CN218209712U - Electromagnetic heating equipment - Google Patents

Abstract

The utility model provides an electromagnetic heating equipment, electromagnetic heating equipment includes: a support; the panel is arranged on the bracket; a base for supporting the stand; the buckle is arranged on one of the base and the bracket and is clamped with the other one of the base and the bracket; the dismounting part is arranged on the buckle and used for connecting a dismounting tool, and the dismounting tool is used for relieving the clamping state through prying the buckle. Compare in threaded connection and join, buckle connection structure's dismouting action is comparatively simple, promotes the support and can accomplish the assembly to preset position, promotes the buckle and can accomplish the dismantlement, has removed from consuming time and has closed the connection operation soon to the efficiency of assembly and dismantlement panel has been promoted. And the damage that the buckle caused to corresponding joint structure such as draw-in groove is less at the dismouting in-process, and frequent dismantlement panel can not make the buckle inefficacy, from this can see, the electromagnetic heating subassembly that this application injectd has overcome the dismouting inefficiency that exists among the correlation technique, the easy technical defect that loses efficacy of dismouting structure.

Description

Electromagnetic heating equipment

Technical Field

The utility model relates to an electromagnetic heating technical field particularly, relates to an electromagnetic heating equipment.

Background

In the related art, the panel bracket of the induction cooker is often fixed on the main body through a threaded connection structure such as a screw and a bolt, but the threaded connection has a problem of low disassembly and assembly efficiency, and the threaded connection structure is frequently disassembled to cause a thread slipping problem.

Therefore, how to overcome the above technical defects becomes a technical problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least.

For this reason, an aspect of the utility model provides an electromagnetic heating equipment.

In view of this, the utility model provides an electromagnetic heating device, electromagnetic heating device includes: a support; the panel is arranged on the bracket; a base for supporting the stand; the buckle is arranged on one of the base and the bracket and is clamped with the other one of the base and the bracket; the dismounting part is arranged on the buckle and used for connecting a dismounting tool, and the dismounting tool is used for relieving the clamping state through prying the buckle.

The application has limited an electromagnetic heating equipment, and electromagnetic heating equipment can generate the electromagnetic field, and the target container is placed in electromagnetic heating equipment top, and the temperature of target container risees gradually under the effect of electromagnetic field to cook into finished product food through high temperature target container.

The electromagnetic heating equipment comprises a support, a panel and a base. The panel is located electromagnetic heating equipment top, is used for bearing the target container on the one hand, and on the other hand is used for providing operation platform for the user, and the coil panel among the electromagnetic heating equipment forms the heating region in panel corresponding position, places the target container in the heating region can pass through electromagnetic field heating target container. The base is a main body frame structure of the electromagnetic heating equipment and is used for positioning and supporting other working structures on the electromagnetic heating equipment. The support sets up in the panel bottom, and the support is connected with the frame to fix the panel on the base.

In the related art, in order to meet the connection requirement of the upper panel and the main body of the induction cooker, the panel bracket is pressed on the main body through a screw connection structure such as a screw, a bolt and the like. For the reliable fixed of satisfying the panel, need set up a large amount of threaded connection structure, nevertheless threaded connection structure has the problem of dismouting inefficiency, and the user need consume a large amount of time and energy at a large amount of threaded connection structure's of dismouting in proper order in-process, influences the production efficiency of product and has increased the maintenance time cost of product. Moreover, the screw holes corresponding to the threaded connection structures can be damaged by dismounting actions at every time, and the phenomenon of tooth slipping can occur when the threaded connection structures are frequently dismounted, so that the technical problem that the dismounting times of the induction cooker are limited is caused.

To this end, the electromagnetic heating apparatus defined herein further provides a buckle, the buckle being mounted on one of the bracket and the base, and the buckle being capable of being snapped with the other of the panel and the base. In the assembling process, after the support is moved to a preset position on the base, the buckle is automatically clamped into the panel or the base, so that the panel is fixed above the base. When the panel needs to be detached, a user can operate the buckle to enable the buckle to be released from the buckling relation with the support or the base, so that the panel can be detached from the upper portion of the base.

Compare in threaded connection and join, buckle connection structure's dismouting action is comparatively simple, promotes the support and can accomplish the assembly to preset position, promotes the buckle and can accomplish the dismantlement, has removed from consuming time and has closed the connection operation soon to the efficiency of assembly and dismantlement panel has been promoted. And the damage that the buckle caused to corresponding joint structures such as draw-in groove is less at the dismouting in-process, and frequent dismantlement panel can not make the buckle inefficacy to for the user cleans base inner structure and change internal failure structure and provide convenient condition, and through removing the restriction of dismouting number of times prolonged electromagnetic heating equipment's life.

Therefore, the electromagnetic heating assembly defined by the application overcomes the technical defects of low disassembly and assembly efficiency and easy failure of the disassembly and assembly structure in the related technology. And then realized optimizing panel and base connection structure, promoted electromagnetic heating subassembly production efficiency, reduced the electromagnetic heating subassembly and maintained the degree of difficulty, extension electromagnetic heating subassembly life's technological effect.

Further, the electromagnetic heating equipment still includes the dismantlement portion, and the dismantlement portion sets up on the buckle, and the dismantlement portion is used for cooperating extracting tool. When the panel is required to be detached, a user can push or pry the detaching part to drive the buckle to move to the unlocking position so as to remove the clamping relation between the support and the base. Through the arrangement of the dismounting part, a user can dismount the buckle in an assisting mode through the dismounting tool, so that the dismounting difficulty of the buckle is reduced, and the dismounting efficiency of the buckle is further improved. And the buckle can be detached by means of a detaching tool to avoid the buckle structure from damaging the hand of a user. And then realized providing convenience for the user, promoted the technical effect of electromagnetic heating equipment security.

