CN210463108U

CN210463108U - Energy storage type infrared energy-saving stove

Info

Publication number: CN210463108U
Application number: CN201921295366.0U
Authority: CN
Inventors: 吴明
Original assignee: Shanghai Yeneng Kitchenware Co Ltd
Current assignee: Shanghai Yeneng Kitchenware Co Ltd
Priority date: 2019-08-07
Filing date: 2019-08-07
Publication date: 2020-05-05
Anticipated expiration: 2029-08-07

Abstract

The utility model discloses an energy storage type infrared energy-saving stove, which relates to the technical field of energy-saving stoves and comprises a stove top, wherein a stove is arranged on the stove top and comprises a stove body arranged on the stove top, and the stove bottom of the stove body is provided with an ignition port; the energy storage cover used for storing and reflecting heat energy is arranged on the furnace body, the energy storage cover is arranged to be a funnel-shaped structure with an upper end opening and a lower end opening, the pot body seat is arranged at the upper end opening of the energy storage cover, and the ignition port is exposed outside through the lower end opening of the energy storage cover and heats the pot body. The heat generated in the flame combustion process is absorbed by the energy storage cover or reflected back into the boiler body, so that the bottom of the boiler body is heated more uniformly and quickly, the heating efficiency of the boiler body is improved, and the aims of further reducing the heat loss of the energy-saving stove and saving fuel are fulfilled.

Description

Energy storage type infrared energy-saving stove

Technical Field

The utility model belongs to the technical field of energy-saving stove technique and specifically relates to an energy storage formula infrared ray energy-saving stove is related to.

Background

Energy-conserving kitchen compares in traditional cooking utensils, has high-efficient energy-conserving advantage, can the abundant burning flame, improves the kitchen and goes out article speed, and waste gas produces fewly during the burning, and its principle is through intensive mixing gas and air, reaches the purpose that improves the combustion effect.

The prior Chinese patent with the publication number of CN208418844U discloses an energy-saving stove, which comprises an energy-saving stove base and an energy-saving stove main body which are fixedly connected, wherein an internal hearth is arranged on the energy-saving stove base, and the middle side of the energy-saving stove base is connected with a bottom air inlet; the rear side of the bottom end of the energy-saving stove main body is connected with a water outlet, the middle side of the upper end of the energy-saving stove main body is connected with a smoke outlet pipe, and the smoke outlet pipe is communicated with the inner hearth. The energy-saving stove can simultaneously carry out three cooking modes of frying, steaming and stewing, saves fuel resources, improves the heat utilization rate and the safety performance, and is favorable for realizing energy conservation and emission reduction.

In the actual use process, the internal hearth generates flame through gas combustion and conducts heat to the bottom of the boiler in a convection mode, but a large amount of heat is directly dissipated to the surrounding space without being utilized, so that a large amount of heat loss and fuel waste are caused, and the prior art has the improvement.

SUMMERY OF THE UTILITY MODEL

To the technical problem, an object of the utility model is to provide an energy-saving stove of energy storage formula is through setting up the energy storage cover that is used for storage and reflection heat energy on the furnace body to reach further reduction energy-saving stove heat loss and the purpose of fuel saving.

In order to achieve the above purpose, the utility model provides a following technical scheme: an energy storage type infrared energy-saving stove comprises a cooking bench, wherein a stove is arranged on the cooking bench and comprises a stove body arranged on the cooking bench, and an ignition port is arranged at the bottom of the stove body; the energy storage cover is arranged on the furnace body and used for storing and reflecting heat energy, the energy storage cover is arranged to be of a funnel-shaped structure with an upper end opening and a lower end opening, the pot body seat is arranged at the upper end opening of the energy storage cover, and the ignition port is exposed outside through the lower end opening of the energy storage cover and heats the pot body.

By adopting the technical scheme, the burning gas at the ignition port generates flame, and the heat generated by the flame burning is conducted to the pot body in a convection heat transfer mode so as to achieve the purpose of heating dishes. The heat generated in the flame combustion process is absorbed by the energy storage cover or reflected back into the boiler body, so that the bottom of the boiler body is heated more uniformly and quickly, the heating efficiency of the boiler body is improved, and the aims of further reducing the heat loss of the energy-saving stove and saving fuel are fulfilled.

The utility model discloses further set up to: a hollow interlayer is formed between the energy storage cover and the furnace body.

Through adopting above-mentioned technical scheme, form the cavity intermediate layer between energy storage cover and furnace body, the setting of cavity intermediate layer plays the effect of further isolated heat exchange, further improves the heating efficiency of energy-conserving kitchen promptly.

The utility model discloses further set up to: the energy storage cover is characterized in that a furnace ring is arranged at an opening at the upper end of the energy storage cover, a pot body seat is arranged on the furnace ring, and a supporting block for supporting and stabilizing a pot body is formed on the furnace ring along the circumferential direction of the furnace ring.

By adopting the technical scheme, the furnace ring not only plays a role in stably supporting the pot body, but also plays a role in separating the pot body from the furnace body, so that a user can turn over the pot body conveniently.

