JP2012250008A - Administration device for tube feeding - Google Patents

Abstract

PROBLEM TO BE SOLVED: To cope with three tube feeding methods, to utilize an existing device in a hospital for compressed air, to simplify complex work, and to reduce burdens.SOLUTION: A screw part (6) is provided on the upper part of a cylindrical stand (2), the stand (2) is provided with a lid (1), a discharge hole (8) is provided on the lower part of the stand (2), and a hole (5) is provided on the upper surface of the lid (1). The hole (5) is provided with a joint (9) for a thickener, a bottle (3) is provided on the inner side of the cylindrical stand (2), the bottle (3) is provided with a bottle projection (4), and a floating valve (10) is provided inside.

Description

  The present invention relates to a tube feeding device capable of providing three methods of drip-type, thickener and spout pack administration methods in a tube feeding method from a basic part and an additional part of a replacement joint.

In the administration of the tube feeding method, there are 3 types of individual administration devices, i.e., drip-type, thickener, and spout pack administration, and there is no prior art change. It is a possible invention.
There were an infusion type (bottle type), a thickening (syringe), and a spout pack pressure bag.

  JP 2009-11802 A   JP 2010-099406 A

In the three methods of nutrition, conventional products existed individually.
The nutrients applied may be changed depending on the patient's physical condition and constitution.
There was no invention corresponding to the three methods by parts replacement.
The infusion type was used on a conventional method, an infusion hanger.
A high-viscosity gel-like infusion solution in which a thickener is mixed with a nutrient is administered by connecting a syringe with a volume of about 50 cc to the gastric fistula catheter repeatedly by sucking and administering the nutrient to the stomach several times.
When the syringe capacity is 50 cc, it is necessary to perform the nutritional supplement administration 6 to 10 times at about 300 cc to 500 cc.
At this time, inhalation of the nutrient into the syringe and administration to the gastric fistula catheter are performed a plurality of times, which takes about 5 to 10 minutes.
The high-viscosity nutrient attached to the syringe tip adheres to the stomach catheter connection part and must be wiped off, thus repeating a complicated process.
The administration method that relies on the grip strength of the spout pack crushes and pushes out the spout pack with both hands when there is no grip strength.
Commercially available spout pack semi-solid nutritional foods have a heavy burden of nursing by administering jelly-like infusions by grip force.
Or, the dedicated pressure back type cannot be used for various types of spout packs.
Or, there is a problem that the structure becomes complicated.
The present invention solves this problem by reducing the simplification and burden of two of the three methods of tube feeding, and responding to changes in administration methods from changes in symptoms.

A conventional hanger is attached to the drip-type tube feeding method.
The parts of Enomoto consist of three points: lid (1), stand (2), bottle (3), and the airtightness of bottle (3) sandwiched between lid (1) and stand (2) is maintained. Compressed air is sent and the infusion in the bottle is pushed out.
In the case of nutrients using thickener, the pressurized air sent from the pump raises the air pressure of the air chamber from the catheter attached to the upper lid (1) through the thickener replacement joint (9). Extrude.
The thickener replacement joint (9) attached to the lid (1) is shaped so that the compressed air return catheter cannot be fixed in order to prevent excess air from being sent to the stomach when fixed.
Also, the valve floated on the top of the nutrient solution became small when the nutrient solution became small, and at the bottom of the bottle (3), the high-viscosity nutrient solution became funnel-like and mixed with air. A valve closes the outlet and blocks air.
The spout pack passes through the catheter from the bottom of the bottle (3), and the pressurized air raises the air pressure in the bottle (3) to crush the spout pack and push out the semi-solid nutrient.
A special stirrer can be used while mixing the thickener, water, and nutrients with the stopper at the bottom outlet of the bottle (3) to prevent the outflow of the contents.

The three methods of tube feeding may vary depending on the condition of the patient, and if there is a device, it is necessary to change the device, and the present invention is economical because only a joint is replaced and added.
The enemy type continues its conventional form.
Dissolving the thickener with water and mixing it with nutrients, the administration with a syringe repeats complicated operations, the commercial bottle administration relies on the grip strength, and responds to multiple patients in the hospital, so the burden of nursing is greatly compressed air Administration can reduce burden and time.
Spout pack administration can reduce the burden by air pressure for administration that relies on grip strength.
Administration that relies on grip strength can be used in hospitals with existing equipment (inhalers).
Compatible with an unspecified number of spout packs. There is no need for a dedicated dispenser.
When using a special stirrer, when a thickener is used, the thickener and nutrients are mixed in a separate container. Therefore, the equipment used is necessary, and the use of a special stirrer reduces the equipment.

  It is a perspective view of a section when using the thickener of the present invention.   It is a perspective view of a section when using the spout pack of the present invention.   It is a perspective view of a section when using the exclusive stirrer of the present invention.

