| Housing width, approx. | 384.37 mm |
| Housing height | 309.95 mm |
| Housing depth | 2.5 to 51.2 mm |
Industrial monitors
1 - 2
| Housing width, approx. | 410.4 mm |
| Housing height | 340.4 mm |
| Housing depth | 2.5 to 43.7 mm |
Industrial monitors: Robustness and efficiency for demanding use
The requirements for monitors in industrial environments are often significantly higher than in conventional office or home applications. Industrial monitors must not only withstand daily stresses, but also function reliably in environments with strong vibrations, high temperatures or dust exposure. In addition, they must offer high image quality and intuitive operation to optimally support the work process.
A key feature of industrial monitors is their robustness. They are usually equipped with a resistant housing that can absorb shocks and vibrations. This prevents the sensitive electronics from being damaged and extends the life of the monitor. In addition, they are often certified to industry standards such as IP65 or IP67, which means they are dustproof and waterproof. This is particularly important in environments with high dust loads or in areas where moisture plays a role, such as in the food industry.
Another crucial factor in industrial monitors is their efficiency. They must be able to deliver a clear and sharp image even in difficult lighting conditions. They are often equipped with particularly bright displays to ensure good readability even in direct sunlight. In addition, they often offer a high resolution and a wide viewing angle to make it easier to operate and work with the monitors.
In addition to durability and image quality, operation also plays an important role. Industrial monitors must be easy and intuitive to use so as not to hinder the work process. They are often equipped with touchscreens that enable fast and precise input. In addition, they often offer a variety of interfaces to enable easy integration into existing systems. This can be, for example, an RS232 interface for communication with other devices or an Ethernet interface for connection to a network.
Overall, industrial monitors offer an optimal solution for use in demanding environments. Their robustness, efficiency and ease of use make them indispensable tools for many companies. Whether in the automotive industry, logistics or the chemical sector - wherever a reliable and durable display solution is required, industrial monitors are the right choice.
The continuous development of industrial monitors ensures that they meet the increasing requirements of the industry. The use of new technologies such as OLED displays or capacitive touchscreens further improves image quality and operation. This means that companies can be sure that they can continue to rely on reliable and efficient industrial monitors in the future.
The requirements for monitors in industrial environments are often significantly higher than in conventional office or home applications. Industrial monitors must not only withstand daily stresses, but also function reliably in environments with strong vibrations, high temperatures or dust exposure. In addition, they must offer high image quality and intuitive operation to optimally support the work process.
A key feature of industrial monitors is their robustness. They are usually equipped with a resistant housing that can absorb shocks and vibrations. This prevents the sensitive electronics from being damaged and extends the life of the monitor. In addition, they are often certified to industry standards such as IP65 or IP67, which means they are dustproof and waterproof. This is particularly important in environments with high dust loads or in areas where moisture plays a role, such as in the food industry.
Another crucial factor in industrial monitors is their efficiency. They must be able to deliver a clear and sharp image even in difficult lighting conditions. They are often equipped with particularly bright displays to ensure good readability even in direct sunlight. In addition, they often offer a high resolution and a wide viewing angle to make it easier to operate and work with the monitors.
In addition to durability and image quality, operation also plays an important role. Industrial monitors must be easy and intuitive to use so as not to hinder the work process. They are often equipped with touchscreens that enable fast and precise input. In addition, they often offer a variety of interfaces to enable easy integration into existing systems. This can be, for example, an RS232 interface for communication with other devices or an Ethernet interface for connection to a network.
Overall, industrial monitors offer an optimal solution for use in demanding environments. Their robustness, efficiency and ease of use make them indispensable tools for many companies. Whether in the automotive industry, logistics or the chemical sector - wherever a reliable and durable display solution is required, industrial monitors are the right choice.
The continuous development of industrial monitors ensures that they meet the increasing requirements of the industry. The use of new technologies such as OLED displays or capacitive touchscreens further improves image quality and operation. This means that companies can be sure that they can continue to rely on reliable and efficient industrial monitors in the future.
What are industrial monitors and what are they used for?
Industrial monitors are screens specially developed for use in industrial environments. They are characterized by their robustness and reliability and are suitable for use in dusty, damp or extreme temperature conditions.
