CN212299090U

CN212299090U - Novel cyclone full-automatic big pot stove

Info

Publication number: CN212299090U
Application number: CN202021014122.3U
Authority: CN
Inventors: 杨治敏; 李洪林
Original assignee: Chengdu Huari Lvlan Engineering Technology Co ltd
Current assignee: Sichuan Huari lvlan Industrial Group Co.,Ltd.
Priority date: 2020-06-05
Filing date: 2020-06-05
Publication date: 2021-01-05
Anticipated expiration: 2030-06-05

Abstract

The utility model discloses a novel cyclone full-automatic big pot stove, which comprises a stove body, a hearth and a combustion device, wherein the hearth is positioned in the stove body, the hearth comprises an upper hearth body and a lower hearth body, one side of the lower hearth body is provided with an air inlet near the bottom, and a cyclone guide wall is arranged in the lower hearth body and is just opposite to the air inlet; the combustion device is externally provided with a sound insulation cover. Still include a central control platform, central control platform includes the quick-witted case that can imbed the furnace body, and machine case both sides are passed through pull formula slide rail and furnace body sliding connection, and quick-witted incasement is equipped with PLC controller, quick-witted outer wall of case and is equipped with touch liquid crystal display control panel, and PLC controller still is connected with multiple sensor. The utility model discloses can reduce equipment noise, protection equipment components and parts, maintain conveniently, can also carry out information-based management through the PLC treater, solve the problem that kitchen work exists to realize the modern high-efficient management in food and beverage kitchen.

Description

Novel cyclone full-automatic big pot stove

Technical Field

The utility model relates to a big pot and stove for dining hall and large meal, in particular to a novel cyclone full-automatic big pot and stove.

Background

At present, the structure of the domestic big cooking stove hearth is generally a cylinder or an inverted cone hearth structure, one or more burner ends are arranged at the center of the bottom of the hearth, and in the using process, gas is fed into the burner ends or the burner ends through air mixed combustion fed by an air blower and further mixed combustion is carried out. The hearth of a general large boiler on the market is combusted in a direct-injection jet flow air inlet mode, the temperature difference of a combustion area is large, the conditions of high central temperature and low peripheral temperature are formed, and the defects of nonuniform heating of the hearth, short high-temperature mixed combustion time, insufficient combustion, low heat energy efficiency, high combustion power consumption and the like are caused. Simultaneously, the furnace end is arranged at the bottom of the hearth, and the burner is easily blocked by oil residue, water stain and the like falling off during cooking at the upper part to influence the combustion, so that the burner is damaged.

The existing combustion device can generate larger noise when working, and the noise can not be dissipated by combining a closed space of an operation room, so that the influence on an operator is larger. Meanwhile, the existing cooking range has the defects of old appearance, poor manufacturing process, low automation degree of equipment, poor operation safety, no heat preservation and insulation measures for the equipment and the like.

In addition, with the progress of science and technology, domestic stoves generally have the problems that electric equipment and electronic components are increased, the coordination of use operation and a system is difficult, the professional maintenance workload of the equipment is large, the environmental quality requirement of a catering kitchen is high, and the like, so that the additional service volume of kitchen work is increased, and the working efficiency of the kitchen is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a solve above-mentioned problem, mainly be applied to the large-scale pot and stove that dining room, large-scale meal drunk, can noise abatement, improve that thermal efficiency is good, and the high novel full-automatic big pot and stove of whirlwind of intelligent degree.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a novel cyclone full-automatic big pot stove comprises a stove body, a hearth and a combustion device, wherein the hearth is positioned in the stove body, the stove body is in a hollow cuboid shape, the combustion device comprises an air distribution disc, an air door switch is arranged at the inlet of the air distribution disc, an outlet of the air distribution disc is sequentially connected with a rectification air box and an air distribution cylinder, an air inlet connected with a gas pipe is further arranged on the combustion device, and the hearth comprises an upper hearth body and a lower hearth body;

the upper chamber body is in a hollow spherical segment shape with a large upper part and a small lower part, the top of the upper chamber body extends upwards to form a round pipe part, a smoke discharge port is arranged on the round pipe part, the lower chamber body is in a horseshoe-shaped structure with an open top, and the bottom of the upper chamber body is matched and butted with the top of the lower chamber body;

an air inlet communicated with the interior of the lower chamber body is formed in one side of the lower chamber body, close to the bottom of the lower chamber body, the air inlet is in butt joint with a combustion device, and a rotational flow guide wall is arranged in the lower chamber body, right opposite to the air inlet;

the lower hearth body is divided into an energy-gathering combustion area facing the air inlet and an auxiliary combustion area back to the air inlet by the rotational flow guide wall, and the energy-gathering combustion area is larger than the auxiliary combustion area;

the upper chamber body, the round pipe part and the lower chamber body are integrally formed and are made of heat insulation materials, and a sound insulation cover is arranged outside the combustion device.

