Medical Equipment & Oxygen Plant FAQs | Shelves Tech Private Limited

Lab Tables are manufactured using heavy-duty steel or powder-coated frames combined with chemical-resistant surfaces such as epoxy resin, stainless steel, or phenolic resin boards.

They are installed in research laboratories, pharmaceutical facilities, educational institutions, industrial testing labs, and quality control departments requiring precision and durability.

Key features include corrosion-resistant structure, load-bearing capacity, chemical-resistant worktops, ergonomic design, and vibration-free stability for accurate experimental results.

Yes, Lab Tables can be customized with integrated storage units, reagent shelves, sinks, utility ports, and electrical provisions to meet specialized laboratory workflow needs.

It is compact, lightweight, and has a tripod. You can take and produce images anywhere without being set up in one location.

The tripod provides stability, precise positioning, and ease of use, ensuring consistent imaging angles while reducing motion errors and improving overall image quality during scanning.

They are ideal for hospitals, clinics, emergency units, rural healthcare, home care, and field operations where quick, on-site diagnostic imaging is required.

Yes, they follow radiation safety standards, include shielding features, and use optimized exposure settings to ensure patient and operator safety during diagnostic procedures.

It ensures uninterrupted oxygen availability by generating oxygen on-site, reducing dependency on external suppliers and emergency shortages.

Capacity typically ranges from 5 Nm³/hr to 50 Nm³/hr depending on patient load and oxygen demand.

Yes, when properly configured with backup systems, they provide reliable oxygen supply for ICUs and emergency wards.

They require stable power supply, ventilation, compressor setup, and minimal floor space for installation.

They eliminate recurring cylinder costs, transportation expenses, and reduce dependency on third-party suppliers.

They include side rail locking systems, emergency CPR release, braking systems, and alarms to prevent falls, ensure quick response, and enhance patient safety in critical conditions.

Yes, advanced ICU Beds can integrate with monitoring systems and nurse call systems, enabling real-time data access and improving response time in critical care environments.

Electric controls, height adjustment, and mobility features reduce manual effort, allowing healthcare staff to handle patients safely, efficiently, and with minimal physical strain.

The integrated blood filter removes micro-clots and impurities, ensuring only clean and properly processed blood components reach the patient during transfusion therapy.

Its calibrated drip chamber and flow regulator allow accurate monitoring and adjustment of transfusion speed, ensuring safe and clinically appropriate blood administration.

Yes, they are compatible with whole blood, packed red cells, and plasma, ensuring safe and efficient delivery based on prescribed medical requirements.

Sterility prevents microbial contamination and transfusion-related infections, ensuring patient safety and maintaining strict compliance with medical and hospital infection control standards.

The system uses advanced molecular sieve technology (Zeolite beds) to separate nitrogen from compressed air. Continuous monitoring systems ensure stable oxygen purity levels of up to 93% ± 3%, meeting standard medical oxygen requirements for patient care applications.

Yes, a PSA Oxygen Plant significantly reduces recurring oxygen purchase and transportation costs. Once installed, it generates oxygen directly from atmospheric air, minimizing dependency on suppliers and offering long-term operational savings for healthcare facilities.

Yes, PSA Oxygen Plants are scalable and can be designed according to hospital capacity. Whether for small clinics or multi-specialty hospitals, the system can be customized to deliver continuous oxygen flow to multiple ICU beds and critical care units simultaneously.

They are manufactured using corrosion-resistant materials such as stainless steel, powder-coated steel, or chemical-resistant laminates to withstand harsh laboratory environments.

Common types include storage cabinets, chemical storage cabinets, fume storage cabinets, reagent cabinets, and under-bench cabinets for different laboratory applications.

They are designed with lockable doors, chemical-resistant interiors, ventilation options, and fire-resistant materials to minimize risks and ensure safe storage of hazardous substances.

Yes, Laboratory Cabinets can be customized in size, shelving configuration, material type, and locking systems based on specific laboratory storage and workflow requirements.

They offer adjustable height, backrest, and leg positions, allowing patients to move comfortably, reduce pressure points, and support faster recovery during extended hospital stays.

