CN211527134U - Slag removing device - Google Patents

Abstract

The application discloses take off sediment device includes: the device comprises a movable device main body, a lifting mechanism, an extension frame, a rotating mechanism, a turnover mechanism and a slag-raking component; the lifting mechanism is arranged on the device main body and is connected with the rotating mechanism through the extending frame, and the lifting mechanism is used for driving the rotating mechanism to move up and down; the rotating mechanism is connected with the turnover mechanism and is used for driving the turnover mechanism to rotate; the turnover mechanism is connected with the slag-raking component and is used for driving the slag-raking component to turn over. Through installing elevating system in mobilizable device main part, and elevating system is connected with slewing mechanism through extending the frame, and slewing mechanism is connected with tilting mechanism, and tilting mechanism is connected with the slagging-off part, and then realizes that the slagging-off part can carry out nimble slagging-off to the not smelting liquid level of co-altitude in the smelting furnace, easy operation, it is efficient to take off the slag.

Description

Slag removing device

Technical Field

The application relates to the technical field of non-ferrous metal smelting, in particular to a slag raking device.

Background

Non-ferrous metals, also known in the narrow sense as non-ferrous metals, are a generic term for all metals other than iron, manganese, chromium. Most of nonferrous metals are used after being processed into materials, so how to reasonably and effectively produce and process the nonferrous metals to obtain better social and economic benefits is a very important problem. The smelting of non-ferrous metals is one of the important processing procedures of non-ferrous metals, a large amount of scum is generated in the smelting process, and operators need to clean the scum in time to avoid influencing the smelting quality. The traditional slag raking mode is to manually operate the slag rake to carry out slag raking treatment, and the treatment mode has low efficiency and no guarantee on operation safety. The existing slag removing mode is mainly used for removing slag in the smelting furnace through a slag removing device, but the existing slag removing device for removing slag is complex in structure, complex in operation and low in slag removing efficiency.

SUMMERY OF THE UTILITY MODEL

In view of this, the present application aims to provide a slag removing device, which is simple to operate and has high slag removing efficiency.

In order to achieve the above technical object, the present application provides a slag raking device, including: the device comprises a movable device main body, a lifting mechanism, an extension frame, a rotating mechanism, a turnover mechanism and a slag-raking component;

the lifting mechanism is arranged on the device main body and is connected with the rotating mechanism through the extending frame, and the lifting mechanism is used for driving the rotating mechanism to move up and down;

the rotating mechanism is connected with the turnover mechanism and is used for driving the turnover mechanism to rotate;

the turnover mechanism is connected with the slag removing component and is used for driving the slag removing component to turn over.

Furthermore, the rotating mechanism comprises a fixed seat, a rotating seat, a first driving motor and a first transmission assembly;

the fixed seat is connected with the extension frame, and the top of the fixed seat is provided with a first through cavity penetrating through the fixed seat;

the rotating seat is arranged on the first through cavity and is in rotating fit with the fixed seat;

the first driving motor is connected with the rotating seat through the first transmission assembly to drive the rotating seat to rotate.

Further, the first transmission assembly comprises a first transmission gear and a first worm;

the first transmission gear is fixedly sleeved on the outer side wall of one end part of the rotating seat extending into the first through cavity;

the first worm is connected with an output shaft of the first driving motor and extends into the fixed seat to be meshed with the first transmission gear.

Further, the turnover mechanism comprises a second driving motor, a second transmission assembly and a turnover rod;

the overturning rod is horizontally inserted on the rotating seat and is in rotating fit with the rotating seat, and the overturning rod is positioned below the fixed seat;

the driving motor is connected with the turnover rod through the second transmission assembly so as to drive the turnover rod to rotate;

the slag-raking component is connected with one end of the turnover rod extending out of the rotating seat.

