Key Questions to Ask When Ordering Artificial Animatronic Wolf Model

Choosing a Robot - Top 10 Questions to Ask - Unchained Robotics

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Nevertheless, as a future robot owner, you shouldmake sure that you ask yourself the right quesitons before you choose your new metallic coworker.

There are a number of factors that will influence which robot is best suited for your particular process. If you can answer the 10 questions listed here, finding the right model will be a lot easier and faster.
You can work with an integrator to do this, or you can enter the answers into

Source: bruce mars via Unsplash.com


1. What industry are you in?
Yes, it may seem obvious and it is probably the easiest question in this list, but it is an important one for choosing the right robot. Depending on the industry, there may be requirements that exclude a number of robots.
For example, in both the food and beverage and pharmaceutical industries, there are stringent hygiene requirements that not every robot will meet.

2. What task will the robot perform?
Again, this is more of an elementary question, but the process or sub-process you want to automate will also determine the choice of robot, as some models are not designed for specific applications.
For example, the process might require high maneuverability over a variety of axes, which not every robot will not be able to achieve.
If you&#;re unsure of what process you want to automate, our tip is to look for tasks in your current process that are repetitive, dirty, or even dangerous for a human to perform. Also, especially if you don&#;t have a lot of experience using robots yet, you should start with as simple a process as possible.
When in doubt, automate the simple and the repetitive first and tackle complicated processes later.

Source: Media Print

3. What range does the robot need to have?
The first two questions are still relatively general, this is where we start to get into the details. The reach needed depends on the process: where do the parts arrive? Do they need to be transported to another point? Does the robot need to be able to reach different points within its work area (e.g., when sorting parts)?
The subsequent layout or design of the robot workspace is also critical here in determining how long the reach must be. There are even ways to artificially extend a robot&#;s reach by moving the gripper, but this can come with a significant payload limitation, so it&#;s better to consult a professional here.

4. How much weight will the robot be lifting?
Depending on the process and the objects with which the robot is to work, the minimum payload capacity requirement can be determined. Of course, the robot&#;s payload can be higher &#; this gives you a greater degree of flexibility should the process change.
It should also be kept in mind that, in addition to the objects with which the robot is to work, the weight of the gripper must also be taken into account. So the payload should be high enough to lift both the object and the gripper &#; ideally with some capacity to spare.

Source: Victor Freitas via Unsplash.com

5. What batch size should the robot produce?
Will a large number of a part be made on each production run, or are you more likely to make small quantities? Or perhaps you&#;ll be producing products that all vary from one to the next.
This determines how adaptable the robot needs to be. With traditional industrial robots, for example, changing over from one programmed process to the next can be very complex. Conseauently, they are less suitable for small batch sizes. Their smaller &#;relatives&#; &#; collaborative robots &#; on the other hand, are designed with flexibility in mind. And, thanks to their intuitive operation, even laymen can reprogram them without special expensive technical training.

6. What is the expected daily production volume?
We have already discussed the total batch volume, but the daily production volume also has an influence on which robot is chosen. If the requirements for daily production are high, then the robot must also be able to work faster.
But not every robot is able to work at high speed &#; especially if you want to use a robot collaboratively without restrictive additional safety precautions. Among other things, cobots can only operate at a certain speed in the vicinity of people. This means one can&#;t expect industrial robot speed with a cobot.
However, many collaborative robots can work faster, but then you have to take into account additional safety reauirements. This happens relatively often and is one of the upsides of using cobots in comparison to traditional industrial robots. Cobots can operate collaboratively or uncollaboratively and be switched from one to the other in relatively short order.

Source: Jan Huber via Unsplash.com

7. What material will the robot be manipulating?
Another crucial factor is the material or materials with which the robot will work. We have already discussed the importance of weight above, but the material itself is important, too.
For example, if the material is reflective, then using cameras and vision systems can be problematic. If the material is porous, a vacuum gripper is probably not the right choice. If it&#;s very delicate &#; like food, for example &#; you may need special grippers that won&#;t cause damage. Or perhaps the robot is working with flammable or explosive materials, in which case care must be taken to ensure that it is properly grounded.

