CN117091175B - Energy-collecting pot rack and kitchen range - Google Patents

Abstract

The application discloses an energy-gathering pot frame and a kitchen range, which comprise a fixed energy-gathering ring, wherein the energy-gathering pot frame also comprises a movable energy-gathering ring, the movable energy-gathering ring is arranged along the circumferential direction of the fixed energy-gathering ring and is positioned on the inner ring or the outer ring of the fixed energy-gathering ring, and the top of the fixed energy-gathering ring and the top of at least part of the movable energy-gathering ring have height differences in the height direction of the energy-gathering pot frame. The application is applicable to cookers in different forms, so that the gap between the bottom of the cookers and the top of the energy-collecting pot frame is maintained in a proper range, the heat efficiency is improved, and a good energy-saving effect is achieved.

Description

Energy-collecting pot rack and kitchen range

Technical Field

The application relates to the technical field of stoves, in particular to an energy-gathering pot rack and a stove.

Background

The existing pot rack is generally provided with an energy collecting disc among four pot rack corner pieces for saving energy, and the arrangement of the energy collecting disc can isolate secondary air required by combustion of a kitchen range burner from high-temperature smoke generated during combustion, so that the mutual influence is avoided, the combustion of the burner is more sufficient, and the heat efficiency of the kitchen range can be remarkably improved.

The energy-collecting tray in the prior art is generally fixedly welded between the corner pieces of the pot rack, and is highly fixed, and the pot forms used by users are of various types, such as a pan and a pointed bottom pan, so that the gap heights between the bottoms of different pots and the top end of the energy-collecting tray can be changed, and the energy-saving effect is further affected.

Disclosure of Invention

In a first aspect, the application provides an energy-collecting pot rack for improving energy-saving effect in the use process of different cookers.

The application provides an energy-gathering pot rack, which adopts the following technical scheme:

the utility model provides a gather can pot frame, includes fixed energy gathering ring, including fixed energy gathering ring, energy gathering pot frame still includes the activity and gathers can the ring, the activity gathers can the ring along the circumference setting of fixed energy gathering ring and be located the inner circle or the outer lane of fixed energy gathering ring, the top of fixed energy gathering ring with the top of at least part of activity gathers can the ring has the difference in height in the direction of height of energy gathering pot frame.

Optionally, an elastic element is arranged between a part of the movable energy-gathering ring and a part of the fixed energy-gathering ring, and the elastic element enables the movable energy-gathering ring to have the capability of self-adaptively approaching to or abutting against the bottom of the pot in the height direction of the energy-gathering pot frame.

Optionally, the movable energy-gathering ring comprises a movable energy-gathering disc and a movable positioning part connected to the movable energy-gathering disc, the fixed energy-gathering ring comprises a base positioning part, one of the movable positioning part and the base positioning part is provided with a positioning column, and the other one is provided with a guide hole for inserting the positioning column.

Optionally, the reference column is connected in movable location portion, base location portion includes the guide post, the guiding hole sets up in the guide post, the guide post is located to the partial cover of elastic component, the reference column passes the elastic component and stretches into in the guiding hole, the one end butt of elastic component is in movable location portion, and the other end butt is in base location portion.

Optionally, the base positioning part comprises a base positioning sheet, and the guide post is detachably connected to the base positioning sheet.

Optionally, the movable positioning part is provided with a push rod, the push rod is positioned at the outer peripheral side or the inner side of the movable energy collecting disc, and the highest height of the push rod is higher than the top of the movable energy collecting disc.

Optionally, the movable positioning part comprises a movable positioning sheet, the positioning column is connected to the movable positioning sheet, one part of the positioning column extends downwards to extend into the guide hole, and the other part of the positioning column extends upwards to form the ejector rod.

Optionally, the movable locating piece is provided with the fixed orifices, the reference column passes the fixed orifices, part of the outer wall of reference column is provided with the external screw thread, the external screw thread department threaded connection of reference column has the fixation nut that is used for supporting tightly at movable locating piece surface.

Optionally, the fixed energy-gathering ring comprises a fixed energy-gathering disc and a plurality of pot rack corner pieces connected with the fixed energy-gathering disc, and the movable energy-gathering ring is provided with a positioning groove for inserting the pot rack corner pieces from top to bottom.

In a second aspect, the present application provides a stove for adapting to a plurality of cookware in different forms.

