The Janome DC5100 Sewing Machine is the model with the largest throat space. This easy-to-use machine features a six-point feed system, adjustable stitch length and width, auto-tension system, and an extra-large 10-inch throat space.
The throat space is adjustable by using the central bobbin case, allowing users to expand their sewing capabilities. Additionally, the onboard LED lighting ensures that projects are completed with accuracy.
With access to both English and metric scales on the control panel, the DC5100 is a great choice for quilting, crafting, and garment stitching. The included knee lifter and hardcover also offer added convenience and protection for the machine.
What is a good throat size for quilting?
The ideal throat size for quilting depends largely on what type of quilting you are going to be doing. For small projects like hand quilting, a small throat size of 5-6 inches is adequate. For larger projects like machine quilting, a throat size of 9-10 inches is preferable.
This allows for better maneuverability and less chance for error. Additionally, a larger throat size can accommodate a greater range of fabric thicknesses, giving you more creative options. Remember to consider your machine’s capability when selecting a throat size and make sure to choose one that allows for smooth fabric manipulation.
How do you measure the throat of a sewing machine?
To measure the throat of a sewing machine, you will need a ruler or yardstick. Start by unplugging the sewing machine and lifting the needle bar. You may need to loosen the screws or clamps located on the needle bar or on the machine base.
Next, position the ruler along the base of the needle plate, running from the front of the machine to the needle bar. The measurement at the front of the machine is the “front throat” measurement and the measurement at the needle bar is the “back throat” measurement.
The difference between the two measurements is the depth of the throat.
What’s the difference between a regular sewing machine and a quilting sewing machine?
The main difference between a regular sewing machine and a quilting sewing machine is how they are designed to handle larger quilting projects. With regular sewing machines, the presser foot and the needle arm are separate, which is why you can only sew narrow quilts with them.
Quilting sewing machines, on the other hand, are designed with the needle arm and presser foot in one unit. This unit moves the fabric along while you sew it, enabling the machine to manage larger quilts.
Additionally, quilting machines usually have several presser feet that work together to help move the fabric along.
Regular sewing machines also usually have fewer options for controlling the stitches, so you won’t be able to get the same level of precision that you would get with a quilting machine. Quilting machines often have adjustable stitch width, allowing you to adjust for your exact project.
Plus, quilting machines have longer arm space, enabling you to work with larger quilts easily.
Why is my needle hitting the metal plate?
It’s possible that the needle of your sewing machine is hitting the metal plate or bobbin case because it’s not properly threaded. Threading a sewing machine correctly is crucial to its success as a sewing tool.
If the thread is not correctly threaded, it can become wrapped around the tension discs, presser foot, or other moving parts of the machine, causing the needle to hit the metal plate or bobbin holder.
If the thread is too tight or too loose, it can also cause the needle to hit the plate. Additionally, if the needle is inserted incorrectly or not positioned at the correct angle, this can cause the needle to hit the metal plate or bobbin case.
Finally, the type and size of needle used for a project is also important and can contribute to the needle hitting the metal plate or bobbin case. If a needle is too short or too large for the project, this can cause it to hit the plate.
Taking all these factors into consideration should help you identify the cause of your needle hitting the metal plate.
What are the measurements on a sewing machine?
The measurements of a sewing machine depend on the size, model and type. Generally, most standard domestic sewing machines range in height from between 10 – 12 inches, width between 15 – 18 inches and depth that varies between 8 – 10 inches.
Serger sewing machines are typically larger and rang in width between 16 – 20 inches, depth between 11 – 14 inches, and height between 15 – 18 inches.
The size of a sewing machine is mostly determined by the amount of space it needs to accommodate the needle, feed dog and bobbin, as well as to provide enough space for the user to be able to move and adjust the fabric easily.
As with any product, the dimensions can vary from one brand to another or from one model to another so it is recommended to check the specification of the machine before making a purchase. Additionally, certain machines come with also include adjustable legs that allow a person to adjust the height of the machine slightly.
It is important to remember that these measurements are just general guidelines and not an exact standard, and thus may vary from one machine to another.
What are the throat plate markings used for?
The throat plate markings are used to identify the number of stitches used per inch of fabric when using a sewing machine. These markings help the sewer to adjust the stitch length according to the type of fabric they are using.
When using a multi-step zigzag stitch, the markings help to determine the distance between each zigzag stitch. Additionally, they can be used to help adjust the width of the zigzag when using a twin needle.
Both of these settings help to create a stitch pattern that will be both strong and attractive. The markings can also be used to help guide the sewer when stitching in the ditch or when installing piping or lace.
They help to keep the sewers stitching even and consistent. The markings can also be used to help set the starting and ending points for the row of stitching.
What is pin feed sewing?
Pin feed sewing is a type of stitching method used on industrial sewing machines. This technique utilizes pins or chains attached to the bottom of the feed dogs of a sewing machine. As the feed dogs move up and down, they pull the pins or chains along the fabric, creating a consistent feeding pattern that helps ensure accuracy.
Some machines are even equipped with special pin feed attachments that can be used to make intricate embroidery designs. The pins or chains are used to help guide the fabric more precisely for small stitch lengths, allowing for tighter stitching and more detailed designs.
Pin feed sewing is a great technique for achieving professional quality stitches. Additionally, its higher level of accuracy and precision makes it ideal for projects that require small stitching, like delicate hems, small quilting pieces, or intricate embroidery.
What is the standard height of a sewing table?
The standard height of a sewing table varies depending on the user’s needs, what type of sewing machine is being used and the user’s personal preference. Generally, the table should be around 30” to 34” in height, with a kneehole providing 28” to 30” of clearance to the floor.
