CN216620703U - Metallurgical stove intelligent control ware - Google Patents
Metallurgical stove intelligent control ware Download PDFInfo
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- CN216620703U CN216620703U CN202122576303.6U CN202122576303U CN216620703U CN 216620703 U CN216620703 U CN 216620703U CN 202122576303 U CN202122576303 U CN 202122576303U CN 216620703 U CN216620703 U CN 216620703U
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- control box
- heat insulation
- insulation control
- pipeline
- water tank
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Abstract
The utility model relates to the technical field of metallurgy and discloses an intelligent controller of a metallurgical furnace, which comprises a heat insulation control box, wherein a single-door is installed on the heat insulation control box, a radiating fin is installed on the outer side of the heat insulation control box, an installation plate is arranged on the back surface of the heat insulation control box, a fixed rod is connected between the installation plate and the back surface of the heat insulation control box, a water tank, a condenser and a first water pump are installed at the top of the heat insulation control box, a first pipeline is connected onto the first water pump, and the water tank is communicated with the condenser through the first pipeline. This metallurgical stove intelligent control ware passes through the dead lever at the thermal-insulated control box back and connects the mounting panel, install through the mounting panel, isolated solid heat conduction makes the thermal-insulated control box heat up, use the thermal-insulated control box, isolated external steam gets into in the thermal-insulated control box, and through the water tank, the condenser, first water pump and second water pump cooperation, with water tank mesopelagic water cooling, through second pipeline and controller contact, the heat on the controller is taken away in the hydrologic cycle, reach the radiating effect of cooling.
Description
Technical Field
The utility model relates to the technical field of metallurgy, in particular to an intelligent controller of a metallurgical furnace.
Background
The metallurgical furnace is an industrial furnace for carrying out hot processing treatment on various materials or workpieces in the metallurgical production process, the thermal treatment is a treatment process taking the temperature rise of the materials or the workpieces as an important characteristic, such as roasting, smelting, heating, heat treatment, drying and the like, and most production links of ferrous metallurgy and nonferrous metallurgy are not open to metallurgy.
When the metallurgical furnace works, a controller is needed, the operation of the metallurgical furnace is controlled through the controller, the installation position of the controller is far away from the metallurgical furnace, the metallurgical furnace is inconvenient to observe while the metallurgical furnace is operated, the installation position of the controller is close to the metallurgical furnace, the ambient temperature can be increased due to the high temperature of the metallurgical furnace, the controller is in a high-temperature state, and the controller in the high-temperature state is easy to damage, so that the working stability of the controller is affected.
We propose an intelligent controller for a metallurgical furnace to solve the problems set forth above.
SUMMERY OF THE UTILITY MODEL
Technical problem to be solved
In view of the defects in the prior art in the background art, an object of the present invention is to provide an intelligent controller for a metallurgical furnace, so as to solve the problems that the ambient temperature of the metallurgical furnace rises due to the high temperature of the metallurgical furnace, so that the controller is in a high-temperature state, and the controller in the high-temperature state is easily damaged, thereby affecting the working stability of the controller in some of the intelligent controllers for metallurgical furnaces in the current market proposed in the background art.
(II) technical scheme
In order to achieve the purpose, the utility model is realized by the following technical scheme:
the utility model provides a metallurgical stove intelligent control ware, includes thermal-insulated control box, install the single door that opens on the thermal-insulated control box, the fin is installed in the outside of thermal-insulated control box, the back of thermal-insulated control box is provided with the mounting panel, be connected with the dead lever between the mounting panel and the thermal-insulated control box back, water tank, condenser and first water pump are installed at the top of thermal-insulated control box, be connected with first pipeline on the first water pump, the water tank passes through first pipeline intercommunication with the condenser, install the second water pump in the thermal-insulated control box, install the second pipeline on the second water pump, the water tank passes through second pipeline intercommunication with the condenser, the second pipeline is the S-shaped in the thermal-insulated control box, install the controller in the thermal-insulated control box, the back and the second pipeline contact of controller.
Preferably, the heat insulation control box comprises an outer shell layer, an outer heat insulation layer, a heat insulation layer, an inner heat insulation layer and an inner shell layer, wherein the heat insulation layer is arranged between the outer heat insulation layer and the inner heat insulation layer, the outer shell layer is arranged on the outer side of the outer heat insulation layer, and the inner shell layer is arranged on the inner side of the inner heat insulation layer.
Preferably, a temperature sensor is installed in the heat insulation control box.
Preferably, a water temperature sensor is installed in the water tank.
Further, a plurality of the radiating fins are arranged on the back and two sides of the heat insulation control box.
