CN207797760U - A kind of adjustable warm area distributed architecture - Google Patents
A kind of adjustable warm area distributed architecture Download PDFInfo
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- CN207797760U CN207797760U CN201721911104.3U CN201721911104U CN207797760U CN 207797760 U CN207797760 U CN 207797760U CN 201721911104 U CN201721911104 U CN 201721911104U CN 207797760 U CN207797760 U CN 207797760U
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Abstract
The utility model is related to a kind of adjustable warm area distributed architecture, the utility model includes furnace body, temperature sensor, temperature controller and electrode control circuit, and at least three groups of heaters are provided in the furnace body, before formation, in.Three groups of fever fission regions afterwards, temperature sensor described in three groups is separately positioned on the position of three groups of heaters in furnace body, the output end of the temperature sensor is connect with the input terminal of the temperature controller, correspondence is connect the output end of temperature controller described in three groups with the control signal of the electrode control circuit respectively, and the output end of the electrode control circuit is connect with the heater.The utility model is solely controlled using 3rd area, be may be implemented to be sintered according to four temperature of product required temperature point, is reached the equal control of temperature.
Description
Technical field
The utility model is related to a kind of furnace body more particularly to a kind of adjustable warm area distributed architectures.
Background technology
Sintering, is the process for granular material being changed into dense body, is a kind of traditional processing technology.In sintering process
In, induction sintering furnace is a kind of very common sintering equipment, and in induction sintering furnace, the heater of furnace lining is one and closes very much
On the one hand the position of key, the presence of induction sintering furnace heater can have while the carrier converted to thermal energy as electric energy
Effect avoids sinter from contacting and pollute with refractory material, on the other hand can ensure induction sintering furnace internal atmosphere, temperature
The uniformity of degree.For traditional induction sintering furnace, the heater of internal furnace lining is tubular integrated, this monolithic
Heater conduction it is uniform, good barrier property, but simultaneously, when sintering furnace is chronically at working condition, temperature suffered by heater
Variation float it is larger, easily occur by uneven heating and cause heater local deformation in addition it is cracked, that part is broken etc. is existing
As when there is above-mentioned condition, heater can only integrally be taken out replacement by traditional induction sintering furnace under normal conditions, this is with regard to pole
Big increases production cost, and the replacement of monolithic devices heater is inconvenient, it will usually cause the money of the various aspects such as human and material resources
Source wastes.
Currently, when existing sintering furnace volume is larger, heater is not just allowed easy to install, and controls temperature with regard to uneven.
Utility model content
The purpose of this utility model is that solve the above-mentioned problems and provides a kind of adjustable warm area distributed architecture.
The utility model is achieved through the following technical solutions above-mentioned purpose:
The utility model includes furnace body, temperature sensor, temperature controller and electrode control circuit, be provided in the furnace body to
Few three groups of heaters, before formation, in.Three groups of fever fission regions afterwards, temperature sensor is separately positioned in furnace body described in three groups
The position of three groups of heaters, the output end of the temperature sensor are connect with the input terminal of the temperature controller, temperature control described in three groups
Correspondence is connect the output end of device with the control signal of the electrode control circuit respectively, the output end of the electrode control circuit
It is connect with the heater.
Specifically, the heater includes more heating plates and flow guide bar, and the heating plate is arranged parallel to each other, described to add
Hot plate both ends connect to form rectangular fever individual configurations by deflector.
Further, the heater is graphite heater.
The beneficial effects of the utility model are:
The utility model is solely controlled using 3rd area, be may be implemented to be sintered according to four temperature of product required temperature point, be reached
To the equal control of temperature.
Description of the drawings
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is the side view of the utility model;
In figure:1- furnace bodies, 2- heaters, 21- heating plates, 22- flow guide bars.
Specific implementation mode
The utility model is described in further detail below in conjunction with the accompanying drawings:
As illustrated in fig. 1 and 2, the utility model includes furnace body 1, temperature sensor, temperature controller and electrode control circuit, described
At least three groups of heaters 2 are provided in furnace body 1, before formation, in.Three groups of fever fission regions afterwards, temperature sensor described in three groups
It is separately positioned on the position of three groups of heaters in furnace body, the output end of the temperature sensor and the input terminal of the temperature controller connect
It connects, correspondence is connect the output end of temperature controller described in three groups with the control signal of the electrode control circuit respectively, the electrode
The output end of control circuit is connect with the heater.
The heater 2 includes more heating plates 21 and flow guide bar 22, and the heating plate 21 is arranged parallel to each other, described to add
21 both ends of hot plate form rectangular fever individual configurations by the connection of deflector 22, and the heater 2 is graphite heater.
The utility model is solely controlled using 3rd area, be may be implemented to be sintered according to four temperature of product required temperature point, be reached
To the equal control of temperature.
The above is only the preferred embodiments of the present utility model only, is not intended to limit the utility model, all in this practicality
All any modification, equivalent and improvement etc., should be included in the guarantor of the utility model made by within novel spirit and principle
It protects in range.
Claims (3)
1. a kind of adjustable warm area distributed architecture, including furnace body, it is characterised in that:Further include temperature sensor, temperature controller and electricity
Pole control circuit is provided at least three groups of heaters in the furnace body, three groups of fever fission regions before, during and after formation, three groups of institutes
State the position that temperature sensor is separately positioned on three groups of heaters in furnace body, output end and the temperature control of the temperature sensor
The input terminal of device connects, and the corresponding control signal with the electrode control circuit connects the output end of temperature controller described in three groups respectively
It connects, the output end of the electrode control circuit is connect with the heater.
2. according to a kind of adjustable warm area distributed architecture described in claim 1, it is characterised in that:The heater includes more
Root heating plate and flow guide bar, the heating plate are arranged parallel to each other, the heating plate both ends connected by deflector to be formed it is rectangular
Fever individual configurations.
3. a kind of adjustable warm area distributed architecture according to claim 1, it is characterised in that:The heater is sent out for graphite
Hot body.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721911104.3U CN207797760U (en) | 2017-12-30 | 2017-12-30 | A kind of adjustable warm area distributed architecture |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721911104.3U CN207797760U (en) | 2017-12-30 | 2017-12-30 | A kind of adjustable warm area distributed architecture |
Publications (1)
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CN207797760U true CN207797760U (en) | 2018-08-31 |
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CN201721911104.3U Active CN207797760U (en) | 2017-12-30 | 2017-12-30 | A kind of adjustable warm area distributed architecture |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2023024132A1 (en) * | 2021-08-23 | 2023-03-02 | 株洲瑞德尔冶金设备制造有限公司 | Novel furnace door heating apparatus and horizontal sintering furnace thereof |
-
2017
- 2017-12-30 CN CN201721911104.3U patent/CN207797760U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2023024132A1 (en) * | 2021-08-23 | 2023-03-02 | 株洲瑞德尔冶金设备制造有限公司 | Novel furnace door heating apparatus and horizontal sintering furnace thereof |
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Denomination of utility model: An adjustable temperature zone distribution structure Effective date of registration: 20211020 Granted publication date: 20180831 Pledgee: Xiamen Jinyuan Financing Guarantee Co.,Ltd. Pledgor: XIAMEN THRONE VACUUM TECHNOLOGY Co.,Ltd. Registration number: Y2021980011022 |