RU213285U1 - A device designed to regulate the length of medical catheters by winding them into a coil - Google Patents

Abstract

The utility model relates to the field of medicine and medical technology, in particular to a device designed to automatically adjust the length of medical catheters and hollow tubes by winding them into a coil. The device, thanks to the automatic adjustment of the length of the catheter of the infusion set of the insulin pump, avoids injury to the person using the insulin pump.

The device includes a round body made of two mating parts, equal in circumference. In the center of part 1 of the housing there is a sleeve with a vertical slot, which is an axis for fastening the drum with a flat tape spring installed inside it, the inner end of which is fixed on the sleeve, and the outer end on the vertical wall of the drum. The catheter of the infusion set of the insulin pump is fixed in the drum with its central part, and the free ends are brought out into the holes made on the vertical walls of the drum. On both composite parts of the body, two pairs of guide posts are mirrored opposite each other, designed to hold and guide the catheter so that it does not get tangled during winding-unwinding.

EFFECT: technical result consists in automatic adjustment of the length of the catheter of the infusion set of the insulin pump in order to maintain its optimal length. 2 w.p. f-ly, 4 ill.

Description

The utility model relates to the field of medicine and medical technology, in particular to a device designed to regulate the length of medical catheters and hollow tubes by winding them into a coil.

In modern medical practice, there is a problem that with an unregulated length of the insulin pump catheter, it can become tangled, wrapping it around the patient's body, for example during sleep, can lead to injury, and even strangulation, if the catheter is wrapped around the neck.

The inventive adapter self-rolling to the catheter of the infusion set of the insulin pump is designed to adjust the length of the catheter of the infusion set of the insulin pump. The proposed device allows you to adjust the length of the catheter from a minimum of 0.5 cm in a twisted state to a maximum of 100 cm in a fully untwisted state.

Devices are known from the prior art for adjusting the length, winding-unwinding of thin flexible products for non-medical purposes.

For example, a retractable extension cable for digital devices is known, comprising a cable reel containing a rotating sleeve adapted for winding and unwinding the specified cable, also containing a biasing device that forces the reel to wind the cable and a latch to control and hold the required cable length (fig. 4) (For example, Cable-roulette Hentington HA-1210, USB-microUSB, link to the publication: HDMI Cable Hentington roulette HA-1210, USB-microUSB .).

Such coils are used to regulate the length of the cable of various digital devices, such as a mouse-manipulator, chargers, headphones. The disadvantage is that in the places where the cable exits, the body is made with an angular bend (Fig.4 pos.8), limited by guide posts, in which the medical catheter (as shown by numerous experiments) often gets stuck, catching on the guide posts. Also, the angular bend of the body can cause the catheter to kink, blocking its internal lumen, and create an obstacle for the patient to receive the drug. In addition, these known coils are not medical devices.

Also known from the prior art is a device for automatic rewinding of the headphone cable, which contains a round case with two holes in the side wall - for cable entry and exit, a mechanism is installed inside the case, around which the headphone cable is wound, which extends from the case and retracts inward ( US 2017065064, published 03/09/2017, IPC: A45C11/00; A45C13/00; A45F5/00; A45F5/02; B65H75/44; B65H75/48; H04R1/10).

The disadvantage of this known device, as well as those discussed above, is that they are not intended for winding medical catheters, which are hollow tubes that should not be pinched during winding, in order to avoid stopping the supply of the drug (insulin) to the patient, and must also work without jamming the catheter in the coiler body to avoid pulling out the cannula and injuring the patient.

Similar medical devices designed to automatically adjust the length of medical catheters and hollow tubes by winding them into a coil have not been found in the prior art.

In medical practice, to solve the problem of adjusting the length of the catheter of the infusion set of an insulin pump, the pump is folded into a special bag or belt and fixed on the patient's body. The disadvantages of this method is the risk of catching the catheter tube and pulling out the cannula. With this injury, in addition to physical pain, there is also a risk of delayed complications, because insulin cannot enter the body through the damaged cannula. There is also a risk of injury by wrapping the catheter around the body and causing injury by tugging and squeezing. Children are more susceptible to these risks due to their short stature and more intense physical activity (running, outdoor games, high physical activity).

The task to be solved by the claimed utility model is to create a device that maintains the optimal length of the insulin pump catheter and prevents its uncontrolled unwinding in order to prevent catheter entanglement, as well as to prevent patient injury due to wrapping the catheter around his body.

The technical result of the utility model is to automatically adjust the length of the catheter of the infusion set of the insulin pump in order to maintain its optimal length.

The inventive device, due to the automatic adjustment of the length of the catheter of the infusion set of the insulin pump, avoids injury to the person using the insulin pump, and eliminates the risk of wrapping the catheter around the neck and other parts of the body.

The specified technical result is achieved by using a device that consists of a round body made of two components equal in circumference, in the center of one of which there is a sleeve with a vertical slot, which is an axis for fastening the drum mounted on the sleeve with the possibility of rotation, with a flat spiral band spring installed inside the drum, the inner end of which is fixed on the sleeve, and the outer end is attached to the drum, in the vertical walls of the drum there are two holes for the output of the ends of the catheter of the insulin pump infusion set, which with its central part is fixed inside the drum, on the body parts symmetrically four guide racks are made in pairs to limit the direction of the ends of the catheter to prevent its entanglement. The guide racks are made in the form of connecting counterparts on both halves of the body.

