RU2535601C1 - Syringe handle device - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: device comprises a body, an inner surface of which is threaded to facilitate the dosage unit travel; a cartridge holder coupled to the body; a dosage mechanism; a drive mechanism; a rod cuff and a protective cap. The developed dosage mechanism comprises: a) a dosage unit bushing, b) a dosage unit core and c) a spring-assisted element.

EFFECT: using the invention enables providing more accurate drug dosing, reducing an effort spent for pressing a button, thereby providing smoother administration of insulin, reducing the number of parts of the mechanism that enables reducing manufacturing cost inputs, and also makes the syringe handle device lighter, and ensures a lower probability of assembly errors and a lower risk of the operational mechanism seizure.

3 cl, 6 dwg

Description

The invention relates to medical devices for administering drugs, and more particularly to devices that allow the administration of selectively measured doses of a drug, and can be used for self-subcutaneous injections of insulin in the treatment of diabetes mellitus.

Patients with diseases such as diabetes should inject insulin several times every day. Since the volume of the insulin solution to be administered with each injection varies, it is imperative that such patients be able to accurately measure the volume of insulin.

Diabetic patients typically use a typical syringe to inject insulin. Glass syringes are inconvenient because require sterilization and cannot provide a sufficiently accurate dosage of insulin. When using plastic syringes, syringes with a built-in needle are recommended, which eliminates the so-called "dead space" in which a certain amount of solution remains in an ordinary syringe with a removable needle after injection. Thus, with each introduction, a certain amount of the drug is lost, which, given the magnitude of the incidence of diabetes, results in huge economic losses.

In recent years, semi-automatic insulin dispensers, the so-called pen syringes, have become increasingly common. Handle syringes are more convenient to carry, they are less noticeable than syringes.

Syringe pens can be divided into reusable and disposable (prefilled).

Reusable pen syringes are convenient. They make it possible to administer insulin without having to inject it each time with a syringe from the vial. However, reusable pen syringes have their drawbacks. For example, before each injection, you need to change the needle, which should be removed after insulin is injected in order to prevent leakage. In these syringe pens, insulins cannot be mixed and not all cartridges fit together. In addition, they have a high cost, as well as difficulties in the case of the need for their repair.

Pre-filled, single-use syringes make it easier to administer insulin, which is convenient for many patients. Diabetic patients often prefer this particular injection device with reusable pen syringes and regular insulin syringes because of the convenience and ease of use, which allows them to inject themselves without difficulty when necessary. According to global trends, the use of prefilled pen syringes is growing, and will continue to grow due to the convenience of this injection device. The advantage of the disposable pen is that it eliminates the need to insert a new cartridge into the syringe pen, as is necessary in reusable syringes, which simplifies the method of insulin administration (there is no need for additional preliminary manipulations associated with installing the cartridge in the syringe pen) and makes the procedure for administering insulin more comfortable for the patient.

The closest technical solution to the claimed pen-syringe is a pen-syringe, known as described in the PCT application (WO 2012/090058 A1, 05/07/2012). The specified syringe pen is designed to enter the medication and has a device that allows the user to correct the incorrect dose setting using the return function, which allows the user to reset the dose without releasing the medicine and without having to pull the dose selector head to the reset position. The specified syringe pen contains a housing, a cartridge holder configured to connect to the housing, a dispensing mechanism, a drive mechanism, and a protective cap configured to detachably connect to the cartridge holder.

The disadvantages of the known syringe pens are:

low accuracy of installation and dose adjustment;

a large number of interacting parts of complex shape, which increases the cost of manufacturing costs, makes the syringe pen heavier, increases the likelihood of errors and errors in the production of parts, and also increases the risk of jamming of the syringe pen mechanism during use.

The tasks to which the present invention is directed are:

increasing the accuracy of the dosage of the drug;

decrease in effort of pressing a button, thereby providing a softer administration of insulin;

reducing the number of parts of the mechanism, which reduces the cost of manufacturing costs, and also makes the syringe pen easier;

reducing the likelihood of errors and errors in the production of parts; as well as

reduction of the risk of jamming of the mechanism during operation.

