CN212933335U - Electric melting furnace oscillating feeder differentiation feeding device - Google Patents

Abstract

The utility model discloses an electric melting furnace oscillating charging machine differentiation feeding device, including the electric melting furnace body and the supporting seat that is located electric melting furnace body one side, the top of supporting seat is provided with actuating mechanism, and the side of supporting seat is provided with control mechanism, and actuating mechanism comprises pivot, follow driving wheel, action wheel and step motor body, and control mechanism comprises step motor controller, step motor driver, servo motor controller, servo motor driver, touch-sensitive screen and PLC controller. The utility model discloses a set up temperature sensor and can detect the inside temperature of electric melting furnace body and will detect data transfer and give the PLC controller, if detect the high place of temperature, then the PLC controller passes through step motor controller and step motor driver control servo motor body with higher speed to make chain net metal drive belt add the material in the loading hopper with higher speed this internal high place of temperature of electric melting furnace, thereby it is reinforced more in the high place of temperature.

Description

Electric melting furnace oscillating feeder differentiation feeding device

Technical Field

The utility model relates to a feeding device specifically is a differentiation feeding device of electric melting furnace oscillating feeder.

Background

Conventional electric melting furnace oscillating feeder feeding device, the general all that adopts is that the mode of uniform velocity motion feeding puts in the raw materials to the electric melting furnace with even speed, supply production usefulness, traditional feeding device, seem evenly reinforced, but there is very big limitation in actual production process, it is at the uniform velocity to feed in, but the structure of electric melting furnace has decided that the temperature at each position can not the same, at the uniform velocity feeding in-process, if it is reinforced slowly, the high place of temperature forms the red top easily, be unfavorable for the shaping of cold top, influence the electric melting furnace life-span, if it is reinforced fast, the local windrow that forms easily of low temperature, make the glass liquid of outflow probably contain a large amount of not melts, cause the sand eye, bubble defect such as, make product quality receive the influence. Therefore, we improve the situation and provide a swing type feeder differential feeding device of the electric melting furnace.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model relates to a different feeding device of electric melting furnace oscillating feeder, include the electric melting furnace body and be located the supporting seat of electric melting furnace body one side, the top of supporting seat is provided with actuating mechanism, the side of supporting seat is provided with control mechanism, actuating mechanism comprises pivot, follow driving wheel, action wheel and step motor body, control mechanism comprises step motor controller, step motor driver, servo motor controller, servo motor driver, touch-sensitive screen and PLC controller, the top of pivot is provided with reinforced mechanism, reinforced mechanism comprises a backup pad, two curb plates, two drive wheels, a chain net metal drive belt, a servo motor body, a loading hopper and a temperature sensor.

As a preferred technical scheme of the utility model, the surface of pivot cup joints through the inner wall of bearing and supporting seat, the top of pivot and the bottom fixed connection of backup pad, temperature sensor installs in the bottom of backup pad and is located the top of electric melting furnace body.

As a preferred technical scheme of the utility model, establish the surface at the pivot from the fixed cover of driving wheel, the step motor body is installed at the top of supporting seat and is located one side of pivot, the fixed cover of action wheel is established on the output of step motor body, the action wheel with from the driving wheel meshing.

As an optimal technical scheme of the utility model, two the curb plate is fixed mounting respectively in the both sides at backup pad top, two the drive wheel all sets up between two curb plates through the bearing, chain mesh metal transmission belt transmission is connected between two drive wheels.

As a preferred technical scheme of the utility model, servo motor body fixed mounting is in one side of one of them curb plate, the output shaft of servo motor body and the one end fixed connection of one of them drive wheel, loading hopper fixed mounting is between the top of two curb plates.

As a preferred technical scheme of the utility model, step motor controller, step motor driver, servo motor controller and servo motor driver from the top down set gradually one side at the supporting seat, touch-sensitive screen and PLC controller set up the opposite side at the supporting seat, touch-sensitive screen, temperature sensor, step motor controller and servo motor controller all with PLC controller electric connection, step motor driver and servo motor body and step motor controller electric connection, servo motor driver and servo motor controller and step motor body electric connection.

The utility model has the advantages that: the temperature sensor is arranged to detect the temperature inside the electric melting furnace body and transmit the detected data to the PLC, if the high-temperature place is detected, the PLC controls the servo motor body to accelerate through the stepping motor controller and the stepping motor driver, so that the chain mesh metal transmission belt accelerates to add the materials in the charging hopper to the high-temperature place in the electric melting furnace body, so that more materials are added in the high-temperature place, if the low-temperature place is detected, the PLC controls the servo motor body to decelerate through the stepping motor controller and the stepping motor driver, so that the chain mesh metal transmission belt decelerates to add the materials in the charging hopper to the low-temperature place in the electric melting furnace body, so that less materials are added in the low-temperature place, the cold top is easier to form, and the low-temperature place cannot cause glass liquid pollution due to material piling, the product quality is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view of a differentiated feeding device of an oscillating type feeder of an electric melting furnace of the present invention;

FIG. 2 is a schematic structural diagram of a driving mechanism and a control mechanism of the oscillating feeder differentiated feeding device of the electric melting furnace of the present invention;

fig. 3 is an enlarged schematic structural view of a point a in fig. 1 of the oscillating feeder differential feeding device of the electric melting furnace of the present invention;

fig. 4 is an electrical connection schematic diagram of the electric melting furnace oscillating feeder differentiated feeding device of the present invention.

