CN211883454U - Stone pot heat insulation device - Google Patents

Abstract

The utility model relates to the technical field of heat insulation devices, and discloses a stone pot heat insulation device, which comprises a heat insulation seat and a heat insulation cover, wherein the heat insulation cover and the heat insulation seat are arranged in a vertical butt joint manner, the heat insulation cover and the heat insulation seat form a placing area, and the placing area is used for placing a stone pot; when the stone pot is arranged in the placing area, the bottom of the stone pot is abutted against the heat insulation seat, and the heat insulation cover surrounds and surrounds the stone pot. The stone pot is placed in the placement area, the heat insulation seat supports the stone pot, the heat insulation cover surrounds and surrounds the stone pot, under the action of the heat insulation seat and the heat insulation cover, the exposed area of the stone pot is greatly reduced, and the heat insulation effect is achieved, so that the heat insulation of the stone pot is achieved; like this, during stone pot was arranged in to food, it was long when the heat-retaining of increase stone pot, it was long when the dining of growth food, simultaneously, the heat exchanger that separates avoided the visitor to directly touch the stone pot, effectively avoided the visitor to scald.

Description

Stone pot heat insulation device

Technical Field

The patent of the utility model relates to a heat-proof device's technical field particularly, relates to stone pot heat-proof device.

Background

The stone pot is a pot made of stones; the stone pot is made of purely natural high-quality refractory stone through professional carving, is attractive and various in appearance, hard in texture, quick to heat, not sticky to the pot when in use, and attractive and delicious in cooked food.

At present, due to the dish-type demand, a stone pot can be used for holding food in a restaurant, in order to avoid eating by diners, the stone pot is exposed, and due to the lack of heat insulation, the heat dissipation is fast, and the eating time is long, the food in the stone pot can become stale, so that the eating is influenced; simultaneously, the stone pot belongs to the heat conduction material, lacks thermal-insulated, in case the visitor mistake touches, easily leads to the visitor to scald.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a stone pot heat-proof device aims at solving prior art, and the stone pot lacks thermal-insulated problem.

The utility model is realized in such a way that the stone pot heat insulation device comprises a heat insulation seat and a heat insulation cover, wherein the heat insulation cover and the heat insulation seat are arranged in a vertical butt joint manner, the heat insulation cover and the heat insulation seat form a placement area, and the placement area is used for placing a stone pot; when the stone pot is arranged in place when regional, the bottom of stone pot is contradicted the heat insulating seat, the heat insulating cover encircles the package and encloses the stone pot.

Further, the heat insulation seat comprises a base and a heat insulation plate, the heat insulation plate and the base are arranged in a vertically butt joint mode, and a heat insulation area is formed between the heat insulation plate and the base; when the stone pot is arranged in the placing area, the bottom of the stone pot props against the heat insulation plate.

Furthermore, the heat insulation plate is provided with a fixing groove which is arranged in a downward concave manner, the fixing groove comprises a low groove part and a side groove part which is annularly arranged, the low groove part is horizontally arranged, the side groove part is provided with an upper notch and a lower notch, the upper notch and the lower notch are arranged in an up-and-down corresponding manner, and the lower groove part covers the lower notch; when the stone pot is arranged in the placing area, the bottom of the stone pot is embedded into the fixing groove.

Further, a heat insulation groove is formed in the base, and the heat insulation groove is arranged in a ladder shape with a large upper part and a small lower part; the heat insulation plate covers the heat insulation groove, and the heat insulation plate and the heat insulation groove form the heat insulation area.

Further, the base comprises a bottom plate and a side plate, the side plate is annularly arranged, the bottom of the side plate is in butt joint with the bottom plate, and the bottom plate and the side plate form the heat insulation area; the side plates are arranged in an inward concave arc shape.

Further, the base is provided with a heat insulation pad which is annularly arranged; the heat insulation plate and the heat insulation pad are arranged in a surrounding and abutting mode; the heat insulation cover and the heat insulation pad clamp the heat insulation plate.

