CN115804856B - Instrument degassing unit after umbilical cord tissue cutting - Google Patents

Abstract

The invention provides a device for disinfecting instruments after cutting umbilical cord tissue, which relates to the technical field of general methods or devices for material or disinfection, and comprises a disinfection tank, two rotating mechanisms, two flushing mechanisms, a rotating wheel mechanism, a control mechanism and a cutting blade, wherein the rotating mechanism rotates in the horizontal direction in the disinfection tank, the control mechanism is fixed on the rotating mechanism, the rotating wheel mechanism rotates outside the control mechanism, the two flushing mechanisms are arranged at 90 degrees, the flushing mechanisms penetrate through the side wall of the disinfection tank and are in sliding connection with the disinfection tank, one end of one flushing mechanism, which is positioned in the disinfection tank, is tightly pressed on one side surface of the rotating mechanism and slides mutually, the other flushing mechanism is tightly pressed with the rotating wheel mechanism after the rotating wheel mechanism rotates at 90 degrees, the cutting blades are provided with a plurality of cutting blades sliding in the rotating wheel mechanism, one end of each cutting blade is in contact with the control mechanism, and the technical problem that after umbilical cord treatment, the instruments need to be placed in other containers for cleaning and disinfection, and the instruments are cut unevenly is solved.

Description

Instrument degassing unit after umbilical cord tissue cutting

Technical Field

The invention belongs to the technical field of general methods or devices for material or disinfection, and particularly relates to a disinfection device for instruments after umbilical cord tissue cutting.

Background

The umbilical cord is in the mother and can provide nutrition for the fetus; after delivery, hematopoietic stem cells can be cultured to treat disease; and moreover, the umbilical cord contains a large number of mesenchymal stem cells, and the mesenchymal stem cells also have great application prospects in cardiovascular diseases, liver cirrhosis, degenerative diseases of bones and muscles, brain and spinal cord nerve injuries, alzheimer's disease, lupus erythematosus, scleroderma, autoimmune diseases and the like. The umbilical cord cells have the characteristics of good uniformity, high activity, low immunogenicity, large amplification amount, repeated application and the like, and are an ideal mesenchymal stem cell source;

after handling the umbilical cord, need wash the utensil, including the cutter, container etc. disinfect, prevent to handle next time and cause the pollution, however current cutting mode and disinfection mode lead to the cutting inhomogeneous, and the cutting is inhomogeneous, and the tissue damage is big, need put into other disinfection containers after the cutting and disinfect, need clean disinfection container scheduling problem again after the disinfection, for the disinfection of the even and convenient to container of messenger's cutting, provide an umbilical cord tissue cutting back utensil degassing unit.

Disclosure of Invention

The invention aims to provide a device for disinfecting instruments after umbilical cord tissue cutting, which solves the technical problems that instruments need to be put into other containers for cleaning and disinfection after umbilical cord treatment, and the cutting is not uniform.

In order to achieve the purpose, the invention discloses a device disinfection device for umbilical cord tissue after cutting, which has the following specific technical scheme:

the utility model provides an utensil degassing unit after umbilical cord tissue cutting, includes disinfection groove, slewing mechanism, washes the mechanism, runner mechanism, control mechanism and cutting piece, and slewing mechanism rotates at the inside horizontal direction of disinfection groove, and control mechanism fixes on slewing mechanism, and runner mechanism rotates in control mechanism's the outside, washes the mechanism and is equipped with two, two the flushing machine constitutes 90 and arranges, wash the mechanism pass the lateral wall of disinfection groove and with disinfection groove sliding connection, one wash the mechanism and lie in the inside one end of disinfection inslot and compress tightly on slewing mechanism's a side and slide each other, another wash the mechanism and rotate 90 backs at runner mechanism and compress tightly with it, the cutting piece is equipped with a plurality ofly, the cutting piece slides in runner mechanism inside, cutting piece one end contacts with control mechanism.