Industrial monitors are used in various industrial applications, including production lines, machine controls, monitoring systems, warehouse management systems, automation technology and process control. They are used to display important information such as production data, alarms, monitoring images or control interfaces in real time.
The industrial monitors often offer advanced features such as high brightness for use outdoors or in strong ambient light, touchscreen technology for intuitive operation, IP protection class for protection against dust and water, shock and vibration resistance as well as extended connection options for various industrial applications.
Overall, industrial monitors are designed to meet the specific requirements and conditions of industrial environments and offer reliable and durable performance.
Industrial monitors are used in various industrial applications, including production lines, machine controls, monitoring systems, warehouse management systems, automation technology and process control. They are used to display important information such as production data, alarms, monitoring images or control interfaces in real time.
The industrial monitors often offer advanced features such as high brightness for use outdoors or in strong ambient light, touchscreen technology for intuitive operation, IP protection class for protection against dust and water, shock and vibration resistance as well as extended connection options for various industrial applications.
Overall, industrial monitors are designed to meet the specific requirements and conditions of industrial environments and offer reliable and durable performance.
What special attributes characterize industrial monitors compared to conventional monitors?
Industrial monitors are characterized by several special attributes compared to conventional monitors:
1. Robustness: Industrial monitors are generally built much more robustly to withstand the demanding conditions in industrial environments. They are shock and vibration resistant and can often be used in extreme temperatures or in dusty and damp environments.
2. Longevity: Industrial monitors are designed for continuous use and have a longer service life than conventional monitors. They are designed to work continuously and reliably, even under high loads.
3. Protection against environmental influences: Industrial monitors are often equipped with special protective functions to protect them from environmental influences such as water, dust or chemical substances. For example, they can be waterproof or dustproof and have an IP protection class.
4. Adaptability: Industrial monitors often offer a wide range of connection options and can be connected to various industrial and automation systems. They often also support special interfaces and protocols that are frequently used in industrial environments.
5. Brightness and contrast: Industrial monitors are generally brighter and have a higher contrast than conventional monitors. This makes the display easier to read, even in strong ambient light or in dark environments.
6. Touch screen functionality: Many industrial monitors have touchscreen functionality to enable intuitive operation. This is particularly advantageous in industrial environments where a keyboard and mouse may not be practical.
7. Flexibility during assembly: Industrial monitors often offer various mounting options, such as VESA mounting or panel mounting. This enables flexible integration into various industrial applications and systems.
These special attributes make industrial monitors a suitable choice for use in industrial environments where conventional monitors may not be able to meet the requirements.
1. Robustness: Industrial monitors are generally built much more robustly to withstand the demanding conditions in industrial environments. They are shock and vibration resistant and can often be used in extreme temperatures or in dusty and damp environments.
2. Longevity: Industrial monitors are designed for continuous use and have a longer service life than conventional monitors. They are designed to work continuously and reliably, even under high loads.
3. Protection against environmental influences: Industrial monitors are often equipped with special protective functions to protect them from environmental influences such as water, dust or chemical substances. For example, they can be waterproof or dustproof and have an IP protection class.
4. Adaptability: Industrial monitors often offer a wide range of connection options and can be connected to various industrial and automation systems. They often also support special interfaces and protocols that are frequently used in industrial environments.
5. Brightness and contrast: Industrial monitors are generally brighter and have a higher contrast than conventional monitors. This makes the display easier to read, even in strong ambient light or in dark environments.
6. Touch screen functionality: Many industrial monitors have touchscreen functionality to enable intuitive operation. This is particularly advantageous in industrial environments where a keyboard and mouse may not be practical.
7. Flexibility during assembly: Industrial monitors often offer various mounting options, such as VESA mounting or panel mounting. This enables flexible integration into various industrial applications and systems.
These special attributes make industrial monitors a suitable choice for use in industrial environments where conventional monitors may not be able to meet the requirements.
What advantages do industrial monitors offer in industrial environments?
Industrial monitors offer several advantages in industrial environments:
1. Robustness: Industrial monitors are specially developed for use in harsh environments. They are generally dust and waterproof and can also withstand extreme temperatures, vibrations and shocks.
