CN212692466U - Alloy heating furnace - Google Patents
Alloy heating furnace Download PDFInfo
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- CN212692466U CN212692466U CN202021449842.2U CN202021449842U CN212692466U CN 212692466 U CN212692466 U CN 212692466U CN 202021449842 U CN202021449842 U CN 202021449842U CN 212692466 U CN212692466 U CN 212692466U
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Abstract
The utility model discloses an alloy heating furnace, including the vertical kiln body, the kiln body has the feed inlet at top and the discharge gate of bottom, its characterized in that: a combustion pipeline extending from the top to the bottom is fixed in the center of the kiln body, a material channel capable of containing alloy block materials to be filled and fall is arranged between the combustion pipeline and the kiln body, a combustor is installed at the top of the combustion pipeline, and a smoke exhaust pipeline is connected to the top of the kiln body. The utility model discloses the surplus coal gas of the usable mill of alloy heating furnace heats the alloy, adds the steelmaking furnace after preheating the alloy, has effectively promoted the turnover number of times of steelmaking furnace, shortens the tapping time, improves production efficiency, practices thrift manufacturing cost, improves economic benefits.
Description
Technical Field
The utility model relates to a heating furnace technical field for cubic material heating specifically indicates a heating furnace for heating alloy lump material.
Background
Many large-scale iron and steel enterprises have iron-making blast furnaces, and a large amount of blast furnace gas is generated in the production process. At present, blast furnace gas is generally combusted to generate power after being cooled, filtered and dedusted and pressurized. In fact, primary energy (blast furnace gas) is transformed into secondary energy (electric energy). However, the alloy is often added to adjust the molten steel components in the steel making process of an electric arc furnace and an intermediate frequency furnace in a steel plant, and if the blast furnace gas can be directly used for preheating the alloy and then adding the alloy into the electric furnace, the turnover frequency of the electric furnace can be greatly improved, the tapping time can be shortened, the production efficiency can be improved, the production cost can be saved, and the economic benefit can be improved. However, because no proper heating furnace is available in the past, the heating efficiency is not high, so that the alloy preheated by blast furnace gas is not well applied and is not widely popularized. The present invention has been developed in response to such a need.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem of providing a heating furnace which can utilize a great amount of surplus blast furnace gas generated by a steelmaking blast furnace to heat alloy lump materials.
The technical scheme adopted for solving the technical problems is as follows: the utility model provides an alloy heating furnace, is including the vertical kiln body, and the kiln body has the feed inlet at top and the discharge gate of bottom, its characterized in that: a combustion pipeline extending from the top to the bottom is fixed in the center of the kiln body, a material channel capable of containing alloy block materials to be filled and fall is arranged between the combustion pipeline and the kiln body, a combustor is installed at the top of the combustion pipeline, and a smoke exhaust pipeline is connected to the top of the kiln body.
On the basis, the bottom of the kiln body is arranged into a funnel shape, and a flange support frame for supporting a combustion pipeline is arranged on the inner wall of the funnel of the kiln body.
And the funnel kiln wall of the kiln body is provided with a plurality of treatment holes for treating the arching of the alloy lump materials.
The combustion pipeline comprises a high-temperature resistant shell and an inner wall made of refractory materials.
The high-temperature resistant shell is formed by splicing a plurality of sections, and the heat-resistant temperature of each section is gradually increased from top to bottom in a gradient manner.
The periphery of the burner at the top of the kiln body forms an operation table.
The operating platform is circumferentially provided with a plurality of blanking pipes for alloy block materials to fall to the kiln body material channel, the upper ends of all the blanking pipes are connected with a distribution bin, the center in the distribution bin is provided with a guide cone for dispersing the alloy block materials to fall all around, a feeding valve is arranged at a feeding port at the top of the distribution bin, and a feeding port arranged above the distribution bin is opposite to a storage bin of the feeding valve.
And a vibrator which is favorable for discharging is arranged on the side wall of the discharge port of the kiln body.
