CN212092285U - Low-melting-point oxide sorting device for furnace lining knotting material - Google Patents

Abstract

The utility model discloses a furnace lining is tied off material and is picked except that device with low melting point oxide relates to furnace lining is tied off material processing and is used technical field, utilizes the problem of low melting point oxide screening in the material course of working to the furnace lining is tied off, now proposes following scheme, which comprises a housin, fixedly connected with motor on the top outer wall of casing, first pivot is installed to the output of motor, there is the drive bevel gear through bolted connection in the first pivot, the both sides of drive bevel gear are equipped with driven bevel gear, and mesh transmission between drive bevel gear and the driven bevel gear. The utility model discloses a combination of various structures makes the device not only improve the furnace wall and beats the mixture between knot material and the low melting point oxide to improve the furnace wall and beat abundant reaction between knot material and the low melting point oxide, improve its quality, and this device can beat the knot material to the furnace wall after the processing and carry out the screening of impurity, replace the manual work with machinery, not only improve various efficiency, alleviate various personnel's burden.

Description

Low-melting-point oxide sorting device for furnace lining knotting material

Technical Field

The utility model relates to a furnace lining knot material processing uses technical field, especially relates to a furnace lining knot material is picked up and is removed device with low melting point oxide.

Background

The lining ramming material is acid refractory material for coreless quartz induction furnace, and features high purity of raw material, reasonable gradation, and resistance to fast cooling and heating.

The conventional furnace lining caking material needs to be processed by low-melting-point oxides in the production and processing processes, so that the service life of the furnace lining caking material is prolonged, and the impurities are generally screened in a manual mode after the furnace lining caking material is processed, so that the working mode is low in working efficiency and heavier in burden on workers.

SUMMERY OF THE UTILITY MODEL

The utility model provides a furnace lining is tied up and is picked except that device with low melting point oxide has solved the problem that utilizes low melting point oxide screening in the material course of working of furnace lining is tied up.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a low-melting-point oxide sorting device for a furnace lining binding material comprises a shell, wherein a motor is fixedly connected to the outer wall of the top of the shell, a first rotating shaft is installed at the output end of the motor, a driving bevel gear is connected to the first rotating shaft through a bolt, driven bevel gears are arranged on two sides of the driving bevel gear, the driving bevel gear and the driven bevel gears are in meshing transmission, a second rotating shaft is installed on one side, away from the driving bevel gear, of each driven bevel gear, a driving belt pulley is connected to one end, away from each other, of the second rotating shafts through a bolt, a driven belt pulley is arranged below the driving belt pulley, a third rotating shaft is connected to the driven belt pulley through a bolt, an elliptical disc is installed on the third rotating shaft, a sieve plate is arranged below the elliptical disc, and a rotary disc is connected to one end, the ball hinge has first vaulting pole on the carousel, the top of first vaulting pole articulates there is the second vaulting pole, the bottom of second vaulting pole articulates there is the baffle.

Preferably, the outer walls of the two sides of the motor are connected with supports through bolts, the bottom ends of the supports are welded to the outer wall of the top of the shell, a first slotted hole is formed in the wall of the middle of the top of the shell, the bottom end of the first rotating shaft penetrates through the first slotted hole, and four pairs of stirring blades are arranged on the first rotating shaft at equal intervals.

Preferably, the two sides of the first slotted hole are provided with second slotted holes located on the shell wall of the top of the shell, a feed hopper is installed in each second slotted hole, a support block is welded on the inner wall of the top of the shell, a bearing is installed at the bottom of the support block, and the bearing is connected with the second rotating shaft through bolts.

Preferably, third slotted holes are formed in the shell walls on two sides of the shell, one end, far away from the driven bevel gear, of the second rotating shaft penetrates through the third slotted holes, heating rods are installed on the inner walls on two sides of the shell, and a belt is connected between the driving belt pulley and the driven belt pulley.

Preferably, a fourth slotted hole located on the casing is arranged below the third slotted hole, one end, far away from the driven pulley, of the third rotating shaft penetrates through the fourth slotted hole, sliding grooves are formed in the shell walls of the two sides of the casing, sliding blocks are connected to the inside of the sliding grooves in a sliding mode, one sides, close to the sliding blocks, of the two sliding blocks are welded to the sieve plate, a spring is arranged inside the sliding grooves, and the bottom end of the spring is welded to the sliding blocks.

Preferably, a first inclined plate is arranged inside the shell, a fifth slotted hole is formed in the wall of the middle portion of the first inclined plate, two baffles are hinged in the fifth slotted hole, a sixth slotted hole is formed in the first inclined plate, and the top end of the first stay bar penetrates through the sixth slotted hole.