These tasks are achieved by a syringe pen containing a housing on the inner surface of which a thread is applied to ensure the movement of the dispenser; cartridge holder, made with the possibility of connection with the housing; a dispensing mechanism including a button and a dispenser having two parts with different diameters, while a thread is made on the outer surface of the part with a smaller diameter, and notches are arranged along the inner diameter of the part with a large diameter; a drive mechanism including a pusher with a rod, on the surface of which a thread is made; a stem coupling rigidly fixed to the housing and having an internal thread matching the thread on the stem and a protective cap configured to detachably connect to the cartridge holder; The specified dispensing mechanism also includes: a) a dispenser sleeve having, on the one hand, a part with a larger external diameter, and on the other, two longitudinal grooves made on the inner surface, while the dispenser sleeve is installed inside the dispenser so that part of the dispenser sleeve with a larger external diameter was inside the part of the dispenser with a large diameter, in addition, in the part of the sleeve that is in contact with the dispenser, notches are applied, similar to those on the inside of the dispenser; b) the core of the dispenser, arranged to accommodate the inside of the dispenser sleeve and having at one end on the outer surface two protrusions that engage with the grooves of the dispenser sleeve, at the other end, hooks that engage the core with the coupling, thus excluding only translational motion the core, as well as a longitudinal hole, configured to provide rigid adhesion of the core to the piston during rotation, and c) a spring element located in the portion of the dispenser with a large diameter between and the dispenser sleeve, which has legs with elastic petals and is designed in such a way that when the dose is increased or decreased, the dispenser also rotates and moves in the longitudinal direction, and the dispenser sleeve only translates, and when the button is pressed for injection, the dispenser , and the dispenser sleeve carry out both rotational motion and translational motion.

In addition, there is an indicator window in the case, on the outer surface of the portion of the dispenser with a smaller diameter, a scale for selecting a dose is plotted, and the outer surface of the portion of the dispenser with a larger diameter is embossed.

Below the invention is explained in more detail with reference to the drawings, which show:

figure 1, a, b - the syringe pen according to the invention, complete;

figure 2 is a longitudinal section of a syringe pen along the line aa according to figure 1;

figure 3, a, b - the syringe pen according to the invention, in disassembled form;

4 is a perspective view of a spring element;

5, a, b, c - spring element, in three projections;

6 is a longitudinal section of the spring element along the line aa according to figure 5.

The proposed syringe pen contains a housing 2, a cartridge holder 11, a dispensing mechanism, a drive mechanism, a rod clutch 8 and a protective cap 1.

In case 2 there is an indicator window in which, when choosing a dose, a selectable dose is visible opposite the pointer. A wide thread is applied on the inner surface of the casing 2 to ensure the movement of the dispenser 3. Also on the inner surface of the casing there are special grooves and a thread for attaching the rod clutch 8 and the insulin cartridge holder 11.

The cartridge holder 11, in turn, is configured to connect to the housing 2. On the outside of the holder 11 is a cartridge scale. At the end of the holder there is a thread for a needle (not shown in the drawings).

The drive mechanism includes a pusher 10 and a rod 9. A thread is made on the surface of the rod 9, due to which, when interacting with the rod clutch 8, the translational movement of the rod 9 occurs. The pusher 10 has a shape that provides a tight contact of the rod 9 with the piston of the insulin cartridge.

The clutch 8 of the rod is rigidly fixed to the housing 2. Inside the clutch 8 is a thread that matches the thread on the rod 9.

The protective cap 1 is made with the possibility of detachable connection with the holder 11 of the cartridge. The size of the protective cap is calculated taking into account the possibility of using needles of different lengths.

The dispensing mechanism includes a button 4, a dispenser 3, a dispenser sleeve 6, a dispenser core 7 and a spring element 5.

Button 4 of the dispenser has a convenient “concave” shape for pressing, it is fixed in the dispenser 3 during assembly. The dispenser button can have different colors: green, orange (depending on the insulin used, a solution or suspension, so that it is easier and more convenient for the patient to use, remove the risk that the patient may confuse).

