CN215638762U - A smelting furnace discharging device for production of balling core-spun yarn - Google Patents

Abstract

The application relates to the technical field of balling core-spun yarn production, discloses a smelting furnace discharging device for balling core-spun yarn production, and it is including holding mechanism and moving mechanism, hold the mechanism with moving mechanism connects, moving mechanism includes drive assembly and two parallel arrangement's slide rail, it connects to hold the mechanism one side on ground is kept away from to the slide rail, drive assembly with sliding linkage, hold the mechanism with drive assembly connects, the drive assembly drive holds the length direction removal that the mechanism followed the slide rail. This application has the effect that improves staff operational safety nature.

Description

A smelting furnace discharging device for production of balling core-spun yarn

Technical Field

The application relates to the field of spheroidizing core-spun yarn production, in particular to a smelting furnace discharging device for spheroidizing core-spun yarn production.

Background

The cored wire is formed by coiling alloy powder with a strip-shaped steel strip. The cored wire can effectively add smelting materials into molten steel or molten iron in the steelmaking or casting process, the cored wire can be inserted into an ideal position through professional wire feeding equipment, the core wire can be fully dissolved and chemically reacted at the ideal position after the surface of the cored wire is melted, the reaction with air and slag is effectively avoided, the absorption rate of the smelting materials is improved, the cored wire can be widely used as a deoxidizer, a desulfurizer and an alloy additive, the form of molten steel inclusions can be changed, and the quality of steelmaking and casting products is effectively improved.

In the production process of the spheroidized core-spun yarn, a smelting furnace is needed to smelt and mix metals such as magnesium, barium and the like to form the required alloy.

At present, the smelting furnace commonly used mostly comprises a frame and a machine body, the machine body is rotatably connected to the frame, a material reversing port is fixedly connected to the machine body, and the material reversing port is communicated with a smelting cavity arranged on the machine body. In the production and processing process of the spheroidized core-spun yarn, after metals such as magnesium, barium and the like are smelted and mixed in a smelting furnace, the metals are poured into an iron containing device, and after the alloy in the containing device is cooled to be solid, a worker takes the alloy out of the containing device for subsequent processing.

In view of the above-mentioned related art, the inventor believes that after the container is filled with the alloy in a molten state, a worker is required to manually remove the container from below the pouring hole, and the defect that the worker is easily injured during the operation is present.

SUMMERY OF THE UTILITY MODEL

In order to reduce the possibility that the staff is injured because of removing the accommodate device, this application provides a smelting furnace discharging device for balling core-spun yarn production.

The application provides a smelting furnace discharging device for production of balling core-spun yarn adopts following technical scheme:

the utility model provides a smelting furnace discharging device for production of balling core-spun yarn, is including holding mechanism and moving mechanism, holding mechanism with moving mechanism connects, moving mechanism includes drive assembly and two parallel arrangement's slide rail, holding mechanism connects one side that ground was kept away from to the slide rail, drive assembly with sliding linkage, holding mechanism with drive assembly connects, drive assembly drive holding mechanism removes along the length direction of slide rail.

Through adopting above-mentioned technical scheme, in the molten alloy pours into receiving mechanism through the discharge gate in the smelting furnace, utilizes receiving mechanism to hold the molten alloy, and receiving mechanism is full of the back, utilizes drive assembly to remove receiving mechanism, makes receiving mechanism leave from connecing the material position, need not that the staff is manual to receiving mechanism remove, improves the security of staff's operation.

Optionally, the accommodating mechanism comprises a base and a plurality of hoppers, the base is connected between the two slide rails, the plurality of hoppers are connected to one side, away from the slide rails, of the base, the plurality of hoppers are arranged along the length direction of the slide rails, and the base is connected with the driving assembly.