Further, the disinfection groove includes support frame, sliding hole and places the board, the support frame is fixed on the inside wall of disinfection groove, the support frame with slewing mechanism rotates and is connected, wash the mechanism pass the sliding hole and with sliding hole sliding connection, place the board setting in the inside downside of disinfection groove, place the board and can take out and withdraw.

Furthermore, slewing mechanism includes the antifriction wheel, ring gear, link and supports the groove, the antifriction wheel is equipped with four and rotates with the support frame to be connected, and the antifriction wheel middle part bearing ring gear, the link is equipped with two, and the link symmetry sets up, two fixed connection control mechanism between the link, the link middle part is equipped with supports the groove, support the groove and rotate with control mechanism's inboard mechanism and be connected.

Further, wash the mechanism and include slide bar, isolation head and top push spring, the slide bar with sliding hole sliding connection, isolation head is located the one end of slide bar to be linked together with the middle part of slide bar, isolation head with the runner mechanism contacts, is equipped with the seal groove on the isolation head, and top push spring cover is on the slide bar, and top push spring one end contacts with isolation head, and the top push spring other end contacts with the inboard in disinfection groove.

Further, the rotating wheel mechanism comprises a wheel body, a supporting ring frame, two driving motors, supporting wheels and an outer cover, wherein a groove is formed in the wheel body, a cutting piece is connected to the groove in a sliding mode, the outer cover is fixed to one side of the wheel body, the two supporting ring frames are arranged on the supporting ring frame, one supporting ring frame is fixed to one side of the wheel body, the other supporting ring frame is fixed to one side of the outer cover, the driving motors are fixed to a connecting frame of the rotating mechanism, the driving motors are meshed with teeth on the inner side of the supporting ring frame on one side, the two groups of supporting wheels are arranged, each group of supporting wheels is provided with four supporting wheels, and the supporting wheels are rotatably connected with the supporting ring frame and support the control mechanisms on the inner sides of the supporting wheels.

Further, the wheel body includes race, fluid infusion mouth, wash tank and inboard spring holder, the race is equipped with a plurality ofly to even seting up on the wheel body, sliding connection has the cutting piece in the race, and the fluid infusion mouth sets up in one side of enclosing cover, and the fluid infusion mouth is linked together with the wash tank that corresponds, processing has the through-hole on the enclosing cover, the through-hole with the fluid infusion mouth is corresponding, and when the wheel body rotated, two that are in the lower part the through-hole with the washing mechanism is linked together, and the wash tank is seted up in the wheel body periphery, and inboard spring holder sets up in the inboard of wheel body, and the inboard spring holder is connected with the compression spring that sets up on the cutting piece.

Further, control mechanism includes barrel, double-end cam, roof-rack and carriage, the barrel is fixed at slewing mechanism's middle part, and the opening has been seted up to the barrel lower part, and the roof-rack passes the opening can the opening part slides, the spout has been seted up to opening one side, carriage one end slides in the spout, the carriage other end rotates with the lower part of roof-rack to be connected, roof-rack upper portion contacts with the double-end cam, is equipped with the spring between roof-rack and the barrel inboard, double-end cam one end is connected with the motor, and the double-end cam both ends are in slewing mechanism is last to be last to set up support the inslot rotation.

Furthermore, the cutting blade comprises a cutting knife and a compression spring, the cutting knife slides in the wheel groove, and the cutting knife is attached to the outer side of the barrel of the control mechanism under the pushing of the compression spring.

The disinfection tank can be arranged to disinfect the interior of the device after treatment, so that the disinfection operation is simpler and more convenient, and the pollution to the next treatment is prevented;

the rotating wheel mechanism is arranged in the disinfection groove, the cutting piece is arranged on the rotating wheel mechanism, and the umbilical cord tissue can be cut through the control of the rotating mechanism, so that the cutting is uniform.

Set up control mechanism through the middle part of runner mechanism and can control the play piece interval of cutting piece to can control the cutting size, carry out not unidimensional cutting to the umbilical cord, be favorable to realizing the even of cutting, make full use of umbilical cord mesenchyme, the climbing out of the cell of being convenient for.