In the figure: 1. an electric melting furnace body; 2. a supporting seat; 3. a rotating shaft; 4. a driven wheel; 5. a driving wheel; 6. a stepping motor body; 7. a stepper motor controller; 8. a stepper motor driver; 9. a servo motor controller; 10. a servo motor driver; 11. a touch screen; 12. a PLC controller; 13. a support plate; 14. a side plate; 15. a driving wheel; 16. a chain mesh metal transmission belt; 17. a servo motor; 18. a hopper; 19. a temperature sensor.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Example (b): as shown in fig. 1-4, the utility model relates to a differentiated feeding device of electric melting furnace oscillating feeder, include electric melting furnace body 1 and the supporting seat 2 that is located electric melting furnace body 1 one side, the top of supporting seat 2 is provided with actuating mechanism, the side of supporting seat 2 is provided with control mechanism, actuating mechanism is by pivot 3, from driving wheel 4, action wheel 5 and step motor body 6 are constituteed, control mechanism is by step motor controller 7, step motor driver 8, servo motor controller 9, servo motor driver 10, touch-sensitive screen 11 and PLC controller 12 are constituteed, the top of pivot 3 is provided with reinforced mechanism, reinforced mechanism is by a backup pad 13, two curb plates 14, two drive wheels 15, a chain mesh metal drive belt 16, a servo motor body 17, a loading hopper 18 and a temperature sensor 19 are constituteed.

Wherein, the surface of pivot 3 cup joints through the inner wall of bearing and supporting seat 2, and the top of pivot 3 and the bottom fixed connection of backup pad 13, temperature sensor 19 install in the bottom of backup pad 13 and be located the top of electric melting furnace body 1, can detect the inside temperature of electric melting furnace body 1 and give PLC controller 12 with the detected data transmission through setting up temperature sensor 19.

Wherein, establish the surface at pivot 3 from 4 fixed covers of follow driving wheel, step motor body 6 is installed at the top of supporting seat 2 and is located one side of pivot 3, the fixed cover of action wheel 5 is established on step motor body 6's output, action wheel 5 with from the meshing of driving wheel 4, the applicable model of step motor body 6 is 110HCY160AL3S type step motor, can drive action wheel 5 and rotate from driving wheel 4 through step motor body 6, can drive pivot 3 just reversing through from driving wheel 4, can drive backup pad 13 swing through pivot 3, thereby backup pad 13 gets back to the opposite side at electric melting furnace body 1 top again after arriving one side at electric melting furnace body 1 top.

Wherein, two curb plates 14 respectively fixed mounting are in the both sides at backup pad 13 top, and two drive wheels 15 all pass through the bearing setting between two curb plates 14, and chain mesh metal transmission belt 16 transmission is connected between two drive wheels 15, can support drive wheel 15 through setting up two curb plates 14, can transmit the power of servo motor body 17 for chain mesh metal transmission belt 16 through setting up drive wheel 15.

Wherein, servo motor body 17 fixed mounting is in one side of one of them curb plate 14, servo motor body 17's output shaft and one of them drive wheel 15's one end fixed connection, loading hopper 18 fixed mounting is between the top of two curb plates 14, after the raw materials in the loading hopper 18 fell on chain net metal transmission belt 16, drive wheel 15 and chain net metal transmission belt 16 by servo motor body 17 and rotate and carry the raw materials to electric melting furnace body 1 in to realize the interpolation of raw materials.

Wherein, a stepping motor controller 7, a stepping motor driver 8, a servo motor controller 9 and a servo motor driver 10 are sequentially arranged on one side of the supporting seat 2 from top to bottom, a touch screen 11 and a PLC controller 12 are arranged on the other side of the supporting seat 2, the touch screen 11, a temperature sensor 19, the stepping motor controller 7 and the servo motor controller 9 are all electrically connected with the PLC controller 12, the stepping motor driver 8 is electrically connected with a servo motor body 17 and the stepping motor controller 7, the servo motor driver 10 is electrically connected with the servo motor controller 9 and the stepping motor body 6, the model of the stepping motor controller 7 is TPC8-8TD type stepping motor controller, the model of the stepping motor driver 8 is 8594 type stepping motor driver, and the applicable model is servo motor driver 10 esd-005 a type servo driver, the model number of the servo motor body 17 is 130ST-M06025 type servo motor, the model number of the PLC controller 12 is LK3U-14MR type PLC controller, and the model number of the temperature sensor 19 is PT100 type temperature sensor.