By adopting the technical scheme, the alloy in the molten state in the smelting furnace is poured into the hopper through the discharge port, and the alloy in the molten state is held by the hopper; through setting up a plurality of hoppers above the base, after a hopper is full, drive assembly drives the length direction removal of base along the slide rail, makes the hopper full of material leave from the discharge gate below, and empty hopper removes the discharge gate below, continues to connect and gets the material, improves the discharging efficiency of smelting furnace.

Optionally, the drive assembly includes chain, motor and two gears, the motor with slide rail fixed connection, one of them the gear with the coaxial fixed connection of main shaft of motor, another the gear with sliding connection, the base is located two between the gear, the base is rectangular frame structure, chain one end with base length direction's one end is connected, the chain other end is walked around two behind the gear with base length direction's the other end is connected, two the gear all with the chain meshing is connected.

Through adopting above-mentioned technical scheme, the main shaft of motor rotates and drives one of them gear revolve, and two gears rotate under the transmission of chain synchronous, and two gear revolve the in-process and drive the base that wears to establish on the chain and remove.

Optionally, the gear located on one side of the base, which is far away from the motor, is connected with an adjusting assembly, and the adjusting assembly is connected between the two sliding rails.

Through adopting above-mentioned technical scheme, connect adjusting part between two slide rails, utilize adjusting part to adjust the distance between two gears, improve the compact type that gear and chain are connected.

Optionally, the adjusting part includes connecting rod, dead lever and adjusting bolt, the perpendicular fixed connection of dead lever is two between the slide rail, connecting rod sliding connection is two between the slide rail, the connecting rod is located the dead lever is close to one side of base, adjusting bolt with dead lever threaded connection, adjusting bolt's axis of rotation with the length direction of slide rail is parallel, adjusting bolt one end with the connecting rod rotates to be connected, the gear with the connecting rod rotates to be connected.

Through adopting above-mentioned technical scheme, adjusting bolt rotates with the connecting rod to be connected, and adjusting bolt threaded connection rotates adjusting bolt and makes the connecting rod slide along the length direction of slide rail on the dead lever to adjust the distance between two gears, it is convenient that the distance between two gears is adjusted.

Optionally, the side walls at the two ends of the base in the width direction are rotatably connected with a plurality of rollers, and the rollers are connected with the sliding rails.

Through adopting above-mentioned technical scheme, all rotate on the lateral wall at base width direction both ends and connect the gyro wheel, gyro wheel and sliding rail connection reduce the frictional force that holds between mechanism and the slide rail to reduce the wearing and tearing that the slide rail receives, improve the life of slide rail.

Optionally, the roller is close to a baffle fixedly connected to the side wall of the base, and one side of the baffle, which is far away from the base, is abutted to the slide rail.

Through adopting above-mentioned technical scheme, utilize the baffle to restrict the axial motion of gyro wheel, improve the stability of being connected between accommodate the mechanism and the slide rail.

Optionally, two one side that ground was kept away from to the slide rail all is provided with the gag lever post, the gag lever post is located the gyro wheel is kept away from one side of slide rail, wear to be equipped with two positioning bolt on the gag lever post, two positioning bolt is located respectively and is close to the position at gag lever post length direction both ends, positioning bolt passes the gag lever post with slide rail threaded connection, positioning bolt's axis of rotation and two the plane at slide rail place is perpendicular.

Through adopting above-mentioned technical scheme, utilize the gag lever post to restrict the removal of gyro wheel vertical direction, the holding mechanism because of the unstable possibility of toppling over of focus when falling the alloy of molten condition in one of them hopper, improves the stability that holding mechanism used.

