CN110108546A - A kind of more test face building element fire resistance test devices - Google Patents

Abstract

The present invention relates to one kind to test face building element fire resistance test device more, main structure is by furnace roof steel construction, furnace roof right side wall steel construction, left side wall steel construction and the fixed composition of bottom steel construction, furnace roof steel construction in main structure, right side wall steel construction, on the face of left side wall steel construction and bottom steel construction, it is respectively equipped with several piece fireproof modules and forms equipment refractory protection, every piece of fireproof modules are fixed on steel construction by anchoring piece, main structure front baffle is that face is tested in front, afterframe is that face is tested at rear portion, rectangular opening at the top of main structure is that face is tested at top, four floss holes are had on main structure bottom surface, in the outside of left side wall steel construction and right side wall steel construction, it is respectively fixed with burning and TT&C system, the burning of left and right side and control system are made of seven burning groups respectively: the present invention has top, Front, three, rear portion test face have accurate temperature controlling, energy-saving and emission-reduction, can carry out the functions such as fire resistance test to multiple vertically and horizontally test specimens.

Description

A kind of more test face building element fire resistance test devices

Technical field

The invention patent relates to building element fire resistance experimental rig, in particular to one kind can at one, two or Carry out more test face building element fire resistance test devices of fire resisting detection simultaneously in multiple test faces.

Background technique

Building structure fire resistance test is current research building structure and the important means that building fittings respond fire, is The key link for verifying correlation theory is to detect the most direct of Related product, most fundamental way.Current architecture configuration fire resistance test Device results in energy waste, fire resistance test there are energy consumption height, the deficiency that test face is single, Elevated Temperature Conditions are not comprehensive etc. Low efficiency, test structure are in the form of a single, fire resistance test environment is single, are unable to the problems such as accurate temperature controlling precision, affect building knot The efficiency and integral level of structure fire resistance test.For existing issue, need to research and develop a kind of novel building component and fitting fire resistance test dress It sets.

Summary of the invention

In view of the situation of the prior art, the present invention provides one kind to test face building element fire resistance test device, the dress more The main contents set include the research and two design, the research for the TT&C system that burns and design aspects of system of bf body.Wherein furnace Body systematic research and design include: the research and development of low thermal conductivity protecting wall structure, more opening furnace structure designs.TT&C system Research and design include: that big redundancy combustion system and its accurate temperature controlling mode are researched and developed, passed based on stokehold acquisition feedback and digitlization The thermometry method of actual temperature field under defeated TT&C system research and development, the system development of test data processing software, hot conditions Research and development.

The present invention ultimately forms one kind and tests face building element fire resistance test device more, has top test face, front examination Face, rear portion test three, face face are tested, one of face, two faces or three faces can be chosen while carrying out fire resistance test, it can be with Realize national and foreign standards required standard heating curve and the curve that is rapidly heated.

The device, which can provide, meets GB/T 9978.1-2008, GB/T 26784-2011, ISO 834-1 and EN 1363-2 Defined a variety of fire test environmental conditions, have accurate temperature controlling, energy-saving and emission-reduction, can to multiple vertically and horizontally test specimens carry out it is resistance to The functions such as fire test.

The technical solution adopted by the present invention is that: a kind of more test face building element fire resistance test devices, it is characterised in that: packet Main structure, burning and TT&C system are included, the main structure is by furnace roof steel construction, furnace roof right side wall steel construction, left side wall steel Structure and bottom steel construction are fixed together and form frame structure, furnace roof steel construction, right side wall steel construction in main structure, On the face of left side wall steel construction and bottom steel construction, it is respectively equipped with several piece fireproof modules and forms equipment refractory protection, every piece resistance to Fiery module is fixed on steel construction by anchoring piece, and main structure front baffle is that face is tested in front, and afterframe is that face is tested at rear portion, Rectangular opening at the top of main structure is that face is tested at top, four floss holes is had on main structure bottom surface, in main body knot In structure left and right sidewall, successively interval is symmetrically equipped with 3 burner holes and 3 thermocouple holes, 2 burner holes and 2 from top to bottom Thermocouple hole, 2 burner holes and 2 thermocouple holes are respectively fixed in the outside of left side wall steel construction and right side wall steel construction Burning and TT&C system；

