CN219932831U - Shock-absorbing structure of outlet bin - Google Patents

Abstract

The utility model discloses a damping structure of an outlet bin, wherein the outlet bin is fixedly arranged on an equipment shell, and a cavity is formed between the equipment shell and a backboard of the outlet bin; arranging a damping block in the cavity, and isolating the outlet bin from the equipment shell by using the damping block to enable the outlet bin to obtain damping; the damping block is fixedly connected with the outlet bin backboard by an adjustable bolt, and the length of the adjustable bolt is adjusted to enable the damping block to be propped against the equipment shell. According to the utility model, the installation reliability of the outlet bin is improved through shock absorption, so that the wiring reliability of equipment is improved, and the potential safety hazard caused by vibration is eliminated.

Description

Shock-absorbing structure of outlet bin

Technical Field

The utility model relates to a damping device, in particular to a damping structure of an outlet bin, which is fixedly arranged on a vibration shell of equipment and used for leading out a power cable.

Background

In some devices, such as waste heat generators in cement plants, an outlet bin is arranged on a generator shell, a power cable is led out through the outlet bin, a generator winding, a power supply bus and a neutral point connecting cable are all arranged in the outlet bin, and the connection between the cables is fastened through a wiring copper plate and a bolt which are arranged in the outlet bin; the outlet bin comprises a bin body and a cover plate, the cover plate is connected with the bin body through bolts, and the bin body back plate is fixedly connected with the generator shell through bolts. In the running process of the generator equipment, the situation that the outlet bin is vibrated and falls off is extremely easy to occur due to the vibration of the unit, so that serious faults such as overheat damage, wiring short circuit and the like are caused by poor contact, and potential safety hazards are brought to the running of the unit; the corresponding situation also occurs for cabinets and control boxes on some running equipments which also have vibrations.

Disclosure of Invention

The utility model aims to avoid the defects in the prior art, and provides the damping structure of the outlet bin, which improves the installation reliability of the outlet bin through damping, further improves the wiring reliability of equipment and eliminates the potential safety hazard caused by vibration.

The utility model adopts the following technical scheme for solving the technical problems:

the outlet bin is an outlet bin fixedly arranged on an equipment shell, and a cavity is formed between the equipment shell and an outlet bin backboard; the method is characterized in that: arranging a damping block in the cavity, and isolating the outlet bin from the equipment shell by using the damping block to enable the outlet bin to obtain damping; the damping block is fixedly connected with the outlet bin backboard by an adjustable bolt, and the length of the adjustable bolt is adjusted to enable the damping block to be propped against the equipment shell.

The damping structure of the outlet bin is also characterized in that: the setting connection structure includes: the outer connecting plate is provided with an outer plate through hole, a columnar body is welded on the outer side of the outer connecting plate, and a threaded hole through hole is formed in the middle shaft of the columnar body; the inner connecting plate is provided with an inner plate through hole, the inner connecting plate and the outer connecting plate are clamped on two sides of the outlet bin backboard, and the adjustable bolt penetrates through the outlet bin backboard and the threaded through hole of the columnar body.

The damping structure of the outlet bin is also characterized in that: the outer connecting plates are provided with outer plate through holes in rows, the inner connecting plates are provided with inner plate through holes in rows correspondingly, the rows of outer plate through holes and inner plate through holes are utilized to correspondingly arrange the rows of shock absorption blocks, and the rows of shock absorption blocks are at least two shock absorption blocks.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model is provided with the damping block, the position of the damping block is adjusted by utilizing the adjustable bolt, the damping block is ensured to be propped against the equipment vibration shell, effective damping is implemented between the equipment vibration shell and the outlet bin, the structure is simple, and the effect is obvious.

2. The utility model uses the clamping structure of the outer connecting plate and the inner connection to fixedly mount on the back plate of the outlet bin, and is easy to assemble and disassemble and easy to maintain.

3. The damping blocks are arranged in rows, so that the structure of the outlet bin is stable.

4. The utility model greatly improves the wiring reliability of the outlet bin and ensures the safe operation of equipment through effective vibration reduction measures.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an exploded view of the shock absorbing structure of the present utility model.

