Patent Application
20240238005
The present invention relates to surgical devices, particularly to a circumcision apparatus and more particularly to a built-in electric circumcision device and a valgus electric circumcision device.
Refer to the built-in electric circumcision device and a valgus electric circumcision device. The redundant prepuce or phimosis is one of the causes of male urinary system infections and sexually transmitted diseases. The redundant prepuce or phimosis can cause urinary tract infections, resulting in chronic prostatitis, with a series of symptoms, such as pains in back and waist, impotence and premature ejaculation. Therefore, the removal of the redundant prepuce is a good way to prevent these diseases.
Traditionally, surgical removal of the phimosis or redundant prepuce has the main technical points of removal of excess prepuce, hemostasis, and apposition suture of cut edges to skin. A postoperative patient cannot move around, suffers unbearable pain in each change of ointment and endures huge pain when stitches are taken out finally. In addition, incomplete ligating hemostasis will cause prepuce hematoma, thus requiring a surgical treatment again. Furthermore, since the prepuce removal and the hemostasis process are performed separately, the operation time is prolonged, and the patient's panic is exacerbated.
A therapeutic method of applying a laser and high-frequency electric surgical knife technology to circumcision has been developed at present. Although this therapeutic method substitutes for scissors cutting and makes a bleeding spot coagulated, the patient's tissues will be burnt and susceptible to infection.
Then, a circumcision device in which a prepuce incision is sutured using suturing nails at one time was developed in this field. However, all of the circumcision devices in the prior art are manually driven or remotely pedal-driven. The surgical operation, especially the time and force for tapping out a U-nail, is very unstable due to features of manual drive. If being applied with excessive force, the U-nail may clamp off the prepuce tissue to cause failure of the surgery; or if the applied force is insufficient, the tapping of the U-nail may be incomplete, resulting in failure of both hemostasis and the surgery. In manual drive, the circumcision device has to be provided with two sets of driving structures to drive a circumcision knife and the U-nail, respectively. Once the two driving structure are uncooperative, phenomena will appear that the circumcision by the circumcision knife is completed while the U-nail fails to stop bleeding or the U-nail is tapped out while the circumcision is not completed, any of which has a great risk and brings pain to a patient.
Refer to the built-in electric circumcision device and a valgus electric circumcision device.
For the above problems in the prior art, an object of the present invention is to provide an electric circumcision device, and particularly relates to a built-in electric circumcision device and a valgus electric circumcision device. In the electric circumcision device, a U-nail is driven by a motor, so that instability and various risks caused by manual drive are avoided. The specific technical solutions are as follows.
A built-in electric circumcision device comprises a motor, a thrust tube, a U-nail top ring and a circumcision cover, wherein the motor is connected to or in contact with the thrust tube, and is configured to drive the thrust tube forward; the thrust tube is connected to or in contact with the U-nail top ring, and is configured to thrust the U-nail top ring forward; and the motor is connected to or in contact with the circumcision cover.
Further, the thrust tube is a hollow cylinder with a first ring-shaped cross section, wherein the ring-shaped end of the front end of the hollow cylinder is connected to or in contact with the rear end of the U-nail top ring; and/or the U-nail top ring is configured to push out a U-nail from a U-nail groove of the circumcision device.
Further, the motor has an end thread, and is connected to or in contact with the circumcision cover via the end thread.
Further, the motor has a connecting rod on which the thread is arranged.
Further, the circumcision cover comprises a positioning rod connected to or in contact with the connecting rod or the thread; and/or a positioning groove is formed in the positioning rod, and is provided with an inner thread threadedly matched with the thread.
Further, the built-in electric circumcision device also comprises a motor front shell and a comprehensive shell; the front end of the motor front shell is connected to the rear end of the comprehensive shell; and/or the cross section of the front end of the motor front shell is in the shape of a second ring capable of accommodating the first ring.
Further, the built-in electric circumcision device also comprises a motor rear shell cooperating with the motor front shell to form a space for accommodating the motor.
Further, the built-in electric circumcision device also comprises a cable which is connected to and supplies power to the motor.
