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Equipo de prueba ambiental

Equipo de prueba ambiental

  • What are the customization processes of non-standard test boxes? What are the customization processes of non-standard test boxes?
    Jun 20, 2025
    1. Communicate with manufacturers directly to customize requirements  operating steps : Requirement submission: clear the test object (such as headlights, batteries, sensors, etc.), test scenario (such as simulated extreme cold wading, high temperature and high pressure spraying) and industry specifications (such as automobile, military, electronics); Technology docking: provide product parameters (size, weight), environmental conditions (temperature range, impact frequency) and special requirements (such as salt spray superposition test, dynamic Angle adjustment); Confirmation of the scheme: Based on general standards such as GB, IEC and GJB, and industry specifications such as VW 80101 and ISO 16750, the manufacturer designs customized test procedures and equipment configuration schemes. 2. Adapt to the existing standard framework Manufacturers can expand or adjust based on the following criteria:  national standards : GB/T 28046.4-2011: For the climate load test of automotive electrical equipment, the core parameters such as temperature, time and circulation times of ice water impact are defined; GB/T 2423.1: Environmental test specification for general electrical and electronic products, supporting the design of calibration and verification process.  codes of practice : VW 80101-2005: Volkswagen Electric Components Test Standard, applicable to the refinement of parameters such as spray pressure and water temperature accuracy; GMW3172: General Motors global engineering standard, supporting multi-environment composite testing (such as ice water impact + salt spray corrosion); ISO 16750-4:2006: International common vehicle electrical equipment test framework, compatible with customized cycles (e.g. 100 standard or 200 enhanced). Third, optimize standards by using manufacturers' technical resources Flexible parameter adjustment: Temperature range: standard high temperature range 65~160℃, can be extended to-70℃ to +150℃; Water splashing system: support flow (3~4L/3S or 80L/min), distance (325±25mm adjustable), nozzle type (gap/matrix) and other customization; Intelligent control: the PLC system can customize the temperature switching rate (such as 20 seconds to complete the conversion from extreme cold to high temperature), data acquisition frequency and report format. Function module superposition: Compatible with multiple test requirements such as waterproof (IPX5-6) and dustproof (IP5X-6X); Support dynamic Angle spraying (15 ~75 adjustable), salt spray composite test and other complex scene simulation. 4. Ensure compliance through certification and verification Equipment calibration: the manufacturer provides half-year temperature sensor calibration service, the error is controlled within ±2℃; Third-party verification: it is recommended to certify the temperature change rate, uniformity and other indicators of customized equipment through quality inspection institutions (such as China Electric Power Research Institute, FAW test site); Data traceability: The test chamber supports USB export of test logs, which is convenient for quality traceability and standard iteration. 5. Service support and case reference Technical team: Guangdong Hongzhan cooperates with universities and research institutes to provide whole-process support from demand analysis to standard implementation; Case library invocation: You can refer to the car company case (such as 800V battery pack IPX9K test, intelligent lamp cold and hot cycle verification) to optimize and customize the standard; After-sales guarantee: customized equipment enjoys 1 year warranty and 48 hours door-to-door maintenance to ensure the stability of standard implementation.