2. Longevity: Industrial monitors are designed for continuous use and have a long service life. They are generally equipped with high-quality components that guarantee reliable and stable performance.
3. High brightness: Industrial monitors often have a high brightness so that they are easy to read even in strong ambient light. This is particularly important in environments with bright daylight or in outdoor areas.
4. Touch functions: Many industrial monitors have touchscreen functions that enable intuitive operation. This is particularly practical in industrial environments where gloves are worn or operation with a pen is required.
5. Adaptability: Industrial monitors can often be adapted to specific requirements. They offer various mounting options such as wall, ceiling or table mounting and can be equipped with various interfaces such as VGA, DVI, HDMI or Ethernet.
6. Protection against electromagnetic interference: Industrial monitors are often shielded against electromagnetic interference to ensure reliable operation in environments with strong electromagnetic fields.
7. Compatibility with industrial PCs: Industrial monitors are often compatible with industrial PCs and can be seamlessly integrated into existing industrial automation systems.
Overall, industrial monitors offer a reliable and robust solution for use in industrial environments where conventional monitors would not be sufficient.
1. Robustness: Industrial monitors are specially developed for use in harsh environments. They are generally dust and waterproof and can also withstand extreme temperatures, vibrations and shocks.
2. Longevity: Industrial monitors are designed for continuous use and have a long service life. They are generally equipped with high-quality components that guarantee reliable and stable performance.
3. High brightness: Industrial monitors often have a high brightness so that they are easy to read even in strong ambient light. This is particularly important in environments with bright daylight or in outdoor areas.
4. Touch functions: Many industrial monitors have touchscreen functions that enable intuitive operation. This is particularly practical in industrial environments where gloves are worn or operation with a pen is required.
5. Adaptability: Industrial monitors can often be adapted to specific requirements. They offer various mounting options such as wall, ceiling or table mounting and can be equipped with various interfaces such as VGA, DVI, HDMI or Ethernet.
6. Protection against electromagnetic interference: Industrial monitors are often shielded against electromagnetic interference to ensure reliable operation in environments with strong electromagnetic fields.
7. Compatibility with industrial PCs: Industrial monitors are often compatible with industrial PCs and can be seamlessly integrated into existing industrial automation systems.
Overall, industrial monitors offer a reliable and robust solution for use in industrial environments where conventional monitors would not be sufficient.
What different types of industrial monitors are there and how do they differ from each other?
There are different types of industrial monitors that differ in terms of their functions, attributes and applications. Here are some of the most common types of industrial monitors:
1. Industrial PC monitors: These monitors are often used in industrial computers or machines and are robust and resistant to environmental conditions such as vibrations, dust and moisture. They are usually equipped with touchscreen technology and can be available in different sizes.
2. Panel PC monitors: These monitors combine an industrial panel PC with a touchscreen monitor. They are space-saving and offer an integrated solution for industrial applications where both a PC and a monitor are required.
3. Open-frame monitors: These monitors have no housing and are often used in special industrial applications where the monitor needs to be integrated into an existing system or machine. They are flexible to install and can be adapted to individual requirements.
4. Rackmount monitors: These monitors are specially designed for installation in 19-inch racks and offer a space-saving solution for industrial applications where a high density of devices is required. They are available in various sizes and configurations.
5. High-brightness monitors: These monitors are designed for use in high-brightness environments, such as outdoors or in well-lit interiors. They offer improved visibility in direct sunlight or strong ambient light.
6. Touchscreen monitors: These monitors are equipped with a touchscreen function and enable intuitive operation by touching the screen. They are available in various technologies, such as resistive, capacitive or infrared.
7. Protective glass monitors: These monitors are equipped with a special protective glass to protect the screen from damage caused by scratches, impacts or chemical substances. They are particularly popular in environments with a high risk of damage, such as in production or public areas.
These are just a few examples of different types of industrial monitors. Depending on the specific application and requirements, further distinctions and categories may exist.
1. Industrial PC monitors: These monitors are often used in industrial computers or machines and are robust and resistant to environmental conditions such as vibrations, dust and moisture. They are usually equipped with touchscreen technology and can be available in different sizes.
