DRUG DELIVERY DEVICE AND ANTI-BACK DEVICE THEREOF

Abstract

An anti-back mechanism for a drug delivery device according to the present application includes a retaining groove, a position retaining protrusion and a clamping groove. The retaining groove is provided on a push rod. The position retaining protrusion is provided in the drug delivery device. The clamping groove has an accommodation cavity into which the position retaining protrusion is inserted. The position retaining protrusion is provided on a ring having a notch and may be clamped with respect to the push rod when the position retaining protrusion is squeezed. When the position retaining protrusion is subjected to a reverse thrust from a cartridge holder of the drug delivery device, the position retaining protrusion may move in a direction opposite to an injection direction, be inserted into the clamping groove to be clamped, and be hooked to the retaining groove to be locked.

Claims

1. An anti-back mechanism for a drug delivery device, comprising: a retaining groove provided on a push rod; a position retaining protrusion provided in the drug delivery device; and a clamping groove having an accommodating cavity into which the position retaining protrusion is inserted, wherein the clamping groove is arranged at an end, close to a rubber bung, of the push rod, the position retaining protrusion is provided on a ring having a notch, and the position retaining protrusion is configured to be clamped with respect to the push rod when the position retaining protrusion is squeezed.

2. The anti-back mechanism according to claim 1, wherein position retaining protrusions are arranged evenly in a circumferential direction of the push rod in units of groups.

3. The anti-back mechanism according to claim 2, wherein the number of the position retaining protrusions in each group is greater than or equal to 2, and there is an offset distance between every two adjacent position retaining protrusions in each group.

4. The anti-back mechanism according to claim 3, wherein the position retaining protrusion includes a first position retaining protrusion, a second position retaining protrusion, a third position retaining protrusion and a fourth position retaining protrusion, the first position retaining protrusion and the second position retaining protrusion are adjacent to each other, and the third position retaining protrusion and the fourth position retaining protrusion are symmetrically provided with respect to the push rod and provided adjacent to each other.

5. The anti-back mechanism according to claim 4, wherein a pitch between the first position retaining protrusion and the second position retaining protrusion ranges from 0.1 mm to 1 mm.

6. The anti-back mechanism according to claim 4, wherein a pitch between the third position retaining protrusion and the fourth position retaining protrusion ranges from 0.1 mm to 1 mm.

7. A drug delivery device, comprising the anti-back mechanism according to claim 1.

8. The drug delivery device according to claim 7, further comprising: a cartridge holder for charging a drug; and a liner provided with the push rod, wherein the cartridge holder and the liner are connected to each other to form the drug delivery device having a cavity, and an inner end of the push rod is in contact with the rubber bung in use.

9. The drug delivery device according to claim 8, further comprising a pressing spring sleeved on the push rod, wherein an end of the pressing spring is provided on the clamping groove.

10. A drug delivery device, comprising the anti-back mechanism according to claim 2.

11. A drug delivery device, comprising the anti-back mechanism according to claim 3.

12. A drug delivery device, comprising the anti-back mechanism according to claim 4.

13. A drug delivery device, comprising the anti-back mechanism according to claim 5.

14. A drug delivery device, comprising the anti-back mechanism according to claim 6.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] For more clearly illustrating embodiments of the present application or the technical solutions in the conventional technology, drawings referred to describe the embodiments or the conventional technology will be briefly described hereinafter. Apparently, the drawings in the following description are only examples of the present application, and for the person skilled in the art, other drawings may be further obtained based on the drawings without any creative efforts.

[0016] FIG. 1 is a schematic view showing the structure of an anti-back mechanism according to the present application;

[0017] FIG. 2 is a partially enlarged view of a position retaining protrusion in FIG. 1;

[0018] FIG. 3 shows an embodiment of the position retaining protrusion according to the present application;

[0019] FIG. 4 shows another embodiment of the position retaining protrusion according to the present application; and

[0020] FIG. 5 is a schematic view showing the structure of a drug delivery device according to the present application.

