Functional adapters help make daily activities easier for patients by extending the capabilities of prosthetics, while our tube adapters and assemblies make challenging builds easier for you.
Specification
Feature
3 stiffness options
Improve stability and balance
Absorbs shock for a smoother gait
Adjustable to 10
Adds adjustable postural flexion to most endoskeletal knee systems
If you are interested in our products, please contact us.
Packaging Details
1. Pack the Lock Tube Adapter Slideable in a shockproof plastic bag.
2. then in carton packing.
3. then in palletizingor.
or pack the Lock Tube Adapter Slideable according to your requirement.
we have very safety packing for sea and air shipment.
Single Axis Foot
Constructed from strong, lightweight composite materials and an advanced design, it provides state-of-the-art single-axle feet. 10% to 20% lighter than traditional single-axle feet, this low-mobility model features neutral, realistic, waterproof makeup and interchangeable front and rear bumpers with three durometers. Supplied with moulded titanium pyramids.
The unique design feature of the single axis foot is a single articulating joint set at or slightly below ankle height.
The joint allows the toes to be raised (dorsiflexion) and lowered (plantarflexion) relative to the tibia. The amount of movement is determined by a rubber cushion within the ankle unit.
The cushion absorbs shock and cushions the user as he transfers weight from heel touch to toe off.
Overview
1. Item no : 1H40
2. Material : Polyurethane
3. Color : beige
4. Weight : 140-500g
5. Heel height : 10+/-5mm
6. No. range : 21-28cm
7. Weight up to : 100-125kg
8. Quality : have past the one million times bent no break test.
9.We can do the custom service as your sample
If you are looking for more details, kindly visit our website.
Carbon Fiber Braided Sleeve for Prosthetic
The Braided Carbon Fiber Sleeve will perfectly conform to the shape of products with changing geometries, such as prosthetic limbs and field hockey sticks, to improve overall performance, minimize weight, and maximize the ultimate tensile strength of carbon.
Braided Carbon Fiber Sleeve
The Braided Carbon Fiber Sleeve will perfectly conform to the shape of products with changing geometries, such as prosthetic limbs and field hockey sticks, to improve overall performance, minimize weight, and maximize the ultimate tensile strength of carbon.
FEATURES
Twill weave for excellent compliance, strength and aesthetics
45° angle twill weave direction
Easily wetted by resin
Resistant to fatigue and durable
Product Description
Single Axis Foot Description
Constructed from strong, lightweight composite materials and an advanced design, it provides state-of-the-art single-axle feet. 10% to 20% lighter than traditional single-axle feet, this low-mobility model features neutral, realistic, waterproof makeup and interchangeable front and rear bumpers with three durometers. Supplied with moulded titanium pyramids.
The unique design feature of the single axis foot is a single articulating joint set at or slightly below ankle height.
The joint allows the toes to be raised (dorsiflexion) and lowered (plantarflexion) relative to the tibia. The amount of movement is determined by a rubber cushion within the ankle unit.
The cushion absorbs shock and cushions the user as he transfers weight from heel touch to toe off.
Overview
1. Item no : 1H40
2. Material : Polyurethane
3. Color : beige
4. Weight : 140-500g
5. Heel height : 10+/-5mm
6. No. range : 21-28cm
7. Weight up to : 100-125kg
8. Quality : have past the one million times bent no break test.
9. We can do the custom service as your sample
People with lower limb loss sometimes need prosthetic feet to complete certain activities, and even feet that help you run to help you achieve your activity goals.
The function of the prosthetic foot is mainly to imitate the human foot of a specific activity level. Of course, the prosthetic foot is also decorative for people who cannot walk. If you want to complete the walking action, then when your heel hits the ground, the prosthetic foot must act as a shock absorber to adapt to uneven terrain and provide a forward lever force when your toes are off the ground.
People with lower limb loss sometimes need a prosthetic system with a knee (if they are an above-knee amputee) or not if they are a below-knee amputee. Most use padding, and many also use sleeves to add comfort and performance to the leg system. But everyone needs a foot!
The new device opens the door to new opportunities and new activities for people who need prosthetic feet. A wide selection of feet, including many dynamic movements that simulate an anatomical foot, can help you achieve your activity goals. There are even feet designed specifically for running.
Prosthetic Pneumatic Knee Joint
This multi-centered prosthetic knee joint with pneumatic swing phase control provides reliable standing phase safety for users with moderate activity levels.