Further, the heat insulation pad comprises a transverse pad and a longitudinal pad, the longitudinal pad is arranged in a ring shape, the bottom of the longitudinal pad is abutted against the transverse pad, and the top of the longitudinal pad extends upwards; the heat insulation cover abuts against the upper end face of the heat insulation plate, the transverse pad abuts against the lower end face of the heat insulation plate, and the longitudinal pad surrounds and abuts against the side end face of the heat insulation plate.

Further, the top that separates the heat exchanger is formed with spacing, the stone pot has protruding strip, works as the stone pot is arranged in place when regional, spacing with protruding strip is corresponding from top to bottom and is contradicted and arranges.

Furthermore, the heat shield is provided with an extraction piece, two ends of the extraction piece are respectively hinged to the heat shield, and the middle of the extraction piece is arranged in an arched arc shape along the direction deviating from the heat shield.

Furthermore, the heat shield has the outer terminal surface outwards, the surface that separates the heat shield is equipped with the temperature measurement strip, the temperature measurement strip is around attached the surface that separates the heat shield.

Compared with the prior art, the stone pot heat insulation device provided by the utility model has the advantages that the stone pot is placed in the placement area, the heat insulation seat supports the stone pot, the heat insulation cover surrounds the surrounding stone pot, and under the action of the heat insulation seat and the heat insulation cover, the exposed area of the stone pot is greatly reduced, so that the heat insulation of the stone pot is realized; like this, during stone pot was arranged in to food, it was long when the heat-retaining of increase stone pot, it was long when the dining of growth food, simultaneously, the heat exchanger that separates avoided the visitor to directly touch the stone pot, effectively avoided the visitor to scald.

Drawings

Fig. 1 is a schematic perspective view of a stone pot heat insulation device provided by the present invention;

FIG. 2 is a schematic front view of a stone pot heat insulation device provided by the present invention;

FIG. 3 is a schematic cross-sectional view of the portion A of the stone pot heat insulation device provided by the present invention;

FIG. 4 is an enlarged schematic view of the part B of the stone pot heat insulation device provided by the present invention;

FIG. 5 is an enlarged schematic view of the portion C of the stone pot heat insulation device provided by the present invention;

fig. 6 is an exploded schematic view of the stone pot heat insulation device provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

Referring to fig. 1-6, the preferred embodiment of the present invention is shown.

The stone pot heat insulation device comprises a heat insulation seat 100 and a heat insulation cover 200, wherein the heat insulation cover 200 and the heat insulation seat 100 are arranged in a vertically butted mode, the heat insulation cover 200 and the heat insulation seat 100 form a placement area, and the placement area is used for placing a stone pot 300; when the stone pot 300 is placed in the placing area, the bottom of the stone pot 300 is abutted against the heat insulation seat 100, and the heat insulation cover 200 surrounds the stone pot 300.

In the stone pot heat insulation device, the stone pot 300 is placed in the placement area, the heat insulation seat 100 supports the stone pot 300, the heat insulation cover 200 surrounds the stone pot 300, and under the action of the heat insulation seat 100 and the heat insulation cover 200, the exposed area of the stone pot 300 is greatly reduced, so that the heat insulation of the stone pot 300 is realized; like this, during stone pot 300 was arranged in to food, it was long when the heat-retaining of increase stone pot 300, long when the dining of growth food, simultaneously, separate heat exchanger 200 and avoid the visitor to directly touch stone pot 300, effectively avoid the visitor to scald.

The heat insulation seat 100 comprises a base 110 and a heat insulation plate 120, wherein the heat insulation plate 120 is in up-down butt joint with the base 110, and a heat insulation area is formed between the heat insulation plate 120 and the base 110; when the stone pot 300 is placed in the placing area, the bottom of the stone pot 300 is abutted against the heat insulation plate 120; through heat insulating board 120, realize stone pot 300's support and placement, simultaneously, under the effect in heat-proof area, reduce the heat conduction area of heat insulating board 120, further reduction heat loss to it is long when the heat-retaining of extension stone pot 300.

