Skip to content
+1 (888) 687-4334 | sales@mountainside-medical.com
New users? Get 5% off on your first purchase.
Free US shipping over $100
New users? Get 5% off on your first purchase.
Free US shipping over $100
Login

Added to your cart:

Cart subtotal

View cart (2) Checkout
Anesthesia Supplies Drive Medical Equipment Medical Equipment Medical Equipment Respiratory Center Supplies Suction Machine Pumps Suction Machines Veterinary Supplies Portable Suction Machines Allied Healthcare Medical Examiner / Morgue Schuco Medical Respiratory Supplies Dynarex Medical Supplies, Gloves, Gauze Intubation Supplies Sterile Medical Supplies Suction Yankauers Devilbiss Healthcare Products Emergency Medical Supplies (EMS Supplies) Gomco Suction Machine Aspirators and Pumps Suction Canisters Oxygen Tanks Suction Machine Tubing Amsino Suction Catheters Suction Catheters Suction Machine Filters Covidien Medical Supplies Hospital Medical Supplies Biohazard Clean Up Products Correctional Medical Supplies Fluid Control Solidifiers Wound Care Clinic Supplies Cardinal Health Products

Filters

Availability
Price
$
-
$
$0 $1499
Vendor
Collection
Tags

Suction Machines

Suction Machines: Types and How to Use Them

A suction machine (or medical aspirator) is a device that creates negative pressure (a vacuum) to remove unwanted fluids from the body. In medicine it is commonly used to clear a patient’s airway or surgical field of mucus, blood, vomit or other secretions, so the patient can breathe or the surgeon can see the field. Such devices may run on electricity or battery, or even be hand- or foot-operated pumps. In hospitals, suction is often supplied via wall outlets connected to a central vacuum system. A typical machine includes tubing, a vacuum pump or compressor, a pressure gauge, a collection canister, on/off controls, and a filter or regulator to control suction strength.

Types of Suction Machines

  • Manual (hand/foot) suction: These devices use a hand pump or foot pedal to create suction, requiring no electricity. They are lightweight and portable, so they are often used in field settings, ambulances, or emergency first-aid situations where power may be unavailable. A hand-held plunger or squeeze bulb can also serve (some simple aspirators use a manually pumped syringe). The drawbacks are that continuous pumping effort is fatiguing and the vacuum strength depends on the user’s force, so it’s less powerful than electric units.

  • Portable (battery-powered) suction: These are compact electric machines powered by rechargeable batteries. They are used in ambulances, home care, or remote locations. A typical portable suction unit contains a small motor-driven pump, tubing and a collection jar, and runs on AC power or internal batteries. They offer moderate suction strength and full mobility (some models even run off vehicle power). The battery life limits continuous use, and they generally produce less sustained suction than larger units.

  • Electric (stationary) suction machines: These plug into mains power and provide strong, continuous suction over long periods. Larger models (sometimes called suction pumps) are used in hospitals, clinics and operating rooms. They have powerful motors to generate high negative pressure for tasks like surgical field clearing or wound drainage. Because they require mains electricity, these units are less portable. In hospitals, many units are wall-mounted or built into a pipeline system to save space. A wall-mounted machine is fixed near a patient’s bed and its vacuum taps into the central vacuum supply.

  • Central vacuum systems: Many healthcare facilities use a centralized vacuum network. The in-wall or in-ceiling vacuum ports connect to a building-wide suction system. This provides reliable suction throughout a hospital without needing separate portable pumps. Each room typically has a regulator and gauge on the wall outlet. (Some specialized high-volume systems, like gastric or Jackson-Pratt drains, may use continuous wall suction.)

How to Use a Suction Machine

Using a medical suction machine safely involves several steps: setting up the equipment, preparing the patient and catheter, performing suctioning correctly, and cleaning afterward. Below is a general procedure (specific models may vary; always follow the manufacturer’s and clinician’s instructions).

  1. Prepare the machine and supplies: Place the suction unit on a firm, flat surface near the patient. Attach a clean collection canister or jar into the machine. Connect the short tubing from the pump outlet to the canister lid, and the longer tubing from the lid to the suction catheter or Yankauer tip. If the machine is electric, plug it into the power supply; if battery-powered, ensure the battery is charged. Turn the unit on and test suction by blocking the catheter end with your thumb – you should feel vacuum suction. Adjust the vacuum regulator or knob to the desired pressure. Typical guideline vacuum settings are around 80–100 mmHg for infants, ~100–120 mmHg for children, and 100–150 mmHg for adults. (Exact values may vary by protocol.) Verify the pressure on the gauge; if it’s too low, check all connections for leaks and readjust the regulator or occlude valve as needed.