Additionally, the utility model provides an above-mentioned electromagnetic heating equipment can also have following additional technical characterstic:

in the technical scheme, the bracket comprises a clamping groove, and the buckle is movably arranged on the base; the buckle is clamped with the clamping groove under a preset position.

In this technical scheme, the buckle is installed on the base, and the buckle can be relative base deformation or the buckle can be relative base motion. The position of the bracket corresponding to the buckle is provided with a clamping groove, and the clamping groove is matched with the buckle. In the assembling process, after the support and the panel are aligned to the base, the panel is pushed downwards, and when the panel and the support move to a preset mounting position, the buckle is automatically clamped into the clamping groove, so that the panel and the support are prevented from moving mutually through the matching of the buckle and the clamping groove, and the connection of the support and the base is completed.

The base possesses sufficient installation space, sets up the buckle on the base, the draw-in groove sets up and can remove the buckle to the restriction of supporting structure on the support, is favorable to reducing the structural complexity and the processing degree of difficulty of support. Simultaneously compare in complicated knot bit architecture, the processing degree of difficulty of draw-in groove is lower, is favorable to compressing electromagnetic heating equipment's manufacturing cost.

In any one of the above technical schemes, the detaching part deviates from the clamping groove, and the detaching tool is used for making the buckle exit from the clamping groove by prying the detaching part.

In this technical scheme, the dismantlement portion of setting on the buckle deviates from the draw-in groove setting, and the buckle is located between dismantlement portion and the draw-in groove promptly. On this basis, when the panel was dismantled to needs, user's accessible extracting tool pried the dismantlement portion and made the buckle turn round to the direction that deviates from the draw-in groove, perhaps moved the dismantlement portion through priing and made the buckle towards the direction of keeping away from the draw-in groove and remove to make the buckle withdraw from in by the draw-in groove, in order to relieve the joint state of buckle and draw-in groove.

Therefore, the dismounting part is arranged on one side of the clamping groove, on one hand, convenience conditions can be provided for a user to pry the buckle, and the user can easily withdraw from the buckle through prying actions. On the other hand can be with extracting tool's the back side of controlling the space restriction at buckle joint face to avoid extracting tool to harm the joint face of buckle, reduce the possibility that the buckle became invalid. And then realize reducing the buckle and dismantle the degree of difficulty, reduce the technical effect of buckle fault rate.

In any one of the above technical solutions, the electromagnetic heating apparatus further includes: one end of the elastic piece is connected with the base, and the other end of the elastic piece is connected with the buckle and used for driving the buckle to reset to a preset position.

In this technical scheme, the buckle can move relative to the base, and the relative base of buckle possesses primary importance and second place, and the draw-in groove can be gone into to the buckle under the primary importance, and the buckle is located the draw-in groove outside under the second place. On this basis, electromagnetic heating equipment still is provided with the elastic component, and the one end and the base of elastic component are connected, and the other end and the buckle of elastic component are connected.

The elastic part can keep the buckle in the primary importance, and support and panel are close to the in-process of predetermined mounted position, and the support promotes the buckle to the second place, until support and panel remove to predetermined mounted position, and the buckle is the draw-in groove in automatic card income under the effect of elastic part. The in-process of dismantling the panel, when the buckle moved to the second position by the primary importance, elastic component deformation and accumulation elastic potential energy, after extracting tool loosened the buckle, the elastic component drove the buckle through release elasticity performance and resets to the primary importance to make the buckle can carry out next joint action.

Therefore, the buckle can be automatically clamped and automatically reset by arranging the elastic piece, so that the operation of manually operating the buckle by a user is omitted, the difficulty in disassembling and assembling the panel is reduced, and the technical effect of using experience of the user is improved.

Specifically, the elastic component can be a tension spring, a torsion spring or a rubber strip, and the technical scheme does not rigidly limit the specific structural form of the elastic component, so that the automatic reset requirement can be met.

In any of the above technical solutions, the detaching portion includes a receptacle for insertion of a detaching tool.

In this technical scheme, dismantlement portion includes the jack, and the jack is towards the support below region. When dismantling the panel, insert the jack with extracting tool earlier, prize the buckle to the second position by the primary importance through the swing extracting tool afterwards to the joint relation of contact base and support, so that take off the panel.

Through setting up the jack, can pry the buckle for extracting tool and provide the convenient condition, the user can promote extracting tool rapidly to can pry under the position of buckle through the guide effect of jack, reduces the unable accurate possibility of finding the position of prying of user, and then realizes reducing the panel and dismantle the degree of difficulty, promotes the technological effect of electromagnetic heating equipment practicality.

In any of the above technical solutions, the electromagnetic heating apparatus further includes: and the contact pin can be inserted into the jack and used for prying the buckle.

In this technical scheme, electromagnetic heating equipment is supporting to have the contact pin, and the structure is dismantled for dedicated buckle to the contact pin. Specifically, the radial dimension of jack is less than the radial dimension of contact pin, makes the contact pin can insert the jack, and the user's accessible inserts the comparatively convenient buckle of prizing to the contact pin of jack.

Furthermore, the base is provided with a groove for accommodating the contact pin, the contact pin is embedded into the groove under the condition that the contact pin is not used, and the contact pin is taken out of the groove when the contact pin is required to be used.