The burning on right side and control system are made of seven burning groups:

Right A burning group is formed by right A burner, right A top thermocouple and the right side A thermocouple, the burner hole of upper end is arranged in right A burner In, one end of right A top thermocouple and the right side A thermocouple is inserted into the thermocouple hole of upper end respectively and is extend into main structure；

Right B burning group is formed by right B burner, the top right B thermocouple, right B burner is arranged in the burner hole of upper end, and right B pushes up thermoelectricity On a rare occasion in the thermocouple hole of end insertion upper end and it extend into main structure；

Right C burning group is formed by right C burner, right C top thermocouple and the right side C thermocouple, the burner hole of upper end is arranged in right C burner In, right C top thermocouple and the right side C thermocouple one end are inserted into the thermocouple hole of upper end respectively and are extend into main structure；

Right D burning group is formed by right D burner, the right side D thermocouple,

Right D burner is arranged in intermediate burner hole, in the intermediate thermocouple hole of the right side D thermocouple one end insertion and extend into master In body structure；

Right E burning group is formed by right E burner, the right side E thermocouple, right E burner is set in intermediate burner hole, the right side E thermocouple In the intermediate thermocouple hole of one end insertion and it extend into main structure；

Right F burning group is formed by right F burner, the right side F thermocouple,

Right F burner is arranged in the burner hole of lower end, in the thermocouple hole of the right side F thermocouple one end insertion lower end and extend into master In body structure；

Right G burning group is formed by right G burner, the right side G thermocouple, right G burner is arranged in the burner hole of lower end, the right side G thermoelectricity On a rare occasion in the thermocouple hole of end insertion lower end and it extend into main structure；

Gas pipeline I respectively with right A burner, right B burner, right C burner, right D burner, right E burner, right F burner, right G burner Gas port connection, provides fuel gas；

Air pipeline I respectively with right A burner, right B burner, right C burner, right D burner, right E burner, right F burner, right G burner Air scoop connection, provides air；

Right A burner, right B burner, right C burner, right D burner, right E burner, right F burner, right G burner pass through route access set respectively It is connect in wire casing I with respective connecting terminal；

The top right A thermocouple, the right side A thermocouple, the top right B thermocouple, the top right C thermocouple, the right side C thermocouple, the right side D thermocouple, The right side E thermocouple, the right side F thermocouple and the right side G thermocouple respectively by route access hub slot I in respective connecting terminal Connection；

The burning in left side and control system are made of seven burning groups:

Left A burning group is formed by left A burner, left A top thermocouple and the left side A thermocouple, the burner hole of upper end is arranged in left A burner In, left A top thermocouple and the left side A thermocouple one end are inserted into the thermocouple hole of upper end respectively and are extend into main structure；

Left B burning group is formed by left B burner, the top left B thermocouple, left B burner is arranged in the burner hole of upper end, and left B pushes up thermoelectricity On a rare occasion in the thermocouple hole of end insertion upper end and it extend into main structure；

Left C burning group is formed by left C burner, left C top thermocouple and the left side C thermocouple, the burner hole of upper end is arranged in left C burner In, left C top thermocouple and the left side C thermocouple one end are inserted into the thermocouple hole of upper end respectively and are extend into main structure；

Left D burning group is formed by left D burner, the left side D thermocouple, left D burner is arranged in intermediate burner hole, the left side D thermoelectricity On a rare occasion in the intermediate thermocouple hole of end insertion and it extend into main structure；

Left E burning group is formed by left E burner, the left side E thermocouple, left E burner is arranged in intermediate burner hole, the left side E thermoelectricity On a rare occasion in the intermediate thermocouple hole of end insertion and it extend into main structure；

Left F burning group is formed by left F burner, the left side F thermocouple, left F burner is arranged in the burner hole of lower end, the left side F thermoelectricity On a rare occasion in the thermocouple hole of end insertion lower end and it extend into main structure；

Left G burning group is formed by left G burner, the left side G thermocouple, left G burner is arranged in the burner hole of lower end, the left side G thermoelectricity On a rare occasion in the thermocouple hole of end insertion lower end and it extend into main structure；

