together. After the mounting block 100 is assembled, the convex portion 134 and the carrier plate 214 of the housing 210 cooperate to limit the displacement of the mounting block 100 in the height direction of the housing 210, and the side wall of the mounting groove 132 can limit the displacement of the mounting block 100 in the height direction perpendicular to the housing 210. So that the mounting bracket 100 and the housing 210 are stably and firmly assembled together, the mounting bracket 100 can be effectively prevented from being loosened, and effective and reliable structural support is provided for ensuring the distance between the coil assembly 220 and the pan of the cookware.

It will be appreciated that, upon removal of the mounting block 100, the mounting block 100 may be lifted upwardly with a force that is greater than the elastic deformation of the interference portion between the ribs 212 and the recesses 136, and the mounting block 100 may then be removed.

This setting is convenient for install and dismantle mounting bracket 100, and it is low to have the dismouting degree of difficulty, the efficient advantage of dismouting.

Further, at least one of the rib 212 and the mounting groove 132 of the leg 130 is an elastic member.

At least one of the rib 212 and the mounting groove 132 of the leg 130 is an elastic member, so that the rib 212 can be clamped into the recess 136 of the leg 130 over the protrusion 134 of the leg 130 under the action of an external force, thereby providing a reliable structural support.

Example 10:

as shown in fig. 11, on the basis of the above embodiment 9, embodiment 10 provides a heating platform 200, including: at least one mounting block 100.

Further, as shown in fig. 3, 4, 7 and 8, the heating platform 200 further includes a coil assembly 220.

The coil assembly 220 is located in the housing 210, a portion of the coil assembly 220 is located in the mounting hole 118 of the carrier region 112, and the portion of the coil assembly 220 located in the mounting hole 118 is provided with two oppositely-arranged turnbuckles 222.

The first limiting rib 120 in the mounting hole 118 abuts against a first side of one turn buckle 222, and the second limiting rib 122 in the mounting hole 118 abuts against a second side of the other turn buckle 222.

In detail, the heating platform 200 includes a coil assembly 220, the coil assembly 220 includes a support 224, a coil 226, and a magnetic member 228, the coil 226 is disposed on a first side of the support 224, and the magnetic member 228 is disposed on a second side of the support 224. Two turnbuckles 222 which are oppositely arranged are arranged on the bracket 224, the bracket 224 can extend into the mounting hole 118, the first limiting rib 120 abuts against the first side of one turnbuckle 222, and the second limiting rib 122 abuts against the second side of the other turnbuckle 222.

The first limiting rib 120 and the second limiting rib 122 are arranged in a staggered manner.

When the bracket 224 is assembled with the mounting bracket 100, the first limiting rib 120 abuts against a first side of one turn buckle 222, and the second limiting rib 122 abuts against a second side of the other turn buckle 222, so as to achieve the purpose of assembling the bracket 224 with the mounting bracket 100. This setting can guarantee the distance of coil pack 220 and pan for coil pack 220 can heat the pan and eat the material in order to cook.

Further, as shown in fig. 9 and 10, the housing 210 includes a carrier plate 214.

The heating platform 200 further comprises an elastic support 240, the elastic support 240 is located in the housing 210, the elastic support 240 is connected between the coil assembly 220 and the mounting frame 100, and the elastic support 240 is used for abutting the coil assembly 220 and the carrier plate 214.

Wherein, elastic support element 240 is connected between coil pack 220 and mounting bracket 100, when coil pack 220 and casing 210 assemble, elastic support element 240 jack-up coil pack 220 upwards under the effect of self elasticity, can adjust the fit dimension of coil pack 220 and year thing board 214, make coil pack 220 laminate with year thing board 214 all the time, in order to guarantee coil pack 220 and the fit dimension of the pan of placing on the year thing board 214 of heating platform 200, temperature is controllable when can guaranteeing coil pack 220 heating pan, and then can guarantee the culinary art taste and the color and luster of edible material, be favorable to promoting heating platform 200's performance and market competition.

It can be understood that, the position of the loading plate 214 of the housing 210 is fixed, and when the heating platform 200 is assembled, even if the coil assembly 220 tilts, the coil assembly 220 is lifted by the elastic support 240, and after the coil assembly 220 contacts the loading plate 214, the coil assembly 220 can adaptively adjust the matching position of the coil assembly 220 and the loading plate 214 under the action of the lifting force of the elastic support 240, so as to meet the use requirement that the coil assembly 220 abuts against the loading plate 214.

Specifically, elastic support 240 is located between coil assembly 220 and locating slot 124, that is, elastic support 240 is located one side of coil assembly 220 deviating from carrying board 214, and can reduce the damage of the heat that coil assembly 220 produced during operation to elastic support 240, that is, when guaranteeing that coil assembly 220 leans on with carrying board 214, be favorable to prolonging elastic support 240's life, and then can guarantee heating platform 200's life.