Dispenser 3 has two parts with different diameters. The part of the dispenser, made with a large diameter, is intended for contact with the hand when setting the dose. On the external surface of this part of the dispenser there is a relief convenient for rotation, which allows the doser to be rotated without any special effort when choosing a dose. The portion of the dispenser with a smaller diameter, on the outer surface of which a scale for dose selection is applied, has a wide thread similar to that applied to the inside of the housing 2. This thread allows you to create a translational movement of the dispenser 3 during its rotation. According to the inner diameter of the portion of the dispenser with a large diameter, 22 notches are located. The notches are located exactly in the place of contact of the dispenser 3 with the sleeve 6 of the dispenser.

The dispenser sleeve 6 at one end has a small part with a larger outer diameter. The dispenser sleeve 6 is installed inside the dispenser 3 so that a part of the dispenser sleeve 6 with an increased outer diameter is inside the part of the dispenser with a large diameter. This ensures the interconnection of the sleeve 6 of the dispenser and the dispenser 3: the dispenser 3 rotates, comes into translational motion (“increasing” the length of the “syringe-pen”), and “drags” the dispenser sleeve 6 along with it. Due to the fact that the "narrowing" of the inner part of the diameter of the dispenser 3 coincides with the same "narrowing" of the outer diameter of the sleeve 6 of the dispenser, the sleeve does not have the slightest chance of "falling behind" the dispenser when it moves. At the same time, the sleeve may well “overtake” the dispenser, in the absence of other restrictions. In addition, in that part of the dispenser sleeve 6 that is in contact with the dispenser 3, notches are applied that are similar to those on the inside of the dispenser (22 gears). Therefore, with a rigid coupling of the sleeve 6 and the dispenser 3, they will be forced to rotate at the same time. On the inner surface of the dispenser sleeve 6, there are two longitudinal grooves that provide coupling of the sleeve 6 with the dispenser core 7 during rotation.

The core 7 of the dispenser is arranged to be placed inside the sleeve 6 of the dispenser. The core 7 of the dispenser has two small protrusions on the outer surface, which allow for rigid adhesion with the sleeve 6 of the dispenser during rotation. A longitudinal hole is made inside the dispenser core 7, which repeats the shape of the piston. This provides a rigid grip of the core with the piston during rotation. On one end of the core on the outside there are hooks that tightly adhere the dispenser core 7 to the stem clutch 8, thus eliminating the translational movement of the core.

The spring element 5 is located in the portion of the dispenser with a large diameter between the button 4 and the sleeve 6 of the dispenser. The spring element 5 is made of polyformaldehyde, for example polyoxymethylene, and has four legs with soft elastic petals (FIGS. 4-6) that create a "spring" effect. " The spring element is made in such a way that when the dispenser moves counterclockwise (in the case of a dose change in the direction of reduction), the spring element 5 is displaced and a small pressure is pressed on the dispenser sleeve 6, which eliminates the rigid adhesion of the notches of the dispenser 3 and the dispenser sleeve 6. As a result, the metering sleeve starts translational movement, without rotation.

The proposed syringe pen is used as follows.

To set the injection dose in the inventive syringe pen, rotate the dispenser clockwise until the required dose appears in the indicator window on the case opposite the dosage indicator. The rotation of the dispenser leads to its longitudinal displacement, increasing the length of the syringe pen, while the casing and the window of the casing, in which the required dose is visible to us, remains stationary. When displaced, the dispenser “drags” the dispenser sleeve behind it, due to the difference in the diameter of these parts. When the dispenser sets the dose of the medicine, vibration and sound occur. This helps the user to set the exact dose, which is especially true for patients with impaired vision and motor skills.

In the case of setting a larger dose than required, turn the dispenser counterclockwise and return to the desired dose value. When the dispenser is rotated counterclockwise, the dispenser shifts in the longitudinal direction, decreasing the length of the syringe pen. The spring element located inside the wide part of the dispenser is displaced in the same direction. The specified element “pushes” the dispenser sleeve, not allowing it to “lag behind” the dispenser.

It is important to note that with this interaction, only the forward movement of the metering sleeve occurs. The spring mechanism of the spring element allows you to create a “backlash” for “slipping” (skipping) gears. At the moment of “slipping” of the transmission, vibration and sound occur. Each click corresponds to one “gear” and one unit in the dispenser scale.