Gas pipeline II respectively with left A burner, left B burner, left C burner, left D burner, left E burner, left F burner and left G burner Gas port connection, fuel gas is provided,

Air pipeline II respectively with left A burner, left B burner, left C burner, left D burner, left E burner, left F burner and left G burner Air scoop connection, air is provided,

Left A burner, left B burner, left C burner, left D burner, left E burner, left F burner and left G burner are accessed by route respectively It is connect in hub slot II with respective connecting terminal；

The top left A thermocouple, the left side A thermocouple, the top left B thermocouple, the top left C thermocouple, the left side C thermocouple, the left side D thermocouple, The left side E thermocouple, the left side F thermocouple and the left side G thermocouple respectively by route access hub slot II in respective terminals Son connection.

The medicine have the advantages that the mark such as GB/T 9978.1-2008 and GB/T 26784-2011 may be implemented in the present invention Fire Conditions as defined in standard, including standard, petrochemical industry class, tunnel, electric power etc..Accurate temperature controlling may be implemented, temperature-controlled precision narrows down to 50 DEG C, the fit time of the curve that is rapidly heated (RABT curve) narrows down to 5 minutes, and the controllable lower limit that cools down is reduced to 200 DEG C or less. The present invention has three test faces, including hydraulic test face and vertical test face.The investment and operation of the device greatly improve The efficiency of fire resistance test saves the energy, reduces consumptive material loss.The device builds up in our unit and puts into building element fire resisting In test experience, carry out 3000 remainder of fire resisting detection project altogether, individual event energy consumption is 25%-the 50% of traditional equipment, and auxiliary facility disappears Consumption is only 1/5th of traditional equipment.

Detailed description of the invention

Fig. 1 is the structural diagram of the present invention；

Fig. 2 is the burning on present invention right side and the structural schematic diagram of control system；

Fig. 3 is the burning in present invention left side and the structural schematic diagram of control system.

Specific embodiment

As shown in Figure 1 to Figure 3, much a kind of to test face building element fire resistance test devices, including main structure 1, burning and TT&C system 2, main structure 1 is by furnace roof steel construction 1-1, right side wall steel construction 1-2, left side wall steel construction 1-3 and bottom steel knot Structure 1-4 is fixed together by welding or screw connection manner and forms frame structure, the furnace roof steel construction 1-1 in main structure 1, the right side On the face of side wall steel construction 1-2, left side wall steel construction 1-3 and bottom steel construction 1-4, it is respectively equipped with several piece fireproof modules 1-5 shape Forming apparatus refractory protection, every piece of fireproof modules 1-5 are fixed on steel construction by anchoring piece, i.e. anchoring piece one end passes through steel wire It is fixed with welding for steel structure, anchoring piece is embedded in fireproof modules 1-5.

The front baffle of main structure 1 is that face 1-9 is tested in front, and afterframe is that face 1-10,1 top of main structure are tested in rear portion Rectangular opening be top test face 1-8.

Four floss holes 1-6, four floss hole 1-6 are had on 1 bottom surface of main structure to connect with underground flue respectively Connect, in 1 left and right sidewall of main structure, from top to bottom successively interval be symmetrically equipped with 3 burner hole 1-7 and 3 thermocouple holes, 2 burner hole 1-7 and 2 thermocouple holes, 2 burner hole 1-7 and 2 thermocouple holes, in left side wall steel construction 1-3 and right side wall The outside of steel construction 1-2 is respectively fixed with burning and TT&C system 2.

The burning on right side and control system 2 are made of seven burning groups:

Right A burning group 2-1, right A burner are formed by the top right A burner 2-1-1, the right A thermocouple 2-1-2 and right side A thermocouple 2-1-3 2-1-1 is arranged in the burner hole 1-7 of upper end, and one end of the right top the A thermocouple 2-1-2 and right side A thermocouple 2-1-3 is inserted into respectively In the thermocouple hole of upper end and it extend into main structure 1.

