RU2207884C2 - Tube syringe - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has movable piston, piston chamber or canal, sealed chambers communicating via sluice liquid transfer mechanism represented by openings also in movable parts of the device, supporting member and partition members 8 separating chamber lumens. One of movable partition members has opening to allow sealed connection to the supporting member having areas of different cross-section shape making boundary to sealed section in piston chamber containing medicinal preparation. Syringe piston is designed as sealed reservoir containing liquid. EFFECT: prevented mixing of liquid drug components when being stored for a long time. 2 cl, 6 dwg

Description

 The invention relates to medical equipment, namely to devices for injection in the form of a syringe containing a drug substance.

 Known is a device in the form of a multi-chamber syringe with sealed reservoirs separated by partitions, including a drug substance, where the partitions are destroyed by the operation of the syringe and liquid and powder form of the drug are mixed (BME, v. 27, p. 1423-1432, M., 1986) . The disadvantage of this device is the design complexity and the presence of collapsing elements, which requires the use of special technologies and materials.

 The objective of the invention is the creation of a syringe tube with a movable mechanism (sluice mechanism) for moving fluid between separated sealed chambers or compartments in order to use devices with two substances that allow you to get a solution of the drug directly in the syringe when the movable piston moves, without destroying the elements of the syringe.

 This problem is solved in that the injection device in the form of a syringe, including a movable piston, a piston chamber or a channel, sealed containers with substances, has a movable mechanism (sluice mechanism) for moving fluid, including a plug, a movable partition and a support element, where the movable piston made in the form of a sealed tank with a liquid, the opening of which is blocked by a movable plug, which can move inside the tank when it moves through the support element, which nen section with hermetically closing access to the movable partition, and provided with portions (gateway) of the other section, wherein the support member and a movable partition wall may restrict a sealed compartment in the piston chamber with the dry drug substance.

 Figure 1 shows a device with a sealed tank made in the form of a movable piston, equipped with a movable plug and a separate piston chamber, in section. Figure 2, 3 shows the principle of operation of this device, in section. Figure 4 presents the device, equipped with an additional flow chamber or compartment with a dry substance of the drug, in the context. Figure 5 shows the stage of operation of the device with a dry substance of the drug, in the context. Figure 6 shows a device with a support element provided with a flow channel.

 The device 1 has a movable piston 2 for moving fluid from the piston chamber towards the flow channel or adapter, a piston chamber 3, which is a channel for piston movement and compression movement of the fluid, adapter 4 for connecting the interchangeable needle to the syringe. The movable piston 2 of the device 1 (Figs. 1, 4, 6) is made in the form of a sealed reservoir or a bottle type container, the lumen 5 of which is filled with a liquid 6 (drug solution or solvent), and at the outlet 7 it is hermetically closed by a plug 8, acting in one of options for the syringe and as a mobile partition separating the gaps of the chambers or compartments. The cork 8 is made of either a traditional elastic material such as rubber or elastic plastic. The movable piston 2 of the device in this form is a finished industrial form such as a movable vial with a liquid substance, sealed at the outlet by a hermetic stopper 8. Thus, the stopper 8, made with the possibility of moving inside the reservoir when pressure is exerted from the outside, hermetically closes the reservoir with the medicinal substance and at the same time can separate the gaps of two chambers, performing the function of a dividing movable partition, and also be an integral element of the mobile mechanism (airlock ism) with a device (gateway) for moving the fluid.

 When moving the plug 8 in a standard bottle, the outlet 7 of the bottle 2 opens for independent movement of the liquid, or the liquid under the pressure of the mobile plug 8 in the variant of the internal piston or in the version of the standard bottle passes from one tank to another tank or channel due to additional devices such as a gateway. The piston 2, made in the form of a bottle or a sealed reservoir, can be made of glass, plastic or other material used for the industrial production of such a dosage form. To move the movable plug 8 into the inside of the tank 2 or along its clearance, the device is equipped with a support element 9 in the form of a support rod located opposite the plug 8. This element of the device can have several functions, however, it is common to move the plug 8 into the lumen or along the lumen of the tank 2, due to which the liquid 6 from the bottle 2 is moved by gravity and (or) under pressure to the exit of the syringe, including the introduction of medication through a needle to the patient. A feature of the support element 9 is the presence of a special device (gateway) 15, which allows fluid to flow between the sealed tanks or compartments or to the exit of the syringe when moving the elements or components of the mobile mechanism.

 The support element 9 is made in the form of an elastic or rigid rod of a certain section, for example, with a diameter corresponding to the diameter of the outlet of the tank, or with a shape corresponding to the hole shape of another element of the movable mechanism, namely the movable partition 12, where the support element 9 hermetically closes the hole 16 or exit in the elastic partition in the form of a sealed movable connection.