The utility model discloses further set up to: the furnace ring and the energy storage cover are integrally formed, and the furnace ring is positioned at the outer top of the furnace body.

Through adopting above-mentioned technical scheme, the stove circle constitutes an organic whole structure with the energy storage cover, is favorable to improving stability and the security that the furnace body used, and the position of setting up of stove circle is convenient for the user and turns the pot body simultaneously.

The utility model discloses further set up to: the furnace ring and the energy storage cover are detachably connected and fixed, and the furnace ring is positioned at the outer top of the furnace body.

By adopting the technical scheme, the furnace ring and the energy storage cover form a split structure, so that the furnace ring is convenient for installation and maintenance personnel to assemble, and a user can conveniently replace the furnace rings with different structures so as to adapt to the pot bodies with different structures; meanwhile, the arrangement position of the furnace ring is convenient for a user to turn over the pot body.

The utility model discloses further set up to: the top of energy storage cover is formed with annular arch, the bottom of stove circle is formed with annular sunken, just annular arch inlays with annular sunken to establish cooperation and screw thread locking.

Through adopting above-mentioned technical scheme, energy storage cover and stove circle realize dismantling fixedly between them through cyclic annular arch and cyclic annular sunken, and mounting structure is simple easily to implement, and installs firmly stably, is favorable to improving stability and the security that both combine.

The utility model discloses further set up to: the top of energy storage cover is formed with annular mounting platform, the outer top department of furnace body is located to annular mounting platform seat, just annular mounting platform and furnace body threaded connection have the locking piece.

Through adopting above-mentioned technical scheme, energy storage cover and furnace body pass through annular mounting platform and locking piece and realize demountable installation, have better structure combination characteristic and stability and the flexibility of use.

The utility model discloses further set up to: the cover body of the energy storage cover extending into the furnace body is of an arc cover body structure.

By adopting the technical scheme, the arc-shaped cover body structure is favorable for improving the reflection energy accumulation effect of the energy storage cover, namely, the heat exchange loss of the energy-saving stove and the external environment is further reduced.

To sum up, the utility model discloses following beneficial effect has:

one is as follows: the heat generated in the flame combustion process is absorbed by the energy storage cover or reflected back into the boiler body, so that the bottom of the boiler body is heated more uniformly and quickly, the heating efficiency of the boiler body is improved, and the aims of further reducing the heat loss of the energy-saving stove and saving fuel are fulfilled;

the second step is as follows: the furnace ring and the energy storage cover can be integrally formed or combined in a split way, so that the practicability and the use flexibility are better;

and thirdly: the hollow interlayer between the energy storage cover and the furnace body further reduces the heat exchange loss between the energy-saving stove and the external environment.

Drawings

FIG. 1 is a schematic view of the general structure of an energy storage type infrared energy-saving stove;

fig. 2 is a schematic sectional view mainly for showing an inner structure of a cooking range;

FIG. 3 is a schematic structural view mainly used for showing the top structure of the furnace body;

FIG. 4 is a top view of the burner ring;

fig. 5 is a bottom structure schematic diagram of the furnace ring.

Reference numerals: 1. a cooking bench; 2. a stove; 21. a furnace body; 22. an ignition port; 23. an energy storage cover; 3. the upper end is open; 4. the lower end is open; 5. an annular mounting platform; 51. a locking member; 6. a hollow interlayer; 7. a furnace ring; 71. a support block; 8. an annular projection; 9. and an annular recess.

Detailed Description

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

As shown in fig. 1, an energy-storage infrared energy-saving stove comprises a cooking bench 1, a stove 2 communicated with a gas and air mixed combustion system is arranged on the cooking bench 1, and a pot body and the like are arranged on the stove 2 to finish stir-frying dishes. The stove 2 comprises a stove body 21 vertically embedded in the cooking bench 1, an ignition port 22 is arranged at the bottom of the stove body 21, the ignition port 22 is communicated with a gas and air mixed combustion system, and the gas and air mixed gas is ignited through a lighting device and the like to generate flame to heat dishes.

The furnace body 21 endotheca is equipped with energy storage cover 23 by cordierite material and makes, because the little and the effectual characteristics of heat reflection of the little and thermal expansion coefficient of cordierite material self, energy storage cover 23 can play the thermal effect of storage and reflection flame, has reduced energy-conserving kitchen flame promptly and the heat exchange of surrounding environment to reach the purpose that further improves energy-conserving kitchen heat loss and practice thrift fuel loss.