The umbilical cord tissue can be washed while being cut in different directions by arranging the liquid supplementing mechanism at two vertical angles, and the device can also be washed and disinfected after the umbilical cord tissue is treated.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic view of the structure of the disinfection tank of the present invention;

FIG. 4 is a schematic structural diagram of a rotating mechanism of the present invention;

FIG. 5 is a schematic view of the flushing mechanism of the present invention;

FIG. 6 is a schematic view of the turning gear mechanism of the present invention;

FIG. 7 is another schematic view of the structure of FIG. 6;

FIG. 8 is a schematic view of a wheel structure according to the present invention;

FIG. 9 is a schematic view of the control mechanism of the present invention;

FIG. 10 is a schematic view of the connection of the top frame and the sliding frame;

FIG. 11 is a schematic view of a cutting blade according to the present invention;

the symbols in the figure illustrate:

a sterilizing tank 1; 1-1 of a support frame; a sliding hole 1-2; placing plates 1-3; a rotating mechanism 2; 2-1 of a friction reducing wheel; 2-2 of a toothed ring; 2-3 of a connecting frame; 2-4 of a supporting groove; a flushing mechanism 3; a slide bar 3-1; 3-2 parts of an isolation head; 3-3 of a pushing spring; a rotating wheel mechanism 4; a wheel body 4-1; 4-1-1 of wheel groove; 4-1-2 parts of a fluid infusion port; 4-1-3 of a flushing tank; inner spring seats 4-1-4; a support ring frame 4-2; 4-3 of a driving motor; 4-4 of supporting wheels; 4-5 of outer cover; 4-5-1 of a through hole; a control mechanism 5; 5-1 of a cylinder body; a double-head cam 5-2; 5-3 of a top frame; 5-4 of a sliding frame; cutting the sheet 6; a cutting knife 6-1; compressing the spring 6-2.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms center, upper, lower, left, right, vertical, horizontal, inner, outer, etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms first, second and third are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 and 2, a device for disinfecting instruments after cutting umbilical cord tissue comprises a disinfection tank 1, a rotating mechanism 2, two flushing mechanisms 3, a rotating wheel mechanism 4, a control mechanism 5 and a cutting blade 6, wherein the rotating mechanism 2 rotates in the horizontal direction in the disinfection tank 1, the control mechanism 5 is fixed on the rotating mechanism 2, the rotating wheel mechanism 4 rotates outside the control mechanism 5, the two flushing mechanisms 3 are arranged at 90 degrees, the flushing mechanisms 3 penetrate through the side wall of the disinfection tank 1 and are in sliding connection with the disinfection tank 1, one end of the flushing mechanism 3, which is positioned in the disinfection tank 1, is pressed against one side surface of the rotating mechanism 4 and slides mutually, the other end of the flushing mechanism 3, which is rotated 90 degrees after the rotating wheel mechanism 4, is pressed against the rotating mechanism, the cutting blade 6 is provided with a plurality of cutting blades 6, the cutting blade 6 slides in the rotating wheel mechanism 4, one end of the cutting blade 6 is in contact with the control mechanism 5, the treated umbilical cord is placed on the disinfection tank 1, the rotating wheel mechanism 6 is driven to rotate under the rotation of the rotating wheel mechanism 5, the cutting mechanism 5 controls the cutting blade 6, thereby controlling the cutting mechanism to control the cutting blade 6 to rotate in different cutting angles in the other direction, and control the cutting mechanism to control the size of the umbilical cord in different cutting direction, and further control the cutting mechanism 2, thereby controlling the size of the cutting direction and further control the size of umbilical cord. After the treatment, the liquid flowing out of the umbilical cord tissue is cleaned by the flushing mechanism 3, after the treatment is finished, the inside of the whole device is flushed and disinfected by introducing disinfectant, and the flushing mechanism 3 can be pulled by a peripheral pulling mechanism so as to be separated from or attached to the rotating wheel mechanism 4 when the rotating wheel mechanism rotates.