 Thus, the next function of the support element in one of the variants of the syringe is the sealing of certain exits or openings, which ensures the tightness of the tanks, in particular with the drug substance, in the initial state and (or) when working in the second version of the syringe. The supporting element 9 is located either in the lumen of the piston chamber 10 (Figs. 1, 4) or is fixed on the protruding edges of the reservoir 2 at the outlet 7 or on the guide body 11 (Fig. 6), relative to which the piston 2 or reservoir 2 is movable. The piston chamber 3 is made in one of the options (Fig. 1, 4) in the form of a separate standard element of the piston mechanism by the type of channel, the output of which is made in the form of an adapter 4.

 Another option is (Fig. 4) a piston chamber 3, divided into airtight compartments 13 or chambers by a movable partition 12 having an opening 16 through which a support element 9 passes, tightly closing the outlet 16 from the compartment for moving fluid due to the correspondence of the cross section of the rod 9 the shape of the hole 16, the size or shape of which ensures the tightness of the connection of the rod in the elastic or elastic material of the movable partition 12. Made, for example, of elastic material and movable relative to the supporting element and 9, the movable partition 12 ensures the tightness of the intermediate chambers or compartment 13 in the places of movable connection with the wall and the supporting element and the piston effect when it is moved towards the output compartment or outlet. Thus, the movable partition 12 and the support element 9 hermetically limit the compartment 13 from one or two sides. The tightness of the compartment 13 allows (Fig. 4) to place in this compartment a dry substance 14 of the medicinal product, which meets the requirements of the industrial regulations, and then use it as a piston chamber for compression delivery of the dissolved drug to the outlet. To move the fluid from the sealed compartment 13 to the output compartment of the piston chamber 3 or to the exit, the support element with a certain section type, for example, corresponding to the diameter of the hole 16 in the movable partition 12, is provided with a special section (gateway) 15 with a different section along the support element, for example, reduced cross-sectional diameter or cross-shaped cross-section, which violates the tightness of the compartment 13 when moving the partition 12 to this part of the element 9, where the diameter or shape of the cross-section does not match the size and shape of the hole Ia 16 of the movable partition and it becomes possible to move the fluid from one compartment to another, from the reservoir to the piston chamber or from the sealed compartment to the exit of the syringe.

 Thus, the support element 9 is made with sections of the section, hermetically closing the exits from either the tank 2 or the exit in the movable partition 12 in the form of an opening 16 and has sections of a different section, all types of which preclude tightness, and therefore represent exits or channels for moving the liquid . Moreover, the hermetic compartment 13 can be used as a piston chamber without a dry substance only for compression movement of the fluid to the exit of the device. A similar sluice mechanism can be performed (Fig. 1) on that part of the support element 9, which lies to the plug 8, which ensures the movement of fluid from the lumen of the tank into the piston chamber or hermetic compartment 13.

 Another mechanism for moving the fluid during the movement of the plug may be due to the design features of the plug itself, in particular the protruding central part of the plug, the diameter of which may be smaller than the opening of the reservoir, which can also provide fluid movement, since this part of the plug does not close the outlet reservoir 2. This protruding part of the tube is similar in structure and function to the part of the support element with a reduced diameter or other cross-section.

 The device (Fig. 1, 2, 3), including a movable reservoir 2 with a liquid substance 6, which is an element of the piston mechanism in the form of an external piston with an opening closed by a movable plug 8, and a piston chamber, operates as follows. When pressing on the reservoir 2, the latter moves in the lumen of the piston chamber 3 towards the support element 9, which abuts against the tube 8 separating the lumens of the chambers, and moves it into the lumen 5 of the reservoir 2 and opens the hole 7 due to one of the above mechanisms. The liquid located in the lumen of the tank (Fig. 2) by gravity or through the device 15 (lock) on the support element in another embodiment moves to the piston chamber 3. With further movement of the tank 2, the support element 9, the cross-sectional diameter of which, in one embodiment, corresponds to the diameter or the shape of the reservoir opening, closes the opening 7 and the end surface of the reservoir with the corresponding diameter for the piston chamber (Fig. 3) due to the piston effect moves the fluid to the exit of the syringe. To improve the piston effect and tightness on the end surface of the tank, an additional sealing partition 17 of the type of movable partition 12 with an opening that seals the compartment on the piston side can be made.