8. How precise does the robot need to be?
The fact that they can work more precisely than humans is an oft-cited advantage to robots. The true accuracy or repeatabilit, however, varies from robot to robot. Some are much more accurate than others.
If you need a very high level of precision, i.e. you can only cope with very small deviations in the range of a millimeter or less, you have to be very careful to select a robot that can meet these requirements.

Source: Media Print

9. Which kind of End-of-Arm tool do you need?
A robot alone cannot do much; It needs a &#;hand&#; to fulfill its purpose.
What kind of gripper or end-of-arm tool you need depends primarily on the answers to the above questions. The weight, material, sensitivity, etc. of the object to be handled all come into play, here. In many ways, picking an end-of-arm tool is just as important as picking a robot.
If the robot is picking up packages and placing them on a pallet, then a vacuum gripper might be in order. If it&#;s placing fruit into cartons, then a SoftGripping tool might be in order. If it&#;s placing tiny electrical parts, then a two-finger gripper might be in order.
When in doubt, you can always use

10. What kind of camera do you need?
Lastly, there is one more component that you may need: a camera.
Cameras can be especially important for production runs and processes that have a lot of variance. With the various kinds of cameras and visions solutions available, you can greatly increase the flexibility of your system and its ability to identify and deal with variations. These variations could be in shape, size, position, material, etc.
However, if the process is repetitive and the objects that the robot is with are uniform and in consistent positions, then a camera might not even be necessary.
Cameras have a myriad of uses and it&#;s important to recall that they can also just be used for code scanning, so that the robot can identify and track specific parts and pieces.
Cameras can greatly increase the practicality and flexibility of the your robot!

Source: Alex Andrews via Pexels.com

Conclusion

There are many factors that influence the choice of a robot. If you can answer the 10 questions listed here before you even begin your search, you&#;re already well on your way to finding a robot that&#;s right for you.
In fact, with the answers to the above questions, you can find your robot in just 5 minutes! Enter your requirements into our configurator and it will find you the right robot, end-of-arm tool, and &#; depending on whether or not you need one &#; a camera.

Where do you want to go?
You want to try it out right now?
Want to learn more about integrating robots into business processes? Then download our free whitepaper &#;Process integration: 5 steps to automation&#;! Download now