The catheter is untwisted due to mechanical action - the movement of the pump during walking and other forms of activity, and the catheter is twisted back due to a movable drum with a spring installed inside it. The device uses a tape flat-spiral spring installed inside the drum, while the inner end of the spring is fixed on a sleeve with a slot (axis), and the outer end is fixed on the vertical wall of the drum.

Proper fastening of the ends of the spring should ensure the concentric arrangement of the coils of the spring around the axis of the drum. In the wound state, the spring has a reserve of potential energy. When descending, the spring is able to do work by rotating the drum.

The body of the device has a round shape, the exit points of the catheter are made without guiding bends. When the body of this shape is made, the catheter does not jam or kink, which prevents the free flow of the drug (insulin), the catheter does not cling to the body and does not get stuck.

The catheter inside the device is located as follows. The central part of the catheter is fixed inside the drum, and the free ends are brought out of the drum through the holes in the walls of the drum intended for this purpose, and from the device body between the guide posts arranged in pairs. During operation of the device, the free ends of the catheter are wound on the drum from the outside (on the outer surface of the drum).

The spring is released automatically, i.e. the tension of the spring inside is not fixed, the tension occurs due to mechanical action (when walking, running and other activities). When stretching stops, the spring smoothly returns to its original state, while reducing the length of the catheter and at rest the catheter is in a slight tension.

The description of the utility model is explained by the following illustrative materials:

Fig. 1 - Scheme of the assembly of the device.

Fig. 2 - General view of the finished device in the assembled state.

Fig. 3 - Drum, top view.

Fig. 4 – General view of the analogue device.

List of reference symbols indicated on the illustrative materials:

1 - body part containing a bushing;

2 - body part, mating part 1;

3 - sleeve with a slot (axis);

4 - guide racks;

5 - drum;

6 - spring;

7 - catheter of the infusion set of the insulin pump;

8 - the place of catheter jamming on the body of the analogue device.

9 - the place of attachment of the outer end of the flat spring.

10 - location of the central part of the catheter.

11 - the place of the output of the ends of the catheter from the drum.

The device for adjusting the length of the catheter of the infusion set of the insulin pump includes a round-shaped body made of two mating parts, equal in circumference: part 1 of the body and part 2 of the body. In the center of part 1 of the housing there is a sleeve 3 with a vertical slot, which is an axis for fastening the drum 5 with a flat tape spring 6 installed inside it, the inner end of which is fixed on the sleeve 3, and the outer end is fixed at the attachment point 9 on the vertical wall of the drum 5, and with its central part fixed in the space 10 of the drum 5 with the catheter 7 of the infusion set of the insulin pump, the free ends of which are brought out into the holes 11 made on the vertical walls of the drum 5. On the parts 1 and 2 of the body, two pairs of guide racks 4 are mirrored opposite each other, designed for holding and guiding the catheter 7 of the insulin pump infusion set so that it does not get tangled when unwinding.

A hole is made in the center of the drum 5, with the help of which it is installed on the sleeve 3 (axle). In the side walls of the drum 5, two holes 11 are made, designed to bring out the free ends of the catheter 7.

The design of the adapter can be made in a non-separable or collapsible design. In a collapsible version, the guide racks are locks-latches of the body parts. In a non-separable design, gluing of body parts is implied.

The body of the device is made of polymer material. In a particular case, the implementation of the device is made of PETG plastic by printing on a 3D printer.

The device works as follows.

The untwisting of the catheter 7 of the infusion set of the insulin pump occurs due to mechanical action - the movement of the adapter and the pump when walking and other forms of activity, and the twisting of the catheter 7 back occurs due to the rotating drum 5 with the spring 6 installed inside it.

When pulling out the catheter 7, the drum 5 rotates relative to the sleeve 3 (axis), while the spring 6 is compressed around the sleeve 3 (axis). In this state, the spring has a reserve of potential energy. During the descent (release of tension, sagging of the catheter), the spring 6 performs work by rotating the drum 5, on which the free ends of the catheter 7 are wound.

Device implementation example

A prototype device for adjusting the length of the catheter of an insulin pump infusion set is made as follows: two parts of the body and a drum are made separately on a MAESTRO 3D printer from PETG plastic. The drum diameter is 17 mm, the outer diameter of the body is 40 mm. Further assembly was carried out according to Fig.1: a drum 5 was installed on the sleeve 3 of the housing part 1, inside which a flat spiral tape spring 6 with an outer diameter of 12 mm was installed, a catheter 7 100 cm long was filled with a central part into the space 10 of the drum 5, and the free ends taken out of the drum through holes 11, evenly placed around the outer part of the drum (wound on the drum from the outside) and taken out of the body between the guide posts 4. After that, the parts 1 and 2 of the body were connected, aligning the guide posts 4 and glued. The height of the device in the assembled state is 20 mm, the diameter is 40 mm.

Claims (3)

1. A device designed to regulate the length of medical catheters by winding them into a coil, including a round body, consisting of two components equal in circumference, in the center of one of which there is a sleeve with a vertical slot, which is an axis for attaching a drum mounted on a sleeve with the possibility of rotation, with a flat band spring installed inside the drum, the inner end of which is fixed on the sleeve, and the outer end is attached to the drum; two holes are made in the vertical walls of the drum for the output of the ends of the catheter, which is fixed inside the drum with its central part; two pairs of guide posts are mirrored on the housing parts in the places where the catheter ends are brought out, between which the ends of the catheter are placed. 2. The device according to claim 1, characterized in that the body parts and the drum are made of a polymer material, such as PETG plastic. 3. The device according to claim 1, characterized in that the body parts and the drum are printed on a 3D printer.

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