Further, the second transmission assembly comprises a second transmission gear, a third transmission gear, a fourth transmission gear and a second worm;

the second transmission gear is rotatably arranged in the first through cavity and is positioned above the rotating seat;

a second through cavity penetrating through the rotating seat is arranged at one end part of the rotating seat;

the third transmission gear is in synchronous rotating connection with the second transmission gear and is positioned in the second through cavity;

the fourth transmission gear is fixedly sleeved on the turnover rod and meshed with the third transmission gear.

Further, the extension frame comprises at least two support links;

one end of each of the two support connecting rods is connected with the lifting mechanism, and the other end of each of the two support connecting rods is inserted into a connecting hole formed in the fixed seat.

Further, the slag removing component comprises a first plate body and a second plate body;

the second plate body is vertically fixed on the top surface of the first plate body along the central line direction of the top surface of the first plate body;

a plurality of through holes are formed in the first plate body and the second plate body.

Further, the lifting mechanism is specifically an electric lifting frame.

Further, the device body is specifically a moving vehicle;

the device also comprises a guide rail bracket;

the moving frame is arranged on the guide rail frame and matched with the guide rail frame.

Further, a collector for collecting scum is also included.

According to the technical scheme, the lifting mechanism is mounted on the movable device main body, the lifting mechanism is connected with the rotating mechanism through the extending frame, the rotating mechanism is connected with the overturning mechanism, the overturning mechanism is connected with the slag-off component, and therefore the slag-off component can flexibly slag off the smelting liquid level at different heights in the smelting furnace, operation is simple, and slag-off efficiency is high.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a schematic overall structure diagram of a slag raking device provided in the present application;

FIG. 2 is a top view of a slag skimmer apparatus with a collector as provided herein;

FIG. 3 is a schematic view of a matching structure among a rotating mechanism, a turnover mechanism and a slag removing component of the slag removing device provided in the present application;

FIG. 4 is a top view of a slag-raking component of a slag-raking device provided in the present application;

FIG. 5 is a front view of a slag raking component of a slag raking device provided in the present application;

FIG. 6 is a cross-sectional view of a slag-raking component of a slag-raking device provided in the present application;

FIG. 7 is a schematic view of a state that a slag removing component of the slag removing device provided by the application extends into a round smelting furnace to prepare slag removal;

fig. 8 is a schematic view of a first state that a slag removing component of the slag removing device provided by the application extends into a circular smelting furnace to rotate and remove slag;

fig. 9 is a schematic view of a second state that a slag removing component of the slag removing device provided by the application extends into a circular smelting furnace to rotate and remove slag;

FIG. 10 is a schematic view of a partial state of a slag-raking component of the slag-raking device provided by the application after rotating for slag raking;

fig. 11 is a schematic view of a skimming device provided in the present application, pouring dross into a collector;

fig. 12 is a schematic view of a first state that a slag removing component of the slag removing device provided by the application extends into a square smelting furnace to rotate and remove slag;

fig. 13 is a schematic view of a second state that a slag removing component of the slag removing device provided by the application extends into a square smelting furnace to rotate and remove slag;

FIG. 14 is a partial state schematic diagram of a slag-raking component of the slag-raking device provided by the application when rotating for slag raking;

in the figure: 1. a mobile vehicle; 2. an electric lifting frame; 3. a support link; 4. a slag removal component; 41. a turning rod; 42. a first plate body; 43. a second plate body; 44. a through hole; 51. a fixed seat; a5, a first connecting shaft; a51, a first worm; a52, a first transmission gear; a53, a rotating seat; a54, a first bearing; b50 and a second connecting shaft; b51, a second worm; b52, a second transmission gear; b53, a third transmission gear; b54, a fourth transmission gear; b55, a second bearing; b56, a third bearing; 6. a control device; 7. a guide rail bracket; 8. a smelting furnace; 9. a furnace door; 10. a collector.

Detailed Description

The technical solutions of the embodiments of the present application will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are some, but not all, of the embodiments of the present application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without any creative effort belong to the protection scope of the embodiments in the present application.