A kitchen range comprises the energy-gathering pot holder.

In summary, the energy-collecting pot rack has the beneficial effects that the applicability of the energy-collecting pot rack can be improved when different kinds of cookers are used by utilizing different heights of the fixed energy-collecting ring and the movable energy-collecting ring, so that the height of a gap between the bottom of the cookers and the top end of the energy-collecting pot rack can be adjusted, the gap is maintained in a reasonable range, the thermal efficiency is improved, and the energy-saving effect is achieved.

Drawings

Fig. 1 is a schematic structural view of an energy-gathering pot holder according to an embodiment of the present application.

Fig. 2 is a schematic view of a partial explosion of an energy-gathering pot rack according to an embodiment of the present application.

Fig. 3 is a partial exploded view of a fixed energy gathering ring of an energy gathering pot holder according to an embodiment of the present application.

Fig. 4 is a partial exploded view of a movable energy gathering ring of an energy gathering pot frame according to an embodiment of the present application.

Fig. 5 is a schematic view of a state of a pointed bottom pan matched with an energy-collecting pan frame according to an embodiment of the application.

Fig. 6 is a schematic view of a state of a pan frame matched with a pan according to an embodiment of the present application.

The reference numerals are 1, fixed energy collecting ring, 10, center hole, 100, supporting part, 11, fixed energy collecting disc, 12, base positioning part, 13, pot frame corner piece, 131, top corner piece, 132, bottom corner piece, 121, base positioning piece, 2, movable energy collecting ring, 20, positioning groove, 21, movable energy collecting disc, 22, movable positioning part, 221, movable positioning piece, 2211, movable positioning support piece, 2210, fixing hole, 3, elastic piece, 41, positioning column, 410, ejector rod, 411, positioning table, 42, guiding hole, 420, guiding column, 4201 and connecting table.

Description of the embodiments

The present application will be described in further detail with reference to the accompanying drawings.

The embodiment of the application discloses an energy-gathering pot holder.

Referring to fig. 1, a energy accumulating pot holder includes a fixed energy accumulating ring 1 and a movable energy accumulating ring 2, the movable energy accumulating ring 2 is disposed along a circumferential direction of the fixed energy accumulating ring 1 and is located at an inner ring or an outer ring of the fixed energy accumulating ring 1, and a top of the fixed energy accumulating ring 1 and at least a part of the top of the movable energy accumulating ring 2 have a height difference in a height direction of the energy accumulating pot holder. When the fixed energy-gathering ring 1 is positioned at the inner ring relative to the movable energy-gathering ring 2, the top height of the movable energy-gathering ring 2 is higher than the top height of the fixed energy-gathering ring 1, and when the fixed energy-gathering ring 1 is positioned at the outer ring relative to the movable energy-gathering ring 2, the top height of the movable energy-gathering ring 2 is lower than the top height of the fixed energy-gathering ring 1.

In this embodiment, the movable energy-gathering ring 2 is located at the periphery of the fixed energy-gathering ring 1, the fixed energy-gathering ring 1 is formed with a supporting portion 100 for abutting against the bottom of the pan, and at least part of the movable energy-gathering ring 2 is higher than the supporting portion 100.

Referring to fig. 2 and 3, the stationary energy concentrating ring 1 includes a stationary energy concentrating disc 11, and a plurality of pot holder gussets 13 connected to the stationary energy concentrating disc 11. The top of the fixed energy collecting disc 11 is in an open arrangement, the bottom of the fixed energy collecting disc 11 is provided with a bottom surface, a central hole 10 for accommodating a stove burner is arranged in the center of the bottom surface, and the inner diameter of the top opening of the fixed energy collecting disc 11 is larger than the inner diameter of the central hole 10.

