RU2024135975A - INTRAOCULAR IMPLANT DELIVERY DEVICE - Google Patents

Claims (19)

1. An intraocular implant delivery device comprising a housing, a main control rod assembly, a slider assembly, a striker assembly, a needle retraction rotary circle and a pusher needle assembly, wherein the main control rod assembly, the slider assembly, the striker assembly and the needle retraction rotary circle are located in the housing, wherein a through hole is provided at the distal end of the housing, the pusher needle of the pusher needle assembly passes through the through hole to the outside of the housing, and wherein the main control rod assembly, the slider assembly and the striker assembly are each equipped with an energy source capable of selectively releasing energy; in this case, the operator starts the main control rod assembly by means of a button located on the body, allowing the energy source to set the main control rod assembly in motion in the axial direction; wherein the main control rod assembly comprises a main control rod and a first spring, the slider assembly is adjacent to the main control rod in the longitudinal direction, and a plurality of projections facing the slider assembly are provided on the side surface of the main control rod; when the button is pressed and the main control rod is moved in the axial direction, the projections are designed with the ability to push the slider assembly, moving it in the longitudinal direction further from the button; when the projections move away from the slider assembly with the main control rod, the energy source pushes the slider assembly, moving it in the longitudinal direction closer to the button to the initial position; wherein the needle retraction rotary circle is located on the distal side of the slider assembly, a plurality of limiting steps facing the pushing needle assembly are provided on the lateral surface of the needle retraction rotary circle, and a drive element is provided on the slider assembly for driving the needle retraction rotary circle into rotation; when the slider assembly moves further from the button in the longitudinal direction, the drive element drives the needle retraction rotary circle to rotate by an angle corresponding to one step, ensuring that the pushing needle of the pushing needle assembly is retracted by one step toward the proximal end; wherein the striking unit is located on the side of the proximal end of the slider unit, when the slider unit is in the initial position, the energy source connected to the striking unit is in the state of energy conservation; and when the slider unit moves in the longitudinal direction further from the button, the striking unit, under the action of the push of the energy source, moves along the guide curved surface of the slider unit towards the distal end, striking the pushing needle unit; and wherein the pushing needle assembly is located on the side of the distal end of the needle retraction rotary circle, at least one implant is placed inside the pushing needle, and the elastic claw grip is provided on the distal end of the pushing needle; when the pushing needle is retracted toward the proximal end, the elastic claw grip opens when passing by the implant to facilitate the movement of the elastic claw grip from the head of the implant to the end of the implant, and when the striking assembly hits the pushing needle assembly, the pushing needle assembly drives the pushing needle toward the distal end of the housing, pushing the implant to the implantation site in the patient. 2. The intraocular implant delivery device of claim 1, wherein the energy source is a spring, a motor, magnetic iron, or an elastomer. 3. The intraocular implant delivery device of claim 1, wherein the first spring is an energy source connected to the main control rod, one end of the first spring is attached to the main control rod and the other end of the first spring is attached to the housing; wherein when the button is in the initial position, the button limits the main control rod, and the first spring is in the energy conservation state, and when the button is pressed, the spring pushes the main control rod to move in the axial direction toward the proximal or distal end. 4. The intraocular implant delivery device of claim 3, wherein a plurality of groups of first limit stops and second limit stops are provided on the side surface of the main control rod at a distance from the slider assembly, and the first limit stops and the second limit stops are arranged alternately to limit the main control rod when the button is pressed and released; and the width of the protrusion corresponds to the distance between adjacent first limit stops. 5. The intraocular implant delivery device according to claim 1, wherein the button actuates the main control rod by means of a lever and a return spring, wherein a shaft opening is provided in the middle part of the lever, a mounting shaft is provided inside the housing, the mounting shaft passes through the shaft opening in the lever, one end of the lever corresponds to the location of the button, the other end of the lever is connected to the return spring, and a mounting stop is provided on the lever for limiting the main control rod. 6. The intraocular implant delivery device according to claim 1, wherein the slider assembly comprises a slider and a second spring connected to the slider, which comprises a side plate, two guide plates extended vertically beyond the side plate and spaced apart from each other, wherein each opposite surface of the two guide plates is equipped with a guide curved surface, a through hole corresponding to the impact unit is provided on the side plate between the two guide plates, and the drive element is located on the side plate of the slider. 7. The intraocular implant delivery device of claim 6, wherein the needle retraction rotary circle is provided with a part connected by means of a magnet to the driving element; when the slider assembly is moved in the longitudinal direction further from the button, the driving element pushes the needle retraction rotary circle to rotate by an angle corresponding to one step under the action of a magnetic force, thereby retracting the pushing needle of the pushing needle assembly by one step in the axial direction toward the proximal end. 8. The intraocular implant delivery device of claim 6, wherein the drive member is an elastic plectrum, several plectrum stops are provided on the needle retraction rotary circle, and the plectrum stops are distributed on the needle retraction rotary circle at a predetermined distance along the circumference; when the slider assembly moves in the longitudinal direction further from the button, the elastic plectrum on the slider assembly pushes the plectrum stops to move, the needle retraction rotary circle is driven to rotate by an angle corresponding to one step, and the pushing needle of the pushing needle assembly is pulled by one step in the axial direction toward the proximal end. 9. The intraocular implant delivery device according to claim 1, wherein the striking unit comprises a striking head and a limiting portion of the spring, a third spring is provided between the limiting portion of the spring and the housing, and a guide limiting stop is provided on the striking head; when the slider unit slides further from the button in the longitudinal direction, the guide limiting stop slides along the guide curved surface, so that the striking head moves toward the distal end, hitting the pushing needle unit; when the slider unit slides closer to the button in the longitudinal direction, the guide curved surface pushes the striking head to move toward the proximal end, and the third spring stores energy. 10. The intraocular implant delivery device of claim 9, wherein the guide bar is provided on the lower portion of the limiting portion of the spring, the corresponding axial guide groove is provided inside the housing, and the guide bar is in a freely sliding connection with the axial guide groove. 11. The intraocular implant delivery device of claim 1, wherein the pusher needle assembly comprises a pusher needle, a pusher needle assembly support and a compression spring; the pusher needle is secured to the pusher needle assembly support, a toothed wall is provided on the housing, the compression spring is placed on the pusher needle and secured between the pusher needle assembly support and the toothed wall, and the pusher needle assembly support rests against the steps of the needle retraction rotary circle, so that when the needle retraction rotary circle rotates, the compression spring pushes the pusher needle assembly support to move in the axial direction toward the proximal end, driving the pusher needle to move from the head of the implant to the end of the implant; when moving toward the distal end, the striking assembly hits the pusher needle assembly support, causing the pusher needle to hit the implant. 12. The device for delivering an intraocular implant according to claim 1, further comprising a piercing needle assembly for forming an incision in the eye tissue, wherein the housing is further provided with a slider regulator for controlling the retraction of the piercing needle assembly towards the proximal end.