2. Panel PC monitors: These monitors combine an industrial panel PC with a touchscreen monitor. They are space-saving and offer an integrated solution for industrial applications where both a PC and a monitor are required.
3. Open-frame monitors: These monitors have no housing and are often used in special industrial applications where the monitor needs to be integrated into an existing system or machine. They are flexible to install and can be adapted to individual requirements.
4. Rackmount monitors: These monitors are specially designed for installation in 19-inch racks and offer a space-saving solution for industrial applications where a high density of devices is required. They are available in various sizes and configurations.
5. High-brightness monitors: These monitors are designed for use in high-brightness environments, such as outdoors or in well-lit interiors. They offer improved visibility in direct sunlight or strong ambient light.
6. Touchscreen monitors: These monitors are equipped with a touchscreen function and enable intuitive operation by touching the screen. They are available in various technologies, such as resistive, capacitive or infrared.
7. Protective glass monitors: These monitors are equipped with a special protective glass to protect the screen from damage caused by scratches, impacts or chemical substances. They are particularly popular in environments with a high risk of damage, such as in production or public areas.
These are just a few examples of different types of industrial monitors. Depending on the specific application and requirements, further distinctions and categories may exist.
What technical specifications are important when choosing an industrial monitor?
Various technical specifications are important when selecting an industrial monitor. Here are some of them:
1. Screen size: The screen size should correspond to the requirements of the respective application. Depending on the application, a smaller or larger screen may be required.
2. Resolution: The resolution of the monitor determines the picture quality. A higher resolution means a sharper display of text and images. Industrial monitors should generally have at least a full HD resolution (1920 x 1080 pixels).
3. Brightness and contrast: Industrial monitors should have a high level of brightness and contrast so that they are easy to read even in strong ambient light or difficult lighting conditions.
4. Touch screen functionality: In many industrial applications, touchscreen functionality is required to enable simple and intuitive operation. The monitor should therefore have a reliable and robust touchscreen.
5. Protection class: Industrial monitors should have the correct protection class depending on the ambient conditions and location. This can be an IP protection class (e.g. IP65) for protection against dust and water or an IK protection class for protection against mechanical impacts.
6. Connection options: The monitor should have sufficient connection options to be able to communicate with other devices and systems in the industry. These often include VGA, DVI, HDMI or DisplayPort connections.
7. Robustness and durability: Industrial monitors generally need to be robust and durable to withstand the harsh conditions in industrial environments. This can be guaranteed by a stable construction, shock and vibration-resistant attributes and a long service life.
8. Temperature range: Industrial monitors should have an extended temperature range in order to function reliably even at extreme temperatures. This is particularly important in environments with high or low temperatures.
9. Certifications: Depending on the area of application, certain certifications may be required to ensure compliance with industry standards or safety regulations. Examples of this include UL certification for North America or ATEX certification for potentially explosive environments.
These technical specifications may vary depending on the area of application and individual requirements. It is important to consider the specific needs of each industry in order to select the right industrial monitor.
1. Screen size: The screen size should correspond to the requirements of the respective application. Depending on the application, a smaller or larger screen may be required.
2. Resolution: The resolution of the monitor determines the picture quality. A higher resolution means a sharper display of text and images. Industrial monitors should generally have at least a full HD resolution (1920 x 1080 pixels).
3. Brightness and contrast: Industrial monitors should have a high level of brightness and contrast so that they are easy to read even in strong ambient light or difficult lighting conditions.
4. Touch screen functionality: In many industrial applications, touchscreen functionality is required to enable simple and intuitive operation. The monitor should therefore have a reliable and robust touchscreen.
5. Protection class: Industrial monitors should have the correct protection class depending on the ambient conditions and location. This can be an IP protection class (e.g. IP65) for protection against dust and water or an IK protection class for protection against mechanical impacts.
6. Connection options: The monitor should have sufficient connection options to be able to communicate with other devices and systems in the industry. These often include VGA, DVI, HDMI or DisplayPort connections.
7. Robustness and durability: Industrial monitors generally need to be robust and durable to withstand the harsh conditions in industrial environments. This can be guaranteed by a stable construction, shock and vibration-resistant attributes and a long service life.