 A device comprising two substances in airtight chambers 2 and 13, separated by a plug 8 or a movable partition 12, connected by a mobile mechanism (airlock) to the device (airlock) 15 on the supporting element 9 in the form of sections of different sections, works as follows. The movement of fluid into the sealed compartment 13 with the dry drug is carried out (Fig. 2, 3) using one of the above methods when moving the plug 8 inward. When performing the device 15 (gateway) for moving fluid on that part of the support element 9, which is to be plugged 8, moving the fluid from the reservoir of this device 15 (gateway) on the support element 9 to the airtight compartment 13 is similar to the operation of this device in place of the movable airtight connecting it to the movable partition 12 with the only difference being that the movable mechanism for moving the fluid works at the exit from the reservoir.

 The cork with the protruding part is similar. With further movement of the tank 2, the movable partition 12 begins to move due to the pressure on it of the liquid or intermediate elements to the area of the supporting element 9, on which the device 15 (gateway) is made in the form of sections of a different section. Upon reaching this device 15 (gateway) for moving the liquid, the tightness of the chamber 13 is violated due to the mismatch of the diameter of the section or the shape of the area of the supporting element to the hole in the movable partition 12 and the liquid moves to the outlet compartment of the chamber or directly to the exit of the syringe. The resulting exit between the opening of the movable partition 12 and the wall of the supporting element in the section 15 with a different cross-section makes it possible to move the fluid from one compartment or reservoir to another, which solves the problem of moving the fluid between the sealed chambers or reservoirs.

 With further movement of the piston 2 (Fig. 5) together with the adjacent partition 12 (in the variant of correspondence of the cross section of the support element to the diameter of the outlet of the tank (s) or with the cross section corresponding to the hole 16 of the movable partition 12, which are variants of sealed movable joints), the output compartment closes cameras on the site of the support element 9 with a cross-sectional diameter corresponding to the diameter of the hole 5 in the tank, or with a cross-section corresponding to the hole 16 in the movable partition 12, and the liquid (Fig. 3) moves Xia out of the syringe. In the variant of the mismatch of the diameter of the support element to the hole 5 in the reservoir, the operation of the device is not disturbed, however, there are inconveniences associated with the possible movement of air in the syringe. The solution is moved from the chamber 13 to the exit of the syringe due to the movement of the movable partition 12 when the piston 2 acts on it. When placed in the initial state in this sealed chamber of the solution, the device in the form of a conventional piston is enough to operate the device. Thus, a device with a baffle 12, in the opening 16 of which passes the supporting element 9 with a cross section forming a tight movable connection with the baffle 12 and limiting the sealed compartment 13, is a mobile mechanism that can be used with a simple pushing piston without a movable piston in the form of a reservoir.

 The next option (Fig.6) is the implementation of the piston mechanism for moving the fluid directly in the lumen 5 of the tank 2, which acts as a piston chamber with one outlet, which is hermetically closed in the initial state by a movable plug 8, made in the form of a piston for moving the fluid. In this case, the reservoir 2 or the external piston for the operation of the device remains an element of the piston mechanism for moving the plug 8, made as an elastic movable partition, hermetically closing the outlet from the reservoir in the initial state in the form of a plug 8 and when working in the form of a piston. For the corresponding movement of fluid from the tank 2 under the action of the plug 8 as a piston (Fig. 6), the supporting element 9 is provided with a flow channel 18, the exits from which are made in the form of a protruding needle-puncher 19 and, alternatively, in the form of an adapter 4 for connection with an injection needle or just an injection needle. For convenience, this device is equipped with a guide body 11, which is movable relative to the reservoir 2 and where the support element 9 is fixed to counter the movable reservoir, which is not mandatory. The device in this embodiment works as follows. When the tank 2 moves, the plug 8, made in the form of an internal piston, is pierced by a perforating needle 19 and then abuts against the end part of the support element 9, which moves the plug 8 along the lumen 5 of the reservoir 2, which is an internal piston chamber. Due to the pressure created by the plug 8, the fluid begins to move through the punch needle 19 and the flow channel 18 to the exit of the syringe, which may have a removable needle 20 at the outlet.

 This device can be widely used in industrial pharmacology for the release of finished dosage forms of certain drugs, in particular syringes with two medicinal substances (solvent and dry antibiotic drug), as well as syringes with liquid medicinal substance. In addition, this device may find application as a single-use device that cannot be reused.

Claims (2)

 1. An injection device in the form of a syringe comprising a piston chamber, a movable piston and a sealed reservoir, characterized in that it has a mechanism for moving fluid, including a movable baffle and a support element, where the movable piston is made in the form of a sealed reservoir, the opening of which is closed by a stopper, having the ability to move into the tank during its movement by means of a support element, which is made with a section hermetically closing the exit in the movable partition, and is equipped with a plot section.  2. The device according to p. 1, characterized in that the support element and the movable partition form a sealed compartment in the piston chamber with a dry substance of the drug, and the support element is equipped with sections of a smaller diameter or cross-section.

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