  2. Prepare the patient and catheter: Explain the procedure to the patient. Wash your hands thoroughly and put on disposable gloves.. Attach a sterile suction catheter to the tubing. For oral suctioning, use a Yankauer tip or a sterile catheter; for nasal/tracheal suctioning (intubated or tracheostomy patient), use an appropriately sized flexible catheter. Position the patient with the head turned to the side or in a slightly upright position to avoid aspiration if vomiting occurs.

  3. Perform suctioning: Gently insert the catheter into the patient’s mouth (for oropharyngeal suction) or nose (nasopharyngeal/tracheal suction), advancing slowly toward the back of the throat until you feel slight resistance or the patient coughs. As you withdraw the catheter back out, intermittently cover the catheter’s control vent or thumb hole to apply suction. Do not apply suction continuously; instead, suction for short bursts – typically no more than 10–15 seconds at a time. During suctioning, constantly rotate the catheter while withdrawing to clear secretions from all sides. Observe the patient: suctioning often induces coughing or gagging, which is normal; pause if the patient seems distressed and allow them to breathe between passes. Suctioning too long or too vigorously can cause hypoxia or trauma. If needed, repeat suctioning after a rest period. (Monitor oxygen saturation and vital signs, especially in critical patients.)

  4. After suctioning: Once clear of secretions, turn off the suction machine. Detach and dispose of the used catheter (if disposable) or set aside for cleaning. Empty the collection canister by carefully disposing of the fluid in a toilet (not a sink). Rinse the canister, tubing, and lid in warm soapy water; disinfect by soaking in a mild solution (for example, one part vinegar to three parts water) for about an hour. Rinse all parts again with clean water and let them air dry before next use. Change or clean the bacterial filter periodically. Regular cleaning prevents bacterial growth and malfunction.

Clinical indications: Suctioning is used whenever a patient cannot clear breathing passages adequately on their own. This includes patients with tracheostomies, those on ventilators, or anyone producing excessive secretions due to illness (e.g. after stroke, with neuromuscular disease, head injury, or during surgery). In dental settings, a high-volume suction wand is used to remove saliva and debris from the mouth. In all cases, suctioning helps prevent aspiration of fluids into the lungs and improves comfort by clearing the airway.

Safety notes: Always follow your healthcare facility’s protocol or device manual. Do not exceed recommended suction pressure (excessive vacuum can damage mucosa). Monitor the patient for cough, irregular breathing or distress. Replace disposable catheters between uses or autoclave reusable tips. With proper technique and hygiene, suction machines are a vital tool to keep patients’ airways clear and support breathing.

People Also Searched For

Suction Machines to Suction Canister Suction Yankauers Suction Machine Pumps Portable Suction Machines Dynarex Medical Supplies, Gloves, Gauze Suction Canisters Suction Catheters Anesthesia Supplies Allied Healthcare Respiratory Supplies

Suction Machines: Types and How to Use Them

A suction machine (or medical aspirator) is a device that creates negative pressure (a vacuum) to remove unwanted fluids from the body. In medicine it is commonly used to clear a patient’s airway or surgical field of mucus, blood, vomit or other secretions, so the patient can breathe or the surgeon can see the field. Such devices may run on electricity or battery, or even be hand- or foot-operated pumps. In hospitals, suction is often supplied via wall outlets connected to a central vacuum system. A typical machine includes tubing, a vacuum pump or compressor, a pressure gauge, a collection canister, on/off controls, and a filter or regulator to control suction strength.

Types of Suction Machines

  • Manual (hand/foot) suction: These devices use a hand pump or foot pedal to create suction, requiring no electricity. They are lightweight and portable, so they are often used in field settings, ambulances, or emergency first-aid situations where power may be unavailable. A hand-held plunger or squeeze bulb can also serve (some simple aspirators use a manually pumped syringe). The drawbacks are that continuous pumping effort is fatiguing and the vacuum strength depends on the user’s force, so it’s less powerful than electric units.

  • Portable (battery-powered) suction: These are compact electric machines powered by rechargeable batteries. They are used in ambulances, home care, or remote locations. A typical portable suction unit contains a small motor-driven pump, tubing and a collection jar, and runs on AC power or internal batteries. They offer moderate suction strength and full mobility (some models even run off vehicle power). The battery life limits continuous use, and they generally produce less sustained suction than larger units.