Preferably, the method comprises the following steps: the sound insulation cover comprises a plastic steel frame which is built by a plastic steel frame, a sound insulation material layer is coated outside the plastic steel frame, a horizontal support is arranged in the sound insulation cover and close to the bottom of the sound insulation cover, a damping fixing bracket used for fixing an air distribution plate is arranged on the horizontal support, the cross section of the damping fixing bracket is arc-shaped, the inner wall of the damping fixing bracket is matched, attached and fixed with the outer wall of the air distribution plate, the air distribution cylinder penetrates out of the side wall of the sound insulation cover and then extends into an air inlet below a hearth, and a rectification air box is positioned in the sound insulation cover and is fixedly connected with the sound insulation cover;

the side wall of the sound insulation cover is provided with heat dissipation holes close to the top, the sound insulation cover is opposite to the air door switch, an adjustable shutter type air inlet window is arranged, the air door switch is provided with a rocking handle for adjusting the opening degree of the air door switch, one end of the rocking handle is connected with the air door switch, the other end of the rocking handle penetrates out of the sound insulation cover, and the sound insulation cover is provided with a through hole for the rocking handle to penetrate out.

Preferably, the method comprises the following steps: the rotational flow guide wall is formed by buckling an inner mold wall and an outer mold wall, and is integrally arc-shaped, and one side of the rotational flow guide wall is high and the other side of the rotational flow guide wall is low;

the inner die wall is an arc-shaped surface facing the air inlet, the cross section size of the inner die wall is sequentially increased from bottom to top, the outer die wall is an arc-shaped plate facing the air inlet and vertically arranged, and the inner die wall and the outer die wall are uniform and high in side and low in side;

the outer mould wall is bent towards the corresponding position at the top of the inner mould wall at the top and two sides respectively, so that the outer mould wall and the inner mould wall can be buckled at the top and two sides to form a whole body which is hollow inside and not connected at the bottom, a heat-insulating material layer is filled inside the whole body, the two sides of the whole body are attached to the inner wall of the hearth at one high side, and the other side of the two sides of the whole body is not contacted with the inner wall of the hearth.

Preferably, the method comprises the following steps: a gas flow regulating valve is arranged at the gas inlet of the combustion device, a wind distribution barrel and a hearth of the combustion device are internally provided with temperature sensors, and gas sensors are arranged in the hearth and at the top of the hearth;

the furnace body is characterized by further comprising a central console, wherein the central console comprises a case which can be embedded into the furnace body, two sides of the case are in sliding connection with the furnace body through pull-out slide rails, a PLC (programmable logic controller) is arranged in the case, and the outer wall of the case is provided with a touch liquid crystal display control panel;

the PLC controller is respectively connected with the temperature sensor, the gas sensor and the gas flow regulating valve and used for acquiring temperature information at the air distribution cylinder and in the hearth, controlling the opening and closing and the opening degree of the gas flow regulating valve after analysis processing, acquiring gas information in the hearth and at the top of the hearth and analyzing the gas information, and the touch liquid crystal display control panel is used for displaying the temperature information and the gas information.

Preferably, the method comprises the following steps: the top of the upper chamber body is flush with the upper surface of the furnace body, and a circle of support is arranged on the edge of the top of the upper chamber body.

The utility model organically combines a plurality of products of our company.

Firstly: the hearth adopts a structural mode of combining an upper hearth body and a lower hearth body, the upper hearth body is in a hollow spherical segment shape with a large top and a small bottom, the inner space is large, a main combustion area of the hearth is formed, the lower hearth body is in butt joint with the bottom of the upper hearth body and is integrally in a horseshoe shape, so the volume is small, a rotational flow guide wall is arranged in the lower hearth body, the rotational flow guide wall divides the lower hearth body into an energy-gathering combustion area which is right opposite to an air inlet and an auxiliary combustion area which is back to the air inlet, and finally, the volumes of the three areas are the main combustion area, the energy-gathering combustion area and the auxiliary combustion area from large to small in sequence.

