CN216591843U - Pan self-adaptation electromagnetic range - Google Patents

Abstract

The utility model discloses a pan self-adaptation electromagnetic oven relates to the cooking utensils field. The pot rack is widely applied to various cookers, particularly electromagnetic cookers, and the existing pot rack still does not effectively solve the matching problem of various cookers and cookers. The utility model discloses an electromagnetism stove panel, high-power coil, magnetic conductive plate, heat-resisting shell, a support frame, elasticity locking structure and first elastic component, the upper portion of support frame is located to heat-resisting shell and be located the outer lane of support frame inboard, first elastic component vertical support is between the center of the base center of support frame and heat-resisting shell, the vertical removal of the interior outer lane atress relatively of heat-resisting shell, when the vertical decurrent pressurized of electromagnetism stove main part, the electromagnetism stove panel and the heat-resisting shell at pressurized position can take place deformation downwards, upwards reply after the pressure is cancelled. Make the pan bottom realize supporting with the better laminating of electromagnetism stove panel, solved the poor problem of current electromagnetism stove to different pans matching nature.

Description

Pan self-adaptation electromagnetic range

Technical Field

The utility model relates to a cooking utensils field especially relates to a pan self-adaptation electromagnetic oven.

Background

With the development and revolution of cooking modes, kitchen cookers have shown a trend of function subdivision and size diversity. The pan frame is as the part of the last stable support pan of cooking utensils, extensive application is in various cooking utensils, especially on the electromagnetic cooker, because still effectively solve the matching problem of various pans and cooking utensils at all, except being difficult to the accuse to the laminating degree of various pans, make the support reliability of electromagnetic cooker can not obtain the guarantee, the condition that the pan position removed can appear sometimes takes place, serious can lead to the incident, in addition, heating efficiency also can not reach the best effect, still can bring the problem of clean difficulty, lead to user experience poor.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model and the technical task who provides are perfect and improve prior art scheme, provide a pan self-adaptation electromagnetic oven to the laminating matching that realizes pan and cooking utensils is the purpose. Therefore, the utility model adopts the following technical scheme.

A cooker self-adaptive electromagnetic cooker comprises an electromagnetic cooker panel, a high-power coil, a magnetic conductive sheet, a heat-resistant shell, a support frame, an elastic locking structure and a first elastic piece, wherein the heat-resistant shell is arranged on the upper part of the support frame and is positioned on the inner side of the outer wall of the support frame, the first elastic piece is vertically supported between the center of a base of the support frame and the center of the heat-resistant shell, the electromagnetic cooker panel is arranged on the heat-resistant shell, the outer periphery of the electromagnetic cooker panel covers the upper end of the outer wall of the support frame, the high-power coil is arranged between the heat-resistant shell and the electromagnetic cooker panel, the elastic locking structure is distributed in the heat-resistant shell in multiple groups according to concentric circles, the magnetic conductive sheet is distributed in the heat-resistant shell in multiple groups according to the concentric circles, a cooker is arranged on the electromagnetic cooker panel, and the pressed part of the electromagnetic cooker panel and the corresponding part of the lower heat-resistant shell can displace downwards, at the moment, the elastic part in the elastic locking structure is compressed, the cooker is moved away, and the elastic part of the elastic locking structure returns upwards. When the pan was placed on the electromagnetism stove panel, the elastomeric element compression in the elasticity locking structure, the downward displacement appears according to the difference of pan bottom shape in pressurized position, makes the pan bottom realize supporting with the better laminating of electromagnetism stove panel, can effectively adapt to the laminating of placing of different pans, has solved the poor problem of current electromagnetism stove to different pans matching nature, has improved the application scope of electromagnetism stove greatly to the support reliability to the pan has been promoted.