In summary, the present application includes at least one of the following beneficial technical effects:

the containing mechanism is connected with the moving mechanism, molten alloy in the smelting furnace is poured into the containing mechanism through the discharge port, the molten alloy is contained by the containing mechanism, and after the containing mechanism is full, the containing mechanism is moved by the driving assembly to be separated from the material receiving position, so that a worker does not need to manually move the containing mechanism, and the operation safety of the worker is improved;

the adjusting assembly is connected between the two sliding rails, and the adjusting assembly is used for adjusting the distance between the two gears, so that the working stability of the driving assembly is improved;

through fixed connection baffle on the lateral wall that the gyro wheel is close to the base, one side and the slide rail butt of base are kept away from to the baffle, utilize the baffle to restrict the axial motion of gyro wheel, improve the stability of being connected between holding mechanism and the slide rail.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Reference numerals: 100. an accommodating mechanism; 110. a base; 120. a hopper; 130. a roller; 131. a baffle plate; 200. a moving mechanism; 210. a drive assembly; 211. a chain; 212. a motor; 213. a gear; 220. a slide rail; 230. an adjustment assembly; 231. a connecting rod; 232. fixing the rod; 233. adjusting the bolt; 240. a limiting rod; 241. and (6) positioning the bolt.

Detailed Description

The present application is described in further detail below with reference to fig. 1.

The embodiment of the application discloses a smelting furnace discharging device for spheroidizing cored wires. Referring to fig. 1, a smelting furnace discharging device for balling cored wire production includes the moving mechanism 200 with the frame fixed connection of smelting furnace, and receiving mechanism 100 is installed to moving mechanism 200 top, utilizes receiving mechanism 100 to hold the molten state metal that the intracavity of smelting poured out, and receiving mechanism 100 is full of the back, utilizes drive assembly 210 to remove receiving mechanism 100, makes receiving mechanism 100 leave from connecing the material position, need not that the staff is manual to remove receiving mechanism 100, improves the security of staff's operation.

Referring to fig. 1, the receiving mechanism 100 includes a base 110, the base 110 has a rectangular frame structure, the base 110 is horizontally disposed, three hoppers 120 for receiving molten alloy are fixedly connected to an upper portion of the base 110, and the three hoppers 120 are disposed at equal intervals along a longitudinal direction of the base 110. By fixedly connecting a plurality of hoppers 120 on the base 110, when the front hopper 120 is full, the base 110 is moved to move the hopper 120 full of material away from the lower part of the discharge hole, and the next hopper 120 continues to receive material; when the material in the previous hopper 120 is cooled, the next hopper 120 continues to receive the material without affecting the discharging of the smelting furnace, and after the alloy in the previous hopper 120 is cooled, a worker takes the alloy out, and the hopper 120 continues to be used, so that the material receiving efficiency of the accommodating mechanism 100 is improved.

Two rollers 130 are rotatably connected to the side walls at the two ends of the base 110 in the width direction, and the rotation axis of the roller 130 is parallel to the width direction of the base 110; one of the rollers 130 is located at a position close to one end of the base 110 in the length direction, the other roller 130 is located at a position close to the other end of the base 110 in the length direction, and a baffle 131 is coaxially and fixedly connected to one side of the roller 130 close to the base 110.

Referring to fig. 1, the moving mechanism 200 includes two parallel sliding rails 220, wherein a side wall of one sliding rail 220 away from the other sliding rail 220 is fixedly connected to the frame. A driving assembly 210 is connected between the two sliding rails 220, the driving assembly 210 comprises a motor 212, the motor 212 is fixedly connected between the two sliding rails 220, and the motor 212 is located at a position close to one end of the sliding rails 220 in the length direction.

An adjusting assembly 230 is further installed between the two sliding rails 220, and the adjusting assembly 230 is located at a position close to one end of the sliding rail 220 far away from the motor 212. The adjusting assembly 230 comprises a fixing rod 232 which is horizontally arranged, the fixing rod 232 is vertically and fixedly connected between the two slide rails 220, an adjusting bolt 233 penetrates through the middle of the fixing rod 232 in the length direction, the adjusting bolt 233 is in threaded connection with the fixing rod 232, the rotation axis of the adjusting bolt 233 is parallel to the length direction of the slide rails 220, one end, close to the motor 212, of the adjusting bolt 233 is rotatably connected with a connecting rod 231, and the connecting rod 231 is slidably connected between the two slide rails 220.

