An integrated umbilical cord cutting umbilical cord clamp

By integrating an umbilical cord cutting clamp, the cleaning component for disinfection, the limiting component for stability, and the pushing component for reduced difficulty, the risk of infection and operational challenges during umbilical cord clamp replacement have been solved, achieving safe and efficient use of the umbilical cord clamp.

CN121242664BActive Publication Date: 2026-06-26THE SEVENTH MEDICAL CENTER OF PLA GENERAL HOSPITAL

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
THE SEVENTH MEDICAL CENTER OF PLA GENERAL HOSPITAL
Filing Date
2025-09-15
Publication Date
2026-06-26

Smart Images

  • Figure CN121242664B_ABST
    Figure CN121242664B_ABST
Patent Text Reader

Abstract

The application provides an umbilical cord clamp integrated with umbilical cord cutting, and belongs to the field of medical devices. The umbilical cord clamp comprises a pressing seat, a guide groove is formed through the outer surface of the upper end of the pressing seat, a partition plate for placing a movable clamp is fixedly connected to the inner surface of the guide groove, a top block is slidably connected to the inner side of the guide groove, a limiting assembly is arranged between the pressing seat and the top block, and the limiting assembly comprises a receiving groove formed in the inner side of the pressing seat. The cleaning assembly is arranged, the iodophor disinfectant is sprayed to the blade through the overflow groove, the iodophor disinfectant sprayed can disinfect the umbilical cord incision when the blade cuts the umbilical cord, the umbilical cord part of the baby can also be disinfected when the movable clamp is replaced, so that the risk of contamination of the umbilical cord incision can be effectively reduced, and the safety during use of the umbilical cord clamp can be effectively improved.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This invention relates to the field of medical devices, and more specifically, to an umbilical cord clamp that integrates umbilical cord cutting. Background Technology

[0002] An umbilical cord clamp is a small tool used in newborn care. Its main function is to fix and seal the cut umbilical cord stump, replacing the traditional silk thread ligation or umbilical cord rope binding method. Its core function is to physically compress and close the blood vessels (two arteries and one vein) in the umbilical cord to achieve the effects of hemostasis and isolation of external bacteria, while reducing irritation to the baby's delicate skin.

[0003] Chinese invention patent CN114366223B discloses a clamping device for an umbilical cord clamp. The device uses a squeezing block arranged inside the jaws to squeeze the blood in the umbilical cord. Before the umbilical cord clamps clamp the cord, the squeezing block drains the blood from the umbilical cord between the two clamps. Then, the two clamps clamp the umbilical cord.

[0004] In existing technology, before the umbilical cord falls off, it is necessary to continuously fix the umbilical cord in place on the outside of the cord before cutting it with scissors. There is a lack of an integrated device for clamping and cutting the umbilical cord. When changing the umbilical cord clamp at home, the clamp needs to be sterilized separately. Parents changing the clamp can easily contaminate the umbilical cord area, increasing the risk of infection. Summary of the Invention

[0005] To address the problem of umbilical cord infection during replacement of existing movable clamps, this invention provides an integrated umbilical cord clamp for umbilical cord cutting, which effectively reduces the risk of contamination by spraying iodine disinfectant to disinfect the umbilical cord incision.

[0006] To solve the above problems, the present invention adopts the following technical solution:

[0007] An integrated umbilical cord cutting clamp includes a compression seat. A guide groove is formed through the upper outer surface of the compression seat. A partition for placing a movable clamp is fixedly connected to the inner surface of the guide groove. A top block is slidably connected to the inner side of the guide groove. A limiting component is provided between the compression seat and the top block. The limiting component includes a storage groove formed inside the compression seat. A movable paddle is fixedly connected to the inner surface of the storage groove. A compression plate is fixedly connected to the outer surface of the movable paddle. The end of the compression plate away from the movable paddle is fixedly connected to the inner surface of the storage groove. A slot is embedded in the outer surface of the top block. A blade is installed inside the compression seat.