Right B burning group 2-2 is formed by the top right B burner 2-2-1, right B thermocouple 2-2-2, right B burner 2-2-1 is arranged upper In the burner hole 1-7 at end, in the thermocouple hole of the right top B one end thermocouple 2-2-2 insertion upper end and it extend into main structure 1.

Right C burning group 2-3, right C are formed by the top right C burner 2-3-1, the right C thermocouple 2-3-2 and right side C thermocouple 2-3-3 Burner 2-3-1 is arranged in the burner hole 1-7 of upper end, and right C top thermocouple 2-3-2 and the one end the right side C thermocouple 2-3-3 are inserted respectively Enter in the thermocouple hole of upper end and extend into main structure 1.

Right D burning group 2-4 is formed by right D burner 2-4-1, the right side D thermocouple 2-4-2, right D burner 2-4-1 is arranged in Between burner hole 1-7 in, in the intermediate thermocouple hole of the right side D one end thermocouple 2-4-2 insertion and extend into main structure 1.

Right E burning group 2-5 is formed by right E burner 2-5-1, the right side E thermocouple 2-5-2, right E burner 2-5-1 is set in centre Burner hole 1-7 in, in the intermediate thermocouple hole of the right side E one end thermocouple 2-5-2 insertion and extend into main structure 1.

Right F burning group 2-6 is formed by right F burner 2-6-1, the right side F thermocouple 2-6-2, right F burner 2-6-1 is arranged under In the burner hole 1-7 at end, in the thermocouple hole of the right side F one end thermocouple 2-6-2 insertion lower end and it extend into main structure 1.

Right G burning group 2-7 is formed by right G burner 2-7-1, the right side G thermocouple 2-7-2, right G burner 2-7-1 is arranged under In the burner hole 1-7 at end, in the thermocouple hole of the right side G one end thermocouple 2-7-2 insertion lower end and it extend into main structure 1.

I 2-15 of gas pipeline respectively with right A burner 2-1-1, right B burner 2-2-1, right C burner 2-3-1, right D burner 2-4- 1, the gas port connection of right E burner 2-5-1, right F burner 2-6-1, right G burner 2-7-1, provides fuel gas.

I 2-16 of air pipeline respectively with right A burner 2-1-1, right B burner 2-2-1, right C burner 2-3-1, right D burner 2-4- 1, the air scoop connection of right E burner 2-5-1, right F burner 2-6-1, right G burner 2-7-1, provides air.

Right A burner 2-1-1, right B burner 2-2-1, right C burner 2-3-1, right D burner 2-4-1, right E burner 2-5-1, right F Burner 2-6-1, right G burner 2-7-1 are accessed in I 2-17 of hub slot by route connect with respective connecting terminal respectively.

The top right A thermocouple 2-1-2, the right side A thermocouple 2-1-3, the top right B thermocouple 2-2-2, the top right C thermocouple 2-3-2, The right side C thermocouple 2-3-3, the right side D thermocouple 2-4-2, the right side E thermocouple 2-5-2, the right side F thermocouple 2-6-2 and the right side G heat Galvanic couple 2-7-2 is accessed in I 2-17 of hub slot by route connect with respective connecting terminal respectively.

The burning in left side and control system are made of seven burning groups:

Left A burning group 2-8, left A burner are formed by the top left A burner 2-8-1, the left A thermocouple 2-8-2 and left side A thermocouple 2-8-3 2-8-1 is arranged in the burner hole 1-7 of upper end, and left A top thermocouple 2-8-2 and the one end the left side A thermocouple 2-8-3 are inserted into respectively In the thermocouple hole at end and it extend into main structure 1.

Left B burning group 2-9 is formed by the top left B burner 2-9-1, left B thermocouple 2-9-2, left B burner 2-9-1 is arranged upper In the burner hole 1-7 at end, in the thermocouple hole of the left top B one end thermocouple 2-9-2 insertion upper end and it extend into main structure 1.

Left C burning group 2- is formed by the top left C burner 2-10-1, the left C thermocouple 2-10-2 and left side C thermocouple 2-10-3 10, left C burner 2-10-1 is arranged in the burner hole 1-7 of upper end, and left C pushes up the thermocouple 2-10-2 and left side C thermocouple 2-10-3 One end is inserted into the thermocouple hole of upper end respectively and is extend into main structure 1.