Referring to fig. 1 and 2, the energy storage cover 23 is configured as a funnel-shaped structure having an upper end opening 3 and a lower end opening 4, the ignition port 22 can be exposed to the outside through the lower end opening 4 of the energy storage cover 23 and heat the pot body, and a ring-shaped mounting platform 5 is formed at the upper end opening 3 of the energy storage cover 23 in a horizontally extending manner; when the energy storage cover 23 is integrally embedded in the furnace body 21, the annular mounting platform 5 is horizontally arranged at the outer top of the furnace body 21, the annular mounting platform 5 and the furnace body 21 are in threaded connection with a locking piece 51, and the locking piece 51 can be set into a screw (the head of the screw can be sunk into the annular mounting platform 5), so that the detachable connection of the energy storage cover 23 and the furnace body 21 is realized. A hollow interlayer 6 is formed between the outer side wall of the energy storage cover 23 and the inner side wall of the furnace body 21, and the hollow interlayer 6 is arranged to further isolate and reduce heat exchange loss between flame and the surrounding environment; and the cover body part of the energy storage cover 23 extending into the furnace body 21 is arranged into an arc-shaped cover body structure, namely, the part of the energy storage cover 23 close to the lower end opening 4 forms a gathering structure, so that the energy storage cover 23 plays a role in further gathering energy.

Referring to fig. 1 and 4, a furnace ring 7 is mounted on the annular mounting platform 5 of the energy storage cover 23, the furnace ring 7 is of an annular structure and is formed with a plurality of supporting blocks 71 along the circumferential direction, the supporting blocks 71 form a symmetrical structure and are used for stably supporting the pot body, that is, the pot body seat is arranged on the supporting blocks 71 of the furnace ring 7. The producer both can select the integrated into one piece structure of circle 7 and energy storage cover 23, also can select the components of a whole that can function independently integrated configuration of circle 7 and energy storage cover 23, but no matter be any of above-mentioned two kinds of structures, circle 7 all is located the outer top of furnace body 21 to reach the purpose that the user of being convenient for turned over the stir-fry pot body.

Referring to fig. 3 and 5, when the split combination structure of the furnace ring 7 and the energy storage cover 23 is adopted, the top of the energy storage cover 23 is formed with the annular protrusion 8, the bottom of the furnace ring 7 is formed with the annular recess 9, and the annular protrusion 8 and the annular recess 9 are embedded, matched and locked by screw threads, so that the furnace ring 7 and the energy storage cover 23 can be detachably connected and fixed.

The present invention will be further explained with reference to the following specific actions and principles:

the gas and the air are fully mixed and are combusted at the ignition port 22 to generate heat, the heat and the bottom of the pot body which is arranged at the furnace ring 7 are subjected to convection heat exchange, the heat radiated to the circumferential side of the flame is converted into infrared heat energy again under the storage and reflection of the energy storage cover 23, and the pot body is heated secondarily, so that the aims of further reducing the heat loss and the fuel loss of the energy-saving stove are fulfilled.

The present invention is not limited to the above embodiments, and those skilled in the art can modify the present invention as needed after reading the present specification without any inventive contribution, but all the modifications are protected by the patent laws within the scope of the claims of the present invention.

Claims

1. The utility model provides an energy storage formula infrared ray energy-saving stove, including top of a kitchen range (1), be provided with stove (2) on top of a kitchen range (1), its characterized in that: the stove (2) comprises a stove body (21) arranged on the cooking bench (1), and the bottom of the stove body (21) is provided with an ignition port (22); be provided with on furnace body (21) and be used for storage and energy storage cover (23) of reflection heat energy, energy storage cover (23) set up to have upper end opening (3) and lower extreme opening (4) funnel shaped structure, and the pot body seat is located the upper end opening (3) department of energy storage cover (23), just ignition mouth (22) expose outside and the heating pot body via lower extreme opening (4) of energy storage cover (23).

2. The energy-storage infrared energy-saving stove according to claim 1, characterized in that: a hollow interlayer (6) is formed between the energy storage cover (23) and the furnace body (21).

3. The energy-storage infrared energy-saving stove according to claim 1, characterized in that: the energy storage cover is characterized in that a furnace ring (7) is arranged at an upper end opening (3) of the energy storage cover (23), a pot body seat is arranged on the furnace ring (7), and a supporting block (71) used for supporting a stable pot body is formed on the furnace ring (7) along the circumferential direction of the furnace ring.

4. An energy storage type infrared energy-saving stove as claimed in claim 3, characterized in that: the furnace ring (7) and the energy storage cover (23) are integrally formed, and the furnace ring (7) is positioned at the outer top of the furnace body (21).

5. An energy storage type infrared energy-saving stove as claimed in claim 3, characterized in that: the furnace ring (7) and the energy storage cover (23) are detachably connected and fixed, and the furnace ring (7) is positioned at the outer top of the furnace body (21).

6. The energy-storing infrared energy-saving stove according to claim 5, characterized in that: the top of energy storage cover (23) is formed with annular protrusion (8), the bottom of stove circle (7) is formed with annular sunken (9), just annular protrusion (8) are inlayed with annular sunken (9) and are established cooperation and screw thread locking.

7. The energy-storage infrared energy-saving stove according to claim 1, characterized in that: the top of energy storage cover (23) is formed with annular mounting platform (5), the outer top department of furnace body (21) is located to annular mounting platform (5) seat, just annular mounting platform (5) and furnace body (21) threaded connection have locking piece (51).

8. The energy-storing infrared energy-saving stove according to claim 7, characterized in that: the cover body of the energy storage cover (23) extending into the furnace body (21) is of an arc cover body structure.