CN211195045U - Anode and cathode vibration control device - Google Patents

Abstract

The utility model provides an anode and cathode vibration control device. Anode cathode vibration controlling means includes shaking table, compaction jar, support framework, actuating mechanism, stop gear and complementary unit, the installation intracavity that the shaking table was seted up is installed to the compaction jar, actuating mechanism installs on the roof, actuating mechanism includes threaded rod, threaded connection piece, rotation push rod, weight and driving motor, the threaded rod passes through the mounting bracket and rotates the lower surface of installing at the roof, be equipped with two sections opposite screw threads on the threaded rod, all cup jointed threaded connection's threaded connection piece, two on every section screw thread the mutual symmetry of threaded connection piece sets up, and the bottom of two threaded connection pieces all articulates there is rotation push rod, two rotation push rod's the other end all articulates with the upper surface of weight, the one end of threaded rod and driving motor's output fixed connection. The anode and cathode vibration control device provided by the utility model has the advantages of simple structure and convenient operation.

Description

Anode and cathode vibration control device

Technical Field

The utility model relates to a carbon piece shaping technical field especially relates to an anode-cathode vibration controlling means.

Background

The vibration forming machine is the main equipment for producing prebaked anode carbon blocks, and is also used for producing carbon products such as cathode carbon blocks, electrodes and the like, at present, the domestic prebaked anode carbon block production mainly adopts horizontal vibration forming, the horizontal vibration forming machine adopts a forming mode of bottom vibration and upper counterweight extrusion, and the specification of the produced carbon block is generally below 1.1 ton. With the use of 500kA and 600kA aluminum electrolytic cells, the specification of the carbon block is further increased, the control device of most of the conventional common vibration forming machines has the defects of insufficient vibration force, complex structure and inconvenient operation.

Therefore, it is necessary to provide an anode-cathode vibration control device to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the above technical problems, the utility model provides an anode and cathode vibration control device with simple structure and convenient operation.

The utility model provides an anode and cathode vibration control device includes: a vibration table; the compaction tank is arranged in an installation cavity formed in the vibrating table and is in sliding connection with the installation cavity; the supporting framework is arranged on the vibrating table and comprises supporting columns and a top plate, the four supporting columns with the same specification are fixedly arranged at four corners of the vibrating table, and the top parts of the four supporting columns are fixedly provided with the top plate which is horizontally arranged; the driving mechanism is installed on the top plate and comprises a threaded rod, threaded connecting blocks, rotating push rods, a heavy hammer and a driving motor, the threaded rod is rotatably installed on the lower surface of the top plate through an installation frame, two sections of opposite threads are arranged on the threaded rod, each section of threads is sleeved with the threaded connecting block in threaded connection, the two threaded connecting blocks are symmetrically arranged, the bottoms of the two threaded connecting blocks are hinged with the rotating push rods, the other ends of the two rotating push rods are hinged with the upper surface of the heavy hammer, one end of the threaded rod is fixedly connected with the output end of the driving motor through a coupler, and the driving motor is fixedly installed on the lower surface of the top plate; the limiting mechanism is arranged on the top plate;

and the auxiliary mechanisms with the same specifications are arranged on the vibration table.

Preferably, stop gear includes mounting groove, slide bar and sliding block, the lower surface at the roof is seted up to the mounting groove, and the slide bar that the mounting groove internal fixation has the level to set up, the cover is equipped with two symmetric distribution's sliding block on the slide bar, and two sliding blocks respectively with two adjacent threaded connection piece fixed connection.

Preferably, the auxiliary mechanism comprises a mounting frame and an auxiliary roller, the mounting frame is fixedly mounted on the vibrating table, the mounting frame is provided with the auxiliary roller which is rotatably connected, and the auxiliary roller is slidably connected with the outer side wall of the compaction tank.

Preferably, the auxiliary mechanism is provided with six groups, and the six groups of auxiliary mechanisms are annularly arranged at an installation cavity formed on the vibration table.

Preferably, a plurality of uniformly distributed compression springs are fixedly mounted on the inner bottom wall of the mounting cavity, and the top of each compression spring is fixedly connected with the lower surface of the compaction tank.

Preferably, the auxiliary rollers in the auxiliary mechanism are all sleeved with rubber sleeves.