[0008] Optionally, the extrusion plate has a U-shaped structure, both the extrusion plate and the movable paddle are made of elastic material, the number of the slots is several and they are distributed in a linear array, the movable clamp is located inside the guide groove and slides in contact with the inner surface of the guide groove, and the extrusion seat has a V-shaped structure and is made of elastic material.

[0009] Optionally, a cutting assembly is provided inside the extrusion seat. The cutting assembly includes a knife holder fixedly connected to the inner surface of the guide groove. A fixing rod is threadedly connected to the outer surface of the upper end of the knife holder. A blade is fixedly connected to the knife holder through the fixing rod. A placement groove is embedded in the outer surface of the extrusion seat. The outer surface of the placement groove is in close contact with the top block.

[0010] Optionally, the outer surface of the guide groove is inclined on the left side, and an extrusion block is fixedly connected to the inner surface of the guide groove. There are two sets of extrusion blocks that are symmetrically distributed. The outer surface of the extrusion block is arc-shaped and slides in contact with the movable clamp. A through hole is opened through the outer surface of the top block, and the rear end of the top block is triangular.

[0011] Optionally, a pushing component is provided on the outer side of the top block. The pushing component includes an embedded mounting groove on the inner side of the top block. A bladder is fixedly connected to the inner surface of the mounting groove, and a slider is slidably connected to the inner surface of the mounting groove. The outer surface of the bladder is fixedly connected to the slider on the side away from the mounting groove.

[0012] Optionally, a support plate is fixedly connected to the outer surface of the slider away from the bladder body, and the outer surface of the support plate is in contact with the movable clamp. A one-way air inlet pipe is embedded and fixedly connected to the inner side of the top block. The end of the one-way air inlet pipe away from the bladder body extends through the through hole. A one-way air outlet pipe is fixedly connected to the outer surface of the bladder body, and the end of the one-way air outlet pipe away from the bladder body is connected to the outer side of the support plate. A spring is fixedly connected to the inner surface of the bladder body.

[0013] Optionally, a guide assembly is provided on the outer side of the top block. The guide assembly includes a traction groove formed on the inner side of the extrusion seat. A traction block is slidably connected to the inner surface of the traction groove. The outer surface of the traction block is fixedly connected to the top block. The number of traction grooves and traction blocks are two sets and they are symmetrically distributed.

[0014] Optionally, the outer surface of the pallet is embedded with grooves on both the front and rear sides. A spring is fixedly connected to the inner surface of the groove. A contact block is fixedly connected to the end of the spring away from the groove. The outer surface of the contact block is arc-shaped. The outer surface of the contact block slides in contact with the inner wall of the guide groove. There are two sets of contact blocks and springs, which are symmetrically distributed.

[0015] Optionally, a cleaning component is provided inside the guide groove. The cleaning component includes a storage sleeve fixedly connected to the inner surface of the guide groove. A contact plate is fixedly connected to the outer surface of the storage sleeve. The storage sleeve is triangular and made of elastic material. The inner side of the storage sleeve is filled with iodine disinfectant. An overflow groove is embedded inside the squeezing seat. The overflow groove extends into the guide groove and is distributed correspondingly to the blade. A one-way valve is provided inside the overflow groove. The contact block slides in contact with the outer surface of the contact plate.

[0016] Optionally, the outer surface of the extrusion seat is embedded with an anti-slip groove, the front end of the top block is fixedly connected with a stop block, the stop block engages with the outer surface of the extrusion seat, the left side of the outer surface of the extrusion seat is provided with a through slot, the number of movable clamps is two sets and they are arranged in parallel vertically, and the inner surface of the movable clamps is serrated.

[0017] Compared with the prior art, the technical solution provided by this invention has at least the following beneficial effects:

[0018] In the above solution, by setting up a cleaning component, iodine disinfectant flows to the blade through an overflow channel. When the blade cuts the umbilical cord, the flowing iodine disinfectant can disinfect the umbilical cord incision. At the same time, when the movable clamp is replaced, the umbilical cord area of ​​the baby can also be disinfected, thereby effectively reducing the risk of contamination of the umbilical cord incision and thus effectively improving the safety of the umbilical cord clamp during use.