As shown in fig. 3, the disinfection tank 1 comprises a support frame 1-1, a sliding hole 1-2 and a placing plate 1-3, the support frame 1-1 is fixed on the inner side wall of the disinfection tank 1, the support frame 1-1 is rotatably connected with the rotating mechanism 2, the flushing mechanism 3 passes through the sliding hole 1-2 and is slidably connected with the sliding hole 1-2, the placing plate 1-3 is arranged at the lower side of the inside of the disinfection tank 1, the placing plate 1-3 can be drawn out and retracted, the support frame 1-1 supports the rotation of the rotating mechanism 2, the sliding hole 1-2 facilitates the passing and sealing of the flushing mechanism 3, and prevents the cleaning fluid from flowing out through the gap between the sliding hole 1-2 and the flushing mechanism 3, the placing plate 1-3 can be in various forms, is not limited to a flat plate, and can also be replaced by a transmission belt and the like, and the angle of the placing plate 1-3 can be adjusted according to the actual use, mainly plays a role of supporting umbilical cord tissue and facilitating the cutting; the disinfection tank 1 is provided with a liquid discharge mechanism which is convenient for discharging flushing liquid and disinfection water.

As shown in fig. 4, the rotating mechanism 2 includes four friction reducing wheels 2-1, a gear ring 2-2, a connecting frame 2-3 and supporting grooves 2-4, the friction reducing wheels 2-1 are rotatably connected with the supporting frame 1-1, the middle of the friction reducing wheel 2-1 supports the gear ring 2-2, the connecting frame 2-3 is provided with two connecting frames 2-3, the connecting frames 2-3 are symmetrically arranged, a control mechanism 5 is fixedly connected between the two connecting frames 2-3, the middle of the connecting frame 2-3 is provided with the supporting groove 2-4, the supporting groove 2-4 is rotatably connected with an inner side mechanism of the control mechanism 5, the friction reducing wheel 2-1 supports the gear ring 2-2 to rotate the gear ring 2-2 in the horizontal direction, the gear ring 2-2 is connected with a motor to drive, so that the gear ring 2-2 drives the rotating wheel mechanism 4 to rotate, thereby adjusting the cutting direction, the connecting frame 2-3 plays a role of supporting the control mechanism 5, and the supporting groove 2-4 enables the mechanism inside the control mechanism 5 to rotate around.

As shown in fig. 5, the flushing mechanism 3 comprises a sliding rod 3-1, an isolation head 3-2 and a pushing spring 3-3, the sliding rod 3-1 is slidably connected with the sliding hole 1-2, the isolation head 3-2 is positioned at one end of the sliding rod 3-1 and is communicated with the middle of the sliding rod 3-1, the isolation head 3-2 is in contact with the rotating wheel mechanism 4, a sealing groove is formed in the isolation head 3-2, the pushing spring 3-3 is sleeved on the sliding rod 3-1, one end of the pushing spring 3-3 is in contact with the isolation head 3-2, the other end of the pushing spring 3-3 is in contact with the inner side of the disinfection groove 1, the isolation head 3-2 is tightly attached to the rotating wheel mechanism 4 through the pushing spring 3-3 to keep the sealing performance, meanwhile, the sliding rod 3-1 is communicated with a through hole 4-5-1 in the rotating wheel mechanism 4, so that a cleaning solution is injected into the rotating wheel mechanism 4 to clean the umbilical cord and introduce a disinfection solution.

As shown in fig. 6, the rotating wheel mechanism 4 includes a wheel body 4-1, a support ring frame 4-2, a driving motor 4-3, a support wheel 4-4 and an outer cover 4-5, a groove is formed on the wheel body 4-1, a cutting blade 6 is connected in the groove in a sliding manner, the outer cover 4-5 is fixed on one side of the wheel body 4-1, two support ring frames 4-2 are provided, one support ring frame 4-2 is fixed on one side of the wheel body 4-1, the other support ring frame 4-2 is fixed on one side of the outer cover 4-5, the driving motors 4-3 are fixed on a connecting frame 2-3 of the rotating mechanism 2, the driving motors 4-3 are engaged with teeth on the inner side of the support ring frame 4-2 on one side, two sets of support wheels 4-4 are provided, each set is provided with four support wheels, the support wheels 4-4 are rotatably connected with the support ring frame 4-2, the eight support wheels 4-4 rotatably support the control mechanism 5, the support wheels 4-4 rotate around the control mechanism 5 to reduce friction between the support ring frame 4-2 and the cutting blade 5, and drive the cutting blade to move along the cutting blade 5, thereby to wash the tissue, and the tissue washing mechanism is also to wash the tissue.