The ideal tabletop height for a regular user should be between 28″ to 32″. However, if you are tall or have limited mobility, look for a table that is adjustable or has a lower/higher surface area. The ideal depth for a sewing table should be between 24” and 36”, allowing enough space to accommodate the machine and extra material.
The tabletop should also be large enough to comfortably accommodate multiple fabric pieces with some extra room to move around. Finally, the type of sewing you do should also be taken into consideration when determining the best table height and length.
What is difference between Bernina q16 and q16 Plus?
The Bernina Q16 and Q16 Plus are both innovative quilting machines from Bernina designed for quilters and fiber artists. The most significant difference between the Q16 and the Q16 Plus is their stitch length.
The Bernina Q16 has a stitch length of 0.05 – 5 mm, while the Q16 Plus has a stitch length of 0.05 – 9 mm. This larger stitch length range available on the Q16 Plus allows users to create more intricate designs and quilting patterns.
The Q16 Plus also features an automatic thread cutter, an integrated thread path, an illuminated workspace, and a touchpad keypad with a clear user interface. It also has a larger needle plate which offers better visibility and more space for quilting, making it a great choice for larger quilt projects.
Finally, the Q16 Plus has an integrated laser pointer that helps guide quilters in the right direction when stitching a pattern. This laser pointer is not available on the Q16.
Overall, the Bernina Q16 is still a great machine for quilters who don’t need the extra features found on the Q16 Plus. However, for serious quilters looking for a higher level of control and precision, the Q16 Plus is a great option.
What is the difference between BERNINA 475 and 480?
The BERNINA 475 and BERNINA 480 both feature an embroidery-only design, offering a range of features that make creating custom embroidery designs simple and easy.
The BERNINA 475 has a maximum embroidery size of 7.9 x 7.9 inches with a maximum embroidery speed of 850 stitches per minute. It offers 130 colors in its standard palette and comes with a selection of 240 built-in designs and 10 fonts.
The 475 also offers 10 large hoops and two programmable keys. Its two extra-large embroidery hoops have a maximum size of 9.84 inches x 14.17 inches.
The BERNINA 480 has a slightly larger maximum embroidery size of 9 x 14 inches and a higher maximum embroidery speed of 1,000 stitches per minute. It offers 160 colors in its standard palette with 240 built-in designs and 11 fonts.
The 480 also offers 11 large hoops and three programmable keys. Its extra-large embroidery hoops have a maximum size of 15.75 inches x 9.84 inches.
One key difference between the two models is that the BERNINA 480 offers a higher embroidery speed. It also boasts 11 large hoops and three programmable keys, which provide more flexibility in creating larger embroidery designs.
The BERNINA 480 also offers a larger maximum size and expanded color palette.
Is the Bernina Stitch Regulator worth it?
The Bernina Stitch Regulator (BSR) can be a highly valuable tool for sewers. It is designed to produce perfectly consistent and even
stitches, which is especially helpful for machine quilting, embroidery, and other decorative projects. The BSR works by automatically controlling
the machine’s speed while the user is sewing, ensuring that it is operating at a constant and consistent speed. This eliminates the problem of stitches
becoming too small or too large due to the operator’s inconsistent speed. Additionally, the BSR also allows for up to nine adjustable speed settings,
so users can adjust the speed accordingly depending on the material they are sewing.
Overall, the BSR is definitely worth considering if you are interested in producing perfect, even stitches. It eliminates the guesswork and
fuss of having to manually adjust the speed, and it can help you to be more efficient and precise when tackling a project. However, whether it
is worth the cost or not is dependent on what type of sewing you do, and how often you do it. If you are a frequent quilter or an enthusiastic
embroiderer, then it may be well worth the investment. However, if you primarily use your sewing machine for basic hems and repairs, then the
BSR may be overkill for you.
What Bernina machines can use the BSR?
The Bernina BSR (Bernina Stitch Regulator) is available for all current Bernina sewing machines. This device regulates the speed of the machine and keeps runs even, that is, stitches of the same length.
It helps to maintain even and balanced stitching, regardless of the speed of the person working the machine. The BSR is currently available as an optional accessory on the following Bernina machines:
• Bernina 7 Series: the BSR is available on all 7 series machines – the B 730, B 740, B 750, B 770, and B 790.
• Bernina 5 Series: the BSR is available on all 5 series machines – the B 500, B 510, B 530, B 540, B 560 and B 580.
• Bernina 4 Series: the BSR is available on all 4 series machines – the B 440, B 450, and B 470.
• Bernina 3 Series: the BSR is available on the B 300, B 350 and B 380.
• Bernina 2 Series: the BSR is available on the B 210 and B 215.
• Bernina 1 Series: the BSR is available on the B 105 and B 127.
In addition, the BSR is also available for Bernina’s popular Embroidery module, the B 700. The BSR is also compatible with the full-featured Artista 730 and 640 machines. The BSR comes with the same 3-year warranty that your Bernina machine carries.
How does a BSR work?
The BSR, or Brushless DC motor, is a type of motor which utilizes an electronic controller instead of mechanical brushes for its operation. The motor produces electricity through rotation, and this electricity is then sent to an electronic controller, which uses power transistors to alternate the polarity of the current in the armature windings, thus producing motion.
The controller uses the electric current from the stator to detect the position of the permanent magnets in the rotor and then activate the transistors to control the electric current sent to the stator.
The BSR works in that it produces torque rotations, which then produces electricity, which is controlled by a electronic controller. The controller then tells the electromagnets in the stator to turn on and off in certain patterns to produce different RPMs of rotation for the rotor.
The advantage of a BSR is that it can be operated with very little noise, vibration, and maintenance, and it is much more energy efficient than other types of motors. Additionally, it can be adjusted to regulate speed, reversing, braking, and regenerative braking.