CN217355387U - Shock absorption equipment for metallurgical equipment - Google Patents

Abstract

The utility model discloses a metallurgical equipment shock attenuation is equipped relates to metallurgical equipment technical field. The utility model discloses a fixed plate, the channel has been seted up to one side of fixed plate, and the built-in platform that is equipped with of channel has installed four damper between platform and the channel, and the built-in two fixed columns that are equipped with of channel. The utility model discloses an at the built-in damper that is used for carrying out the absorbing to the metallurgical equipment of establishing of fixed plate, reduced the condition that the metallurgical equipment rocked when using and taken place, and then improved the stability of metallurgical equipment when using, the setting of fixed post has realized that the sliding block slides on the fixed column under the drive of first rotation board, has improved the stability of metallurgical equipment when the shock attenuation.

Description

Shock absorption equipment for metallurgical equipment

Technical Field

The utility model belongs to the technical field of the metallurgical equipment, especially, relate to a metallurgical equipment shock attenuation is equipped.

Background

The damping equipment for metallurgical equipment is equipment for damping metallurgical equipment, and metallurgy refers to the process and technology of extracting metal or metal compound from mineral and making metal into metal material with certain performance by various processing methods.

The existing damping equipment for the metallurgical equipment is large in size and complex in structure, and the damping effect can be worsened after the damping equipment is used for a long time.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a metallurgical equipment shock attenuation is equipped, has solved the shock attenuation of current metallurgical equipment and has equipped the poor technical problem of effect.

In order to achieve the purpose, the utility model is realized by the following technical proposal:

a damping device for metallurgical equipment comprises a fixed plate, wherein a channel is formed in one side of the fixed plate, a platform is arranged in the channel, four damping mechanisms are arranged between the platform and the channel, and two first fixing columns are arranged in the channel;

the sliding blocks are in sliding fit with the two sides of the first fixing column, the telescopic plates are in rotating fit with one end of the damping mechanism, and the first rotating plates are in rotating fit with one sides of the sliding blocks and the platform.

Optionally, the shock absorbing mechanism comprises: the first fixing block is arranged in the channel, one end of the first fixing column is arranged on one side of the first fixing block, and the first spring is arranged between the first fixing block and the sliding block.

Optionally, a fixed cylinder is installed on one side of the first fixed block, a sliding rod is slidably matched with one end of the fixed cylinder, a second fixed column is installed at one end of the sliding rod and installed on one side of the platform, and a second spring is installed between the second fixed column and the first fixed block.

Optionally, a second fixed block is installed to one side of second fixed column, and first dead lever is installed to one side of second fixed block, and the expansion plate includes: and one end of the second rotating plate is in sliding fit with a sliding plate.

Optionally, the sliding block is provided with a third fixed block and a fourth fixed block located on one side of the third fixed block, a second fixed rod rotationally matched with one end of the sliding plate is installed on one side of the third fixed block, and a third fixed rod rotationally matched with the first end of the first rotating plate is installed on one side of the fourth fixed block.

Optionally, a fifth fixed block is mounted on one side of the second rotating plate, a sixth fixed block is mounted on one side of the sliding plate, a third spring is mounted between the sixth fixed block and the fifth fixed block, four seventh fixed blocks are mounted on one side of the platform, and a fourth fixed rod rotatably matched with the second end of the first rotating plate is mounted on one side of the seventh fixed block.

The embodiment of the utility model has the following beneficial effects:

the utility model discloses an embodiment is used for carrying out absorbing damper to metallurgical equipment through setting up in the fixed plate, has reduced the condition emergence that metallurgical equipment rocked when using, and then has improved the stability of metallurgical equipment when using, and the setting of fixed post has realized that the sliding block slides on the fixed column under the drive of first rotation board, has improved the stability of metallurgical equipment when the shock attenuation.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

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

fig. 1 is a schematic perspective view of an embodiment of the present invention;

fig. 2 is a schematic view of a platform structure according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a in fig. 2.