Referring to fig. 1, the driving assembly 210 further includes two gears 213, wherein one gear 213 is rotatably connected above the connecting rod 231, the other gear 213 is coaxially and fixedly connected with the main shaft of the motor 212, the two gears 213 are located in the same plane, and the rotation axis of the gear 213 is parallel to the width direction of the sliding rail 220. The base 110 is located between the two slide rails 220, the length direction of the base 110 is parallel to the length direction of the slide rails 220, the two gears 213 are sleeved with the chain 211, one end of the chain 211 is fixedly connected with one end of the base 110 in the length direction, the other end of the chain 211 bypasses the two gears 213 and then is fixedly connected with the other end of the base 110 in the length direction, and the two gears 213 are all meshed with the chain 211.

Referring to fig. 1, two rollers 130 are rotatably connected to the side walls of the two ends of the base 110 in the width direction, and the rotation axes of the rollers 130 are parallel to the width direction of the base 110; one of the rollers 130 is located at a position close to one end of the base 110 in the length direction, the other roller 130 is located at a position close to the other end of the base 110 in the length direction, and a baffle 131 is coaxially and fixedly connected to one side of the roller 130 close to the base 110; the roller 130 located on the same side of the base 110 in the length direction abuts against the slide rail 220, and the baffle 131 abuts against the side wall of the slide rail 220. The side walls at the two ends of the base 110 in the width direction are rotatably connected with the rollers 130, and the rollers 130 are connected with the sliding rails 220, so that the friction force between the accommodating mechanism 100 and the sliding rails 220 is reduced, the abrasion of the sliding rails 220 is reduced, and the service life of the sliding rails 220 is prolonged; the stopper 131 restricts the axial movement of the roller 130, thereby improving the stability of the connection between the receiving mechanism 100 and the slide rail 220.

When the hopper 120 is full, the main shaft of the motor 212 rotates to drive one of the gears 213 to rotate, the two gears 213 synchronously rotate under the transmission of the chain 211, and the two gears 213 drive the base 110 penetrating the chain 211 to move in the rotating process, so that the hopper 120 full of molten alloy is moved away from the lower part of the material guide member, the hopper 120 does not need to be manually moved by a worker, and the operation safety of the worker is improved. By connecting the adjusting assembly 230 between the two slide rails 220 and rotating the adjusting bolt 233, the connecting rod 231 slides along the length direction of the slide rails 220, so that the distance between the two gears 213 is adjusted, the effect of tensioning the chain 211 is achieved, and the working stability of the driving assembly 210 is improved.

Referring to fig. 1, a limiting assembly is installed above the slide rail 220, the limiting assembly includes a limiting rod 240, the limiting rod 240 and the slide rail 220 are located on the same vertical plane, two positioning bolts 241 are arranged on the limiting rod 240 in a penetrating manner, the two positioning bolts 241 are located at positions close to two ends of the length direction of the limiting rod 240 respectively, the rotation axis of the positioning bolts 241 is vertically arranged, one end, far away from the bolt head, of each positioning bolt 241 penetrates through the limiting rod 240 and then is in threaded connection with the slide rail 220, and the limiting rod 240 abuts against the roller 130. The movement of the roller 130 in the vertical direction is restricted by the stopper rod 240, so that the possibility that the containing mechanism 100 is tilted due to unstable gravity when the molten alloy is tilted into one of the hoppers 120 is reduced, and the stability of the containing mechanism 100 in use is improved.