    LEER MÁS
  • Working principle of Guangdong Hongzhan dustproof test chamber Working principle of Guangdong Hongzhan dustproof test chamber
    Jun 20, 2025
        The Guangdong Hongzhan Dust Test Chamber is primarily used to simulate natural sand and dust environments, testing the dust resistance of various products. In industries such as electronics, automotive, and aerospace, products may face challenges from sand and dust. If a product's dust resistance is inadequate, sand and dust particles can penetrate the equipment, leading to malfunctions, performance degradation, or even damage. Therefore, accurately assessing a product's dust resistance is crucial, and the Guangdong Hongzhan Dust Test Chamber provides a reliable testing platform for companies. (1) Box structure: combination of robust and durable and sealing The test chamber is constructed from high-quality stainless steel, which not only provides excellent corrosion resistance and protection against sand and dust erosion but also ensures good sealing to prevent sand and dust leakage, maintaining the stability of the testing environment. The interior is meticulously divided into functional areas such as the sample testing zone, sand and dust circulation duct, heating system, and control system, facilitating both operation and maintenance. (2) Dust generation system: accurate simulation of dust environment This is one of the core components of the test chamber. It consists of a sand and dust storage unit, a sand and dust conveying unit, and a sand and dust dispersion unit. The storage unit can hold sand and dust of various sizes and compositions as required by the test. The conveying unit delivers the sand and dust into the test chamber using either a screw conveyor or an air conveying method. The dispersion unit ensures that the conveyed sand and dust is evenly distributed in the air, creating a stable and suitable sand and dust environment for testing, ensuring that each sample is thoroughly tested under uniform conditions. (3) Air circulation system: create stable dust airflow The air circulation system consists of a fan, ducts, and an air filter. The fan provides the necessary power to ensure the air circulates within the test chamber. The ducts guide the airflow effectively, ensuring that the air passes through the sand and dust generation system and the sample testing area, allowing the sand and dust to fully contact the samples. The air filter effectively removes sand and dust particles from the circulating air, protecting the fan and other equipment from damage and extending their lifespan. (4) Control system: intelligent and accurate operation core The control system employs an advanced programmable logic controller (PLC) and a touch screen interface. Operators can easily set and monitor test parameters, such as temperature, humidity, dust concentration, and wind speed, via the touch screen. It also features automatic adjustment capabilities, allowing it to continuously monitor and precisely adjust the various parameters inside the test chamber according to preset values, ensuring that the testing environment always meets the required standards. Additionally, the control system includes fault alarm and protection functions, which can promptly issue warning signals and take protective measures in case of any abnormal conditions, ensuring the safety of both equipment and personnel. (5) Complete workflow: efficient and rigorous testing process   During the preparation phase, operators select appropriate sand and dust particles based on the test requirements and place them in the storage device. They then clean and inspect the test chamber and properly position the samples within the testing area. Once the test chamber is activated, the sand and dust generation system begins to operate, conveying and dispersing the sand and dust into the air. The air circulation system ensures a stable flow of sand and dust air. The control system continuously monitors and adjusts various parameters to maintain a stable test environment. During the sample testing phase, the test chamber operates according to the set schedule  
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  • What should be paid attention to in summer when using the ice water impact test chamber? What should be paid attention to in summer when using the ice water impact test chamber?
    Jun 16, 2025
      When the Guangdong Hongzhan ice water impact test chamber is used in summer, the following matters should be paid special attention to to ensure the stable operation of the equipment and the accuracy of the test results: 1. Environment and heat dissipation management   Enhance ventilation and heat dissipation High temperature in summer is easy to lead to the decrease of equipment heat dissipation efficiency. Ensure that at least 10cm space is reserved around the equipment to promote air circulation. If the equipment adopts air cooling system, the condenser surface dust should be cleaned regularly to prevent poor heat dissipation and overheating of the compressor.Control the environmental temperature and humidity. Avoid placing the equipment in the direct sunlight area. It is recommended that the laboratory temperature be kept at 25±5℃ and the humidity be lower than 85%. High temperature and high humidity environment may accelerate the accumulation of frost or condensation water on the equipment, so it is necessary to increase the dehumidification measures. 