CN106382745A - Automatic and energy-saving boiler device - Google Patents

Abstract

The invention discloses an automatic and energy-saving boiler device. The automatic and energy-saving boiler device is connected with a heat utilization device. The automatic and energy-saving boiler device comprises a control cabinet, a combustion chamber, a conduction oil preheating chamber, a primary air preheating chamber, a secondary air preheating chamber, a heating coil, a preheating coil, a conveying pipe, a recycling pipe, a thermal insulation chamber, an air inlet pipe, an air box and an air conveying pipe, wherein an air injection hole is formed in one side surface of the combustion chamber; the other side surface of the combustion chamber communicates with the conduction oil preheating chamber; a first regulating valve is arranged at a connection hole; the top surface of the conduction oil preheating chamber communicates with the side surface of the primary air preheating chamber; a second regulating valve is arranged at a connection hole; a first electromagnetic valve is arranged on the recycling pipe; a second electromagnetic valve is arranged on the air recycling pipe; and the control cabinet controls opening of the first electromagnetic valve, the second electromagnetic valve, the first regulating valve and the second regulating valve. According to the automatic and energy-saving boiler device, the automation degree is high, and the utilization rate of exhaust gas is effectively increased.

Description

A kind of automatized energy-saving boiler plant

Technical field

The present invention relates to boiler.

Background technology

At present, the waste gas that gas fired-boiler produces is directly discharged in the air, while polluting, expends substantial amounts of heat Amount.By special structure design, the heat of waste gas is utilized, can the effectively save energy.But, even if so, waste gas Using often also not complete, lack effective Automated condtrol, artificial operation is wasted time and energy simultaneously, be also easy to malfunction.

Content of the invention

It is an object of the invention to provide a kind of automatized energy-saving boiler plant, high degree of automation, and effectively improve The utilization rate of waste gas.

The technical scheme realizing above-mentioned purpose is：

A kind of automatized energy-saving boiler plant, connection thermal, including switch board, combustion chamber, conduction oil preheating chamber, Main air preheating chamber, secondary air preheating chamber, heating coil, preheating coil pipe, delivery pipe, recovery tube, heat-insulating room, air enter Pipe, watertight aircase and air delivery pipe, wherein,

The one side of described combustion chamber has injecting hole, and another side connects described conduction oil preheating chamber, and in connected entrance First control valve is set；

Described main air preheating chamber is fixed on the top surface of described combustion chamber；

The top surface of described conduction oil preheating chamber connects the side of described main air preheating chamber, and arranges second in connected entrance Control valve；

Described secondary air preheating chamber is fixed on the top surface of described main air preheating chamber；

The top surface of described secondary air preheating chamber is provided with exhaust outlet, and bottom surface connects described main air preheating chamber；

Described heat-insulating room is fixed on the top of described combustion chamber；

Described heating coil is placed in described burning interior, and described preheating coil pipe is placed in described conduction oil preheating interior, described Delivery pipe is placed in described heat-insulated interior；

Described delivery pipe bottom connects described heating coil, and top connection is described to use thermal；

Described preheating coil pipe one end connects described use thermal by described recovery tube, and the other end connects described heating dish Pipe；

It is indoor that described watertight aircase is placed in described main air preheating；

Described air enters pipe and connects described watertight aircase through after described secondary air preheating chamber；

One end of described air delivery pipe connects described injecting hole, and the other end passes through described heat-insulating room and described main air Described watertight aircase is connected after the side wall of preheating chamber；

First magnetic valve is arranged on described recovery tube, described air delivery pipe arranges the second magnetic valve,

Described switch board controls described first magnetic valve, the second magnetic valve, the first control valve and the second regulating valve respectively The switch degree of door.

In above-mentioned automatized energy-saving boiler plant, described switch degree refers to the degree of switch open.

The invention has the beneficial effects as follows：The present invention controls the switch degree of magnetic valve and control valve by switch board, real The heat exchange so that waste gas is gradually classified while now automation, effectively improves the utilization rate of waste gas, the effectively save energy.Meanwhile, By the design of heat-insulating room it is ensured that conveying during conduction oil from interference.

Brief description

Fig. 1 is the structure chart of the automatized energy-saving boiler plant of the present invention.

Specific embodiment

Below in conjunction with accompanying drawing, the invention will be further described.

Refer to Fig. 1, the automatized energy-saving boiler plant of the present invention, connect and use thermal 100, including combustion chamber 1, lead Deep fat preheating chamber 2, main air preheating chamber 3, secondary air preheating chamber 4, heating coil 5, preheating coil pipe 6, delivery pipe 7, recovery Pipe 8, heat-insulating room 9, air enter pipe 10, watertight aircase 11, air delivery pipe 12, the first magnetic valve 13, the second magnetic valve 14, first Control valve 15, the second control valve 16 and switch board (not shown).