[0019] This solution uses a limiting component. When the movable paddle moves to the slot, one end of the paddle enters the slot. The paddle engages inside the slot, limiting the engagement between the top block and the compression seat. The paddle prevents the top block from sliding backward inside the guide groove, thus keeping the top block's position relatively stable. Several sets of slots ensure the top block remains stable in different positions, effectively improving the flexibility of the umbilical cord clamp during use. Locking and limiting the position of the top block further enhances the ease of operation of the umbilical cord clamp.

[0020] This solution incorporates a pusher assembly. When the left end of the movable clamp moves to the position of the extrusion block, it is resisted by the extrusion block. The top block, in conjunction with the slider, extrudes the bladder, which accelerates the separation between the movable clamp and the tray. This further reduces the difficulty of separating the movable clamp and helps to simplify the operation of the umbilical cord clamp. Attached Figure Description

[0021] The accompanying drawings, which are incorporated herein and form part of the specification, illustrate embodiments of the invention and, together with the specification, further serve to explain the principles of the invention and enable those skilled in the art to practice and use the invention.

[0022] Figure 1 This is a schematic diagram of the overall structure of the present invention;

[0023] Figure 2 This is a top view of the overall structure of the present invention;

[0024] Figure 3 This is a cross-sectional view of the overall structure of the present invention;

[0025] Figure 4 This is a partial structural cross-sectional view of the present invention;

[0026] Figure 5 For the present invention Figure 4 Enlarged view of point A in the middle;

[0027] Figure 6 For the present invention Figure 3 Enlarged view of point B in the middle;

[0028] Figure 7 For the present invention Figure 3 Enlarged diagram of point C in the middle.

[0029] [Figure Labels]

[0030] 11. Extrusion seat; 12. Anti-slip groove; 13. Groove; 14. Movable clamp; 15. Guide groove; 16. Top block; 17. Through hole; 18. Stop block; 19. Partition plate; 20. Traction groove; 21. Traction block; 22. Placement groove; 23. Card slot; 24. Storage groove; 25. Movable lever; 26. Extrusion plate; 27. Mounting groove; 28. Bag body; 29. ​​One-way air inlet pipe; 30. Support plate; 31. Slide groove; 32. Spring one; 33. Extrusion block; 34. Contact block; 35. One-way air outlet pipe; 36. Slider; 37. Storage sleeve; 38. Overflow groove; 39. Contact plate; 40. Knife holder; 41. Fixing rod; 42. Blade; 43. Spring two.

[0031] As shown in the figure, specific structures and devices are marked in the figure to clearly illustrate the structure of the embodiments of the present invention. However, this is only for illustrative purposes and is not intended to limit the present invention to this specific structure, device and environment. Those skilled in the art can adjust or modify these devices and environments according to specific needs. Detailed Implementation

[0032] The present invention will now be described in detail with reference to the accompanying drawings and specific embodiments. It should also be noted that, to make the embodiments more comprehensive, the following embodiments are the best and preferred embodiments, and those skilled in the art can use other alternative methods to implement some well-known technologies; moreover, the accompanying drawings are only for more specific description of the embodiments and are not intended to specifically limit the present invention.

[0033] It should be noted that the use of terms such as "an embodiment," "an embodiment," "an exemplary embodiment," and "some embodiments" in the specification indicates that the described embodiment may include a specific feature, structure, or characteristic, but not every embodiment necessarily includes that specific feature, structure, or characteristic. Furthermore, when a specific feature, structure, or characteristic is described in connection with an embodiment, implementing such a feature, structure, or characteristic in conjunction with other embodiments (whether explicitly described or not) should be within the knowledge of those skilled in the art.