The working principle of the three regions is as follows:

the swirl guide wall separates the interior of the lower hearth body into an energy-gathering combustion area and an auxiliary combustion area, and the top of the swirl guide wall is an inclined plane. And because the whole swirl guide wall is arc-shaped and is opposite to the air inlet, and the inner wall of the lower chamber body is also U-shaped, the energy-gathered combustion area is actually an arc-shaped area which is relatively enclosed, when fuel gas is impacted on the swirl guide wall from the air inlet on one side, high-speed cyclone can be formed under the influence of the arc-shaped surface, and the fuel gas is fully combusted in the energy-gathered combustion area, and because the auxiliary combustion area is opposite to the air inlet, the fuel gas cannot be combusted, the temperature is lower than that of the energy-gathered combustion area, so that combustion temperature difference is generated to form reverse rotation, external air is introduced, and the external air enters the energy-gathered combustion area along the lower side of the swirl guide wall after being preheated and heated, is mixed with combustion. The gas burnt in the lower chamber body can be diffused due to the steep increase of the space after entering the upper chamber body, but the burnt gas is rotational flow, so that the gas can rotate along the inner wall of the upper chamber body, the burning temperature of each part of the upper chamber body is consistent, the heating is uniform, the burning can be more sufficient due to the increase of the staying time of the burnt gas, the heat efficiency is improved, and the energy is saved and the consumption is reduced. And in the structure of the utility model, the temperature is higher and higher, so that the upper part of the upper chamber body contacts the pot, and the temperature is highest.

Secondly, the method comprises the following steps: the utility model adds a sound insulation cover for a combustion device, adopts a plastic steel frame and a sound insulation material layer structure, has high integral strength, light weight and good sound insulation effect, secondly, a horizontal bracket is arranged in the sound insulation cover near the bottom for ensuring the level, a damping fixing bracket is arranged on the horizontal bracket, because the cross section of the damping fixing bracket is arc, the inner wall is matched, attached and fixed with the outer wall of the air distribution plate, the air distribution plate can be well supported for damping and fixing, because the damping can be stably matched, supported and damped, the noise generated by vibration in the working process of the air distribution plate can be effectively reduced, the sound insulation cover is also provided with a heat dissipation hole and an adjustable shutter type air inlet window for heat dissipation and air inlet, the adjustable shutter type air inlet window can adjust the inclination of shutters according to the actual requirement so as to control the air inlet amount, thereby further supplementing the working effect of an air door switch, the air door switch is provided with a rocking handle for adjusting the opening degree of the air door switch, and the rocking handle penetrates out of the through hole in the sound insulation cover, so that the sound insulation effect of the sound insulation cover can be ensured to the greatest extent while the air door switch can be adjusted.

The utility model discloses still integrateed central control platform, central control platform include one can imbed the quick-witted case of furnace body, and pull formula slide rail and furnace body sliding connection are passed through to quick-witted case both sides, make the whole body of quick-witted case can imbed in the furnace body. The temperature sensor can acquire the temperature information of the air distribution cylinder and the hearth in real time, and the gas sensor respectively detects CO and NO of the hearth and the hearth accessory₂，NH₃The real-time situation of (2) can be applied to monitoring and early warning the indoor environment of the kitchen. The gas flow regulating valve is used for controlling the opening and closing of the gas flow regulating valve and the opening degree of the gas flow regulating valve.

The central control console is the core and soul of the whole control system, the collection of temperature and environmental data is completed through the PLC, the touch screen completes the setting of various parameters in a human touch mode and displays various data and early warning information in real time, the temperature sensors and the environmental sensors arranged on the burner, the hearth and the cooking bench are front-end collecting devices of various temperature information and environmental information, and the temperature sensors and the environmental sensors collect the information in real time and send the information to the PLC for processing so as to complete the required processing work of control logic and early warning. Wherein gas proportion governing valve according to the temperature information who gathers, through PLC's calculation, controls the aperture of gas solenoid valve, realizes the accurate control of temperature, reaches the purpose of guaranteeing combustor temperature control point promptly and practicing thrift the energy consumption again.