Reference numerals in the drawings: 1 outer connecting plate, 2 inner connecting plate, 3 locking nut, 4 adjustable bolt, 5 snubber block, 6 inner connecting plate, 7 equipment housing, 8 outlet warehouse backplate.

Detailed Description

Referring to fig. 1 and 2, in the present embodiment, the outlet bin of the outlet bin damping structure refers to an outlet bin fixedly disposed on the equipment housing 7, and a cavity is formed between the equipment housing 7 and the outlet bin backboard 8; a damping block 5 is arranged in the cavity, and the damping block 5 is utilized to isolate between the outlet bin and the equipment shell 7, so that the outlet bin is damped; the damping block 5 is fixedly connected with the outlet bin backboard 8 by an adjustable bolt 4, and the length of the adjustable bolt 4 is adjusted to enable the damping block 5 to be propped against the equipment shell 7. In the concrete implementation, the damping block 5 is in threaded connection with the adjustable bolt 4, so that the damping block 5 can be conveniently disassembled, assembled and replaced.

As shown in fig. 2, the setting connection structure includes: the outer connecting plate 1 is provided with an outer plate through hole, the outer side of the outer connecting plate is welded with the columnar body 2, and the center shaft of the columnar body 2 is provided with a threaded hole through hole; the inner connecting plate 6 is provided with an inner plate through hole, the inner connecting plate 6 and the outer connecting plate 1 are clamped on two sides of the outlet bin backboard 8, and the adjustable bolt 4 penetrates through the outlet bin backboard 8 and the threaded through hole of the columnar body 2.

The outer plate through holes are arranged in rows on the outer connecting plate 1, the inner plate through holes are correspondingly arranged in rows on the inner connecting plate 6, the rows of shock absorbing blocks 5 are correspondingly arranged by utilizing the rows of outer plate through holes and the inner plate through holes, and the number of the shock absorbing blocks 5 in the rows is at least two;

when the device is installed, the adjustable bolt 4 is adjusted and locked by the locking nut 3, so that the damping block 5 propped against the device shell 7 obtains pretightening force; when the equipment runs, the elastic deformation of the damping block 5 is utilized to absorb vibration energy, so that the damping effect is achieved, the installation reliability of the outlet bin is greatly improved, the wiring reliability of the equipment is improved, and the potential safety hazard caused by vibration is eliminated.

Claims (3)

1. The outlet bin is an outlet bin fixedly arranged on the equipment shell (7), and a cavity is formed between the equipment shell (7) and an outlet bin backboard (8); the method is characterized in that: a damping block (5) is arranged in the cavity, and the damping block (5) is utilized to isolate between the outlet bin and the equipment shell (7) so as to enable the outlet bin to obtain damping; the damping block (5) is fixedly connected with the outlet bin backboard (8) through an adjustable bolt (4), and the length of the adjustable bolt (4) is adjusted to enable the damping block (5) to be abutted against the equipment shell (7).

2. The outlet bin damping structure according to claim 1, wherein: the setting connection structure includes: the outer connecting plate (1) is provided with an outer plate through hole, the outer side of the outer connecting plate is welded with the columnar body (2), and the center shaft of the columnar body (2) is provided with a threaded hole through hole; the inner connecting plate (6) is provided with an inner plate through hole, the inner connecting plate (6) and the outer connecting plate (1) are clamped on two sides of the outlet bin backboard (8), and the adjustable bolt (4) penetrates through the outlet bin backboard (8) and the threaded through hole of the columnar body (2).

3. The outlet bin damping structure according to claim 2, characterized in that: the outer connecting plates (1) are provided with outer plate through holes in rows, the inner connecting plates (6) are provided with inner plate through holes in rows correspondingly, the rows of shock absorption blocks (5) are correspondingly arranged by utilizing the rows of outer plate through holes and the inner plate through holes, and the rows of shock absorption blocks (5) are at least two shock absorption blocks (5).