[0034] Generally, terms can be understood at least partly from their use in context. For example, depending at least partly on the context, the term "one or more" as used herein can be used to describe any feature, structure, or characteristic in a singular sense, or a combination of features, structures, or characteristics in a plural sense. Additionally, the term "based on" can be understood not necessarily to convey an exclusive set of factors, but rather, alternatively, depending at least partly on the context, to allow for the presence of other factors that are not necessarily explicitly described.

[0035] It is understood that the meanings of “on”, “above”, and “above” in this invention should be interpreted in the broadest manner, such that “on” means not only “directly on” something, but also includes the meaning of being “on” something with an intervening feature or layer, and that “above” or “above” means not only “on” something, but also includes the meaning of being “on” something without an intervening feature or layer.

[0036] Furthermore, spatially related terms such as “below,” “under,” “lower,” “above,” and “upper” are used herein for convenience to describe the relationship of one element or feature to one or more other elements or features, as illustrated in the accompanying drawings. Spatially related terms are intended to cover different orientations in the use or operation of the device other than those depicted in the accompanying drawings. The device may be oriented in other ways, and the spatially related descriptive terms used herein can be interpreted similarly.

[0037] like Figures 1 to 7As shown, this embodiment of the invention provides an integrated umbilical cord cutting clamp, including a compression seat 11. A guide groove 15 is formed through the upper outer surface of the compression seat 11. A partition 19 for placing a movable clamp 14 is fixedly connected to the inner surface of the guide groove 15. A top block 16 is slidably connected to the inner side of the guide groove 15. A limiting component is provided between the compression seat 11 and the top block 16. The limiting component includes a storage groove 24 formed inside the compression seat 11. A movable paddle 25 is fixedly connected to the inner surface of the storage groove 24. A compression plate 26 is fixedly connected to the outer surface of the movable paddle 25. The end of the compression plate 26 away from the movable paddle 25 is fixedly connected to the inner surface of the storage groove 24. A slot 23 is provided on the compression seat 11. The slot 23 can be embedded in the outer surface of the top block 16.

[0038] The extrusion plate 26 and the movable paddle 25 are both made of elastic material. The number of slots 23 is several and they are arranged in a linear array. The movable clamp 14 is located inside the guide groove 15 and slides in contact with the inner surface of the guide groove 15. The extrusion seat 11 has a V-shaped structure and is made of elastic material.

[0039] By adopting the above technical solution, when using the clamp, firstly, the two sets of movable clamps 14 are held on the outside of the umbilical cord, and then the two sets of movable clamps 14 are placed inside the guide groove 15. The two sets of movable clamps 14 are symmetrically distributed on both sides of the partition 19. Then, the push block 16 is moved inside the guide groove 15. The push block 16 pushes the movable clamps 14. During the movement of the movable clamps 14, in order to keep the position of the movable clamps 14 stable and reduce the probability of the movable clamps 14 moving in the opposite direction, a limiting component is set. When the push block 16 pushes to the left inside the guide groove 15, the movable clamps 14 will drive the movable lever 25 to move synchronously through the storage groove 24. The pressing plate 26 will apply a certain elastic force to the movable lever 25, so that the movable lever 25 slides against the inner wall of the guide groove 15 under the action of the elastic force. When the movable paddle 25 moves to the slot 23, it will undergo elastic deformation under the elastic force of the compression plate 26. At this time, one end of the movable paddle 25 will enter the slot 23. The movable paddle 25 can lock and limit the engagement between the top block 16 and the compression seat 11. When the top block 16 moves in the opposite direction in the guide groove 15, the movable paddle 25 can prevent the top block 16 from sliding in the opposite direction in the guide groove 15, thus keeping the position of the top block 16 relatively stable. The number of slots 23 is several, which can keep the top block 16 stable in different positions, thereby effectively improving the flexibility of the umbilical cord clamp during use. By locking and limiting the position of the top block 16, the ease of operation of the umbilical cord clamp can be further improved.