Left D burning group 2-11, left D burner 2-11-1 setting are formed by left D burner 2-11-1, the left side D thermocouple 2-11-2 In intermediate burner hole 1-7, in the intermediate thermocouple hole of the left side D one end thermocouple 2-11-2 insertion and it extend into main structure In 1.

Left E burning group 2-12, left E burner 2-12-1 setting are formed by left E burner 2-12-1, the left side E thermocouple 2-12-2 In intermediate burner hole 1-7, in the intermediate thermocouple hole of the left side E one end thermocouple 2-12-2 insertion and it extend into main structure In 1.

Left F burning group 2-13, left F burner 2-13-1 setting are formed by left F burner 2-13-1, the left side F thermocouple 2-13-2 In the burner hole 1-7 of lower end, in the thermocouple hole of the left side F one end thermocouple 2-13-2 insertion lower end and it extend into main structure In 1.

Left G burning group 2-14, left G burner 2-14-1 setting are formed by left G burner 2-14-1, the left side G thermocouple 2-14-2 In the burner hole 1-7 of lower end, in the thermocouple hole of the left side G one end thermocouple 2-14-2 insertion lower end and it extend into main structure In 1.

II 2-18 of gas pipeline respectively with left A burner 2-8-1, left B burner 2-9-1, left C burner 2-10-1, left D burner 2- 11-1, left E burner 2-12-1, left F burner 2-13-1 are connected with the gas port of left G burner 2-14-1, provide fuel gas.

II 2-19 of air pipeline respectively with left A burner 2-8-1, left B burner 2-9-1, left C burner 2-10-1, left D burner 2- 11-1, left E burner 2-12-1, left F burner 2-13-1 are connected with the air scoop of left G burner 2-14-1, provide air.

Left A burner 2-8-1, left B burner 2-9-1, left C burner 2-10-1, left D burner 2-11-1, left E burner 2-12-1, Left F burner 2-13-1 and left G burner 2-14-1 is accessed in II 2-20 of hub slot by route respectively to be connected with respective connecting terminal It connects.

The top left A thermocouple 2-8-2, the left side A thermocouple 2-8-3, the top left B thermocouple 2-9-2, the top left C thermocouple 2-10-2, The left side C thermocouple 2-10-3, the left side D thermocouple 2-11-2, the left side E thermocouple 2-12-2, the left side F thermocouple 2-13-2 and left G Side thermocouple 2-14-2 is accessed in II 2-20 of hub slot by route connect with respective connecting terminal respectively.

The fuel gas conduit of the burning in left side and the burning on II 2-18 of gas pipeline of control system 2 and right side and control system 2 II 2-18 of road is attached with municipal gas ductwork or liquefied gas pressure-reducing station.

The air hose of the burning in left side and the burning on II 2-19 of air pipeline of control system 2 and right side and control system 2 II 2-19 of road is attached with total air air supply duct or breeze fan.

The hub slot II of the burning in left side and the burning on II 2-20 of hub slot of control system 2 and right side and control system 2 Combustion controller corresponding with rear end TT&C system is attached the respective connecting terminal of burner respectively in 2-20.

The hub slot II of the burning in left side and the burning on II 2-20 of hub slot of control system 2 and right side and control system 2 The respective connecting terminal of thermocouple is connect with the temperature collecting module of rear end TT&C system one by one respectively in 2-20.

Main structure 1 is the major part of experimental rig, has and provides test specimen support, installation burning and TT&C system 2 etc. Function.Main structure is divided into furnace roof, right side, left side and bottom section body support steel structure, internal refractory module 1-5 and floss hole 1- 6 three parts form.Wherein body supports steel construction is the skeleton of whole device, is provided to self structure, device and fire resisting Test the structural support of test specimen.

High temperature, protection main body steel construction and mating burning when fireproof modules 1-5 plays isolation fire resistance test inside device And the effect of TT&C system 2.

It since fireproof modules 1-5 has certain elasticity, is contacted by way of extruding between each fireproof modules, eliminates seam Gap improves thermal and insulating performance.It is provided with floss hole 1-6 in the inside of bottom refractory module, for being discharged during fire resistance test The flue gas of generation.