Through for the supporting contact pin that sets up of electromagnetic heating equipment, make the user can accomplish the dismantlement operation of panel under the condition without the help of the outer extracting tool of product to for the user facilitates the condition, promote electromagnetic heating assembly's practicality.

In any of the above technical schemes, the end of the contact pin is provided with a guide surface; in the process that the contact pin is inserted into the jack, the guide surface prizes the buckle through pushing the inner wall of the jack.

In this technical scheme, the contact pin can realize the sled of buckle through the grafting action. Specifically, the insertion end of the contact pin is provided with a guide inclined plane, the guide inclined plane is inclined relative to the inner surface of the jack, and the distance between the guide inclined plane and the central line of the contact pin is gradually increased in the direction away from the insertion end of the contact pin. Dismantle the in-process of panel, insert the jack with the contact pin along first direction, the direction inclined plane of butt on the jack internal surface can promote the jack and remove to the direction of keeping away from the draw-in groove at the in-process that shifts up, if the buckle is elastic construction then the joint end of buckle can be to the direction turn of keeping away from the draw-in groove, if the buckle can base motion relatively, the direction inclined plane can promote the buckle to the second position. After the panel is disassembled from the upper part of the base, the contact pins and the jack separation buckles automatically reset so as to be ready for the next buckling connection.

Further, be provided with the guiding hole on the base, the hole of paraphase extends in the first direction, and the contact pin inserts the guiding hole earlier, inserts the jack along the first direction under the guiding action of guiding hole afterwards to ensure that the spigot surface on the contact pin can accurate sled and move the buckle.

Therefore, the contact pin can be pried only by virtue of the plugging action by arranging the guide surface on the contact pin, the operation of swinging the contact pin by a user is avoided, the disassembling action of the buckle is simplified, and the disassembling difficulty of the buckle is reduced. The technical effects of improving the practicability of the contact pin and providing convenience conditions for users are achieved.

In any of the above technical solutions, the panel and the buckle are arranged at an interval.

In the technical scheme, the panel and the buckle are linearly provided with a gap, and air in the gap can play a role in blocking heat. In the course of the work, can pile up a large amount of heats on the panel, compare in the scheme of buckle with the panel contact, set up above-mentioned interval and can reduce the speed that the heat was transmitted to the buckle by the panel to play the effect of protection buckle, reduce the buckle because of the high temperature melting's possibility. Thereby realizing the improvement of the safety and the reliability of the electromagnetic heating equipment. And, when the buckle selected to compare when the elastic material, the elasticity that high temperature can make the buckle received the influence, leads to the buckle inefficacy, consequently sets up above-mentioned interval and can play extension buckle life's technological effect.

In any of the above technical solutions, the electromagnetic heating apparatus further includes: and the heat insulation part is connected with the panel and is positioned between the panel and the buckle.

In this technical scheme, take over aforementioned technical scheme, electromagnetic heating equipment still includes thermal-insulated portion, and thermal-insulated portion sets up in the interval between panel and buckle, and the heat conduction rate of thermal-insulated portion is lower, fills thermal-insulated portion between panel and buckle and can further reduce the rate that the heat is transferred to the buckle by the panel to reduce the temperature of buckle in the heating process. And then realize promoting electromagnetic heating equipment security and reliability, the technological effect of extension buckle life-span.

In any of the above technical solutions, the bracket abuts against the base; the surface of the bracket contacted with the base is a cambered surface.

In this technical scheme, when installing support and panel to preset position, the lower extreme butt of support is on the base to through base bearing support and panel, avoid support and panel slope, can not topple over with the target container of guaranteeing to place in the panel top.

On this basis, the lower extreme of support is provided with the cambered surface, and the cambered surface specifically can be at the lower extreme processing chamfer of support with the base butt to through chamfer butt base. Through setting up above-mentioned cambered surface, can avoid the support of butt on the base to damage the base on the one hand, on the other hand can avoid the lower extreme fish tail buckle of support in the installation. Therefore, the technical effects of improving the structural reliability of the electromagnetic heating equipment and reducing the failure rate of the electromagnetic heating equipment are achieved.

In any of the above technical solutions, the bracket is located at the bottom of the panel, and the bracket is located on the periphery of the base.

In this technical scheme, the support mounting is in the below of panel, and with support and panel installation to predetermined position after, the support is located the week side of base, and the buckle is located between support and the base. Under this structural configuration, the support can play the effect of protection buckle and base, avoids inboard buckle of exterior structure fish tail and base. And set up the support and can pry the buckle for the user and provide convenient condition in base week side, for example the user can insert the contact pin from bottom to top between support and base to accomplish the dismantlement action rapidly. Therefore, the technical effects of optimizing the structural layout of the electromagnetic heating equipment, reducing the failure rate of the electromagnetic heating equipment and reducing the panel disassembly difficulty are achieved.

In any of the above technical schemes, the support is multiple, and the plurality of supports are arranged around the base.

In this technical scheme, the support is a plurality of, connects panel and base jointly through setting up a plurality of supports, can promote the positioning accuracy of panel and promote the connection stability of panel to reduce the not hard up possibility that drops even of support.

On this basis, a plurality of supports encircle in the week side of base, set up a plurality of sets of buckles and draw-in groove structure that can set up around the base of a plurality of supports that encircle to from a plurality of position fixed bolster and panel, avoid the panel to incline the dislocation in the course of the work. Thereby further improving the accuracy and positioning reliability of the panel.