8. Temperature range: Industrial monitors should have an extended temperature range in order to function reliably even at extreme temperatures. This is particularly important in environments with high or low temperatures.
9. Certifications: Depending on the area of application, certain certifications may be required to ensure compliance with industry standards or safety regulations. Examples of this include UL certification for North America or ATEX certification for potentially explosive environments.
These technical specifications may vary depending on the area of application and individual requirements. It is important to consider the specific needs of each industry in order to select the right industrial monitor.
How can industrial monitors contribute to increasing efficiency and improving quality in industrial production?
Industrial monitors can contribute in various ways to increasing efficiency and improving quality in industrial production:
1. Real-time monitoring: Industrial monitors enable operational staff to monitor the production process in real time. This enables them to recognize potential problems or bottlenecks at an early stage and react accordingly.
2. Visualization of data: By displaying data and process information in the form of graphics or diagrams, industrial monitors can make complex information easy to understand. This allows employees to better analyze production data and enables faster and more informed decision-making.
3. Error detection and correction: Industrial monitors can be used to detect errors or deviations in the production process. By integrating fault detection algorithms, industrial monitors can automatically identify anomalies and send notifications to the operating personnel. This allows errors to be rectified more quickly and product quality to be improved.
4. Process optimization: Industrial monitors provide real-time data on the production process, making it possible to identify bottlenecks or inefficient processes. By analyzing this data, optimizations can be made to increase productivity and efficiency.
5. Training and education: Industrial monitors can also be used for training purposes to introduce new employees to production processes or to train existing employees. By providing visual instructions and training materials, industrial monitors can reduce training time and increase employee efficiency.
Overall, industrial monitors help to monitor the production process, detect and rectify faults, increase productivity and improve product quality. By providing real-time data and visual information, they enable more efficient and higher-quality industrial production.
1. Real-time monitoring: Industrial monitors enable operational staff to monitor the production process in real time. This enables them to recognize potential problems or bottlenecks at an early stage and react accordingly.
2. Visualization of data: By displaying data and process information in the form of graphics or diagrams, industrial monitors can make complex information easy to understand. This allows employees to better analyze production data and enables faster and more informed decision-making.
3. Error detection and correction: Industrial monitors can be used to detect errors or deviations in the production process. By integrating fault detection algorithms, industrial monitors can automatically identify anomalies and send notifications to the operating personnel. This allows errors to be rectified more quickly and product quality to be improved.
4. Process optimization: Industrial monitors provide real-time data on the production process, making it possible to identify bottlenecks or inefficient processes. By analyzing this data, optimizations can be made to increase productivity and efficiency.
5. Training and education: Industrial monitors can also be used for training purposes to introduce new employees to production processes or to train existing employees. By providing visual instructions and training materials, industrial monitors can reduce training time and increase employee efficiency.
Overall, industrial monitors help to monitor the production process, detect and rectify faults, increase productivity and improve product quality. By providing real-time data and visual information, they enable more efficient and higher-quality industrial production.
What challenges arise when integrating industrial monitors into existing production processes?
Various challenges can arise when integrating industrial monitors into existing production processes. Some of them are:
1. Compatibility: It can be difficult to seamlessly integrate industrial monitors into existing production processes, especially if they need to communicate with existing machines and systems. It may be necessary to adapt interfaces or install additional hardware.
2. Robustness: Industrial monitors must be able to withstand the harsh conditions of a production environment, such as vibrations, dust, humidity or high temperatures. They must be robust enough to avoid failures and ensure continuous performance.
3. Space requirement: Space can be limited in production environments. When integrating industrial monitors, space restrictions must therefore often be taken into account in order to ensure optimum placement and visibility without impairing production processes.
4. Usability: Industrial monitors should be easy to use in order to improve employee efficiency. An intuitive user interface and ergonomic design can help to make operation easier and increase productivity.
5. Data integration: Industrial monitors are often used to display real-time data from production processes. Therefore, seamless integration with databases, ERP systems or other software solutions is required to enable effective processing and analysis of the data.
6. Maintenance and support: When integrating industrial monitors, it is important to ensure reliable maintenance and support. This can include the availability of spare parts, training for employees or fast technical support to minimize downtime and ensure the continuous functionality of the monitors.