Modern hospital beds use high-quality steel frames, ABS panels, and antibacterial coatings, ensuring durability, easy cleaning, and compliance with healthcare hygiene standards.

Yes, many hospital beds are designed for home care, offering compact design, easy operation, and essential features to support patient comfort and caregiver convenience.

They include side rails, wheel locking systems, smooth edge design, and emergency adjustments to ensure patient safety and prevent accidental falls during use.

Common types include digital mammography, 3D tomosynthesis, and analog systems, each offering different imaging capabilities and accuracy levels for breast cancer screening and diagnosis.

It detects small tumors and tissue changes that may not be physically noticeable, enabling early diagnosis and improving treatment success rates in breast cancer cases.

Yes, mammography uses low-dose radiation and follows strict safety standards, ensuring minimal risk while providing accurate diagnostic imaging for breast health assessment.

Regular maintenance includes calibration, software updates, detector checks, and quality assurance tests to ensure accurate imaging, compliance with standards, and reliable long-term performance.

Look for certifications, product range, after-sales support, and industry reputation.

ISO, CE, and FDA approvals ensure quality and safety standards.

Regular maintenance schedules depend on usage but should be performed periodically to ensure safety.

It varies based on product type, usage, and maintenance practices.

It ensures timely servicing, spare parts availability, and uninterrupted hospital operations.

Examination tables include fixed height, adjustable, hydraulic, and electric models, designed to suit general practice, gynecology, physiotherapy, and specialized medical examinations.

Ergonomic design, adjustable positioning, and easy accessibility improve workflow, allowing healthcare professionals to perform examinations comfortably while ensuring better patient handling and positioning.

They are made using durable steel or aluminum frames, cushioned surfaces, and antimicrobial upholstery, ensuring strength, hygiene, and easy cleaning in medical environments.

Features include stable base design, non-slip feet, smooth surfaces, and easy-to-clean materials, helping maintain patient safety and infection control standards in healthcare settings.

It works by drawing air away from the user into the hood chamber, filtering or exhausting contaminated air through a duct system to maintain a safe working environment.

Fume Hoods are widely used in chemical laboratories, pharmaceutical industries, research centers, educational labs, and industrial testing facilities handling volatile or toxic substances.

Common types include ducted fume hoods, ductless (filtered) fume hoods, perchloric acid hoods, and biosafety fume hoods designed for specific laboratory applications.

Safety features include airflow monitoring systems, transparent safety sash, alarm indicators, corrosion-resistant interiors, and efficient exhaust systems to ensure user protection.

It accelerates electrons to produce high-energy beams directed at targeted cancer cells, destroying them while minimizing damage to surrounding healthy tissues.

LINAC systems support treatments like IMRT, IGRT, VMAT, and stereotactic radiosurgery, enabling precise and advanced radiation therapy for various cancer types.

Yes, LINAC treatments are highly controlled, using advanced imaging and planning systems to ensure accurate radiation delivery while protecting nearby healthy tissues.

Routine maintenance includes calibration, beam alignment checks, software updates, and safety inspections to ensure precise performance, patient safety, and compliance with medical standards.

The system compresses atmospheric air and passes it through molecular sieve beds filled with zeolite material. These beds selectively absorb nitrogen, allowing oxygen to be separated and collected. The result is a consistent supply of high-purity oxygen suitable for medical use.

A standard PSA Medical Oxygen Generator produces oxygen with a purity level of up to 93% ± 3%, which is widely accepted for hospital use, including ICUs, emergency wards, and operation theatres, as per medical oxygen standards.

Unlike cylinders that require regular refilling and transportation, a PSA Oxygen Generator produces oxygen on-site continuously. This reduces dependency on suppliers, lowers long-term operational costs, and ensures an uninterrupted oxygen supply during emergencies.

How to choose durable hospital furniture manufacturers in India?

Typically stainless steel, mild steel, and high-quality polymers for durability and hygiene.

Yes, many manufacturers offer customized designs based on hospital requirements.

Side rails, locking wheels, anti-bacterial coatings, and smooth edges.

It enhances comfort, reduces strain, and improves operational efficiency for staff.