Specifically, the carrier region 112 of the mounting block 100 is provided with a positioning slot 124, a portion of the elastic support 240 is located in the positioning slot 124, and a portion of the elastic support 240 extending out of the positioning slot 124 abuts against the coil assembly 220, so as to make the coil assembly 220 abut against the carrier plate 214 of the housing 210. This arrangement increases the fitting area and the fitting angle between the mounting bracket 100 and the elastic supporting member 240, which is beneficial to improving the assembling stability and reliability of the mounting bracket 100 and the elastic supporting member 240.

Further, as shown in fig. 9 and 10, the coil block 220 further includes a mica sheet 227, a temperature measuring member 230, and an elastic portion 232.

A mica sheet 227 is provided on the side of the coil 226 facing away from the magnetic member 228. The mica sheet 227 has the function of ensuring the safety and reliability of the use of the heating platform 200.

In addition, the peripheral wall of the mica sheet 227 protrudes out of the peripheral wall of the coil 226, that is, in the direction of the coil 226 to the magnetic member 228, the orthographic projection of the mica sheet 227 on the coil 226 can cover the coil 226. This arrangement can secure the insulating effect by defining the fitting size of the mica sheet 227 and the coil 226.

The bracket 224 is detachably connected to the mounting bracket 100. The coil 226 is disposed on a first side of the support 224 and the magnetic element 228 is disposed on a second side of the support 224, i.e., the coil 226 and the magnetic element 228 are disposed on different sides of the support 224, and in particular, the coil 226 and the magnetic element 228 are disposed on opposite sides of the support 224.

It will be appreciated that the magnetic member 228 is located on one side of the mounting block 100, i.e., the magnetic member 228 is located between the coil 226 and the mounting block 100. When the heating platform 200 works, the alternating current can generate a magnetic field through the coil 226, and when a magnetic line of force in the magnetic field passes through the bottom of the pot, a vortex is generated, so that the bottom of the pot is rapidly heated, and the purpose of heating food materials in the pot is achieved. The magnetic member 228 has a function of collecting magnetic lines.

In addition, under the effect of elastic support element 240, temperature measurement element 230 can lean on with year thing board 214 and lean on, like this, can guarantee to detect the precision and the reliability of temperature, provides reliable structural support for realizing the temperature control to heating platform 200. Because the temperature measurement piece 230 can lean on with carrying the thing board 214 and lean on, promptly, temperature measurement piece 230 is difficult for inclining, and is difficult for droing, can guarantee the cooperation size of temperature measurement piece 230 and the pan of placing on carrying the thing board 214, provides structural support for guaranteeing that the pan thermally equivalent.

Specifically, when the coil assembly 220 is assembled with the housing 210, the elastic supporting member 240 pushes up the coil assembly 220 under the action of its own elastic force, so that the fitting size of the temperature measuring member 230 and the loading plate 214 can be adjusted, and the temperature measuring member 230 is always attached to the loading plate 214.

The elastic part 232 is connected between the bracket 224 and the temperature measuring member 230, and the elastic part 232 is used for abutting the temperature measuring part with the loading plate 214. When the coil assembly 220 is assembled with the housing 210, the elastic supporting member 240 is matched with the elastic portion 232 to lift the temperature measuring member 230 upwards, so that the matching size of the temperature measuring member 230 and the loading plate 214 can be adjusted, the temperature measuring member 230 is always attached to the loading plate 214, the matching size of the temperature measuring member 230 and a pot placed on the loading plate 214 of the heating platform 200 is ensured, and the accuracy and the reliability of temperature measurement of the temperature measuring member 230 can be ensured.

It can be understood that, the position of the object carrying plate 214 of the housing 210 is fixed, and when the heating platform 200 is assembled, even if the temperature measuring part 230 inclines, the elastic part 232 jacks the temperature measuring part 230, and after the temperature measuring part 230 contacts the object carrying plate 214, the temperature measuring part 230 can adaptively adjust the matching position of the temperature measuring part 230 and the object carrying plate 214 under the action of the jacking force of the elastic part 232, so that the use requirement that the temperature measuring part 230 and the object carrying plate 214 are abutted can be met.

Example 11:

the specific structure of the mounting block 100 is as follows:

reinforcing ribs 150: the reinforcing rib 150 of the mounting block 100 has a high middle height, and both ends of the reinforcing rib are flush with the upper surface of the support plate 110 to form an upward arc shape. Because of mounting bracket 100 is die-cast aluminium spare, this arc formation predeformation prevents to produce deformation at the demolding in-process, influences the dish interval between drum and the pan, power decline when leading to the heating.

Positioning groove 124: the elastic supporting member 240 is used for mounting and supporting, so as to form elastic deformation, and ensure that the coil assembly 220 can float up and down at a small distance, so that the coil assembly 220 is attached to the loading plate 214.