We&#;ve said it once and we&#;ll say it again: Robotics is not rocket science!Nevertheless, as a future robot owner, you shouldmake sure that you ask yourself the right quesitons before you choose your new metallic coworker.There are a number of factors that will influence which robot is best suited for your particular process. If you can answer the 10 questions listed here, finding the right model will be a lot easier and faster.You can work with an integrator to do this, or you can enter the answers into our configurator , which will then pick out a solution to fit your specifications.Source: bruce mars via Unsplash.com1. What industry are you in?Yes, it may seem obvious and it is probably the easiest question in this list, but it is an important one for choosing the right robot. Depending on the industry, there may be requirements that exclude a number of robots.For example, in both the food and beverage and pharmaceutical industries, there are stringent hygiene requirements that not every robot will meet.2. What task will the robot perform?Again, this is more of an elementary question, but the process or sub-process you want to automate will also determine the choice of robot, as some models are not designed for specific applications.For example, the process might require high maneuverability over a variety of axes, which not every robot will not be able to achieve.If you&#;re unsure of what process you want to automate, our tip is to look for tasks in your current process that are repetitive, dirty, or even dangerous for a human to perform. Also, especially if you don&#;t have a lot of experience using robots yet, you should start with as simple a process as possible.When in doubt, automate the simple and the repetitive first and tackle complicated processes later.Source: Media Print3. What range does the robot need to have?The first two questions are still relatively general, this is where we start to get into the details. The reach needed depends on the process: where do the parts arrive? Do they need to be transported to another point? Does the robot need to be able to reach different points within its work area (e.g., when sorting parts)?The subsequent layout or design of the robot workspace is also critical here in determining how long the reach must be. There are even ways to artificially extend a robot&#;s reach by moving the gripper, but this can come with a significant payload limitation, so it&#;s better to consult a professional here.4. How much weight will the robot be lifting?Depending on the process and the objects with which the robot is to work, the minimum payload capacity requirement can be determined. Of course, the robot&#;s payload can be higher &#; this gives you a greater degree of flexibility should the process change.It should also be kept in mind that, in addition to the objects with which the robot is to work, the weight of the gripper must also be taken into account. So the payload should be high enough to lift both the object and the gripper &#; ideally with some capacity to spare.Source: Victor Freitas via Unsplash.com5. What batch size should the robot produce?Will a large number of a part be made on each production run, or are you more likely to make small quantities? Or perhaps you&#;ll be producing products that all vary from one to the next.This determines how adaptable the robot needs to be. With traditional industrial robots, for example, changing over from one programmed process to the next can be very complex. Conseauently, they are less suitable for small batch sizes. Their smaller &#;relatives&#; &#; collaborative robots &#; on the other hand, are designed with flexibility in mind. And, thanks to their intuitive operation, even laymen can reprogram them without special expensive technical training.6. What is the expected daily production volume?We have already discussed the total batch volume, but the daily production volume also has an influence on which robot is chosen. If the requirements for daily production are high, then the robot must also be able to work faster.But not every robot is able to work at high speed &#; especially if you want to use a robot collaboratively without restrictive additional safety precautions. Among other things, cobots can only operate at a certain speed in the vicinity of people. This means one can&#;t expect industrial robot speed with a cobot.However, many collaborative robots can work faster, but then you have to take into account additional safety reauirements. This happens relatively often and is one of the upsides of using cobots in comparison to traditional industrial robots. Cobots can operate collaboratively or uncollaboratively and be switched from one to the other in relatively short order.Source: Jan Huber via Unsplash.com7. What material will the robot be manipulating?Another crucial factor is the material or materials with which the robot will work. We have already discussed the importance of weight above, but the material itself is important, too.For example, if the material is reflective, then using cameras and vision systems can be problematic. If the material is porous, a vacuum gripper is probably not the right choice. If it&#;s very delicate &#; like food, for example &#; you may need special grippers that won&#;t cause damage. Or perhaps the robot is working with flammable or explosive materials, in which case care must be taken to ensure that it is properly grounded.8. How precise does the robot need to be?The fact that they can work more precisely than humans is an oft-cited advantage to robots. The true accuracy or repeatabilit, however, varies from robot to robot. Some are much more accurate than others.If you need a very high level of precision, i.e. you can only cope with very small deviations in the range of a millimeter or less, you have to be very careful to select a robot that can meet these requirements.Source: Media Print9. Which kind of End-of-Arm tool do you need?A robot alone cannot do much; It needs a &#;hand&#; to fulfill its purpose.What kind of gripper or end-of-arm tool you need depends primarily on the answers to the above questions. The weight, material, sensitivity, etc. of the object to be handled all come into play, here. In many ways, picking an end-of-arm tool is just as important as picking a robot.If the robot is picking up packages and placing them on a pallet, then a vacuum gripper might be in order. If it&#;s placing fruit into cartons, then a SoftGripping tool might be in order. If it&#;s placing tiny electrical parts, then a two-finger gripper might be in order.When in doubt, you can always use our configurator to find the ideal solution for you!10. What kind of camera do you need?Lastly, there is one more component that you may need: a camera.Cameras can be especially important for production runs and processes that have a lot of variance. With the various kinds of cameras and visions solutions available, you can greatly increase the flexibility of your system and its ability to identify and deal with variations. These variations could be in shape, size, position, material, etc.However, if the process is repetitive and the objects that the robot is with are uniform and in consistent positions, then a camera might not even be necessary.Cameras have a myriad of uses and it&#;s important to recall that they can also just be used for code scanning, so that the robot can identify and track specific parts and pieces.Cameras can greatly increase the practicality and flexibility of the your robot!Source: Alex Andrews via Pexels.comConclusionThere are many factors that influence the choice of a robot. If you can answer the 10 questions listed here before you even begin your search, you&#;re already well on your way to finding a robot that&#;s right for you.In fact, with the answers to the above questions,Enter your requirements into our configurator and it will find you the right robot, end-of-arm tool, and &#; depending on whether or not you need one &#; a camera.Where do you want to go?You want to try it out right now? Find a solution now Want to learn more about integrating robots into business processes? Then download our free whitepaper &#;Process integration: 5 steps to automation&#;! Download now