Conduction oil preheating chamber 2 is located at combustion chamber 1 left side partition.Main air preheating chamber 3 is fixed on the top surface of combustion chamber 1 On.Secondary air preheating chamber 4 is fixed on the top surface of main air preheating chamber 3.Heat-insulating room 9 is fixed on the top of combustion chamber 1, and Right side partition positioned at main air preheating chamber 3 and secondary air preheating chamber 4.

The right flank of combustion chamber 1 has injecting hole 101, and left surface connects conduction oil preheating chamber 2.Conduction oil preheating chamber 2 Top surface passes through the side of pipeline connection main air preheating chamber 3.The top surface of secondary air preheating chamber 4 is provided with exhaust outlet 401, bottom surface Connection main air preheating chamber 3.

Heating coil 5 is placed in combustion chamber 1, and preheating coil pipe 6 is placed in conduction oil preheating chamber 2, and delivery pipe 7 is placed in heat-insulating room In 9, play insulation effect, also avoid the impact of EGT.Delivery pipe 7 bottom connects heating coil 5, top connection hot charging Put 100.

Preheating coil pipe 6 one end is passed through recovery tube 8 and is connected with thermal 100, other end connection heating coil 5.

Watertight aircase 11 is placed in main air preheating chamber 3, and it is empty that air enters connection after pipe 10 passes through secondary air preheating chamber 4 Gas tank 11.One end connection injecting hole 101 of air delivery pipe 12, the other end passes through the side of heat-insulating room 9 and main air preheating chamber 3 Watertight aircase 11 is connected after wall.

First magnetic valve 13 is arranged on recovery tube 8, and the second magnetic valve 14 is arranged on air delivery pipe 12.First regulation Valve 15 is arranged on combustion chamber 1 and the connected entrance of conduction oil preheating chamber 2.Second control valve 16 is arranged on conduction oil preheating chamber 2 and main air preheating chamber 3 connected entrance on.Switch board connects the first magnetic valve 13 respectively, the second magnetic valve 14, first is adjusted Valve 15, the second control valve 16.

Natural gas and air enter combustion chamber 1 by injecting hole 101 and burn, the conduction oil in heating heating coil 5, heat conduction Oil sequentially passes through delivery pipe 7, returns heating coil 5 with after thermal 100, recovery tube 8 and preheating coil pipe 6.Produce waste gas according to Secondary discharged by conduction oil preheating chamber 2, main air preheating chamber 3 and secondary air preheating chamber 4, successively to preheating coil pipe 6 in Air in conduction oil, watertight aircase 11 and the air in air entrance pipe 10 are preheated, thus effective energy-conservation.This process In, by switch board real-time control the first magnetic valve 13, the second magnetic valve 14, the first control valve 15, the second control valve 16 Switch degree (the folding degree of switch), adjust exhaust gas flow, air mass flow and conduction oil flow, realize preferably automating Control.

Above example is used for illustrative purposes only, rather than limitation of the present invention, about the technology people of technical field Member, without departing from the spirit and scope of the present invention, can also make various conversion or modification, therefore all equivalent Technical scheme also should belong to scope of the invention, should be limited by each claim.

Claims (2)

1. a kind of automatized energy-saving boiler plant, connection thermal is it is characterised in that include switch board, combustion chamber, heat conduction Oily preheating chamber, main air preheating chamber, secondary air preheating chamber, heating coil, preheating coil pipe, delivery pipe, recovery tube, heat-insulated Room, air enter pipe, watertight aircase and air delivery pipe, wherein,

The one side of described combustion chamber has injecting hole, and another side connects described conduction oil preheating chamber, and in connected entrance setting First control valve；

Described main air preheating chamber is fixed on the top surface of described combustion chamber；

The top surface of described conduction oil preheating chamber connects the side of described main air preheating chamber, and in connected entrance setting second regulation Valve；

Described secondary air preheating chamber is fixed on the top surface of described main air preheating chamber；

The top surface of described secondary air preheating chamber is provided with exhaust outlet, and bottom surface connects described main air preheating chamber；

Described heat-insulating room is fixed on the top of described combustion chamber；

Described heating coil is placed in described burning interior, and described preheating coil pipe is placed in described conduction oil preheating interior, described conveying Pipe is placed in described heat-insulated interior；

Described delivery pipe bottom connects described heating coil, and top connection is described to use thermal；

Described preheating coil pipe one end connects described use thermal by described recovery tube, and the other end connects described heating coil；

It is indoor that described watertight aircase is placed in described main air preheating；

Described air enters pipe and connects described watertight aircase through after described secondary air preheating chamber；

One end of described air delivery pipe connects described injecting hole, and the other end passes through described heat-insulating room and the preheating of described main air Described watertight aircase is connected after the side wall of room；

First magnetic valve is arranged on described recovery tube, described air delivery pipe arranges the second magnetic valve,

Described switch board controls described first magnetic valve, the second magnetic valve, the first control valve and the second control valve respectively Switch degree.

2. automatized energy-saving boiler plant according to claim 1 is it is characterised in that described switch degree refers to switch open Degree.