Compared with the prior art, the utility model provides an anode and cathode vibration controlling means has following beneficial effect:

the utility model provides an anode and cathode vibration controlling means, it drives the threaded rod and rotates to open driving motor, because be equipped with two sections opposite screw threads on the threaded rod, consequently, two threaded connection blocks on the threaded rod slide along the threaded rod in opposite directions, thereby the rotation push rod of threaded connection block bottom promotes the weight downwards, make the weight vibrate the compaction to the material in the compaction jar, the pressure spring of the interior diapire of installation cavity, can guarantee to avoid basically impacting at the vibration forming in-process shaking table, the phenomenon of resonance takes place in having avoided the vibration forming process, thereby obtain the even unanimous charcoal piece of higher bulk density and density, and this equipment simple structure, and convenient operation.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of an anode-cathode vibration control device according to the present invention;

fig. 2 is a schematic structural view of the assist mechanism shown in fig. 1.

Reference numbers in the figures: 1. shaking table, 2, installation cavity, 3, compaction jar, 4, support framework, 41, support column, 42, roof, 5, actuating mechanism, 51, threaded rod, 52, threaded connection piece, 53, rotation push rod, 54, weight, 55, driving motor, 6, stop gear, 61, mounting groove, 62, slide bar, 63, sliding block, 7, pressure spring, 8, complementary unit, 81, mounting bracket, 82, supplementary roller.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Referring to fig. 1 and fig. 2, fig. 1 is a schematic structural diagram of an anode-cathode vibration control device according to a preferred embodiment of the present invention; fig. 2 is a schematic structural view of the assist mechanism shown in fig. 1. The anode-cathode vibration control device includes: the device comprises a vibration table 1, a compaction tank 3, a support framework 4, a driving mechanism 5, a limiting mechanism 6 and an auxiliary mechanism 8.

In the specific implementation process, as shown in fig. 1 and 2, the compacting tank 3 is installed in an installation cavity 2 formed in the vibration table 1 and is slidably connected with the installation cavity 2, the supporting framework 4 is installed on the vibration table 1, the supporting framework 4 includes supporting columns 41 and a top plate 42, the supporting columns 41 with the same specification are fixedly installed at four corners of the vibration table 1, the top portions of the four supporting columns 41 are fixedly installed with the top plate 42 horizontally arranged, the driving mechanism 5 is installed on the top plate 42, the driving mechanism 5 includes a threaded rod 51, a threaded connection block 52, a rotating push rod 53, a heavy hammer 54 and a driving motor 55, the threaded rod 51 is rotatably installed on the lower surface of the top plate 42 through an installation frame, two opposite threads are arranged on the threaded rod 51, each thread is sleeved with a threaded connection block 52 in threaded connection, and the two threaded connection blocks 52 are symmetrically arranged, and the bottoms of the two threaded connecting blocks 52 are hinged with rotating push rods 53, the other ends of the two rotating push rods 53 are hinged with the upper surface of a heavy hammer 54, one end of the threaded rod 51 is fixedly connected with the output end of a driving motor 55 through a coupler, and the driving motor 55 is fixedly installed on the lower surface of the top plate 42.

It should be noted that: the method comprises the steps of mixing anode and cathode carbon block materials, putting the mixture into a compaction tank 3, starting a driving motor 55 to drive a threaded rod 51 to rotate, and driving two sections of opposite threads to be arranged on the threaded rod 51, so that two threaded connecting blocks 52 on the threaded rod 51 slide in opposite directions along the threaded rod 51, a rotating push rod 53 at the bottom of the threaded connecting blocks 52 pushes a heavy hammer 54 downwards, and the heavy hammer 54 vibrates and compacts the materials in the compaction tank 3.

Wherein, the inner bottom wall fixed mounting of installation cavity 2 has a plurality of evenly distributed's pressure spring 7, and the top of each pressure spring 7 all with the lower fixed surface connection of compaction jar 3 to when hammer 54 constantly beats the material, can guarantee to avoid basically impacting at vibration forming in-process shaking table 1, avoided the phenomenon of vibration forming in-process resonance that takes place, thereby obtain the carbon block of higher bulk density and density uniformity.

Referring to fig. 1, the limiting mechanism 6 is installed on the top plate 42, the limiting mechanism 6 includes a mounting groove 61, a sliding rod 62 and a sliding block 63, the mounting groove 61 is opened on the lower surface of the top plate 42, the sliding rod 62 horizontally arranged is fixedly installed in the mounting groove 61, the sliding rod 62 is sleeved with two sliding blocks 63 which are symmetrically distributed, and the two sliding blocks 63 are respectively fixedly connected with the two adjacent threaded connection blocks 52.