As shown in fig. 7 and 8, the wheel body 4-1 comprises a wheel groove 4-1-1, a fluid infusion port 4-1-2, a flushing groove 4-1-3 and an inner side spring seat 4-1-4, the wheel groove 4-1-1 is provided with a plurality of wheel grooves which are uniformly arranged on the wheel body 4-1, the wheel groove 4-1-1 is connected with a cutting blade 6 in a sliding manner, the fluid infusion port 4-1-2 is arranged on one side of an outer cover 4-5, the fluid infusion port 4-1-2 is communicated with a corresponding flushing groove 4-1-3, a through hole 4-5-1 is processed on the outer cover 4-5, the through hole 4-5-1 is corresponding to the fluid infusion port 4-1-2, when the wheel body 4-1 rotates, the two through holes 4-5-1 at the lower part are communicated with the flushing mechanism 3, the flushing groove 4-1-3 is arranged on the periphery of the wheel body 4-1, the inner side 4-1-4 is arranged on the inner side of the wheel body, the wheel body 4-1-4 is communicated with the flushing groove arranged on the cutting blade 6-1-1, and the flushing blade 4-1-1 is connected with the flushing groove 4, so that the flushing blade 4-1-1 can be conveniently compressed and the flushing blade can move into the flushing groove, and the flushing blade seat, and the flushing groove 4-1-1, and the flushing blade is connected with the flushing blade 4-1-6.

As shown in fig. 9 and 10, the control mechanism 5 includes a barrel 5-1, a double-head cam 5-2, a top frame 5-3 and a sliding frame 5-4, the barrel 5-1 is fixed in the middle of the rotating mechanism 2, an opening is formed in the lower portion of the barrel 5-1, the top frame 5-3 penetrates through the opening and can slide at the opening, a sliding groove is formed in one side of the opening, one end of the sliding frame 5-4 slides in the sliding groove, the other end of the sliding frame 5-4 is rotatably connected with the lower portion of the top frame 5-3, the upper portion of the top frame 5-3 is in contact with the double-head cam 5-2, a spring is arranged between the top frame 5-3 and the inner side of the barrel 5-1, one end of the double-head cam 5-2 is connected with a motor, the two ends of the double-head cam 5-2 rotate in the supporting grooves 2-4 formed in the rotating mechanism 2, the top frame 5-3 is controlled to move downwards through rotation of the double-head cam 5-2, the top frame 5-3 drives the sliding frame 5-4 to move to form a protrusion, which can eject the cutting piece 6, and the size of the cutting piece can be controlled by controlling the rotation speed of the double-head cam 5-2.

As shown in figure 11, the cutting blade 6 comprises a cutting knife 6-1 and a compression spring 6-2, the cutting knife 6-1 slides in a wheel groove 4-1-1, the cutting knife 6-1 is attached to the outer side of a cylinder 5-1 of the control mechanism 5 under the pushing of the compression spring 6-2, the control mechanism 5 ejects the cutting blade 6 at the lower part, and the compression spring 6-2 enables the cutting blade to reset.

The working principle of the device is as follows: the umbilical cord with veins and arteries removed is placed on a placing plate 1-3, a driving motor 4-3 rotates to drive a supporting ring frame 4-2 to rotate, the supporting ring frame 4-2 rotates to drive a rotating wheel mechanism 4 to rotate, a wheel body 4-1 rotates to drive a wheel groove 4-1-1 to rotate, the wheel groove 4-1-1 rotates to drive a cutting blade 6 to rotate, under the thrust action of a compression spring 6-2, the cutting blade 6-1 cannot extend out of the wheel groove 4-1-1, the rotating angular speed of a double-head cam 5-2 is controlled by setting the rotating speed connected with the double-head cam 5-2, the downward moving time and the interval time of a top frame 5-3 are further controlled, the top frame 5-3 drives a sliding frame 5-4 to move, a transitional slope is formed, after the cutting blade 6-1 rotates to the sliding frame 5-4 along with the rotating wheel mechanism 4, the cutting blade is ejected out to cut, and the umbilical cord can also be driven to move towards the rotating direction along with the rotation;

