RU2064796C1 - Disposable syringe - Google Patents

Abstract

FIELD: medical industry. SUBSTANCE: syringe has body and piston 2 provided with stem 3. Piston 2 and stem 3 are interconnected through fastening device having screw pair. One member of screw pair has catches 7 and other member has expander 8 positioned on stem 3. Piston 2 is provided with springy lobes 6 which are removably connected with catches 7. EFFECT: increased efficiency, simplified constructions and enhanced reliability in operation. 3 cl, 4 dwg

Description

 The invention relates to medicine, in particular to medical equipment.

Known disposable syringe containing a housing, a piston and a rod, kinematically connected with the piston. The piston is installed in the housing with the formation of the over-piston and under-piston zones. The syringe is equipped with a device for breaking the kinematic connection between the piston and the rod. The device is made in the form of a sleeve in contact with the inner surface of the housing and covering the piston with the rod in place of their kinematic connection [1]
The disadvantage of this technical solution is the low reliability of preventing reuse of the syringe. Low reliability is due to the fact that under certain conditions, the friction coefficient between the piston with the sleeve and the housing decreases, and the friction force also decreases. The insignificant frictional force that occurs when the piston moves relative to the housing is not enough to open the lock, i.e. pushing the female sleeve and breaking the kinematic connection between the piston and the rod.

Also known is a disposable syringe containing a housing in which the piston is placed with the formation of the supra-piston and sub-piston zones, connected with the rod by means of the attachment unit. The mount is made in the form of a screw pair with the possibility of forming a line of screw contact with the relative movement of the elements of the screw pair [2]
A disadvantage of the known technical solution is the lack of warranty for one-time use, due to the possibility of pinching the hooks in the helical groove. Jamming of the hooks in the helical groove is possible due to their relatively large length and low stiffness, which causes the possibility of their longitudinal twisting.

 The aim of the invention is to increase the guarantee of a single use of the syringe.

 In FIG. 1 shows a syringe with spring tabs and an expander in the form of a plate; in FIG. 2 the same with a conical expander; in FIG. 3 syringe with protrusions on spring petals and with a conical expander placed movably relative to the rod; in FIG. 4 the same with a plate expander.

 The syringe contains a housing 1, in which a piston 2 and a rod 3 are placed, kinematically connected with the piston 2 (Fig. 1). The piston 2 is placed in the housing 1 with the formation of the supra-piston zone 4 and the sub-piston zone 5. Spring pistons 6 are made on the piston 2, and hooks 7 are formed on the piston 3, forming a kinematic connection between the piston rod 3 and piston 2. Spring petals 6 are engaged with the hooks 7 by means of the expander 8. In the expander 8 there are made helical grooves 9, interacting with the protrusions 10 on the rod 3. The expander 8 is pivotally mounted on the piston 2 using the hinge 11. In FIG. 1 shows separately an embodiment of the expander 8 in a perspective view.

 To simplify the design, the expander 8 is made in the form of a cone, for example, a truncated cone (Fig. 2). The larger base of the cone-shaped expander 8 is facing the piston 2. The cone-shaped expander 8 is rigidly connected to the stem 3. The expander 8 presses the spring tabs 6 to the hooks 7 made on the rod 3. An increase in the reliability of the rupture of the kinematic connection between the rod 3 and the piston 2 is achieved by performing protrusions 12 on the sides of the petals 6 in contact with the expander 8.

 In addition, the guarantee of one-time use can be enhanced by performing on the rod 3 a longitudinal profiled protrusion or groove (not shown in FIG. 2). The protrusion, interacting with any part of the housing 1, rotates the rod 3 around the longitudinal axis and brings the expander 8 out of contact with the petals 6. Moreover, disks are made on the side surface of the conical extender 8 (not shown in Fig. 2).

 Also, a simple design can be obtained by placing the expander 8 movably relative to the rod 3 (see Fig. 3 and 4).