Burning and TT&C system 2 for the process of fire resistance test provide heat source, and ensure offer symbol inside fire resistance test device The temperature environment and pressure environment for closing domestic and international relevant criterion, can be divided into right side and left side two parts, be separately mounted to right side The outer surface of wall steel construction 1-2 and left side wall steel construction 1-3.

Each burning group has a burner, the ignition system comprising complete set, visit fiery system, air-fuel ratio valve, The fuel assemblies such as solenoid valve are equipped with the Combustion Systems components such as air control valve when necessary.There are also one to two for each burning group Thermocouple forms closed-loop control with burner for measuring the temperature inside fire resistance test device.

Such as right A burning group 2-1, there is right A burner 2-1-1, and there is right A top thermocouple 2-1-2 and the right side A thermoelectricity Even 2-1-3, when being tested with top test face 1-8, the right top A thermocouple 2-1-2 is acquired temperature, and forms burning The closed-loop control of system；When being tested with front test face 1-9, the right side A thermocouple 2-1-3 is acquired temperature, and Form the closed-loop control of combustion system；When being tested with rear portion test face 1-10, which plays the role of auxiliary combustion, It is not involved in the closed-loop control of combustion system.For another example right B burning group 2-2 has right B burner 2-2-1, and there is right B to push up thermoelectricity Even 2-2-2, when being tested with top test face 1-8, the right top B thermocouple 2-2-2 is acquired temperature, and forms burning The closed-loop control of system；When with face 1-9 is tested in front or rear portion test face 1-10 is tested, which plays auxiliary combustion Burning effect, is not involved in the closed-loop control of combustion system.For another example right D burning group 2-4 has right D burner 2-4-1, and has right D Side thermocouple 2-4-2, when being tested with front test face 1-9, the right side D thermocouple 2-4-2 is acquired temperature, and shape At the closed-loop control of combustion system；When with face 1-8 is tested at top or rear portion test face 1-10 is tested, which is played Auxiliary combustion effect, is not involved in the closed-loop control of combustion system.

The process of each burning group burning, has been required to combustion gas and air access.Wherein gas pipeline and each burning Group is all connected with, combustion gas needed for providing burning；Air pipeline is all connected with each burning group, air needed for providing burning； The burner and thermocouple of each burning group, all routes are connected into hub slot.

When test face 1-8 is tested at the top of the use, right A burning group 2-1, right B burning group 2-2, right C burning group 2-3, Left A burning group 2-8, left B burning group 2-9, left C burning group 2-10 are primary combustion group, provide the main heating source of burning, are tested Face corresponding thermocouples provide thermometric and combustion system closed loop control parameters, remaining burning group play auxiliary according to practical Elevated Temperature Conditions Combustion.

When using front test face 1-9 tested when, right A burning group 2-1, right D burning group 2-4, right F burning group 2-6, Left A burning group 2-8, left D burning group 2-11, left F burning group 2-13 are primary combustion group, provide the main heating source of burning, are tried Corresponding thermocouples offer thermometric in face is provided and combustion system closed loop control parameters, remaining burning group play auxiliary according to practical Elevated Temperature Conditions Help combustion.

When being tested using rear portion test face 1-10, right C burning group 2-3, right E burning group 2-5, right G burning group 2- 7, left C burning group 2-10, left E burning group 2-12, left G burning group 2-14 are primary combustion group, provide the main heating source of burning, Test face corresponding thermocouples provide thermometric and combustion system closed loop control parameters, remaining burning group are played according to practical Elevated Temperature Conditions Auxiliary combustion effect.

By actual test, which can provide the fire resisting heating ring for meeting various national and foreign standards requirements Border.