Wherein the figures include the following reference numerals:

the fixing device comprises a fixing plate 1, a channel 2, a first fixing block 3, a first fixing column 4, a sliding block 5, a first spring 6, a fixing barrel 7, a sliding rod 8, a second fixing column 9, a second spring 10, a second fixing block 11, a first fixing rod 12, a second rotating plate 13, a sliding plate 14, a fifth fixing block 15, a sixth fixing block 16, a third spring 17, a fourth fixing block 18, a seventh fixing block 19, a third fixing rod 20, a fourth fixing rod 21, a platform 22, a third fixing block 23, a second fixing rod 24 and a first rotating plate 25.

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. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses.

To keep the following description of the embodiments of the present invention clear and concise, a detailed description of known functions and known parts of the invention has been omitted.

Referring to fig. 1 to 3, in the present embodiment, a damping device for a metallurgical equipment is provided, which includes: the damping device comprises a fixed plate 1, wherein a channel 2 is formed in one side of the fixed plate 1, a platform 22 is arranged in the channel 2, four damping mechanisms are arranged between the platform 22 and the channel 2, and two first fixing columns 4 are arranged in the channel 2;

sliding blocks 5 are arranged on two sides of the first fixing column 4 in a sliding fit mode, a telescopic plate is arranged between each sliding block 5 and one end of the damping mechanism in a rotating fit mode, and a first rotating plate 25 is arranged between each sliding block 5 and one side of the platform 22 in a rotating fit mode.

When the metallurgical equipment is installed, the metallurgical equipment is installed on one side of the platform 22, and then the installation of the metallurgical equipment is completed;

when the metallurgical equipment uses, the metallurgical equipment passes through platform 22 and drives damper and move down, and platform 22 drives sliding block 5 through first rotor plate 25 and slides in the week side of first fixed column 4, and sliding block 5 drives damper and upwards moves through the expansion plate, and then accomplishes the shock attenuation of metallurgical equipment through platform 22.

Through being used for carrying out absorbing damper to metallurgical equipment at the built-in equipment of fixed plate 1, reduced the condition emergence that metallurgical equipment rocked when using, and then improved the stability of metallurgical equipment when using, first fixed column 4's setting has realized that sliding block 5 slides on first fixed column 4 under the drive of first rotation board 25, has improved the stability of metallurgical equipment when the shock attenuation.

Referring to fig. 2, the damping mechanism of the present embodiment includes: install first fixed block 3 in channel 2, and first fixed column 4 one end is installed in one side of first fixed block 3, first spring 6 has been installed between first fixed block 3 and the sliding block 5, fixed cylinder 7 has been installed to one side of first fixed block 3, the one end sliding fit of fixed cylinder 7 has slide bar 8, second fixed column 9 has been installed to the one end of slide bar 8, and second fixed column 9 is installed in one side of platform 22, second spring 10 has been installed between second fixed column 9 and the first fixed block 3, the condition that has reduced slide bar 8 and has leaned on when sliding takes place, the stability of slide bar 8 when sliding has been improved.

Referring to fig. 3, in the present embodiment, a second fixed block 11 is installed at one side of a second fixed column 9, a first fixed rod 12 is installed at one side of the second fixed block 11, and the retractable plate includes: a second rotating plate 13 rotatably fitted on the first fixing rod 12, a sliding plate 14 slidably fitted at one end of the second rotating plate 13, a third fixing block 23 mounted on the sliding block 5, a fourth fixing block 18 located at one side of the third fixing block 23, a second fixing rod 24 rotatably fitted at one end of the sliding plate 14 mounted at one side of the third fixing block 23, a third fixing rod 20 rotatably fitted at one side of the fourth fixing block 18, a fifth fixing block 15 mounted at one side of the second rotating plate 13, a sixth fixing block 16 mounted at one side of the sliding plate 14, a third spring 17 mounted between the sixth fixing block 16 and the fifth fixing block 15, four seventh fixing blocks 19 mounted at one side of the platform 22, and a fourth fixing rod 21 rotatably fitted at the second end of the first rotating plate 25 mounted at one side of the seventh fixing block 19, so as to reduce the stability of the first rotating plate 25 during rotation, the stability of the first rotation plate 25 in use is improved.

