CN218870019U - Double-end noodle boiling furnace - Google Patents

Abstract

The utility model relates to a technical field of kitchen utensils and appliances, concretely relates to double-end boils a stove, including the furnace body, connect the kitchen range board, add tap, can open the shell, boil a structure and a reserve section of thick bamboo structure, furnace body and connection kitchen range board fixed connection add tap and connect kitchen range board fixed connection, can open shell and furnace body fixed connection, boil a structure and reserve section of thick bamboo structure all with furnace body fixed connection, boil a stove, interval cavity, first base and heating device including being provided with in the structure. The reserve barrel that sets up through the toper at first reaches the effect of storing reserve water source, and when actually using, thereby the intercommunication pipeline through setting up temperature detector and steerable valve reaches the effect of carrying in the heat of being convenient for concentrate in the interval cavity to reserve section of thick bamboo structure to reach heat cyclic utilization, reach the effect that reduces the consumption.

Description

Double-end noodle boiling furnace

Technical Field

The utility model relates to a technical field of kitchen utensils and appliances, concretely relates to face stove is boiled to double-end.

Background

The noodle boiling furnace is also called as a noodle boiling stove or a noodle boiling barrel, is a novel energy-saving noodle boiling furnace, is a gas vertical noodle boiling furnace which is newly designed, pursues high quality and is designed to absorb the advantages of similar products at home and abroad, has a plurality of barrels in total, uses a cast iron burner, has the characteristics of novel style, reasonable structure, convenient operation, high temperature rising speed, uniform temperature, energy and gas saving, environmental protection and the like, and is suitable for places with large passenger flow, such as hotels, markets, supermarkets and the like.

Along with the frequent use of the noodle cooking stove in daily life, in order to be more convenient for the use of daily life, the existing noodle cooking stove simultaneously has the function of cooking noodles by two heads, the double-head noodle cooking stove is provided with two furnace body structures which can be used, and the processing operation of various different food materials can be simultaneously carried out when the double-head noodle cooking stove is actually used.

However, compared with the traditional noodle cooking stove, the double-end noodle cooking stove has higher power consumption, after noodle soup in two groups of noodle cooking stoves boils, new water needs to be added into the two groups of noodle cooking stoves along with the reduction of the evaporation water level, the noodle soup in the noodle cooking stove can be boiled only by heating the noodle soup for a period of time, noodle cooking can be performed, secondary heating is started after the water is added again, the whole process needs a longer time, and meanwhile, energy is not saved when the stove body is used.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model provides a face stove is boiled to double-end realizes recycling to it through the heat that produces in the furnace body structure use for concentrate the heat and carry out constant temperature heat preservation to reserve section of thick bamboo structure wherein and handle, thereby make the water source that the later stage added have certain temperature, thereby be convenient for carry out the secondary heating and boil a face operation, effectual reduction consumption improves the actual operation availability factor.

In order to solve the technical problem, the utility model provides a following technical scheme:

the double-end boils a stove, including the furnace body, connect the kitchen board, add tap, can open the shell, boil a structure and a reserve section of thick bamboo structure, the furnace body with connect kitchen board fixed connection, add tap and connect kitchen board fixed connection, can open shell and furnace body fixed connection, boil a structure and reserve section of thick bamboo structure all with furnace body fixed connection, boil including being provided with in the face structure and boil a stove, interval cavity, first base and heating device fixed connection, the interval cavity is located boils a stove outside side position.

Furthermore, the noodle boiling furnaces are integrally arranged in two groups, are distributed at the positions of two sides of the standby cylinder structure, are integrally vertically arranged in a cylindrical shape and are simultaneously positioned in the spacing chambers.

Furthermore, the whole embedding of heating device sets up inside first base, and with external control device and control system electric connection, the compartment surrounds the setting to whole face stove of cooking.

Further, reserve barrel structure is whole including reserve barrel, intercommunication pipeline, thermostatic chamber, second base, constant temperature equipment and heat conduction structure, reserve barrel and intercommunication pipeline fixed connection, second base and thermostatic apparatus fixed connection, heat conduction structure and reserve barrel fixed connection, the thermostatic chamber is located the outside position of reserve barrel, including heat conduction fin, heat conduction outer panel and heat-conducting layer in the heat conduction structure, the supporting setting of heat conduction fin, heat conduction outer panel and heat-conducting layer three.