Further, the built-in electric circumcision device also comprises a switch which is arranged on the motor rear shell or the motor front shell or the comprehensive cover, and is configured to control the powering on or off, and/or a driving distance, and/or a driving speed of the motor.
Further, a cable hole is formed in the motor rear shell; and the cable passes through the cable hole and is connected to the motor.
According to another solution of the present invention, there is provided a valgus electric circumcision device, comprising a motor, a thrust tube and a U-nail top ring, wherein the motor is connected to or in contact with the thrust tube, and is configured to drive the thrust tube forward; and the thrust tube is connected to or in contact with the U-nail top ring, and is configured to thrust the U-nail top ring forward.
Further, the valgus electric circumcision device comprises an inner comprehensive cover; and the motor is connected to or in contact with the inner comprehensive cover.
Further, the thrust tube is a hollow cylinder with a first ring-shaped cross section, wherein the ring-shaped end of the front end of the hollow cylinder is connected to or in contact with the rear end of the U-nail top ring; and/or the U-nail top ring is configured to push out a U-nail from a U-nail groove of the circumcision device.
Further, the motor has a connecting rod and an end thread on the connecting rod, and is connected to or in contact with the inner comprehensive cover via the end thread.
Further, the inner comprehensive cover comprises a positioning rod; and a positioning groove is formed in the positioning rod, and is provided with an inner thread threadedly matched with the end thread.
Further, the valgus electric circumcision device also comprises a motor front shell and a comprehensive cover in which the inner comprehensive cover is located; the front end of the motor front shell is connected to the rear end of the comprehensive cover; and/or the cross section of the front end of the motor front shell is in the shape of a second ring capable of accommodating the first ring.
Further, the valgus electric circumcision device also comprises a motor rear shell cooperating with the motor front shell to form a space for accommodating the motor.
Further, the valgus electric circumcision device also comprises a cable which is connected to and supplies power to the motor.
Further, the valgus electric circumcision device also comprises a switch which is arranged on the motor rear shell or the motor front shell or the comprehensive cover, and is configured to control the powering on or off and/or a driving distance and/or a driving speed of the motor.
Further, a cable hole is formed in the motor rear shell; and the cable passes through the cable hole and is connected to the motor.
Compared with the prior art, the electric circumcision device provided by the present invention uses the motor to drive the U-nail to avoid instability and various risks caused by manual drive. Particularly, the driving force of the U-nail by the motor is adjustable and stable, so that phenomena are avoided that the U-nail applied with excessive force clamps off the prepuce tissue to cause failure of the surgery and incomplete tapping of the nail causes failure of hemostasis as the force applied to the U-nail is insufficient. Meanwhile, the switch is adopted to adjust the driving distance and speed to enable the electric circumcision device to be suitable for different surgery objects and environments. In addition, a driving structure and an actuating structure driven by a motor are adopted, so that manual driving can be omitted and the risk caused by unsynchronized running of the above two driving structures is prevented. After adopting the motor for driving, the overall appearance of the circumcision device is simple, and components such as a handle hinge and the like are omitted, so that the mold preparation cost and the production cost are significantly reduced.
Refer to the built-in electric circumcision device and a valgus electric circumcision device.
The reference numerals in the above figures are shown as follows: 1: circumcision cover; 1-1: blood vessel corresponding groove; 1-2: negative pressure hole; 1-3: positioning rod; 1-3-1: positioning groove; 1-4: U-nail seat; 2: circumcision knife gasket; 3: U-nail backing ring; 4: circumcision knife; 5: U-nail; 6: comprehensive cover; 7: U-nail top ring; 7-1: U-nail top column; 7-2: positioning hole; 7-2-1: positioning groove; 8: comprehensive cover; 9: thrust tube; 10: motor front shell; 11: switch; 12: motor; 12-1: thread; 13: motor rear shell; and 14: cable.
The reference numerals in the above figures are shown as follows: 1: cable; 2: motor rear shell; 3: motor front shell; 4: motor; 5: switch; 6: thrust tube; 7: comprehensive cover; 8: U-nail top ring; 9: lower cover; 10: U-nail; 11: circumcision knife; 12: U-nail backing ring; 13: inner comprehensive cover; 14: locking ring; 15: inner ring; and 16: upper cover.