The pot rack corner pieces 13 are at least provided with three and distributed in the circumference of the fixed energy collecting disc 11, the pot rack corner pieces 13 comprise top corner pieces 131 which are horizontal and extend along the radial direction of the fixed energy collecting disc 11 and bottom corner pieces 132 which are connected below the top corner pieces 131, the top corner pieces 131 are long-strip-shaped, one ends of the top corner pieces are located in the inner ring of the fixed energy collecting disc 11, the other ends of the top corner pieces extend out of the edge of the fixed energy collecting disc 11 towards one side, away from the center of the fixed energy collecting disc 11, of the top corner pieces 131, and one ends, close to the center of the fixed energy collecting disc 11, of the top corner pieces are provided with chamfer angles which are obliquely arranged. The bottom corner piece 132 is integrally formed at the bottom of the top corner piece 131 and extends downwards to extend out of the bottom surface of the fixed energy collecting disc 11, so that the bottom corner piece 132 can be stably supported on a kitchen range table top. In other embodiments, the structure and shape of the pan frame corner pieces 13 may be changed, and the pan frame corner pieces 13 may be welded to the fixed energy collecting tray 11, or may be integrally formed with the fixed energy collecting tray 11.

The top of the pan frame corner piece 13 is higher than the top of the fixed energy collecting tray 11, and the top of the pan frame corner piece 13 is used as a supporting part 100 for abutting against the pan bottom.

Referring to fig. 2 and 4, the movable energy concentrating ring 2 includes a movable energy concentrating disc 21, and a movable positioning portion 22 connected to the movable energy concentrating disc 21. The movable energy-gathering disk 21 is in a cylindrical shape and has a thin-wall structure, and the fixed energy-gathering ring 1 and the movable energy-gathering ring 2 can be made of metal materials with the temperature resistance of more than 700 ℃, and stainless steel materials are preferably used. In other embodiments, the structural shape of the movable energy collecting tray 21 may be changed according to the structural shape of the fixed energy collecting tray 11, and the side wall of the movable energy collecting tray 21 may have a certain inclination angle.

The top of the inner peripheral wall of the movable energy concentrating disc 21 is formed with an inclined chamfer.

The number of the movable positioning parts 22 is the same as that of the pot rack corner pieces 13 and is arranged in a one-to-one correspondence manner. The movable positioning part 22 comprises a movable positioning piece 221, the movable positioning piece 221 is arranged along the radial direction of the movable energy collecting disc 21 and is connected to the peripheral wall of the movable energy collecting disc 21, and the movable positioning piece 221 is horizontally arranged.

In order to sleeve the movable energy collecting ring 2 to the periphery of the fixed energy collecting ring 1 from top to bottom, each movable positioning plate 221 is provided with a positioning groove 20 extending along the radial direction of the movable energy collecting disc 21, each positioning groove 20 extends along the radial direction of the movable energy collecting disc 21 to penetrate through one side, close to the center of the movable energy collecting disc 21, of the movable positioning plate 221, then extends to penetrate through the bottom of the movable energy collecting disc 21 along the vertical direction on the peripheral wall of the movable energy collecting disc 21, and each positioning groove 20 corresponds to one pot rack corner piece 13.

The movable energy collecting ring 2 is inserted into the positioning groove 20 from top to bottom to the pan frame corner piece 13, and the movable energy collecting disc 21 is positioned on the outer periphery side of the fixed energy collecting disc 11. In other embodiments, the movable energy collecting plate 21 may be located on the inner peripheral side of the fixed energy collecting plate 11.

In one embodiment, the movable energy collecting ring 2 and the fixed energy collecting ring 1 are independently arranged, when a pan is needed to be used, the movable energy collecting ring 2 is taken off from the energy collecting pan frame, the fixed energy collecting ring 1 is independently used, and the bottom of the pan can be abutted to the supporting part 100 formed by the pan frame corner piece 13. When the pointed bottom pot is needed to be used, the positioning groove 20 on the movable energy collecting ring 2 is aligned with each pot rack corner piece 13, and the positioning groove is inserted into the periphery of the fixed energy collecting ring 1 from top to bottom, so that the bottom of the movable energy collecting ring 2 can be supported on the table top of the kitchen range, at the moment, the top of the inner peripheral wall of the movable energy collecting disc 21 is close to the pot bottom, and the top of the inner peripheral wall of the movable energy collecting disc 21 is higher than the top of the supporting part 100, thereby the movable energy collecting disc 21 can be close to the part of the pot bottom above the pointed bottom pot, the gap between the top of the energy collecting pot rack and the pot bottom of the pointed bottom is reduced, the heat efficiency is improved, and a better energy saving effect is achieved.

Referring to fig. 2-4, in this embodiment, in order to enable the movable energy-collecting ring 2 to adapt to cookers with different forms, an elastic member 3 is disposed between a part of the movable energy-collecting ring 2 and a part of the fixed energy-collecting ring 1, and the elastic member 3 enables the movable energy-collecting ring 2 to abut against or approach the bottom of the cookers in the height direction of the energy-collecting pot frame.