1. Compatibility: It can be difficult to seamlessly integrate industrial monitors into existing production processes, especially if they need to communicate with existing machines and systems. It may be necessary to adapt interfaces or install additional hardware.
2. Robustness: Industrial monitors must be able to withstand the harsh conditions of a production environment, such as vibrations, dust, humidity or high temperatures. They must be robust enough to avoid failures and ensure continuous performance.
3. Space requirement: Space can be limited in production environments. When integrating industrial monitors, space restrictions must therefore often be taken into account in order to ensure optimum placement and visibility without impairing production processes.
4. Usability: Industrial monitors should be easy to use in order to improve employee efficiency. An intuitive user interface and ergonomic design can help to make operation easier and increase productivity.
5. Data integration: Industrial monitors are often used to display real-time data from production processes. Therefore, seamless integration with databases, ERP systems or other software solutions is required to enable effective processing and analysis of the data.
6. Maintenance and support: When integrating industrial monitors, it is important to ensure reliable maintenance and support. This can include the availability of spare parts, training for employees or fast technical support to minimize downtime and ensure the continuous functionality of the monitors.
What are the trends and developments in industrial monitor technology?
There are several trends and developments in industrial monitor technology that have an impact on the performance, functionality and adaptability of monitors. Some of these trends are:
1. Larger screens: Industrial monitors are getting bigger and bigger in order to display more information and improve readability. Larger screens allow operators to see more data at a glance and monitor complex processes better.
2. High resolution: With the development of high-resolution displays, industrial monitors can now show razor-sharp images and clear text. A high resolution is particularly important for applications where an accurate display of details is required.
3. Touch screen functionality: More and more industrial monitors are equipped with touchscreen functionality to facilitate operation and improve user-friendliness. Touchscreens allow operators to control the monitors directly with their fingers, making navigation and interaction easier.
4. Robustness and durability: Industrial monitors must be able to withstand harsh environmental conditions, such as vibrations, dust, moisture and extreme temperatures. As a result, monitors are increasingly being built to be more robust and durable in order to meet the requirements of the industry.
5. Connectivity and integration: Industrial monitors are increasingly being integrated into networked production environments. They can be connected to other devices and systems to exchange data and improve the flow of information. This enables seamless integration into existing production processes.
6. Energy efficiency: With the growing awareness of environmental protection and energy efficiency, industrial monitors are becoming increasingly energy efficient. This means that they consume less electricity and therefore reduce operating costs.
7. Adaptability: Industrial monitors must be able to adapt to different requirements and needs. This can be achieved by customizing settings, selecting different interfaces or integrating software solutions.
These trends and developments are helping to make industrial monitors ever more powerful, versatile and user-friendly in order to meet the requirements of industry.
1. Larger screens: Industrial monitors are getting bigger and bigger in order to display more information and improve readability. Larger screens allow operators to see more data at a glance and monitor complex processes better.
2. High resolution: With the development of high-resolution displays, industrial monitors can now show razor-sharp images and clear text. A high resolution is particularly important for applications where an accurate display of details is required.
3. Touch screen functionality: More and more industrial monitors are equipped with touchscreen functionality to facilitate operation and improve user-friendliness. Touchscreens allow operators to control the monitors directly with their fingers, making navigation and interaction easier.
4. Robustness and durability: Industrial monitors must be able to withstand harsh environmental conditions, such as vibrations, dust, moisture and extreme temperatures. As a result, monitors are increasingly being built to be more robust and durable in order to meet the requirements of the industry.
5. Connectivity and integration: Industrial monitors are increasingly being integrated into networked production environments. They can be connected to other devices and systems to exchange data and improve the flow of information. This enables seamless integration into existing production processes.
6. Energy efficiency: With the growing awareness of environmental protection and energy efficiency, industrial monitors are becoming increasingly energy efficient. This means that they consume less electricity and therefore reduce operating costs.
7. Adaptability: Industrial monitors must be able to adapt to different requirements and needs. This can be achieved by customizing settings, selecting different interfaces or integrating software solutions.
These trends and developments are helping to make industrial monitors ever more powerful, versatile and user-friendly in order to meet the requirements of industry.