Although urbanization is progressing rapidly now, there are still many elderly people living in front of old residential areas. For various reasons, it is not convenient to go up and down the stairs. Some old people haven't gone down the stairs for several years? Now the stair-climbing wheelchair can solve the problem of these elderly people going up and down the stairs.
1、Motorized stair climbing chair stops while walking. Large load. The outstanding feature of the electric intelligent stair climber is mainly the large load, ranging from 170kg-220kg.
2、Comfortable operation. The control box of the Rui De Motorized stair climbing car adopts a battery-powered display, speed control button, height-adjustable handle, soft start, and power off the brake to make the operation more comfortable.
3. power box and control box separation technology. To solve the problem of difficult charging, the concept of separating the power box and control box was creatively proposed and became the industry standard. The independent power box is easy to load and unload, which greatly enhances the range of the stair climbing car.
Intelligent up and down stair wheelchair Motorized stair climbing car
Stair climbing tools developed specifically to solve the overload workload, based on the third generation, continue to optimize and improve the product, improve performance, make the product more practical, make the climbing car more practical and better.
More batteries, ordinary electric ladder truck battery, and control box as one, high cost of battery replacement, high temperature of the control system, resulting in short battery life, the newly upgraded electric ladder truck with power supply and control box split design. This utility model has the advantages of low cost, easy replacement, and long battery life.
The new upgrade of the baffle new upgraded Motorized stair climbing car adopts a new lengthened baffle, the baffle and carriage of the ordinary stair climbing car have been improved
Stair-climbing wheelchairs are through the electric, without the operator effort to get help students with mobility problems of the elderly can go up and down the stairs. Motorized stair climbing wheelchair mainly uses this electric motor can drive the track bite stair tread up and down the stairs. The control management system of the Motorized stair climbing wheelchair uses a kind of automatic brake function, when going up and down the stairs, the operator can stop and rest if we are tired of just releasing the control information button, and will not slip down.
Crawler type Motorized stair-climbing wheelchair
SomeMotorized stair climbing wheelchairs can not only climb stairs but can also travel on flat ground. You can switch between level walking and stair climbing functions. When walking on flat ground, you can walk like an ic motor after retracting the track. When you encounter stairs, you can put down the crawler and climb stairs like a small tank.
Interventional stair climbing Motorized wheelchair design is what we need students to operate by learning the assistance of others to achieve stair climbing action. The price level is generally around $4000-7000.
A fracture is a complete or partial break in the continuity of a bone structure. It is most common in children and the elderly, but also occurs in young and middle-aged people; with timely and appropriate treatment, most patients can recover their original function; a small number of patients can be left with varying degrees of sequelae.
Closed fracture: the skin at the fracture is intact and the fracture end is not connected to the outside world.
Open fracture: The trauma wound is deep to the fracture or the fracture end pierces the skin to expose the surface of the body.
Compound fracture: the fracture end damages blood vessels, nerves or other organs, or is accompanied by joint disarticulation, etc.
Incomplete fracture: the integrity and continuity of the bone is not completely interrupted.
Complete fracture: the integrity and continuity of the bone is completely interrupted.
The fracture is caused by the direct action of violence on a part of the bone, resulting in a fracture of the injured part, often with varying degrees of soft tissue injury. For example, if a wheel hits the lower leg, a fracture of the tibiofibular stem occurs at the place of impact.
Indirect violence is caused by longitudinal conduction, leverage or torsion, such as a fall from a height and landing on the foot, the trunk is sharply flexed forward due to gravity, and a compression or burst fracture occurs at the junction of the thoracolumbar spine.
Pain, swelling, deformity, bone rubbing sound, functional impairment, hemorrhage.
The fracture ends that have been displaced after the fracture will be restored to normal or close to the original anatomical relationship in order to regain the brace role of the bone. The methods of repositioning include closed repositioning and surgical repositioning.
After fixation, the fracture is easily re-displaced because it is unstable, so different methods should be used to fix it in a satisfactory position to make it heal gradually.
Commonly used fixation methods are: small splints, plaster bandages, external fixation braces, traction brake fixation, etc. These fixation methods are called external fixation.
If it is fixed by surgical incision with plates, steel pins, intramedullary pins, screws, etc., it is called internal fixation.