Preferably, a seventh slotted hole is formed in the wall of the middle part of the bottom of the shell, a discharge pipe is installed in the seventh slotted hole, a second inclined plate located inside the shell is arranged below the sieve plate, and the outer wall of the bottom of the shell is welded to the four supporting columns.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses an installation motor, the combination of first pivot and stirring leaf not only improves the device and beats the mixed degree between knot material and the low melting point oxide to the furnace wall, thereby improve product quality, and the combination of initiative bevel gear, driven bevel gear, the second pivot, drive pulley, driven pulley, oval dish, carousel, first vaulting pole, the second vaulting pole, baffle and sieve is beaten knot material to processing back furnace wall and is carried out the screening of impurity, with mechanical substitution manual work, thereby improve work efficiency, reduce staff's the amount of labour.

To sum up, the utility model discloses a combination of various structures makes the device not only improve the furnace lining and beats the mixture between knot material and the low melting point oxide to improve the furnace lining and beat and fully react between knot material and the low melting point oxide, improve its quality, and this device can beat the knot material to the furnace lining after the processing and carry out the screening of impurity, replace the manual work with machinery, not only improve various efficiency, alleviate various personnel's burden.

Drawings

FIG. 1 is a schematic cross-sectional front view of a low melting point oxide removing device for a lining material of the present invention;

fig. 2 is a schematic view of the working structure of the low melting point oxide removing device for the furnace lining knotting material provided by the present invention.

In the figure: the screen plate comprises a shell 1, a motor 2, a first rotating shaft 3, a driving bevel gear 4, a driven bevel gear 5, a second rotating shaft 6, a driving belt pulley 7, a driven belt pulley 8, an oval disc 9, a rotating disc 10, a first support rod 11, a second support rod 12, a baffle 13 and a screen plate 14.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-2, a low melting point oxide removing device for a lining binding material comprises a housing 1, a motor 2 is fixedly connected to the outer wall of the top of the housing 1, a first rotating shaft 3 is installed at the output end of the motor 2, a driving bevel gear 4 is connected to the first rotating shaft 3 through a bolt, driven bevel gears 5 are arranged on two sides of the driving bevel gear 4, the driving bevel gear 4 and the driven bevel gears 5 are in meshing transmission, a second rotating shaft 6 is installed on one side, away from the driving bevel gear 4, of the two driven bevel gears 5, a driving pulley 7 is connected to the end, away from each other, of the two second rotating shafts 6 through a bolt, a driven pulley 8 is arranged below the driving pulley 7, a third rotating shaft is connected to the driven pulley 8 through a bolt, an elliptical disc 9 is installed on the third rotating shaft, a sieve plate 14 is arranged below the elliptical disc 9, and a rotating disc 10 is, the upper ball of the rotary table 10 is hinged with a first support rod 11, the top end of the first support rod 11 is hinged with a second support rod 12, and the bottom end of the second support rod 12 is hinged with a baffle 13.

The outer walls of two sides of the motor 2 are connected with a bracket through bolts, the bottom end of the bracket is welded on the outer wall of the top of the shell 1, the middle shell wall of the top of the shell 1 is provided with a first slotted hole, the bottom end of the first rotating shaft 3 passes through the first slotted hole, the first rotating shaft 3 is equidistantly provided with four pairs of stirring blades, two sides of the first slotted hole are provided with a second slotted hole positioned on the shell wall of the top of the shell 1, a feed hopper is arranged in the second slotted hole, the inner wall of the top of the shell 1 is welded with a support block, the bottom of the support block is provided with a bearing, the bearing is connected with the second rotating shaft 6 through bolts, the shell walls of two sides of the shell 1 are provided with third slotted holes, one end of the second rotating shaft 6 far away from the driven bevel gear 5 passes through the third slotted hole, the inner walls of two sides of the shell 1 are, the fourth slotted hole is passed to the one end that driven pulley 8 was kept away from in the third pivot, the spout has been seted up on the both sides conch wall of casing 1, the inside sliding connection of spout has the slider, the one side that two sliders are close to mutually welds on sieve 14, the inside of spout is equipped with the spring, the bottom of spring welds on the slider, the inside of casing 1 is equipped with first swash plate, the fifth slotted hole has been seted up on the middle part conch wall of first swash plate, it has two baffles 13 to articulate in the fifth slotted hole, the sixth slotted hole has been seted up on the first swash plate, the sixth slotted hole is passed on the top of first vaulting pole 11, the seventh slotted hole has been seted up on the middle part conch wall of casing 1 bottom, install the discharging pipe in the seventh slotted hole, the below of sieve 14 is equipped with the.