And a discharge valve is arranged at a discharge port of the kiln body, and a discharge conveyer belt is arranged below the discharge valve.
The section of the main body section of the kiln body material channel is designed to be gradually enlarged from top to bottom.
Adopt the utility model discloses the beneficial effect who brings: the utility model discloses the surplus coal gas of the usable mill of alloy heating furnace heats the alloy, adds the steelmaking furnace after preheating the alloy, has effectively promoted the turnover number of times of steelmaking furnace, shortens the tapping time, improves production efficiency, practices thrift manufacturing cost, improves economic benefits.
Drawings
FIG. 1 is a schematic structural view of the alloy heating furnace of the present invention.
Detailed Description
As shown in figure 1, the alloy heating furnace comprises a vertical kiln body 1, wherein the kiln body 1 is provided with a feeding hole at the top and a discharging hole at the bottom. The utility model discloses in, the central authorities of the kiln body 1 are fixed with the burning pipeline 2 that extends from the top to the bottom, have between burning pipeline 2 and the kiln body 1 and can hold the alloy lump material and load and the material way 3 of whereabouts, burning pipeline 2's top installation combustor 4, and smoke exhaust pipe 5 is connected at the top of the kiln body 1.
The alloy lump material enters from the top feed port of the kiln body 1 and is filled in the material channel. And igniting the combustor 4, and spraying the coal gas and the combustion-supporting air into the combustion pipeline 2 from the combustor for combustion. The high-temperature flue gas after burning enters the material channel 3 from the bottom end of the burning pipeline 2, heats the alloy blocks in the material channel, and finally the flue gas which is absorbed most of heat by the alloy is pumped out from the smoke exhaust pipeline 5. And discharging the alloy blocks from a bottom discharge port of the kiln body after the alloy blocks are heated to the required temperature. The combustion pipe 2 can provide enough combustion space for the combustor 4, ensure complete, sufficient and stable combustion, avoid flameout and backfire, and the like, and the combustion efficiency can reach more than 98%. And the heat of the high-temperature flue gas after combustion can be fully absorbed by the alloy blocks and then discharged from the smoke discharge pipeline 5, so that the overall heat efficiency of the whole kiln can reach about 80%. The smoke exhaust pipeline 5 is a negative pressure exhaust pipeline, so that the kiln body can be always in a negative pressure running state, and the phenomena of gas leakage and the like can be avoided. The temperature distribution in the kiln body material channel 3 is gradually decreased from bottom to top, the alloy blocks are fed at low temperature and discharged at high temperature, and the temperature of the alloy blocks during discharging can be accurately controlled.
Furthermore, the bottom of the kiln body 1 is arranged into a funnel shape, and a flange support frame 6 for supporting the combustion pipeline 2 is installed on the inner wall of the funnel of the kiln body. The flange support 6 provides support for the combustion conduit 2 and, at the same time, provides a passage for the alloy slug to fall through.
In order to prevent the alloy blocks from arching at the bottom, a plurality of handling holes 7 for handling the arching of the alloy blocks can be arranged on the wall of the funnel kiln of the kiln body 1. The operator can perform arch breaking operation on the arched alloy blocks through the disposal holes 7.
In particular, the combustion conduit 2 comprises a refractory outer casing 2.1 and an inner wall 2.2 made of refractory material. The high temperature resistant shell 2.1 is formed by splicing a plurality of sections, and the heat resistant temperature of each section is gradually increased from top to bottom. This further reduces the cost of the furnace.
Further, a table 8 is formed around the burner 4 at the top of the kiln body 1. A plurality of blanking pipes 9 for alloy block materials to fall to the kiln body material channel 3 are circumferentially distributed on the operating platform 8, the upper ends of all the blanking pipes 9 are connected with a distribution bin 10, a guide cone 11 for scattering the alloy block materials to fall around is arranged in the center of the distribution bin 10, a feeding valve 12 is arranged at a feeding port at the top of the distribution bin 10, and a feeding port arranged above the distribution bin 10 is opposite to a bin 13 of the feeding valve 12. The side wall of the discharge hole of the kiln body 1 is provided with a vibrator 14 which is beneficial to discharging. A discharge valve 15 is arranged at the discharge hole of the kiln body 1, and a discharge conveyer belt 16 is arranged below the discharge valve 15.