Compared with the prior art, the utility model has the advantages of:

(1) the whirl guide wall wholly adopts interior mould wall and outer mould wall to constitute, and the two can be formed by foundry goods preparation and lock, packs the heat preservation thermal insulation material layer after the lock is good, so can unify the shape, can also carry out standardized production, have the equipment convenient, guarantee furnace effect, save cost's advantage, and the improvement of furnace body, make the utility model has the advantages of the appearance is pleasing to the eye novel, compact structure, practical reliable, make things convenient for dismouting and transportation.

(2) The air inlet is positioned at one side, so that the blockage of the furnace end can be avoided.

(3) The improvement of the combustion device increases the sound-proof housing for the combustion device, and the sound-proof housing has good sound-proof effect and high strength, and can provide stable and shock-absorbing support according to the shape structure of the air distribution plate in the combustion device. Meanwhile, on the premise of ensuring the sound insulation effect of the sound insulation cover, the heat dissipation hole and the adjustable shutter type air inlet window are further arranged and used for heat dissipation and air inlet.

(4) The central console adopts an integral case and a drawer type structure, has beautiful appearance and convenient operation, and has an independent structure which can resist the environmental influences of high temperature, oil smoke and the like in a kitchen. The device is integrated through a PLC processor device system and is managed in an informationized mode. The problems of the catering kitchen in work are solved, labor and manpower are reduced, and the working efficiency is improved, so that the modern high-efficiency management of the catering kitchen is realized.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a front view of the combustion apparatus of the present invention;

FIG. 3 is a left side view of FIG. 2;

FIG. 4 is a top view of the middle furnace chamber of the present invention;

FIG. 5 is a view of the lower bore of FIG. 4;

FIG. 6 is a sectional view taken along line A of FIG. 5;

FIG. 7 is a sectional view taken along line B of FIG. 5;

fig. 8 is a schematic view of the present invention.

In the figure: 1. a furnace body; 2. a hearth; 3. a combustion device; 4. a sound insulating cover; 5. a horizontal support; 6. a shock-absorbing fixing bracket; 7. an air distribution plate; 8. an air door switch; 9. a rectification air box; 10. an air distribution cylinder; 11. heat dissipation holes; 12. a louver type air inlet window; 13. a rocking handle; 14. fixing the bolt; 15. an electronic igniter; 16. an automatic control box; 17. a chamber body is arranged; 18. a round tube portion; 19. a smoke outlet; 20. a lower chamber body; 21. an air inlet; 22. a swirl guide wall; 23. an inner mold wall; 24. an outer mold wall; 25. a central console; 26. a touch type liquid crystal display control panel; 27. a temperature sensor; 28. a gas sensor; 29. a gas flow regulating valve; 30. a support; 31. a gas pipe; 32. a water pipe.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Example 1: referring to fig. 1 to 7, a novel cyclone full-automatic big pot stove comprises a stove body 1, a hearth 2 and a combustion device 3, wherein the hearth 2 and the combustion device 3 are positioned in the stove body 1, the stove body 1 is in a hollow cuboid shape, the combustion device 3 comprises an air distribution plate 7, an air door switch 8 is arranged at an inlet of the air distribution plate 7, an outlet of the air distribution plate 7 is sequentially connected with a rectification air box 9 and an air distribution cylinder 10, an air inlet connected with a gas pipe 31 is further arranged on the combustion device 3, and the hearth 2 comprises an upper hearth body 17 and a lower hearth body 20;

the upper chamber body 17 is in a hollow spherical segment shape with a large upper part and a small lower part, the top of the upper chamber body 17 extends upwards to form a round tube part 18, a smoke discharge port 19 is arranged on the round tube part 18, the lower chamber body 20 is in a horseshoe-shaped structure with an open top, and the bottom of the upper chamber body 17 is matched and butted with the top of the lower chamber body 20;

an air inlet 21 communicated with the interior of the lower chamber body 20 is formed in the position, close to the bottom, of one side of the lower chamber body 20, the air inlet 21 is in butt joint with the combustion device 3, and a rotational flow guide wall 22 is arranged in the position, opposite to the air inlet 21, in the lower chamber body 20;

the lower hearth body 20 is divided into an energy-gathering combustion area facing the air inlet 21 and an auxiliary combustion area back to the air inlet 21 by the rotational flow guide wall 22, and the energy-gathering combustion area is larger than the auxiliary combustion area;

the upper chamber body 17, the round pipe part 18 and the lower chamber body 20 are integrally formed and are made of heat insulation materials, and a sound insulation cover 4 is arranged outside the combustion device 3.