As a preferable technical means: the electromagnetic oven panel is of a multi-ring concentric circle structure, the positions of the inner ring and the outer ring of the electromagnetic oven panel correspond to the positions of the inner ring and the outer ring of the heatproof shell one by one, and the high-power coils and the magnetic conducting sheets are covered. Through the structure that the inner and outer rings are connected through the separation of the inner and outer rings of the heat-resistant shell and the elastic locking structure, the downward deformation displacement of the panel of the induction cooker and the pressed part of the heat-resistant shell can be effectively realized, the vertical deformation capacity when the panel is pressed is realized, and meanwhile, the protection of a high-power coil is effectively realized.

As a preferable technical means: the high-power coil is of a multi-ring structure, the number of rings of the high-power coil is the same as that of the heat-resistant shell, each ring of the heat-resistant shell is provided with a coil seat plate, each ring of the high-power coil is correspondingly arranged on the coil seat plate of each ring of the heat-resistant shell, and the inner ring and the outer ring of the high-power coil are connected in series. Simple structure, and conforms to the traditional manufacturing process.

As a preferable technical means: the elastic locking structure comprises a supporting bottom plate, a second elastic piece and an elastic piece groove, wherein the supporting bottom plate is arranged at the inner bottom of the inner side wall of the outer ring of the heat-resisting shell, the second elastic piece is arranged on the supporting bottom plate, the supporting bottom plate and the second elastic piece are positioned in the elastic piece groove, the lower end of the elastic piece groove is open, the upper end of the second elastic piece is propped against a coil seat plate of the inner ring of the heat-resisting shell, when the inner ring of the heat-resisting shell moves downwards, the coil seat plate moves downwards, the second elastic piece is compressed under the support of the supporting bottom plate of the outer ring, and after the pressure is removed, the second elastic piece is restored to enable the inner ring to move upwards. Effectively realize elasticity locking structure, realize the relative vertical deformation displacement ability of interior outer lane.

As a preferable technical means: the heat-resisting shell is provided with magnetic conductive sheet positioning grooves, the number of the magnetic conductive sheet positioning grooves is the same as that of the magnetic conductive sheets, and the magnetic conductive sheets are arranged in the magnetic conductive sheet positioning grooves. The positioning and installation of the magnetic conductive sheet can be effectively realized.

As a preferable technical means: the magnetic conducting sheets and the second elastic parts are alternately distributed at equal angles in the circumferential direction. The distribution is uniform and reasonable, and the performance is stable and reliable.

As a preferable technical means: the center of the base of the supporting frame is provided with a positioning column, the lower part of the first elastic part is sleeved on the positioning column, the lower end of the center of the heat-resisting shell is provided with a positioning rib ring, and the upper part of the first elastic part is arranged in the positioning rib ring. The positioning and installation of the first elastic piece can be effectively realized.

As a preferable technical means: the base of the support frame is provided with a plurality of positioning sleeves, and the heat-resistant shell is connected with the positioning sleeves in a sliding mode through pins. Circumferential rotation of the heat-resistant shell can be effectively prevented, and damage to the connecting circuit is avoided.

As a preferable technical means: the side surface of the lower end of the pin column is provided with a plurality of radial anti-slip pins, the positioning sleeve is provided with a sliding groove which penetrates through the inside and the outside, the sliding groove comprises a notch positioned at the upper end of the positioning sleeve, a horizontal short groove positioned below the notch and a vertical long groove positioned at one end of the horizontal groove, and the anti-slip pins can vertically move in the vertical long grooves. During installation, the anti-disengaging pin is inserted from the notch at the upper end of the positioning sleeve and then reaches the horizontal short groove, then horizontally rotates to reach the vertical long groove, and when the pin column vertically slides in the positioning sleeve, the anti-disengaging pin can only slide in the vertical long groove, so that the pin column can be effectively prevented from disengaging from the positioning sleeve.

As a preferable technical means: the support frame is arranged on the flow guide disc, and the flow guide disc is connected with the liquid collection box through the flow guide groove. When the pan has the overflow to flow out, the overflow can flow to the guiding disk, and the box is collected to liquid to the water conservancy diversion groove that rethread and guiding disk link to each other, can effectively realize accomodating the collection of overflow liquid, and the user's accessible is opened liquid and is collected the box, pours liquid and reaches the purpose of clearing up the overflow.