In any one of the above technical solutions, the bracket is strip-shaped, and the plurality of slots are arranged at intervals in the length direction of the bracket.

In the technical scheme, the bracket is strip-shaped, and the arrangement of the strip-shaped bracket can reduce the processing difficulty of the bracket and is favorable for reducing the processing error. On this basis, be provided with a plurality of draw-in grooves on every support, a plurality of draw-in grooves interval sets up in the length direction of support, through set up a plurality of draw-in grooves on every support, can further promote the positioning accuracy and the connection reliability of panel, further reduce the possibility of panel dislocation.

Taking the base as an example, four brackets are arranged below the panel and respectively correspond to two long edges and two wide edges of the base, wherein two ends of each bracket are respectively provided with a clamping groove, and the clamping grooves are eight clamping grooves in total. Correspondingly, eight buckles are correspondingly arranged at four corners of the rectangular support, so that the support and the panel are fixed through eight groups of buckles and clamping grooves.

In any one of the above technical solutions, the electromagnetic heating apparatus further includes: the connecting piece, linking bridge and base.

In the technical scheme, the electromagnetic heating assembly is further provided with a connecting piece which is used for connecting the support and the base. The connection form of the buckle and the clamping groove has the possibility of tripping when the buckle and the clamping groove are impacted by the outside or the electromagnetic heating equipment generates large-amplitude shaking. In this regard, the connecting piece is arranged to fixedly connect the bracket and the base, so that impact and shaking can be resisted by the connecting piece, and the buckle is prevented from tripping. And then realized promoting the panel degree of stabilizing, reduced electromagnetic heating equipment fault rate's technological effect.

Specifically, the connecting piece is a screw, a first screw hole and a second screw hole are respectively arranged on the support and the base, and the screw is screwed into the aligned first screw hole and the aligned second screw hole in the assembling process so as to connect the support and the base through the screw. Wherein, use the both ends of every support all to set up a draw-in groove as the example, first screw sets up between two draw-in grooves, and two draw-in grooves first screw symmetry relatively to further promote the steadiness of panel through optimizing the atress.

In any one of the above technical solutions, the electromagnetic heating apparatus further includes: and the coil panel is arranged in the base and is opposite to the panel.

In this technical scheme, electromagnetic heating equipment still includes the coil panel, and the coil panel sets up in the base, can produce the electromagnetic field above the panel after the coil panel circular telegram, and the target container of placing above the panel rapidly heaies up under the effect of electromagnetic field to cook food through high temperature target container.

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 one of the schematic structural views of an electromagnetic heating apparatus according to an embodiment of the present invention;

fig. 2 shows a second schematic structural view of an electromagnetic heating apparatus according to an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of the electromagnetic heating apparatus in the embodiment of FIG. 2 in area A;

fig. 4 shows a third schematic structural view of an electromagnetic heating apparatus according to an embodiment of the present invention;

fig. 5 shows a fourth schematic structural view of an electromagnetic heating apparatus according to an embodiment of the present invention;

fig. 6 is a partially enlarged view of the electromagnetic heating apparatus in the embodiment shown in fig. 5 in a region B.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 6 is:

100 electromagnetic heating equipment, 110 supports, 112 clamping grooves, 120 panels, 130 bases, 140 buckles, 150 detaching parts, 152 jacks, 160 pins, 162 guide surfaces, 170 heat insulation parts and 200 detaching tools.

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.

Electromagnetic heating apparatus according to some embodiments of the present invention are described below with reference to fig. 1 to 6.

Example one

As shown in fig. 1, fig. 2 and fig. 4, an embodiment of the first aspect of the present invention provides an electromagnetic heating apparatus 100, where the electromagnetic heating apparatus 100 includes: a support 110; a panel 120 disposed on the bracket 110; a base 130 for supporting the bracket 110; the buckle 140 is arranged on one of the base 130 and the bracket 110 and is clamped with the other of the base 130 and the bracket 110; and a detaching part 150 provided to the clip 140 for connecting a detaching tool 200, wherein the detaching tool 200 is used to release the clipping state by prying the clip 140.

The present application defines an electromagnetic heating device 100, the electromagnetic heating device 100 being capable of generating an electromagnetic field, the target container being placed above the electromagnetic heating device 100, the temperature of the target container gradually rising under the effect of the electromagnetic field, thereby cooking the food material into a finished food product through the high temperature target container.

The electromagnetic heating apparatus 100 includes a support 110, a panel 120, and a susceptor 130. The panel 120 is located at the top of the electromagnetic heating device 100, and is used for supporting the target container on one hand, and on the other hand, providing an operation platform for a user, a coil panel in the electromagnetic heating device 100 forms a heating region at a position corresponding to the panel 120, and the target container can be heated by an electromagnetic field when placed in the heating region. The base 130 is a main frame structure of the electromagnetic heating apparatus 100, and is used for positioning and supporting other working structures on the electromagnetic heating apparatus 100. The bracket 110 is disposed at the bottom of the panel 120, and the bracket 110 is coupled to the frame, thereby fixing the panel 120 to the base 130.

In the related art, in order to meet the connection requirement of the upper panel and the main body of the induction cooker, the panel bracket is pressed on the main body through a screw connection structure such as a screw, a bolt and the like. For the reliable fixed of satisfying the panel, need set up a large amount of threaded connection structure, nevertheless threaded connection structure has the problem of dismouting inefficiency, and the user need consume a large amount of time and energy at a large amount of threaded connection structure's of dismouting in proper order in-process, influences the production efficiency of product and has increased the maintenance time cost of product. Moreover, the screw holes corresponding to the threaded connection structures can be damaged by dismounting actions at every time, and the phenomenon of tooth slipping can occur when the threaded connection structures are frequently dismounted, so that the technical problem that the dismounting times of the induction cooker are limited is caused.