Furthermore, the whole standby barrel is arranged in a conical shape, two ends of the standby barrel are communicated and connected with the interval cavity in the whole noodle boiling structure through a communication pipeline, and a temperature detector and a controllable valve are arranged on the communication pipeline in a matched mode.

Further, the thermostatic chamber wholly surrounds the setting to reserve barrel, and the bottom space upwards is the binding off state gradually, and thermostatic device and external control device electric connection are located the bottom position of reserve barrel.

Further, the heat conduction fin is located the inner wall both sides position of reserve barrel, wholly is the downward sloping setting simultaneously, and the whole arc setting that is of heat conduction outer panel, the outside surface setting of the reserve barrel of laminating, the inside surface of heat conduction outer panel sets up the heat preservation coating simultaneously, and the outside surface is provided with the heat conduction coating.

Further, the heat conduction layer is arranged to be a Z-shaped metal sheet, and the heat conduction fins and the heat conduction outer side plate are connected at the same time.

According to the above technical scheme, the beneficial effects of the utility model are that:

the utility model discloses, thereby reach the effect of carrying out heat treatment to its inside water through the heating device who boils face stove bottom setting, the heat that produces after heating device starts is partly concentrated in the interval cavity, reaches the effect of concentrating unnecessary heat and being convenient for the later stage transport and use through the interval cavity.

The utility model discloses, reserve barrel through the toper setting at first reaches the effect of storing reserve water source, when actually using, thereby reaches the effect of carrying in the heat of concentrating to reserve barrel structure in the interval cavity of being convenient for through the intercommunication pipeline that sets up temperature detector and steerable valve to reach heat cyclic utilization, reach the effect that reduces the consumption.

The utility model discloses, when the heat in the interval cavity got into the thermostatic chamber, because the bottom space of thermostatic chamber upwards gradually is the binding off state, the heat is concentrated in a large amount and is upwards flowed again in the bottom position in thermostatic chamber, can effectually reach the whole effect of carrying out the heat preservation processing to reserve barrel for the inside reserve water source of reserve barrel is in the constant temperature state, energy consumption when the standby water source that significantly reduces actually adds the use, the constant temperature heat preservation effect through the inside reserve water source of constant temperature equipment reinforcing spare barrel simultaneously.

The utility model discloses, thereby the heat is after getting into the thermostatic chamber, through thermal heat conduction outer panel thermal concentration, later reach through the heat-conducting layer concentrate the heat carry to the heat conduction fin on, thereby reach through the heat conduction fin and carry out the effect that constant temperature heat preservation was handled to the inside water source of reserve barrel.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a front view of the overall structure of the present invention;

FIG. 2 is a front view of the connection of the internal structure of the present invention;

FIG. 3 is a connection front view of the structure of the middle standby tube of the present invention;

FIG. 4 is a schematic view of the connection of the heat conducting structure of the present invention;

reference numerals:

1-furnace body, 2-connecting furnace plate, 3-adding faucet, 4-openable shell, 5-boiling surface structure, 6-standby barrel structure, 7-boiling surface furnace, 8-spacing chamber, 9-first base, 10-heating device, 11-standby barrel, 12-communicating pipeline, 13-constant temperature cavity, 14-second base, 15-constant temperature device, 16-heat conducting structure, 17-heat conducting fin, 18-heat conducting outer side plate and 19-heat conducting layer.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

Referring to fig. 1-4, the double-head noodle boiling furnace comprises a furnace body 1, a connecting furnace plate 2, a water adding tap 3, an openable shell 4, a noodle boiling structure 5 and a standby cylinder structure 6, wherein the furnace body 1 is fixedly connected with the connecting furnace plate 2, the water adding tap 3 is fixedly connected with the connecting furnace plate 2, the openable shell 4 is fixedly connected with the furnace body 1, the noodle boiling structure 5 and the standby cylinder structure 6 are fixedly connected with the furnace body 1, the noodle boiling structure 5 comprises a noodle boiling furnace 7, a spacing chamber 8, a first base 9 and a heating device 10, the first base 9 is fixedly connected with the heating device 10, and the spacing chamber 8 is located at the outer side position of the noodle boiling furnace 7.

