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CN-224229439-U - Electromechanical pipeline installation equipment with shock attenuation falls structure of making an uproar

CN224229439UCN 224229439 UCN224229439 UCN 224229439UCN-224229439-U

Abstract

The utility model belongs to the field of electromechanical installation, and particularly relates to electromechanical pipeline installation equipment with a damping and noise-reducing structure. The support is bottom open-ended cavity structure, and motor drive lead screw makes the sliding table remove, is equipped with electric putter and connects lifter and arc clamp plate on the sliding table, and intraductal lifter and the connection supporting seat and the arc layer board of establishing of cover, shock-absorbing structure realizes through damping vibrating piece, shock-absorbing rod and damping spring, and the structure of making an uproar falls comprises arc acoustical panel and amortization cotton. The utility model can obviously improve the damping effect and the noise reduction performance, has flexible adjustment capability, and is suitable for the pipeline installation requirements under various complex working conditions.

Inventors

  • DING CHAOCHAO
  • Lv Guotuo
  • MA YUFENG
  • Lai Falong
  • ZHAO DONGLIN
  • Long Congfei

Assignees

  • 楷德电子工程设计有限公司

Dates

Publication Date
20260512
Application Date
20250529

Claims (8)

  1. 1. The electromechanical pipeline installation equipment with the shock-absorbing and noise-reducing structure is characterized by comprising a support (1), a sliding table (22), a lifting mechanism, a sleeve (23), a supporting structure, a shock-absorbing structure and a noise-reducing structure, wherein an opening cavity structure is arranged at the bottom of the support (1), an inner groove (21) is arranged in the end portion of the support (1), the output end of the motor (6) is connected with a screw rod through a coupling, the sliding table (22) is slidably assembled outside the screw rod and is slidably connected with the support (1), an electric push rod is arranged on the sliding table (22), the end portion of the electric push rod is fixedly connected with a lifting rod, the bottom end of the lifting rod is fixedly provided with an arc pressing plate, the sleeve (23) is fixed at the bottom of the sliding table (22) and is provided with a notch on one side, the lifting rod is positioned in the sleeve (23), the bottom of the sleeve (23) is fixedly connected with a supporting seat (9), the supporting seat (9) is fixedly provided with an arc supporting plate (14), an inner groove (21) is arranged in the inner portion of the arc supporting plate (14), the shape of the inner groove (21) is matched with the outer diameter of a pipeline (5), the shock-absorbing structure comprises symmetrically arranged supporting bent pipes (17), the supporting bent pipes (17) are fixedly connected with bolts on the support bent pipes (1), the support bent pipes (17) through bolts, the bolts are fixedly arranged on the support bent pipes, the supporting bent pipes (17) and the end portions are fixedly connected with stop blocks (18) and are fixedly connected with the end blocks (18) between the vibration damping blocks (19) and arranged between the vibration damping blocks (19, the shock attenuation pole outside cover is equipped with damping spring (20), the shock attenuation pole middle part is equipped with integrated into one piece's fixed cover, fixed cover movable sleeve is established in jib (3) outside, it includes diaphragm (7) to fall the structure of making an uproar, diaphragm (7) both ends activity articulates there is connecting rod (8), connecting rod (8) other end activity articulates there is connecting rod (10), connecting rod (10) both ends respectively fixed connection slide bar (16) and arc acoustical panel (11), slide bar (16) slidable mounting is inside side seat (15), side seat (15) and supporting seat (9) fixed connection, arc acoustical panel (11) one side bonds has amortization cotton (12).
  2. 2. The electromechanical pipeline installation device with the shock-absorbing and noise-reducing structure according to claim 1, wherein the hanging rod (3) is provided with an installation hole (31), and the diameter of the installation hole (31) is 10 mm.
  3. 3. The device for installing an electromechanical pipeline with a shock-absorbing and noise-reducing structure according to claim 2, wherein the inner surfaces of the arc-shaped pressing plate and the arc-shaped supporting plate (14) are respectively provided with anti-skid grains, the depth of the anti-skid grains is 0.5mm to 1 mm, the width is 2mm to 3 mm, and the interval is 5mm to 8 mm.
  4. 4. The device for installing an electromechanical pipeline with a shock-absorbing and noise-reducing structure according to claim 1, wherein the noise-absorbing cotton (12) is made of high-density polyurethane foam material, and has a thickness of 20 mm to 30 mm.
  5. 5. The electromechanical pipeline installation equipment with the shock absorption and noise reduction structure according to claim 4, wherein the transverse plate (7) drives the arc-shaped silencing plate (11) to move through the connecting rod (8) and the connecting rod (10), and silencing cotton (12) on the arc-shaped silencing plate (11) is used for pressing the joint of the pipeline (5).
  6. 6. The device for installing an electromechanical pipeline with a shock-absorbing and noise-reducing structure according to claim 1, wherein the sliding table (22) moves along the screw rod to adjust the position of the arc-shaped supporting plate (14), and the electric push rod pushes the lifting rod to move up and down to drive the arc-shaped pressing plate to apply pressure to the pipeline (5).
  7. 7. An electromechanical pipeline installation device with a vibration and noise reducing structure according to claim 1, characterised in that the damper rod and damper spring (20) cooperate to absorb vibrational energy, the damping mass (19) sliding between the damping stops (18).
  8. 8. The electromechanical pipeline installation equipment with the shock absorption and noise reduction structure according to claim 1, wherein the supporting bent pipe (17) is fixed on the bracket (1) through bolts and is symmetrically arranged, and an integrally formed fixed sleeve at the middle part of the shock absorption rod is movably sleeved outside the suspender (3).