It includes a graduated chamber that allows healthcare professionals to pre-set and monitor exact fluid volumes, ensuring controlled and error-free infusion.

Unlike standard IV sets, it features a built-in measuring chamber that enables precise volume regulation, improving accuracy in fluid and medication delivery.

It is preferred in pediatric care, critical care, and situations requiring strict fluid balance management where accurate and limited fluid administration is essential.

Yes, it is designed as a sterile, single-use device to ensure hygiene, prevent cross-contamination, and maintain patient safety during intravenous therapy.

It offers portability, lightweight design, space-saving storage, and ease of transportation, making it ideal for travel, home use, and frequent movement between locations.

They are typically constructed using lightweight aluminum or steel frames, durable fabric seating, and solid or pneumatic wheels for strength, comfort, and long-term usability.

Yes, many models are designed for daily use with ergonomic seating, adjustable features, and durable construction, ensuring comfort and reliability for extended mobility needs.

Safety features include wheel locks, anti-tip design, sturdy armrests, footrests, and strong frame support to ensure user stability and prevent accidents during movement.

It typically includes a flexible catheter, needle stylet, injection port, flashback chamber, and wings for secure handling and smooth venous insertion.

It enables quick venous access for repeated or continuous drug delivery without multiple needle pricks, improving patient comfort and treatment efficiency in hospitals.

IV Cannulas are available in multiple gauge sizes, ranging from smaller pediatric sizes to larger adult sizes, depending on clinical requirements and fluid therapy needs.

Yes, IV Cannulas are designed for short-term sterile use, reducing infection risk when properly inserted, monitored, and replaced according to medical guidelines.

Chemical-resistant materials like epoxy-coated steel and phenolic resin.

Proper ventilation, chemical resistance, and fire safety features are essential.

Fixed furniture is permanent, while modular furniture can be reconfigured.

Yes, they can be tailored for pharma, research, and educational labs.

Material, design complexity, size, and customization options.

It typically measures ECG, SpO2, NIBP, respiratory rate, temperature, and sometimes EtCO2, providing comprehensive real-time patient monitoring in critical care environments.

They are widely used in ICUs, operation theaters, emergency rooms, and ambulances to monitor patient vitals continuously and support timely clinical decision-making.

It enables real-time monitoring, early detection of abnormalities, and prompt medical response, improving patient safety and outcomes during critical and routine healthcare situations.

Maintenance includes regular calibration, sensor checks, battery inspection, software updates, and cleaning to ensure accurate readings and reliable long-term performance.

Industrial PSA Oxygen Generators are widely used in steel manufacturing, glass production, water treatment plants, chemical industries, aquaculture, and metal cutting applications. They are also used wherever a consistent oxygen supply is required for combustion or processing.

The main advantages include on-site oxygen generation, reduced operational cost, no dependence on cylinder logistics, continuous supply, and high efficiency. It also improves production reliability by ensuring uninterrupted oxygen availability for industrial processes.

An Industrial PSA Oxygen Generator typically delivers oxygen purity up to 93% ± 3%. This level is suitable for most industrial applications such as combustion enhancement, wastewater treatment, and metallurgical processes.

When selecting a PSA oxygen plant for hospitals in India, consider oxygen flow capacity (Nm³/hr), purity levels (90–95%), power consumption, automation features, installation space, and compliance with medical standards like ISO and CE certifications.

Yes, a properly sized PSA oxygen plant can eliminate the need for oxygen cylinders by providing a continuous and on-demand oxygen supply, reducing long-term operational costs.

Installation involves site preparation, compressor setup, air dryer integration, adsorption tower installation, pipeline connection, and system testing to ensure uninterrupted oxygen delivery.

Modern PSA oxygen plants are designed for energy efficiency with optimized compressors and automation, making them cost-effective for 24/7 hospital operations.

Routine maintenance includes filter replacement, compressor servicing, valve checks, and monitoring oxygen purity to ensure consistent performance and durability.

Types include emergency trolleys, stretcher trolleys, hydraulic trolleys, and transfer trolleys, each designed for specific medical transport and patient handling requirements.