The noodle boiling furnaces 7 are integrally arranged in two groups, are distributed at two sides of the standby cylinder structure 6, are vertically arranged in a cylindrical shape and are positioned in the spacing chamber 8;

the heating device 10 is wholly embedded in the first base 9 and is electrically connected with an external control device and a control system, and the spacing chamber 8 surrounds the whole noodle cooking stove 7;

thereby reach the effect of carrying out heat treatment to its inside water through the heating device 10 that boils face stove 7 bottom and set up, the heat that heating device 10 produced after the start-up is partly concentrated in interval cavity 8, reaches the effect of concentrating the unnecessary heat and being convenient for the later stage to carry the use through interval cavity 8.

In this embodiment, reserve barrel structure 6 is whole including reserve barrel 11, communicating pipe 12, thermostatic chamber 13, second base 14, constant temperature equipment 15 and heat conduction structure 16, reserve barrel 11 and communicating pipe 12 fixed connection, second base 14 and constant temperature equipment 15 fixed connection, heat conduction structure 16 and reserve barrel 11 fixed connection, thermostatic chamber 13 is located the outside position of reserve barrel 11, including heat conduction fin 17 in the heat conduction structure 16, heat conduction outer panel 18 and heat-conducting layer 19, heat conduction fin 17, the supporting setting of heat conduction outer panel 18 and heat-conducting layer 19 three.

The standby cylinder 11 is integrally arranged in a conical shape, two ends of the standby cylinder are communicated and connected with the spacing chamber 8 in the whole noodle boiling structure 5 through a communication pipeline 12, and meanwhile, a temperature detector and a controllable valve are arranged on the communication pipeline 12 in a matched mode;

reserve barrel 11 through the toper setting at first reaches the effect of storing reserve water source, and when actually using, thereby reach the effect of being convenient for carry in the heat of concentrating in the interval cavity 8 to reserve barrel structure 6 through the intercommunication pipeline 12 that sets up temperature-detecting appearance and steerable valve to reach heat cyclic utilization, reach the effect that reduces the consumption.

The thermostatic chamber 13 surrounds the whole spare cylinder 11, the bottom space gradually upwards is in a closing-in state, and the thermostatic device 15 is electrically connected with an external control device and is positioned at the bottom position of the spare cylinder 11;

when the heat in interval cavity 8 gets into in thermostatic chamber 13, because thermostatic chamber 13's bottom space upwards is the binding off state gradually, the heat concentrates on in a large number the bottom position of thermostatic chamber 13 and upwards flows again, can effectually reach the whole effect of carrying out heat preservation processing to reserve barrel 11, make the reserve water source of reserve barrel 11 inside be in the constant temperature state, energy consumption when the standby water source that significantly reduces actually adds the use, the constant temperature heat preservation effect of the inside reserve water source of reserve barrel 11 is strengthened through thermostatic apparatus 15 simultaneously.

The heat-conducting fins 17 are positioned on two sides of the inner wall of the standby cylinder 11, and are arranged in an overall downward inclination manner, the heat-conducting outer side plate 18 is arranged in an overall arc manner and is attached to the outer side surface of the standby cylinder 11, the inner side surface of the heat-conducting outer side plate 18 is provided with a heat-insulating coating, and the outer side surface is provided with a heat-conducting coating;

the heat conduction layer 19 is arranged as a Z-shaped metal sheet and is connected with the heat conduction fins 17 and the heat conduction outer side plate 18;

after the heat gets into thermostatic chamber 13, thereby through the thermal concentration of heat conduction lateral plate 18, later reach through heat-conducting layer 19 concentrate the heat and carry to heat conduction fin 17 on, thereby reach through heat conduction fin 17 and carry out the effect that constant temperature heat preservation was handled to the inside water source of reserve barrel 1.