In this embodiment, the hearth 2 is divided into an upper hearth body 17 and a lower hearth body 20, the upper hearth body 17 is large in upper part and small in lower part, the lower hearth body 20 is a horseshoe-shaped structure with an open top, a rotational flow guide wall 22 is arranged inside the lower hearth body 20, and the combustion device 3 is further provided with a sound insulation cover 4.

When in work: after gas is collided on the rotational flow guide wall 22 from the air inlet 21 on one side of the lower hearth body 20, high-speed cyclone can be formed under the influence of the arc-shaped surface, the gas can be fully combusted in the energy-gathered combustion area, the gas can not be combusted due to the fact that the auxiliary combustion area is back to the air inlet 21, the temperature is lower than that of the energy-gathered combustion area, and therefore combustion temperature difference is generated to form counter-rotation, external air is led in, and the gas enters the energy-gathered combustion area along the lower side of the rotational flow guide wall 22 after being preheated and heated, and is mixed with combustion air of the air inlet to. The gas combusted in the lower chamber body 20 is diffused by the steep increase of the space after entering the upper chamber body 17, but the combustion gas is in a rotational flow, so the combustion gas can rotate along the inner wall of the upper chamber body 17, the combustion temperature of all parts of the upper chamber body 17 is consistent, the heating is uniform, and the combustion can be more sufficient due to the increase of the retention time of the combustion gas. The combustion device 3 can generate larger noise in the combustion process, and a sound insulation cover 4 is arranged outside the combustion device to reduce the noise generated by the combustion device.

Example 2: referring to fig. 1 to 7, a novel cyclone full-automatic big pot stove comprises a stove body 1, a hearth 2 and a combustion device 3, wherein the hearth 2 and the combustion device 3 are positioned in the stove body 1, the stove body 1 is in a hollow cuboid shape, the combustion device 3 comprises an air distribution plate 7, an air door switch 8 is arranged at an inlet of the air distribution plate 7, an outlet of the air distribution plate 7 is sequentially connected with a rectification air box 9 and an air distribution cylinder 10, an air inlet connected with a gas pipe 31 is further arranged on the combustion device 3, and the hearth 2 comprises an upper hearth body 17 and a lower hearth body 20;

The sound insulation cover 4 comprises a plastic steel frame which is built by a plastic steel frame, a sound insulation material layer is coated outside the plastic steel frame, a horizontal support 5 is arranged in the sound insulation cover 4 and close to the bottom of the sound insulation cover, a damping fixing bracket 6 used for fixing an air distribution disc 7 is arranged on the horizontal support 5, the cross section of the damping fixing bracket 6 is arc-shaped, the inner wall of the damping fixing bracket is matched, attached and fixed with the outer wall of the air distribution disc 7, an air distribution cylinder 10 penetrates out of the side wall of the sound insulation cover 4 and extends into an air inlet 21 below the hearth 2, and a rectification air box 9 is positioned in the sound insulation cover 4 and is fixedly connected with the sound insulation cover 4 through a;

the side wall of the sound insulation cover 4 is provided with heat dissipation holes 11 near the top, the sound insulation cover 4 is opposite to the air door switch 8 and is provided with an adjustable shutter type air inlet window 12, the air door switch 8 is provided with a rocking handle 13 for adjusting the opening and closing degree of the rocking handle, one end of the rocking handle 13 is connected with the air door switch 8, the other end of the rocking handle penetrates out of the sound insulation cover 4, and the sound insulation cover 4 is provided with a through hole for the rocking handle 13 to penetrate out.

The rotational flow guide wall 22 is formed by buckling an inner mold wall 23 and an outer mold wall 24, is integrally arc-shaped, and has a high side and a low side;

the inner mold wall 23 is an arc-shaped surface facing the air inlet 21, the cross section size of the inner mold wall increases from bottom to top in sequence, the outer mold wall 24 is an arc-shaped plate facing the air inlet 21 and arranged vertically, and the inner mold wall 23 and the outer mold wall 24 are uniform and have a high side and a low side;

the outer mould wall 24 is bent towards the corresponding position at the top of the inner mould wall 23 at the top and two sides respectively, so that the outer mould wall 24 and the inner mould wall 23 can be buckled at the top and two sides to form a whole which is hollow inside and not connected at the bottom, a heat-insulating material layer is filled inside the whole, the two sides of the whole are high, one side of the two sides of the whole is attached to the inner wall of the hearth 2, and the other side of the two sides of the whole is not contacted with the inner wall of the hearth 2.

