CN216637867U - Silicon-manganese alloy raw material batching system - Google Patents
Silicon-manganese alloy raw material batching system Download PDFInfo
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- CN216637867U CN216637867U CN202123202032.4U CN202123202032U CN216637867U CN 216637867 U CN216637867 U CN 216637867U CN 202123202032 U CN202123202032 U CN 202123202032U CN 216637867 U CN216637867 U CN 216637867U
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Abstract
The utility model discloses a silicomanganese raw material batching system, which comprises a raw material bin, wherein a weighing belt conveyor is arranged below the raw material bin, the raw material bin is arranged above the weighing belt conveyor, a plurality of weighing belt conveyors are arranged above a gathering belt conveyor, the gathering belt conveyor is arranged above a feeding belt conveyor, the feeding belt conveyor is arranged above an inclined bridge type skip loader, the inclined bridge type skip loader is arranged above a high-level bin, the weighing belt conveyor is arranged below the high-level bin, and the weighing belt conveyor of the high-level bin is arranged above an electric batching vehicle; electronic proportioning truck slides on endless track, and the inlet pipe of endless track circumferencial direction equipartition feeder, advantage are followed to the endless track below: the multiple raw materials are discharged by the raw materials storehouse, are weighed by the weighing belt feeder, and are wholly carried by equipment such as aggregate belt feeder, pay-off belt feeder, inclined bridge type skip material loading machine, and degree of automation draft, the burden volume rate of accuracy draft, and lifting efficiency reduces artifical fatigue strength.
Description
The technical field is as follows:
the utility model relates to the technical field of silicon-manganese alloy batching, in particular to a silicon-manganese alloy raw material batching system.
Background art:
present silicomanganese smelts the in-process, need with numerous quantity, kind's raw materials is stacked respectively in raw materials canopy, place the belt feeder with the help of instruments such as forklift with different raw materials and deliver to the hot stove in ore deposit and smelt, this process transport link manual work participates in many, make degree of automation low, the efficiency is poor, increase fatigue strength, and when the raw materials got into the hot stove in ore deposit, be the feeder pay-off through the hot stove in ore deposit, the feeder comprises many inlet pipes of equipartition on the hot stove in ore deposit, evenly arrange when aim at raw materials reachs the hot stove in ore deposit inside, many inlet pipe mouths of the feeder are joined in marriage to the material manual work of belt feeder, same inefficiency, the batching is difficult for the accuracy.
With different bins distributed to the various furnaces, requiring appropriate batching systems
The utility model has the following contents:
the utility model aims to provide a silicon-manganese alloy raw material batching system.
The utility model is implemented by the following technical scheme:
a silicomanganese alloy raw material batching system comprises a raw material bin, a weighing belt conveyor, a gathering belt conveyor, a feeding belt conveyor, an inclined bridge type skip feeder, an overhead bin, an electric batching vehicle and an annular track, wherein the number of the raw material bins is more than 1, one weighing belt conveyor corresponds to the lower part of each raw material bin, an outlet of each raw material bin is arranged above a feed port of the corresponding weighing belt conveyor, a plurality of feed openings of the weighing belt conveyors corresponding to the raw material bins are arranged above the feed port of the gathering belt conveyor, a feed opening of the gathering belt conveyor is arranged above the feed port of the feeding belt conveyor, a feed opening of the feeding belt conveyor is arranged above a feed opening of the inclined bridge type skip feeder, a feed opening of the inclined bridge type skip feeder is arranged above an inlet of the overhead bin, and the weighing belt conveyor is correspondingly arranged below the overhead bin, the outlet of the high-level bin is arranged above the feeding hole of the weighing belt conveyor, and the discharging hole of the weighing belt conveyor corresponding to the high-level bin is movably arranged above the inlet of the electric batching truck in a split manner;
electronic proportioning truck slides and establishes on the circular orbit, the circular orbit below is followed the inlet pipe of circular orbit circumferencial direction equipartition feeder, inlet pipe mouth of pipe top is arranged in the activity of the export components of a whole that can function independently of electronic proportioning truck.
Preferably, the position that the circular orbit top corresponds the inlet pipe is equipped with infrared correlation switch, be equipped with on the electronic batch truck and be used for the drive the motor that electronic batch truck removed, infrared correlation switch with the power supply circuit of motor establishes ties.
Preferably, the transmitter and the receiver of the infrared correlation switch are respectively arranged at two sides above the mouth of the feeding pipe.