[0040] like Figure 3 and Figure 7As shown, a cutting assembly is provided inside the extrusion seat 11. The cutting assembly includes a blade holder 40 fixedly connected to the inner surface of the guide groove 15. A fixing rod 41 is threadedly connected to the upper outer surface of the blade holder 40. A blade 42 is fixedly connected to the blade holder 40 via the fixing rod 41. A placement groove 22 is embedded in the outer surface of the extrusion seat 11. The blade 42 is fixedly installed in the guide groove 15 via the fixing rod 41. The fixing rod 41 is threadedly connected to the blade holder 40, allowing for convenient replacement of the blade 42.

[0041] like Figure 1 As shown, the outer surface of the guide groove 15 is inclined on the left side, and the inner surface of the guide groove 15 is fixedly connected to the extrusion block 33. There are two sets of extrusion blocks 33, which are symmetrically distributed. The outer surface of the extrusion block 33 is arc-shaped. The outer surface of the extrusion block 33 is in sliding contact with the movable clamp 14. The outer surface of the top block 16 is provided with a through hole 17. The rear end of the top block 16 is triangular. The outer surface of the placement groove 22 is in close contact with the rear end of the top block 16.

[0042] By adopting the above technical solution, after the two sets of movable clamps 14 clamp the umbilical cord and place it on both sides of the partition 19, the top block 16 will push the movable clamps 14 along the guide groove 15. At this time, the movable clamps 14 will move the umbilical cord synchronously for a distance. When the movable clamps 14 move the umbilical cord to the blade 42, the blade 42 will cut the umbilical cord. As the movable clamps 14 slide inside the guide groove 15, the outer surface of the movable clamps 14 will slide into contact with the inner wall of the guide groove 15. The inner wall of the guide groove 15 is inclined, so that the two ends of the movable clamps 14 will gradually converge during the movement. When the left end of the movable clamps 14 moves to the squeezing block 33, the left end of the movable clamps 14 will engage and connect under the guidance of the two sets of squeezing blocks 33, so that the movable clamps 14 can be stably clamped on the outside of the umbilical cord to clamp and seal the umbilical cord. By setting the cutting component, the movable clamps 14 can be squeezed and fixed at the same time during the cutting of abnormal umbilical cord, thereby effectively reducing the risk of excessive blood loss inside the umbilical cord during the cutting process. The outer surface of the extrusion seat 11 is provided with a placement groove 22. When the top block 16 moves to the predetermined position, the outer surface of the top block 16 will come into contact with the placement groove 22. The placement groove 22 can keep the position of the top block 16 stable, thereby playing a certain limiting role for the top block 16.

[0043] like Figure 3 and Figure 6 As shown, a pushing assembly is provided on the outer side of the top block 16. The pushing assembly includes an embedded mounting groove 27 on the inner side of the top block 16. A bladder 28 is fixedly connected to the inner surface of the mounting groove 27. A slider 36 is slidably connected to the inner surface of the mounting groove 27. The outer surface of the bladder 28 away from the mounting groove 27 is fixedly connected to the slider 36.

[0044] For example Figure 6 As shown, a support plate 30 is fixedly connected to the outer surface of the slider 36 away from the bladder 28. The outer surface of the support plate 30 is in contact with the movable clamp 14. A one-way air inlet pipe 29 is embedded and fixedly connected to the inner side of the top block 16. The end of the one-way air inlet pipe 29 away from the bladder 28 extends into the through hole 17. A one-way air outlet pipe 35 is fixedly connected to the outer surface of the bladder 28. The end of the one-way air outlet pipe 35 away from the bladder 28 is connected to the outer side of the support plate 30. A spring 43 is fixedly connected to the inner surface of the bladder 28.