In this regard, the electromagnetic heating apparatus 100 defined in the present application is further provided with a clip 140, the clip 140 is mounted on one of the bracket 110 and the base 130, and the clip 140 can be clipped with the other of the panel 120 and the base 130. During assembly, after the bracket 110 is moved to a predetermined position on the base 130, the latch 140 is automatically snapped into the panel 120 or the base 130 to fix the panel 120 above the base 130. When the panel 120 needs to be detached, the user can operate the latch 140 to release the latch 140 from the engaging relationship with the bracket 110 or the base 130, so that the panel 120 can be detached from the base 130.

Compared with a threaded connection structure, the assembling and disassembling actions of the buckle 140 connection structure are simple, the support 110 is pushed to a preset position to complete assembling, the buckle 140 is pushed to complete disassembling, time-consuming screwing connection operation is omitted, and therefore the efficiency of assembling and disassembling the panel 120 is improved. And the damage of the buckle 140 to the corresponding clamping structure such as the clamping groove 112 is small in the dismounting process, and the frequent dismounting of the panel 120 does not cause the buckle 140 to fail, thereby providing a convenient condition for a user to clean the internal structure of the base 130 and replace the internal failure structure, and prolonging the service life of the electromagnetic heating device 100 by removing the limitation of the dismounting times.

Therefore, the electromagnetic heating assembly overcomes the technical defects of low disassembly and assembly efficiency and easy failure of the disassembly and assembly structure in the related technology. And then realized optimizing panel 120 and base 130 connection structure, promoted electromagnetic heating assembly production efficiency, reduced the electromagnetic heating assembly and maintained the degree of difficulty, prolonged electromagnetic heating assembly life's technical effect.

Further, the electromagnetic heating apparatus 100 further includes a detaching portion 150, the detaching portion 150 is disposed on the buckle 140, and the detaching portion 150 is used for matching with the detaching tool 200. When the panel 120 needs to be detached, a user can push or pry the detaching portion 150 to move the buckle 140 to the unlocking position, so as to release the clamping relationship between the bracket 110 and the base 130. The disassembly part 150 enables a user to assist in disassembling the buckle 140 through the disassembly tool 200, so that the disassembly difficulty of the buckle 140 is reduced, and the disassembly efficiency of the buckle 140 is further improved. And the removal of the catch 140 by means of the removal tool 200 may prevent the catch 140 from structurally damaging the user's hand. Thereby realizing the technical effects of providing convenience for users and improving the safety of the electromagnetic heating equipment 100.

Example two

As shown in fig. 1, 2 and 4, in the second embodiment of the present invention, the bracket 110 includes a locking slot 112, and the buckle 140 is movably disposed on the base 130; the latch 140 is latched to the latch slot 112 in a predetermined position.

In this embodiment, the clip 140 is mounted on the base 130, and the clip 140 can deform relative to the base 130 or the clip 140 can move relative to the base 130. A clamping groove 112 is formed in the position, corresponding to the buckle 140, of the bracket 110, and the clamping groove 112 is matched with the buckle 140. During assembly, after the bracket 110 and the faceplate 120 are aligned with the base 130, the faceplate 120 is pushed downward until the faceplate 120 and the bracket 110 move to a predetermined mounting position, and the clip 140 automatically clips into the slot 112 to prevent the faceplate 120 and the bracket 110 from moving relative to each other by the cooperation of the clip 140 and the slot 112, thereby completing the connection between the bracket 110 and the base 130.

The base 130 has enough installation space, the buckle 140 is arranged on the base 130, and the clamping groove 112 is arranged on the bracket 110, so that the limitation of the buckle 140 on the structure of the bracket 110 can be removed, and the reduction of the structural complexity and the processing difficulty of the bracket 110 are facilitated. Meanwhile, compared with a complex buckling structure, the clamping groove 112 has lower processing difficulty, which is beneficial to compressing the production cost of the electromagnetic heating device 100.

In any of the above solutions, the detaching portion 150 faces away from the card slot 112, and the detaching tool 200 is used to make the buckle 140 exit from the card slot 112 by prying the detaching portion 150.

In this embodiment, the detaching portion 150 disposed on the clip 140 is disposed away from the slot 112, i.e., the clip 140 is located between the detaching portion 150 and the slot 112. On the basis, when the panel 120 needs to be detached, a user can pry the detaching portion 150 by using a detaching tool to bend the clip 140 in a direction away from the card slot 112, or pry the detaching portion 150 to move the clip 140 in a direction away from the card slot 112, so that the clip 140 is withdrawn from the card slot 112, and the clamping state between the clip 140 and the card slot 112 is released.

Therefore, by arranging the detaching portion 150 on the side away from the card slot 112, on the one hand, convenience is provided for the user to pry the buckle 140, so that the user can easily withdraw the buckle 140 by prying. On the other hand, the operation space of the detaching tool 200 can be limited to the back side of the engaging surface of the latch 140, so as to prevent the detaching tool 200 from damaging the engaging surface of the latch 140, and reduce the possibility of failure of the latch 140. Thereby realizing the technical effects of reducing the disassembly difficulty of the buckle 140 and reducing the failure rate of the buckle 140.