As a preferable technical means: the first elastic part adopts a spring, and the second elastic parts respectively comprise a spring, a gas spring and a reed. The use is common.

As a preferable technical means: each ring of the electromagnetic oven panel comprises two side plates and a top plate, and ridge chamfering processing is performed between the two side plates and the top plate. The high-power coil in the coil can be well protected, and the stress influence caused by severe temperature change is reduced by chamfering the ridge.

As a preferable technical means: the loop width per turn of the heat resistant shell ranges from 10 to 60 mm.

As a preferable technical means: the vertical moving distance of the inner and outer rings of the heat-resistant shell ranges from 10mm to 50 mm.

Has the advantages that: the better laminating of pan bottom and electromagnetism stove panel is supported has been realized, can effectively adapt to the laminating of placing of different pans, has solved the poor problem of current electromagnetism stove to different pans matching nature, has improved the application scope of electromagnetism stove greatly to the support reliability to the pan has been promoted.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of the blasting of the present invention.

Fig. 3 is a schematic view showing the distribution of the elastic element groove and the magnetic conductive sheet positioning groove on the heat-resistant shell.

Fig. 4 is a schematic view of the position of the heat-resistant case when the pot is not placed.

Fig. 5 is a schematic view showing the deformation of the heat-resistant case after the pot is placed.

Fig. 6 is an enlarged view of the part a of fig. 1 according to the present invention.

Fig. 7 is an enlarged schematic view of a portion B in fig. 4 according to the present invention.

In the figure: 1. a first elastic member; 2. a heat resistant shell; 3. a support frame; 4. a positioning sleeve; 5. a flow guide disc; 6. a diversion trench; 7. a liquid collection box; 8. an induction cooker panel; 9. a high power coil; 10. a second elastic member; 11. a pin; 12. a slip-off prevention pin; 13. a support base plate; 201. an elastic member groove; 202. a magnetic conductive sheet positioning groove; 203. positioning the rib ring; 204. a coil base plate; 301. a positioning column; 401. a chute.

Detailed Description

The technical solution of the present invention will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-7, a cookware adaptive electromagnetic cooker comprises an electromagnetic cooker panel 8, a high-power coil 9, magnetic conductive sheets, a heat-resistant shell 2, a support frame 3, an elastic locking structure and a first elastic member 1, wherein the heat-resistant shell 2 is arranged on the upper part of the support frame 3 and is positioned on the inner side of the outer wall of the support frame 3, the first elastic member 1 is vertically supported between the center of a base of the support frame 3 and the center of the heat-resistant shell 2, the electromagnetic cooker panel 8 is arranged on the heat-resistant shell 2, the periphery of the electromagnetic cooker panel 8 covers the upper end of the outer wall of the support frame 3, the high-power coil 9 is arranged between the heat-resistant shell 2 and the electromagnetic cooker panel 8, the elastic locking structure is divided into 6 groups which are distributed in the heat-resistant shell 2 according to concentric circles, the magnetic conductive sheets are distributed in the heat-resistant shell 2 according to concentric circles, when the cookware is arranged on the electromagnetic cooker panel 8, the pressed part of the electromagnetic cooker panel 8 and the corresponding part of the heat-resistant shell 2 below can be displaced downwards, at the moment, the elastic part in the elastic locking structure is compressed, the cooker is moved away, and the elastic part of the elastic locking structure returns upwards.