The bottle consists of three basic parts, the lid (1), the stand (2), the bottle (3), the bottle (3) sandwiched between the lid (1) and the stand, and the compressed air is sent to the bottle. It is characterized by extruding the infusion solution inside.
This is a dosing device corresponding to two methods that can be used on conventional hangers.
For administration in which the infusion is pushed out with compressed air, the bottle (3) stores the infusion, shares the air chamber, has a bottle protrusion (4) on the top of the bottle (3), and on the outer circumference, and is provided inside the stand (2) cylinder Receive the protrusion (4) of the bottle.
When the stand (2) and the lid (1) are closed, the bottle protrusion (4) is sandwiched between the stand (2) and the lid (1) to form an air chamber in a sealed space.
Compressed air for extruding infusion requires equipment such as an inhaler in hospitals.
At home, existing equipment such as rental inhalers or leisure pumps is used, and no dedicated equipment is required.
The floating valve stops mixing of the high-viscosity infusion with the air that occurs at the end, and at the end, the floating valve floats on the surface of the infusion and blocks the air at the infusion outlet.

In the case of thickening nutrients, a bottle (3) is provided inside the stand (2), and the thickening nutrients mixed in the bottle (3) are added.
The lid (1) is set on the screw part (6) provided on the bottle (3) on the stand (2).
The bottle (3) sandwiched between the lid (1) stand (2) is sealed.
Compressed air is sent to the air chamber through the thickening replacement joint (9).
Since the compressed joint of the electric pump is continuously sent, the thickening replacement joint (9) is not fixed so that the supply can be stopped at any time, but is always held by hand.
Nutrient supplemented with compressed air in the air chamber is sent from the lower part of the bottle (3) to the gastric fistula through the catheter joint (7).
When the amount of nutrients in the floating valve 4 decreases, the nutrients with high viscosity become funnels at the bottom of the bottle (3), and the nutrients and air are mixed in the catheter and sent to the gastric fistula.
The floating valve is a safety valve that mixes air and blocks compressed air.
When using the present invention,
Description of (FIG. 1) A joint (9) for thickener is set on the lid (1).
Connect to the catheter joint (7) and pass the catheter through the hole (8).
Set the bottle (3) on the stand (2).
The float valve (10) is floated on the thickened nutrient solution surface, the bottle (3) is sandwiched between the stand (2), and the lid (1) is put into a sealed state.
When sending compressed air such as a nepriser to the replacement joint for thickening (9), adjust the flow rate sent to the gastric fistula by adjusting the pressure adjustment dial of compressed air, Adjust the flow rate by adjusting.
When no nutrients are left, the floating valve sticks to the bottom of the bottle and blocks air.
Description of (FIG. 2) The bottle (3) is sandwiched between the stand (2) and the lid (1) and sealed by the screw part (6). The compressed air is passed through the catheter, through the hole (8) through the catheter joint (7). Sent from the bottom of the bottle.
The compressed air in the air chamber crushes the spout pack (11) and is sent to the gastric fistula through the spout pack replacement joint (12).
(Description of FIG. 3) It is confirmed that the catheter is connected to the catheter joint (7).
The catheter joint is closed with a stirrer (13).
After pouring water, the thickener is administered, and the upper part of the agitator (13) is stirred by rotating the knob.
Add nutrients to a mixture of water and thickener and stir.

DESCRIPTION OF SYMBOLS 1 Cover 2 Stand 3 Bottle 4 Bottle protrusion 5 Hole 6 Screw part 7 Catheter joint part 8 Leakage hole 9 Thickener exchange joint 10 Float valve 11 Spout pack 12 Spout pack exchange joint 13 Stirrer

Claims (3)

  A screw part (6) is provided on the upper part of the cylindrical stand (2), a lid (1) is provided on the stand (2), a hole (8) is provided on the lower part of the stand (2), and the upper surface of the cover (1) The hole (5) is provided, the thickener joint (9) is provided in the hole (5), the bottle (3) is provided inside the cylindrical stand (2), and the bottle (3) bottle protrusion is provided (4 ) A tube feeding device characterized by providing a floating valve (10) inside.   A screw part (6) is provided on the upper part of the cylindrical stand (2), a lid (1) is provided on the stand (2), a hole (8) is provided on the lower part of the stand (2), and the upper surface of the cover (1) A hole (5), a hole (5) a spout pack replacement joint (12), a bottle (3) inside a cylindrical stand (2), a bottle (3) a bottle projection (4 ) Is provided with a tube feeding device.   A screw part (6) is provided at the upper part of the cylindrical stand (2), a through hole (8) is provided at the lower part of the stand (2), and a bottle (3) is provided inside the cylindrical stand (2). (3) A bottle nutrient agitator characterized in that: (3) a bottle (3) a bottle protrusion is provided; and (4) a side agitator (13) is provided.

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