In the description of the embodiments of the present application, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the embodiments of the present application and simplifying the description, but do not indicate or imply that the referred devices or elements must have specific orientations, be configured in specific orientations, and operate, and thus, should not be construed as limiting the embodiments of the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the embodiments of the present application, it should be noted that the terms "mounted," "connected," and "connected" are used broadly and are defined as, for example, a fixed connection, an exchangeable connection, an integrated connection, a mechanical connection, an electrical connection, a direct connection, an indirect connection through an intermediate medium, and a communication between two elements, unless otherwise explicitly stated or limited. Specific meanings of the above terms in the embodiments of the present application can be understood in specific cases by those of ordinary skill in the art.

The embodiment of the application discloses a slag raking device.

Referring to fig. 1, an embodiment of a slag raking device provided in an embodiment of the present application includes:

a slag raking device comprising: the device comprises a movable device main body, a lifting mechanism, an extension frame, a rotating mechanism, a turnover mechanism and a slag-raking component 4; the lifting mechanism is arranged on the device main body and is connected with the rotating mechanism through the extending frame, and the lifting mechanism is used for driving the rotating mechanism to move up and down; the rotating mechanism is connected with the turnover mechanism and is used for driving the turnover mechanism to rotate; the turnover mechanism is connected with the slag-raking component 4 and is used for driving the slag-raking component 4 to turn over.

According to the technical scheme, the lifting mechanism is installed on the movable device main body, the lifting mechanism is connected with the rotating mechanism through the extending frame, the rotating mechanism is connected with the overturning mechanism, the overturning mechanism is connected with the slag-off component 4, and therefore the slag-off component 4 can flexibly slag off the smelting liquid level at different heights in the smelting furnace 8, operation is simple, and slag-off efficiency is high.

The above is a first embodiment of the slag raking device provided in the embodiment of the present application, and the following is a second embodiment of the slag raking device provided in the embodiment of the present application, and refer to fig. 1 to 14 specifically.

A slag raking device comprising: the device comprises a movable device main body, a lifting mechanism, an extension frame, a rotating mechanism, a turnover mechanism and a slag-raking component 4; the lifting mechanism is arranged on the device main body and is connected with the rotating mechanism through the extending frame, and the lifting mechanism is used for driving the rotating mechanism to move up and down; the rotating mechanism is connected with the turnover mechanism and is used for driving the turnover mechanism to rotate; the turnover mechanism is connected with the slag-raking component 4 and is used for driving the slag-raking component 4 to turn over.

Further, as shown in fig. 3, the rotating mechanism includes a fixed seat 51, a rotating seat a53, a first driving motor (not shown), and a first transmission assembly; the fixed seat 51 is connected with the extension frame, and the top of the fixed seat is provided with a first through cavity penetrating through the fixed seat 51; the rotating seat A53 is arranged on the first through cavity and is in rotating fit with the fixed seat 51; the first driving motor is connected with the rotating seat A53 through the first transmission assembly to drive the rotating seat A53 to rotate.

Specifically, the fixing base 51 serves as a structural member for supporting and fixing, and the specific structural shape thereof is not limited; as shown in fig. 3, the rotating seat a53 may be rotatably embedded in the first through cavity through a first bearing a54, so as to realize the rotating fit between the rotating seat a53 and the fixed seat 51.

Further, the first transmission assembly may include a first transmission gear a52 and a first worm a 51; the first transmission gear A52 is fixedly sleeved on the outer side wall of one end part of the rotating seat A53 extending into the first through cavity; the first worm a51 is connected with the output shaft of the first driving motor, and extends into the fixed seat 51 to be meshed with the first transmission gear a 52.

Specifically, as shown in fig. 3, an avoiding groove (not shown) may be formed on one side of the first through cavity to avoid the installation of the first worm a51, the first driving motor is used to drive the first worm a51 to rotate, and the first worm a51 and the first transmission gear a52 are engaged to drive the rotating base a53 to rotate. In this embodiment, the first driving motor may be mounted on the outer side wall of the fixed seat 51, but in order to avoid the influence of the high temperature after the first driving motor extends into the smelting furnace 8, the first driving motor may be mounted on the lifting mechanism or the extension frame, and connected with the first worm a51 through the first connecting shaft a50, which is not limited specifically. Certainly, first transmission assembly in this application also comprises sprocket, chain etc. utilizes sprocket and chain to replace first drive gear A52 and first worm A51 among the above-mentioned scheme, fixes the sprocket cover on rotating seat A53 for first driving motor passes through the chain and is connected with the sprocket, and then drives the sprocket and rotate, thereby drives and rotates seat A53 and rotate. Those skilled in the art can make appropriate changes based on the above without limitation.