It enables quick and efficient patient movement, reduces manual handling effort, and ensures smooth coordination between departments, improving overall hospital operational efficiency.

They include adjustable height, side rails, smooth-rolling wheels, braking systems, and cushioned surfaces to ensure patient safety, comfort, and ease of use.

Safety features include locking mechanisms, side guards, sturdy frames, and anti-collision design to prevent accidents and ensure secure patient transport within healthcare facilities.

These devices provide reliable and clinically useful readings, especially for basic cardiac monitoring, though detailed diagnosis may still require advanced hospital-grade ECG systems.

It is suitable for home care, clinics, ambulances, remote locations, and emergency situations where quick heart monitoring and immediate assessment are required.

They often include digital displays, data storage, wireless connectivity, smartphone integration, and automated analysis features for improved usability and faster interpretation.

Yes, it is designed for user-friendly operation with simple controls, guided instructions, and minimal setup, making it accessible for both healthcare professionals and patients.

It minimizes cannula displacement and accidental pulling, helping reduce risks such as infiltration, blockage, and site-related infections during infusion therapy.

Yes, it is designed with high-tack medical adhesive that maintains secure fixation even during patient movement, moisture exposure, or extended clinical use.

It ensures consistent IV access by stabilizing the cannula, reducing manual adjustments, and improving overall safety and efficiency in infusion-based treatments.

It can measure blood pressure, heart rate, body temperature, oxygen saturation, BMI, blood glucose, and other basic health parameters using integrated diagnostic devices.

Health ATMs are deployed in hospitals, clinics, rural areas, corporate offices, pharmacies, and public places to improve accessibility to primary healthcare services.

It connects patients with remote doctors through video consultation, allowing real-time diagnosis, prescription, and medical advice without visiting a healthcare facility physically.

Yes, they are highly effective in rural areas, providing accessible, affordable, and quick healthcare services where medical infrastructure and specialist availability are limited.

Common types include simple oxygen masks, non-rebreather masks, partial rebreather masks, and Venturi masks, each designed for specific oxygen delivery requirements.

It increases oxygen concentration in inhaled air, ensuring better oxygenation of blood and helping patients with respiratory distress or low oxygen saturation levels.

Oxygen Masks are typically made from soft, medical-grade PVC or silicone, ensuring patient comfort, flexibility, and safe compatibility during oxygen therapy.

It is generally used for short to medium-term therapy, while long-term oxygen support may require alternative devices like nasal cannulas or oxygen concentrators.

Common types include hemodialysis machines and peritoneal dialysis systems, each designed for different treatment methods depending on patient condition and medical requirements.

It circulates blood through a dialyzer where waste and excess fluids are removed using diffusion and filtration, then returns purified blood back to the patient.

Regular maintenance includes disinfection, filter replacement, calibration, and system checks to ensure safe operation, accurate performance, and compliance with healthcare standards.

Its ability to deliver medication directly to the respiratory tract ensures quick action, improved absorption, and targeted treatment for conditions like asthma and COPD.

Liquid medicine is placed in the chamber, where it is aerosolized and inhaled through a mask or mouthpiece for deep lung penetration and treatment efficiency.

Yes, it is commonly used in emergency and chronic care settings to provide rapid relief during breathing difficulties and sudden respiratory episodes.

Ergonomic masks, quiet operation, efficient aerosol output, and easy assembly make it user-friendly for both clinical and home-based respiratory care applications.

They play a vital role in emergency and ICU care by quickly clearing airway blockages, helping maintain oxygen levels and preventing respiratory complications.

The catheter is inserted into the airway and connected to a suction source, which carefully extracts mucus and fluids without causing tissue damage.

Yes, different catheter designs allow safe use for oral, nasal, and tracheal suctioning depending on the patient’s clinical condition and requirement.

Flexible tubing, smooth-tip design, and controlled suction pressure help minimize trauma while ensuring effective and safe removal of airway secretions.

Portable Labs can perform basic tests like blood analysis, urine testing, glucose levels, hemoglobin, infectious disease screening, and other point-of-care diagnostic procedures.