The heat insulation plate 120 is made of stainless steel, so that heat conduction is reduced, and at the same time, corrosion resistance of the heat insulation plate 120 is enhanced.

Furthermore, the heat insulation board 120 has a fixing groove 121 concavely arranged downward, the fixing groove 121 includes a lower groove portion and a side groove portion annularly arranged, the lower groove portion is horizontally arranged, the side groove portion has an upper notch and a lower notch, the upper notch and the lower notch are arranged in an up-down corresponding manner, and the lower groove portion covers the lower notch; when the stone pot 300 is placed in the placing area, the bottom of the stone pot 300 is embedded into the fixing groove 121; under the effect of fixed slot 121, reinforcing stone pot 300 places the steadiness, effectively avoids stone pot 300 lateral shifting, influences the use of stone pot 300.

Moreover, the lower part of the stone pan 300 is embedded into the fixing groove 121, and the fixing groove 121 is only abutted against the lower part of the stone pan 300, so that the heat conducting area of the stone pan 300 is reduced, the heat loss of the stone pan 300 is reduced, and the heat storage duration of the stone pan 300 is prolonged.

The side groove part is arranged in a ladder shape with a big top and a small bottom, so that the stone pot 300 can be conveniently placed.

The heat shield 200 may be made of aluminum alloy, which is inexpensive and resistant to corrosion.

The base 110 may be made of aluminum alloy, which is inexpensive and resistant to corrosion.

A heat insulation groove 113 is formed in the base 110, and the heat insulation groove 113 is arranged in a ladder shape with a large upper part and a small lower part; the heat insulation plate 120 covers the heat insulation groove 113, and the heat insulation plate 120 and the heat insulation groove 113 form a heat insulation area; the heat insulation slot 113 is arranged in such a way that it has a larger bearing capacity to ensure the placement of the heat insulation board 120.

The base 110 comprises a bottom plate 111 and a side plate 112, the side plate 112 is annularly arranged, the bottom of the side plate 112 is abutted to the bottom plate 111, and the bottom plate 111 and the side plate 112 form a heat insulation area; the side plates 112 are arranged in an inwardly concave arc shape; this reduces the exposed area of the side plate 112, reduces heat loss, and increases the duration of heat storage of the stone pot 300.

The bottom plate 111 has a bottom end surface away from the thermal insulation board 120, and the bottom end surface of the bottom plate 111 is provided with a plurality of convex particles, so that the friction force of the bottom plate 111 abutting against the outside is enhanced, and the placement stability of the base 110 is enhanced.

The convex particles are flat and arranged in a round shape, so that the contact area between the convex particles and the outside is increased, the friction force of the convex particles is enhanced, and the placing stability of the base 110 is enhanced.

The base 110 is provided with a heat insulation pad 600, and the heat insulation pad 600 is annularly arranged; the heat insulation board 120 and the heat insulation pad 600 are arranged in a surrounding and abutting mode; the heat shield 200 and the heat insulating pad 600 clamp the heat insulating board 120; under heat insulating mattress 600's effect, stone pot 300 heat conduction to heat insulating board 120 receives heat insulating mattress 600 to insulate against heat, is difficult for conducting to base 110, avoids base 110 high temperature to cause the scald of eater, and simultaneously, heat insulating mattress 600 plays the cushioning effect, avoids base 110 and heat insulating board 120 direct conflict, causes wearing and tearing, improves base 110 and heat insulating board 120's life.

Furthermore, the heat insulation mat 600 comprises a transverse mat 620 and a longitudinal mat 610, wherein the longitudinal mat 610 is arranged in a ring shape, the bottom of the longitudinal mat 610 is abutted against the transverse mat 620, and the top of the longitudinal mat 610 extends upwards; the heat shield 200 abuts against the upper end surface of the heat insulation board 120, the transverse pad 620 abuts against the lower end surface of the heat insulation board 120, and the longitudinal pad 610 surrounds and abuts against the side end surface of the heat insulation board 120; under the action of the transverse pad 620, the direct contact between the base 110 and the heat insulation board 120 is avoided, so that the abrasion is avoided, and the service life of the base 110 and the heat insulation board 120 is prolonged; under the effect of the longitudinal pad 610, the collision between the heat shield 200 and the base 110 is avoided, and a buffering effect is achieved, so that the service lives of the base 110 and the heat shield 200 are prolonged.