Further, the turnover mechanism may include a second driving motor (not shown), a second transmission assembly, and a turnover rod 41; the turning rod 41 is horizontally inserted on the rotating seat A53 and is in rotating fit with the rotating seat A53, and the turning rod 41 is positioned below the fixed seat 51; the driving motor is connected with the turning rod 41 through a second transmission assembly so as to drive the turning rod 41 to rotate; the slag-raking component 4 is connected with one end of the turning rod 41 extending out of the rotating seat A53.

Specifically, as shown in fig. 3, the turning lever 41 may be rotatably engaged with the rotating seat a53 through a second bearing B55 and a third bearing B56, respectively. In this way, the turning rod 41 can be driven by the rotating seat A53 to rotate, and then the slag-raking component 4 can rotate around the circumference of the fixed seat 51 to rake slag. The turning rod 41 can rotate by itself through the cooperation of the second driving motor and the second transmission assembly to drive the slag-off component 4 to turn over, so that the scum is conveniently retained by turning over after the scum is removed, and the scum is conveniently discharged.

Further, the second transmission assembly may include a second transmission gear B52, a third transmission gear B53, a fourth transmission gear B54, and a second worm B51; the second transmission gear B52 is rotatably arranged in the first through cavity and is positioned above the rotating seat A53; a second through cavity penetrating through the rotating seat A53 is formed at one end part of the rotating seat A53; the third transmission gear B53 is synchronously and rotationally connected with the second transmission gear B52 and is positioned in the second through cavity; the fourth transmission gear B54 is sleeved on the turnover rod 41 and meshed with the third transmission gear B53.

Specifically, the second transmission gear B52 can be rotatably connected with one end of the rotating seat a53 through a rotating support (not shown), wherein the outer ring of the rotating support can be fixedly connected with the rotating seat a53, and the inner ring can be fixedly connected with the second transmission gear B52, so that the second transmission gear B52 can be rotatably installed in the first through cavity through the rotating seat a53 and can be relatively rotatably matched with the rotating seat a 53; of course, other fixing manners can be adopted to rotatably mount the second transmission gear B52 in the first through cavity, and the fixing manner is not limited in particular. Similarly, an avoiding groove which is the same as that for avoiding the first worm a51 can be formed in the fixed seat 51 for avoiding the second worm B51, and the second driving motor drives the second worm B51 to rotate so as to drive the second transmission gear B52 to rotate. The third transmission gear B53 and the fourth transmission gear B54 may be bevel gears, wherein the third transmission gear B53 may be fixedly connected to the second transmission gear B52 through a shaft (not shown), so that the third transmission gear B53 can extend into the second through cavity to be matched with the fourth transmission gear B54. In addition, as with the first driving motor, in order to avoid the influence of the high temperature after the second driving motor is inserted into the melting furnace 8, the second driving motor may be mounted on the lifting mechanism or the extension frame and connected to the first worm a51 through the second connecting shaft B50, which is not limited specifically.

Further, the extension frame comprises at least two support links 3; one end of each of the two support links 3 is connected with the lifting mechanism, and the other end is inserted into a connecting hole formed in the fixing base 51. Taking the number of the support connecting rods 3 as two as an example, the connecting holes on the fixing base 51 can be formed in diagonal angles, so that the two support connecting rods 3 can stably support and fix the fixing base 51. Those skilled in the art can make appropriate changes based on the above without limitation.