The utility model has the advantages that: various raw materials are discharged from a raw material bin, the weight of the raw materials is measured by a weighing belt conveyor, and the whole raw materials are conveyed by a gathering belt conveyor, a feeding belt conveyor, an inclined bridge type skip car feeder and other equipment, so that the automation degree is high, the ingredient quantity accuracy is high, the efficiency is improved, and the artificial fatigue strength is reduced; the materials in the high-level bin are matched to the pipe orifices of a plurality of feeding pipes of the feeder by an electric proportioning vehicle, so that the efficiency is high, and the labor is saved; through the displacement of infrared correlation switch restriction electric batch truck, can make the accurate butt joint in electric batch truck export and the orificial position of inlet pipe, promote the convenience.
Description of the drawings:
in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
FIG. 1 is a schematic view of the overall structure of the present invention;
fig. 2 is a top view of the overall structure of the present invention.
In the figure: raw materials feed bin 1, weighing belt feeder 2, gathering belt feeder 3, pay-off belt feeder 4, bridge type skip material loading machine 5, elevated bunker 6, electronic batching car 7, ring rail 8, infrared correlation switch 9.
The specific implementation mode is as follows:
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.
As shown in figures 1 and 2, a silicomanganese raw material batching system comprises a raw material bin 1, a weighing belt conveyor 2, a gathering belt conveyor 3, a feeding belt conveyor 4, an inclined bridge type skip loader 5, a high-level bin 6, an electric batching truck 7 and an annular track 8, wherein the number of the raw material bins 1 is more than 1, the number of the raw material bins 1 is set according to the number of raw material types required by actual production, raw materials are temporarily stored in the raw material bin 1, one weighing belt conveyor 2 corresponds to the lower part of each raw material bin 1, the outlet of each raw material bin 1 is arranged above the feed inlet of the corresponding weighing belt conveyor 2, the falling amount of the raw materials can be clearly known when the raw materials fall on the weighing belt conveyor 2, a plurality of discharge ports of the weighing belt conveyors 2 corresponding to the raw material bins 1 are arranged above the feed inlet of the gathering belt conveyor 3, each raw material can be sent to the gathering belt conveyor 3, the discharge port of the gathering belt conveyor 3 is arranged above the feed inlet of the feeding belt conveyor 4, the feed opening of the feeding belt conveyor 4 is arranged above the feed opening of the inclined bridge type skip car feeding machine 5, the raw material sent to the raw material feeding belt conveyor 4 from the gathering belt conveyor 3 is further sent to the skip car of the inclined bridge type skip car feeding machine 5, the feed opening of the inclined bridge type skip car feeding machine 5 is arranged above the inlet of the high-level bin 6, the raw materials are sent to a high-level bin 6 by a skip car of a slant-bridge skip car feeding machine 5, and because the position of a feeder of the submerged arc furnace is higher, therefore, the inclined bridge type skip car feeding machine 5 is required to feed materials to a high place, then the materials are temporarily stored in the high-position material bin 6 to wait for subsequent batching, the weighing belt conveyor 2 is correspondingly arranged below the high-position material bin 6, the outlet of the high-position material bin 6 is arranged above the feeding hole of the corresponding weighing belt conveyor 2, and similarly, the discharging amount of the high-position material bin 6 can be clearly known when the raw materials fall on the weighing belt conveyor 2, so that the subsequent batching is convenient, the feed opening of the weighing belt conveyor 2 corresponding to the high-level stock bin 6 is separately and movably arranged above the inlet of the electric proportioning vehicle 7;
electronic proportioning truck 7 slides and establishes on endless track 8, and 8 circumferencial direction equipartition feeders's of endless track are followed to endless track 8 below inlet pipe, and inlet pipe mouth of pipe top is arranged in to the export components of a whole that can function independently activity of electronic proportioning truck 7, utilizes electronic proportioning truck 7 to remove along endless track 8, throws the inlet pipe of feeding feeder respectively with the raw materials of equidimension.
Correspond the position of inlet pipe in 8 tops of circular orbit and be equipped with infrared correlation switch 9, establish the both sides in inlet pipe mouth of pipe top respectively at infrared correlation switch 9's transmitter and receiver, be equipped with the motor that is used for driving electronic batch truck 7 to remove on electronic batch truck 7, infrared correlation switch 9 establishes ties with the power supply circuit of motor, when 7 batching of needs electronic batch truck, start the infrared correlation switch 9 of the inlet pipe top that needs throw the material, all the other infrared correlation switches 9 of stopping use, when moving to the inlet pipe top that needs throw the material, the separation of electronic batch truck 7 corresponds infrared correlation switch 9 ray, trigger switch, infrared correlation switch 9 makes the motor outage parking of electronic batch truck 7, at this moment, the export of electronic batch truck 7 corresponds with the mouth of pipe of inlet pipe, be convenient for throw the material.