2. Refrigeration system maintenance   Water quality and tank management Bacteria are easy to breed in summer, so use deionized water or pure water to avoid hard water scaling and blocking pipes. It is recommended to change the tank water every 3 days, and empty and clean the tank before long-term disuse.Refrigeration efficiency monitoring High temperature environment may lead to overload operation of the refrigeration system. The compressor oil condition should be checked regularly to ensure sufficient refrigerant. If the water temperature exceeds the set value (such as 0~4℃), the machine should be stopped immediately for troubleshooting. 3. Frosting and defrosting treatment   Prevent frost aggravation When the humidity is high in summer, the frost rate inside the equipment may accelerate. It is recommended to perform a manual defrosting process after 10 cycles: set the temperature to 30℃ and keep it for 30 minutes, and then drain water to clean the ice crystals on the evaporator surface. Optimize the test interval to avoid continuous long-term low temperature testing. It is recommended to reserve 15 minutes of buffer time between high temperature (e.g., 160℃) and ice water shock cycle to reduce the impact of thermal stress on the equipment. 4. Adjustment of operation specifications   Parameter setting optimization According to the characteristics of the summer environment, the normal temperature recovery stage time can be shortened appropriately (the reference standard is to complete the temperature switch within 20 seconds), but it must ensure that it meets the requirements of GB/T 2423.1 or ISO16750-4 standards.Safety protection should be strengthened. Anti-freezing gloves and goggles should be worn during operation to avoid the adhesion of hands and low-temperature parts caused by sweating. Before opening the door after high temperature test, the temperature inside the box should be confirmed to be below 50℃ to prevent scalding from hot steam. 5. Emergency and long-term shutdown preparation   Fault response If the equipment has E01 (temperature out of tolerance) or E02 (water level abnormal) alarm, you should immediately cut off the power supply and contact the technical support of the manufacturer. Do not disassemble the refrigeration pipeline by yourself.Long-term protection When not used for more than 7 days, the water tank should be emptied, power should be cut off and dust cover should be covered. At the same time, power should be on for 1 hour every half a month to keep the circuit board dry.   Through the above measures, the impact of high temperature and humidity environment in summer on the ice water shock test chamber can be effectively reduced to ensure the reliability of test data and the service life of the equipment. The specific operation details should be adjusted according to the equipment manual and actual working conditions.
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  • Maintenance methods for constant temperature and humidity test chambers Maintenance methods for constant temperature and humidity test chambers
    Jun 13, 2025
    1. Dust adhering to the condenser can cause the high-pressure switch of the compressor to trip and issue false alarms. Therefore, dust attached to the cooling grid of the condenser can be removed with a vacuum cleaner every month, or by using a hard-bristled brush after turning on the machine, or by blowing it off with a high-pressure air nozzle.2. The area around the machine and the ground at the bottom should be kept clean at all times to prevent a large amount of dust from being sucked into the unit or reducing equipment performance and causing accidents.3. When opening or closing the door or taking samples from the test chamber, do not touch the sealing strip on the door.4. The core of the constant temperature and humidity test chamber - the refrigeration system should be inspected once a year. Check for leaks in the copper tubes and at each joint and interface. If there are any, inform the manufacturer.5. The humidifier and water tank should be cleaned frequently to avoid scaling and affecting steam emission. Clean them after each test. Timely descaling helps extend the lifespan of the humidification tube and ensures smooth water flow. When cleaning, use a copper brush and then rinse with water.6. The distribution room should be cleaned and inspected more than once a year. Loose nodes can put the entire equipment in a dangerous working state, burn out components, cause fires, alarms, and endanger lives.7. The dry and wet bulb wicks should be checked frequently. Replace them promptly if they become hard or dirty. It is recommended to replace them every three months.8. Inspection and maintenance of the water circuit. The water pipes in the water circuit are prone to clogging and leakage. Regularly check for leaks or blockages. If found, remove them promptly or notify the manufacturer.