The smooth and powerful single-chamber pneumatics (each chamber for flexion and extension damping) does not run out of air during the swing phase, even at different walking speeds. Smooth flexion and extension movements can be achieved, resulting in an approximation of the physiological gait pattern. The joint geometry here effectively shortens the prosthesis during oscillation, thereby increasing ground clearance.
Four-bar pneumatic knee joint is made of aviation grade ultra-light, super-hard magnesium alloy material, with beautiful appearance. The weight was 0.95kg, the maximum load was 125kg, and the knee flexion was 150 degrees.
It adopts the four-bar linkage air pressure design, stable and natural walking, more light, mor durable, less energy consumption, easy control.
If you have questions about the prosthetic knee option, please contact us
The function of the prosthetic knee is to simulate the flexion and extension (bending and straightening) of the anatomical knee joint during the movement of the amputee. When used in conjunction with a prosthetic foot, the knee supports the amputee while providing a smooth and economical gait.
The amputee relies on the prosthetic knee for stability during ambulation. In order to provide stability, the knee needs to remain stable or locked during walking.
Many variations of the basic joint have been designed; from a simple hinge to a self-aware, computer-controlled knee. Clinical prosthetists are trained to understand the different types of knees. Their expertise is critical in assisting amputees and their caregivers in deciding which knee will maximize the amputee's potential.
The main function of prosthetic knee is to help the amputee to simulate the bending and extension of the knee joint when moving. At the same time, when the prosthetic foot is used in conjunction, the knee plays a role to achieve a smooth and relaxed gait.
Drop Lock Knee Joint
A "drop lock knee joint" often used in orthopedic devices or prosthetics. This mechanism allows the knee joint to be locked in a fully extended (straight) position to provide stability and support, preventing unintentional bending of the knee. When the joint is "dropped" into the locked position, it immobilizes the knee at that angle until it is manually released.
Function
The function of a "drop lock knee joint" is to provide stability and control to the knee joint in situations where immobilization or limited movement is required. This mechanism allows the knee to be locked in a fully extended (straight) position, preventing unintentional bending or flexing of the knee. This can be particularly beneficial for individuals who need to keep their knee straight for medical reasons, such as during post-surgery recovery or when wearing a knee brace or prosthetic limb.
The mechanism works by allowing the user to engage or "drop" the lock, which securely holds the knee joint in the extended position. This can help prevent unwanted movement that might otherwise cause discomfort or hinder the healing process. When the user needs to resume normal movement, they can disengage the lock, allowing the knee to bend freely.
In summary, the primary function of a drop lock knee joint is to offer stability, support, and controlled immobilization of the knee joint when necessary, aiding individuals in managing their knee-related conditions or recovery processes.
Prosthetic Leg Knee Joint
The function of the prosthetic leg knee joint is to simulate the flexion and extension (bending and straightening) of the anatomical knee joint during the movement of the amputee. When used in conjunction with a prosthetic foot, the knee supports the amputee while providing a smooth and economical gait.
The amputee relies on the prosthetic knee for stability during ambulation. In order to provide stability, the knee needs to remain stable or locked during walking.
Many variations of the basic joint have been designed; from a simple hinge to a self-aware, computer-controlled knee. Clinical prosthetists are trained to understand the different types of knees. Their expertise is critical in assisting amputees and their caregivers in deciding which knee will maximize the amputee's potential.
The main function of prosthetic leg knee joint is to help the amputee to simulate the bending and extension of the knee joint when moving. At the same time, when the prosthetic foot is used in conjunction, the knee plays a role to achieve a smooth and relaxed gait.
Mechanical Knees
The feature of Mechanical Knees is to help provide standing bending, reduce the pressure on the back and buttocks through the knee joints, and make the gait cycle smoother.
Pneumatic Knee
Pneumatic knee uses the air in the knee to adjust the walking speed, and as the speed increases or decreases, the pneumatic system will adjust the speed of swinging forward or bending backwards. Such knees are more active for amputees. They can Change the walking speed on your own and donâ??t need a walking device.
Prosthetic knee joints offer several advantages for individuals who have undergone lower limb amputations. These advantages can significantly improve the overall quality of life and mobility for amputees.
medical children Dennis splint shoes orthopedic for ankle injury
Medical Walker boots are a lightweight, economical alternative to traditional casts that immobilize the foot and ankle at 90 degrees. The main benefit of the boots over casts is the added flexibility of eliminating the need for crutches, allowing patients to stand and continue their daily routines because they can bear weight.