the rotating speed of the double-head cam 5-2 is adjusted to increase the frequency of the double-head cam 5-2 acting on the top frame 5-3, so that the interval of the cutting knife 6-1 pushed out is shortened, and the cutting size is reduced; when the cutting knife 6-1 rotates to the lowest position, the recovery operation is carried out under the action of the compression spring 6-2; a flushing liquid is introduced into the sliding rod 3-1, enters the isolation head 3-2, enters the liquid supplementing port 4-1-2 through the through hole 4-5-1 in the outer cover 4-5, and finally flows into the flushing tank 4-1-3 to flush the umbilical cord; when the gear ring 2-2 rotates under the drive of a motor, the sliding rod 3-1 contracts to compress the pushing spring 3-3, the umbilical cord is cut again after the gear ring 2-2 rotates for 90 degrees, and the flushing mechanism 3 in the other direction is contacted with the rotating wheel mechanism 4 for flushing again;

after the umbilical cord is treated, the umbilical cord is taken out, the disinfectant is flushed into the disinfection tank 1 through the flushing mechanism 3, and the disinfectant is introduced into the rotating wheel mechanism 4 through the flushing mechanism 3 in the vertical direction and is disinfected, the disinfectant is positioned inside the device, the disinfection can be effectively carried out, and the device does not need to be placed into other disinfection containers.

It is to be understood that the present invention has been described with reference to certain embodiments, and that various changes in the features and embodiments, or equivalent substitutions may be made therein by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (2)

1. The disinfection device for the instruments after umbilical cord tissue cutting is characterized by comprising a disinfection groove (1), a rotating mechanism (2), a washing mechanism (3), a rotating wheel mechanism (4), a control mechanism (5) and a cutting blade (6), wherein the rotating mechanism (2) rotates in the horizontal direction in the disinfection groove (1), the control mechanism (5) is fixed on the rotating mechanism (2), the rotating wheel mechanism (4) rotates on the outer side of the control mechanism (5), the two washing mechanisms (3) are arranged at 90 degrees, the washing mechanisms (3) penetrate through the side wall of the disinfection groove (1) and are in sliding connection with the disinfection groove (1), one end, located in the disinfection groove (1), of each washing mechanism (3) is pressed on one side face of the rotating wheel mechanism (4) and slides mutually, the other washing mechanism (3) is pressed with the rotating wheel mechanism (4) after the rotating wheel mechanism (4) rotates for 90 degrees, the cutting blade (6) is provided with a plurality of cutting blades (6) sliding in the rotating wheel mechanism (4), and one end of each cutting blade (6) is in contact with the control mechanism (5);

the disinfection tank (1) comprises a support frame (1-1), a sliding hole (1-2) and a placing plate (1-3), the support frame (1-1) is fixed on the inner side wall of the disinfection tank (1), the support frame (1-1) is rotatably connected with the rotating mechanism (2), the flushing mechanism (3) penetrates through the sliding hole (1-2) and is slidably connected with the sliding hole (1-2), the placing plate (1-3) is arranged on the lower side of the interior of the disinfection tank (1), and the placing plate (1-3) can be drawn out and retracted;

the rotating mechanism (2) comprises four friction reducing wheels (2-1), a gear ring (2-2), connecting frames (2-3) and supporting grooves (2-4), the four friction reducing wheels (2-1) are rotatably connected with the supporting frame (1-1), the middle of each friction reducing wheel (2-1) bears the gear ring (2-2), the two connecting frames (2-3) are symmetrically arranged, a control mechanism (5) is fixedly connected between the two connecting frames (2-3), the middle of each connecting frame (2-3) is provided with the supporting grooves (2-4), and the supporting grooves (2-4) are rotatably connected with the inner side mechanisms of the control mechanism (5);