In order to realize vertical deformability, the heat-resisting shell 2 is a 6-ring concentric circular assembly nested inside and outside, gaps are arranged between adjacent outer rings and inner rings of the heat-resisting shell 2, the elastic locking structure is connected with the outer rings and the inner rings of the heat-resisting shell 2, the inner rings of the heat-resisting shell 2 can vertically move downwards relative to the outer rings when being stressed vertically downwards through the elastic locking structure, the electromagnetic stove panel 8 is of a multi-ring concentric circular structure, and the positions of the inner rings and the outer rings of the electromagnetic stove panel 8 correspond to the positions of the inner rings and the outer rings of the heat-resisting shell 2 one by one to cover the high-power coils 9 and the magnetic conductive sheets. Through the structure that the inner and outer rings are connected through the separation of the inner and outer rings and the elastic locking structure of the heat-resistant shell 2, the downward deformation displacement of the pressed parts of the electromagnetic stove panel 8 and the heat-resistant shell 2 can be effectively realized, the vertical deformation capacity when the pressure is applied is realized, and meanwhile, the protection of the high-power coil 9 is effectively realized.

In order to arrange the high-power coil 9 reasonably, the high-power coil 9 is of a multi-ring structure, the number of rings of the high-power coil 9 is the same as the number of turns of the heat-resisting shell 2, each turn of the heat-resisting shell 2 is provided with a coil seat plate 204, each ring of the high-power coil 9 is correspondingly arranged on the coil seat plate 204 of each turn of the heat-resisting shell 2, and the inner ring and the outer ring of the high-power coil 9 are connected in series. The structure is simple, the traditional manufacturing process is met, and the heat-resisting shell 2 can be conveniently covered in a one-to-one correspondence mode.

In order to realize the elastic locking structure, the elastic locking structure comprises a supporting bottom plate 13, a second elastic element 10 and an elastic element groove 201, the supporting bottom plate 13 is arranged at the bottom of the inner side wall of the outer ring of the heat-resisting shell 2, the second elastic element 10 is arranged on the supporting bottom plate 13, the supporting bottom plate 13 and the second elastic element 10 are positioned in the elastic element groove 201, the lower end of the elastic element groove 201 is open, the upper end of the second elastic element 10 is abutted against a coil seat plate 204 of the inner ring of the heat-resisting shell 2, when the inner ring of the heat-resisting shell 2 moves downwards, the coil seat plate 204 moves downwards, the second elastic element 10 is compressed under the support of the supporting bottom plate 13 of the outer ring, and after the pressure is removed, the second elastic element 10 is restored to enable the inner ring to move upwards. Effectively realize elasticity locking structure, realize the relative vertical deformation displacement ability of interior outer lane.

In order to realize the positioning and installation of the magnetic conductive sheets, the heat-resistant case 2 is provided with magnetic conductive sheet positioning slots 202, the number of the magnetic conductive sheet positioning slots 202 is the same as that of the magnetic conductive sheets, and the magnetic conductive sheets are arranged in the magnetic conductive sheet positioning slots 202. The positioning and installation of the magnetic conductive sheet can be effectively realized.

In order to make the distribution uniform and reasonable, the magnetic conductive sheets and the second elastic member 10 are alternately distributed in the circumferential direction at equal angles. The distribution is uniform and reasonable, and the performance is stable and reliable.

In order to realize the positioning and installation of the first elastic element 1, a positioning column 301 is arranged at the center of the base of the support frame 3, the lower part of the first elastic element 1 is sleeved on the positioning column 301, a positioning rib ring 203 is arranged at the lower end of the center of the heat-resisting shell 2, and the upper part of the elastic element is arranged in the positioning rib ring 203. The positioning and installation of the first elastic element 1 can be effectively realized.

In order to prevent the heat-resistant shell 2 from rotating circumferentially, a plurality of positioning sleeves 4 are arranged on the base of the support frame 3, and the heat-resistant shell 2 is slidably connected with the positioning sleeves 4 through pins 11. Circumferential rotation of the heat-resistant shell 2 can be effectively prevented, and damage to the connecting circuit is avoided.