    LEER MÁS
  • Common faults and treatment methods of constant temperature and humidity test chamber Common faults and treatment methods of constant temperature and humidity test chamber
    Jun 11, 2025
    When operating a constant temperature and humidity test chamber, it is important to be aware of potential issues during the process and ensure proper operation. Improper handling can easily lead to equipment malfunctions. However, over time, some faults will inevitably occur. In this article, we will discuss several common faults and their solutions. Fault: If the temperature does not reach the set value during high-temperature testing, the first step is to check the electrical system and troubleshoot each component. If the temperature in the constant temperature and humidity test chamber rises too slowly, check the air circulation system to ensure the adjustment damper is functioning properly. If the temperature rises too quickly, adjust the PID settings. If the temperature rises too quickly and triggers the over-temperature protection, the controller may be faulty; in this case, replace the control panel or solid-state relay.  Fault: If the constant temperature and humidity test chamber fails to meet the low-temperature test requirements, investigate whether the temperature drops very slowly or if it stabilizes at a certain point before rising again. If the temperature drops very slowly, check if the chamber was dried before the low-temperature test to maintain dryness. Ensure the samples are not placed too densely to prevent inadequate air circulation. After ruling out these issues, consider whether the refrigeration system is malfunctioning; in such cases, seek professional repair from the manufacturer.  Fault: If the constant temperature and humidity test chamber malfunctions during operation, with the control panel displaying a fault message and an audio alarm, the operator can refer to the troubleshooting section of the equipment's user manual to identify the type of fault. Professional maintenance personnel should then perform the necessary repairs to ensure the test proceeds smoothly. Other environmental experimental equipment will have other conditions in use, which need to be dealt with according to the current situation.                                           
    LEER MÁS
  • Dos razones por las que la cámara de prueba de temperatura y humedad constantes no refrigera Dos razones por las que la cámara de prueba de temperatura y humedad constantes no refrigera
    Jun 10, 2025
    Una razón 1. Debido a que la temperatura de la cámara de prueba de temperatura y humedad constantes no se puede mantener, observe si el compresor de refrigeración puede arrancar cuando la cámara de prueba está en funcionamiento y si el compresor puede arrancar cuando el equipo de prueba ambiental está en funcionamiento, lo que indica que el circuito de la fuente de alimentación principal a cada compresor es normal y que el sistema eléctrico no tiene problemas.2. No hay fallas en el sistema eléctrico. Continúe revisando el sistema de refrigeración. Primero, verifique si la presión de escape y succión del compresor de baja temperatura (R23) de los dos conjuntos de unidades de refrigeración es inferior al valor normal, y si la presión de succión está en estado de vacío, lo que indica que la dosis de refrigeración de la unidad de refrigeración principal es insuficiente.3. Toque el tubo de escape y el tubo de succión del compresor R23 con la mano y compruebe que la temperatura del tubo de escape no es alta y la temperatura del tubo de succión no es baja (sin escarcha), lo que también indica que el refrigerante R23 en el host es insuficiente.Otra razón: 1. No se ha determinado la causa de la falla, y se confirma mediante el control de la cámara de prueba de temperatura y humedad constantes. La cámara de prueba cuenta con dos conjuntos de unidades de refrigeración.Una es la unidad principal y la otra, la unidad auxiliar. Cuando la velocidad de enfriamiento es alta, ambas unidades funcionan simultáneamente al inicio de la fase de mantenimiento de temperatura. Una vez que la temperatura se estabiliza, la unidad auxiliar se detiene y la unidad principal mantiene la temperatura. Si se produce una fuga de refrigerante R23 de la unidad principal, su eficiencia de enfriamiento se reducirá significativamente. Durante el proceso de enfriamiento, ambas unidades funcionan simultáneamente, lo que garantiza temperaturas estables y una disminución gradual de la velocidad de enfriamiento. Durante la fase de aislamiento, si la unidad auxiliar se detiene, la unidad principal pierde su función de enfriamiento, lo que provoca un ascenso lento del aire dentro de la cámara de prueba. Cuando la temperatura alcanza un nivel determinado, el sistema de control activa la unidad auxiliar para que se enfríe, tras lo cual se detiene de nuevo. La causa del fallo de producción se identificó como una fuga de refrigerante de baja temperatura (R23) de la unidad principal. Al revisar el sistema de refrigeración en busca de fugas, se encontró una grieta de aproximadamente 1 cm de longitud en el vástago de la válvula solenoide de derivación de gas caliente. Tras reemplazar la válvula solenoide y recargar el sistema con refrigerante, el sistema volvió a funcionar con normalidad. Este análisis muestra que el diagnóstico de fallas se realiza paso a paso, comenzando por los aspectos externos y avanzando hacia el interior, centrándose luego en la electricidad y, finalmente, en la refrigeración. Un conocimiento profundo de los principios y procesos operativos de la cámara de pruebas es esencial para un diagnóstico preciso de fallas.