(III) advantageous effects
Compared with the prior art, the utility model has the beneficial effects that: this metallurgical stove intelligent control ware:
(1) the mounting panel is connected through the dead lever at thermal-insulated control box back, installs through the mounting panel, and isolated solid heat conduction makes thermal-insulated control box heat up, uses thermal-insulated control box, and isolated external steam gets into in the thermal-insulated control box, and through water tank, condenser, first water pump and second water pump cooperation, with water tank normal water cooling, through second pipeline and controller contact, the heat on the controller is taken away in the hydrologic cycle, reaches the radiating effect of cooling down.
(2) This thermal-insulated control box includes shell layer, outer insulating layer, heat preservation, interior insulating layer and inner shell layer, effectively isolated external heat gets into in the thermal-insulated control box, and the fin on the thermal-insulated control box can effectively dispel the heat to the thermal-insulated control box.
Drawings
FIG. 1 is a schematic perspective view of an intelligent controller for a metallurgical furnace according to the present invention;
FIG. 2 is a schematic diagram of the front view structure of the metallurgical furnace intelligent controller of the present invention;
FIG. 3 is a schematic diagram of a side view of an intelligent controller for a metallurgical furnace according to the present invention;
FIG. 4 is a schematic diagram of the top view of the metallurgical furnace intelligent controller of the present invention;
FIG. 5 is a schematic view of the internal structure of the heat insulation control box of the metallurgical furnace intelligent controller of the present invention;
FIG. 6 is a schematic diagram of a second piping structure of the metallurgical furnace intelligent controller of the present invention;
FIG. 7 is a schematic view of the structure of the heat insulation control box of the metallurgical furnace intelligent controller of the present invention.
In the figure: the heat insulation control box comprises a heat insulation control box 1, a temperature sensor 11, an outer shell layer 101, an outer heat insulation layer 102, a heat insulation layer 103, an inner heat insulation layer 104, an inner shell layer 105, a radiating fin 2, a mounting plate 3, a fixing rod 4, a water tank 5, a water temperature sensor 51, a condenser 6, a first water pump 7, a first pipeline 71, a second water pump 8, a second pipeline 81 and a controller 9.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1 to 7, the present invention provides an intelligent controller for a metallurgical furnace; the heat insulation control box comprises a heat insulation control box 1, a single-opening door is installed on the heat insulation control box 1, the operation is convenient through the single-opening door, radiating fins 2 are installed on the outer side of the heat insulation control box 1, a plurality of radiating fins 2 are installed on the back and two sides of the heat insulation control box 1, the radiating fins 2 effectively radiate and cool the heat insulation control box 1, a mounting plate 3 is arranged on the back of the heat insulation control box 1, a fixing rod 4 is connected between the mounting plate 3 and the back of the heat insulation control box 1 and is installed through the mounting plate 3, the mounting plate 3 is connected with the heat insulation control box 1 through the fixing rod 4, the heat insulation control box 1 is heated through effectively isolating and fixing heat conduction, a water tank 5, a condenser 6 and a first water pump 7 are installed at the top of the heat insulation control box 1, a first pipeline 71 is connected onto the first water pump 7, the water tank 5 is communicated with the condenser 6 through the first pipeline 71, and a second water pump 8 is installed in the heat insulation control box 1, a second pipeline 81 is installed on the second water pump 8, the water tank 5 is communicated with the condenser 6 through the second pipeline 81, the second pipeline 81 is S-shaped in the heat insulation control box 1, water in the water tank 5 circulates in the water tank 5, the second pipeline 81, the condenser 6 and the first pipeline 71, the condenser 6 cools the water in the water tank 5, a controller 9 is installed in the heat insulation control box 1, the back of the controller 9 is in contact with the second pipeline 81, and the water takes away the temperature on the controller 9 through the second pipeline 81 to dissipate heat and cool;
as a preferred technical scheme of the utility model: the heat insulation control box 1 comprises an outer shell layer 101, an outer heat insulation layer 102, a heat insulation layer 103, an inner heat insulation layer 104 and an inner shell layer 105, wherein the heat insulation layer 103 is arranged between the outer heat insulation layer 102 and the inner heat insulation layer 104, the outer shell layer 101 is arranged on the outer side of the outer heat insulation layer 102, and the inner shell layer 105 is arranged on the inner side of the inner heat insulation layer 104 and effectively isolates external heat from entering the heat insulation control box 1;
as a preferred technical scheme of the utility model: a temperature sensor 11 is arranged in the heat insulation control box 1, and when the temperature in the heat insulation control box 1 reaches a certain height, a first water pump 7 and a second water pump 8 are started to carry out water circulation to carry out heat dissipation and cooling in the heat insulation control box 1;
as a preferred technical scheme of the utility model: a water temperature sensor 51 is installed in the water tank 5, and when the temperature of water in the water tank 5 reaches a certain height, the condenser 6 is started to cool the water.