Medical Ankle Immobilizer
Medical Walker boots are a lightweight, economical alternative to traditional casts that immobilize the foot and ankle at 90 degrees. The main benefit of the boots over casts is the added flexibility of eliminating the need for crutches, allowing patients to stand and continue their daily routines because they can bear weight. These types of boots are also designed for outdoor use where traditional casts cannot be used.
Directions for use:
Soft Tissue Injuries
Grade 2 and 3 sprains
Stabilized fractures
Post-operative, trauma or rehabilitation use
Orthopedic
Prosthetic Limbs Gloves
Designed for wrist and above wrist amputations, our silicone prosthetic gloves are made from premium materials and are designed to fit seamlessly into the user's daily life. The skin pattern of the gloves varies with their size, gender and age. Generally, the larger the glove, the more mature the pattern. Handmade products may vary slightly from those pictured and the final product.
Features
HD, detailed handprints, veins and knuckles
36 color tones
No internal padding
Designed for cases that require additional length
Offers a wide range of upgrades
Swiss Lock
The Swiss Lock is a type of knee joint used in prosthetic limbs. It is a locking knee joint that allows the user to lock and unlock the knee in a fixed position as needed. The locking mechanism is typically engaged by pushing a button or lever located on the side of the joint, and disengaged by releasing the button or lever.
The Swiss Lock is known for its stability and durability, making it a popular choice for individuals with amputations who lead an active lifestyle. It is often used in sports and other high-impact activities, as it can withstand a significant amount of force without giving way.
One of the key advantages of the Swiss Lock is that it provides a high level of control and stability to the user. This can be especially important for individuals who engage in activities that require quick movements or changes in direction, as it helps to prevent falls or other accidents.
Orthotic knee joints, also known as knee orthoses or knee braces, are devices designed to provide support, stability, and alignment to the knee joint. They are commonly used for individuals with knee injuries, osteoarthritis, ligament instability, or other conditions that require additional support.
Here are some key features and functions of orthotic knee joints:
Stability and Support: Orthotic knee joints are designed to stabilize and support the knee joint, helping to reduce excessive movement, provide alignment, and prevent further injury. They can be particularly beneficial for individuals with ligament injuries, such as anterior cruciate ligament (ACL) tears, or chronic knee instability.
Range of Motion Control: Some orthotic knee joints incorporate mechanisms that allow for controlled and adjustable range of motion. This feature is useful for individuals recovering from knee surgery or injuries who need to limit certain movements during the healing process while gradually increasing mobility.
Pain Relief: By providing support and reducing excessive motion, orthotic knee joints can help alleviate pain associated with knee conditions such as osteoarthritis or patellofemoral syndrome. The brace helps to offload pressure from affected areas and distribute forces more evenly, reducing discomfort.
Customizability: Orthotic knee joints can often be customized to fit an individual's specific anatomy and needs. They can be adjusted for size, alignment, and fit to ensure optimal comfort and effectiveness. Customization may involve modifications to straps, hinges, or padding to provide a more personalized fit.
Protection and Injury Prevention: Orthotic knee joints can offer protection and help prevent further injury during physical activities or sports. They can provide additional stability, especially in cases where ligament instability is a concern, reducing the risk of re-injury or exacerbating existing conditions.
Rehabilitation Support: Orthotic knee joints are often used during rehabilitation programs following knee surgery or injury. They can aid in controlling and guiding the knee joint's movement, allowing for safe and gradual progression of exercises and strengthening of the surrounding muscles.
Carbon Fiber Foot
A carbon fiber foot is a type of prosthetic foot that incorporates carbon fiber materials in its construction. Carbon fiber is known for its high strength-to-weight ratio, making it a popular choice for designing lightweight and durable prosthetic components.
Here are some key features and advantages of carbon fiber feet
Lightweight: Carbon fiber is exceptionally lightweight, which makes it an ideal material for prosthetic limbs. This feature reduces the overall weight of the prosthesis, making it easier for the user to walk, run, or engage in various activities.
Strength: Despite its lightweight nature, carbon fiber is incredibly strong and durable. This ensures that the prosthetic foot can withstand the stresses and strains associated with regular use.
Energy Return: Carbon fiber feet are designed to store and release energy during walking or running. This energy return mechanism can enhance the user's walking efficiency and reduce the effort required, leading to a more natural gait and less fatigue.
Flexibility: Carbon fiber can be precisely engineered to provide the necessary flexibility and responsiveness, allowing the foot to adapt to different terrains and ground surfaces.
