EA008581B1 - Safety syringe - Google Patents

Abstract

The safety syringe comprises an injection cylinder being a hollow cylinder with a receiving chamber therein; a buckling seat installed in the injection cylinder; the buckling seat installed in the injection cylinder; the buckling seat having a hard sleeve; a front end of the sleeve being formed as a holloe post; a center of the buckle seat being formed with a hollow channel; a receiving space being formed between an outer wall of the hollow post and an inner wall of the sleeve; a needle unit embedded into the buckling seat; an outer side of the needle being covered by a cover; the needle unit being installed to a front end of the buckling seat; a tenon resisting against the buckling portion; a push rod inserted into the push rod and linearly movable along the injection cylinder; and a seal for enclosing a rear end of the sleeve by molding injecting a rubber material.

Description

A known safety syringe includes a locking slot, a sleeve, and a gasket. The safety syringe is simple in construction and easy to assemble. In a known technical solution, the coupling and gasket are formed immediately. The coupling has a solid outer shell and an inner shell made of rubber, which is located inside the outer shell. The locking part protrudes from the inner side of the inner shell and pinches the pusher spike so that when the pusher is pulled back, it experiences resistance from the locking part. In the construction described above, the sleeve and the gasket are formed, and the pusher and the locking part abut against each other. The needle retracts into the barrel of the syringe without the possibility of reuse.

Despite the fact that the technical solution described above has a simple design, it has the following disadvantages. The outer shell is made of plastic, and the inner shell is made of rubber. The combination of the inner shell and the outer shell is not stable. In addition, only the inner side and the lower end of the inner shell are enclosed in the outer shell. The strength of the connection is low. In addition, only the inner side of the inner shell is connected to the outer shell. Such a connection is weak. When the needle passes through the retaining part of the inner sheath, the inner sheath can be pulled inward. As a result of this, a gap is formed between the lower edges of the inner shell and the outer shell. Therefore, the fluid inside the injection cylinder will leak out. In addition, such a syringe is difficult to assemble. Since the outer shell is made of polypropylene, if the injection cylinder is also made of polypropylene, to achieve a good connection, the accuracy of the manufacture of these two parts must be very high. However, this leads to a high cost of molding and low yield of finished products.

However, the above disadvantages are still inherent in many types of known syringes.

Summary of the invention

Therefore, the main objective of this invention is the creation of a safe syringe, which would ensure a tight connection of the coupling and the gasket. The coupling is made of plastic, and the gasket is made of rubber.

To achieve the above objectives, the present invention provides a safe syringe. A safe syringe includes an injection cylinder, which is a hollow cylinder with a receiving chamber located inside it; moreover, its front end is made in the form of a hollow conical tip; the conical tip has an inner cavity that communicates with the receiving chamber, the cavity having a through hole and the inner wall of the cavity is installed with a stepped thrust portion; a locking socket installed in the injection cylinder, and in this locking socket there is a rigid coupling and the front end of this coupling is made in the form of a hollow pin, and the Central part of the locking socket is formed with a channel that communicates with the Central hollow part of the hollow pin; a receiving volume formed between the outer wall of the hollow pin and the inner wall of the coupling; a concave chamber formed between the outer part of the pin and the inner wall of the locking slot and intended to receive the needle socket; a needle assembly inserted in the locking nest, wherein the needle assembly comprises a needle nest and a needle attached to the needle nest, the outer part of the needle being closed with a cap and the needle assembly is mounted on the front end of the locking nest; a pusher inserted in the injection cylinder and able to move along the injection cylinder; moreover, the pusher has a spike at the front end, the spike experiences resistance from the locking part; after injection, the pusher can be pulled back; and a gasket in which the rear end of the coupling is sealed by injection molding of rubber; moreover, the sealing gasket also covers the inner wall of the receiving volume, thereby increasing the density of the connection between the sealing gasket and the coupling.

The various objects and advantages of this invention can be more easily understood from the following detailed description, when taken in conjunction with the accompanying drawings.

Brief Description of the Drawings

FIG. 1 is a schematic perspective view with a spatial separation of the details of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is an enlarged view of the part shown in FIG. 2;

FIG. 4 is a schematic cross-sectional view of the present invention in a working position;

FIG. 5 is a schematic cross-sectional view of the present invention in yet another operating position; FIG. 6 is a schematic perspective view of a second embodiment of the present invention; FIG. 7 is a cross-sectional view showing the operation of the second embodiment of the present invention.

- 1 008581

DETAILED DESCRIPTION OF THE INVENTION

In order for specialists in this field to better understand the invention, its detailed description is given below. However, this description and the accompanying drawings are intended only so that specialists can understand the objectives, features and characteristics of the present invention, but not to limit the essence of the present invention, as defined in the attached claims.

In FIG. 1 depicts a safety syringe according to the invention. This invention contains the following elements.

The injection cylinder 1 is a hollow cylinder with a receiving chamber 11 located therein. Its front end is made in the form of a hollow conical tip 12. The conical tip 12 contains an internal cavity 13 that communicates with the receiving chamber 11. There is a through hole 121 in the cavity 13. The inner the wall of the cavity 13 is performed with a stepped thrust portion 131.

A locking socket 2 is installed in the injection cylinder 1. A locking sleeve 21 is provided in the locking socket 2. The front end of the coupling 21 is made in the form of a hollow pin 211. A channel 212 is made in the center of the locking socket 2, which communicates with the central hollow part of the hollow pin 211. Between the outer a receiving volume 215 is formed by the wall of the hollow pin 211 and the inner wall of the sleeve 21. A concave chamber 213 is formed between the outer wall of the pin 211 and the inner wall of the locking slot 2 and is designed to accommodate the needle socket 31.