The embodiment of the application is a smelting furnace discharging device for producing spheroidized core-spun yarns, and the implementation principle is as follows: through setting up receiving mechanism 100 in smelting furnace one side, the alloy of molten state pours into receiving mechanism 100 through the discharge gate in the smelting furnace, utilizes receiving mechanism 100 to hold the molten alloy, and receiving mechanism 100 is full of the back, utilizes drive assembly 210 to remove receiving mechanism 100, makes receiving mechanism 100 leave from connecing the material position, need not that the staff is manual to receiving mechanism 100 remove, improves the security of staff's operation.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a smelting furnace discharging device for production of balling core-spun yarn which characterized in that: including holding mechanism (100) and moving mechanism (200), holding mechanism (100) with moving mechanism (200) are connected, moving mechanism (200) are including drive assembly (210) and two parallel arrangement's slide rail (220), holding mechanism (100) are connected slide rail (220) keep away from the one side on ground, drive assembly (210) with slide rail (220) are connected, holding mechanism (100) with drive assembly (210) are connected, drive assembly (210) drive holding mechanism (100) move along the length direction of slide rail (220).

2. The discharging device of the melting furnace for producing spheroidized core wires according to claim 1, characterized in that: the accommodating mechanism (100) comprises a base (110) and a plurality of hoppers (120), wherein the base (110) is connected between the two sliding rails (220), the hoppers (120) are connected to one side, away from the sliding rails (220), of the base (110), the hoppers (120) are arranged along the length direction of the sliding rails (220), and the base (110) is connected with the driving assembly (210).

3. The discharging device of the melting furnace for producing spheroidized core wires according to claim 2, characterized in that: drive assembly (210) include chain (211), motor (212) and two gear (213), motor (212) with slide rail (220) fixed connection, one of them gear (213) with the coaxial fixed connection of main shaft of motor (212), another gear (213) with slide rail (220) are connected, base (110) are located two between gear (213), base (110) are the rectangular frame structure, chain (211) one end with base (110) length direction's one end is connected, chain (211) other end is walked around two behind gear (213) with base (110) length direction's the other end is connected, two gear (213) all with chain (211) meshing is connected.

4. The discharging device of the melting furnace for producing spheroidized core wires according to claim 3, characterized in that: the gear (213) positioned on one side of the base (110) far away from the motor (212) is connected with an adjusting component (230), and the adjusting component (230) is connected between the two sliding rails (220).

5. The discharging device of the melting furnace for producing spheroidized core wires according to claim 4, characterized in that: adjusting part (230) includes connecting rod (231), dead lever (232) and adjusting bolt (233), dead lever (232) perpendicular fixed connection is two between slide rail (220), connecting rod (231) sliding connection is two between slide rail (220), connecting rod (231) are located dead lever (232) are close to one side of base (110), adjusting bolt (233) with dead lever (232) threaded connection, adjusting bolt (233) the axis of rotation with the length direction of slide rail (220) is parallel, adjusting bolt (233) one end with connecting rod (231) rotate and are connected, gear (213) with connecting rod (231) rotate and are connected.

6. The discharging device of the melting furnace for producing spheroidized core wires according to claim 4, characterized in that: all rotate on the lateral wall at base (110) width direction both ends and be connected with a plurality of gyro wheels (130), gyro wheel (130) with slide rail (220) are connected.

7. The discharging device of the melting furnace for producing spheroidized core wires according to claim 6, characterized in that: the side wall of the roller (130) close to the base (110) is fixedly connected with a baffle (131), and one side, far away from the base (110), of the baffle (131) is abutted to the sliding rail (220).

8. The discharging device of the melting furnace for producing spheroidized core wires according to claim 7, characterized in that: two one side that ground was kept away from in slide rail (220) all is provided with gag lever post (240), gag lever post (240) are located gyro wheel (130) are kept away from one side of slide rail (220), wear to be equipped with two positioning bolt (241) on gag lever post (240), two positioning bolt (241) are located respectively and are close to the position at gag lever post (240) length direction both ends, positioning bolt (241) pass gag lever post (240) with slide rail (220) threaded connection, the axis of rotation and two of positioning bolt (241) the plane at slide rail (220) place is perpendicular.

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