They are widely used in rural healthcare, disaster response, military operations, mobile clinics, and outreach programs where access to full-scale laboratories is limited.

It provides rapid diagnostics, reduces turnaround time, enables early treatment decisions, and improves accessibility to healthcare services in underserved and remote areas.

Key features include compact design, battery operation, easy transport, quick setup, integrated diagnostic devices, and user-friendly interface for efficient field-based testing.

Check for sterilization standards, certifications, and product reliability.

Most are single-use to prevent infections and ensure patient safety.

ISO, CE marking, and sterilization compliance are essential.

They play a critical role in maintaining hygiene and preventing cross-contamination.

Quality, brand, material, and bulk purchasing volumes.

It is used in emergency resuscitation, anesthesia, intensive care, and surgical procedures where patients are unable to maintain their airway reflexes independently.

Guedel Airways are manufactured in multiple color-coded sizes suitable for neonates, pediatrics, and adults to ensure accurate fit and effective airway management.

It is safe when used in unconscious patients without gag reflex; however, it is contraindicated in conscious patients due to risk of vomiting or airway trauma.

It utilizes a closed sterile system with anti-reflux mechanism, minimizing backflow and contamination risk, thereby maintaining aseptic conditions during prolonged catheter use.

It includes graduated measurement chamber, kink-resistant tubing, universal catheter connector, and reinforced drainage outlet for accurate monitoring and reliable fluid handling.

It is used in postoperative care, critically ill patients, immobilized individuals, and long-term catheterized cases requiring continuous urine output monitoring.

Key parameters include medical-grade PVC material, leak-proof sealing, calibrated volume markings, sterile packaging, and compliance with biomedical safety standards.

It delivers controlled compression that helps reduce swelling, improve blood circulation, and support sprains, strains, and minor musculoskeletal injuries effectively.

It is widely used in cases of sprains, ligament injuries, post-operative support, muscle fatigue, and general orthopedic compression therapy.

It is manufactured using cotton blended with elastic fibers, providing stretchability, breathability, and firm yet comfortable compression for medical applications.

Yes, it can be reused if properly washed and maintained, although its elasticity and effectiveness should be regularly checked to ensure optimal support performance.

They offer high elasticity, superior tactile sensitivity, and strong barrier protection against microorganisms, bodily fluids, and contaminants in clinical environments.

Yes, they are widely used in healthcare due to their reliable barrier protection, but should be avoided in individuals with latex allergies.

They are designed for single-use only to ensure hygiene, prevent infection transmission, and maintain strict medical safety standards.

Their exceptional elasticity and tactile sensitivity allow surgeons to perform delicate movements with accuracy while maintaining full protective coverage.

They are processed under controlled cleanroom conditions and undergo sterilization methods such as gamma irradiation or ethylene oxide treatment before packaging.

Key characteristics include tear resistance, superior grip, anatomical fit, powder-free finish, and consistent thickness for enhanced surgical control and safety.

They form a reliable barrier against bloodborne pathogens and contaminants, significantly reducing the risk of cross-infection during invasive medical procedures.

It enables precise administration of milk, fluids, or medications in measured amounts, ensuring safe and regulated nutritional support without stressing the infant’s digestive system.

It features a soft, flexible, biocompatible structure with rounded atraumatic tips to minimize tissue irritation and ensure safe insertion in delicate neonatal anatomy.

It is essential in neonatal intensive care for premature infants, neurologically impaired babies, or those with feeding difficulties requiring assisted nutritional support.

Strict aseptic insertion techniques, correct placement verification, continuous monitoring, and timely replacement are followed to ensure safe and complication-free enteral feeding.

It is applied to the newborn’s umbilical cord to create a secure seal, allowing safe cutting and minimizing the risk of bleeding or infection at the cord site.

It features a strong locking mechanism, atraumatic grip, and medical-grade material construction to ensure secure closure without damaging delicate neonatal tissue.

It is used in hospitals, maternity wards, and delivery rooms during normal and cesarean deliveries as part of standard neonatal care procedures.

Sterility prevents microbial contamination at the cord stump, significantly reducing the risk of neonatal infections during the critical post-delivery period.