the flushing mechanism (3) comprises a sliding rod (3-1), an isolation head (3-2) and a pushing spring (3-3), the sliding rod (3-1) is connected with the sliding hole (1-2) in a sliding mode, the isolation head (3-2) is located at one end of the sliding rod (3-1) and communicated with the middle of the sliding rod (3-1), the isolation head (3-2) is in contact with the rotating wheel mechanism (4), a sealing groove is formed in the isolation head (3-2), the pushing spring (3-3) is sleeved on the sliding rod (3-1), one end of the pushing spring (3-3) is in contact with the isolation head (3-2), and the other end of the pushing spring (3-3) is in contact with the inner side of the disinfection groove (1);

the rotating wheel mechanism (4) comprises a wheel body (4-1), a supporting ring frame (4-2), a driving motor (4-3), supporting wheels (4-4) and an outer cover (4-5), a groove is formed in the wheel body (4-1), a cutting blade (6) is connected in the groove in a sliding mode, the outer cover (4-5) is fixed on one side of the wheel body (4-1), two supporting ring frames (4-2) are arranged, one supporting ring frame (4-2) is fixed on one side of the wheel body (4-1), the other supporting ring frame (4-2) is fixed on one side of the outer cover (4-5), the driving motors (4-3) are fixed on a connecting frame (2-3) of the rotating mechanism (2), the driving motors (4-3) are meshed with teeth on the inner side of the supporting ring frame (4-2) on one side, two groups of supporting wheels (4-4) are arranged, each group is provided with four supporting wheels (4-4), the supporting wheels (4-2) are rotatably connected with the supporting ring frame (4-2), and the supporting wheels (4-2) on the inner side control the supporting mechanism (5);

the wheel body (4-1) comprises a plurality of wheel grooves (4-1-1), a fluid infusion port (4-1-2), a flushing groove (4-1-3) and an inner side spring seat (4-1-4), the wheel grooves (4-1-1) are provided, and is uniformly arranged on the wheel body (4-1), the wheel groove (4-1-1) is connected with a cutting blade (6) in a sliding way, the fluid infusion port (4-1-2) is arranged at one side of the outer cover (4-5), the fluid infusion port (4-1-2) is communicated with the corresponding flushing groove (4-1-3), a through hole (4-5-1) is processed on the outer cover (4-5), the through hole (4-5-1) corresponds to the fluid infusion port (4-1-2), when the wheel body (4-1) rotates, the two through holes (4-5-1) at the lower part are communicated with the flushing mechanism (3), a flushing groove (4-1-3) is formed in the periphery of the wheel body (4-1), an inner side spring seat (4-1-4) is arranged on the inner side of the wheel body (4-1), and the inner side spring seat (4-1-4) is connected with a compression spring (6-2) arranged on the cutting blade (6);

control mechanism (5) include barrel (5-1), double-end cam (5-2), roof-rack (5-3) and carriage (5-4), barrel (5-1) is fixed at the middle part of slewing mechanism (2), and the opening has been seted up to barrel (5-1) lower part, and roof-rack (5-3) pass the opening and can slide at the opening part, the spout has been seted up to opening one side, carriage (5-4) one end slides in the spout, the carriage (5-4) other end is connected with the lower part rotation of roof-rack (5-3), roof-rack (5-3) upper portion and double-end cam (5-2) contact, are equipped with the spring between roof-rack (5-3) and barrel (5-1) inboard, double-end cam (5-2) one end is connected with the motor, and double-end cam (5-2) both ends are in support inslot (2-4) internal rotation that slewing mechanism (2) set up.

2. The device for disinfecting instruments after cutting umbilical tissue is characterized in that the cutting blade (6) comprises a cutting knife (6-1) and a compression spring (6-2), the cutting knife (6-1) slides in the wheel groove (4-1-1), and the cutting knife (6-1) is attached to the outer side of the cylinder body (5-1) of the control mechanism (5) under the pushing of the compression spring (6-2).

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