Aesthetics: Carbon fiber prosthetic feet often have a sleek and modern appearance. They can be designed to look and feel more like a natural foot, contributing to the user's self-esteem and body image.
Durability: Carbon fiber is resistant to corrosion and wear, which means that carbon fiber feet can have a longer lifespan than some other prosthetic materials.
Customization: Prosthetists can customize carbon fiber feet to match the user's specific needs and activity levels, ensuring that the prosthesis functions optimally for the individual.
Prosthetic Hand
A prosthetic hand is an artificial device designed to replace a missing hand or part of a hand. It aims to restore some level of functionality, appearance, and comfort for individuals who have lost their natural hand due to injury, congenital conditions, or other reasons. Prosthetic hands have come a long way in terms of design, materials, and technology, offering users improved capabilities and a better quality of life.
Key components and features of modern prosthetic hands include
Socket: The socket is the part of the prosthetic hand that attaches to the residual limb. It's custom-made to fit the user's anatomy comfortably and securely.
Wrist Unit: Some prosthetic hands include a wrist joint, allowing for rotation and better positioning of the hand for different tasks.
Fingers: The fingers are the functional components of the prosthetic hand. They can be designed to move individually or together, mimicking the natural movement of a human hand. Advanced prosthetic hands can provide a wide range of gripping patterns, enabling users to perform various tasks.
Hydraulic Prosthetic Leg
A hydraulic prosthetic leg is a type of prosthetic leg that uses hydraulic fluid to control the movement of the knee joint. It is designed to simulate the natural movement and function of a real leg. The hydraulic system allows for smooth, controlled movement and stability, making it easier for the wearer to walk, run, climb stairs, and perform other daily activities.
Hydraulic prosthetic legs typically consist of a socket that fits over the residual limb, a knee joint that is controlled by hydraulic fluid, and an ankle joint that provides support and stability. The hydraulic system is usually powered by a battery or a pump, and is controlled by sensors that detect the wearer's movements and adjust the fluid pressure accordingly.
Both pneumatic (air) and hydraulic (fluid) systems mimic the muscles of the natural knee by responding to different walking speeds. Hydraulic knees tend to be heavier than pneumatic knees because they require fluids, but they also provide a smoother walking pattern over a wider range of speeds. Both hydraulic and pneumatic knees require frequent routine maintenance.
Drop Lock Orthotic Knee Joints
A "drop lock knee joint" often used in orthopedic devices or prosthetics. This mechanism allows the knee joint to be locked in a fully extended (straight) position to provide stability and support, preventing unintentional bending of the knee.
Drop Lock Knee Joint
A "drop lock knee joint" often used in orthopedic devices or prosthetics. This mechanism allows the knee joint to be locked in a fully extended (straight) position to provide stability and support, preventing unintentional bending of the knee. When the joint is "dropped" into the locked position, it immobilizes the knee at that angle until it is manually released.
Function
The function of a "drop lock knee joint" is to provide stability and control to the knee joint in situations where immobilization or limited movement is required. This mechanism allows the knee to be locked in a fully extended (straight) position, preventing unintentional bending or flexing of the knee. This can be particularly beneficial for individuals who need to keep their knee straight for medical reasons, such as during post-surgery recovery or when wearing a knee brace or prosthetic limb.
The mechanism works by allowing the user to engage or "drop" the lock, which securely holds the knee joint in the extended position. This can help prevent unwanted movement that might otherwise cause discomfort or hinder the healing process. When the user needs to resume normal movement, they can disengage the lock, allowing the knee to bend freely.
In summary, the primary function of a drop lock knee joint is to offer stability, support, and controlled immobilization of the knee joint when necessary, aiding individuals in managing their knee-related conditions or recovery processes.
Prosthetic sach foot, polyurethane foot
The sach foot prosthesis is a cushioned heel dummy foot with a flexible keel for level 1 and level 2 activities. Adjustable screws adjust the heel cushion for optimal personal fit.
Sach Foot Prosthesis
The sach foot prosthesis is a cushioned heel dummy foot with a flexible keel for level 1 and level 2 activities. Adjustable screws adjust the heel cushion for optimal personal fit.