In order to prevent the furnace body from being damaged and the lump material from arching due to the thermal expansion of the alloy lump material in the heating process of the material channel 3, the section of the main body section 3.1 of the furnace body material channel 3 can be gradually enlarged from top to bottom so as to provide a space for the thermal expansion of the alloy lump material. Of course, the expansion degree does not need to be too large, and only needs to be slightly expanded according to the thermal expansion coefficient of the alloy blocks, and the main body section (namely, the main straight section filled with the alloy blocks) of the whole material channel 3 is in a conical ring shape, so as to ensure that the alloy blocks can freely fall down after being heated in the material channel 3.
Claims (10)
1. The utility model provides an alloy heating furnace, is including the vertical kiln body, and the kiln body has the feed inlet at top and the discharge gate of bottom, its characterized in that: a combustion pipeline extending from the top to the bottom is fixed in the center of the kiln body, a material channel capable of containing alloy block materials to be filled and fall is arranged between the combustion pipeline and the kiln body, a combustor is installed at the top of the combustion pipeline, and a smoke exhaust pipeline is connected to the top of the kiln body.
2. The alloy heating furnace according to claim 1, wherein: the bottom of the kiln body is arranged into a funnel shape, and a flange support frame for supporting a combustion pipeline is arranged on the inner wall of the funnel of the kiln body.
3. The alloy heating furnace according to claim 1, wherein: and the funnel kiln wall of the kiln body is provided with a plurality of treatment holes for treating the arching of the alloy lump materials.
4. The alloy heating furnace according to claim 1, wherein: the combustion pipeline comprises a high-temperature resistant shell and an inner wall made of refractory materials.
5. The alloy heating furnace according to claim 4, wherein: the high-temperature resistant shell is formed by splicing a plurality of sections, and the heat-resistant temperature of each section is gradually increased from top to bottom in a gradient manner.
6. The alloy heating furnace according to claim 1, wherein: the top of the kiln body forms an operation platform around the burner.
7. The alloy heating furnace according to claim 6, wherein: the operating platform is circumferentially provided with a plurality of blanking pipes for alloy block materials to fall to the kiln body material channel, the upper ends of all the blanking pipes are connected with a distribution bin, the center in the distribution bin is provided with a guide cone for dispersing the alloy block materials to fall all around, a feeding valve is arranged at a feeding port at the top of the distribution bin, and a feeding port arranged above the distribution bin is opposite to a storage bin of the feeding valve.
8. The alloy heating furnace according to claim 1, wherein: and a vibrator which is favorable for discharging is arranged on the side wall of the discharge port of the kiln body.
9. The alloy heating furnace according to claim 1, wherein: and a discharge valve is arranged at a discharge port of the kiln body, and a discharge conveyer belt is arranged below the discharge valve.
10. An alloy heating furnace according to any one of claims 1 to 9, characterized in that: the section of the main body section of the kiln body material channel is designed to be gradually enlarged from top to bottom.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021449842.2U CN212692466U (en) | 2020-07-21 | 2020-07-21 | Alloy heating furnace |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021449842.2U CN212692466U (en) | 2020-07-21 | 2020-07-21 | Alloy heating furnace |
Publications (1)
Publication Number | Publication Date |
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CN212692466U true CN212692466U (en) | 2021-03-12 |
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ID=74898539
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202021449842.2U Active CN212692466U (en) | 2020-07-21 | 2020-07-21 | Alloy heating furnace |
Country Status (1)
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CN (1) | CN212692466U (en) |
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2020
- 2020-07-21 CN CN202021449842.2U patent/CN212692466U/en active Active
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