It should be noted that: because the sliding block 63 is fixedly connected with the threaded connecting block 52, when the threaded rod 51 rotates, the threaded connecting block 52 cannot swing along with the rotation of the threaded connecting block 52.

Referring to fig. 1 and 2, a plurality of specification is the same the complementary unit 8 sets up on shaking table 1, the complementary unit 8 includes mounting bracket 81 and auxiliary roller 82, mounting bracket 81 fixed mounting is on shaking table 1, and installs the auxiliary roller 82 that rotates the connection on mounting bracket 81, auxiliary roller 82 and compaction jar 3's lateral wall sliding connection, wherein, the complementary unit 8 is equipped with six groups, and six groups of complementary unit 8 annular sets up installation cavity 2 departments of seting up on shaking table 1, and all the cover is equipped with the rubber sleeve on the auxiliary roller 82 in the complementary unit 8.

It should be noted that: when the compaction tank 3 is beaten by the driving mechanism 5, the compaction tank 3 slides downwards along the auxiliary roller 82, so that the phenomenon of uneven distribution of carbon blocks caused by beating of the carbon blocks in the compaction tank 3 is improved.

The utility model discloses circuit and control that relate to are prior art, do not carry out too much repetition here.

In the description of the present invention, 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 of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (6)

1. An anode-cathode vibration control device, comprising:

a vibration table (1);

the compaction tank (3) is arranged in an installation cavity (2) formed in the vibration table (1) and is in sliding connection with the installation cavity (2);

the supporting framework (4) is installed on the vibrating table (1), the supporting framework (4) comprises supporting columns (41) and a top plate (42), the four supporting columns (41) with the same specification are fixedly installed at four corners of the vibrating table (1), and the top parts of the four supporting columns (41) are fixedly provided with the top plate (42) which is horizontally arranged;

a drive mechanism (5), the drive mechanism (5) being mounted on the top plate (42), the driving mechanism (5) comprises a threaded rod (51), a threaded connecting block (52), a rotating push rod (53), a heavy hammer (54) and a driving motor (55), the threaded rod (51) is rotatably mounted on the lower surface of the top plate (42) through a mounting frame, the threaded rod (51) is provided with two sections of opposite threads, each section of the threads is sleeved with a threaded connecting block (52) in threaded connection, the two threaded connecting blocks (52) are arranged symmetrically, the bottoms of the two threaded connecting blocks (52) are hinged with rotating push rods (53), the other ends of the two rotating push rods (53) are hinged with the upper surface of a heavy hammer (54), one end of the threaded rod (51) is fixedly connected with the output end of the driving motor (55) through a coupler, and the driving motor (55) is fixedly arranged on the lower surface of the top plate (42);

the limiting mechanism (6), the limiting mechanism (6) is installed on the top plate (42);

the auxiliary mechanisms (8) are arranged on the vibration table (1), and the specifications of the auxiliary mechanisms (8) are the same.

2. The anode-cathode vibration control device according to claim 1, wherein the limiting mechanism (6) comprises a mounting groove (61), a sliding rod (62) and a sliding block (63), the mounting groove (61) is arranged on the lower surface of the top plate (42), the horizontally arranged sliding rod (62) is fixedly mounted in the mounting groove (61), the two sliding blocks (63) which are symmetrically distributed are sleeved on the sliding rod (62), and the two sliding blocks (63) are respectively fixedly connected with the two adjacent threaded connecting blocks (52).

3. The anode-cathode vibration control device according to claim 1, characterized in that the auxiliary mechanism (8) comprises a mounting frame (81) and an auxiliary roller (82), the mounting frame (81) is fixedly mounted on the vibration table (1), the rotatably connected auxiliary roller (82) is mounted on the mounting frame (81), and the auxiliary roller (82) is slidably connected with the outer side wall of the compaction tank (3).

4. The anode-cathode vibration control device according to claim 1, characterized in that the auxiliary mechanisms (8) are provided with six groups, and the six groups of auxiliary mechanisms (8) are annularly arranged at the installation cavity (2) formed on the vibration table (1).

5. The anode and cathode vibration control device according to claim 1, characterized in that a plurality of uniformly distributed compression springs (7) are fixedly installed on the inner bottom wall of the installation cavity (2), and the top of each compression spring (7) is fixedly connected with the lower surface of the compaction tank (3).

6. The anode-cathode vibration control device according to claim 3, characterized in that the auxiliary rollers (82) in the auxiliary mechanism (8) are all sleeved with rubber sleeves.

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