In order to prevent the pin 11 from separating from the positioning sleeve 4, the side face of the lower end of the pin 11 is provided with a plurality of radial anti-separation pins 12, the positioning sleeve 4 is provided with a sliding groove 401 which penetrates through the positioning sleeve 4, the sliding groove 401 comprises a groove opening positioned at the upper end of the positioning sleeve 4, a horizontal short groove positioned below the groove opening and a vertical long groove positioned at one end of the horizontal groove, and the anti-separation pins 12 can vertically move in the vertical long groove. During installation, the anti-disengaging pin 12 is inserted from the notch at the upper end of the positioning sleeve 4 and then reaches the horizontal short groove, then horizontally rotates to reach the vertical long groove, and when the pin 11 vertically slides in the positioning sleeve 4, the anti-disengaging pin 12 only can slide in the vertical long groove, so that the pin 11 can be effectively prevented from disengaging from the positioning sleeve 4.

In order to realize collecting and storing the overflow liquid, the support frame 3 is arranged on the flow guide disc 5, and the flow guide disc 5 is connected with the liquid collecting box 7 through the flow guide groove 6. When the pan has the overflow to flow out, the overflow can flow to guiding disk 5, flows to liquid collection box 7 through guiding gutter 6 that links to each other with guiding disk 5 again, can effectively realize accomodating the collection of overflow liquid, and the user's accessible is opened liquid collection box 7, pours out liquid and reaches the purpose of clearance overflow.

When the pan was placed on electromagnetism kitchen panel 8, the elastomeric element compression in the elasticity locking structure, the downward displacement appears according to the difference of pan bottom shape in pressurized position, makes the pan bottom realize supporting with the better laminating of electromagnetism kitchen panel 8, can effectively adapt to the laminating of placing of different pans, has solved the poor problem of current electromagnetism kitchen to different pans matching nature, has improved the application scope of electromagnetism kitchen greatly to the support reliability to the pan has been promoted.

In this example, springs are used for the first elastic member 1 and the second elastic member 10, and the second elastic member 10 may also be a gas spring or a reed instead of the springs. The spring is easy to use and low in cost.

In this example, each ring of the induction cooking surface plate 8 includes two side plates and a top plate, and a ridge between the two side plates and the top plate is chamfered. The high-power coil 9 in the coil can be well protected, and the ridge chamfering treatment is beneficial to reducing stress influence caused by severe temperature change.

In this example, the loop width of each turn of the heat-resistant shell 2 is in the range of 20mm, and the vertical movement relative distance of the adjacent inner and outer turns of the heat-resistant shell 2 is 10 mm.

The adaptive electromagnetic cooker with cookware shown in fig. 1-7 is a specific embodiment of the present invention, has embodied the outstanding substantive features and remarkable progress of the present invention, and can be modified in the aspects of shape, structure, etc. according to the practical needs of use, all within the scope of protection of the present solution.

Claims (10)

1. The utility model provides a pan self-adaptation electromagnetic range which characterized in that: comprises an electromagnetic stove panel (8), a high-power coil (9), magnetic conductive sheets, a heat-resisting shell (2), a support frame (3), an elastic locking structure and a first elastic part (1), wherein the heat-resisting shell (2) is arranged on the upper part of the support frame (3) and is positioned on the inner side of the outer wall of the support frame (3), the first elastic part (1) is vertically supported between the center of a base of the support frame (3) and the center of the heat-resisting shell (2), the electromagnetic stove panel (8) is arranged on the heat-resisting shell (2), the upper end of the outer wall of the support frame (3) is covered by the periphery of the electromagnetic stove panel (8), the high-power coil (9) is arranged between the heat-resisting shell (2) and the electromagnetic stove panel (8), the elastic locking structures are distributed in the heat-resisting shell (2) according to concentric circles, the magnetic conductive sheets are distributed in the heat-resisting shell (2) according to the concentric circles, when the cookware is placed on the electromagnetic stove panel (8), the pressed part of the electromagnetic stove panel (8) and the corresponding part of the heat-resistant shell (2) below can displace downwards, at the moment, the elastic part in the elastic locking structure compresses, the cookware is moved away, and the elastic part of the elastic locking structure returns upwards.