 To enable subsequent monitoring of the injected drug in the piston 3, a cavity (not shown in the drawings) is made, associated with the sub-piston zone 5 by means of a check valve. The check valve design and cavity placement, as well as its configuration, are not significant.

 The syringe is used as follows.

 To set the drug into zone 5, the piston 2 is pulled by the rod 3 through the petals 6 and the hooks 7. In zone 5, a vacuum is created under the influence of which the drug enters zone 5. During the reverse stroke, due to the force created in the kinematic connection, the protrusions 10 slide along screw groove 9 and rotate the expander 8. The plates of the expander come out of contact with the spring tabs 6. The petals 6 under the action of elastic forces return to an undeformable state and disengage from the hooks 7. The kinematic connection is broken. When you try to re-dial the drug, the piston remains in place, and the rod, having come out with its protrusions 10 from the screw groove 9, freely extends from the housing.

 The syringe with a conical expander 8 (see Fig. 2) with the reverse stroke works differently. With the introduction of the drug, the conical part of the expander 8 slides along the protrusions 12 and the petals 6 move towards the stem 3. In this case, the petals 6 come out of contact with the hooks 7. When you try to re-set the drug, the hooks 7 of the rod 3 do not come in contact with the petals 6 due to the small height of the conical expander 8. as well as the possibility of rotation of the rod 3 around its longitudinal axis. The rotation of the rod is carried out by performing on the rod a helical groove (protrusion) interacting with the body or profiling the lateral surface of the protrusions on the spring tabs along the helix.

 When administering the drug with the syringe shown in FIG. 3, the expander 8 releases the spring tabs 6 and they come out of contact with the hooks 7, moving towards the stem 3. With the further introduction of the drug, the expander 8 rests against the horizontal surface of the piston and thus moves into the stem 3. The hooks 7 slide along the side surface of the tabs 6. The lateral surface of the petals 6 is profiled along a helix so that the hooks 7 slide off and slide off the side surface of the petals. When the hooks 7 slide off the side surfaces of the petals 6, the piston rotates relative to the rod. When trying to re-dial the drug, the hooks 7 do not come into contact with the spring petals 6, because they are located in different planes. The rod 3 is pulled out of the housing 1, and the piston 2 remains in place.

 In the syringe shown in FIG. 4, with the introduction of the drug, the expander 8 also abuts against the piston. Thus, the force from the rod is transmitted to the piston. When you try to re-dial the drug, the expander 8 rests on the protrusions 12, made on the spring petals 6 and disconnected from the rod. Stem 3 is pulled out of the syringe body.

 Each of the syringes shown in FIG. 1 4 may be provided with a cavity made in the piston 3 and connected to the zone 5 by means of a check valve. When the drug is introduced into the body, part of the drug, under the influence of pressure in zone 5, flows into the cavity in the piston and is stored there. The stored portion of the drug can be used for subsequent analysis of the administered drug.

 Using the proposed disposable syringe will improve the reliability of preventing reuse of the syringe. This is ensured by using the force created by the introduction of the drug into the body to break the kinematic connection between the rod and piston. In addition, a part of the administered drug is stored in the piston cavity, which can be used for subsequent analysis of the composition of the introduced drug and establishing the correct dosage of the drug. This will allow to introduce clear control over the work of medical personnel, facilitate the work of forensic experts and improve the quality and culture of medical care.

Claims (3)

 1. Disposable syringe containing a housing in which the piston is located with the rod, connected by means of an attachment unit, which is a screw pair, one of the elements of which is made in the form of hooks, characterized in that, in order to increase the warranty of one-time use, another element of the screw pair made in the form of an expander placed on the rod with the possibility of contact with the side surface made on the piston spring tabs connected with hooks with the possibility of separation.  2. The syringe according to claim 1, characterized in that the expander is placed on the rod with the possibility of movement relative to the latter.  3. The syringe according to paragraphs. 1 and 2, characterized in that the expander is made in the form of a conical element, with the larger base of the conical element facing the piston.

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