Safety - lower stiffness when bearing weight allows patients with mobility issues to be
Early laying flat and higher stability
Meets the needs of patients with reduced mobility to maintain activity level Lightweight keel
Improved ease of use, ideal for elderly or mobility-impaired users Limited strength
Durability testing confirms that the foot can last for people with reduced mobility
Single Axis Knee Joint with Adjustable Constant Friction, artificial limbs prosthetic leg knee joint
single axis prosthetic knee with Adjustable Constant Friction suitable for persons with above-knee amputation, It has moderate functional requirements and moderate support stability. It is not suitable for persons with higher function requirements.
Single Axis Prosthetic Knee
Single axis prosthetic knee with Adjustable Constant Friction suitable for persons with above-knee amputation, It has moderate functional requirements and moderate support stability. It is not suitable for persons with higher function requirements.
The swing of the single axis prosthetic knee consists in connection between the swing axis and the upper part of the joint and between the single axis prosthetic knee and the lower part of the joint. The stability during the stance period is achieved by adjust the prosthetic knee joint behind the gravity center line of the body during alignment. The knee is designed to utilize the swing axis and brake axis as a load-dependent brake. The axis friction and the extension assist are adjustable for improved control of swing phase.
Adjustable orthopedic ankle walker boot
Ankle boots orthopedic is a type of footwear designed to provide support and comfort to individuals with foot and ankle problems. They are typically made with high-quality materials, such as leather or synthetic materials, and feature special features such as cushioned insoles, arch support, and shock-absorbing soles.
Ankle Boots Orthopedic
Ankle boots orthopedic is a type of footwear designed to provide support and comfort to individuals with foot and ankle problems. They are typically made with high-quality materials, such as leather or synthetic materials, and feature special features such as cushioned insoles, arch support, and shock-absorbing soles.
These boots are commonly recommended for people who suffer from conditions such as plantar fasciitis, Achilles tendonitis, and other ankle injuries. They can help reduce pain, inflammation, and swelling in the affected area, while providing additional stability and support to the foot and ankle.
Prosthetic leg AK Cosmetic Foam Cover(Water Proof)
Designed for all above and below knee prosthesis users, these Prosthetic Leg Foam Covers combine quality materials and construction with cutting edge design and technology to provide a strong and affordable leg cover.
Prosthetic Leg Foam Cover
Designed for all above and below knee prosthesis users, these Prosthetic Leg Foam Covers combine quality materials and construction with cutting edge design and technology to provide a strong and affordable leg cover.
These Prosthetic Leg Foam Covers restore balance to the contours of the leg and play an important role in improving patient confidence and self-esteem through optional bright or patterned designs, fulfilling the mission of limb art to "stand out".
Prosthetic limbs Low Ankle Carbon Fiber Foot
A carbon fiber foot is a type of prosthetic foot that incorporates carbon fiber materials in its construction. Carbon fiber is known for its high strength-to-weight ratio, making it a popular choice for designing lightweight and durable prosthetic components. .
Carbon Fiber Foot
A carbon fiber foot is a type of prosthetic foot that incorporates carbon fiber materials in its construction. Carbon fiber is known for its high strength-to-weight ratio, making it a popular choice for designing lightweight and durable prosthetic components.
Here are some key features and advantages of carbon fiber feet
Lightweight: Carbon fiber is exceptionally lightweight, which makes it an ideal material for prosthetic limbs. This feature reduces the overall weight of the prosthesis, making it easier for the user to walk, run, or engage in various activities.
Strength: Despite its lightweight nature, carbon fiber is incredibly strong and durable. This ensures that the prosthetic foot can withstand the stresses and strains associated with regular use.
Energy Return: Carbon fiber feet are designed to store and release energy during walking or running. This energy return mechanism can enhance the user's walking efficiency and reduce the effort required, leading to a more natural gait and less fatigue.
Carbon Fiber Foot Cover
Realistic in appearance, durable and easy to wear, the Prosthetic Foot Cover provides excellent off-the-shelf cosmetic results for below-knee amputees. Available in a variety of skin tones, it features a new silicone formula for a more natural look.
Prosthetic Foot Cover
Realistic in appearance, durable and easy to wear, the Prosthetic Foot Cover provides excellent off-the-shelf cosmetic results for below-knee amputees. Available in a variety of skin tones, it features a new silicone formula for a more natural look.
Orosthetic foot cover is required for use with carbon fiber feet. We can customize the foot shell to your carbon fiber shape and size or other special requirements.
Shijiazhuang Perfect Prosthetic Manufacture Co., Ltd. was found in 2009. we are the parter of china association of rehabilitation on December 11th, 2014, now become the leading integrated company. CPF products the prosthetic lower, orthotic parts and some adapters, to-gether with research and development.