In this embodiment, firstly, the furnace lining caking material and the low melting point oxide are put into the interior of the shell 1 through the feeding hopper, the heating rod is started to heat, the motor 2 is started to drive the first rotating shaft 3 to rotate, the first rotating shaft 3 drives the stirring blade and the driving bevel gear 4 to rotate, the rotation of the stirring blade enables the furnace lining caking material and the low melting point oxide in the shell 1 to be uniformly mixed, so that the furnace lining caking material can fully react, the driving bevel gear 4 and the driven bevel gear 5 are in meshing transmission, so that the second rotating shaft 6 is driven to rotate, the driving belt pulley 7 enables the driven belt pulley 8 to rotate through a belt, so that the third rotating shaft is driven to rotate, so that the elliptical disk 9 and the rotating disk 10 rotate, the sieve plate 14 moves up and down through the rotation of the elliptical disk 9, and the baffle 13 is driven to move through the combination between the first supporting rod 11 and the second supporting rod 12 through the rotation of the rotating, so that the furnace lining ramming material falls onto the sieve plate 14 to sieve the furnace lining ramming material, and impurities and the furnace lining ramming material are respectively taken out through the discharge pipe and the opening on the front surface of the shell 1.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides a furnace wall is tied off material and is picked except device with low melting point oxide, includes casing (1), its characterized in that, fixedly connected with motor (2) on the top outer wall of casing (1), first pivot (3) are installed to the output of motor (2), there is drive bevel gear (4) through bolted connection on first pivot (3), the both sides of drive bevel gear (4) are equipped with driven bevel gear (5), and mesh transmission between drive bevel gear (4) and driven bevel gear (5), two driven bevel gear (5) keep away from one side of drive bevel gear (4) and install second pivot (6), two the one end that keeps away from each other of second pivot (6) has drive pulley (7) through bolted connection, the below of drive pulley (7) is equipped with driven pulley (8), there is the third pivot through bolted connection on driven pulley (8), install oval dish (9) in the third pivot, the below of oval dish (9) is equipped with sieve (14), there is carousel (10) one end that driven pulley (8) were kept away from in the third pivot through bolted connection, it has first vaulting pole (11) to go up the ball joint in carousel (10), the top of first vaulting pole (11) articulates there is second vaulting pole (12), the bottom of second vaulting pole (12) articulates there is baffle (13).

2. The removing device for the low melting point oxide used for the furnace lining knotting material according to claim 1, wherein supports are connected to outer walls of two sides of the motor (2) through bolts, bottom ends of the supports are welded to outer walls of the top of the shell (1), a first slot is formed in a middle wall of the top of the shell (1), a bottom end of the first rotating shaft (3) penetrates through the first slot, and four pairs of stirring blades are equidistantly arranged on the first rotating shaft (3).

3. The removing device for the low melting point oxide used for the lining bonding material according to claim 2, characterized in that second slots located on the top wall of the shell (1) are arranged on two sides of the first slot, a feed hopper is installed in the second slots, a support block is welded on the inner wall of the top of the shell (1), a bearing is installed at the bottom of the support block, and the bearing is connected with the second rotating shaft (6) through a bolt.

4. The removing device for the low melting point oxide used for the lining bonding material according to claim 1, wherein third slotted holes are formed in the shell walls of two sides of the shell (1), one end, far away from the driven bevel gear (5), of the second rotating shaft (6) penetrates through the third slotted holes, heating rods are installed on the inner walls of the two sides of the shell (1), and a belt is connected between the driving pulley (7) and the driven pulley (8).

5. The removing device for the low melting point oxide used for the lining bonding material according to claim 4, wherein a fourth slot hole located on the shell (1) is arranged below the third slot hole, one end of the third rotating shaft far away from the driven pulley (8) passes through the fourth slot hole, sliding grooves are formed in the shell walls on two sides of the shell (1), sliding blocks are connected to the inside of the sliding grooves in a sliding mode, one sides, close to the two sliding blocks, of the sliding grooves are welded on the sieve plate (14), a spring is arranged inside the sliding grooves, and the bottom end of the spring is welded on the sliding blocks.

6. The removing device for the low melting point oxide used for the furnace lining knotting material according to claim 1, wherein a first inclined plate is arranged inside the shell (1), a fifth slot is formed in the middle shell wall of the first inclined plate, two baffles (13) are hinged in the fifth slot, a sixth slot is formed in the first inclined plate, and the top end of the first stay bar (11) passes through the sixth slot.

7. The removing device for the low melting point oxide used for the lining bonding material according to claim 1, wherein a seventh slot hole is formed in the middle wall of the bottom of the shell (1), a discharge pipe is installed in the seventh slot hole, a second inclined plate located inside the shell (1) is arranged below the sieve plate (14), and the outer wall of the bottom of the shell (1) is welded to four pillars.

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