Example 1: in one aspect of the embodiment, in order to minimize the inclination of the first rotation plate 25 during rotation, the present embodiment provides two alternative embodiments.

Embodiment 1.1, in this embodiment, one end of the first rotating plate 25 is rotatably engaged with the seventh fixing block 19, so that the first rotating plate 25 is less inclined during rotation, and the stability of the first rotating plate 25 during rotation is improved.

Embodiment 1.2, in this embodiment, the other end of the first rotating plate 25 is rotatably engaged with the third fixing rod 20, so that the first rotating plate 25 is prevented from shaking during rotation.

The above embodiments may be combined with each other.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated by the orientation words such as "front, back, up, down, left, right", "horizontal, vertical, horizontal" and "top, bottom" etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and in the case of not making a contrary explanation, these orientation words do not indicate and imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be interpreted as limiting the scope of the present invention; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

Claims (6)

1. A metallurgical equipment damping device, comprising: the damping device comprises a fixed plate (1), wherein a channel (2) is formed in one side of the fixed plate (1), a platform (22) is arranged in the channel (2), four damping mechanisms are arranged between the platform (22) and the channel (2), and two first fixed columns (4) are arranged in the channel (2);

the sliding blocks (5) are in sliding fit with the two sides of the first fixing column (4), the telescopic plates are in rotating fit with one ends of the sliding blocks (5) and the damping mechanisms, and the first rotating plates (25) are in rotating fit with one sides of the sliding blocks (5) and the platform (22).

2. A metallurgical equipment damping device according to claim 1, wherein the damping mechanism comprises: install first fixed block (3) in channel (2), and first fixed column (4) one end is installed in one side of first fixed block (3), has installed first spring (6) between first fixed block (3) and sliding block (5).

3. The damping equipment for metallurgical equipment according to claim 2, characterized in that one side of the first fixed block (3) is provided with a fixed cylinder (7), one end of the fixed cylinder (7) is slidably fitted with a sliding rod (8), one end of the sliding rod (8) is provided with a second fixed column (9), the second fixed column (9) is arranged on one side of the platform (22), and a second spring (10) is arranged between the second fixed column (9) and the first fixed block (3).

4. The metallurgical equipment damping equipment of claim 1, wherein a second fixed block (11) is mounted on one side of the second fixed column (9), a first fixed rod (12) is mounted on one side of the second fixed block (11), and the expansion plate comprises: and a second rotating plate (13) which is rotatably matched on the first fixed rod (12), wherein one end of the second rotating plate (13) is in sliding fit with a sliding plate (14).

5. A damping device for metallurgical equipment, as claimed in claim 4, characterized in that the sliding block (5) is provided with a third fixed block (23) and a fourth fixed block (18) located on the side of the third fixed block (23), wherein a second fixed rod (24) is provided on the side of the third fixed block (23) and rotatably engaged with one end of the sliding plate (14), and a third fixed rod (20) is provided on the side of the fourth fixed block (18) and rotatably engaged with the first end of the first rotating plate (25).

6. A metallurgical equipment damping device according to claim 4, characterized in that the second rotating plate (13) is provided with a fifth fixed block (15) on one side, the sliding plate (14) is provided with a sixth fixed block (16) on one side, a third spring (17) is provided between the sixth fixed block (16) and the fifth fixed block (15), the platform (22) is provided with four seventh fixed blocks (19) on one side, and the seventh fixed block (19) is provided with a fourth fixed rod (21) which is rotatably engaged with the second end of the first rotating plate (25) on one side.

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