Description

Electromechanical pipeline installation equipment with shock attenuation falls structure of making an uproar Technical Field The utility model relates to the technical field of medical equipment, in particular to electromechanical pipeline installation equipment with a shock absorption and noise reduction structure. Background In the field of electromechanical installation, the installation and fixation of a pipeline are important links in various projects, especially in a system involving fluid or gas transportation, the stability and reliability of the pipeline directly affect the operation efficiency and safety of the whole system. However, the conventional electromechanical pipeline installation device still has a plurality of defects in practical application, and particularly has remarkable problems in shock absorption and noise reduction. Conventional pipe installations typically rely on rigid brackets or simple fixed structures that, while providing some support, are not attractive in response to vibrations and noise generated during pipe operation. In the operation process of the electromechanical equipment, vibration can be caused by the flow of medium in the pipeline, pressure change and interference of external environment, and the vibration can not only lead to loosening of the connecting part of the pipeline, but also possibly cause noise pollution to the surrounding environment, so that the comfort and the safety of a workplace are affected. In addition, long-term vibration can also accelerate fatigue damage of the pipeline and the connecting parts, shorten the service life of the pipeline and the connecting parts, and increase the maintenance cost. In the prior art, although some damping devices are applied, most damping devices are complex in structure, inconvenient to install, and limited in damping effect, and the actual engineering requirements are difficult to meet. Meanwhile, the noise problem is also a technical problem to be solved in the current electromechanical pipeline installation. The resonance effect caused by vibration during the operation of the pipeline amplifies noise, and particularly under the working condition of high flow rate or high pressure difference, the noise problem is more serious. Although some prior art attempts to reduce noise by adding sound insulation or optimizing the layout of the duct, these methods often address the symptoms but not the root cause, and do not fundamentally address the noise problem caused by the vibration source. Therefore, how to design an electromechanical pipeline installation device capable of effectively absorbing shock and remarkably reducing noise is a technical problem to be solved by those skilled in the art. In summary, the problems of poor damping effect, insufficient noise control capability, complex structure and the like in the prior art limit the performance improvement and wide application of the electromechanical pipeline installation equipment. The electromechanical pipeline installation equipment which is simple in structure, convenient to install and capable of efficiently reducing vibration and noise is developed, and has important practical significance and wide application prospect. Disclosure of utility model Aiming at the defects of the existing electromechanical pipeline installation equipment in the aspects of damping effect, noise control and installation flexibility, the utility model provides the electromechanical pipeline installation equipment with a damping and noise reduction structure. The device solves the technical problems and obviously improves the performance of the device through the cooperation of unique mechanical design and functional components. The utility model provides electromechanical pipeline installation equipment with a shock absorption and noise reduction structure, the whole scheme comprises a bracket, a sliding table, a lifting mechanism, a sleeve, a supporting structure, a damping structure and a noise reduction structure. The support is of a cavity structure with an opening at the bottom and is used for supporting the whole equipment, and a motor is arranged at the end part of the support. The output end of the motor is connected with the screw rod through a coupler, and the sliding table is driven to move along the screw rod. Further, the sliding table is slidably assembled outside the screw rod and is slidably connected with the support. The electric push rod is installed on the sliding table, the end part of the electric push rod is fixedly connected with the lifting rod, and the bottom end of the lifting rod is fixedly provided with the arc-shaped pressing plate for applying pressure to the pipeline to ensure the stability of the pipeline. Particularly, the sleeve is fixed at the bottom of the sliding table, a notch is formed in one side of the sleeve, and the lifting rod is positioned in the sleeve. The bottom end of the sleeve is fixedly connected with a supporting seat, an