The top of the heat shield 200 is provided with a limit strip 210, the stone pot 300 is provided with a convex strip 310, and when the stone pot 300 is placed in the placing area, the limit strip 210 and the convex strip 310 are in up-down correspondence and are in abutting arrangement; under the cooperation of the limiting strips 210 and the protruding strips 310, the heat shield 200 limits the movement of the stone pot 300, thereby enhancing the placement stability of the stone pot 300.

Spacing 210 is the ring form and arranges, and protruding strip 310 is the ring form and arranges, increases spacing 210 and the area of contact of protruding strip 310, strengthens spacing 210's restriction intensity, simultaneously, makes spacing 210's restrictive force more even.

The convex strips 310 are arranged in a convex manner along the direction deviating from the circle center of the stone pot 300; under the cooperation of protruding strip 310 and spacing 210, effectively strengthen placing the steadiness of stone pot 300, simultaneously, when effectively avoiding the eater to press from both sides the food in the stone pot 300, the mistake drops to the inside of device, causes the abluent inconvenience of device.

The bottom end surface of the limiting strip 210 and the protruding strip 310 are arranged in a vertically butt joint mode, and limitation on the stone pot 300 is achieved.

The stone pot 300 is provided with an upper edge strip 320, the upper edge strip 320 is arranged in a circular ring shape, and the upper edge strip 320 extends upwards to the upper part of the convex strip 310; the limiting strip 210 is provided with an inner end surface facing the inside, and the inner end surface of the limiting strip 210 is abutted against the upper edge strip 320; thus, the base 110 and the upper bead 320 hold the heat shield 200, limiting lateral movement of the heat shield 200 and improving the stability of the heat shield 200.

In the top-down direction, the height of the heat shield 200 is higher than that of the stone pot 300, that is, the top of the spacing strip 210 is higher than that of the upper edge strip 320; like this, when effectively avoiding the eater to get the food in stone pot 300, the food mistake drops outside stone pot 300.

Separate heat exchanger 200 and be the upper and lower landing stage form and arrange, like this, when separating heat exchanger 200 and encircleing around stone pot 300, the top of separating heat exchanger 200 contradicts with stone pot 300, separates the state with stone pot 300 in the other region of heat exchanger 200, reduces the heat conduction area of stone pot 300 to it is long when the heat-retaining of increase stone pot 300.

The heat shield 200 is provided with an extraction piece 400, two ends of the extraction piece 400 are respectively hinged with the heat shield 200, and the middle part of the extraction piece 400 is arranged in an arched arc shape along the direction departing from the heat shield 200; through extraction piece 400, be convenient for heat exchanger 200 to draw and place, be convenient for stone pot 300 place and take.

The heat shield 200 is provided with an outward outer end face, the outer surface of the heat shield 200 is provided with a temperature measuring strip 500, and the temperature measuring strip 500 is attached to the outer surface of the heat shield 200 in a surrounding manner; thus, the temperature measuring strip 500 can be colored in different colors according to the stability of the heat shield 200, for example, in red at high temperature, thereby warning the eaters.

The position of the temperature measuring strip 500 is arranged corresponding to the position of the protruding strip 310, so that the temperature measuring strip 500 can conveniently detect the temperature conducted by the stone pot 300.

The temperature measuring strip 500 may be a tmc woven temperature measuring strip 500 adhered to the outer surface of the heat shield 200, and when the heat shield 200 reaches a measured temperature, the small squares in the middle of the temperature measuring strip 500 display the temperature through a color change.

tmc weaving temperature measurement strip 500 belongs to the material field, and does not belong to new material, does not belong to utility model's protection object, therefore does not explain in detail in this application.