[0045] By adopting the above technical solution, the top block 16 moves synchronously with the spring 43 inside the bladder 28 during its movement. The spring 43 drives the slider 36 and the support plate 30 to move linearly, thereby pushing the movable clamp 14. The outer surface of the support plate 30 is arc-shaped, maintaining stable contact with the outer surface of the movable clamp 14. When the left end of the movable clamp 14 moves to the position of the compression block 33, the machine body experiences resistance from the compression block 33. This resistance is transmitted to the support plate 30 and the slider 36, and the top block 16, in conjunction with the slider 36, compresses the bladder 28. The mounting groove 27 inside the top block 16 is used for fixed installation of the bladder 28. When the body 28 is compressed, the gas inside it will be discharged outward through the one-way vent pipe 35. The discharged gas can accelerate the separation between the movable clamp 14 and the support plate 30, thereby further reducing the difficulty of separating the movable clamp 14 and helping to reduce the difficulty of operating the umbilical cord clamp. After the support plate 30 and the movable clamp 14 are separated, the body 28 pushes the slider 36 to move in the opposite direction under the elastic force of the second spring 43, and the volume of the body 28 re-expands. At this time, the external gas will enter the body 28 through the one-way inlet pipe 29, keeping the body 28 in a full state. Both the one-way inlet pipe 29 and the one-way vent pipe 35 are equipped with one-way valves to ensure one-way gas flow.

[0046] like Figure 3 and Figure 6 As shown, a guide assembly is provided on the outer side of the top block 16. The guide assembly includes a traction groove 20 that is opened on the inner side of the extrusion seat 11. A traction block 21 is slidably connected to the inner surface of the traction groove 20. The outer surface of the traction block 21 is fixedly connected to the top block 16. There are two sets of traction grooves 20 and traction blocks 21, and they are symmetrically distributed.

[0047] like Figure 6As shown, the outer surface of the tray 30 is embedded with grooves 31 on both the front and rear sides. A spring 32 is fixedly connected to the inner surface of the groove 31. A contact block 34 is fixedly connected to the end of the spring 32 away from the groove 31. The outer surface of the contact block 34 is arc-shaped. The outer surface of the contact block 34 slides in contact with the inner wall of the guide groove 15. There are two sets of contact blocks 34 and springs 32, which are symmetrically distributed.

[0048] By adopting the above technical solution, the top block 16 will drive the traction block 21 to slide linearly inside the traction groove 20 during the movement. The traction block 21 and the traction groove 20 make the movement of the top block 16 more stable. During the movement, the support plate 30 will drive the contact block 34 to move synchronously through the slide groove 31. The contact block 34 slides in contact with the inner wall of the guide groove 15, which can play a certain guiding role for the support plate 30, so that the moving position of the support plate 30 and the movable clamp 14 is kept accurate, thereby improving the cutting accuracy of abnormal umbilical cords to a certain extent. Since the inner surface of the guide groove 15 is inclined, the contact block 34 will gradually move into the slide groove 31 under the action of the extrusion force and squeeze the spring 32, thereby further improving the stability of the movement of the top block 16.

[0049] like Figure 7 As shown, a cleaning component is provided inside the guide groove 15. The cleaning component includes a storage sleeve 37 fixedly connected to the inner surface of the guide groove 15. A contact plate 39 is fixedly connected to the outer surface of the storage sleeve 37. The storage sleeve 37 is triangular and made of elastic material. The inner side of the storage sleeve 37 is filled with iodine disinfectant. An overflow groove 38 is embedded in the inner side of the squeezing seat 11. The overflow groove 38 extends into the interior of the guide groove 15 and is distributed correspondingly to the blade 42. A one-way valve is provided inside the overflow groove 38. The contact block 34 slides in contact with the outer surface of the contact plate 39.

[0050] like Figure 1 As shown, the outer surface of the extrusion seat 11 is embedded with an anti-slip groove 12, the front end of the top block 16 is fixedly connected with a stop block 18, the stop block 18 engages with the outer surface of the extrusion seat 11, the left side of the outer surface of the extrusion seat 11 is provided with a through slot 13, the number of movable clamps 14 is two sets and they are arranged in parallel vertically, the inner surface of the movable clamps 14 is serrated.