Claims (1)

1. a kind of more test face building element fire resistance test devices, it is characterised in that: including main structure (1), burning and observing and controlling System (2), the main structure (1) is by furnace roof steel construction (1-1), furnace roof right side wall steel construction (1-2), left side wall steel construction (1-3) and bottom steel construction (1-4) are fixed together and form frame structure, the furnace roof steel construction (1- in main structure (1) 1), on the face of right side wall steel construction (1-2), left side wall steel construction (1-3) and bottom steel construction (1-4), it is resistance to be respectively equipped with several piece Fiery module (1-5) forms equipment refractory protection, and every piece of fireproof modules (1-5) is fixed on steel construction by anchoring piece, main body Structure (1) front baffle is that face (1-9) is tested in front, and afterframe is that face (1-10) is tested at rear portion, the rectangle at the top of main structure (1) Hole is that face (1-8) is tested at top, four floss holes (1-6) is had on main structure (1) bottom surface, in main structure (1) In left and right sidewall, successively interval is symmetrically equipped with 3 burner holes (1-7) and 3 thermocouple holes, 2 burner hole (1- from top to bottom 7) and 2 thermocouple holes, 2 burner holes (1-7) and 2 thermocouple holes, in left side wall steel construction (1-3) and right side wall steel construction The outside of (1-2) is respectively fixed with burning and TT&C system (2)；

The burning on right side and control system (2) are made of seven burning groups:

Right A burning group (2- is formed by right A burner (2-1-1), the top right A thermocouple (2-1-2) and the right side A thermocouple (2-1-3) 1), right A burner (2-1-1) is arranged in the burner hole (1-7) of upper end, the right top A thermocouple (2-1-2) and the right side A thermocouple (2- One end 1-3) is inserted into the thermocouple hole of upper end respectively and is extend into main structure (1)；

Right B burning group (2-2), right B burner (2-2-1) setting are formed by right B burner (2-2-1), the top right B thermocouple (2-2-2) In the burner hole (1-7) of upper end, in the thermocouple hole of the right top B thermocouple one end (2-2-2) insertion upper end and it extend into main body In structure (1)；

Right C burning group (2- is formed by right C burner (2-3-1), the top right C thermocouple (2-3-2) and the right side C thermocouple (2-3-3) 3), right C burner (2-3-1) is arranged in the burner hole (1-7) of upper end, the right top C thermocouple (2-3-2) and the right side C thermocouple (2- 3-3) one end is inserted into the thermocouple hole of upper end respectively and is extend into main structure (1)；

Right D burning group (2-4) is formed by right D burner (2-4-1), the right side D thermocouple (2-4-2),

Right D burner (2-4-1) is arranged in intermediate burner hole (1-7), among the insertion of the right side D thermocouple one end (2-4-2) In thermocouple hole and it extend into main structure (1)；

Right E burning group (2-5) is formed by right E burner (2-5-1), the right side E thermocouple (2-5-2), right E burner (2-5-1) is set In intermediate burner hole (1-7), in the intermediate thermocouple hole of the right side E thermocouple one end (2-5-2) insertion and it extend into main body knot In structure (1)；

Right F burning group (2-6) is formed by right F burner (2-6-1), the right side F thermocouple (2-6-2),

Right F burner (2-6-1) is arranged in the burner hole (1-7) of lower end, and lower end is inserted into the right side F thermocouple one end (2-6-2) In thermocouple hole and it extend into main structure (1)；

Right G burning group (2-7), right G burner (2-7-1) setting are formed by right G burner (2-7-1), the right side G thermocouple (2-7-2) In the burner hole (1-7) of lower end, in the thermocouple hole of the right side G thermocouple one end (2-7-2) insertion lower end and it extend into main body In structure (1)；

Gas pipeline I (2-15) respectively with right A burner (2-1-1), right B burner (2-2-1), right C burner (2-3-1), right D burner The gas port connection of (2-4-1), right E burner (2-5-1), right F burner (2-6-1), right G burner (2-7-1), provides combustible gas Body；

Air pipeline I (2-16) respectively with right A burner (2-1-1), right B burner (2-2-1), right C burner (2-3-1), right D burner The air scoop connection of (2-4-1), right E burner (2-5-1), right F burner (2-6-1), right G burner (2-7-1), provides air；

Right A burner (2-1-1), right B burner (2-2-1), right C burner (2-3-1), right D burner (2-4-1), right E burner (2-5- 1), right F burner (2-6-1), right G burner (2-7-1) respectively by route access hub slot I (2-17) in respective terminals Son connection；