The working principle of the embodiment is as follows: when the metallurgical furnace intelligent controller is used, as shown in fig. 2 and fig. 4-7, the device integrally comprises a heat insulation control box 1, a temperature sensor 11, an outer shell 101, an outer heat insulation layer 102, a heat insulation layer 103, an inner heat insulation layer 104, an inner shell 105, a radiating fin 2, a mounting plate 3, a fixed rod 4, a water tank 5, a water temperature sensor 51, a condenser 6, a first water pump 7, a first pipeline 71, a second water pump 8, a second pipeline 81 and a controller 9, the heat insulation control box 1 is installed through the fixed rod 4 on the mounting plate 3 and then used, the heat insulation control box 1 effectively isolates external heat from entering the heat insulation control box 1, the radiating fin 2 on the heat insulation control box 1 effectively cools the heat insulation control box 1, when heat dissipated by electronic elements in the heat insulation control box 1 in use enables the temperature in the heat insulation control box 1 to reach a certain height, the temperature sensor 11 detects the heat, the first water pump 7 and the second water pump 8 are started to enable water in the water tank 5 to circulate in the water tank 5, the second pipeline 81, the condenser 6 and the first pipeline 71, the second pipeline 81 is in contact with the controller 9 to take away heat on the controller 9, and a cooling effect is achieved.
Although the present invention has been described in detail with reference to the foregoing embodiments, it should be noted that, in the present invention, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, may be fixedly connected or detachably connected; or indirectly through an intermediary. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations; it will be apparent to those skilled in the art that modifications and equivalents may be made in the embodiments and/or portions thereof without departing from the spirit and scope of the present invention.
Claims (5)
1. The metallurgical furnace intelligent controller comprises a heat insulation control box (1) and is characterized in that a single-opening door is installed on the heat insulation control box (1), radiating fins (2) are installed on the outer side of the heat insulation control box (1), a mounting plate (3) is arranged on the back of the heat insulation control box (1), a fixing rod (4) is connected between the mounting plate (3) and the back of the heat insulation control box (1), a water tank (5), a condenser (6) and a first water pump (7) are installed at the top of the heat insulation control box (1), a first pipeline (71) is connected onto the first water pump (7), the water tank (5) is communicated with the condenser (6) through the first pipeline (71), a second water pump (8) is installed in the heat insulation control box (1), a second pipeline (81) is installed on the second water pump (8), and the water tank (5) is communicated with the condenser (6) through the second pipeline (81), the second pipeline (81) is S-shaped in the heat insulation control box (1), the controller (9) is installed in the heat insulation control box (1), and the back of the controller (9) is in contact with the second pipeline (81).
2. The metallurgical furnace intelligent controller according to claim 1, characterized in that the insulation control box (1) comprises an outer insulating layer (101), an outer insulating layer (102), an insulating layer (103), an inner insulating layer (104) and an inner shell layer (105), wherein the insulating layer (103) is between the outer insulating layer (102) and the inner insulating layer (104), the outer insulating layer (101) is outside the outer insulating layer (102), and the inner shell layer (105) is inside the inner insulating layer (104).
3. The metallurgical furnace intelligent controller according to claim 1, characterized in that a temperature sensor (11) is installed in the heat insulation control box (1).
4. The metallurgical furnace intelligent controller according to claim 1, characterized in that a water temperature sensor (51) is installed in the water tank (5).
5. The metallurgical furnace intelligent controller according to claim 1, characterized in that a plurality of the cooling fins (2) are installed on the back and both sides of the heat insulation control box (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122576303.6U CN216620703U (en) | 2021-10-26 | 2021-10-26 | Metallurgical stove intelligent control ware |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122576303.6U CN216620703U (en) | 2021-10-26 | 2021-10-26 | Metallurgical stove intelligent control ware |
Publications (1)
Publication Number | Publication Date |
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CN216620703U true CN216620703U (en) | 2022-05-27 |
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Family Applications (1)
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CN202122576303.6U Active CN216620703U (en) | 2021-10-26 | 2021-10-26 | Metallurgical stove intelligent control ware |
Country Status (1)
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CN (1) | CN216620703U (en) |
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2021
- 2021-10-26 CN CN202122576303.6U patent/CN216620703U/en active Active
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