[0051] By adopting the above technical solution, when the contact block 34 moves to the contact plate 39, the contact block 34 will squeeze the contact plate 39 and push the contact plate 39 towards the inner wall of the guide groove 15. The compression plate 26 can compress the receiving sleeve 37. The iodine disinfectant inside the receiving sleeve 37 will enter the overflow groove 38 under pressure and flow to the blade 42 through the overflow groove 38. When the blade 42 cuts the umbilical cord, the flowing iodine disinfectant can disinfect the umbilical cord incision and simultaneously perform live disinfection. When the movable clamp 14 is replaced, the umbilical cord area can also be disinfected, effectively reducing the risk of contamination at the umbilical cord incision site and thus improving the safety of the umbilical cord clamp during use. The anti-slip groove 12 on the outer surface of the compression seat 11 effectively increases its surface friction, thereby reducing the probability of slippage during operation. When the top block 16 moves to the predetermined position, the stop block 18 engages with the outer surface of the compression seat 11, limiting the position of the top block 16. The inner side of the movable clamp 14 is serrated, which effectively increases the friction between the movable clamp 14 and the umbilical cord, making the movable clamp 14 hold the umbilical cord more securely. The groove 13 on the surface of the compression seat 11 facilitates the quick removal of the movable clamp 14, thereby improving operational efficiency to a certain extent.

[0052] The workflow of the technical solution of this invention is as follows:

[0053] When the umbilical cord clamp is in use, the two sets of movable clamps 14 are placed inside the guide groove 15. The push block 16 moves inside the guide groove 15, pushing the movable clamps 14. When the movable clamp 14 carrying the umbilical cord moves to the blade 42, the blade 42 cuts the umbilical cord. During the movement, the push block 16 drives the traction block 21 to slide linearly inside the traction groove 20. The traction block 21, in conjunction with the traction groove 20, makes the movement of the push block 16 more stable. When the movable lever 25 moves to the slot 23, the movable lever 25 will undergo elastic deformation under the elastic force of the compression plate 26. At this time, one end of the movable lever 25 will enter the slot 23. The movable lever 25 engages inside the slot, which can limit the engagement between the push block 16 and the compression seat 11. The left end of the movable clamp 14 is guided by the two sets of compression blocks 33. The lower locking connection allows the movable clamp 14 to be stably clamped and sealed on the outside of the umbilical cord. The top block 16, in conjunction with the slider 36, compresses the sac 28. When the sac 28 is compressed, the gas inside it is discharged outward through the one-way vent pipe 35. The discharged gas accelerates the separation between the movable clamp 14 and the support plate 30, thereby further reducing the difficulty of separating the movable clamp 14. The contact block 34 compresses the contact plate 39 and pushes the contact plate 39 towards the inner wall of the movable groove. The compression plate 26 compresses the storage sleeve 37. The iodine disinfectant inside the storage sleeve 37 is sprayed onto the blade 42 through the overflow groove 38 under pressure. The sprayed iodine disinfectant disinfects the umbilical cord incision, thereby effectively reducing the risk of contamination of the umbilical cord incision.

[0054] This invention encompasses any substitutions, modifications, equivalent methods, and solutions made within the spirit and scope of this invention. To provide the public with a thorough understanding of this invention, specific details are described in detail in the following preferred embodiments; however, those skilled in the art will fully understand the invention even without these details. Furthermore, to avoid unnecessary misunderstanding of the essence of this invention, well-known methods, processes, procedures, components, and circuits are not described in detail.

[0055] The above description is only a preferred embodiment of the present invention. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of the present invention, and these improvements and modifications should also be considered within the scope of protection of the present invention.