In order to enable the movable energy collecting ring 2 to extend and retract up and down along the height direction of the energy collecting pot frame, the fixed energy collecting ring 1 further comprises a base positioning part 12, one of the movable positioning part 22 and the base positioning part 12 is provided with a positioning column 41, and the other is provided with a guide hole 42 for inserting the positioning column 41. The positioning column 41 and the guide hole 42 are coaxially arranged and are both arranged along the height direction of the energy accumulating pot rack.

In this embodiment, the positioning column 41 is connected to the movable positioning portion 22, the base positioning portion 12 includes a guiding column 420, and the guiding hole 42 is disposed in the guiding column 420.

In order to better install the positioning columns 41, each movable positioning piece 221 is horizontally extended with a movable positioning support piece 2211, the movable positioning support pieces 2211 are provided with fixing holes 2210, the positioning columns 41 are penetrated in the fixing holes 2210, one part of the positioning columns 41 extends downwards along the height direction of the energy-collecting pot frame, and the other part of the positioning columns 41 extends upwards along the height direction of the energy-collecting pot frame to form the ejector rods 410. The outer peripheral wall of the positioning column 41 is integrally formed with a disc-shaped positioning table 411, the top surface of the positioning table 411 is abutted against the bottom surface of the movable positioning support 2211, the part of the positioning column 41 above the positioning table 411 is defined as a push rod 410, the push rod 410 extends out of the fixing hole 2210 and is provided with external threads on the outer peripheral wall near one end of the positioning table 411, and a fixing nut is connected to the external threads, and can be abutted against the top surface of the movable positioning support 2211, so that the positioning column 41 is fixed on the movable positioning support 2211.

The ejector pins 410 are located on the outer peripheral side of the movable energy concentrating disc 21, and the highest height of the ejector pins 410 is higher than the supporting portion 100.

In order to connect the guide post 420, the base positioning portion 12 further includes a base positioning piece 121, and the guide post 420 is detachably connected to the base positioning piece 121.

The base positioning sheet 121 is horizontal and integrally formed on the vertical side wall of the bottom corner sheet 132, a connecting hole is formed in the base positioning sheet 121, a connecting table 4201 with the diameter larger than that of the connecting hole is arranged at the bottom end of the guide column 420, the top surface of the connecting table 4201 is abutted against the bottom surface of the base positioning sheet 121, external threads are arranged on the outer wall of the guide column 420, which is close to one end of the connecting table 4201, and part of the guide column 420 can penetrate through the connecting hole and be connected in the connecting hole through the external threads, and a locking nut which can be abutted against the top surface of the base positioning sheet 121 can be connected through the external threads. The top end surface of the portion of the guide post 420 extending out of the connecting hole is provided with a guide hole 42, the guide hole 42 extends along the height direction of the energy accumulating pot frame and is coaxially arranged with the corresponding positioning post 41, the positioning post 41 can be inserted into the guide hole 42, and the positioning post 41 and the guide hole 42 can be arranged to be in clearance fit.

The elastic member 3 in this embodiment is a telescopic spring, and the portion of the positioning column 41 located below the movable positioning support 2211 passes through the elastic member 3 and extends into the guiding hole 42, where one end of the elastic member 3 abuts against the movable positioning portion 22, and the other end abuts against the base positioning portion 12. In this embodiment, the guiding post 420 is partially sleeved with the elastic member 3, and the top end of the elastic member 3 abuts against the bottom surface of the positioning table 411, and the bottom end of the elastic member 3 abuts against the top end surface of the locking nut outside the guiding post 420, so that an elastic force can be applied to the whole movable energy-gathering ring 2 by using the elastic member 3, so that the movable energy-gathering ring 2 can be adjusted at different heights within a certain height range.