    LEER MÁS
  • Método de mantenimiento de la cámara de prueba de choque frío y caliente Método de mantenimiento de la cámara de prueba de choque frío y caliente
    Jun 09, 2025
    1. El condensador (o radiador) de la unidad de refrigeración en el cámara de prueba de choque de frío y calor Debe recibir mantenimiento regular para garantizar su limpieza. El polvo adherido al condensador puede provocar la activación del presostato de alta presión del compresor, lo que puede provocar falsas alarmas. El condensador debe limpiarse mensualmente con una aspiradora para eliminar el polvo de la malla de refrigeración. Después de encender la máquina, utilice un cepillo de cerdas duras para limpiarlo o sople el polvo con una boquilla de aire a alta presión.2. Al abrir o cerrar la puerta o sacar el objeto de prueba del horno, no deje que el objeto toque el borde de goma de la puerta para evitar que este se dañe y acorte su vida útil.3. Mantenga el suelo alrededor y debajo del fuselaje limpio en todo momento para evitar accidentes y degradación del rendimiento causados ​​por grandes cantidades de polvo succionado por la unidad.4. El sistema de congelación de la cámara de pruebas de choque de frío y calor es el núcleo de esta máquina. Inspeccione cada seis meses todos los tubos de cobre para detectar fugas y presencia de nieve, así como todas las boquillas y juntas de soldadura. Si detecta una fuga de aceite, informe a la empresa o trátelo directamente.5. El contacto de alta corriente del panel de distribución debe limpiarse y repararse al menos una vez al año en la sala de distribución. Si se afloja, el equipo funcionará de forma peligrosa. En el mejor de los casos, quemará los componentes y, en el peor, provocará incendios, alarmas y lesiones personales. Al limpiar, utilice una aspiradora para eliminar el polvo de la habitación.6. No ajuste a la ligera el valor de ajuste de los dos protectores de sobretemperatura en la caja de distribución de energía de la cámara de prueba de choque de frío y calor. Este valor viene ajustado de fábrica. Este interruptor de protección protege el tubo calefactor contra quemaduras por vacío y la activación de la alarma. El punto de ajuste es de 20 °C a 30 °C.7. Cámara de prueba de choque frío y caliente Cuando se toma el producto de prueba cuando llega el momento, debe estar apagado y el personal debe usar guantes secos, antielectricidad y resistentes a la temperatura para tomar y colocar el producto.8. Limpie y mantenga el interior y el exterior de la cámara de pruebas de choque térmico y frío. 9. Antes de operar la cámara de pruebas de choque térmico y frío, elimine cualquier impureza interna. 10. La sala de distribución eléctrica debe limpiarse al menos una vez al año. Para la limpieza, utilice una aspiradora para eliminar el polvo. El exterior de la cámara debe limpiarse al menos una vez al año con agua jabonosa.
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  • Requisitos para la instalación de la cámara de prueba de pulverización de agua Requisitos para la instalación de la cámara de prueba de pulverización de agua
    Jun 07, 2025
    Este dispositivo se diferencia de los equipos convencionales, por lo que el lugar de instalación debe cumplir los siguientes requisitos especiales:El sitio debe tener amplio espacio para el equipo de prueba y suficiente área de mantenimiento.El laboratorio debe estar equipado con un sistema de suministro de agua. El lugar de instalación debe contar con instalaciones de drenaje ideales, como zanjas y salidas.La fuente de alimentación del dispositivo debe tener un buen sistema de conexión a tierra y una base y cubierta impermeables para evitar fugas eléctricas o descargas eléctricas debido a salpicaduras de agua sobre la fuente de alimentación.La altura del lugar de instalación debe permitir que el dispositivo funcione normalmente y facilitar el mantenimiento y las reparaciones futuras después de la instalación.La temperatura anual en el lugar de instalación debe mantenerse entre 5 y 32 °C, con una humedad relativa que no supere el 85 % y debe haber una ventilación adecuada.La instalación debe realizarse en un entorno libre de polvo. La temperatura ambiente en el lugar de instalación debe evitar cambios bruscos.La instalación debe realizarse sobre una superficie nivelada (utilizando un nivel para garantizar que esté nivelada).La instalación debe realizarse en un lugar alejado de la luz solar directa. La instalación debe estar lejos de materiales inflamables, materiales explosivos y fuentes de calor de alta temperatura. Es mejor no instalar otros equipos en el laboratorio para evitar la corrosión inducida por la humedad.Fuente de agua: agua del grifo municipal.
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