The working principle is as follows: different types of raw materials are respectively placed in a plurality of raw material bins 1, when a preset amount of a certain raw material is required to be fed into the submerged arc furnace according to process requirements, the raw material bins 1 discharge the corresponding raw material, the weighing belt conveyor 2 stops discharging after detecting the required preset amount, the raw material passes through a gathering belt conveyor 3, a feeding belt conveyor 4 and an inclined bridge type skip loader 5 in sequence and is temporarily stored in a high-level bin 6, because the burnt raw material amount in the submerged arc furnace is different in loss and uneven in distribution, when the feeding is carried out in the submerged arc furnace, on the premise of uniform material distribution in demand, more burnt materials are required to be fed at corresponding positions, less burnt materials are fed at corresponding positions, different feeding pipes are required to be fed into different raw material amounts, the batching is required, the raw material amounts required to be respectively fed by the different feeding pipes are judged according to actual production experience, the high-level bin 6 discharges the corresponding required raw material amounts into an electric batching truck 7, electronic proportioning truck 7 moves to corresponding inlet pipe top at circular orbit 8, and infrared correlation switch 9 makes the motor outage of electronic proportioning truck 7 park, then drops into the raw materials and corresponds the inlet pipe, when carrying out other inlet pipe batching, and electronic proportioning truck 7 connects the material again and throws the material, reciprocates the batching of accomplishing a certain raw materials several times.
Various raw materials are discharged from a raw material bin 1, the weight of the raw materials is measured by a weight belt conveyor 2, and the whole raw materials are conveyed by a gathering belt conveyor 3, a feeding belt conveyor 4, an inclined bridge type skip car feeder 5 and other equipment, so that the automation degree is high, the ingredient quantity accuracy is high, the efficiency is improved, and the artificial fatigue strength is reduced; the materials in the high-level bin 6 are mixed to the mouths of a plurality of feeding pipes of the feeder by the electric proportioning vehicle 7, so that the efficiency is high, and the labor is saved; through the displacement of infrared correlation switch 9 restriction electronic batching car 7, can make 7 exports of electronic batching car and the accurate butt joint in the position of the inlet pipe mouth of pipe, promote the convenience.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.
Claims (3)
1. A silicomanganese alloy raw material batching system is characterized by comprising a raw material bin, a weighing belt conveyor, a gathering belt conveyor, a feeding belt conveyor, an inclined bridge type skip car feeding machine, a high-level bin, an electric batching car and an annular track, wherein the number of the raw material bins is more than 1, one weighing belt conveyor corresponds to the lower part of each raw material bin, the outlet of each raw material bin is arranged above the feeding port of the corresponding weighing belt conveyor, a plurality of feed openings of the weighing belt conveyors corresponding to the raw material bins are arranged above the feeding port of the gathering belt conveyor, the feed opening of the gathering belt conveyor is arranged above the feeding port of the feeding belt conveyor, the feed opening of the feeding belt conveyor is arranged above the feeding port of the inclined bridge type skip car feeding machine, the feed opening of the inclined bridge type skip car feeding machine is arranged above the inlet of the high-level bin, the weighing belt conveyor is correspondingly arranged below the high-level bin, the outlet of the high-level bin is arranged above the feeding hole of the weighing belt conveyor, and the discharging hole of the weighing belt conveyor corresponding to the high-level bin is movably arranged above the inlet of the electric batching truck in a split manner;
electronic proportioning truck slides and establishes on the circular orbit, the circular orbit below is followed the inlet pipe of circular orbit circumferencial direction equipartition feeder, inlet pipe mouth of pipe top is arranged in the activity of the export components of a whole that can function independently of electronic proportioning truck.
2. The silicon-manganese alloy raw material batching system according to claim 1, characterized in that: the position that the circular orbit top corresponds the inlet pipe is equipped with infrared correlation switch, be equipped with on the electronic batch truck and be used for the drive the motor that electronic batch truck removed, infrared correlation switch with the power supply circuit of motor establishes ties.
3. The silicon-manganese alloy raw material batching system according to claim 2, characterized in that: and the emitter and the receiver of the infrared correlation switch are respectively arranged at two sides above the mouth of the feeding pipe.
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CN202123202032.4U CN216637867U (en) | 2021-12-17 | 2021-12-17 | Silicon-manganese alloy raw material batching system |
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CN202123202032.4U CN216637867U (en) | 2021-12-17 | 2021-12-17 | Silicon-manganese alloy raw material batching system |
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