Claims

1. An integrated umbilical cord cutting clamp, comprising a compression seat, characterized in that, A guide groove is formed through the outer surface of the upper end of the extrusion seat. A partition for placing a movable clamp is fixedly connected to the inner surface of the guide groove. A top block is slidably connected to the inner side of the guide groove. A limiting component is provided between the extrusion seat and the top block. The limiting component includes a storage groove formed inside the extrusion seat. A movable paddle is fixedly connected to the inner surface of the storage groove. An extrusion plate is fixedly connected to the outer surface of the movable paddle. The end of the extrusion plate away from the movable paddle is fixedly connected to the inner surface of the storage groove. A slot is embedded in the outer surface of the top block. A blade is installed inside the extrusion seat. The inner side of the extrusion seat is provided with a cutting assembly. The cutting assembly includes a knife holder that is fixedly connected to the inner surface of the guide groove. A fixing rod is threadedly connected to the outer surface of the upper end of the knife holder. A blade is fixedly connected to the knife holder through the fixing rod. A placement groove is embedded in the outer surface of the extrusion seat. The outer surface of the placement groove is in close contact with the top block. A material pushing assembly is provided on the outer side of the top block. The material pushing assembly includes an embedded mounting groove on the inner side of the top block. A bladder is fixedly connected to the inner surface of the mounting groove. A slider is slidably connected to the inner surface of the mounting groove. The outer surface of the bladder away from the mounting groove is fixedly connected to the slider. A support plate is fixedly connected to the outer surface of the slider on the side away from the bladder body. The outer surface of the support plate is in contact with the movable clamp. A one-way air inlet pipe is embedded and fixedly connected to the inner side of the top block. The end of the one-way air inlet pipe away from the bladder body extends through the through hole. A one-way air outlet pipe is fixedly connected to the outer surface of the bladder body. The end of the one-way air outlet pipe away from the bladder body is connected to the outer side of the support plate. A spring is fixedly connected to the inner surface of the bladder body. A cleaning component is provided inside the guide groove. The cleaning component includes a storage sleeve fixedly connected to the inner surface of the guide groove. A contact plate is fixedly connected to the outer surface of the storage sleeve. The storage sleeve is triangular and made of elastic material. The inner side of the storage sleeve is filled with iodine disinfectant. An overflow groove is embedded inside the squeezing seat. The overflow groove extends into the guide groove and is distributed correspondingly to the blade. A one-way valve is provided inside the overflow groove. The contact block slides in contact with the outer surface of the contact plate.

2. The umbilical cord clamp with integrated umbilical cord cutting according to claim 1, characterized in that, The extrusion plate has a U-shaped structure. Both the extrusion plate and the movable paddle are made of elastic material. The number of slots is several and they are distributed in a linear array. The movable clamp is located inside the guide groove and slides in contact with the inner surface of the guide groove. The extrusion seat has a V-shaped structure and is made of elastic material.

3. The umbilical cord clamp with integrated umbilical cord cutting according to claim 2, characterized in that, The outer surface of the guide groove is inclined on the left side. An extrusion block is fixedly connected to the inner surface of the guide groove. There are two sets of extrusion blocks, which are symmetrically distributed. The outer surface of the extrusion block is arc-shaped and slides in contact with the movable clamp. A through hole is opened through the outer surface of the top block. The rear end of the top block is triangular.

4. The umbilical cord clamp with integrated umbilical cord cutting according to claim 3, characterized in that, A guide assembly is provided on the outer side of the top block. The guide assembly includes a traction groove opened on the inner side of the extrusion seat. A traction block is slidably connected to the inner surface of the traction groove. The outer surface of the traction block is fixedly connected to the top block. There are two sets of traction grooves and traction blocks, which are symmetrically distributed.

5. The integrated umbilical cord cutting clamp according to claim 4, characterized in that, The outer surface of the pallet is embedded with grooves on both the front and rear sides. A spring is fixedly connected to the inner surface of the groove. A contact block is fixedly connected to the end of the spring away from the groove. The outer surface of the contact block is arc-shaped and slides in contact with the inner wall of the guide groove. There are two sets of contact blocks and springs, which are symmetrically distributed.

6. The umbilical cord clamp with integrated umbilical cord cutting according to claim 5, characterized in that, The outer surface of the extrusion seat is embedded with an anti-slip groove. A stop block is fixedly connected to the outer surface of the front end of the top block. The stop block engages with the outer surface of the extrusion seat. A slot is opened through the left side of the outer surface of the extrusion seat. There are two sets of movable clamps that are arranged in parallel vertically. The inner surface of the movable clamps is serrated.