This embodiment has not only been injectd whirl guide wall 22, has still improved sound-proof cover 4, sound-proof cover 4 is the product of our company's prior application, wherein, horizontal stand 5 in the sound-proof cover 4 can guarantee the level, set up shock attenuation fixing bracket 6 on the horizontal stand 5, it is fixed with the laminating of air distribution plate 7 outer wall matching, support air distribution plate 7 that can be fine plays the shock attenuation, fixed effect, effectively reduce the noise that air distribution plate 7 working process produced because of vibrations. In addition, the adjustable louver type air inlet window 12 can adjust the inclination of louvers according to actual needs so as to control air inlet amount, the working effect of the air door switch 8 is further supplemented, the air door switch 8 is provided with a rocking handle 13 for adjusting the opening and closing degree of the air door switch 8, and the rocking handle 13 penetrates through a through hole in the sound insulation cover 4, so that the sound insulation effect of the sound insulation cover 4 can be ensured to the maximum extent while the air door switch 8 can be adjusted.

Example 3: referring to fig. 1 to 7, a novel cyclone full-automatic big pot stove comprises a stove body 1, a hearth 2 and a combustion device 3, wherein the hearth 2 and the combustion device 3 are positioned in the stove body 1, the stove body 1 is in a hollow cuboid shape, the combustion device 3 comprises an air distribution plate 7, an air door switch 8 is arranged at an inlet of the air distribution plate 7, an outlet of the air distribution plate 7 is sequentially connected with a rectification air box 9 and an air distribution cylinder 10, an air inlet connected with a gas pipe 31 is further arranged on the combustion device 3, and the hearth 2 comprises an upper hearth body 17 and a lower hearth body 20;

A gas flow regulating valve 29 is arranged at the gas inlet of the combustion device 3, temperature sensors 27 are arranged in the air distribution cylinder 10 and the hearth 2 of the combustion device 3, and gas sensors 28 are arranged in the hearth 2 and at the top of the hearth 2;

the furnace body is characterized by further comprising a central console 25, wherein the central console 25 comprises a case which can be embedded into the furnace body 1, two sides of the case are slidably connected with the furnace body 1 through pull-out slide rails, a PLC (programmable logic controller) is arranged in the case, and the outer wall of the case is provided with a touch liquid crystal display control panel 26;

the PLC controller is respectively connected with a temperature sensor 27, a gas sensor 28 and a gas flow regulating valve 29 and is used for acquiring temperature information of the air distribution cylinder 10 and the hearth 2, controlling the opening and closing and the opening degree of the gas flow regulating valve 29 after analysis processing, acquiring gas information of the hearth 2 and the top of the hearth 2 and analyzing and processing, and the touch type liquid crystal display control panel 26 is used for displaying the temperature information and the gas information.

The top of the upper hearth body 17 is flush with the upper surface of the furnace body 1, and a circle of support 30 is arranged on the edge of the top of the upper hearth body 17.

Example 4: with reference to fig. 1 to 8, for better illustrating the present invention, we further describe the following:

in this embodiment, the furnace body 1 is designed to be a rectangular stainless steel structure, and the deck plate, the peripheral vertical plate, the bottom plate and the cabinet door are made of novel modular forming materials. The split type combined type solar water heater has the excellent characteristics of attractive and novel appearance, compact structure, practicability, reliability, splicing type assembly, and convenience and rapidness in transportation and installation. The whole structure material adopts special stainless steel materials, such as SUS304 laser numerical control, bionic baking finish, thermal transfer printing and single-chip processing. The material has the characteristics that: fire-proof, wear-resistant, moisture-proof, non-deforming, non-discoloring, non-formaldehyde pollution, zero radiation, insect-proof and so on.

