#Industry News
Effective Methods to Reduce the Noise of Miniature Diaphragm Pumps TOPSFLO Micro DC Pump
Miniature Diaphragm Liquid and Gas Pumps
Miniature diaphragm pump is widely used in various fields such as chemical processing, medical devices, food processing, environmental monitoring and ect.. However, as we all know, the noise generated miniature diaphragm pumps during operation has a negative impact on the working environment and the health of operators.
For example, in the medical industry, micro diaphragm pumps are used to transport medicines, liquid medicines, biological products, etc. Its precise delivery ability and protection of liquids make it an important part of medical equipment. However, the hospital environment usually requires quietness, and the noise generated by micro diaphragm pump may interfere with the work efficiency of medical staff and even affect the rest and treatment of patients. So in this article, we will discuss the source of noise and how to take effective measures to reduce the noise level of diaphragm pumps, thus ensuring production efficiency and the safety and comfort of the working environment.
Like most machinery, micro diaphragm pumps inevitably generate operational noise during operation. Usually, it is crucial to distinguish between actual loudness in decibels and perceived loudness, which depends on the sound characteristics of each component when it is working, such as sharp sound (harsh and unpleasant), noisy sound (multiple mixtures), vibrating sound, etc.
Miniature diaphragm pumps are usually composed of pump heads, diaphragms, valve plates, motors, bearings and other components. Any component may produce a certain amount of noise during operation.
For example, when the motor is running at high speed or under heavy load, the motor will generate running noise and mechanical noise caused by friction with bearings and other components. The opening and closing of the valve under high-frequency operation will also generate vibration and noise. We will discuss feasible measures to reduce noise based on the structure of the pump.
1. Optimize the design structure
The design structure of mini diaphragm pump directly affects its noise level. By optimizing the design, the noise generation can be reduced.
1) Reducing the bearing gap
In miniature diaphragm pumps, the bearing gap in the motor and compressor housing is often the main source of noise. Bearing gap refers to the spacing between the inner and outer rings of the bearing. When the bearing gap is too large, it will cause unstable vibration and friction of the bearing during operation, thereby generating noise. Using higher quality bearings with tighter tolerances can help reduce the noise of the pump.
2) Choosing the right diaphragm material
The elasticity and softness of the diaphragm are crucial to the stable operation of the pump. If the diaphragm is too stiff or not elastic enough, it may cause unstable operation of the pump, increase vibration and noise.
The diaphragm needs to maintain good sealing performance during operation to prevent fluid leakage and pressure loss. If the sealing performance is poor, it may cause the pump to generate additional noise during operation.
Therefore, choosing the right diaphragm material and thickness can minimize vibration transmission and thus reduce noise.
3) Customizing valve material
The valve controls the flow direction and flow rate of the fluid in the diaphragm pump. Its design and working principle directly affect the performance and noise level of the pump. The faster the pump runs, the higher the frequency of the valve hitting the valve seat.
TOPSFLO is committed to optimizing the diaphragm structure, valve plates with excellent sealing performance, and precise bearing structures. TOPSFLO carefully select a series of high-performance materials, such as PP, PPS, PTFE, FKM, FFKM and EPDM. For customizing the core components of the pump, such as diaphragms, valve plates and pump heads. Which ensures that the installation and operation of each item meet the design requirements, which can effectively reduce the contribution of the internal structure to the noise.
2. Adjust working parameters
Adjusting the working parameters of miniature diaphragm pump can effectively reduce noise. For example, reducing the working pressure and flow rate can reduce the vibration and injection sound of the liquid; adjusting the working speed so that it works within the appropriate speed range can also reduce the noise.
3. Use low-noise materials
The housing and pipes of mini diaphragm pump are also one of the sources of noise. Therefore, it is very important to choose low-noise materials to make these parts. Common low-noise materials include rubber, silicone, polyethylene, etc. In addition, sound-absorbing materials such as foam and plastics can be added to the inside of the diaphragm pump housing to further reduce the spread of noise.
4. Reasonable installation
Reasonable installation of miniature diaphragm pumps is also an important measure to reduce noise. When installing the pump, choose a suitable location, away from work areas and crowded places. Take effective sound insulation measures, such as setting up soundproof covers and sound-absorbing walls, to prevent the spread of noise. Ensure that the foundation and supporting structure of the motor are stable and reliable, and reasonably install shock-absorbing devices to reduce the vibration and noise of the diaphragm pump. By adding a silencer at the inlet or outlet of the pump, the sound will be suppressed when passing through the porous material layer, thereby reducing noise and slightly reducing the pump flow.
In summary, the noise generated by diaphragm pumps can be effectively reduced through optimizing the design structure, adjusting the working parameters, using low-noise materials and reasonable installation. With the advancement of science and engineering technology, it is anticipated that the noise issues associated with diaphragm pumps will be further mitigated, leading to an improved working environment and better protection for employee health.