[0021]

TABLE-US-00001 Reference Numerals in FIGS. 1 to 5: 1 cartridge holder, 2 cartridge core, 201 rubber bung, 301 pressing spring, 4 push rod, 5 liner, 6 position retaining protrusion, 601a first position retaining protrusion, 601b second position retaining protrusion, 602a third position retaining protrusion, 602b fourth position retaining protrusion, 7 clamping groove.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0022] An aspect of the present application is to provide a drug delivery device and an anti-back mechanism thereof. The anti-back mechanism may allow a push rod to remain at its original position after use. The drug delivery device employing the anti-back mechanism may prevent the push rod from reversing.

[0023] In order to make the person skilled in the art have a better understanding of the technical solutions according to the present application, the present application is described hereinafter in further detail in conjunction with the drawings and embodiments.

[0024] Referring to FIG. 1 and FIG. 2, an anti-back mechanism for a drug delivery device according to the present application includes a retaining groove, a position retaining protrusion 6 and a clamping groove 7. The retaining groove is provided on a push rod 4. The position retaining protrusion 6 is provided in the drug delivery device. The clamping groove 7 has an accommodation cavity into which the position retaining protrusion 6 may be inserted. The position retaining protrusion 6 is provided on a ring having a notch, and may be clamped with respect to the push rod 4 when the position retaining protrusion 6 is squeezed. Specifically, since the notch of the ring which is squeezed contracts inward, the position retaining protrusion 6 is brought to be clamped with respect to the push rod 4. When the position retaining protrusion 6 is subjected to a reverse thrust from a cartridge holder of the drug delivery device, the position retaining protrusion 6 may be inserted into the clamping groove 7, clamped with respect to the push rod 4, and hooked to the retaining groove on the push rod 4 to be locked. The retaining groove on the push rod is generally a groove formed by spaced protrusions provided on the push rod.

[0025] In the conventional technology, when an external force provided on the push rod 4 is stopped, a certain reverse thrust may be generated by liquid and a rubber bung 201 in the device. If the external force is no longer provided after an injection process is ended, the push rod 4 is apt to reverse. For the anti-back mechanism for the drug delivery device according to this solution, since the cartridge holder of the drug delivery device is squeezed, the position of the position retaining protrusion 6 is changed, and the position retaining protrusion 6 is pushed into the clamping groove 7 to be clamped to the retaining groove. Finally, the position retaining protrusion 6 is hooked to the retaining groove to be locked, thus achieving the effects of fastening, anti-reversing and clamping. Hereby, the push rod is prevented from reversing.

[0026] Furthermore, referring to FIG. 3, position retaining protrusions 6 are evenly arranged in units of groups in a circumferential direction of the push rod 4. The number of the position retaining protrusions 6 in each group may be one, two or greater than two. As shown in FIG. 4, compared with the case that a single position retaining protrusion 6 is hooked to the retaining groove to be locked, if the position retaining protrusions 6 in units of groups are evenly arranged in a manner that the positions of the position retaining protrusions 6 are retained by the retaining groove to allow the position retaining protrusions 6 to be locked, a clamping force between the position retaining protrusion and the retaining groove may be increased, and a phenomenon of reversing is more effectively prevented, while the strength of the anti-back mechanism is increased and the number of use is substantially improved.

[0027] In the case that the number of the position retaining protrusions 6 in each group is greater than or equal to 2, there is an offset distance between every two adjacent position retaining protrusions 6. The position retaining protrusions 6 in each group are spatially distributed in an axial direction of the injection pen push rod 4 at offset distances, that is, there is a pitch between every two adjacent position retaining protrusions 6 in each group in both a horizontal direction and a vertical direction.