Fig. 8 shows a specific application of the present invention. The utility model discloses connect gas pipe 31, water pipe 32 to set up multiple sensor etc. as required, in the picture, P is pressure, Q for flow, A for electric current, C for the temperature, r is the rotational speed, CO is carbon monoxide, NO is nitric oxide, SO for the rotational speed, NO₂Is sulfur dioxide. The information is respectively collected by corresponding sensors and sent to the PLC.

The utility model discloses divide fuel, gas operation flow as follows:

the fuel A is gas for operation:

the operation is started, an igniter and a firepower adjusting switch are started, an air distribution plate 7 is operated and started in advance, residual air in a hearth 2 and a flue is swept, an electronic igniter 15 is ignited, an electromagnetic air inlet valve is opened, fuel gas is introduced through jet flow action and premixed with blast air, the fuel gas is ignited and combusted, the mixed combustion is accelerated through a jet flow air distribution cylinder 10 and is delivered to the hearth 2, a flame monitor confirms the working condition, the ignition is stopped to normally operate, and the automatic control box 16PLC system automatically monitors and controls the operating conditions of all electronic components of equipment in the whole process, and comprises the following steps: automatic monitoring, automatic flameout, automatic gas and circuit cutting and the like.

Operating with fuel B as fuel

The operation is started, an igniter and a firepower adjusting switch are started, an air distribution plate 7 is operated and started in advance, residual air in a hearth 2 and a flue is swept, an electronic igniter 15 is ignited, a high-pressure oil pump is started, an electromagnetic oil inlet valve is started, a fuel oil nozzle is gasified at a high speed, and is premixed with blast air to be ignited and combusted, mixed combustion is accelerated through a jet air distribution cylinder 10 and is delivered to the hearth 2, a flame monitor confirms the working condition and stops the normal operation of ignition, and an automatic control box 16PLC system automatically monitors and controls the operation working conditions of all electronic components of the equipment in the whole process, including: automatic monitoring, automatic flameout, automatic oil and circuit cutting and the like.

The operation conditions of the center console 25 are: through setting up the PLC controller, to the operating condition information collection of burner 3, each electronic components, valve, instrumentation, unified scheduling management, arrangement historical record, the suggestion of safe warning, information network teletransmission. The central console 25 is provided with a touch liquid crystal control panel, and adopts an artificial intelligent interface program for manually operating the kitchen functions and working matters such as start and stop of the processing equipment, fire adjustment, information inquiry, input, fault detection and the like.

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

Claims

1. The utility model provides a novel full-automatic big pot and stove of whirlwind, includes the furnace body, is located furnace and burner of furnace, the furnace body is hollow rectangular bodily form, burner includes the air distribution dish, and the air distribution dish entry is equipped with the air door switch, and the export connects gradually the rectification bellows and joins in marriage the dryer, still is equipped with the air inlet of connecting the gas pipe on the burner, its characterized in that: the hearth comprises an upper hearth body and a lower hearth body;

2. The novel cyclone full-automatic big pot and stove according to claim 1, characterized in that: the sound insulation cover comprises a plastic steel frame which is built by a plastic steel frame, a sound insulation material layer is coated outside the plastic steel frame, a horizontal support is arranged in the sound insulation cover and close to the bottom of the sound insulation cover, a damping fixing bracket used for fixing an air distribution plate is arranged on the horizontal support, the cross section of the damping fixing bracket is arc-shaped, the inner wall of the damping fixing bracket is matched, attached and fixed with the outer wall of the air distribution plate, the air distribution cylinder penetrates out of the side wall of the sound insulation cover and then extends into an air inlet below a hearth, and a rectification air box is positioned in the sound insulation cover and is fixedly connected with the sound insulation cover;

3. The novel cyclone full-automatic big pot and stove according to claim 1, characterized in that: the rotational flow guide wall is formed by buckling an inner mold wall and an outer mold wall, and is integrally arc-shaped, and one side of the rotational flow guide wall is high and the other side of the rotational flow guide wall is low;

4. The novel cyclone full-automatic big pot and stove according to claim 1, characterized in that: a gas flow regulating valve is arranged at the gas inlet of the combustion device, a wind distribution barrel and a hearth of the combustion device are internally provided with temperature sensors, and gas sensors are arranged in the hearth and at the top of the hearth;

5. The novel cyclone full-automatic big pot and stove according to claim 1, characterized in that: the top of the upper chamber body is flush with the upper surface of the furnace body, and a circle of support is arranged on the edge of the top of the upper chamber body.