Further, as shown in fig. 4 to 6, the slag removing component 4 includes a first plate body 42 and a second plate body 43; the second plate 43 is vertically fixed on the top surface of the first plate 42 along the central line direction of the top surface of the first plate 42; the first plate 42 and the second plate 43 are provided with a plurality of through holes 44. The second plate 43 may be disposed along the center line of the top surface of the first plate 42 and arranged in a T-shape with the first plate 42. So that a space for containing dross is formed between the top surface of the first plate 42 and the side surface of the second plate 43. The corresponding through holes 44 are formed in the first plate 42 and the second plate 43 to filter the molten metal, so as to avoid the molten metal from being scraped off with the floating slag excessively, thereby causing waste.

Further, the lifting mechanism is specifically an electric lifting frame 2. The lifting mechanism can be an existing conventional electric lifting frame 2 mechanism, and also can comprise a guide pillar (not shown), a lifting seat (not shown), a hydraulic shaft cylinder (not shown) and a hydraulic pump (not shown), wherein the lifting seat is provided with a guide hole for the guide pillar to movably penetrate through, the bottom surface of the lifting seat is fixedly connected with one end of a telescopic rod of the hydraulic shaft cylinder, and the hydraulic shaft cylinder is used for driving the lifting seat to move up and down. Those skilled in the art can make appropriate changes based on the above without limitation.

Further, as shown in fig. 1, the apparatus main body is embodied as a moving vehicle 1; also comprises a guide rail bracket 7; the moving vehicle 1 is arranged on the guide rail bracket 7 and matched with the guide rail bracket 7.

In particular, the mobile carriage 1 may be a conventional AGV rail car with which the corresponding rail brackets 7 cooperate and are capable of limiting the path and direction of travel of the AGV rail car. When the guide rail frame 7 is paved, the guide rail frame 7 can be paved on the outer side of the furnace door 9 facing the smelting furnace 8, so that the moving vehicle 1 can move close to or far away from the smelting furnace 8 through the guide rail frame 7. Correspondingly, the control device 6 for controlling the moving vehicle 1 can be arranged on the guide rail bracket 7, so that the operation and control of an operator are facilitated.

Further, as shown in fig. 2, a collector 10 for collecting dross is included. The collector 10 may be a conventional collecting tank, and may be used to collect the scraped scum, and the specific shape and structure are not limited.

The slag removing process of the device is as follows, taking the smelting furnace 8 as a round furnace as an example:

1. as shown in fig. 7, the slag removing component 4 is kept in a regular T-shaped state, and the control device 6 controls the moving vehicle 1 to move in a direction close to the smelting furnace 8, so that the fixed seat 51 can extend into the smelting furnace 8 through the furnace door 9 of the smelting furnace 8;

2. the electric lifting frame 2 is controlled, the height of the slag removing part 4 can be reduced to be consistent with the height of the liquid level in the smelting furnace 8, and slag removing is facilitated.

3. When the smelting furnace is round, as shown in fig. 8-9, the first driving motor is controlled, and the slag removing component 4 rotates in the smelting furnace 8 to remove slag, so that the floating slag on the liquid surface is removed; when the smelting furnace is in a square form, the slag scraping component 4 can be driven by the movement of the moving vehicle 1 to scrape slag as shown in FIGS. 12-13; the person skilled in the art can make appropriate operation changes based on the above without limitation; in addition, when the slag removing component 4 removes slag, the state shown in figure 14 can be achieved, and the slag removing efficiency is better;

4. when the slag-raking component 4 rotates for a circle or more and the slag-raking component 4 rotates to the furnace door 9 again, the second driving motor can be controlled to enable the slag-raking component 4 to rotate to the state shown in fig. 10, so that the slag-raking component 4 can hold floating slag, and the first driving motor is controlled to enable the slag-raking component 4 to rotate to the state parallel to the moving direction of the movable vehicle 1, so that the slag-raking component 4 can conveniently exit from the furnace door;

5. as shown in fig. 11, the collector 10 is placed on the guide rail frame 7 near the oven door 9, the control device 6 moves the moving vehicle 1 backward, the scum removing component 4 carrying scum is moved out of the oven door 9 and is moved to be aligned with the collector 10, the second driving motor is controlled again, the scum removing component 4 is turned over, the scum on the scum removing component 4 can fall into the collector 10, and the scum removing process is completed.