The supporting legs 130 are provided with mounting grooves 132, the housing 210 is internally provided with convex ribs 212, the mounting grooves 132 and the convex ribs 212 are matched to fix the mounting rack 100 on the housing 210, and the mounting rack 100 is limited and prevented from loosening.

The leg 130 is provided with a first rib plate 138 and a second rib plate 140, the first rib plate 138 and the second rib plate 140 both extend along the height direction of the leg 130, and the first rib plate 138 and the second rib plate 140 form the side wall of the mounting groove 132. First web 138 and second web 140 each include a guide section 142; the distance from the guide section 142 of the first web 138 to the guide section 142 of the second web 140 increases gradually in the bottom to top direction of the leg 130. The device has the functions of limiting and guiding.

The coil assembly 220 is provided with two oppositely arranged rotary buckles 222 at the portion thereof located in the mounting hole 118; the first limiting rib 120 in the mounting hole 118 abuts against a first side of one turn buckle 222, and the second limiting rib 122 in the mounting hole 118 abuts against a second side of the other turn buckle 222.

Specifically, the elastic support member and the elastic portion are both silicone members.

In the present application, the term "plurality" means two or more unless expressly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (16)

1. A mounting bracket for a heated platform, comprising:

a support plate having a carrier region;

the supporting legs are connected with the supporting plate;

the reinforcing ribs are arranged on the supporting plate, are positioned on the periphery of the carrying object area, and the end faces of the reinforcing ribs, which are far away from the supporting plate, on one side are top faces;

wherein, along the circumference of the carrier region, the height from the middle part of the top surface to the carrier region is greater than the height from the edge of the top surface to the carrier region.

2. The mount of claim 1, wherein the stiffener is located on an end face where the carrier region is located;

the periphery wall of backup pad includes relative first wall and the second wall that sets up, the strengthening rib is followed first wall is to the direction of second wall extends.

3. The mount of claim 1 or 2, wherein the ribs gradually increase in height and then gradually decrease in height along the circumference of the carrier region.

4. The mount of claim 1 or 2,

the number of the reinforcing ribs is two, and the carrier area is located between the two reinforcing ribs;

the support plate, the legs and the reinforcing ribs are integrally formed.

5. The mounting bracket as claimed in claim 1 or 2, wherein the leg is provided with a mounting groove, the groove bottom of the mounting groove is bent to form a convex part and a concave part, and the convex part is closer to the bottom of the leg than the concave part;

wherein the recess is used for connecting with the shell of the heating platform.

6. The mounting frame according to claim 5, wherein the landing leg is provided with a first rib plate and a second rib plate, the first rib plate and the second rib plate both extend along the height direction of the landing leg, and the first rib plate and the second rib plate form a side wall of the mounting groove.

7. The mount of claim 6, wherein the first web and the second web each include a guide section that is closer to a bottom of the leg than the protrusion;

and the distance from the guide section of the first rib plate to the guide section of the second rib plate is gradually increased along the direction from the bottom to the top of the supporting leg.

8. The mount according to claim 1 or 2, wherein the number of legs is two, and the two legs are spaced apart around the circumference of the carrier region.

9. The mounting frame as claimed in claim 1 or 2, wherein the carrier region is provided with a mounting hole, a first limiting rib and a second limiting rib are arranged on a hole wall of the mounting hole, and the first limiting rib and the second limiting rib are used for fixing a coil assembly of the heating platform.

10. The mounting rack as claimed in claim 9, wherein the carrier area is further provided with a positioning slot located at one side of the mounting hole for fixing a resilient support of the heating platform.

11. The mount of claim 10, wherein the number of the positioning grooves is plural, and the positioning grooves are arranged at intervals along a circumferential direction of the mounting hole.

12. A heated platen, comprising:

at least one mounting frame as claimed in any one of claims 1 to 11.

13. The heated platen of claim 12, further comprising:

the shell is internally provided with a convex rib;

the mounting frame is located in the shell, and the convex ribs can cross the convex parts of the supporting legs and be clamped into the concave parts of the supporting legs.

14. The heated platform of claim 13, wherein at least one of the ribs and the mounting slots of the legs is a resilient member.

15. The heated platen of claim 13 or 14, further comprising:

the coil assembly is positioned in the shell, one part of the coil assembly is positioned in the mounting hole of the carrier area, and two turnbuckles which are oppositely arranged are arranged on the part of the coil assembly positioned in the mounting hole;

the first limiting rib in the mounting hole is abutted against the first side of one turn buckle, and the second limiting rib in the mounting hole is abutted against the second side of the other turn buckle.

16. The heated platform of claim 15, wherein the housing comprises a load plate, the heated platform further comprising: and the elastic supporting piece is positioned in the shell, connected between the coil assembly and the mounting frame and used for enabling the coil assembly to abut against the carrying plate.

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