After setting the required dose, an injection is performed. A needle is inserted under the skin using an injection technique recommended by a doctor or nurse. Then press the dispenser button until it stops, until 0 mg appears in the indicator window opposite the dosage indicator. Hold the start button pressed until it stops, and the needle under the skin for at least 6 seconds. This will ensure the introduction of a full dose of the drug.

When the button is pressed, the dispenser, the spring element and the dispenser sleeve are shifted with a certain force. It is important to note that at the moment the button is pressed, the spring element presses on the dispenser bushing with a force that is sufficient for complete rigid coupling of the batcher and bushing gears. This rigid coupling of the gears results in a rotational-translational movement of the metering sleeve. The metering sleeve drives the (rotational) core of the metering device. The dispenser core begins to rotate the stem. The thread on the stem interacts with the thread in the stem coupling, thereby translating the piston. The rod, moving progressively, exerts pressure on the pusher, which is in close contact with the piston of the cartridge. So, the medicine is injected through the output from the cartridge.

Thus, the proposed syringe pen has the following advantages:

- the exclusive design of the spring element allows you to achieve a more uniform distribution of pressure on the pusher, which is in close contact with the piston of the cartridge, a more accurate dosage of the drug;

- the dispenser sleeve has an innovative shape, which allows to minimize the effort of pressing a button, provides a softer administration of insulin;

- reducing the number of parts of the mechanism allows to reduce the cost of manufacturing costs and makes the syringe pen easier;

- simplification of the shape of the parts leads to an increase in manufacturing accuracy, reduces the likelihood of errors and errors in the production of parts, which ensures high metering accuracy, and also reduces the risk of jamming.

In addition, the indisputable advantage of the developed device is that it is disposable. Reusable constructions similar in the problem to be solved by the device break down over time, and wear of parts reduces the accuracy of dosing. The disposable design is devoid of such disadvantages, as used until the drug cartridge runs out.

Claims (3)

1. A syringe pen containing
case, on the inner surface of which is threaded to ensure movement of the dispenser;
cartridge holder, made with the possibility of connection with the housing;
a dispensing mechanism including a button and a dispenser having two parts with different diameters, while a thread is made on the outer surface of the part with a smaller diameter, and notches are arranged along the inner diameter of the part with a large diameter;
a drive mechanism including a pusher with a rod, on the surface of which a thread is made;
a stem coupling fixed to the body and having an internal thread matching the thread on the stem, and
a protective cap, made with the possibility of detachable connection with the cartridge holder;
characterized in that
dosing mechanism also includes:
a) a dispenser sleeve having, on the one hand, a part with a larger outer diameter and, on the other hand, two longitudinal grooves made on the inner surface, the dispenser sleeve being installed inside the dispenser so that part of the dispenser sleeve with an increased external diameter is inside the part of the dispenser with a large diameter, in addition, in the part of the sleeve that is in contact with the dispenser, notches are applied, similar to those located on the inside of the dispenser;
b) the core of the dispenser, arranged to accommodate the inside of the dispenser sleeve and having at one end on the outer surface two protrusions that engage with the grooves of the dispenser sleeve, at the other end, hooks that engage the core with the coupling, thus excluding only translational motion the core, as well as a longitudinal hole, configured to provide rigid adhesion of the core to the piston during rotation, and
c) a spring element located in the part of the metering device with a large diameter between the button and the metering sleeve, having legs with elastic petals and made in such a way that
when the dose is increased or decreased, the dispenser performs both rotational movement and is displaced in the longitudinal direction, and the dispenser sleeve carries out only translational movement, and when the button is pressed to perform injection, both the dispenser and the dispenser sleeve carry out both rotational movement and translational movement. 2. The syringe pen according to claim 1, characterized in that the housing has an indicator window, and on the outer surface of the portion of the dispenser with a smaller diameter, a scale for selecting a dose is applied. 3. The syringe pen according to claim 1 or 2, characterized in that the outer surface of the portion of the dispenser with a large diameter is embossed.

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