When the electric melting furnace is in operation, firstly, raw materials are poured into a feeding hopper 18, a stepping motor body 6 is controlled through a servo motor controller 9 and a servo motor driver 10, so that the stepping motor body 6 can drive a rotating shaft 3 to rotate forward and backward through a driving wheel 5 and a driven wheel 4, a supporting plate 13 can be driven to swing through the rotating shaft 3, the supporting plate 13 returns to the other side of the top of the electric melting furnace body 1 after reaching one side of the top of the electric melting furnace body 1, in the swinging process of the supporting plate 13, the temperature inside the electric melting furnace body 1 can be detected through arranging a temperature sensor 19 and transmitting the detected data to a PLC (programmable logic controller) 12, if a high-temperature place is detected, the PLC 12 controls a servo motor body 17 to accelerate through the stepping motor controller 7 and the stepping motor driver 8, and drives a driving wheel 15 and a chain mesh metal driving belt 16 to, thereby make chain net metal transmission belt 16 accelerate and add the high place of temperature in the electric melting furnace body 1 with the material in loading hopper 18, thereby it is reinforced more in the high place of temperature, if detect the low place of temperature, then PLC controller 12 controls servo motor body 17 through step motor controller 7 and step motor driver 8 and slows down, thereby make the speed reduction of chain net metal transmission belt 16 add the low place of temperature in the electric melting furnace body 1 with the material in loading hopper 18, thereby it is reinforced less in the low place of temperature, make the cold top shaping more easily, also make the low place of temperature can not the windrow cause the glass liquid pollution, improve product quality.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an electric melting furnace oscillating feeder differentiation feeding device, a serial communication port, include electric melting furnace body (1) and be located supporting seat (2) of electric melting furnace body (1) one side, the top of supporting seat (2) is provided with actuating mechanism, the side of supporting seat (2) is provided with control mechanism, actuating mechanism comprises pivot (3), follow driving wheel (4), action wheel (5) and step motor body (6), control mechanism comprises step motor controller (7), step motor driver (8), servo motor controller (9), servo motor driver (10), touch-sensitive screen (11) and PLC controller (12), the top of pivot (3) is provided with reinforced mechanism, reinforced mechanism is by a backup pad (13), two curb plates (14), two drive wheels (15), a chain net metal drive belt (16), A servo motor body (17), a loading hopper (18) and a temperature sensor (19).

2. The oscillating feeder differential feeding device of the electric melting furnace as claimed in claim 1, wherein the outer surface of the rotating shaft (3) is sleeved with the inner wall of the supporting seat (2) through a bearing, the top end of the rotating shaft (3) is fixedly connected with the bottom of the supporting plate (13), and the temperature sensor (19) is installed at the bottom of the supporting plate (13) and located above the electric melting furnace body (1).

3. The oscillating feeder differential feeding device of the electric melting furnace as claimed in claim 1, wherein the driven wheel (4) is fixedly sleeved on the outer surface of the rotating shaft (3), the stepping motor body (6) is installed on the top of the supporting seat (2) and located on one side of the rotating shaft (3), the driving wheel (5) is fixedly sleeved on the output of the stepping motor body (6), and the driving wheel (5) is meshed with the driven wheel (4).

4. The oscillating feeder differential feeding device of the electric melting furnace as claimed in claim 1, characterized in that two side plates (14) are respectively and fixedly installed at two sides of the top of the supporting plate (13), two driving wheels (15) are respectively arranged between the two side plates (14) through bearings, and the chain mesh metal driving belt (16) is in driving connection between the two driving wheels (15).

5. The oscillating feeder differential feeding device of the electric melting furnace as claimed in claim 1, characterized in that the servo motor body (17) is fixedly installed on one side of one of the side plates (14), the output shaft of the servo motor body (17) is fixedly connected with one end of one of the transmission wheels (15), and the hopper (18) is fixedly installed between the tops of the two side plates (14).

6. The swing type feeder differential feeding device of the electric melting furnace as claimed in claim 1, it is characterized in that the stepping motor controller (7), the stepping motor driver (8), the servo motor controller (9) and the servo motor driver (10) are sequentially arranged on one side of the supporting seat (2) from top to bottom, the touch screen (11) and the PLC controller (12) are arranged on the other side of the supporting seat (2), the touch screen (11), the temperature sensor (19), the stepping motor controller (7) and the servo motor controller (9) are electrically connected with the PLC controller (12), the stepping motor driver (8) is electrically connected with the servo motor body (17) and the stepping motor controller (7), and the servo motor driver (10) is electrically connected with the servo motor controller (9) and the stepping motor body (6).

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