[0028] Furthermore, referring to FIG. 2 and FIG. 3, in an embodiment, the position retaining protrusion 6 includes a first position retaining protrusion 601a, a second position retaining protrusion 602a, a third position retaining protrusion 601b and a fourth position retaining protrusion 602b. The third position retaining protrusion 601b and the fourth position retaining protrusion 602b are symmetrically provided with respect to the push rod 4 and provided adjacent to each other. Two groups of the position retaining protrusions 6 are employed, and the two groups of the position retaining protrusions 6 include one group of a first position retaining protrusion 601a and a second position retaining protrusion 602a as well as the other group of a third position retaining protrusion 601b and a fourth position retaining protrusion 602b. This design is simple, with this design, the position retaining protrusion 6 may be effectively locked, and a clamping force between the position retaining protrusion 6 and the push rod 4 is increased.

[0029] In the conventional technology, threaded retaining grooves of the push rod 4 are provided at too small pitches which, for example, range from 0.1 mm to 1 mm, due to influences of an internal space and an internal structure, in conjunction with a conventional manufacturing process and a forming process of metal and plastic materials, in operation, the push rod 4 is propelled by the external force to squeeze a rubber bung 201 of a core, and advances to push liquid inside the rubber bung 201 out. According to the principle of the reverse thrust, when the external force provided on the push rod 4 is stopped, a certain reverse thrust may be generated by the liquid in the core and the rubber bung 201. With a single retaining position, it is easy to cause the retaining groove not to be in place, and with a single retaining groove, a clamping force is not enough, resulting in inaccurate metering while resulting in the phenomenon of reversing. When a pitch, i.e. an offset distance, between the first position retaining protrusion 601a and the second position retaining protrusion 602a ranges from 0.1 mm to 1 mm, or a pitch, i.e. an offset distance, between the third position retaining protrusion 601b and the fourth position retaining protrusion 602b ranges from 0.1 mm to 1 mm, this range of the offset distance between the position retaining protrusions can allow better position retaining and locking and allow the clamping force between the position retaining protrusion and the retaining groove to be increased, thus, the phenomenon of reversing is more effectively prevented, while the strength of the anti-back mechanism is increased and the number of use is substantially increased.

[0030] A drug delivery device is further provided according to the present application. The drug delivery device includes the above anti-back mechanism, which allows the push rod to remain at its original position after use. The drug delivery device employing this anti-back mechanism may prevent the push rod from reversing.

[0031] Furthermore, referring to FIG. 5, the drug delivery device further includes a cartridge holder 1 for charging a drug and a liner 5 provided with the push rod 4. The cartridge holder 1 and the liner 5 are connected to each other to form the drug delivery device having a cavity. An inner end of the push rod 4 is in contact with the rubber bung 201 in use. The rubber bung 201 may push the push rod 4 to move in an axial direction of the drug delivery device. The drug delivery device may be a pen injector, a cartridge or any other container.

[0032] Still furthermore, the drug delivery device further includes a pressing spring 301 sleeved on the push rod 4. An end of the pressing spring 301 is provided on the clamping groove 7. When the pressing spring 301 is squeezed, the pressing spring 301, in a compressed state, may squeeze the position retaining protrusion 6 to allow the position retaining protrusion 6 to be inserted into the clamping groove 7, thus, the position retaining protrusion 6 is clamped with respect to the push rod 4.

[0033] It should be noted that, an injection direction described herein is a downward direction in FIG. 1, and that an upward direction in FIG. 1 is a direction opposite to the injection direction described herein. The definitions of the directions described above are merely for convenience of description and cannot limit the protection scope of the present application.

[0034] The drug delivery device and the anti-back mechanism thereof according to the present application are described in detail hereinbefore. Specific examples are applied herein to set forth principles and embodiments of the present application, and description of the above embodiments is only used to aid in understanding methods and core ideas of the present application. It should be noted that, for the person skilled in the art, a few of improvements and modifications can be further made to the present application without departing from principles of the present application, and these improvements and modifications also fall within the scope of claims of the present application.