The right top A thermocouple (2-1-2), the right side A thermocouple (2-1-3), the top right B thermocouple (2-2-2), right C push up thermocouple (2-3- 2), the right side C thermocouple (2-3-3), the right side D thermocouple (2-4-2), the right side E thermocouple (2-5-2), the right side F thermocouple (2-6- 2) and the right side G thermocouple (2-7-2) in route access hub slot I (2-17) with respective connecting terminal respectively by connecting；

The burning in left side and control system are made of seven burning groups:

Left A burning group (2- is formed by left A burner (2-8-1), the top left A thermocouple (2-8-2) and the left side A thermocouple (2-8-3) 8), left A burner (2-8-1) is arranged in the burner hole (1-7) of upper end, the left top A thermocouple (2-8-2) and the left side A thermocouple (2- 8-3) one end is inserted into the thermocouple hole of upper end respectively and is extend into main structure (1)；

Left B burning group (2-9), left B burner (2-9-1) setting are formed by left B burner (2-9-1), the top left B thermocouple (2-9-2) In the burner hole (1-7) of upper end, in the thermocouple hole of the left top B thermocouple one end (2-9-2) insertion upper end and it extend into main body In structure (1)；

Left C burning group is formed by left C burner (2-10-1), the top left C thermocouple (2-10-2) and the left side C thermocouple (2-10-3) (2-10), left C burner (2-10-1) are arranged in the burner hole (1-7) of upper end, the left top C thermocouple (2-10-2) and the left side C heat The one end galvanic couple (2-10-3) is inserted into the thermocouple hole of upper end respectively and is extend into main structure (1)；

Left D burning group (2-11), left D burner (2-11-1) are formed by left D burner (2-11-1), the left side D thermocouple (2-11-2) It is arranged in intermediate burner hole (1-7), in the intermediate thermocouple hole of the left side D thermocouple one end (2-11-2) insertion and extend into In main structure (1)；

Left E burning group (2-12), left E burner (2-12-1) are formed by left E burner (2-12-1), the left side E thermocouple (2-12-2) It is arranged in intermediate burner hole (1-7), in the intermediate thermocouple hole of the left side E thermocouple one end (2-12-2) insertion and extend into In main structure (1)；

Left F burning group (2-13), left F burner (2-13-1) are formed by left F burner (2-13-1), the left side F thermocouple (2-13-2) It is arranged in the burner hole (1-7) of lower end, in the thermocouple hole of the left side F thermocouple one end (2-13-2) insertion lower end and extend into In main structure (1)；

Left G burning group (2-14), left G burner (2-14-1) are formed by left G burner (2-14-1), the left side G thermocouple (2-14-2) It is arranged in the burner hole (1-7) of lower end, in the thermocouple hole of the left side G thermocouple one end (2-14-2) insertion lower end and extend into In main structure (1)；

Gas pipeline II (2-18) is burnt with left A burner (2-8-1), left B burner (2-9-1), left C burner (2-10-1), left D respectively Mouth (2-11-1), left E burner (2-12-1), left F burner (2-13-1) are connected with the gas port of left G burner (2-14-1), are provided Fuel gas,

Air pipeline II (2-19) is burnt with left A burner (2-8-1), left B burner (2-9-1), left C burner (2-10-1), left D respectively Mouth (2-11-1), left E burner (2-12-1), left F burner (2-13-1) are connected with the air scoop of left G burner (2-14-1), are provided Air,

Left A burner (2-8-1), left B burner (2-9-1), left C burner (2-10-1), left D burner (2-11-1), left E burner (2- 12-1), left F burner (2-13-1) and left G burner (2-14-1) are respectively by route access hub slot II (2-20) and respectively Connecting terminal connection；

The left top A thermocouple (2-8-2), the left side A thermocouple (2-8-3), the top left B thermocouple (2-9-2), left C push up thermocouple (2- 10-2), the left side C thermocouple (2-10-3), the left side D thermocouple (2-11-2), the left side E thermocouple (2-12-2), the left side F thermocouple (2-13-2) and the left side G thermocouple (2-14-2) respectively by route access hub slot II (2-20) in respective connecting terminal Connection.