2. The cookware adaptive electromagnetic cooker according to claim 1, characterized in that: the heat-resisting shell (2) be the concentric circle subassembly of nested inside and outside many rings, adjacent outer lane and the inner circle of heat-resisting shell (2) between all be equipped with the clearance, elasticity locking structure connect the outer lane and the inner circle of heat-resisting shell (2), through elasticity locking structure, the inner circle of heat-resisting shell (2) can be for the vertical downstream of outer lane when receiving vertical downward pressure, electromagnetism stove panel (8) be many rings of concentric circles structure, the interior outer lane position of electromagnetism stove panel (8) and the interior outer lane position one-to-one of heat-resisting shell (2) cover high-power coil (9) and magnetic conduction piece.

3. The cookware adaptive electromagnetic stove according to claim 2, characterized in that: the high-power coil (9) is of a multi-ring structure, the number of rings of the high-power coil (9) is the same as the number of turns of the heat-resistant shell (2), a coil seat plate (204) is arranged at the top of each turn of the heat-resistant shell (2), each ring of the high-power coil (9) is correspondingly arranged on the coil seat plate (204) of each turn of the heat-resistant shell (2), and the inner ring and the outer ring of the high-power coil (9) are connected in series.

4. The cookware adaptive electromagnetic stove according to claim 3, characterized in that: the elastic locking structure comprises a supporting base plate (13), a second elastic piece (10) and an elastic piece groove (201), wherein the supporting base plate (13) is arranged at the bottom of the inner side wall of the outer ring of the heat-resisting shell (2), the second elastic piece (10) is arranged on the supporting base plate (13), the supporting base plate (13) and the second elastic piece (10) are located in the elastic piece groove (201), the lower end of the elastic piece groove (201) is opened, the upper end of the second elastic piece (10) is abutted against a coil seat plate (204) of the inner ring of the heat-resisting shell (2), when the inner ring of the heat-resisting shell (2) moves downwards, the coil seat plate (204) moves downwards, the second elastic piece (10) is compressed under the support of the supporting base plate (13) of the outer ring, and after pressure is removed, the second elastic piece (10) returns to enable the inner ring to move upwards.

5. The cookware adaptive electromagnetic stove according to claim 4, characterized in that: the heat-resisting shell (2) is provided with magnetic conductive sheet positioning grooves (202), the number of the magnetic conductive sheet positioning grooves (202) is the same as that of the magnetic conductive sheets, and the magnetic conductive sheets are arranged in the magnetic conductive sheet positioning grooves (202).

6. The cookware adaptive electromagnetic stove according to claim 5, characterized in that: the magnetic conducting sheets and the second elastic parts (10) are alternately distributed at equal angles in the circumferential direction.

7. The cookware adaptive electromagnetic stove according to claim 6, characterized in that: the base center of support frame (3) be equipped with reference column (301), the lower part of first elastic component (1) overlap on reference column (301), the central lower extreme of heat-resisting shell (2) be equipped with location muscle ring (203), the upper portion of first elastic component (1) locate in location muscle ring (203).

8. The cookware adaptive electromagnetic stove according to claim 7, characterized in that: the base of support frame (3) on be equipped with a plurality of position sleeve (4), heat-resisting shell (2) through round pin post (11) and position sleeve (4) sliding connection.

9. The cookware adaptive electromagnetic stove according to claim 8, characterized in that: the anti-slip device is characterized in that a plurality of radial anti-slip pins (12) are arranged on the side face of the lower end of each pin column (11), a sliding groove (401) which penetrates through the positioning sleeve (4) is formed in the positioning sleeve (4) in an inner and outer mode, each sliding groove (401) comprises a groove opening located at the upper end of the positioning sleeve (4), a horizontal short groove located below the groove opening and a vertical long groove located at one end of the horizontal groove, and each anti-slip pin (12) can vertically move in the corresponding vertical long groove.

10. The cookware adaptive electromagnetic cooker according to claim 1, characterized in that: the support frame (3) is arranged on the flow guide disc (5), and the flow guide disc (5) is connected with the liquid collection box (7) through the flow guide groove (6).

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