In any of the above technical solutions, the electromagnetic heating apparatus 100 further includes: one end of the elastic member is connected to the base 130, and the other end of the elastic member is connected to the buckle 140 for driving the buckle 140 to reset to a predetermined position.

In this embodiment, the latch 140 can move relative to the base 130, and the latch 140 has a first position and a second position relative to the base 130, where the latch 140 can be latched into the latch slot 112 in the first position and the latch 140 is located outside the latch slot 112 in the second position. On the basis, the electromagnetic heating apparatus 100 is further provided with an elastic member, one end of the elastic member is connected with the base 130, and the other end of the elastic member is connected with the buckle 140.

The elastic member can keep the buckle 140 at the first position, and in the process that the bracket 110 and the panel 120 approach the predetermined installation position, the bracket 110 pushes the buckle 140 to the second position until the bracket 110 and the panel 120 move to the predetermined installation position, and the buckle 140 is automatically clamped into the clamping groove 112 under the action of the elastic member. In the process of detaching the panel 120, when the buckle 140 moves from the first position to the second position, the elastic member deforms and accumulates elastic potential energy, and after the detaching tool 200 loosens the buckle 140, the elastic member drives the buckle 140 to reset to the first position by releasing the elastic potential energy, so that the buckle 140 can perform the next clamping operation.

Therefore, the buckle 140 can be automatically clamped and automatically reset by arranging the elastic piece, so that the operation of manually operating the buckle 140 by a user is omitted, the disassembly and assembly difficulty of the panel 120 is reduced, and the technical effect of using experience of the user is improved.

Specifically, the elastic component can be a tension spring, a torsion spring or a rubber strip, and the technical scheme does not rigidly limit the specific structural form of the elastic component, so that the automatic reset requirement can be met.

EXAMPLE III

As shown in fig. 1, 2 and 4, in the third embodiment of the present invention, the detaching portion 150 includes a socket 152, and the socket 152 is used for inserting the detaching tool 200.

In this embodiment, the detaching part 150 includes a receptacle 152, and the receptacle 152 faces a lower region of the bracket 110. When the panel 120 is disassembled, the disassembling tool 200 is firstly inserted into the insertion hole 152, and then the buckle 140 is pried to the second position from the first position by swinging the disassembling tool 200, so as to contact the clamping relation between the base 130 and the bracket 110, and the panel 120 is conveniently removed.

Through setting up jack 152, can pry buckle 140 for extracting tool 200 and provide convenient condition, the user can promote extracting tool 200 rapidly to can pry under the position of buckle 140 through the guide effect of jack 152, reduces the unable accurate possibility of finding the position of prying of user, and then realizes reducing panel 120 and dismantles the degree of difficulty, promotes the technological effect of electromagnetic heating equipment 100 practicality.

In any of the above technical solutions, the electromagnetic heating apparatus 100 further includes: and a pin 160 capable of being inserted into the insertion hole 152 for prying the clip 140.

In this technical solution, the electromagnetic heating device 100 is configured with a plug pin 160, and the plug pin 160 is a special detachable structure of the buckle 140. Specifically, the radial dimension of the receptacle 152 is smaller than the radial dimension of the pin 160, so that the pin 160 can be inserted into the receptacle 152, and the user can pry the clip 140 more conveniently by the pin 160 inserted into the receptacle 152.

Further, the base 130 is provided with a groove for receiving the pin 160, the pin 160 is inserted into the groove without using the pin 160, and the pin 160 is taken out of the groove when the pin 160 is needed.

By arranging the contact pin 160 for the electromagnetic heating device 100, the user can finish the disassembling operation of the panel 120 without the aid of the product outer disassembling tool 200, thereby providing convenience for the user and improving the practicability of the electromagnetic heating assembly.

In any of the above technical solutions, the end of the insertion pin 160 is provided with a guide surface 162; during insertion of pin 160 into socket 152, guide surface 162 pries catch 140 by pushing against the inner wall of socket 152.

In this embodiment, the inserting pin 160 can pry the buckle 140 by the inserting action. Specifically, the insertion end of the pin 160 is provided with a guide slope inclined with respect to the inner surface of the receptacle 152, and the distance between the guide slope and the centerline of the pin 160 gradually increases in the direction away from the insertion end of the pin 160. In the process of detaching the panel 120, the inserting pin 160 is inserted into the inserting hole 152 along the first direction, the guiding inclined plane abutting on the inner surface of the inserting hole 152 can push the inserting hole 152 to move in the direction away from the card slot 112 in the moving-up process, if the buckle 140 is of an elastic structure, the clamping end of the buckle 140 can be bent in the direction away from the card slot 112, and if the buckle 140 can move relative to the base 130, the guiding inclined plane can push the buckle 140 to the second position. After the panel 120 is removed from the base 130, the pin 160 and the socket 152 are separated from the latch 140 and automatically reset to prepare for the next snap connection.

Further, the base 130 is provided with a guide hole, the inverted hole extends in the first direction, the pin 160 is inserted into the guide hole first, and then is inserted into the insertion hole 152 along the first direction under the guiding effect of the guide hole, so as to ensure that the guide surface 162 on the pin 160 can accurately pry the buckle 140.

Therefore, the guide surface 162 is arranged on the contact pin 160, so that the contact pin 160 can be pried by the insertion action, the operation of swinging the contact pin 160 by a user is avoided, the disassembly action of the buckle 140 is simplified, and the disassembly difficulty of the buckle 140 is reduced. The technical effects of improving the practicability of the contact pin 160 and providing convenience conditions for users are achieved.