Through muscle contraction of the injured limb, increase the blood circulation of the tissue around the fracture, promote fracture healing, prevent muscle atrophy, and prevent joint adhesion and joint capsule contracture by active or passive activities of the unfixed joint, so that the function of the injured limb can be restored to the normal state before the fracture as soon as possible.
Fixation material splint or its substitutes (such as wood, bamboo stick, bark, etc.). The dressing needs to be lined with soft materials such as cotton, gauze, towels, etc. between the splint and the skin, and then the splint is tied and wrapped with a triangular towel, bandage or rope.
The splint is placed on the outer side of the fractured upper arm, and the protruding part of the fracture should be padded, then the elbow and shoulder joints should be fixed, and the upper arm should be flexed and suspended in front of the chest with a triangular towel, and then the injured limb should be fixed in the thorax with a triangular towel.
Lower leg fracture fixation method: Place the splint on the outside of the fractured lower leg, with padding on the protruding part of the fracture, then fix the upper and lower ends of the wound and the knee and ankle joints (8-way fixation of the ankle joint), and then fix the top of the splint.
Thigh fracture fixation method: place the splint on the outer side of the fractured thigh, the protruding part of the fracture should be padded, then fix the upper and lower ends of the wound and the ankle and knee joints, and finally fix the lumbar, iliac and ankle parts
Use a cervical brace or head immobilizer to prevent further injury to the cervical spine, which can cause damage to the vital center and thus lead to cardiac and respiratory arrest and death.
Use a spinal board or multiple people moving together to keep the head, trunk and lower extremities in a straight line to prevent causing paraplegia.
Pay attention to the wound and general condition. If the wound is bleeding, the bleeding should be stopped first and the fracture should be fixed only afterwards. If there is shock or respiratory or cardiac arrest, resuscitation should be performed immediately.
When dealing with open fractures with exposed fracture ends, clean and disinfect the area, wrap the wound with gauze, position the injured limb as normal as possible and let the fracture ends retract naturally, and forbid to send the exposed fracture ends back into the wound to avoid wound contamination and re-stabbing the blood vessels and nerves, and then dress and fix.
For fractures of the thigh, calf, and spine, the patient should generally be fixed in place, and the injured limb and trunk should not be moved too much during fixation to avoid increasing the patient's pain and injury to the nerves and blood vessels, and do not reset blindly to avoid aggravating the degree of injury.
In order to fix the fracture securely and firmly, the length and width of the splint used to fix the fracture should be commensurate with the fractured limb, and its length should generally exceed the upper and lower joints of the fracture.
The splint used for fixation should not directly contact the skin. When fixing, soft materials such as gauze, triangular towel pad, towel and clothing can be used between the splint and the limb, especially the ends of the splint, the protruding parts of the joint bones and the interstitial parts, which can be appropriately thickened to avoid skin abrasion or local tissue compression necrosis.
The tightness of fixation and binding should be appropriate, too loose to achieve the purpose of fixation, too tight to affect blood circulation, resulting in limb necrosis. When fixing the limbs, the finger (toe) ends should be exposed so that the blood circulation of the limbs can be observed at any time. If you find that the fingers (toes) are pale, cold, numb, painful, swollen, and the nail bed is bruised, it means that the fixation and binding are too tight and the blood circulation is not good, so you should immediately loosen and re-bind the fixation.
When fixing fractures of the extremities, the upper end of the fracture break should be tied first and the lower end of the fracture end should be tied later. If the binding order is reversed, it will lead to re-dislocation. For upper limb fixation, the limb should be tied in flexion (flexed elbow); for lower limb fixation, the limb should be tied in extension.
When fixing a fracture, the upper end of the fracture should be tied first, followed by the lower end. Reversal of the binding order may lead to repositioning of the broken end.
The upper limb should be fixed in a flexed elbow position; the lower limb should be fixed with the limb extended (pulled) straight.
To prevent heat stroke in summer and to keep warm in winter.
To prevent shock caused by pain, the casualty can be given appropriate application of sedative painkillers under the guidance of a doctor.