Refer to the built-in electric circumcision device and a valgus electric circumcision device.
The present invention will be described in detail below with reference to the accompanying drawings.
The built-in electric circumcision device further comprises a motor front shell 10 and a comprehensive shell 8. The front end of the motor front shell 10 is connected to the rear end of the comprehensive shell 8. The cross section of the front end of the motor front shell 10 is in the shape of a second ring capable of accommodating the first ring. The built-in electric circumcision device also comprises: a motor rear shell 13 cooperating with the motor front shell 10 to form a space for accommodating the motor 12, a cable 14 which is connected to and supplies power to the motor 12, and a switch 11 arranged on the motor front shell 10 and configured to control the powering on or off and a driving distance and speed of the motor 12. A cable hole 13 is formed in the motor rear shell 13. The cable 14 passes through the cable hole and is connected to the motor 12.
The valgus electric circumcision device also comprises a comprehensive cover 7 and a motor front shell 3. The inner comprehensive cover 13 is located in the comprehensive cover. The front end of the motor front shell 3 is connected to the rear end of the comprehensive cover 7. The cross section of the front end of the motor front shell 3 is a second ring capable of accommodating the first ring. The valgus electric circumcision device further comprises: a motor rear shell 2 cooperating with the motor front shell 3 to form a space for accommodating the motor 4, a cable 1 which is connected to and supplies power to the motor 4, and a switch 5 arranged on the motor rear shell 2 or the motor front shell 3 or the comprehensive cover 7 and configured to control the powering on or off and a driving distance and speed of the motor 4. A cable hole is formed in the motor rear shell 2. The cable 1 passes through the cable hole and is connected to the motor 4.
The upper cover 16 and the lower cover 9 cooperates with each other and are locked by the locking ring 14. An inner ring 15 is arranged in the upper cover 16. The inner comprehensive cover 13 is arranged in the lower cover 9. A U-nail backing ring 12 is arranged at the lower end of the inner ring 15, and is corresponding to the U-nail in the U-nail groove. A circumcision knife 11 is arranged beside the U-nail top ring 8, and can be simultaneously pushed out with the U-nail.
Exemplary descriptions are given for the present invention with reference to the drawings in the above. Obviously, the present invention is not limited to the above implementation manners. Any improvement using the methods, concepts and technical solutions of the present invention or direct application of the present invention to other occasions without modifications shall fall into the protection scope of the present invention.
| Number | Date | Country | Kind |
|---|---|---|---|
| 201710063339.X | Feb 2017 | CN | national |
| 201710063340.2 | Feb 2017 | CN | national |
| 201710065136.4 | Feb 2017 | CN | national |
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The present application is a Divisional Application of U.S. patent application Ser. No. 16/531,139 filed on Aug. 5, 2019, which is a Continuation Application of PCT Application No. PCT/CN2018/074988 filed on Feb. 1, 2018, which claims the benefit of Chinese patents application Ser. Nos. 201710063339.X, 201710065146.8, 201710065140.0, 201710065139.8, 201710065138.3, 201710065150.4, 201710065149.1, 201710065148.7, 201710065147.2, 201710063340.2, 201710065137.9, 201710065136.4, 201720109034.3 filed on Feb. 4, 2017, Chinese patents application Ser. Nos. 201710250780.9 and 201710250951.8 filed on Apr. 18, 2017, Chinese patents application Ser. Nos. 201710254989.2, 201710255021.1, 201710255023.0 and 201710255025.X filed on Apr. 19, 2017, Chinese Patent Application Nos. 201710274426.X, 201710274400.5, 201710274399.6, 201710274398.1, 201710274397.7, 201710274396.2, 201710274309.3, 201710274308.9, 201710274307.4, 201710274306.X, 201710273895.X and 201710273894.5 filed on Apr. 24, 2017, and Chinese patent application Ser. No. 201710709597.0 filed on Aug. 18, 2017. All the above are hereby incorporated by reference.
| Number | Date | Country | |
|---|---|---|---|
| Parent | 16531139 | Aug 2019 | US |
| Child | 18624114 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | PCT/CN2018/074988 | Feb 2018 | WO |
| Child | 16531139 | US |