When the stone pot 300 heat insulation device is used, the heat insulation cover 200 is lifted by the lifting piece 400 to be separated from the heat insulation seat 100, then the stone pot 300 filled with food is placed on the heat insulation plate 120, the lower part of the stone pot 300 is embedded into the fixing groove 121, then the heat insulation cover 200 is placed in butt joint with the heat insulation seat 100 by the lifting piece 400, at the moment, the heat insulation cover 200 surrounds the stone pot 300, and the heat insulation cover 200, the heat insulation seat 100 and the stone pot 300 are mutually matched and are relatively fixedly arranged; the stone pot 300 is insulated.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The stone pot heat insulation device is characterized by comprising a heat insulation seat and a heat insulation cover, wherein the heat insulation cover and the heat insulation seat are arranged in a vertically butt joint mode, a placement area is formed by the heat insulation cover and the heat insulation seat, and the placement area is used for placing a stone pot; when the stone pot is arranged in place when regional, the bottom of stone pot is contradicted the heat insulating seat, the heat insulating cover encircles the package and encloses the stone pot.

2. The stone pot heat insulation device as claimed in claim 1, wherein the heat insulation seat comprises a base and a heat insulation plate, the heat insulation plate and the base are arranged in an up-down butt joint mode, and a heat insulation area is formed between the heat insulation plate and the base; when the stone pot is arranged in the placing area, the bottom of the stone pot props against the heat insulation plate.

3. The stone pot heat insulation device as claimed in claim 2, wherein the heat insulation plate has fixing grooves concavely arranged downward, the fixing grooves include a lower groove portion arranged horizontally and a side groove portion arranged annularly, the side groove portion has an upper notch and a lower notch, the upper notch and the lower notch are arranged correspondingly up and down, the lower groove portion covers the lower notch; when the stone pot is arranged in the placing area, the bottom of the stone pot is embedded into the fixing groove.

4. A stone pot heat insulation device as recited in claim 2, wherein the base is formed with a heat insulation groove therein, the heat insulation groove being arranged in a step shape having a large top and a small bottom; the heat insulation plate covers the heat insulation groove, and the heat insulation plate and the heat insulation groove form the heat insulation area.

5. The stone pot heat insulation device of claim 2, wherein the base comprises a bottom plate and side plates, the side plates are arranged in a ring shape, the bottom of the side plates are butted against the bottom plate, and the bottom plate and the side plates form the heat insulation area; the side plates are arranged in an inward concave arc shape.

6. A stone pot heat insulation as claimed in any one of claims 2 to 5, wherein the base is provided with a heat insulation mat, the heat insulation mat being arranged in a ring; the heat insulation plate and the heat insulation pad are arranged in a surrounding and abutting mode; the heat insulation cover and the heat insulation pad clamp the heat insulation plate.

7. The stone pot heat insulation device as claimed in claim 6, wherein the heat insulation pad comprises a lateral pad and a longitudinal pad, the longitudinal pad is arranged in a ring shape, the bottom of the longitudinal pad is butted against the lateral pad, and the top of the longitudinal pad is arranged to extend upwards; the heat insulation cover abuts against the upper end face of the heat insulation plate, the transverse pad abuts against the lower end face of the heat insulation plate, and the longitudinal pad surrounds and abuts against the side end face of the heat insulation plate.

8. The stone pot heat insulation device as claimed in any one of claims 1 to 5, wherein a limit strip is formed on the top of the heat insulation cover, the stone pot is provided with a convex strip, and when the stone pot is placed in the placement area, the limit strip and the convex strip are in up-and-down correspondence and are in interference arrangement.

9. A stone pan heat insulating device as claimed in any one of claims 1 to 5, characterized in that the heat shield is provided with an extraction member, both ends of which are hinged to the heat shield, respectively, and the middle part of which is arranged in an arched shape in a direction away from the heat shield.

10. The stone pot heat insulation device as claimed in any one of claims 1-5, wherein the heat insulation cover has an outer end surface facing outwards, and the outer surface of the heat insulation cover is provided with a temperature measuring strip which is attached around the outer surface of the heat insulation cover.

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