Example four

As shown in fig. 1, 2 and 4, in the fourth embodiment of the present invention, the panel 120 and the buckle 140 are spaced apart from each other.

In this solution, a gap is linearly left between the panel 120 and the clip 140, and the air in the gap can play a role in blocking heat. In the working process, a large amount of heat is accumulated on the panel 120, and compared with the scheme that the buckle 140 is in contact with the panel 120, the arrangement of the interval can reduce the speed of heat transmitted from the panel 120 to the buckle 140, thereby protecting the buckle 140 and reducing the possibility of high-temperature melting of the buckle 140. Thereby realizing the improvement of the safety and the reliability of the electromagnetic heating device 100. Moreover, when the latch 140 is made of an elastic material, the elasticity of the latch 140 is affected by high temperature, and the latch 140 fails, so that the interval is set to prolong the service life of the latch 140.

In any of the above technical solutions, the electromagnetic heating apparatus 100 further includes: and a heat insulation part 170 connected to the panel 120 and located between the panel 120 and the clip 140.

In this embodiment, in conjunction with the foregoing embodiment, the electromagnetic heating apparatus 100 further includes the thermal insulation portion 170, the thermal insulation portion 170 is disposed in the space between the panel 120 and the buckle 140, the thermal conduction rate of the thermal insulation portion 170 is low, and the filling of the thermal insulation portion 170 between the panel 120 and the buckle 140 can further reduce the rate of heat transfer from the panel 120 to the buckle 140, thereby reducing the temperature of the buckle 140 during the heating process. Thereby realizing the technical effects of improving the safety and reliability of the electromagnetic heating device 100 and prolonging the service life of the buckle 140.

EXAMPLE five

As shown in fig. 2 and 3, in the fifth embodiment of the present invention, the bracket 110 abuts against the base 130; the surface of the bracket 110 contacting the base 130 is a curved surface.

In this embodiment, when the bracket 110 and the panel 120 are mounted to the predetermined position, the lower end of the bracket 110 abuts against the base 130, so that the bracket 110 and the panel 120 are supported by the base 130, and the bracket 110 and the panel 120 are prevented from being tilted, thereby preventing the target container placed above the panel 120 from being tilted.

On this basis, the lower end of the bracket 110 is provided with an arc surface, the arc surface abuts against the base 130, and specifically, a chamfer may be machined at the lower end of the bracket 110 so as to abut against the base 130 through the chamfer. Through setting up above-mentioned cambered surface, can avoid on the one hand the support 110 of butt on base 130 to damage base 130, on the other hand can avoid the lower extreme of support 110 fish tail buckle 140 in the installation. Thereby realizing the technical effects of improving the structural reliability of the electromagnetic heating equipment 100 and reducing the failure rate of the electromagnetic heating equipment 100.

Wherein the above arc is shown by the arrow a in fig. 3.

EXAMPLE six

As shown in fig. 5 and 6, in the sixth embodiment of the present invention, the bracket 110 is located at the bottom of the panel 120, and the bracket 110 is located on the periphery of the base 130.

In this embodiment, the bracket 110 is installed below the panel 120, and after the bracket 110 and the panel 120 are installed to a predetermined position, the bracket 110 is located on the periphery of the base 130, and the clip 140 is located between the bracket 110 and the base 130. Under this structural configuration, the bracket 110 can protect the buckle 140 and the base 130, and prevent the outer structure from scratching the buckle 140 and the base 130 on the inner side. And disposing the bracket 110 on the periphery of the base 130 provides a convenient condition for a user to pry the buckle 140, for example, the user can insert the pin 160 from bottom to top between the bracket 110 and the base 130 to complete the disassembling action quickly. Further, the technical effects of optimizing the structural layout of the electromagnetic heating device 100, reducing the failure rate of the electromagnetic heating device 100 and reducing the difficulty in disassembling the panel 120 are achieved.

In any of the above solutions, the number of the brackets 110 is multiple, and the plurality of brackets 110 are disposed around the base 130.

In this technical scheme, support 110 is a plurality of, through setting up panel 120 and base 130 are connected jointly to a plurality of supports 110, can promote the positioning accuracy of panel 120 and promote the stability of being connected of panel 120 to reduce the not hard up possibility even that drops of support 110.

On this basis, a plurality of supports 110 surround the periphery of the base 130, and a plurality of sets of buckles 140 and clamping grooves 112 can be arranged around the base 130 for the plurality of surrounding supports 110, so as to fix the supports 110 and the panel 120 from a plurality of directions, and prevent the panel 120 from inclining and dislocating in the working process. Thereby further improving the accuracy and positioning reliability of the panel 120.

In any of the above technical solutions, the bracket 110 is in a strip shape, and the plurality of slots 112 are arranged at intervals in the length direction of the bracket 110.

In this technical scheme, support 110 is the strip, sets up strip support 110 and can reduce the processing degree of difficulty of support 110 to be favorable to dwindling the processing error. On this basis, a plurality of card slots 112 are provided on each bracket 110, the plurality of card slots 112 are arranged at intervals in the longitudinal direction of the bracket 110, and by providing a plurality of card slots 112 on each bracket 110, the positioning accuracy and the connection reliability of the panel 120 can be further improved, and the possibility of dislocation of the panel 120 can be further reduced.