According to the technical scheme, the lifting mechanism is installed on the movable device main body, the lifting mechanism is connected with the rotating mechanism through the extending frame, the rotating mechanism is connected with the overturning mechanism, the overturning mechanism is connected with the slag-off component 4, and therefore the slag-off component 4 can flexibly slag off the smelting liquid level at different heights in the smelting furnace 8, operation is simple, and slag-off efficiency is high.

While the slag raking device provided by the present application has been described in detail, those skilled in the art will appreciate that the scope of the present application is not limited by the description of the embodiments of the present application.

Claims (10)

1. A slag raking device is characterized by comprising: the device comprises a movable device main body, a lifting mechanism, an extension frame, a rotating mechanism, a turnover mechanism and a slag-raking component;

the lifting mechanism is arranged on the device main body and is connected with the rotating mechanism through the extending frame, and the lifting mechanism is used for driving the rotating mechanism to move up and down;

the rotating mechanism is connected with the turnover mechanism and is used for driving the turnover mechanism to rotate;

the turnover mechanism is connected with the slag removing component and is used for driving the slag removing component to turn over.

2. A slag raking device according to claim 1, wherein the rotating mechanism comprises a fixed base, a rotating base, a first drive motor and a first transmission assembly;

the fixed seat is connected with the extension frame, and the top of the fixed seat is provided with a first through cavity penetrating through the fixed seat;

the rotating seat is arranged on the first through cavity and is in rotating fit with the fixed seat;

the first driving motor is connected with the rotating seat through the first transmission assembly to drive the rotating seat to rotate.

3. A slag raking device according to claim 2, wherein the first transmission assembly includes a first transmission gear and a first worm;

the first transmission gear is fixedly sleeved on the outer side wall of one end part of the rotating seat extending into the first through cavity;

the first worm is connected with an output shaft of the first driving motor and extends into the fixed seat to be meshed with the first transmission gear.

4. A slag raking device according to claim 3, wherein the turnover mechanism comprises a second drive motor, a second transmission assembly and a turnover rod;

the overturning rod is horizontally inserted on the rotating seat and is in rotating fit with the rotating seat, and the overturning rod is positioned below the fixed seat;

the driving motor is connected with the turnover rod through the second transmission assembly so as to drive the turnover rod to rotate;

the slag-raking component is connected with one end of the turnover rod extending out of the rotating seat.

5. A slag raking device according to claim 4, wherein the second transmission assembly comprises a second transmission gear, a third transmission gear, a fourth transmission gear and a second worm;

the second transmission gear is rotatably arranged in the first through cavity and is positioned above the rotating seat;

a second through cavity penetrating through the rotating seat is arranged at one end part of the rotating seat;

the third transmission gear is in synchronous rotating connection with the second transmission gear and is positioned in the second through cavity;

the fourth transmission gear is fixedly sleeved on the turnover rod and meshed with the third transmission gear.

6. A slag raking device according to claim 5, wherein the extension carriage includes at least two support links;

one end of each of the two support connecting rods is connected with the lifting mechanism, and the other end of each of the two support connecting rods is inserted into a connecting hole formed in the fixed seat.

7. A slag raking device according to claim 1, wherein the slag raking component comprises a first plate body and a second plate body;

the second plate body is vertically fixed on the top surface of the first plate body along the central line direction of the top surface of the first plate body;

a plurality of through holes are formed in the first plate body and the second plate body.

8. A slag raking device according to claim 1, wherein the lifting mechanism is in particular an electric lifting frame.

9. A slag raking device according to claim 1, wherein the device body is a mobile vehicle;

the device also comprises a guide rail bracket;

the moving frame is arranged on the guide rail frame and matched with the guide rail frame.

10. A slag raking device according to claim 1, further comprising a collector for collecting the dross.

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