When a patient is brought in to the emergency room, it is crucial for the staff to be able to move them in order to avoid medical mishaps. A crash cart is used for transporting the patient from one place to another. The cart can be moved easily from one place to another as long as it has a sturdy base that is well-lit and it can reach all the areas that are important for carrying patients.
A sturdy base so that it's easier for you to get moving even if you're standing on it
Wheels and brakes so you can quickly get going when needed
The ability to withstand rough treatment from patients and nurses
A roomy interior so you don't feel cramped when carrying a heavy bag of supplies
Nurses, physicians and other healthcare professionals use various types of stretchers in hospitals and nursing homes to transport patients. They are used for the following reasons:
To prevent awkward movements when moving a patient around to another room in the hospital.
To be able to transfer a patient from one place to another without having to carry them.
To make it easier for patients to move from one position like sitting or lying down, or standing up, without getting tired.
The main problem with this type of bed is that there is no specific type that is best for each situation. It all depends on what the environment where you will use it is like and the kind of patients you have. You should consider which stretcher will work best for your hospital or nursing home before you purchase one because if it isn’t working well, you might end up paying more money than necessary while not being completely satisfied with what you have purchased.
There are many factors to consider when choosing a crash cart. The most important of these is the daily use of the product (e.g., if it is necessary for you to use it every day, then you need to think about this). The other factor to consider is whether you will be using your cart every day. If you will be using it every day, then the cost will be an important factor in choosing a cart that suits your needs. You should also consider its price and how much time will be spent with the product everyday (i.e., in what way would it save time and money). Finally, make sure that your cart is made by a reputable brand and make sure that it meets your needs as well as possible.
electric stair climbing dolly (ESTDC), a new type of stair climbing equipment, was developed to overcome the problem of short-term power supply interruption and long-term maintenance. It can be used in the transport industry, distribution, and other related industries.
This product is widely applied in many areas such as transportation and distribution, warehouse and other logistics, construction sites.
Electric stair climbing dolly (ESTC) is a type of climbing equipment used to climb stairs. It is similar to a ladder and consists of an electric motor, a platform with a lot of steps and an automatic mechanism.
If you’ve ever wanted to mount an ESTC outside on your wall, then you’re in luck. They are rather easy to use and come with all the necessary components.
A technology that is widely used in the transportation and distribution industries, electric stair climbing dolly is a lightweight device that enables easy movement over a wide range of stairs. It can reduce the burden of heavy object handling at work, which in turn improves work efficiency.
Electric stair climbing dolly is basically a personal elevator. A person could stand on one side of the platform and move to another side, pulling up or lowering herself depending on her height. The device provides a safe and convenient way to move from floor to floor.
The electric stair climbing dolly weighs only 8 kilograms (17 pounds), so it saves material cost as compared with various lifting devices such as pneumatic cylinders or belts. Moreover, it has a small footprint that makes it highly portable; thus it can be used in compensation areas or areas without elevators.
Electric stair climbing dolly (sometimes referred to as "electric moon", "electric mountain", "electric vehicle", "electric motorcycle" or simply as "dolly") is a type of equipment that allows people to climb stairs on their own. The electric load stair climbing machine has three main functions:
To lift the heavy object such as wheelchair, chair, table, etc.
Electric overload stair climbing dolly
Electric flat-footed stair climbing dolly
Electric stair climbing dolly is a kind of electric load dolly. It is used in industry and transportation, distribution, and other related fields. The electric load dolly can reduce the burden of heavy object handling at work and improve work efficiency.
The above is an example of how to use an electric stair climbing machine. You don’t just want to get your product out there the moment you start. It takes time to build a true value proposition that people will want to buy into, especially if it’s your first product (or first product in an area where there are no accepted standards). But if you do it right you can get your product in front of users before they have time to switch off; it could be very powerful. Wanna know exactly how to use an electric stair climbing dolly?
The concept of electric stair climbing dolly is similar to that of an electric dolly. A special electric motor provides control power to the system in order to move the heavy structure. The structure can be moved by electricity or a hydraulic system. The vehicle is equipped with a load-carrying mechanism, which enables it to carry heavy objects such as stoves, tables, and other items.
Electric stair climbing machines are widely used in transportation, distribution, and other related industries because they are easy to install. It can reduce the burden of heavy object handling at work and improve work efficiency by reducing labor costs.
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