We persevere and work with Europe,southeast Asia and south America more than 50 countries, research nearly 100 products. It has great praise with the high quality and preferential price in the domestic and foreign.
We have ourself casting factory, CNC Machine factory, Assemble workshop and Technology Research and Development Center. all of the products Design and made by ourself, we can control the cost price very well! So we can supply you the best quality, best price and best after-sell service.
Our Principle is: Do our best to give you all best!
Welcome warmly all of the friends from all of the world visit my company, to establish a good and long term cooperation.
Complete Prosthetic Systems
We develop and manufacture products designed to provide optimal mobility, function, comfort and aesthetics for individuals following amputation or other pathologies.
Our focus is to connect our technology to your life and customize each step, stride, or jump with real-time feedback to improve patient mobility.
Single Axis Hip Joint
Suitable for persons with lower limb amputation and medium function requirements, max weight limit 100kg. about 60�° for the flexion angle of the connecting plate of the socket.
Single Axis Hip Joint
A single-axis hip joint in the context of a prosthetic limb serves a crucial role in mimicking the functionality of the human hip joint for individuals who have had an amputation of the lower limb, typically above the knee.
Function
Simplification of Movement: A single-axis hip joint simplifies the range of motion in the prosthetic limb, primarily allowing flexion and extension at the hip. While this is not as versatile as the natural human hip joint, it simplifies the design and operation of the prosthesis.
Stability: The single-axis hip joint provides stability during walking and other activities by allowing the prosthetic limb to move in a controlled manner in the sagittal plane (front to back). This stability is essential for maintaining balance and preventing falls.
Energy Efficiency: Prosthetic limbs with single-axis hip joints are often designed to be energy-efficient. They can store and release energy during gait, helping users conserve energy and walk more naturally.
Ease of Control: The simplified movement of a single-axis hip joint is easier for users to control compared to more complex joints. This can be especially important for individuals who are new to using prosthetic limbs.
Specific Applications: While single-axis hip joints are not as versatile as multi-axis joints, they are suitable for individuals with specific mobility needs, such as those who engage in activities that primarily involve forward and backward motion, like walking or running on flat surfaces.
Hydraulic Prosthetic Leg
A hydraulic prosthetic leg is a type of prosthetic leg that uses hydraulic fluid to control the movement of the knee joint. It is designed to simulate the natural movement and function of a real leg. The hydraulic system allows for smooth, controlled movement and stability, making it easier for the wearer to walk, run, climb stairs, and perform other daily activities.
Hydraulic prosthetic legs typically consist of a socket that fits over the residual limb, a knee joint that is controlled by hydraulic fluid, and an ankle joint that provides support and stability. The hydraulic system is usually powered by a battery or a pump, and is controlled by sensors that detect the wearer's movements and adjust the fluid pressure accordingly.
Both pneumatic (air) and hydraulic (fluid) systems mimic the muscles of the natural knee by responding to different walking speeds. Hydraulic knees tend to be heavier than pneumatic knees because they require fluids, but they also provide a smoother walking pattern over a wider range of speeds. Both hydraulic and pneumatic knees require frequent routine maintenance.
Benefits And Features
Hydraulic prosthetic legs offer several benefits and features that can improve the quality of life of people with lower limb amputations. Some of these benefits and features include:
Improved mobility: Hydraulic prosthetic legs can help people with lower limb amputations to move more easily and comfortably, allowing them to engage in a wider range of activities.
Stability and balance: The hydraulic system of a prosthetic leg provides stability and balance, making it easier for the wearer to walk on uneven terrain, climb stairs, and perform other activities that require balance and stability.
Natural movement: Hydraulic prosthetic legs are designed to mimic the natural movement of a real leg, making it easier for the wearer to walk, run, and perform other activities.
Adjustability: The fluid pressure in the hydraulic system can be adjusted to match the wearer's activity level and weight, ensuring optimal performance and comfort.
Customization: Hydraulic prosthetic legs can be customized to fit the wearer's specific needs and preferences, including the size and shape of the socket, the type of foot and ankle, and the alignment of the knee joint.
Durability: Hydraulic prosthetic legs are made from high-quality materials that are designed to withstand the wear and tear of daily use, ensuring a longer lifespan and lower maintenance costs.
Psychological benefits: Wearing a hydraulic prosthetic leg can boost the wearer's confidence and self-esteem, helping them to feel more comfortable and confident in social situations.