Referring to fig. 5 and 6, in the natural state of the elastic member 3, the height of the top of the inner peripheral wall of the movable energy-collecting disc 21 is higher than the highest height of the corner pieces 13 of the pot rack, and when the pointed bottom pot is required to be used, the movable energy-collecting ring 2 makes the top of the inner ring of the movable energy-collecting disc 21 close to the pot bottom of the pointed bottom pot or abut against the pot bottom of the pointed bottom pot under the elastic force of the elastic member 3, so that the gap between the pot bottom of the pointed bottom pot and the top of the energy-collecting pot rack can be reduced, and the effect of saving more energy is achieved. When the pan is needed to be used, the bottom of the pan is abutted against the top of the ejector rod 410, and downward pressure is applied to the ejector rod 410, so that the movable energy collecting tray 21 can be moved downwards under the elastic action of the elastic piece 3 until the bottom of the pan is abutted against the top of the pan frame corner piece 13, and a gap for normal smoke discharge can be formed between the top of the movable energy collecting tray 21 and the bottom of the pan because the top of the ejector rod 410 is higher than the top of the inner peripheral side of the movable energy collecting tray 21.

The above embodiments are not intended to limit the scope of the application, so that the equivalent changes of the structure, shape and principle of the application are covered by the scope of the application.

Claims (9)

1. A pot-shaped energy-concentrating frame, comprising a fixed energy-concentrating ring (1), characterized in that: the pot-shaped energy-concentrating frame further comprises a movable energy-concentrating ring (2), the movable energy-concentrating ring (2) being arranged circumferentially along the fixed energy-concentrating ring (1) and located on the outer ring of the fixed energy-concentrating ring (1), the top of the fixed energy-concentrating ring (1) and at least a portion of the top of the movable energy-concentrating ring (2) having a height difference in the height direction of the pot-shaped energy-concentrating frame; when the fixed energy-concentrating ring (1) is located on the inner ring relative to the movable energy-concentrating ring (2), the top height of the movable energy-concentrating ring (2) is higher than the top height of the fixed energy-concentrating ring (1); At least a portion of the active energy-concentrating ring (2) is connected to an elastic element (3), which enables the active energy-concentrating ring (2) to adaptively approach or abut against the bottom of the pot in the height direction of the energy-concentrating pot frame. 2. The energy-concentrating pot frame according to claim 1, characterized in that: the movable energy-concentrating ring (2) includes a movable energy-concentrating plate (21) and a movable positioning part (22) connected to the movable energy-concentrating plate (21), the fixed energy-concentrating ring (1) includes a base positioning part (12), one of the movable positioning part (22) and the base positioning part (12) is provided with a positioning post (41), and the other is provided with a guide hole (42) for inserting the positioning post (41). 3. A pot holder according to claim 2, characterized in that: the positioning post (41) is connected to the movable positioning part (22), the base positioning part (12) includes a guide post (420), the guide hole (42) is disposed on the guide post (420), a portion of the elastic member (3) is sleeved on the guide post (420), the positioning post (41) passes through the elastic member (3) and extends into the guide hole (42), one end of the elastic member (3) abuts against the movable positioning part (22), and the other end abuts against the base positioning part (12). 4. A pot holder according to claim 3, characterized in that: the base positioning part (12) includes a base positioning piece (121), and the guide post (420) is detachably connected to the base positioning piece (121). 5. A pot holder according to claim 2, characterized in that: the movable positioning part (22) is provided with a top rod (410), the top rod (410) is located on the outer periphery of the movable energy-concentrating plate (21), and the highest height of the top rod (410) is higher than the top of the movable energy-concentrating plate (21). 6. A pot holder according to claim 5, characterized in that: the movable positioning part (22) includes a movable positioning piece (221), the positioning post (41) is connected to the movable positioning piece (221), a part of the positioning post (41) extends downward into the guide hole (42), and the other part of the positioning post (41) extends upward to form a top rod (410). 7. A pot holder according to claim 6, characterized in that: the movable positioning piece (221) is provided with a fixing hole (2210), the positioning post (41) passes through the fixing hole (2210), a portion of the outer wall of the positioning post (41) is provided with an external thread, and a fixing nut for abutting against the surface of the movable positioning piece (221) is threadedly connected to the external thread of the positioning post (41). 8. A pot rack according to any one of claims 1-7, characterized in that: the fixed energy-concentrating ring (1) includes a fixed energy-concentrating plate (11) and a plurality of pot rack corner pieces (13) connected to the fixed energy-concentrating plate (11), and the movable energy-concentrating ring (2) is provided with a positioning groove (20) for inserting the pot rack corner pieces (13) from top to bottom. 9. A stove, characterized in that it includes an energy-concentrating pot rack as described in any one of claims 1-8.