The working principle is as follows: the water adding faucet 3 is used for simultaneously adding water into the noodle boiling furnace 7 in the noodle boiling structure 5 and the standby cylinder 11 in the standby cylinder structure 6, then the water source in the noodle boiling furnace 7 is heated through the heating device 10, noodle boiling operation is carried out when water boils, when secondary water adding operation is needed, the water source in the standby cylinder 11 is used through the constant-temperature standby water source in the standby cylinder 11, when the constant-temperature water source in the standby cylinder 11 is added into the noodle boiling furnace 7 for secondary heating boiling, power consumption and time required by secondary heating are effectively reduced, the water source in the standby cylinder 11 is used in the noodle boiling furnace 7, constant-temperature processing is simultaneously completed, heat generated by the noodle boiling furnace 7 is concentrated in the spacing cavity 8, heat is conducted through the communicating pipeline 12 and is concentrated in the standby cylinder structure 6 and is concentrated in the constant-temperature cavity 13, along with noodle boiling operation, the heat in the constant-temperature cavity 13 is transferred into the standby cylinder 11 through the heat conducting structure 16, and the standby water source in the standby cylinder is heated through the constant-temperature device 15.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention, and they should be construed as being included in the scope of the claims and description of the present invention.

Claims (8)

1. A stove is boiled to double-end, including furnace body (1), connection kitchen board (2), add tap (3), can open shell (4), boil a structure (5) and reserve section of thick bamboo structure (6), its characterized in that: the cooking stove is characterized in that the stove body (1) is fixedly connected with the connecting stove plate (2), the water adding faucet (3) is fixedly connected with the connecting stove plate (2), the openable shell (4) is fixedly connected with the stove body (1), the noodle boiling structure (5) and the standby barrel structure (6) are fixedly connected with the stove body (1), the noodle boiling structure (5) comprises a noodle boiling stove (7), an interval chamber (8), a first base (9) and a heating device (10), the first base (9) is fixedly connected with the heating device (10), and the interval chamber (8) is located at the outer side of the noodle boiling stove (7).

2. The dual head pasta cooking stove according to claim 1, wherein: the noodle boiling furnaces (7) are integrally arranged in two groups, are distributed at the positions of two sides of the standby cylinder structure (6), are integrally vertically arranged in a cylindrical shape, and are simultaneously positioned in the spacing cavities (8).

3. The dual head cook surface oven of claim 1, wherein: the heating device (10) is integrally embedded in the first base (9) and is electrically connected with an external control device and a control system, and the spacing chamber (8) surrounds the whole noodle cooking furnace (7).

4. The dual head cook surface oven of claim 1, wherein: reserve barrel structure (6) is whole including reserve barrel (11), communicating pipe (12), thermostatic chamber (13), second base (14), constant temperature equipment (15) and heat conduction structure (16), reserve barrel (11) and communicating pipe (12) fixed connection, second base (14) and thermostatic apparatus (15) fixed connection, heat conduction structure (16) and reserve barrel (11) fixed connection, thermostatic chamber (13) are located the outside position of reserve barrel (11), including heat conduction fin (17) in heat conduction structure (16), heat conduction outer panel (18) and heat-conducting layer (19), heat conduction fin (17), heat conduction outer panel (18) and heat-conducting layer (19) three supporting setting.

5. The dual head cook surface oven of claim 4, wherein: the standby cylinder body (11) is integrally arranged in a conical shape, two ends of the standby cylinder body are communicated and connected with the interval cavity (8) in the whole noodle boiling structure (5) through a communicating pipeline (12), and meanwhile, a temperature detector and a controllable valve are arranged on the communicating pipeline (12) in a matched mode.

6. The dual head cook surface oven of claim 4, wherein: thermostatic chamber (13) wholly surrounds setting reserve barrel (11), and the bottom space upwards is the binding off state gradually, and thermostatic device (15) and external control device electric connection are located the bottom position of reserve barrel (11).

7. The dual head cook surface oven of claim 4, wherein: heat conduction fin (17) are located the inner wall both sides position of reserve barrel (11), wholly are the downward sloping setting simultaneously, and heat conduction outer panel (18) wholly is the arc setting, and the outside surface setting of the reserve barrel of laminating (11), the inboard surface of heat conduction outer panel (18) sets up the heat preservation coating simultaneously, and the outside surface is provided with the heat conduction coating.

8. The dual head cook surface oven of claim 4, wherein: the heat conduction layer (19) is arranged to be a Z-shaped metal sheet and is connected with the heat conduction fins (17) and the heat conduction outer side plate (18).

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