Taking the base 130 as a rectangle as an example, four brackets 110 are disposed below the panel 120, the four brackets 110 respectively correspond to two long sides and two wide sides of the base 130, wherein two ends of each bracket 110 are respectively provided with one card slot 112, and the total number of the card slots 112 is eight. Correspondingly, eight buckles 140 are correspondingly arranged at four corners of the rectangular bracket 110, so that the bracket 110 and the panel 120 are fixed through eight sets of buckles 140 and the clamping grooves 112.

In any of the above technical solutions, the electromagnetic heating apparatus 100 further includes: and a connecting member connecting the bracket 110 and the base 130.

In this embodiment, the electromagnetic heating assembly is further provided with a connecting member for connecting the bracket 110 and the base 130. The connection form of the buckle 140 and the clamping groove 112 has a possibility of being disengaged when the electromagnetic heating device 100 is impacted by the outside or shakes to a large extent. In this regard, the connecting member may be used to secure the bracket 110 and the base 130 against impact and vibration, thereby preventing the clip 140 from being disengaged. Thereby realizing the technical effects of improving the stability of the panel 120 and reducing the failure rate of the electromagnetic heating device 100.

Specifically, the connecting members are screws, and the bracket 110 and the base 130 are respectively provided with first screw holes and second screw holes into which the screws are screwed in alignment during the assembly process to connect the bracket 110 and the base 130 by the screws. Taking the two ends of each bracket 110 as an example to be provided with one clamping groove 112, the first screw hole is disposed between the two clamping grooves 112, and the two clamping grooves 112 are symmetrical relative to the first screw hole, so as to further improve the stability of the panel 120 by optimizing the stress.

In any of the above technical solutions, the electromagnetic heating apparatus 100 further includes: and a coil disk disposed in the base 130 and opposite to the panel 120.

In this embodiment, the electromagnetic heating apparatus 100 further includes a coil panel disposed in the base 130, the coil panel is powered on to generate an electromagnetic field above the panel 120, and the target container placed above the panel 120 is rapidly heated under the action of the electromagnetic field to cook food through the high-temperature target container.

It is to be understood that, unless explicitly defined otherwise, in the claims, specification and drawings of the present application, the term "plurality" means two or more, and unless otherwise indicated, the terms "upper", "lower", and the like indicate orientations or positional relationships based on those shown in the drawings, and are used only for the purpose of describing the present application more conveniently and simplifying the description, but not for the purpose of indicating or implying that the device or element referred to must have the specific orientation described, be constructed and operated in a specific orientation, and therefore, such description should not be construed as limiting the present application; the terms "connect," "install," "fix," and the like are to be understood broadly, for example, "connect" may be a fixed connection between a plurality of objects, a detachable connection between a plurality of objects, or an integral connection; the multiple objects may be directly connected to each other or indirectly connected to each other through an intermediate. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific situation of the above data.

In the claims, specification and drawings of the specification, the description of "one embodiment," "some embodiments," "specific embodiments," and so forth, is intended to mean 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 the claims, the description and the drawings of the present application, schematic representations of the above terms 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 is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to 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 (15)

1. An electromagnetic heating apparatus, comprising:

a support;

the panel is arranged on the bracket;

a base for supporting the stand;

the buckle is arranged on one of the base and the bracket and is clamped with the other one of the base and the bracket;

the dismounting part is arranged on the buckle and used for connecting a dismounting tool, and the dismounting tool is used for removing the clamping state of the buckle through prying.

2. Electromagnetic heating apparatus according to claim 1,

the bracket comprises a clamping groove, and the buckle is movably arranged on the base;

the buckle is clamped with the clamping groove under a preset position.

3. Electromagnetic heating apparatus according to claim 2,

the dismounting part deviates from the clamping groove, and the dismounting tool is used for making the buckle exit from the clamping groove by prying the dismounting part.

4. An electromagnetic heating apparatus according to claim 3, further comprising:

and one end of the elastic piece is connected with the base, and the other end of the elastic piece is connected with the buckle and used for driving the buckle to reset to the preset position.

5. An electromagnetic heating apparatus as claimed in claim 3, wherein the removal portion comprises a socket for insertion of the removal tool.

6. The electromagnetic heating apparatus according to claim 5, characterized by further comprising:

and the contact pin can be inserted into the jack and is used for prying the buckle.

7. Electromagnetic heating apparatus according to claim 6,

the end part of the contact pin is provided with a guide surface;

in the process that the contact pin is inserted into the jack, the guide surface prizes the buckle by pushing the inner wall of the jack.

8. An electromagnetic heating apparatus as claimed in claim 2, wherein said panel and said clasp are spaced apart.

9. The electromagnetic heating apparatus according to claim 8, characterized by further comprising:

and the heat insulation part is connected with the panel and is positioned between the panel and the buckle.

10. Electromagnetic heating device according to claim 1,

the bracket is abutted against the base;

the surface of the support, which is in contact with the base, is an arc surface.

11. The electromagnetic heating apparatus according to any one of claims 2 to 9, characterized in that the bracket is located at the panel bottom, and the bracket is located on the base periphery side.

12. An electromagnetic heating apparatus as claimed in claim 11, wherein said support is plural, and plural supports are provided around said base.

13. The electromagnetic heating apparatus according to claim 12, wherein the holder is in a bar shape, and the plurality of slots are arranged at intervals in a length direction of the holder.

14. The electromagnetic heating apparatus according to claim 11, further comprising:

and the connecting piece is used for connecting the bracket and the base.

15. The electromagnetic heating apparatus according to any one of claims 1 to 10, characterized by further comprising:

and the coil panel is arranged in the base and is opposite to the panel.

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