  • Electric (stationary) suction machines: These plug into mains power and provide strong, continuous suction over long periods. Larger models (sometimes called suction pumps) are used in hospitals, clinics and operating rooms. They have powerful motors to generate high negative pressure for tasks like surgical field clearing or wound drainage. Because they require mains electricity, these units are less portable. In hospitals, many units are wall-mounted or built into a pipeline system to save space. A wall-mounted machine is fixed near a patient’s bed and its vacuum taps into the central vacuum supply.

  • Central vacuum systems: Many healthcare facilities use a centralized vacuum network. The in-wall or in-ceiling vacuum ports connect to a building-wide suction system. This provides reliable suction throughout a hospital without needing separate portable pumps. Each room typically has a regulator and gauge on the wall outlet. (Some specialized high-volume systems, like gastric or Jackson-Pratt drains, may use continuous wall suction.)

How to Use a Suction Machine

Using a medical suction machine safely involves several steps: setting up the equipment, preparing the patient and catheter, performing suctioning correctly, and cleaning afterward. Below is a general procedure (specific models may vary; always follow the manufacturer’s and clinician’s instructions).

  1. Prepare the machine and supplies: Place the suction unit on a firm, flat surface near the patient. Attach a clean collection canister or jar into the machine. Connect the short tubing from the pump outlet to the canister lid, and the longer tubing from the lid to the suction catheter or Yankauer tip. If the machine is electric, plug it into the power supply; if battery-powered, ensure the battery is charged. Turn the unit on and test suction by blocking the catheter end with your thumb – you should feel vacuum suction. Adjust the vacuum regulator or knob to the desired pressure. Typical guideline vacuum settings are around 80–100 mmHg for infants, ~100–120 mmHg for children, and 100–150 mmHg for adults. (Exact values may vary by protocol.) Verify the pressure on the gauge; if it’s too low, check all connections for leaks and readjust the regulator or occlude valve as needed.

  2. Prepare the patient and catheter: Explain the procedure to the patient. Wash your hands thoroughly and put on disposable gloves.. Attach a sterile suction catheter to the tubing. For oral suctioning, use a Yankauer tip or a sterile catheter; for nasal/tracheal suctioning (intubated or tracheostomy patient), use an appropriately sized flexible catheter. Position the patient with the head turned to the side or in a slightly upright position to avoid aspiration if vomiting occurs.

  3. Perform suctioning: Gently insert the catheter into the patient’s mouth (for oropharyngeal suction) or nose (nasopharyngeal/tracheal suction), advancing slowly toward the back of the throat until you feel slight resistance or the patient coughs. As you withdraw the catheter back out, intermittently cover the catheter’s control vent or thumb hole to apply suction. Do not apply suction continuously; instead, suction for short bursts – typically no more than 10–15 seconds at a time. During suctioning, constantly rotate the catheter while withdrawing to clear secretions from all sides. Observe the patient: suctioning often induces coughing or gagging, which is normal; pause if the patient seems distressed and allow them to breathe between passes. Suctioning too long or too vigorously can cause hypoxia or trauma. If needed, repeat suctioning after a rest period. (Monitor oxygen saturation and vital signs, especially in critical patients.)

  4. After suctioning: Once clear of secretions, turn off the suction machine. Detach and dispose of the used catheter (if disposable) or set aside for cleaning. Empty the collection canister by carefully disposing of the fluid in a toilet (not a sink). Rinse the canister, tubing, and lid in warm soapy water; disinfect by soaking in a mild solution (for example, one part vinegar to three parts water) for about an hour. Rinse all parts again with clean water and let them air dry before next use. Change or clean the bacterial filter periodically. Regular cleaning prevents bacterial growth and malfunction.

Clinical indications: Suctioning is used whenever a patient cannot clear breathing passages adequately on their own. This includes patients with tracheostomies, those on ventilators, or anyone producing excessive secretions due to illness (e.g. after stroke, with neuromuscular disease, head injury, or during surgery). In dental settings, a high-volume suction wand is used to remove saliva and debris from the mouth. In all cases, suctioning helps prevent aspiration of fluids into the lungs and improves comfort by clearing the airway.

Safety notes: Always follow your healthcare facility’s protocol or device manual. Do not exceed recommended suction pressure (excessive vacuum can damage mucosa). Monitor the patient for cough, irregular breathing or distress. Replace disposable catheters between uses or autoclave reusable tips. With proper technique and hygiene, suction machines are a vital tool to keep patients’ airways clear and support breathing.

Get Notified When Back in Stock