Identifying, selecting, and implementing a new security solution can be a headache for even the most seasoned corporate security director. Industry innovation, such as the increased use of security robots, drone technology, and artificial intelligence, only adds to the complexity and challenges. To help reduce some of this complexity, we&#;ve outlined five key questions you need to ask when determining which solutions are right for your business.

Are you interested in learning more about Artificial Animatronic Wolf Model? Contact us today to secure an expert consultation!

1. 1. What types of anomalies can a security robot detect?Security robots can detect people in the building after hours, open doors, or even leaks and spills. They are often used to expand an existing security program needing after-hours security guard coverage to patrol specific areas of a building. Through machine learning, a robot can learn to identify problems that can be missed by human eyes, and then alert the appropriate individual to take action.
2. 2. How does a security robot integrate with an existing program?A security robot can integrate with existing systems as a key component of a larger security program. The combined use of robots and humans to identify issues allows for quick resolution, such as access control to identify an individual who does not have the proper authorization to be in a particular area. In this type of situation, the robot would identify the anomaly and notify the appropriate people, including a remote Cobalt robot Specialist who will interact with the unauthorized individual via two-way video.When used for after-hours patrolling, a security robot can augment the existing security guard presence to cover more ground. Also, with a custom built user interface, critical events can be viewed in real-time from a secure computer, giving greater control and access from a central location.
3. 3. Is a security robot expensive to deploy and maintain?Unlike most other security systems, which may require a significant upfront cost by the customer, deploying a security robot can be more efficient and financially feasible. Even when budgeting for annual maintenance of hardware and software, many security robots can end up costing less than fixed cameras or a security officer.Cobalt robots are priced as a monthly plan, covering robot deployments, robot Specialist integration, and regular software updates. Through this plan, customers also benefit from regular upgrades as capabilities evolve.
4. 4. How does the Cobalt security robot work?Equipped with seven microphones and more than 60 different sensors, including a laser scanner, thermal, audio and gas sensors, the Cobalt robot can autonomously patrol an area inside a building. The robot can patrol for 45 minutes and will dock at its charging station to recharge for 15 minutes. Even though the robot has a battery capable of patrolling for eight to 10 hours at a time, this approach ensures enough battery is stored for possible situations where it needs more time than usual to address issues.
5. 5. What&#;s the difference between a Cobalt robot and other solutions?While there are a number of different robots available on the market, Cobalt robots are specifically designed for indoor use and to respond in real-time to an incident. Although they can operate autonomously, these robots can also help people respond to a problem immediately as part of an interactive system. Greeted by a cordial human Cobalt Specialist, a person can be asked to present a badge to the robot. If that person does not have the proper credentials, the Specialist can notify building security or contact local authorities.The Cobalt robot is meant to be a welcome part of a company&#;s everyday environment, and can also serve as a friendly face for employees after hours. The engineering and design choices put into the Cobalt robot were made to intentionally facilitate human interactions and decisions and remove the stigma often associated with security robots.

The questions outlined above are really just a start to a string of specific questions to get the specific answers you need. You&#;ll likely also ask questions like: What are the robot&#;s sensing capabilities? How long can it patrol before it needs to recharge? Is there a testing period? What are the specific steps from initial agreement to deployment and maintenance? Will there be support given to introduce the robot to personnel? How does the robot respond to anomalies? Will existing internal post orders be followed?

Enabled by intelligent indoor security robots, Cobalt is delivering a security service that combines the friendliness and flexibility of humans with the reliability of machines to improve physical safety and security in the workplace. If you&#;re interested in hearing our answers to these questions and more, please reach out to us at .

The Cobalt robot patrols autonomously, alerting trained Specialists when needed.

For more Dinosaur Factoryinformation, please contact us. We will provide professional answers.