The node 3 of the needle is inserted into the locking slot 2. In the node 3 of the needle there is a socket 31 of the needle and the needle 32, mounted in the socket 31 of the needle. The outer side of the needle 32 is closed by a cap 33. The needle assembly 3 is mounted on the front end of the locking slot 2.

The pusher 4 is inserted into the injection cylinder 1 and can linearly move along the injection cylinder 1. At the front end of the pusher 4 there is a spike 41. The spike 41 experiences resistance from the locking part 221. After the injection, the pusher 4 can be pulled back.

The gasket 22 is designed to seal the rear end of the sleeve 21 into it and is made of rubber by injection molding. The inner wall of the receiving volume 215 is also embedded in the gasket 22 in order to increase the density of the connection between the gasket 22 and the sleeve 21.

The lower end of the gasket 22 protrudes inward in the form of a locking part 221. The locking part 221 can pinch the spike 41 of the pusher 4. Therefore, if the pusher is pulled back in the opposite direction after injection, the locking nest 2 will be pulled into the receiving chamber 11 of the injection cylinder 1. The outer wall of the sealing the gasket 22 will resist due to the presence of the ring 224 located on the outer wall of the gasket 22. The ring 224 corresponds to the thrust portion 131 of the internal cavity of the conical tip 12.

From FIG. 2 and 3, it is seen that during assembly, the needle seat 31 of the needle assembly 3 is inserted into the concave chamber 213 of the sleeve 21. Then, the locking slot 2 is inserted into the hole on the lower side of the receiving chamber 11 of the injection cylinder 1 so that the front end of the sleeve 21 fits snugly through the hole 121 of the conical portion 12. The rear end of the sleeve 21 after the cavity 13 is enclosed in the gasket 22. The ring 224 on the gasket 22 abuts against the thrust portion 131 of the conical tip 12. Therefore, the fluid inside the receiving chamber 11 does not children leak out during the injection. Then the pusher 4 is inserted into the hole of the receiving chamber 11.

From FIG. Figures 4 and 5 show that when used after injection, the spike 41 is pinched in the locking part 221. When the pusher 4 is pulled back, the needle assembly 3 is pulled into the receiving chamber 11 of the injection cylinder 1. Then a lateral force is applied to break the pusher 4. The needle assembly 3 and the spring seat 2 remains inside the injection cylinder 1. Therefore, this syringe cannot be reused.

In addition, since the coupling 21 of the locking slot 2 is sealed with a rubber seal, when the locking slot 2 is inserted into the conical tip 12 of the injection cylinder 1, deformation of the rubber seal will ensure a tight connection of the coupling 21 with the rubber seal.

In addition, the ring on the rubber seal plays the same role as the O-ring in the prototype. The ring and seal are formed as a single unit. Therefore, no assembly of the O-ring is required. The locking socket 2 is preferably hermetically connected to the conical tip 12.

In FIG. 6 and 7 show another embodiment of the present invention. Elements that coincide with the elements of the above option have the same numerical designations, only the difference between the two options is described. In this embodiment, the upper surface of the stop portion 221 is inclined. When the needle assembly 3 breaks, it is installed obliquely.

Thus, from the description of the present invention, it can be seen that it can be implemented in many ways. Such options should not be considered outside the scope of the present invention, and all such options, as is obvious to specialists, should be considered included in the scope of the following patent claims.

Claims (4)

CLAIM 1. A safe syringe containing an injection cylinder, which is a hollow cylinder with a receiving chamber located inside it, the front end of which is made in the form of a hollow conical tip, the conical tip having an inner cavity that communicates with the receiving chamber, the cavity has a through hole and an inner wall the cavity is installed with a stepped thrust part; a locking slot installed in the injection cylinder, wherein the locking socket has a rigid coupling, the front end of the coupling is made in the form of a hollow pin, a channel is formed in the center of the locking slot that communicates with the central hollow part of the hollow pin, between the outer wall of the hollow pin and the inner wall of the coupling the receiving volume and between the outer wall of the pin and the inner wall of the locking socket, a concave chamber is formed into which the needle socket is inserted; a needle assembly inserted in the locking nest, wherein the needle assembly comprises a needle nest and a needle fixed to the needle nest, the outside of the needle is closed by a cap, and the needle assembly is mounted on the front end of the locking nest; a pusher inserted in the injection cylinder and able to move linearly along the injection cylinder, the pusher having a spike at its front end, and this spike is pinched in the locking part, and after the injection, the pusher can be pulled back; and a sealing gasket into which the rear end of the coupling is sealed by injection molding, the sealing gasket also covering the inner wall of the receiving space, thereby increasing the density of the connection between the sealing gasket and the coupling. 2. Safe syringe according to π. 1, in which the lower end of the gasket protrudes inward, forming a locking part, wherein the locking part pinches the pusher pin, therefore, if after the injection the pusher is pulled in the opposite direction, the locking socket is pulled into the receiving chamber of the injection cylinder, and the outer wall of the sealing gasket resists the presence of the ring, and the ring corresponds to the thrust part of the inner cavity of the conical tip. 3. The safe syringe according to claim 1, in which the upper surface of the locking part has a slope. 4. Safe syringe according to π. 1, in which the sleeve is made of plastic and the gasket is made of rubber.